Flawfinder version 2.0.10, (C) 2001-2019 David A. Wheeler.
Number of rules (primarily dangerous function names) in C/C++ ruleset: 223
Examining data/uhd-4.0.0.0/firmware/usrp3/x300/x300_main.c
Examining data/uhd-4.0.0.0/firmware/usrp3/x300/x300_init.h
Examining data/uhd-4.0.0.0/firmware/usrp3/x300/x300_init.c
Examining data/uhd-4.0.0.0/firmware/usrp3/x300/x300_defs.h
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eth_handlers.h
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eth_handlers.c
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eeprom.c
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_init.c
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_fw_comm_protocol.c
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_main.c
Examining data/uhd-4.0.0.0/firmware/usrp3/n230/n230_init.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/link_state_route_proto.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/wb_i2c.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/wb_spi.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/flash/spi_flash.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/flash/spif_spsn_s25flxx.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/udp_uart.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/ethernet.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/cron.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/chinch.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/wb_uart.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/printf.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/wb_pkt_iface64.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lib/print_addrs.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwipopts.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwippools.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/sockets.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/err.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/api_lib.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/netbuf.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/tcpip.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/api_msg.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/netdb.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/netifapi.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/tcp_out.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/inet.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/ip_addr.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/icmp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/igmp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/ip_frag.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/inet_chksum.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/autoip.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/ip.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/sys.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/memp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/raw.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/pbuf.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/asn1_enc.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/mib2.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/msg_in.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/asn1_dec.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/msg_out.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/mib_structs.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/tcp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/tcp_in.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/udp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dhcp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/init.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/netif.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/stats.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dns.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv6/ip6.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv6/inet6.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv6/icmp6.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv6/ip6_addr.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/mem.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/slipif.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/etharp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/loopif.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/vjbsdhdr.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/fsm.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/randm.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chpms.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/vj.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/pap.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/magic.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/randm.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/vj.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chpms.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/md5.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/magic.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/fsm.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/pppdebug.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/pap.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ipcp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/md5.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ethernetif.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/inet.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/igmp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/icmp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/ip.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/autoip.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/ip_frag.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/inet_chksum.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv4/lwip/ip_addr.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/netifapi.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/arch.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/udp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/snmp_msg.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/raw.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/tcpip.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/pbuf.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/dhcp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/netbuf.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sio.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/err.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/dns.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/memp_std.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/opt.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/netif.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/api.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/netdb.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/mem.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/memp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/def.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/snmp_structs.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sockets.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/snmp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/init.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/debug.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/snmp_asn1.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sys.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/tcp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/api_msg.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/stats.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/netif/slipif.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/netif/ppp_oe.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/netif/etharp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/netif/loopif.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv6/lwip/inet.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv6/lwip/icmp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv6/lwip/ip.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/ipv6/lwip/ip_addr.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip_port/arch/cc.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip_port/arch/perf.h
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip_port/netif/eth_driver.c
Examining data/uhd-4.0.0.0/firmware/usrp3/lwip_port/netif/eth_driver.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/stdint.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/xge_phy.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/trace.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/wb_i2c.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/ethertype.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/u3_net_stack.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/xge_mac.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/flash/spif_spsn_s25flxx.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/flash/spi_flash.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/print_addrs.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/wb_pkt_iface64.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/link_state_route_proto.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/cron.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/ethernet.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/udp_uart.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/wb_spi.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/wb_uart.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/chinch.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/wb_utils.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/printf.h
Examining data/uhd-4.0.0.0/firmware/usrp3/include/wb_soft_reg.h
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_common.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/fpga_rev2.h
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_main.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/eeprom_io.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/gpif.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/fpga_load.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/fpga_rev2.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_gpif.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_gpif_inline.h
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/eeprom_io.h
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/board_specific.c
Examining data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_regs.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/fx2utils.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/init_gpif.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/fpga_regs0.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_config.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/fpga.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/delay.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/eeprom_init.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/i2c.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_globals.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usb_descriptors.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/fpga_load.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_i2c_addr.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usb_common.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/syncdelay.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/isr.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/usb_requests.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_commands.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_interfaces.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/delay.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/fpga_regs_standard.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/timer.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/isr.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_common.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/usb_common.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/fx2utils.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_ids.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/i2c.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/fpga_regs_common.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/timer.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/usrp_spi_defs.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/spi.h
Examining data/uhd-4.0.0.0/firmware/fx2/common/spi.c
Examining data/uhd-4.0.0.0/firmware/fx2/common/fx2regs.h
Examining data/uhd-4.0.0.0/firmware/fx2/b100/usrp_common.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/fpga_rev2.h
Examining data/uhd-4.0.0.0/firmware/fx2/b100/usrp_main.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/eeprom_io.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/gpif.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/fpga_load.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/fpga_rev2.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/eeprom_io.h
Examining data/uhd-4.0.0.0/firmware/fx2/b100/board_specific.c
Examining data/uhd-4.0.0.0/firmware/fx2/b100/usrp_regs.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/main.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/config.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/ltc3675.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/bq24190.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/ltc3675.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/i2c.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/debug.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/io.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/ltc4155.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/error.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/i2c.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/global.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/bq24190.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/power.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/ltc4155.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/debug.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/power.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_b/io.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/main.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/config.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/ltc3675.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/bq24190.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/ltc3675.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/i2c.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/debug.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/io.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/ltc4155.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/error.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/i2c.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/global.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/bq24190.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/power.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/ltc4155.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/debug.h
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/power.c
Examining data/uhd-4.0.0.0/firmware/e300/rev_c/io.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/eeprom.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/main.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/led.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/interrupt.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/ltc3675.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/fpga.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/ltc3675.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/ltc294x.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/i2c_twi.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/tps54478.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/fpga.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/adc.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/io.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/ltc294x.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/timer.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/i2c_twi.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/mcu_settings.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/tps54478.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/timer.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/eeprom.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/spi.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/spi.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/interrupt.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/adc.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/pmu.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/bq2419x.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/io.c
Examining data/uhd-4.0.0.0/firmware/e300/battery/utils.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/led.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/pmu.h
Examining data/uhd-4.0.0.0/firmware/e300/battery/bq2419x.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/arp_cache.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/stdint.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/clocks.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/_exit.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/eth_mac.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/i2c_async.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/memory_map.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/udp_fw_update.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/i2c.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/print_rmon_regs.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/ethertype.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/ihex.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/compiler.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/ad9510.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/memset_wa.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/memset_wa.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/banal.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/arp_cache.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/clocks.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/pic.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/udp_uart.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/mdelay.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/abort.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/i2c_async.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/exit.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/memcpy_wa.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/ethernet.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/udp_uart.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/hal_io.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/ihex.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/stdio.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/i2c.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/nonstdio.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/print_rmon_regs.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/pic.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/pkt_ctrl.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/u2_init.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/print_buffer.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/ad9510.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/eeprom.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/u2_init.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/nonstdio.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/spi.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/pkt_ctrl.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/hal_uart.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/memcpy_wa.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/mdelay.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/spi.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/eth_mac.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/eth_addrs.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/net/socket_address.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/net/padded_eth_hdr.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/net/eth_mac_addr.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/hal_uart.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/printf.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/banal.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/hal_io.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lib/print_addrs.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwipopts.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwippools.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/sockets.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/err.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/api_lib.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/netbuf.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/tcpip.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/api_msg.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/netdb.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/netifapi.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/tcp_out.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/inet.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/ip_addr.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/icmp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/igmp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/ip_frag.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/inet_chksum.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/autoip.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/ip.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/sys.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/memp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/raw.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/pbuf.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/asn1_enc.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/mib2.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/msg_in.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/asn1_dec.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/msg_out.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/mib_structs.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/tcp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/tcp_in.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/udp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dhcp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/init.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/netif.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/stats.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dns.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv6/ip6.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv6/inet6.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv6/icmp6.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv6/ip6_addr.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/mem.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/slipif.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/etharp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/loopif.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/vjbsdhdr.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/fsm.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/randm.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chpms.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/vj.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/pap.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/magic.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/randm.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/vj.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chpms.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/md5.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/magic.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/fsm.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/pppdebug.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/pap.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ipcp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/md5.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ethernetif.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/inet.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/igmp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/icmp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/ip.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/autoip.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/ip_frag.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/inet_chksum.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv4/lwip/ip_addr.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/netifapi.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/arch.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/udp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/snmp_msg.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/raw.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/tcpip.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/pbuf.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/dhcp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/netbuf.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sio.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/err.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/dns.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/memp_std.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/opt.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/netif.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/api.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/netdb.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/mem.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/memp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/def.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/snmp_structs.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sockets.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/snmp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/init.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/debug.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/snmp_asn1.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sys.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/tcp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/api_msg.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/stats.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/netif/slipif.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/netif/ppp_oe.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/netif/etharp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/netif/loopif.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv6/lwip/inet.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv6/lwip/icmp.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv6/lwip/ip.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/ipv6/lwip/ip_addr.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip_port/arch/cc.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip_port/arch/perf.h
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip_port/netif/eth_driver.c
Examining data/uhd-4.0.0.0/firmware/usrp2/lwip_port/netif/eth_driver.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spi_flash_private.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spi_flash.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/xilinx_s3_icap.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spif.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/bootloader_utils.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/u2p_init.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/ethernet.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/xilinx_s3_icap.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spi_flash.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/eth_phy.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/udp_fw_update.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/bootconfig.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/bootloader_utils.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/u2p_init.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spi_flash_read.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2/sd.h
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2/sd.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2/ethernet.c
Examining data/uhd-4.0.0.0/firmware/usrp2/usrp2/eth_phy.h
Examining data/uhd-4.0.0.0/firmware/usrp2/apps/txrx_uhd.c
Examining data/uhd-4.0.0.0/firmware/octoclock/bootloader/main.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/arp_cache.h
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/network.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/udp_handlers.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/serial.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/arp_cache.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/enc28j60.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/clkdist.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/init.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/gpsdo.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/state.c
Examining data/uhd-4.0.0.0/firmware/octoclock/lib/usart.c
Examining data/uhd-4.0.0.0/firmware/octoclock/octoclock_r4/octoclock_r4_main.c
Examining data/uhd-4.0.0.0/firmware/octoclock/include/octoclock.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwipopts.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/gpsdo.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/serial.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/compiler.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwippools.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/avrlibtypes.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/arch/cc.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/arch/perf.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/avrlibdefs.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/netifapi.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/arch.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/udp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/snmp_msg.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/raw.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/tcpip.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/inet.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/pbuf.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/dhcp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/netbuf.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/igmp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/icmp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sio.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/ip.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/err.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/dns.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/memp_std.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/opt.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/netif.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/api.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/autoip.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/netdb.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/ip_frag.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/mem.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/memp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/def.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/snmp_structs.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sockets.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/snmp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/inet_chksum.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/init.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/debug.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/snmp_asn1.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sys.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/ip_addr.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/tcp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/api_msg.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/lwip/stats.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/state.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/debug.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/clkdist.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/ethertype.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/udp_handlers.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/socket_address.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/eth_hdr.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/enc28j60.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/net/eth_mac_addr.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/usart.h
Examining data/uhd-4.0.0.0/firmware/octoclock/include/network.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/bootloader/main.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/bootloader/usb_descriptors.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/bootloader/usb_boot.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/bootloader/usb_descriptors.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/common/common_descriptors.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/common/common_descriptors.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/common/common_const.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/common/common_helpers.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/common/common_helpers.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_usb_descriptors.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_i2c.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_gpifconfig.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_usb_descriptors.c
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_i2c.h
Examining data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_const.h
Examining data/uhd-4.0.0.0/firmware/fx3/gpif2_designer/b200_v2.cydsn/cyfxgpif2config.h
Examining data/uhd-4.0.0.0/fpga/usrp3/lib/vita_200/generate_bits.cpp
Examining data/uhd-4.0.0.0/fpga/usrp3/lib/vivado_ipi/axi_dmac/resp.h
Examining data/uhd-4.0.0.0/fpga/usrp3/lib/vivado_ipi/axi_dmac/inc_id.h
Examining data/uhd-4.0.0.0/fpga/usrp3/lib/hls/addsub_hls/addsub_hls.cpp
Examining data/uhd-4.0.0.0/fpga/usrp3/top/e320/ip/e320_ps_bd/ps7_init.c
Examining data/uhd-4.0.0.0/fpga/usrp3/top/e320/ip/e320_ps_bd/ps7_init_gpl.c
Examining data/uhd-4.0.0.0/fpga/usrp3/top/e31x/ip/e31x_ps_bd/ps7_init.c
Examining data/uhd-4.0.0.0/fpga/usrp3/top/e31x/ip/e31x_ps_bd/ps7_init_gpl-sg3.c
Examining data/uhd-4.0.0.0/fpga/usrp3/top/e31x/ip/e31x_ps_bd/ps7_init_gpl-sg1.c
Examining data/uhd-4.0.0.0/fpga/usrp3/top/e31x/ip/e31x_ps_bd/ps7_init_gpl.c
Examining data/uhd-4.0.0.0/fpga/usrp2/opencores/i2c/software/include/oc_i2c_master.h
Examining data/uhd-4.0.0.0/fpga/usrp2/opencores/spi_boot/sw/misc/bit_reverse.c
Examining data/uhd-4.0.0.0/fpga/usrp2/opencores/aemb/sw/c/libaemb.h
Examining data/uhd-4.0.0.0/fpga/usrp2/opencores/aemb/sw/c/endian-test.c
Examining data/uhd-4.0.0.0/fpga/usrp2/opencores/aemb/sw/c/aeMB_testbench.c
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Examining data/uhd-4.0.0.0/mpm/lib/mykonos/ad937x_device.hpp
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Examining data/uhd-4.0.0.0/mpm/lib/mykonos/ad937x_device_types.hpp
Examining data/uhd-4.0.0.0/mpm/lib/dboards/e31x_db_manager.cpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/i2c/i2c_regs_iface.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/ad937x/adi_ctrl.hpp
Examining data/uhd-4.0.0.0/mpm/include/mpm/ad937x/ad937x_ctrl_types.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/ad937x/ad937x_spi_iface.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/ad9361/e31x_defaults.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/ad9361/ad9361_ctrl.hpp
Examining data/uhd-4.0.0.0/mpm/include/mpm/exception.hpp
Examining data/uhd-4.0.0.0/mpm/include/mpm/dboards/e31x_db_manager.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/dboards/magnesium_manager.hpp
Examining data/uhd-4.0.0.0/mpm/include/mpm/types/log_buf.hpp
Examining data/uhd-4.0.0.0/mpm/include/mpm/types/mmap_regs_iface.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/types/lockable.hpp
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Examining data/uhd-4.0.0.0/mpm/include/mpm/tests/tests_spi_iface.hpp
Examining data/uhd-4.0.0.0/tools/gr-usrptest/lib/measurement_sink_f_impl.cc
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Examining data/uhd-4.0.0.0/tools/gr-usrptest/include/usrptest/measurement_sink_f.h
Examining data/uhd-4.0.0.0/tools/gr-usrptest/include/usrptest/api.h
Examining data/uhd-4.0.0.0/tools/nirio_programmer/nirio_programmer.cpp
Examining data/uhd-4.0.0.0/tools/kitchen_sink/kitchen_sink.cpp
Examining data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c
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Examining data/uhd-4.0.0.0/tools/uhd_dump/chdr_log.c
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Examining data/uhd-4.0.0.0/tools/dissectors/epan/zpu/packet-zpu.c
Examining data/uhd-4.0.0.0/tools/dissectors/epan/rfnoc/packet-rfnoc.cpp
Examining data/uhd-4.0.0.0/tools/dissectors/epan/octoclock/packet-octoclock.c
Examining data/uhd-4.0.0.0/host/utils/latency/lib/Responder.cpp
Examining data/uhd-4.0.0.0/host/utils/latency/responder.cpp
Examining data/uhd-4.0.0.0/host/utils/latency/include/Responder.hpp
Examining data/uhd-4.0.0.0/host/utils/octoclock_burn_eeprom.cpp
Examining data/uhd-4.0.0.0/host/utils/usrp_burn_db_eeprom.cpp
Examining data/uhd-4.0.0.0/host/utils/uhd_find_devices.cpp
Examining data/uhd-4.0.0.0/host/utils/usrp_e3x0_network_mode.cpp
Examining data/uhd-4.0.0.0/host/utils/query_gpsdo_sensors.cpp
Examining data/uhd-4.0.0.0/host/utils/b100_eeprom.h
Examining data/uhd-4.0.0.0/host/utils/usrp_cal_utils.hpp
Examining data/uhd-4.0.0.0/host/utils/uhd_cal_rx_iq_balance.cpp
Examining data/uhd-4.0.0.0/host/utils/fx2_init_eeprom.cpp
Examining data/uhd-4.0.0.0/host/utils/b2xx_fx3_utils.cpp
Examining data/uhd-4.0.0.0/host/utils/converter_benchmark.cpp
Examining data/uhd-4.0.0.0/host/utils/usrp_burn_mb_eeprom.cpp
Examining data/uhd-4.0.0.0/host/utils/usrp1_eeprom.h
Examining data/uhd-4.0.0.0/host/utils/uhd_cal_tx_dc_offset.cpp
Examining data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp
Examining data/uhd-4.0.0.0/host/utils/uhd_cal_tx_iq_balance.cpp
Examining data/uhd-4.0.0.0/host/utils/uhd_config_info.cpp
Examining data/uhd-4.0.0.0/host/utils/uhd_image_loader.cpp
Examining data/uhd-4.0.0.0/host/examples/rfnoc_radio_loopback.cpp
Examining data/uhd-4.0.0.0/host/examples/ascii_art_dft.hpp
Examining data/uhd-4.0.0.0/host/examples/tx_timed_samples.cpp
Examining data/uhd-4.0.0.0/host/examples/rx_ascii_art_dft.cpp
Examining data/uhd-4.0.0.0/host/examples/rx_multi_samples.cpp
Examining data/uhd-4.0.0.0/host/examples/usrp_list_sensors.cpp
Examining data/uhd-4.0.0.0/host/examples/twinrx_freq_hopping.cpp
Examining data/uhd-4.0.0.0/host/examples/rfnoc_replay_samples_from_file.cpp
Examining data/uhd-4.0.0.0/host/examples/tx_bursts.cpp
Examining data/uhd-4.0.0.0/host/examples/gpio.cpp
Examining data/uhd-4.0.0.0/host/examples/rfnoc-example/lib/gain_block_control.cpp
Examining data/uhd-4.0.0.0/host/examples/rfnoc-example/apps/init_gain_block.cpp
Examining data/uhd-4.0.0.0/host/examples/rfnoc-example/include/rfnoc/example/gain_block_control.hpp
Examining data/uhd-4.0.0.0/host/examples/txrx_loopback_to_file.cpp
Examining data/uhd-4.0.0.0/host/examples/rx_samples_c.c
Examining data/uhd-4.0.0.0/host/examples/test_timed_commands.cpp
Examining data/uhd-4.0.0.0/host/examples/tx_waveforms.cpp
Examining data/uhd-4.0.0.0/host/examples/rx_samples_to_udp.cpp
Examining data/uhd-4.0.0.0/host/examples/network_relay.cpp
Examining data/uhd-4.0.0.0/host/examples/rx_timed_samples.cpp
Examining data/uhd-4.0.0.0/host/examples/test_pps_input.cpp
Examining data/uhd-4.0.0.0/host/examples/sync_to_gps.cpp
Examining data/uhd-4.0.0.0/host/examples/test_messages.cpp
Examining data/uhd-4.0.0.0/host/examples/getopt/getopt.c
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Examining data/uhd-4.0.0.0/host/examples/latency_test.cpp
Examining data/uhd-4.0.0.0/host/examples/test_dboard_coercion.cpp
Examining data/uhd-4.0.0.0/host/examples/test_clock_synch.cpp
Examining data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp
Examining data/uhd-4.0.0.0/host/examples/wavetable.hpp
Examining data/uhd-4.0.0.0/host/examples/tx_samples_c.c
Examining data/uhd-4.0.0.0/host/examples/rfnoc_nullsource_ce_rx.cpp
Examining data/uhd-4.0.0.0/host/examples/rx_samples_to_file.cpp
Examining data/uhd-4.0.0.0/host/examples/tx_samples_from_file.cpp
Examining data/uhd-4.0.0.0/host/examples/rfnoc_rx_to_file.cpp
Examining data/uhd-4.0.0.0/host/examples/init_usrp/init_usrp.cpp
Examining data/uhd-4.0.0.0/host/examples/benchmark_rate.cpp
Examining data/uhd-4.0.0.0/host/python/pyuhd.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/static.cpp
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Examining data/uhd-4.0.0.0/host/lib/utils/eeprom_utils.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/config_parser.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/pathslib.cpp
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Examining data/uhd-4.0.0.0/host/lib/utils/system_time.cpp
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Examining data/uhd-4.0.0.0/host/lib/utils/load_modules.cpp
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Examining data/uhd-4.0.0.0/host/lib/utils/prefs.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/chdr/chdr_packet.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/utils_python.hpp
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Examining data/uhd-4.0.0.0/host/lib/utils/serial_number.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/thread_priority_c.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/csv.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/gain_group.cpp
Examining data/uhd-4.0.0.0/host/lib/utils/paths_python.hpp
Examining data/uhd-4.0.0.0/host/lib/utils/graph_utils.cpp
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Examining data/uhd-4.0.0.0/host/lib/exception.cpp
Examining data/uhd-4.0.0.0/host/lib/build_info.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mboard_type.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_eth_mgr.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_clock_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_pcie_mgr.hpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mboard_type.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_defaults.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_dac_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_pcie_mgr.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_adc_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_dboard_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_image_loader.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_controller.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_clock_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.cpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_conn_mgr.hpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/cdecode.c
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Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/cdecode.h
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_dac_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_mbc_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_uart.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_ctrl.cpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_eth_mgr.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_device_args.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_dboard_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_prop_tree.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_controller.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/x300/x300_adc_ctrl.hpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_iface.cpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/soft_time_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.hpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_iface.cpp
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Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/mb_eeprom.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/soft_time_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_iface_python.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/recv_packet_demuxer.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/lmx2592.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/validate_subdev_spec.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/io_service_mgr.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/adf4001_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/io_service_args.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/adf435x.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/apply_corrections.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/adf535x.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad936x_manager.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_driver/ad9361_device.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_driver/ad9361_gain_tables.h
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_driver/ad9361_synth_lut.h
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_driver/ad9361_client.h
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_driver/ad9361_device.h
Examining data/uhd-4.0.0.0/host/lib/usrp/common/ad9361_driver/ad9361_filter_taps.h
Examining data/uhd-4.0.0.0/host/lib/usrp/common/pwr_cal_mgr.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_ctor_args.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/fe_connection_python.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_id.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/time_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/tx_dsp_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/gpio_atr_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/rx_frontend_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/dma_fifo_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/tx_dsp_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/tx_vita_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/user_settings_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/time64_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/radio_ctrl_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/gpio_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/rx_dsp_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/tx_frontend_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/rx_frontend_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/i2c_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/user_settings_core_200.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/i2c_core_100_wb32.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/spi_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/dsp_core_utils.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/rx_dsp_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/cores/rx_vita_core_3000.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/b100_regs.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/io_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/dboard_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/fifo_ctrl_excelsior.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/clock_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/codec_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/fifo_ctrl_excelsior.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/codec_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/clock_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/mb_eeprom.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/usb_zero_copy_wrapper.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_base.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_mb_eeprom.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_image_loader.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_uart.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_uart.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_cores.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_regs.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_cores.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_eeprom.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/subdev_spec.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/multi_usrp_python.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/subdev_spec_python.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/subdev_spec_c.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard_manager.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/fe_connection.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_cbx.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_sbx_common.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_radio_control_init.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_radio_control.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_radio_control_cpld.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_bands.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_cpld_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_constants.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_cpld_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_radio_control.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_radio_control_lo.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_version3.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_dbsrx2.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_ad9371_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_gain_table.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_cpld_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_ad9371_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control_init.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_constants.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_cpld_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_bands.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_gain_table.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control_gain.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control_cpld.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_common.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_version4.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_sbx_version4.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e320_radio_control_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_radio_control_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e320_radio_control_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_ad9361_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_bands.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e31x_regs.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_radio_control_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_radio_control_init.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e320_regs.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e31x_radio_control_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e31x_radio_control_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_ad9361_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_constants.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_rfx.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_twinrx.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_common.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_sbx_common.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_version2.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_unknown.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_xcvr2450.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_simple.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx2.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_sbx_version3.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_gain_tables.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_experts.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_ids.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_experts.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_gain_tables.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/twinrx/twinrx_io.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/dboard/db_dbsrx.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mboard_eeprom_c.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_mboard_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_image_loader.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_link_if_ctrl_udp.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_mb_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_mb_controller.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_link_if_ctrl_udp.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_link_if_mgr.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_prop_tree.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_mb_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_devices.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_link_if_mgr.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_link_if_ctrl_base.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_find.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/multi_usrp_rfnoc.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/gps_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/n200_image_loader.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/dboard_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/clock_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/codec_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_fifo_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_clk_regs.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/codec_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_regs.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/clock_ctrl.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/fw_common.h
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_fifo_ctrl.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/mb_eeprom.cpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_iface.hpp
Examining data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/stream_python.hpp
Examining data/uhd-4.0.0.0/host/lib/convert/ssse3_pack_sc12.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_unpack_sc12.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_unpack_sc12.hpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_item32.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_impl.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_fc32_to_sc8.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_sc16_to_fc32.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_sc8_to_fc64.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_sc16_to_sc16.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_fc64_to_sc16.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_fc32_to_sc16.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_with_tables.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_pack_sc12.hpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_with_neon.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_common.hpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_sc16_to_fc64.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_pack_sc12.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_fc64_to_sc8.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/convert_fc32_item32.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/ssse3_unpack_sc12.cpp
Examining data/uhd-4.0.0.0/host/lib/convert/sse2_sc8_to_fc32.cpp
Examining data/uhd-4.0.0.0/host/lib/features/discoverable_feature_registry.cpp
Examining data/uhd-4.0.0.0/host/lib/types/string_vector_c.cpp
Examining data/uhd-4.0.0.0/host/lib/types/tune_c.cpp
Examining data/uhd-4.0.0.0/host/lib/types/serial.cpp
Examining data/uhd-4.0.0.0/host/lib/types/metadata_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/wb_iface.cpp
Examining data/uhd-4.0.0.0/host/lib/types/time_spec.cpp
Examining data/uhd-4.0.0.0/host/lib/types/tune.cpp
Examining data/uhd-4.0.0.0/host/lib/types/usrp_info_c.cpp
Examining data/uhd-4.0.0.0/host/lib/types/tune_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/filters_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/types.cpp
Examining data/uhd-4.0.0.0/host/lib/types/sensors_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/ranges.cpp
Examining data/uhd-4.0.0.0/host/lib/types/metadata.cpp
Examining data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp
Examining data/uhd-4.0.0.0/host/lib/types/byte_vector.cpp
Examining data/uhd-4.0.0.0/host/lib/types/sensors_c.cpp
Examining data/uhd-4.0.0.0/host/lib/types/sensors.cpp
Examining data/uhd-4.0.0.0/host/lib/types/serial_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/types_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/filters.cpp
Examining data/uhd-4.0.0.0/host/lib/types/mac_addr.cpp
Examining data/uhd-4.0.0.0/host/lib/types/ranges_c.cpp
Examining data/uhd-4.0.0.0/host/lib/types/time_spec_python.hpp
Examining data/uhd-4.0.0.0/host/lib/types/device_addr.cpp
Examining data/uhd-4.0.0.0/host/lib/error_c.cpp
Examining data/uhd-4.0.0.0/host/lib/transport/nirio/nirio_driver_iface_linux.cpp
Examining data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/usrprio_rpc_client.cpp
Examining data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/rpc_client.cpp
Examining data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v2.cpp
Examining data/uhd-4.0.0.0/host/lib/transport/nirio/status.cpp
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Parsing failed to find end of parameter list; semicolon terminated it in (
            [](Type &value, Scalar arg) { value = static_cast<Type>(arg); },
            is_method(*this));
        attr("__setstate__") = setstate;
    }


    enum_& export_values() {
        m_ba
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Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/graph.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/chdr_rx_data_xport.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/chdr_tx_data_xport.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/chdr_ctrl_xport.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/chdr_ctrl_endpoint.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/node_accessor.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/experts/expert_nodes.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/experts/expert_factory.hpp
Examining data/uhd-4.0.0.0/host/lib/include/uhdlib/experts/expert_container.hpp
Examining data/uhd-4.0.0.0/host/cmake/msvc/stdbool.h
Examining data/uhd-4.0.0.0/host/tests/tasks_test.cpp
Examining data/uhd-4.0.0.0/host/tests/cal_data_iq_test.cpp
Examining data/uhd-4.0.0.0/host/tests/client_zero_test.cpp
Examining data/uhd-4.0.0.0/host/tests/common/mock_transport.hpp
Examining data/uhd-4.0.0.0/host/tests/common/mock_link.hpp
Examining data/uhd-4.0.0.0/host/tests/common/mock_zero_copy.hpp
Examining data/uhd-4.0.0.0/host/tests/common/mock_zero_copy.cpp
Examining data/uhd-4.0.0.0/host/tests/common/chdr_resource/rfnoc_packets_data.cpp
Examining data/uhd-4.0.0.0/host/tests/common/chdr_resource/rfnoc_packets_ctrl_mgmt.cpp
Examining data/uhd-4.0.0.0/host/tests/common/chdr_resource/hardcoded_packets.cpp
Examining data/uhd-4.0.0.0/host/tests/module_test.cpp
Examining data/uhd-4.0.0.0/host/tests/pwr_cal_mgr_test.cpp
Examining data/uhd-4.0.0.0/host/tests/link_test.cpp
Examining data/uhd-4.0.0.0/host/tests/string_vector_c_test.c
Examining data/uhd-4.0.0.0/host/tests/chdr_parse_test.cpp
Examining data/uhd-4.0.0.0/host/tests/constrained_device_args_test.cpp
Examining data/uhd-4.0.0.0/host/tests/cast_test.cpp
Examining data/uhd-4.0.0.0/host/tests/transport_test.cpp
Examining data/uhd-4.0.0.0/host/tests/block_id_test.cpp
Examining data/uhd-4.0.0.0/host/tests/dict_test.cpp
Examining data/uhd-4.0.0.0/host/tests/fp_compare_delta_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_graph_mock_nodes.hpp
Examining data/uhd-4.0.0.0/host/tests/buffer_test.cpp
Examining data/uhd-4.0.0.0/host/tests/vrt_test.cpp
Examining data/uhd-4.0.0.0/host/tests/chdr_test.cpp
Examining data/uhd-4.0.0.0/host/tests/eeprom_c_test.c
Examining data/uhd-4.0.0.0/host/tests/ranges_test.cpp
Examining data/uhd-4.0.0.0/host/tests/byteswap_test.cpp
Examining data/uhd-4.0.0.0/host/tests/math_test.cpp
Examining data/uhd-4.0.0.0/host/tests/time_spec_test.cpp
Examining data/uhd-4.0.0.0/host/tests/eeprom_utils_test.cpp
Examining data/uhd-4.0.0.0/host/tests/subdev_spec_test.cpp
Examining data/uhd-4.0.0.0/host/tests/serial_number_test.cpp
Examining data/uhd-4.0.0.0/host/tests/blockdef_test.cpp
Examining data/uhd-4.0.0.0/host/tests/soft_reg_test.cpp
Examining data/uhd-4.0.0.0/host/tests/paths_test.cpp
Examining data/uhd-4.0.0.0/host/tests/convert_test.cpp
Examining data/uhd-4.0.0.0/host/tests/property_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_detailgraph_test.cpp
Examining data/uhd-4.0.0.0/host/tests/tx_streamer_test.cpp
Examining data/uhd-4.0.0.0/host/tests/error_c_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_chdr_test.cpp
Examining data/uhd-4.0.0.0/host/tests/streamer_benchmark.cpp
Examining data/uhd-4.0.0.0/host/tests/system_time_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_propprop_test.cpp
Examining data/uhd-4.0.0.0/host/tests/ranges_c_test.c
Examining data/uhd-4.0.0.0/host/tests/fe_conn_test.cpp
Examining data/uhd-4.0.0.0/host/tests/interpolation_test.cpp
Examining data/uhd-4.0.0.0/host/tests/packet_handler_benchmark.cpp
Examining data/uhd-4.0.0.0/host/tests/addr_test.cpp
Examining data/uhd-4.0.0.0/host/tests/discoverable_feature_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rx_streamer_test.cpp
Examining data/uhd-4.0.0.0/host/tests/cal_data_gain_pwr_test.cpp
Examining data/uhd-4.0.0.0/host/tests/gain_group_test.cpp
Examining data/uhd-4.0.0.0/host/tests/isatty_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_node_test.cpp
Examining data/uhd-4.0.0.0/host/tests/cal_database_test.cpp
Examining data/uhd-4.0.0.0/host/tests/sensors_c_test.c
Examining data/uhd-4.0.0.0/host/tests/error_test.cpp
Examining data/uhd-4.0.0.0/host/tests/offload_io_srv_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_property_test.cpp
Examining data/uhd-4.0.0.0/host/tests/mb_controller_test.cpp
Examining data/uhd-4.0.0.0/host/tests/sph_recv_test.cpp
Examining data/uhd-4.0.0.0/host/tests/sensors_test.cpp
Examining data/uhd-4.0.0.0/host/tests/scope_exit_test.cpp
Examining data/uhd-4.0.0.0/host/tests/narrow_cast_test.cpp
Examining data/uhd-4.0.0.0/host/tests/fp_compare_epsilon_test.cpp
Examining data/uhd-4.0.0.0/host/tests/expert_test.cpp
Examining data/uhd-4.0.0.0/host/tests/sph_send_test.cpp
Examining data/uhd-4.0.0.0/host/tests/multichan_register_iface_test.cpp
Examining data/uhd-4.0.0.0/host/tests/dpdk_test.cpp
Examining data/uhd-4.0.0.0/host/tests/actions_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/fosphor_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/vector_iir_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/duc_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/siggen_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/fir_filter_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/split_stream_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/moving_average_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/window_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/switchboard_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/keep_one_in_n_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/logpwr_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/ddc_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/replay_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/addsub_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/null_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/rfnoc_block_tests/fft_block_test.cpp
Examining data/uhd-4.0.0.0/host/tests/config_parser_test.cpp
Examining data/uhd-4.0.0.0/host/tests/subdev_spec_c_test.c
Examining data/uhd-4.0.0.0/host/tests/log_test.cpp
Examining data/uhd-4.0.0.0/host/tests/dpdk_port_test.cpp
Examining data/uhd-4.0.0.0/host/include/uhd.h
Examining data/uhd-4.0.0.0/host/include/uhd/property_tree.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/image_loader.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/stream.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/interpolation.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/soft_register.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/noncopyable.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/cast.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/safe_call.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/pybind_adaptors.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/tasks.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/assert_has.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/gain_group.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/log_add.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/msg_task.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/byteswap.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/scope_exit.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/thread_priority.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/csv.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/dirty_tracked.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/thread_priority.h
Examining data/uhd-4.0.0.0/host/include/uhd/utils/chdr/chdr_packet.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/log.h
Examining data/uhd-4.0.0.0/host/include/uhd/utils/log.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/paths.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/platform.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/math.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/algorithm.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/pimpl.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/static.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/safe_main.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/thread.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/utils/graph_utils.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/config.h
Examining data/uhd-4.0.0.0/host/include/uhd/convert.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/exception.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/multi_usrp.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/dboard_base.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/mboard_eeprom.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/dboard_eeprom.h
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/dboard_eeprom.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/usrp.h
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/gps_ctrl.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/gpio_defs.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/subdev_spec.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/fe_connection.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/subdev_spec.h
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/dboard_iface.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/dboard_id.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/mboard_eeprom.h
Examining data/uhd-4.0.0.0/host/include/uhd/usrp/dboard_manager.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/features/discoverable_feature_getter_iface.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/features/discoverable_feature.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/error.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/tune_request.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/direction.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/sensors.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/endianness.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/dict.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/serial.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/time_spec.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/component_file.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/byte_vector.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/usrp_info.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/metadata.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/string_vector.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/tune_result.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/ranges.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/ranges.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/metadata.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/tune_result.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/ref_vector.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/wb_iface.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/eeprom.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/tune_request.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/sensors.h
Examining data/uhd-4.0.0.0/host/include/uhd/types/stream_cmd.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/mac_addr.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/filters.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/types/device_addr.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niriok_proxy_impl_v2.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_client.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/usrprio_rpc_common.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_common.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/usrprio_rpc_client.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niusrprio_session.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niriok_proxy.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_err_template.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_resource_manager.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_fifo.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/status.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_quirks.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nifpga_lvbitx.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niriok_proxy_impl_v1.h
Examining data/uhd-4.0.0.0/host/include/uhd/transport/bounded_buffer.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/nirio_zero_copy.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/zero_copy.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/usb_zero_copy.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/chdr.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/vrt_if_packet.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/udp_simple.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/udp_zero_copy.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/zero_copy_flow_ctrl.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/usb_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/tcp_zero_copy.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/if_addrs.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/muxed_zero_copy_if.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/usb_device_handle.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/udp_constants.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/adapter_id.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/frame_buff.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/transport/buffer_pool.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp_clock/multi_usrp_clock.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp_clock/octoclock_eeprom.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/usrp_clock/usrp_clock.h
Examining data/uhd-4.0.0.0/host/include/uhd/device.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/addsub_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/blockdef.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/constants.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/chdr_types.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/moving_average_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/registry.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/res_source_info.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/node.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/fosphor_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/fir_filter_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/replay_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/duc_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/vector_iir_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/mock_block.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/actions.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/keep_one_in_n_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/dirtifier.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/filter_node.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/radio_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/siggen_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/fft_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/traffic_counter.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/multichan_register_iface.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/defaults.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/ddc_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/noc_block_make_args.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/rfnoc_types.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/block_id.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/property.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/window_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/register_iface.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/register_iface_holder.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/null_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/logpwr_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/noc_block_base.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/graph_edge.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/dmafifo_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/switchboard_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/split_stream_block_control.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc/mb_controller.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/build_info.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/cal/iq_cal_generated.h
Examining data/uhd-4.0.0.0/host/include/uhd/cal/pwr_cal.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/cal/iq_cal.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/cal/pwr_cal_generated.h
Examining data/uhd-4.0.0.0/host/include/uhd/cal/container.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/cal/database.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/cal/cal_metadata_generated.h
Examining data/uhd-4.0.0.0/host/include/uhd/config.hpp
Examining data/uhd-4.0.0.0/host/include/uhd/version.h
Examining data/uhd-4.0.0.0/host/include/uhd/rfnoc_graph.hpp

FINAL RESULTS:

data/uhd-4.0.0.0/firmware/usrp2/lib/hal_io.c:270:1:  [5] (buffer) gets:
  Does not check for buffer overflows (CWE-120, CWE-20). Use fgets() instead.
gets(char * const s)
data/uhd-4.0.0.0/firmware/usrp2/lib/hal_io.h:27:7:  [5] (buffer) gets:
  Does not check for buffer overflows (CWE-120, CWE-20). Use fgets() instead.
char *gets(char * const s);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:413:12:  [4] (format) vsnprintf:
  If format strings can be influenced by an attacker, they can be exploited,
  and note that sprintf variations do not always \0-terminate (CWE-134). Use
  a constant for the format specification.
    idx += vsnprintf(buf + idx, LOG_BUFFER_SIZE - idx, str, args);
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/snmp_structs.h:71:8:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
  u8_t access;
data/uhd-4.0.0.0/firmware/usrp2/lib/printf.c:98:1:  [4] (format) printf:
  If format strings can be influenced by an attacker, they can be exploited
  (CWE-134). Use a constant for the format specification.
printf(const char *format, ...)
data/uhd-4.0.0.0/firmware/usrp2/lib/printf.c:121:5:  [4] (format) sprintf:
  Potential format string problem (CWE-134). Make format string constant.
int sprintf(char *pInto, const char *format, ...)
data/uhd-4.0.0.0/firmware/usrp2/lib/stdio.h:34:5:  [4] (format) printf:
  If format strings can be influenced by an attacker, they can be exploited
  (CWE-134). Use a constant for the format specification.
int printf(const char *format, ...);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dhcp.c:516:5:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
    strcpy(dhcp->boot_file_name, dhcp->msg_in->file);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dns.c:923:3:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
  strcpy(pEntry->name, name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/snmp_structs.h:71:8:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
  u8_t access;
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:109:14:  [4] (crypto) crypt:
  The crypt functions use a poor one-way hashing algorithm; since they only
  accept passwords of 8 characters or fewer and only a two-byte salt, they
  are excessively vulnerable to dictionary attacks given today's faster
  computing equipment (CWE-327). Use a different algorithm, such as SHA-256,
  with a larger, non-repeating salt.
extern char *crypt (const char *, const char *);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:712:7:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
      strcpy(ppp_settings.our_name, ppp_settings.hostname);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:716:5:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
    strcpy(ppp_settings.user, ppp_settings.our_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:472:11:  [4] (format) snprintf:
  If format strings can be influenced by an attacker, they can be exploited,
  and note that sprintf variations do not always \0-terminate (CWE-134). Use
  a constant for the format specification.
          snprintf(devname, sizeof(devname), "%c%c%"U16_F, sc->sc_ethif->name[0], sc->sc_ethif->name[1], sc->sc_ethif->num);
data/uhd-4.0.0.0/firmware/usrp3/include/printf.h:103:9:  [4] (format) printf:
  If format strings can be influenced by an attacker, they can be exploited
  (CWE-134). Use a constant for the format specification.
#define printf tfp_printf 
data/uhd-4.0.0.0/firmware/usrp3/include/printf.h:104:9:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
#define sprintf tfp_sprintf 
data/uhd-4.0.0.0/firmware/usrp3/include/trace.h:51:28:  [4] (format) printf:
  If format strings can be influenced by an attacker, they can be exploited
  (CWE-134). Use a constant for the format specification.
#define UHD_FW_PRINTF(...) printf(__VA_ARGS__)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dhcp.c:516:5:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
    strcpy(dhcp->boot_file_name, dhcp->msg_in->file);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dns.c:923:3:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
  strcpy(pEntry->name, name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/snmp_structs.h:71:8:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
  u8_t access;
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:109:14:  [4] (crypto) crypt:
  The crypt functions use a poor one-way hashing algorithm; since they only
  accept passwords of 8 characters or fewer and only a two-byte salt, they
  are excessively vulnerable to dictionary attacks given today's faster
  computing equipment (CWE-327). Use a different algorithm, such as SHA-256,
  with a larger, non-repeating salt.
extern char *crypt (const char *, const char *);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:712:7:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
      strcpy(ppp_settings.our_name, ppp_settings.hostname);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:716:5:  [4] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused).
    strcpy(ppp_settings.user, ppp_settings.our_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:472:11:  [4] (format) snprintf:
  If format strings can be influenced by an attacker, they can be exploited,
  and note that sprintf variations do not always \0-terminate (CWE-134). Use
  a constant for the format specification.
          snprintf(devname, sizeof(devname), "%c%c%"U16_F, sc->sc_ethif->name[0], sc->sc_ethif->name[1], sc->sc_ethif->num);
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:65:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<uint64_t>(noc_block_root / "traffic_counter/enable").set(true);
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:70:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<uint64_t>(noc_block_root / "traffic_counter/enable").set(false);
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:79:31:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    vals.clock_cycles = tree->access<uint64_t>(root / "bus_clock_ticks").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:82:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "xbar_to_shell_pkt_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:84:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "xbar_to_shell_xfer_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:87:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "shell_to_xbar_pkt_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:89:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "shell_to_xbar_xfer_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:92:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "shell_to_ce_pkt_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:94:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "shell_to_ce_xfer_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:97:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "ce_to_shell_pkt_count").get();
data/uhd-4.0.0.0/host/examples/benchmark_streamer.cpp:99:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uint64_t>(root / "ce_to_shell_xfer_count").get();
data/uhd-4.0.0.0/host/examples/rx_samples_c.c:278:5:  [4] (format) fprintf:
  If format strings can be influenced by an attacker, they can be exploited
  (CWE-134). Use a constant for the format specification.
    fprintf(stderr, (return_code ? "Failure\n" : "Success\n"));
data/uhd-4.0.0.0/host/examples/tx_samples_c.c:244:5:  [4] (format) fprintf:
  If format strings can be influenced by an attacker, they can be exploited
  (CWE-134). Use a constant for the format specification.
    fprintf(stderr, (return_code ? "Failure\n" : "Success\n"));
data/uhd-4.0.0.0/host/include/uhd/property_tree.hpp:244:18:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    property<T>& access(const fs_path& path);
data/uhd-4.0.0.0/host/include/uhd/rfnoc/node.hpp:483:58:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        property_base_t* prop, property_base_t::access_t access) const;
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:45:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    #define IOCTL(type, function, access) \
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:46:68:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        CTL_CODE((0x8000+type), (0x800+function), METHOD_BUFFERED, access)
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:55:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    #define IOCTL(type, function, access) \
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:56:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        (((access   & 0x0003) << 30) | \
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:76:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    #define IOCTL(type, function, access) \
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:77:14:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _IOC(access, type, function, sizeof(nirio_ioctl_block_t))
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:86:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    #define IOCTL(type, function, access) \
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_driver_iface.h:87:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        (((access   & 0x0003) << 30) | \
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_client.hpp:32:18:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    const boost::system::error_code& call(func_id_t func_id,
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_client.hpp:37:25:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    inline const boost::system::error_code& status() const
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_client.hpp:52:22:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
        const boost::system::error_code& err, size_t transferred, size_t expected);
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_client.hpp:54:22:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
        const boost::system::error_code& err, size_t transferred, size_t expected);
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/rpc_client.hpp:81:12:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    boost::system::error_code _exec_err;
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/rpc/usrprio_rpc_client.hpp:44:22:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
        const boost::system::error_code& err);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/util.h:105:3:  [4] (format) snprintf:
  If format strings can be influenced by an attacker, they can be exploited,
  and note that sprintf variations do not always \0-terminate (CWE-134). Use
  a constant for the format specification.
  snprintf(const_cast<char *>(s.data()), (s.size() + 1), fmt, precision, t);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/detail/async_writer.h:37:37:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
                [this, self](boost::system::error_code ec, std::size_t transferred) {
data/uhd-4.0.0.0/host/lib/deps/rpclib/lib/rpc/client.cc:48:27:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
            [this](boost::system::error_code ec, tcp::resolver::iterator) {
data/uhd-4.0.0.0/host/lib/deps/rpclib/lib/rpc/client.cc:72:43:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
            [this, max_read_bytes](boost::system::error_code ec, std::size_t length) {
data/uhd-4.0.0.0/host/lib/deps/rpclib/lib/rpc/detail/server_session.cc:39:31:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
        } catch (const boost::system::system_error&) {
data/uhd-4.0.0.0/host/lib/deps/rpclib/lib/rpc/detail/server_session.cc:52:63:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
        read_strand_.wrap([this, self, max_read_bytes](boost::system::error_code ec,
data/uhd-4.0.0.0/host/lib/deps/rpclib/lib/rpc/server.cc:40:55:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
        acceptor_.async_accept(socket_, [this](boost::system::error_code ec) {
data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/prop_accessor.hpp:31:76:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    void set_access(property_base_t& prop, const property_base_t::access_t access)
data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/prop_accessor.hpp:33:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        prop._access_mode = access;
data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/prop_accessor.hpp:37:76:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    void set_access(property_base_t* prop, const property_base_t::access_t access)
data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/prop_accessor.hpp:39:30:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        prop->_access_mode = access;
data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/prop_accessor.hpp:55:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        property_base_t::access_t access,
data/uhd-4.0.0.0/host/lib/include/uhdlib/rfnoc/prop_accessor.hpp:58:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        prop._access_mode = access;
data/uhd-4.0.0.0/host/lib/rfnoc/node.cpp:239:54:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    property_base_t* prop, property_base_t::access_t access) const
data/uhd-4.0.0.0/host/lib/rfnoc/node.cpp:241:60:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    return prop_accessor_t{}.get_scoped_prop_access(*prop, access);
data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/rpc_client.cpp:106:14:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
const boost::system::error_code& rpc_client::call(func_id_t func_id,
data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/rpc_client.cpp:168:18:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    const boost::system::error_code& err, size_t transferred, size_t expected)
data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/rpc_client.cpp:205:18:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    const boost::system::error_code& err, size_t transferred, size_t expected)
data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/usrprio_rpc_client.cpp:212:18:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    const boost::system::error_code& err)
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:396:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:425:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:451:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:497:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<bool>(rx_fe_path / "dc_offset" / "enable").set(false);
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:524:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(db_tx_fe_path / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:530:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(db_rx_fe_path / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:548:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:555:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "rx_dsps" / name / "freq" / "value").set(0.0);
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:558:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "tx_dsps" / name / "freq" / "value").set(0.0);
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:561:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<subdev_spec_t>(mb_path / "rx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:563:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<subdev_spec_t>(mb_path / "tx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:565:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<std::string>(mb_path / "clock_source/value").set("internal");
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:566:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<std::string>(mb_path / "time_source/value").set("none");
data/uhd-4.0.0.0/host/lib/usrp/b100/io_impl.cpp:25:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate").update();
data/uhd-4.0.0.0/host/lib/usrp/b100/io_impl.cpp:29:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "rx_dsps" / name / "rate" / "value").update();
data/uhd-4.0.0.0/host/lib/usrp/b100/io_impl.cpp:32:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "tx_dsps" / name / "rate" / "value").update();
data/uhd-4.0.0.0/host/lib/usrp/b100/io_impl.cpp:91:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<std::string>(root / spec[i].db_name / "rx_frontends"
data/uhd-4.0.0.0/host/lib/usrp/b100/io_impl.cpp:111:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:719:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:725:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<time_spec_t>(mb_path / "time" / "pps")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:826:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate").set(default_tick_rate);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:827:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<bool>(mb_path / "auto_tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:840:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<subdev_spec_t>(mb_path / "rx_subdev_spec").set(rx_spec);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:841:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<subdev_spec_t>(mb_path / "tx_subdev_spec").set(tx_spec);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:844:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<std::string>(mb_path / "clock_source/value").set("internal");
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:845:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<std::string>(mb_path / "time_source/value").set("internal");
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:881:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<time_spec_t>(mb_path / "time" / "cmd")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:884:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:929:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(rx_dsp_path / "rate" / "value")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:937:30:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                this->_tree->access<bool>(rx_dsp_path / "rate" / "set").set(true);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:946:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:961:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(tx_dsp_path / "rate" / "value")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:969:30:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                this->_tree->access<bool>(tx_dsp_path / "rate" / "set").set(true);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:974:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:987:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<mboard_eeprom_t>(mb_path / "eeprom").get()["serial"] + "#"
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1028:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(rf_fe_path / "gains"
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1036:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(rf_fe_path / "gains"
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1048:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    return _tree->access<double>(rf_fe_path / "freq" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1054:39:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                               _tree->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1061:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<sensor_value_t>(rf_fe_path / "sensors" / "temp")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1069:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(rf_fe_path / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_impl.cpp:1085:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:98:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            if (not _tree->access<bool>(dsp_path / "rate/set").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:101:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            double this_dsp_rate = _tree->access<double>(dsp_path / "rate/value").get();
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:128:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<double>("/mboards/0/tick_rate").get(), new_rate)) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:129:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>("/mboards/0/tick_rate").set(new_rate);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:165:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    if (_tree->access<bool>(rx_dsp_path / "rate" / "set").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:166:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ddc->set_host_rate(_tree->access<double>(rx_dsp_path / "rate" / "value").get());
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:174:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    if (_tree->access<bool>(tx_dsp_path / "rate" / "set").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:175:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        duc->set_host_rate(_tree->access<double>(tx_dsp_path / "rate" / "value").get());
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:196:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:223:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:277:12:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    _tree->access<std::vector<size_t>>("/mboards/0" / (tx_rx + "_chan_dsp_mapping"))
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:403:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:411:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::vector<size_t>>("/mboards/0/rx_chan_dsp_mapping")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:477:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:530:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:538:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::vector<size_t>>("/mboards/0/tx_chan_dsp_mapping")
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_io_impl.cpp:598:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/common/apply_corrections.cpp:125:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    sub_tree->access<std::complex<double>>(fe_path).set(
data/uhd-4.0.0.0/host/lib/usrp/common/apply_corrections.cpp:181:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        sub_tree->access<uhd::usrp::dboard_eeprom_t>(db_path).get().serial;
data/uhd-4.0.0.0/host/lib/usrp/common/apply_corrections.cpp:195:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        sub_tree->access<uhd::usrp::dboard_eeprom_t>(db_path).get().serial;
data/uhd-4.0.0.0/host/lib/usrp/common/validate_subdev_spec.cpp:67:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<bool>(
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:155:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>("antenna/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:158:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>("connection")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:161:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<double>("bandwidth/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:164:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<meta_range_t>("bandwidth/range")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:252:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>("antenna/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:255:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>("connection")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:258:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<double>("bandwidth/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_basic_and_lf.cpp:261:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<meta_range_t>("bandwidth/range")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_cbx.cpp:72:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_dbsrx.cpp:253:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    this->get_rx_subtree()->access<double>("freq/value").set(dbsrx_freq_range.start());
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_dbsrx.cpp:255:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ->access<double>("bandwidth/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_sbx_version3.cpp:64:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_sbx_version4.cpp:66:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx.cpp:286:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    this->get_rx_subtree()->access<double>("freq/value").set(tvrx_freq_range.start());
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx.cpp:291:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>("gains/" + name + "/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx2.cpp:1098:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<double>("gains/" + name + "/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx2.cpp:1103:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>("bandwidth/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_tvrx2.cpp:1108:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>("freq/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:455:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                &get_rx_subtree()->access<std::string>("power_mode/value"),
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:458:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                &get_rx_subtree()->access<std::string>("power_mode/value")));
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:465:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                &get_rx_subtree()->access<std::string>("xcvr_mode/value"),
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:468:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                &get_rx_subtree()->access<std::string>("xcvr_mode/value")));
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:476:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>("temp_comp_mode/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:481:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>("temp_comp_mode/value")
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:867:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        device_addr_t tune_args     = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_ubx.cpp:1013:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        device_addr_t tune_args     = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_simple.cpp:85:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    this->get_rx_subtree()->access<std::string>("name").set(
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_simple.cpp:87:51:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        % this->get_rx_subtree()->access<std::string>("name").get())));
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_simple.cpp:100:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    this->get_tx_subtree()->access<std::string>("name").set(
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_simple.cpp:102:51:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        % this->get_tx_subtree()->access<std::string>("name").get())));
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_version2.cpp:222:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_version3.cpp:231:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/dboard/db_wbx_version4.cpp:243:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    device_addr_t tune_args = subtree->access<device_addr_t>("tune_args").get();
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_image_loader.cpp:161:52:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        auto fpga_metadata = tree->access<uhd::usrp::component_files_t>(
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_image_loader.cpp:214:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<uhd::usrp::component_files_t>("/mboards/0/components/fpga")
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_impl.cpp:44:22:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return tree->access<time_spec_t>(fs_path("/mboards/0/time/pps")).get();
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_impl.cpp:59:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<time_spec_t>(fs_path("/mboards") / mboard_idx / "time" / "pps")
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_impl.cpp:68:22:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return tree->access<time_spec_t>(fs_path("/mboards") / mb_index / "time/now")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:217:21:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    return subtree->access<double>("value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:222:14:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    subtree->access<double>("value").set(gain);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:227:21:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    return subtree->access<meta_range_t>("range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:254:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        make_overall_tune_range(rf_fe_subtree->access<meta_range_t>("freq/range").get(),
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:255:26:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            dsp_subtree->access<meta_range_t>("freq/range").get(),
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:256:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            rf_fe_subtree->access<double>("bandwidth/value").get());
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:258:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    freq_range_t dsp_range = dsp_subtree->access<meta_range_t>("freq/range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:259:45:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    freq_range_t rf_range  = rf_fe_subtree->access<meta_range_t>("freq/range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:275:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        and rf_fe_subtree->access<bool>("use_lo_offset").get()) {
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:279:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            lo_offset = rf_fe_subtree->access<double>("lo_offset/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:284:42:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        const double rate = dsp_subtree->access<double>("rate/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:285:44:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        const double bw   = rf_fe_subtree->access<double>("bandwidth/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:294:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        rf_fe_subtree->access<device_addr_t>("tune_args").set(tune_request.args);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:314:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                rf_fe_subtree->access<double>("lo_offset/value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:329:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        rf_fe_subtree->access<double>("freq/value").set(target_rf_freq);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:331:50:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    const double actual_rf_freq = rf_fe_subtree->access<double>("freq/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:368:22:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        dsp_subtree->access<double>("freq/value").set(target_dsp_freq);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:370:49:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    const double actual_dsp_freq = dsp_subtree->access<double>("freq/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:389:51:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    const double actual_rf_freq  = rf_fe_subtree->access<double>("freq/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:390:49:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    const double actual_dsp_freq = dsp_subtree->access<double>("freq/value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:422:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<mboard_eeprom_t>(mb_root(mcp.mboard) / "eeprom").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:424:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(mb_root(mcp.mboard) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:428:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(rx_rf_fe_root(chan) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:430:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<subdev_spec_t>(mb_root(mcp.mboard) / "rx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:434:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(rx_rf_fe_root(chan) / "antenna" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:439:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<dboard_eeprom_t>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:447:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(rx_rf_fe_root(chan) / "ref_power/key").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:451:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(rx_rf_fe_root(chan) / "ref_power/serial").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:461:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<mboard_eeprom_t>(mb_root(mcp.mboard) / "eeprom").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:463:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(mb_root(mcp.mboard) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:467:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(tx_rf_fe_root(chan) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:469:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<subdev_spec_t>(mb_root(mcp.mboard) / "tx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:473:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(tx_rf_fe_root(chan) / "antenna" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:478:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<dboard_eeprom_t>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:486:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(tx_rf_fe_root(chan) / "ref_power/key").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:490:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(tx_rf_fe_root(chan) / "ref_power/serial").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:502:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                and _tree->access<bool>(mb_root(mboard) / "auto_tick_rate").get()) {
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:503:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(mb_root(mboard) / "auto_tick_rate").set(false);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:507:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(mb_root(mboard) / "tick_rate").set(rate);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:517:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(mb_root(mboard) / "tick_rate").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:523:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<meta_range_t>(mb_root(mboard) / "tick_rate/range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:536:42:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                               % (_tree->access<std::string>("/name").get()));
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:539:35:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        % (_tree->access<std::string>(mb_root(m) / "name").get()));
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:552:31:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    % (_tree->access<std::string>(rx_rf_fe_root(chan) / "name").get()));
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:566:31:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    % (_tree->access<std::string>(tx_rf_fe_root(chan) / "name").get()));
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:575:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<std::string>(mb_root(mboard) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:580:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<time_spec_t>(mb_root(mboard) / "time/now").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:585:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<time_spec_t>(mb_root(mboard) / "time/pps").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:591:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<time_spec_t>(mb_root(mboard) / "time/now").set(time_spec);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:602:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<time_spec_t>(mb_root(mboard) / "time/pps").set(time_spec);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:664:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<time_spec_t>(mb_root(mboard) / "time/cmd").set(time_spec);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:675:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<time_spec_t>(mb_root(mboard) / "time/cmd")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:687:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<stream_cmd_t>(rx_dsp_root(chan) / "stream_cmd").set(stream_cmd);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:701:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(time_source_path).set(source);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:703:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                auto sync_source = _tree->access<device_addr_t>(sync_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:705:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<device_addr_t>(sync_source_path).set(sync_source);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:720:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<std::string>(time_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:723:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<device_addr_t>(mb_root(mboard) / "sync_source" / "value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:736:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<std::vector<std::string>>(time_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:755:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(clock_source_path).set(source);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:757:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                auto sync_source = _tree->access<device_addr_t>(sync_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:759:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<device_addr_t>(sync_source_path).set(sync_source);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:774:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<std::string>(mb_root(mboard) / "clock_source" / "value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:778:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<device_addr_t>(mb_root(mboard) / "sync_source" / "value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:802:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<device_addr_t>(sync_source_path).set(sync_source);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:825:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<device_addr_t>(sync_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:841:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<std::vector<device_addr_t>>(sync_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:864:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<std::vector<std::string>>(clock_source_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:881:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(mb_root(mboard) / "clock_source" / "output").set(enb);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:897:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(mb_root(mboard) / "time_source" / "output").set(enb);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:916:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<sensor_value_t>(mb_root(mboard) / "sensors" / name).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:931:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<user_reg_t>(mb_root(mboard) / "user/regs")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:944:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<wb_iface::sptr>(user_settings_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:978:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<subdev_spec_t>(mb_root(mboard) / "rx_subdev_spec").set(spec);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:989:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<subdev_spec_t>(mb_root(mboard) / "rx_subdev_spec").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:998:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<subdev_spec_t>(mb_root(mboard) / "rx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1023:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<std::string>(rx_rf_fe_root(chan) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1029:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(rx_dsp_root(chan) / "rate" / "value").set(rate);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1045:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(rx_dsp_root(chan) / "rate" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1050:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(rx_dsp_root(chan) / "rate" / "range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1093:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<meta_range_t>(rx_rf_fe_root(chan) / "freq" / "range").get(),
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1094:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<meta_range_t>(rx_dsp_root(chan) / "freq" / "range").get(),
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1100:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(rx_rf_fe_root(chan) / "freq" / "range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1126:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1138:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1157:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1163:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1185:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1194:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1215:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    _tree->access<bool>(rx_rf_fe_root(chan) / "los" / ALL_LOS / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1225:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    _tree->access<bool>(rx_rf_fe_root(chan) / "los" / name / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1243:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<bool>(rx_rf_fe_root(chan) / "los" / ALL_LOS / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1248:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<bool>(rx_rf_fe_root(chan) / "los" / name / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1269:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1273:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1295:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1304:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<double>(rx_rf_fe_root(chan) / "freq" / " value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1317:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<freq_range_t>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1326:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<meta_range_t>(rx_rf_fe_root(chan) / "freq" / "range")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1351:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1362:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1381:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1403:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1412:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1434:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    _tree->access<bool>(tx_rf_fe_root(chan) / "los" / ALL_LOS / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1444:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    _tree->access<bool>(tx_rf_fe_root(chan) / "los" / name / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1461:31:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                return _tree->access<bool>(tx_rf_fe_root(chan) / "los" / name / "export")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1483:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1506:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1516:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<double>(tx_rf_fe_root(chan) / "freq" / " value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1530:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<freq_range_t>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1540:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return _tree->access<meta_range_t>(tx_rf_fe_root(chan) / "freq" / "range")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1554:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    _tree->access<bool>(rx_rf_fe_root(chan) / "gain" / "agc" / "enable")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1565:38:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                                   ->access<bool>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1588:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1596:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1609:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>(rx_rf_fe_root(chan) / "gains/all/profile/value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1624:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1651:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(rx_rf_fe_root(chan) / "gain" / "agc" / "enable")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1720:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(power_ref_path).set(power_dbm);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1730:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(power_ref_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1740:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(power_ref_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1746:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<std::string>(rx_rf_fe_root(chan) / "antenna" / "value").set(ant);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1751:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<std::string>(rx_rf_fe_root(chan) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1758:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1765:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(rx_rf_fe_root(chan) / "bandwidth" / "value").set(bandwidth);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1770:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(rx_rf_fe_root(chan) / "bandwidth" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1775:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(rx_rf_fe_root(chan) / "bandwidth" / "range")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1782:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<dboard_iface::sptr>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1789:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<sensor_value_t>(rx_rf_fe_root(chan) / "sensors" / name)
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1806:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(rx_fe_root(chan) / "dc_offset" / "enable").set(enb);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1810:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(rx_rf_fe_root(chan) / "dc_offset" / "enable")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1828:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::complex<double>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1846:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<uhd::meta_range_t>(rx_fe_root(chan) / "dc_offset" / "range")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1859:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<bool>(rx_rf_fe_root(chan) / "iq_balance" / "enable")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1877:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::complex<double>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1925:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<filter_info_base::sptr>(fs_path(name) / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1938:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<filter_info_base::sptr>(fs_path(name) / "value").set(filter);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1975:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<filter_info_base::sptr>(fs_path(name) / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:1988:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<filter_info_base::sptr>(fs_path(name) / "value").set(filter);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2003:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<subdev_spec_t>(mb_root(mboard) / "tx_subdev_spec").set(spec);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2014:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<subdev_spec_t>(mb_root(mboard) / "tx_subdev_spec").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2023:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<subdev_spec_t>(mb_root(mboard) / "tx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2048:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<std::string>(tx_rf_fe_root(chan) / "name").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2054:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(tx_dsp_root(chan) / "rate" / "value").set(rate);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2065:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(tx_dsp_root(chan) / "rate" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2070:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(tx_dsp_root(chan) / "rate" / "range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2093:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<meta_range_t>(tx_rf_fe_root(chan) / "freq" / "range").get(),
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2094:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<meta_range_t>(tx_dsp_root(chan) / "freq" / "range").get(),
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2100:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(tx_rf_fe_root(chan) / "freq" / "range").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2116:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                _tree->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2124:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2137:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>(tx_rf_fe_root(chan) / "gains/all/profile/value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2152:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2231:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(power_ref_path).set(power_dbm);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2241:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(power_ref_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2251:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(power_ref_path).get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2256:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<std::string>(tx_rf_fe_root(chan) / "antenna" / "value").set(ant);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2261:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<std::string>(tx_rf_fe_root(chan) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2268:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2275:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(tx_rf_fe_root(chan) / "bandwidth" / "value").set(bandwidth);
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2280:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<double>(tx_rf_fe_root(chan) / "bandwidth" / "value").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2285:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<meta_range_t>(tx_rf_fe_root(chan) / "bandwidth" / "range")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2292:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<dboard_iface::sptr>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2299:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<sensor_value_t>(tx_rf_fe_root(chan) / "sensors" / name)
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2317:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::complex<double>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2335:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<uhd::meta_range_t>(tx_fe_root(chan) / "dc_offset" / "range")
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2349:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::complex<double>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2399:44:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                                         ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2412:31:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2418:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                            _tree->access<uint32_t>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2422:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        _tree->access<uint32_t>(mb_root(mboard) / "gpio" / bank / attr)
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2437:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                             ->access<dboard_iface::sptr>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2483:41:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                                      ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2496:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                            _tree->access<uint32_t>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2511:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                             ->access<dboard_iface::sptr>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2632:45:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                                          ->access<std::vector<size_t>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2661:45:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                                          ->access<std::vector<size_t>>(
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp.cpp:2811:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    _tree->access<double>(mb_root(mcp.mboard) / "link_max_rate").get());
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp_rfnoc.cpp:685:42:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                               % (_tree->access<std::string>("/name").get()));
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp_rfnoc.cpp:1534:44:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return rx_chain.radio->get_tree()->access<dboard_iface::sptr>("iface").get();
data/uhd-4.0.0.0/host/lib/usrp/multi_usrp_rfnoc.cpp:2011:44:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return tx_chain.radio->get_tree()->access<dboard_iface::sptr>("iface").get();
data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp:455:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp:478:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp:576:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "rx_dsps" / name / "rate" / "value").update();
data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp:579:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "tx_dsps" / name / "rate" / "value").update();
data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp:610:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.cpp:341:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<stream_cmd_t>(rx_dsp_path / "stream_cmd")
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.cpp:395:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<bool>(mb_path / "rx_frontends" / db / "dc_offset" / "enable")
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.cpp:445:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "rx_dsps" / name / "freq" / "value").set(0.0);
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.cpp:449:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<subdev_spec_t>(mb_path / "rx_subdev_spec").set(_rx_subdev_spec);
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_impl.cpp:451:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<subdev_spec_t>(mb_path / "tx_subdev_spec").set(_tx_subdev_spec);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:329:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(root / "tick_rate").update();
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:333:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(root / "rx_dsps" / name / "rate" / "value").update();
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:336:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(root / "tx_dsps" / name / "rate" / "value").update();
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:354:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<std::string>(root / spec[i].db_name / "rx_frontends"
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:381:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:637:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:678:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:722:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:768:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<double>(mb_path / "tick_rate")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:794:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<bool>(rx_fe_path / "dc_offset" / "enable").set(false);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:823:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(db_tx_fe_path / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:829:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(db_rx_fe_path / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:845:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(root / "rx_dsps" / name / "freq" / "value").set(0.0);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:848:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<double>(root / "tx_dsps" / name / "freq" / "value").set(0.0);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:851:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<subdev_spec_t>(root / "rx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:854:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<subdev_spec_t>(root / "tx_subdev_spec")
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:857:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<std::string>(root / "clock_source/value").set("internal");
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:858:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        _tree->access<std::string>(root / "time_source/value").set("none");
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:864:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(root / "time_source/value").set("gpsdo");
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:865:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            _tree->access<std::string>(root / "clock_source/value").set("gpsdo");
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:920:37:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    const double tick_rate = _tree->access<double>("/mboards/" + mb + "/tick_rate").get();
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:946:36:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    const double dac_rate = _tree->access<double>("/mboards/" + mb + "/tick_rate").get()
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:512:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ptree->access<uhd::usrp::mboard_eeprom_t>(eeprom_path).get();)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:522:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ptree->access<uhd::usrp::mboard_eeprom_t>(eeprom_path)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:539:20:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ptree->access<uhd::usrp::dboard_eeprom_t>(eeprom_path).get();)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:554:16:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ptree->access<uhd::usrp::dboard_eeprom_t>(eeprom_path)
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:59:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return subtree->access<meta_range_t>("range").get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:61:57:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    gain_fcns.get_value = [subtree]() { return subtree->access<double>("value").get(); };
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:63:18:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        subtree->access<double>("value").set(gain);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:255:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("tx", chan) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:262:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("tx", chan) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:269:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:289:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("rx", chan) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:296:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("rx", chan) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:303:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:311:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("tx", chan) / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:320:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<uhd::device_addr_t>(get_db_path("tx", chan) / "tune_args")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:328:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("tx", chan) / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:337:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("rx", chan) / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:346:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<uhd::device_addr_t>(get_db_path("rx", chan) / "tune_args")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:354:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("rx", chan) / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:361:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<uhd::freq_range_t>(get_db_path("tx", chan) / "freq" / "range")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:368:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<uhd::meta_range_t>(get_db_path("rx", chan) / "freq" / "range")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:376:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("rx", chan) / "bandwidth" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:384:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("rx", chan) / "bandwidth" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:391:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<uhd::meta_range_t>(get_db_path("rx", chan) / "bandwidth" / "range")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:398:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("tx", chan) / "bandwidth" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:406:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<double>(get_db_path("tx", chan) / "bandwidth" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:413:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<uhd::meta_range_t>(get_db_path("tx", chan) / "bandwidth" / "range")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:508:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:516:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:525:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("tx", chan) / "gains/all/profile/value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:532:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("rx", chan) / "gains/all/profile/value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:540:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("tx", chan) / "gains/all/profile/value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:547:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<std::string>(get_db_path("rx", chan) / "gains/all/profile/value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:577:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:586:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::vector<std::string>>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:610:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:621:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:642:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:648:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:672:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<bool>(rx_fe_fe_root / "los" / ALL_LOS / "export")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:682:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<bool>(rx_fe_fe_root / "los" / name / "export")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:702:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    ->access<bool>(rx_fe_fe_root / "los" / ALL_LOS / "export")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:707:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<bool>(rx_fe_fe_root / "los" / name / "export")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:730:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(rx_fe_fe_root / "los" / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:733:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(rx_fe_fe_root / "los" / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:756:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(rx_fe_fe_root / "los" / name / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:764:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return get_tree()->access<double>(rx_fe_fe_root / "freq" / " value").get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:779:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<freq_range_t>(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:789:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<meta_range_t>(rx_fe_fe_root / "freq" / "range")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:799:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<std::complex<double>>(dc_offset_path).set(offset);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:809:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return get_tree()->access<uhd::meta_range_t>(range_path).get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:821:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<std::complex<double>>(iq_balance_path).set(correction);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:831:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<bool>(dc_offset_path).set(enb);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:842:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<std::complex<double>>(dc_offset_path).set(offset);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:852:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            return get_tree()->access<uhd::meta_range_t>(range_path).get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:864:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<bool>(iq_balance_path).set(enb);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:874:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<std::complex<double>>(iq_balance_path).set(correction);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:974:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<uhd::sensor_value_t>(get_db_path("rx", chan) / "sensors" / name)
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:990:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            ->access<uhd::sensor_value_t>(get_db_path("tx", chan) / "sensors" / name)
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1016:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<dboard_eeprom_t>(DB_PATH / (key_prefix + "eeprom"))
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1029:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<dboard_eeprom_t>(DB_PATH / "rx_eeprom").get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1036:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<dboard_eeprom_t>(DB_PATH / "tx_eeprom").get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1086:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return get_tree()->access<std::string>(name_path).get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1096:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<time_spec_t>(cmd_time_path).set(time);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1561:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                   get_tree()->access<std::string>(DB_PATH / "rx_frontends/0/name").get(),
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1601:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<std::string>(get_db_path("rx", i) / "antenna" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1617:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(get_db_path("tx", i) / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1628:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                        ->access<double>(get_db_path("rx", i) / "freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1703:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<dboard_eeprom_t>(DB_PATH / (#dir "_eeprom")).get();  \
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1726:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                            ? get_tree()->access<std::string>(id_path).get()            \
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1736:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                ->access<double>(get_db_path(#dir, chan) / "freq" / "value")            \
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1774:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<std::string>(get_db_path("rx", chan) / "connection").get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1778:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                      ->access<double>(get_db_path("rx", chan) / "if_freq" / "value")
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1789:25:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            get_tree()->access<std::string>(get_db_path("tx", chan) / "connection").get();
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1797:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<dboard_eeprom_t>(DB_PATH / "rx_eeprom").get().serial,
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1807:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<dboard_eeprom_t>(DB_PATH / "tx_eeprom").get().serial,
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1858:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<bool>(fe_enable_path).set(chan_active);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1870:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                get_tree()->access<bool>(fe_enable_path).set(chan_active);
data/uhd-4.0.0.0/host/lib/usrp_clock/multi_usrp_clock.cpp:58:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<uint32_t>(board_str / "time").get();
data/uhd-4.0.0.0/host/lib/usrp_clock/multi_usrp_clock.cpp:65:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        return _tree->access<sensor_value_t>(board_str / "sensors" / name).get();
data/uhd-4.0.0.0/host/lib/utils/log_c.cpp:25:12:  [4] (format) vsnprintf:
  If format strings can be influenced by an attacker, they can be exploited,
  and note that sprintf variations do not always \0-terminate (CWE-134). Use
  a constant for the format specification.
    size = vsnprintf(c_str, size, format, ap);
data/uhd-4.0.0.0/host/lib/utils/log_c.cpp:40:12:  [4] (format) vsnprintf:
  If format strings can be influenced by an attacker, they can be exploited,
  and note that sprintf variations do not always \0-terminate (CWE-134). Use
  a constant for the format specification.
    size = vsnprintf(c_str, size, format, ap);
data/uhd-4.0.0.0/host/tests/cal_database_test.cpp:42:12:  [4] (shell) system:
  This causes a new program to execute and is difficult to use safely
  (CWE-78). try using a library call that implements the same functionality
  if available.
    boost::system::error_code ec;
data/uhd-4.0.0.0/host/tests/expert_test.cpp:231:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<int>("B")
data/uhd-4.0.0.0/host/tests/expert_test.cpp:241:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("A").set(200);
data/uhd-4.0.0.0/host/tests/expert_test.cpp:252:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("E").get();
data/uhd-4.0.0.0/host/tests/expert_test.cpp:256:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("E").set(-10);
data/uhd-4.0.0.0/host/tests/expert_test.cpp:261:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("A").set(-1);
data/uhd-4.0.0.0/host/tests/property_test.cpp:205:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_THROW(tree->access<int>("/test"), std::exception);
data/uhd-4.0.0.0/host/tests/property_test.cpp:209:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("/test/prop0").set(42);
data/uhd-4.0.0.0/host/tests/property_test.cpp:210:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("/test/prop1").set(34);
data/uhd-4.0.0.0/host/tests/property_test.cpp:211:11:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    tree->access<int>("/test/prop2").set(107);
data/uhd-4.0.0.0/host/tests/property_test.cpp:213:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<int>("/test/prop0").get(), 42);
data/uhd-4.0.0.0/host/tests/property_test.cpp:214:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<int>("/test/prop1").get(), 34);
data/uhd-4.0.0.0/host/tests/property_test.cpp:277:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_NO_THROW(tree->access<int>("/intprop"));
data/uhd-4.0.0.0/host/tests/property_test.cpp:278:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_NO_THROW(tree->access<double>("/doubleprop"));
data/uhd-4.0.0.0/host/tests/property_test.cpp:279:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_NO_THROW(tree->access<std::string>("/stringprop"));
data/uhd-4.0.0.0/host/tests/property_test.cpp:282:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_THROW(tree->access<int>("/doubleprop"), uhd::runtime_error);
data/uhd-4.0.0.0/host/tests/property_test.cpp:283:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_THROW(tree->access<double>("/stringprop"), uhd::runtime_error);
data/uhd-4.0.0.0/host/tests/property_test.cpp:284:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_THROW(tree->access<std::string>("/intprop"), uhd::runtime_error);
data/uhd-4.0.0.0/host/tests/pwr_cal_mgr_test.cpp:50:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<std::string>("ref_power/key").get(), MOCK_KEY);
data/uhd-4.0.0.0/host/tests/pwr_cal_mgr_test.cpp:51:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<std::string>("ref_power/serial").get(), MOCK_SERIAL);
data/uhd-4.0.0.0/host/tests/pwr_cal_mgr_test.cpp:70:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<std::string>("ref_power/serial").get(), MOCK_SERIAL2);
data/uhd-4.0.0.0/host/tests/pwr_cal_mgr_test.cpp:127:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<std::string>("ref_power/key").get(), MOCK_KEY);
data/uhd-4.0.0.0/host/tests/pwr_cal_mgr_test.cpp:128:29:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    BOOST_CHECK_EQUAL(tree->access<std::string>("ref_power/serial").get(), MOCK_SERIAL);
data/uhd-4.0.0.0/host/utils/fx2_init_eeprom.cpp:143:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<std::string>("/mboards/0/load_eeprom").set(image);
data/uhd-4.0.0.0/host/utils/octoclock_burn_eeprom.cpp:55:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<octoclock_eeprom_t>("/mboards/0/eeprom").get();
data/uhd-4.0.0.0/host/utils/octoclock_burn_eeprom.cpp:92:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<octoclock_eeprom_t>("/mboards/0/eeprom").set(oc_eeprom);
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:58:37:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    meta_range_t freq_range = tree->access<meta_range_t>(path / "freq/range").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:83:46:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    ss << boost::format("Name: %s") % (tree->access<std::string>(path / "name").get())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:87:27:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                    tree->access<std::vector<std::string>>(path / "antenna/options")
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:96:37:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    meta_range_t freq_range = tree->access<meta_range_t>(path / "freq/range").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:106:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            tree->access<meta_range_t>(path / "gains" / name / "range").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:113:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            tree->access<meta_range_t>(path / "bandwidth" / "range").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:120:24:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
              % (tree->access<std::string>(path / "connection").get())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:124:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                     and tree->access<bool>(path / "use_lo_offset").get())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:139:50:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ss << boost::format("Name: %s") % (tree->access<std::string>(path / "name").get())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:146:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                tree->access<meta_range_t>(path / "gains" / name / "range").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:164:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            tree->access<usrp::dboard_eeprom_t>(path / (prefix + "_eeprom")).get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:171:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                tree->access<usrp::dboard_eeprom_t>(path / "gdb_eeprom").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:229:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    ss << boost::format("Mboard: %s") % (tree->access<std::string>(path / "name").get())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:234:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            tree->access<usrp::mboard_eeprom_t>(path / "eeprom").get();
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:243:39:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ss << "FW Version: " << tree->access<std::string>(path / "fw_version").get()
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:247:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ss << "MPM Version: " << tree->access<std::string>(path / "mpm_version").get()
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:251:41:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        ss << "FPGA Version: " << tree->access<std::string>(path / "fpga_version").get()
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:256:21:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
           << tree->access<std::string>(path / "fpga_version_hash").get() << std::endl;
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:265:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                tree->access<std::vector<std::string>>(path / "time_source" / "options")
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:271:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                tree->access<std::vector<std::string>>(path / "clock_source" / "options")
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:311:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    ss << boost::format("Device: %s") % (tree->access<std::string>("/name").get())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:444:23:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
                tree->access<std::vector<std::string>>(vm["string"].as<std::string>())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:452:32:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            std::cout << tree->access<std::string>(vm["string"].as<std::string>()).get()
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:459:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        std::cout << tree->access<double>(vm["double"].as<std::string>()).get()
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:465:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        std::cout << tree->access<int>(vm["int"].as<std::string>()).get() << std::endl;
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:470:28:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        std::cout << tree->access<uhd::sensor_value_t>(vm["sensor"].as<std::string>())
data/uhd-4.0.0.0/host/utils/uhd_usrp_probe.cpp:479:19:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
            tree->access<meta_range_t>(vm["range"].as<std::string>()).get();
data/uhd-4.0.0.0/host/utils/usrp_burn_db_eeprom.cpp:93:40:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
    dboard_eeprom_t db_eeprom  = tree->access<dboard_eeprom_t>(db_path).get();
data/uhd-4.0.0.0/host/utils/usrp_burn_db_eeprom.cpp:98:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<dboard_eeprom_t>(db_path).set(db_eeprom);
data/uhd-4.0.0.0/host/utils/usrp_burn_db_eeprom.cpp:106:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<dboard_eeprom_t>(db_path).set(db_eeprom);
data/uhd-4.0.0.0/host/utils/usrp_burn_db_eeprom.cpp:114:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<dboard_eeprom_t>(db_path).set(db_eeprom);
data/uhd-4.0.0.0/host/utils/usrp_burn_mb_eeprom.cpp:55:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uhd::usrp::mboard_eeprom_t>("/mboards/0/eeprom").get();
data/uhd-4.0.0.0/host/utils/usrp_burn_mb_eeprom.cpp:95:15:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
        tree->access<uhd::usrp::mboard_eeprom_t>("/mboards/0/eeprom").set(mb_eeprom);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/randm.c:205:3:  [3] (random) srand:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
  srand((unsigned)avRandomSeed);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/randm.c:205:3:  [3] (random) srand:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
  srand((unsigned)avRandomSeed);
data/uhd-4.0.0.0/host/examples/benchmark_rate.cpp:243:14:  [3] (random) srand:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
        std::srand((unsigned int)time(NULL));
data/uhd-4.0.0.0/host/examples/getopt/getopt.c:26:1:  [3] (buffer) getopt:
  Some older implementations do not protect against internal buffer overflows
  (CWE-120, CWE-20). Check implementation on installation, or limit the size
  of all string inputs.
getopt(int argc, char **argv, char *opts)
data/uhd-4.0.0.0/host/examples/getopt/getopt.h:17:5:  [3] (buffer) getopt:
  Some older implementations do not protect against internal buffer overflows
  (CWE-120, CWE-20). Check implementation on installation, or limit the size
  of all string inputs.
int getopt(int argc, char **argv, char *opts);
data/uhd-4.0.0.0/host/examples/rx_samples_c.c:52:21:  [3] (buffer) getopt:
  Some older implementations do not protect against internal buffer overflows
  (CWE-120, CWE-20). Check implementation on installation, or limit the size
  of all string inputs.
    while((option = getopt(argc, argv, "a:f:r:g:n:o:vh")) != -1){
data/uhd-4.0.0.0/host/examples/test_clock_synch.cpp:107:5:  [3] (random) srand:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
    srand((unsigned int)time(NULL));
data/uhd-4.0.0.0/host/examples/test_messages.cpp:355:10:  [3] (random) srand:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
    std::srand((unsigned int)time(NULL));
data/uhd-4.0.0.0/host/examples/tx_samples_c.c:58:21:  [3] (buffer) getopt:
  Some older implementations do not protect against internal buffer overflows
  (CWE-120, CWE-20). Check implementation on installation, or limit the size
  of all string inputs.
    while((option = getopt(argc, argv, "a:f:r:g:n:vh")) != -1){
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/init.h:287:6:  [3] (random) setstate:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
void setstate(value_and_holder &v_h, T &&result, bool need_alias) {
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/init.h:294:6:  [3] (random) setstate:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
void setstate(value_and_holder &v_h, std::pair<T, O> &&result, bool need_alias) {
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/init.h:328:13:  [3] (random) setstate:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
            setstate<Class>(v_h, func(std::forward<ArgState>(state)),
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1505:22:  [3] (random) setstate:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
        cpp_function setstate(
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1508:32:  [3] (random) setstate:
  This function is not sufficiently random for security-related functions
  such as key and nonce creation (CWE-327). Use a more secure technique for
  acquiring random values.
        attr("__setstate__") = setstate;
data/uhd-4.0.0.0/host/lib/transport/libusb1_base.cpp:110:32:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
    const char* level_string = getenv("LIBUSB_DEBUG_LEVEL");
data/uhd-4.0.0.0/host/lib/utils/load_modules.cpp:38:9:  [3] (misc) LoadLibrary:
  Ensure that the full path to the library is specified, or current directory
  may be used (CWE-829, CWE-20). Use registry entry or GetWindowsDirectory to
  find library path, if you aren't already.
    if (LoadLibrary(file_name.c_str()) == NULL) {
data/uhd-4.0.0.0/host/lib/utils/log.cpp:204:42:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
        const char* log_level_env = std::getenv("UHD_LOG_LEVEL");
data/uhd-4.0.0.0/host/lib/utils/log.cpp:231:53:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
            const char* disable_fastpath_env = std::getenv("UHD_LOG_FASTPATH_DISABLE");
data/uhd-4.0.0.0/host/lib/utils/log.cpp:440:50:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
        const char* log_console_level_env = std::getenv("UHD_LOG_CONSOLE_LEVEL");
data/uhd-4.0.0.0/host/lib/utils/log.cpp:458:47:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
        const char* log_file_level_env = std::getenv("UHD_LOG_FILE_LEVEL");
data/uhd-4.0.0.0/host/lib/utils/log.cpp:462:41:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
        const char* log_file_env = std::getenv("UHD_LOG_FILE");
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:63:24:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
    env_var_str = std::getenv(var_name.c_str());
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:226:21:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
    tmp_path = std::getenv("UHD_TEMP_PATH");
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:238:21:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
    tmp_path = std::getenv("TMP");
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:242:21:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
    tmp_path = std::getenv("TEMP");
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:252:21:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
    tmp_path = std::getenv("TMPDIR");
data/uhd-4.0.0.0/host/lib/utils/prefs.cpp:105:22:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
            if (std::getenv(UHD_CONF_FILE_VAR) != NULL) {
data/uhd-4.0.0.0/host/lib/utils/prefs.cpp:106:50:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
                env_conf_file = std::string(std::getenv(UHD_CONF_FILE_VAR));
data/uhd-4.0.0.0/host/utils/uhd_image_loader.cpp:101:59:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
            image_loader_args.firmware_path.replace(0, 1, getenv("HOME"));
data/uhd-4.0.0.0/host/utils/uhd_image_loader.cpp:110:55:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
            image_loader_args.fpga_path.replace(0, 1, getenv("HOME"));
data/uhd-4.0.0.0/host/utils/uhd_image_loader.cpp:118:54:  [3] (buffer) getenv:
  Environment variables are untrustable input if they can be set by an
  attacker. They can have any content and length, and the same variable can
  be set more than once (CWE-807, CWE-20). Check environment variables
  carefully before using them.
            image_loader_args.out_path.replace(0, 1, getenv("HOME"));
data/uhd-4.0.0.0/tools/uhd_dump/chdr_log.c:61:15:  [3] (buffer) getopt:
  Some older implementations do not protect against internal buffer overflows
  (CWE-120, CWE-20). Check implementation on installation, or limit the size
  of all string inputs.
  while ((c = getopt(argc, argv, "h:u:")) != -1) {
data/uhd-4.0.0.0/firmware/e300/rev_b/debug.c:271:2:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	char ch[4];
data/uhd-4.0.0.0/firmware/e300/rev_b/debug.c:281:2:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	char ch[4];
data/uhd-4.0.0.0/firmware/e300/rev_c/debug.c:271:2:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	char ch[4];
data/uhd-4.0.0.0/firmware/e300/rev_c/debug.c:281:2:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	char ch[4];
data/uhd-4.0.0.0/firmware/fx2/b100/board_specific.c:61:25:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static __xdata unsigned char xbuf[1];
data/uhd-4.0.0.0/firmware/fx2/b100/eeprom_io.c:35:27:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static __xdata unsigned char cmd[1];
data/uhd-4.0.0.0/firmware/fx2/b100/eeprom_io.c:51:27:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static __xdata unsigned char cmd[2];
data/uhd-4.0.0.0/firmware/fx2/b100/fpga_rev2.c:38:25:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static __xdata unsigned char regval[4] = {0, 0, 0, 0};
data/uhd-4.0.0.0/firmware/fx2/b100/gpif.c:159:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char __xdata WaveData[128] =     
data/uhd-4.0.0.0/firmware/fx2/b100/gpif.c:185:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char __xdata FlowStates[36] =   
data/uhd-4.0.0.0/firmware/fx2/b100/gpif.c:195:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char __xdata InitData[7] =                                   
data/uhd-4.0.0.0/firmware/fx2/b100/usrp_main.c:64:47:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
__xdata __at (USRP_HASH_SLOT_1_ADDR) unsigned char hash1[USRP_HASH_SIZE];
data/uhd-4.0.0.0/firmware/fx2/b100/usrp_main.c:243:27:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static __xdata unsigned char serial_no[SERIAL_NO_LEN];
data/uhd-4.0.0.0/firmware/fx2/common/eeprom_init.c:31:45:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
__xdata __at USRP_HASH_SLOT_0_ADDR unsigned char hash0[USRP_HASH_SIZE];
data/uhd-4.0.0.0/firmware/fx2/common/init_gpif.c:25:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
extern const char WaveData[128];
data/uhd-4.0.0.0/firmware/fx2/common/init_gpif.c:26:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
extern const char FlowStates[36];
data/uhd-4.0.0.0/firmware/fx2/common/init_gpif.c:27:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
extern const char InitData[7];
data/uhd-4.0.0.0/firmware/fx2/common/spi.c:58:19:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static unsigned char count4[16] = {
data/uhd-4.0.0.0/firmware/fx2/usrp1/board_specific.c:67:25:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static __xdata unsigned char xbuf[1];
data/uhd-4.0.0.0/firmware/fx2/usrp1/eeprom_io.c:35:27:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static __xdata unsigned char cmd[1];
data/uhd-4.0.0.0/firmware/fx2/usrp1/eeprom_io.c:51:27:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static __xdata unsigned char cmd[2];
data/uhd-4.0.0.0/firmware/fx2/usrp1/fpga_rev2.c:42:25:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static __xdata unsigned char regval[4] = {0, 0, 0, 0};
data/uhd-4.0.0.0/firmware/fx2/usrp1/gpif.c:159:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char xdata WaveData[128] =     
data/uhd-4.0.0.0/firmware/fx2/usrp1/gpif.c:185:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char xdata FlowStates[36] =   
data/uhd-4.0.0.0/firmware/fx2/usrp1/gpif.c:195:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char xdata InitData[7] =                                   
data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_gpif.c:163:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char WaveData[128] =
data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_gpif.c:189:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char FlowStates[36] =
data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_gpif.c:199:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char InitData[7] =
data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_main.c:66:47:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
__xdata __at (USRP_HASH_SLOT_1_ADDR) unsigned char hash1[USRP_HASH_SIZE];
data/uhd-4.0.0.0/firmware/fx2/usrp1/usrp_main.c:328:27:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static __xdata unsigned char serial_no[8];
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:175:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char log_buffer[LOG_BUFFER_SIZE];
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:176:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char log_contiguous_buffer[LOG_BUFFER_SIZE];
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:396:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    static char buf[LOG_BUFFER_SIZE];
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:409:16:  [2] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf. Risk is low because the source has a constant maximum length.
        idx += sprintf(buf, "%08X %04i ", (uint)time_now, log_count);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:412:16:  [2] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf. Risk is low because the source has a constant maximum length.
        idx += sprintf(buf, "%04i ", log_count);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:428:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(log_buffer + log_buffer_len, buf, min(idx + 1, LOG_BUFFER_SIZE - log_buffer_len));
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:431:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(log_buffer, buf + (LOG_BUFFER_SIZE - log_buffer_len), (idx + 1) - (LOG_BUFFER_SIZE - log_buffer_len));
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:1762:21:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                    memcpy(log_contiguous_buffer, log_buffer + log_buffer_idx, len1);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:1765:25:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                        memcpy(log_contiguous_buffer + len1, log_buffer, log_buffer_len - len1);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:1823:21:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                    memcpy(g_usb_event_log_contiguous_buf, g_usb_event_log + g_last_usb_event_log_index, len1);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:1824:21:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                    memcpy(g_usb_event_log_contiguous_buf + len1, g_usb_event_log, idx);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:1833:25:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                        memcpy(g_usb_event_log_contiguous_buf, g_usb_event_log + g_last_usb_event_log_index, len);
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:1848:21:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                    memcpy(&g_config_mod, g_vendor_req_buffer, sizeof(CONFIG_MOD));
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:2803:31:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
void base16_encode(uint8_t v, char out[2], char first) {
data/uhd-4.0.0.0/firmware/fx3/b200/firmware/b200_main.c:2867:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char out[3];
data/uhd-4.0.0.0/firmware/octoclock/include/gpsdo.h:25:1:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
char gpsdo_buf[POOLSIZE];
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/netif.h:143:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char name[2];
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/opt.h:76:41:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
#define MEMCPY(dst,src,len)             memcpy(dst,src,len)
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/opt.h:84:41:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
#define SMEMCPY(dst,src,len)            memcpy(dst,src,len)
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/snmp_msg.h:282:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
extern const char snmp_publiccommunity[7];
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sockets.h:56:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char sin_zero[8];
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sockets.h:62:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char sa_data[14];
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sockets.h:281:20:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
          unsigned char fd_bits [(FD_SETSIZE+7)/8];
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:127:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_sha[ETH_ALEN];	/* sender hardware address	*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:128:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_sip[4];		/* sender IP address		*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:129:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_tha[ETH_ALEN];	/* target hardware address	*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:130:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_tip[4];		/* target IP address		*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:146:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_sha[6];	/* sender hardware address	*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:147:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_sip[4];	/* sender IP address		*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:148:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_tha[6];	/* target hardware address	*/
data/uhd-4.0.0.0/firmware/octoclock/include/net/if_arp.h:149:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_tip[4];	/* target IP address		*/
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:157:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(p, buffs[i], lens[i]);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:290:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.ar_sha, &our_mac, 6);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:291:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.ar_sip, req->ar_tip, 4);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:292:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.ar_tha, req->ar_sha, 6);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:293:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.ar_tip, req->ar_sip, 4);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:296:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(t.addr, reply.ar_tha, 6);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:326:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&(sip.addr), &(p->ar_sip), 4);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:327:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&(tip.addr), &(p->ar_tip), 4);
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:410:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.ar_sha, &_local_mac_addr, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:411:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.ar_sip, &htonl_ip_addr,   sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/octoclock/lib/network.c:413:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.ar_tip, &htonl_ip_addr,   sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/octoclock/lib/serial.c:92:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char ch[4];
data/uhd-4.0.0.0/firmware/octoclock/lib/serial.c:101:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char ch[3];
data/uhd-4.0.0.0/firmware/octoclock/lib/udp_handlers.c:152:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            memcpy(pkt_out.data, gpsdo_buf, POOLSIZE);
data/uhd-4.0.0.0/firmware/usrp2/apps/txrx_uhd.c:171:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&ctrl_data_out.data.ip_addr, get_ip_addr(), sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp2/apps/txrx_uhd.c:275:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
      char code[4];
data/uhd-4.0.0.0/firmware/usrp2/lib/eeprom.c:38:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char cmd[2];
data/uhd-4.0.0.0/firmware/usrp2/lib/eeprom.c:66:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char cmd[1];
data/uhd-4.0.0.0/firmware/usrp2/lib/eth_addrs.c:105:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&current_eth_addrs, &default_eth_addrs, sizeof(default_eth_addrs));
data/uhd-4.0.0.0/firmware/usrp2/lib/hal_uart.c:42:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char uart_mode[4] = {
data/uhd-4.0.0.0/firmware/usrp2/lib/hal_uart.c:48:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char uart_speeds[4] = {
data/uhd-4.0.0.0/firmware/usrp2/lib/i2c_async.c:181:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy((void *)i2c_buf, buf, len);
data/uhd-4.0.0.0/firmware/usrp2/lib/i2c_async.c:200:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(buf, (void *)i2c_buf, (i2c_bufptr - i2c_buf)); //TODO: not really comfortable with this
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:127:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_sha[ETH_ALEN];	/* sender hardware address	*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:128:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_sip[4];		/* sender IP address		*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:129:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_tha[ETH_ALEN];	/* target hardware address	*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:130:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_tip[4];		/* target IP address		*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:146:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_sha[6];	/* sender hardware address	*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:147:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_sip[4];	/* sender IP address		*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:148:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_tha[6];	/* target hardware address	*/
data/uhd-4.0.0.0/firmware/usrp2/lib/if_arp.h:149:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_tip[4];	/* target IP address		*/
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:367:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(reply.ar_sha, &our_mac, 6);
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:368:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(reply.ar_sip, req->ar_tip, 4);
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:369:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(reply.ar_tha, req->ar_sha, 6);
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:370:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(reply.ar_tip, req->ar_sip, 4);
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:373:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(t.addr, reply.ar_tha, 6);
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:384:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.ar_sha, ethernet_mac_addr(), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:385:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.ar_sip, get_ip_addr(), sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:387:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.ar_tip, addr, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:400:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(req.ar_sha, ethernet_mac_addr(), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:401:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(req.ar_sip, get_ip_addr(),       sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp2/lib/net_common.c:403:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(req.ar_tip, get_ip_addr(),       sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp2/lib/nonstdio.c:21:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static const char hex[16] = "0123456789ABCDEF";
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/netdb.c:289:15:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
    port_nr = atoi(servname);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dns.c:189:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char name[DNS_MAX_NAME_LENGTH];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/inet.c:185:10:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static char str[16];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/ipv4/inet.c:187:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char inv[3];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/memp.c:139:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static const char *memp_desc[MEMP_MAX] = {
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/snmp/msg_in.c:54:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char snmp_publiccommunity[7] = "public";
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/netif.h:143:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char name[2];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/opt.h:76:41:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
#define MEMCPY(dst,src,len)             memcpy(dst,src,len)
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/opt.h:84:41:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
#define SMEMCPY(dst,src,len)            memcpy(dst,src,len)
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/snmp_msg.h:282:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
extern const char snmp_publiccommunity[7];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sockets.h:56:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char sin_zero[8];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sockets.h:62:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char sa_data[14];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sockets.h:281:20:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
          unsigned char fd_bits [(FD_SETSIZE+7)/8];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:102:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char        word[1];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:144:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char peer_authname[MAXNAMELEN];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:555:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char passwd[256], user[256];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:556:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secret[MAXWORDLEN];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:668:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secbuf[MAXWORDLEN];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:769:20:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    (*cbcp_protent.open)(unit);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:776:67:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    if (protp->protocol < 0xC000 && protp->enabled_flag && protp->open != NULL) {
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:777:16:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
      (*protp->open)(unit);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:881:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(user, "none");
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:884:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(passwd, "none");
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:432:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secret[MAXSECRETLEN];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:433:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char rhostname[256];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:526:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char rhostname[256];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:528:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secret[MAXSECRETLEN];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:747:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char msg[256];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:750:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(msg, "Welcome!");
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:752:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(msg, "I don't like you.  Go 'way.");
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chpms.c:179:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char    ZPasswordHash[21];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1405:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_iphl(x)     (((unsigned char *)(x))[0] & 0xF)
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1407:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_ipproto(x)  (((unsigned char *)(x))[9])
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1408:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_tcpoff(x)   (((unsigned char *)(x))[12] >> 4)
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1409:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_tcpflags(x) (((unsigned char *)(x))[13])
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1213:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char traceBuf[80];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/md5.c:59:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static unsigned char PADDING[64] = {
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/md5.h:47:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char in[64];     /* input buffer */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/md5.h:48:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char digest[16]; /* actual digest after MD5Final call */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:276:12:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    void (*open) (int unit);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:321:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char user       [MAXNAMELEN   + 1]; /* Username for PAP */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:322:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char passwd     [MAXSECRETLEN + 1]; /* Password for PAP, secret for CHAP */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:323:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char our_name   [MAXNAMELEN   + 1]; /* Our name for authentication purposes */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:324:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char remote_name[MAXNAMELEN   + 1]; /* Peer's name for authentication */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:391:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char devname[6];
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:406:3:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
  strcpy(devname, "pppoe");  /* as long as we don't know which instance */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/randm.c:51:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char randPool[RANDPOOLSZ];   /* Pool of randomness. */
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/vj.c:445:51:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
      || (hlen += getth_off(*((struct tcphdr *)&((char *)ip)[hlen])) << 2)
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/vj.h:110:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char csu_hdr[MAX_HDR];
data/uhd-4.0.0.0/firmware/usrp2/usrp2/ethernet.c:90:16:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static const char *flow_control_msg[4] = {
data/uhd-4.0.0.0/firmware/usrp2/usrp2/ethernet.c:100:25:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static const unsigned char table[16] = {
data/uhd-4.0.0.0/firmware/usrp2/usrp2/sd.c:36:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char response[5];
data/uhd-4.0.0.0/firmware/usrp2/usrp2/sd.c:37:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char argument[4];
data/uhd-4.0.0.0/firmware/usrp2/usrp2/sd.c:161:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char response[5];
data/uhd-4.0.0.0/firmware/usrp2/usrp2/sd.c:162:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char argument[4];
data/uhd-4.0.0.0/firmware/usrp2/usrp2p/ethernet.c:103:16:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static const char *flow_control_msg[4] = {
data/uhd-4.0.0.0/firmware/usrp2/usrp2p/ethernet.c:113:25:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static const unsigned char table[16] = {
data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spi_flash.c:76:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(local_buf, buf, nbytes);
data/uhd-4.0.0.0/firmware/usrp2/usrp2p/spi_flash_read.c:47:21:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    static unsigned char log2_sector_size[3] = {
data/uhd-4.0.0.0/firmware/usrp2/usrp2p/udp_fw_update.c:68:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&update_data_out.data.ip_addr, (void *)get_ip_addr(), sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:127:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_sha[ETH_ALEN];	/* sender hardware address	*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:128:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_sip[4];		/* sender IP address		*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:129:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_tha[ETH_ALEN];	/* target hardware address	*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:130:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char		ar_tip[4];		/* target IP address		*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:146:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_sha[6];	/* sender hardware address	*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:147:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_sip[4];	/* sender IP address		*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:148:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_tha[6];	/* target hardware address	*/
data/uhd-4.0.0.0/firmware/usrp3/include/if_arp.h:149:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	unsigned char	ar_tip[4];	/* target IP address		*/
data/uhd-4.0.0.0/firmware/usrp3/lib/print_addrs.c:11:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static const char hex[16] = "0123456789ABCDEF";
data/uhd-4.0.0.0/firmware/usrp3/lib/print_addrs.c:30:5:  [2] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf. Risk is low because the source has a constant maximum length.
    sprintf(str, "%d.%d.%d.%d", p[0], p[1], p[2], p[3]);
data/uhd-4.0.0.0/firmware/usrp3/lib/print_addrs.c:38:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    static char str[4][MAX_MAC_CHARS];
data/uhd-4.0.0.0/firmware/usrp3/lib/print_addrs.c:46:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    static char str[4][MAX_IP_CHARS];
data/uhd-4.0.0.0/firmware/usrp3/lib/printf.c:158:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char bf[12];
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:81:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            memcpy(arp_cache_macs+i, mac_addr, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:87:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(arp_cache_ips+arp_cache_wr_index, ip_addr, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:88:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(arp_cache_macs+arp_cache_wr_index, mac_addr, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:127:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(mac_addr, r, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:158:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&net_conf_macs[ethno], mac, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:159:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&net_conf_ips[ethno], ip, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:160:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&net_conf_subnets[ethno], subnet, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:244:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&reply.eth.dst, (eth_mac_addr_t *)req->ar_sha, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:245:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&reply.eth.src, u3_net_stack_get_mac_addr(ethno), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:253:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.arp.ar_sha, our_mac,     sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:254:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.arp.ar_sip, req->ar_tip, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:255:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.arp.ar_tha, req->ar_sha, sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:256:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(reply.arp.ar_tip, req->ar_sip, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:266:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&req.eth.src, u3_net_stack_get_mac_addr(ethno), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:274:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.arp.ar_sha, u3_net_stack_get_mac_addr(ethno), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:275:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.arp.ar_sip, u3_net_stack_get_ip_addr(ethno), sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:277:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(req.arp.ar_tip, addr, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:354:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.eth.dst, &dst_mac_addr,                    sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:355:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.eth.src, u3_net_stack_get_mac_addr(ethno), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:365:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.ip.src, u3_net_stack_get_ip_addr(ethno), sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:366:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.ip.dest, dst, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:494:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.eth.dst, &dst_mac_addr,                    sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:495:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.eth.src, u3_net_stack_get_mac_addr(ethno), sizeof(eth_mac_addr_t));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:505:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.ip.src, u3_net_stack_get_ip_addr(ethno), sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/u3_net_stack.c:506:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(&pkt.ip.dest, dst, sizeof(struct ip_addr));
data/uhd-4.0.0.0/firmware/usrp3/lib/udp_uart.c:82:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            const char ch = ((const char *)buff)[i];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/netdb.c:289:15:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
    port_nr = atoi(servname);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dns.c:189:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char name[DNS_MAX_NAME_LENGTH];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/inet.c:185:10:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  static char str[16];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/ipv4/inet.c:187:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char inv[3];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/memp.c:139:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static const char *memp_desc[MEMP_MAX] = {
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/snmp/msg_in.c:54:7:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
const char snmp_publiccommunity[7] = "public";
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/netif.h:143:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char name[2];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/opt.h:76:41:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
#define MEMCPY(dst,src,len)             memcpy(dst,src,len)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/opt.h:84:41:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
#define SMEMCPY(dst,src,len)            memcpy(dst,src,len)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/snmp_msg.h:282:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
extern const char snmp_publiccommunity[7];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sockets.h:56:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char sin_zero[8];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sockets.h:62:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char sa_data[14];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sockets.h:281:20:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
          unsigned char fd_bits [(FD_SETSIZE+7)/8];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:102:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char        word[1];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:144:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char peer_authname[MAXNAMELEN];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:555:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char passwd[256], user[256];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:556:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secret[MAXWORDLEN];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:668:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secbuf[MAXWORDLEN];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:769:20:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    (*cbcp_protent.open)(unit);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:776:67:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    if (protp->protocol < 0xC000 && protp->enabled_flag && protp->open != NULL) {
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:777:16:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
      (*protp->open)(unit);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:881:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(user, "none");
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:884:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(passwd, "none");
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:432:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secret[MAXSECRETLEN];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:433:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char rhostname[256];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:526:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char rhostname[256];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:528:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char secret[MAXSECRETLEN];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:747:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char msg[256];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:750:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(msg, "Welcome!");
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:752:5:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
    strcpy(msg, "I don't like you.  Go 'way.");
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chpms.c:179:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char    ZPasswordHash[21];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1405:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_iphl(x)     (((unsigned char *)(x))[0] & 0xF)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1407:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_ipproto(x)  (((unsigned char *)(x))[9])
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1408:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_tcpoff(x)   (((unsigned char *)(x))[12] >> 4)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ipcp.c:1409:37:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
#define get_tcpflags(x) (((unsigned char *)(x))[13])
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1213:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char traceBuf[80];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/md5.c:59:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static unsigned char PADDING[64] = {
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/md5.h:47:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char in[64];     /* input buffer */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/md5.h:48:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char digest[16]; /* actual digest after MD5Final call */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:276:12:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    void (*open) (int unit);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:321:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char user       [MAXNAMELEN   + 1]; /* Username for PAP */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:322:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char passwd     [MAXSECRETLEN + 1]; /* Password for PAP, secret for CHAP */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:323:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char our_name   [MAXNAMELEN   + 1]; /* Our name for authentication purposes */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.h:324:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char remote_name[MAXNAMELEN   + 1]; /* Peer's name for authentication */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:391:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char devname[6];
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:406:3:  [2] (buffer) strcpy:
  Does not check for buffer overflows when copying to destination [MS-banned]
  (CWE-120). Consider using snprintf, strcpy_s, or strlcpy (warning: strncpy
  easily misused). Risk is low because the source is a constant string.
  strcpy(devname, "pppoe");  /* as long as we don't know which instance */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/randm.c:51:8:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
static char randPool[RANDPOOLSZ];   /* Pool of randomness. */
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/vj.c:445:51:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
      || (hlen += getth_off(*((struct tcphdr *)&((char *)ip)[hlen])) << 2)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/vj.h:110:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char csu_hdr[MAX_HDR];
data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eeprom.c:99:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&eeprom_cache, &default_eeprom, sizeof(n230_eeprom_map_t));
data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eth_handlers.c:177:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&response, request, sizeof(n230_flash_prog_t));
data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eth_handlers.c:189:17:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                memcpy(response.data, get_n230_const_eeprom_map(), sizeof(n230_eeprom_map_t));
data/uhd-4.0.0.0/firmware/usrp3/n230/n230_eth_handlers.c:196:17:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                memcpy(get_n230_eeprom_map(), request->data, sizeof(n230_eeprom_map_t));
data/uhd-4.0.0.0/firmware/usrp3/n230/n230_fw_comm_protocol.c:41:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(response, request, sizeof(fw_comm_pkt_t));
data/uhd-4.0.0.0/fpga/usrp2/opencores/spi_boot/sw/misc/bit_reverse.c:27:12:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
	fileOut = fopen(arg[2],"wb");
data/uhd-4.0.0.0/fpga/usrp2/opencores/spi_boot/sw/misc/bit_reverse.c:35:18:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        fileIn = fopen(arg[1],"rb");
data/uhd-4.0.0.0/fpga/usrp3/lib/vita_200/generate_bits.cpp:36:14:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
		convFile = fopen("iq_to_float_input.txt", "w");
data/uhd-4.0.0.0/fpga/usrp3/lib/vita_200/generate_bits.cpp:37:14:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
		newFile =  fopen("iq_to_float_output.txt", "w");
data/uhd-4.0.0.0/host/examples/network_relay.cpp:96:29:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
            _client_socket->open(asio::ip::udp::v4());
data/uhd-4.0.0.0/host/examples/rfnoc_nullsource_ce_rx.cpp:62:17:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        outfile.open(file.c_str(), std::ofstream::binary);
data/uhd-4.0.0.0/host/examples/rfnoc_rx_to_file.cpp:56:17:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        outfile.open(file.c_str(), std::ofstream::binary);
data/uhd-4.0.0.0/host/examples/rx_samples_c.c:49:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char error_string[512];
data/uhd-4.0.0.0/host/examples/rx_samples_c.c:71:29:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
                n_samples = atoi(optarg);
data/uhd-4.0.0.0/host/examples/rx_samples_c.c:201:10:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    fp = fopen(filename, "wb");
data/uhd-4.0.0.0/host/examples/rx_samples_to_file.cpp:58:17:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        outfile.open(file.c_str(), std::ofstream::binary);
data/uhd-4.0.0.0/host/examples/tx_samples_c.c:55:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char error_string[512];
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niriok_proxy.h:144:30:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        virtual nirio_status open(const std::string& interface_path) = 0;
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niriok_proxy_impl_v1.h:30:30:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        virtual nirio_status open(const std::string& interface_path);
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niriok_proxy_impl_v2.h:30:30:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        virtual nirio_status open(const std::string& interface_path);
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/niusrprio_session.h:35:18:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    nirio_status open(nifpga_lvbitx::sptr lvbitx, bool force_download = false);
data/uhd-4.0.0.0/host/include/uhd/utils/msg_task.hpp:41:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            memcpy(&v.front(), p, n);
data/uhd-4.0.0.0/host/lib/cal/database.cpp:62:24:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        auto file = fs.open(get_cal_path_rc(key));
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:469:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(new_p + new_size - in_use_back, old_p + old_size - in_use_back,
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:471:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(new_p, old_p, in_use_front);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:804:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(make_space(num), bytes, num);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flexbuffers.h:675:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(const_cast<char *>(s.c_str()), str, len);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flexbuffers.h:695:7:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
      memcpy(const_cast<uint8_t *>(dest), &t, byte_width);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/util.h:138:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char buf[21];  // (log((1 << 63) - 1) / log(10)) + 2
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/util.h:145:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char buf[22];  // (log((1 << 63) - 1) / log(10)) + 1
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/complex.h:25:28:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    static constexpr const char value[3] = { 'Z', c, '\0' };
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/class.h:523:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy((void *) tp_doc, rec.doc, size);
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/common.h:617:28:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    static constexpr const char value[2] = { c, '\0' };
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/descr.h:27:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char text[N + 1];
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/iostream.h:29:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char d_buffer[1024];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:54:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, v, size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:110:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, v, size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:143:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, v, size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/cpp11/array_char.hpp:41:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(v.data(), o.via.bin.ptr, o.via.bin.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/cpp11/array_char.hpp:45:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(v.data(), o.via.str.ptr, N);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/cpp11/array_char.hpp:85:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, v.data(), size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/cpp11/array_unsigned_char.hpp:41:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(v.data(), o.via.bin.ptr, o.via.bin.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/cpp11/array_unsigned_char.hpp:45:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(v.data(), o.via.str.ptr, N);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/cpp11/array_unsigned_char.hpp:85:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, v.data(), size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/ext.hpp:120:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr + 1, v.data(), size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/string.hpp:82:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, v.data(), v.size());
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/vector_char.hpp:41:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(&v.front(), o.via.bin.ptr, o.via.bin.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/vector_char.hpp:45:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(&v.front(), o.via.str.ptr, o.via.str.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/vector_char.hpp:85:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, &v.front(), size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/vector_unsigned_char.hpp:41:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(&v.front(), o.via.bin.ptr, o.via.bin.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/vector_unsigned_char.hpp:45:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(&v.front(), o.via.str.ptr, o.via.str.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/vector_unsigned_char.hpp:85:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(ptr, &v.front(), size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/object.hpp:312:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(&o.via, &v.via, sizeof(v.via));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/object.hpp:319:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(ptr, v.via.str.ptr, v.via.str.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/object.hpp:327:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(ptr, v.via.bin.ptr, v.via.bin.size);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/object.hpp:335:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(ptr, v.via.ext.ptr, v.via.ext.size + 1);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/object.hpp:615:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(this, &o, sizeof(o));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/object.hpp:621:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(&o, &v, sizeof(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:236:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[2] = {static_cast<char>(0xccu), take8_8(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:244:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:253:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:262:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:271:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[2] = {static_cast<char>(0xd0u), take8_8(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:279:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:288:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:297:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:604:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:615:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:662:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:666:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:681:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:685:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:700:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:704:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:708:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:732:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:736:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:754:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:758:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:762:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:781:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:787:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:793:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:799:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:805:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:812:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:818:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[4];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:824:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[6];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:852:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2] = {static_cast<char>(0xccu), take8_8(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:867:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2] = {static_cast<char>(0xccu), take8_16(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:871:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:888:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[2] = {static_cast<char>(0xccu), take8_32(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:894:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:899:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:917:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[2] = {static_cast<char>(0xccu), take8_64(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:923:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:928:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:933:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:946:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buf[2] = {static_cast<char>(0xd0u), take8_8(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:962:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:967:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[2] = {static_cast<char>(0xd0u), take8_16(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:977:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[2] = {static_cast<char>(0xccu), take8_16(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:981:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:995:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1000:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1005:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[2] = { static_cast<char>(0xd0u), take8_32(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1015:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[2] = { static_cast<char>(0xccu), take8_32(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1019:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1024:13:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1039:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1044:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1051:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1056:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[2] = {static_cast<char>(0xd0u), take8_64(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1068:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[2] = {static_cast<char>(0xccu), take8_64(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1072:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1079:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack.hpp:1084:17:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:57:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2] = {0xcc, TAKE8_8(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:69:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2] = {0xcc, TAKE8_16(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:73:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:87:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[2] = {0xcc, TAKE8_32(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:93:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:98:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[5]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:113:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[2] = {0xcc, TAKE8_64(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:119:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:124:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[5]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:129:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[9]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:140:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2] = {0xd0, TAKE8_8(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:153:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:158:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[2] = {0xd0, TAKE8_16(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:167:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[2] = {0xcc, TAKE8_16(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:171:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:183:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[5]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:188:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:193:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[2] = {0xd0, TAKE8_32(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:202:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[2] = {0xcc, TAKE8_32(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:206:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:211:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[5]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:224:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[9]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:229:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[5]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:236:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:241:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[2] = {0xd0, TAKE8_64(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:252:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[2] = {0xcc, TAKE8_64(d)}; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:256:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[3]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:263:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[5]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:268:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buf[9]; \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:281:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[2] = {0xcc, TAKE8_8(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:287:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:294:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:301:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:308:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[2] = {0xd0, TAKE8_8(d)};
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:314:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:321:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:328:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:661:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:670:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char buf[9];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:723:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:727:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:744:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:748:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:765:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:769:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:773:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:794:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:798:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:816:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:820:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:824:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[5];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:843:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:849:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:855:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:861:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:867:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[2];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:874:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[3];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:880:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[4];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/pack_template.h:886:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buf[6];
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sbuffer.h:92:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(sbuf->data + sbuf->size, buf, len);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sbuffer.hpp:85:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(m_data + m_size, buf, len);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sysdep.h:148:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy((cast*)(to), (from), sizeof(cast)); \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sysdep.h:153:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy((cast*)(to), (from), sizeof(cast)); \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sysdep.h:157:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy((cast*)(to), (from), sizeof(cast)); \
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sysdep.h:162:45:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    do { uint16_t val = _msgpack_be16(num); memcpy(to, &val, 2); } while(0)
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sysdep.h:164:45:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    do { uint32_t val = _msgpack_be32(num); memcpy(to, &val, 4); } while(0)
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/sysdep.h:166:45:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    do { uint64_t val = _msgpack_be64(num); memcpy(to, &val, 8); } while(0)
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:275:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(&c.via.array.ptr[c.via.array.size++], &o, sizeof(clmdep_msgpack::object));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:293:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(&c.via.map.ptr[c.via.map.size].key, &k, sizeof(clmdep_msgpack::object));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:294:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(&c.via.map.ptr[c.via.map.size].val, &v, sizeof(clmdep_msgpack::object));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:312:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(tmp, p, l);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:328:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(tmp, p, l);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:344:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(tmp, p, l);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:414:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char f1[65]; // FIXME unique size is required. or use is_same meta function.
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/unpack.hpp:1312:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(tmp+COUNTER_SIZE, m_buffer + m_off, not_parsed);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/vrefbuffer.hpp:165:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(m, buf, len);
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/vrefbuffer.hpp:227:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(to->m_tail, m_array, sizeof(iovec)*nused);
data/uhd-4.0.0.0/host/lib/include/uhdlib/transport/dpdk/udp.hpp:97:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char addr_str[INET_ADDRSTRLEN];
data/uhd-4.0.0.0/host/lib/include/uhdlib/transport/dpdk_io_service_client.hpp:84:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char name[16];
data/uhd-4.0.0.0/host/lib/include/uhdlib/transport/dpdk_io_service_client.hpp:205:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char name[16];
data/uhd-4.0.0.0/host/lib/include/uhdlib/transport/udp_common.hpp:95:13:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    socket->open(udp::v4());
data/uhd-4.0.0.0/host/lib/transport/dpdk_simple.cpp:105:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(buff->data(), user_data, nbytes);
data/uhd-4.0.0.0/host/lib/transport/dpdk_simple.cpp:142:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(user_data, buff->data(), copy_len);
data/uhd-4.0.0.0/host/lib/transport/libusb1_base.cpp:255:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buff[512];
data/uhd-4.0.0.0/host/lib/transport/libusb1_zero_copy.cpp:235:26:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
                unsigned char buff[512];
data/uhd-4.0.0.0/host/lib/transport/muxed_zero_copy_if.cpp:108:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            memcpy(_buff, buff, len);
data/uhd-4.0.0.0/host/lib/transport/nirio/nirio_driver_iface_linux.cpp:20:23:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    device_handle = ::open(device_path.c_str(), O_RDWR | O_CLOEXEC);
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy.cpp:47:24:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    status = proxy_v1->open(interface_path);
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy.cpp:53:24:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    status = proxy_v2->open(interface_path);
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v1.cpp:402:36:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
nirio_status niriok_proxy_impl_v1::open(const std::string& interface_path)
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v2.cpp:286:36:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
nirio_status niriok_proxy_impl_v2::open(const std::string& interface_path)
data/uhd-4.0.0.0/host/lib/transport/nirio/niusrprio_session.cpp:52:33:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
nirio_status niusrprio_session::open(nifpga_lvbitx::sptr lvbitx, bool force_download)
data/uhd-4.0.0.0/host/lib/transport/nirio/niusrprio_session.cpp:68:37:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    nirio_status_chain(_riok_proxy->open(_interface_path), status);
data/uhd-4.0.0.0/host/lib/transport/udp_simple.cpp:37:18:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        _socket->open(asio::ip::udp::v4());
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:53:24:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
    int netbits = std::atoi(result[1].c_str());
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:623:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char name[32];
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:644:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char name[32];
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_io_service.cpp:268:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char name[16];
data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp:200:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(
data/uhd-4.0.0.0/host/lib/usrp/b100/b100_impl.cpp:577:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char data[4]; // useless data buffer
data/uhd-4.0.0.0/host/lib/usrp/b100/mb_eeprom.cpp:17:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char _r[220];
data/uhd-4.0.0.0/host/lib/usrp/b100/mb_eeprom.cpp:18:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char revision[2];
data/uhd-4.0.0.0/host/lib/usrp/b100/mb_eeprom.cpp:19:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char product[2];
data/uhd-4.0.0.0/host/lib/usrp/b100/mb_eeprom.cpp:20:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char name[NAME_MAX_LEN];
data/uhd-4.0.0.0/host/lib/usrp/b100/mb_eeprom.cpp:21:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char serial[SERIAL_LEN];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:249:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char data[4];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:267:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char data[4];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:286:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char data[4];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:306:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char rx_data[1];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:326:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char rx_data[1];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:348:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char rx_data[2];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:504:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char out_buff[VREQ_MAX_SIZE];
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:525:14:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        file.open(filename, std::ios::in | std::ios::binary);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:678:14:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        file.open(filename, std::ios::in | std::ios::binary);
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:163:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char data[512];
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:166:14:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        file.open(filename, std::ifstream::in);
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:246:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char buf[ep0_size];
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:251:14:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        file.open(filename, std::ios::in | std::ios::binary);
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:294:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char data[256];
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:295:18:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        unsigned char sendbuf[17];
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:298:14:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        file.open(filename, std::ifstream::in);
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:315:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            memcpy(sendbuf + 1, &data[addr], len > pagesize ? pagesize : size_t(len));
data/uhd-4.0.0.0/host/lib/usrp/cores/radio_ctrl_core_3000.cpp:313:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(resp_buff.data, buff, sizeof(resp_buff));
data/uhd-4.0.0.0/host/lib/usrp/dboard/e3xx/e3xx_radio_control_init.cpp:115:47:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
        int identify_duration          = std::atoi(identify_val.c_str());
data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control.cpp:105:11:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    const char radio_slot_name[2] = {'A', 'B'};
data/uhd-4.0.0.0/host/lib/usrp/dboard/magnesium/magnesium_radio_control_init.cpp:432:47:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
        int identify_duration          = std::atoi(identify_val.c_str());
data/uhd-4.0.0.0/host/lib/usrp/dboard/rhodium/rhodium_radio_control_init.cpp:578:47:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
        int identify_duration          = std::atoi(identify_val.c_str());
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_find.cpp:59:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buff[MAX_MTU]   = {};
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_link_if_ctrl_udp.cpp:200:14:  [2] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf. Risk is low because the source has a constant maximum length.
        std::sprintf(
data/uhd-4.0.0.0/host/lib/usrp/usrp1/io_impl.cpp:200:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(next.buff->cast<char*>() + next.offset,
data/uhd-4.0.0.0/host/lib/usrp/usrp1/mb_eeprom.cpp:19:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char _r[221];
data/uhd-4.0.0.0/host/lib/usrp/usrp1/mb_eeprom.cpp:20:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char mcr[4];
data/uhd-4.0.0.0/host/lib/usrp/usrp1/mb_eeprom.cpp:21:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char name[NAME_MAX_LEN];
data/uhd-4.0.0.0/host/lib/usrp/usrp1/mb_eeprom.cpp:22:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char serial[USRP1_SERIAL_LEN];
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_iface.cpp:129:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buff[4] = {(unsigned char)(bits & 0xff),
data/uhd-4.0.0.0/host/lib/usrp/usrp1/usrp1_iface.cpp:163:22:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
            unsigned char buff[4] = {0};
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:435:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            std::memcpy(send_buff->cast<void*>(), &stream_ctrl, sizeof(stream_ctrl));
data/uhd-4.0.0.0/host/lib/usrp/usrp2/io_impl.cpp:455:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        std::memcpy(send_buff->cast<void*>(), &stream_ctrl, sizeof(stream_ctrl));
data/uhd-4.0.0.0/host/lib/usrp/usrp2/mb_eeprom.cpp:28:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char serial[SERIAL_LEN];
data/uhd-4.0.0.0/host/lib/usrp/usrp2/mb_eeprom.cpp:29:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char name[NAME_MAX_LEN];
data/uhd-4.0.0.0/host/lib/usrp/usrp2/usrp2_impl.cpp:304:10:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    std::memcpy(send_buff->cast<void*>(), &data, sizeof(data));
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_eth_mgr.cpp:122:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buff[X300_FW_COMMS_MTU] = {};
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_common.h:97:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char revision[2];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_common.h:98:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char product[2];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_common.h:114:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char name[23];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_common.h:115:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char serial[9];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_ctrl.cpp:174:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char buff[X300_FW_COMMS_MTU] = {};
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_image_loader.cpp:351:17:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                memcpy(pkt_out.data8,
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.cpp:18:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char revision[2];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.cpp:19:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char product[2];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.cpp:20:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char revision_compat[2];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.cpp:36:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char name[NAME_MAX_LEN];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_eeprom.cpp:37:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char serial[SERIAL_LEN];
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_pcie_mgr.cpp:264:30:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        _rio_fpga_interface->open(lvbitx, args.get_download_fpga()), status);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_eeprom.cpp:49:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&ip_addr_bytes, &ip_addr, 4);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_eeprom.cpp:55:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&dr_addr_bytes, &dr_addr, 4);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_eeprom.cpp:61:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&netmask_bytes, &netmask, 4);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_eeprom.cpp:104:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&eeprom_out->ip_addr, &ip_addr_bytes, 4);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_eeprom.cpp:112:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&eeprom_out->dr_addr, &dr_addr_bytes, 4);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_eeprom.cpp:120:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy(&eeprom_out->netmask, &netmask_bytes, 4);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_image_loader.cpp:265:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy((char*)pkt_out.data, &session.image[pkt_out.addr], OCTOCLOCK_BLOCK_SIZE);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_image_loader.cpp:303:9:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
        memcpy((char*)image_part, &session.image[pkt_out.addr], OCTOCLOCK_BLOCK_SIZE);
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_uart.cpp:67:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
    memcpy(pkt_out.data, buf.c_str(), buf.size());
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_uart.cpp:125:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
            memcpy(&_cache[0], pkt_in->data, _poolsize);
data/uhd-4.0.0.0/host/lib/utils/ihex.cpp:94:14:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    unsigned char data[MAX_RECORD_LENGTH];
data/uhd-4.0.0.0/host/lib/utils/ihex.cpp:102:10:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    file.open(filename, std::ifstream::in);
data/uhd-4.0.0.0/host/lib/utils/ihex.cpp:197:18:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    output_file->open(bin_filename.c_str(), std::ios::out | std::ios::binary);
data/uhd-4.0.0.0/host/lib/utils/log.cpp:144:30:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
                _file_stream.open(
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:232:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char lpBuffer[2048];
data/uhd-4.0.0.0/host/lib/utils/paths.cpp:388:5:  [2] (buffer) TCHAR:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    TCHAR value_buff[1024];
data/uhd-4.0.0.0/host/lib/utils/pathslib.cpp:23:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char result[max_pathlen];
data/uhd-4.0.0.0/host/lib/utils/platform.cpp:32:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char szVolName[MAX_PATH + 1], szFileSysName[MAX_PATH + 1];
data/uhd-4.0.0.0/host/tests/dpdk_port_test.cpp:125:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char mac_str[20];
data/uhd-4.0.0.0/host/tests/dpdk_test.cpp:238:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char addr_str[INET_ADDRSTRLEN];
data/uhd-4.0.0.0/host/tests/eeprom_c_test.c:30:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char str_buffer[BUFFER_SIZE];
data/uhd-4.0.0.0/host/tests/isatty_test.cpp:22:27:  [2] (tmpfile) tmpfile:
  Function tmpfile() has a security flaw on some systems (e.g., older System
  V systems) (CWE-377).
    FILE* tmp_file = std::tmpfile();
data/uhd-4.0.0.0/host/tests/ranges_c_test.c:117:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char str_buffer[BUFFER_SIZE];
data/uhd-4.0.0.0/host/tests/sensors_c_test.c:35:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char str_buffer[BUFFER_SIZE];
data/uhd-4.0.0.0/host/tests/string_vector_c_test.c:29:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char str_buffer[BUFFER_SIZE];
data/uhd-4.0.0.0/host/tests/subdev_spec_c_test.c:30:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char str_buffer[BUFFER_SIZE];
data/uhd-4.0.0.0/host/utils/latency/lib/Responder.cpp:1265:9:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
        char cline[len];
data/uhd-4.0.0.0/mpm/include/mpm/types/mmap_regs_iface.hpp:29:10:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    void open();
data/uhd-4.0.0.0/mpm/include/mpm/types/types_python.hpp:43:40:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        .def("open", &mmap_regs_iface::open)
data/uhd-4.0.0.0/mpm/lib/i2c/i2cdev.c:26:11:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    *fd = open(device, O_RDWR | O_LARGEFILE);
data/uhd-4.0.0.0/mpm/lib/spi/spidev.c:29:11:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
    *fd = open(device, O_RDWR);
data/uhd-4.0.0.0/mpm/lib/types/mmap_regs_iface.cpp:29:9:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        open();
data/uhd-4.0.0.0/mpm/lib/types/mmap_regs_iface.cpp:42:23:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
void mmap_regs_iface::open()
data/uhd-4.0.0.0/mpm/lib/types/mmap_regs_iface.cpp:45:17:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        _fd = ::open(_path.c_str(), _read_only ? O_RDONLY : O_RDWR);
data/uhd-4.0.0.0/mpm/tools/db-dump.c:18:15:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	which_slot = atoi(argv[1]);
data/uhd-4.0.0.0/mpm/tools/db-init.c:44:15:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
		dt_compat = atoi(argv[5]);
data/uhd-4.0.0.0/mpm/tools/db-init.c:46:29:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
		dt_compat = get_dt_compat(atoi(argv[3]));
data/uhd-4.0.0.0/mpm/tools/db-init.c:48:15:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	which_slot = atoi(argv[1]);
data/uhd-4.0.0.0/mpm/tools/db-init.c:50:60:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	ep = usrp_sulfur_db_eeprom_new(strtol(argv[2], NULL, 16), atoi(argv[3]), argv[4],
data/uhd-4.0.0.0/mpm/tools/eeprom-init.c:70:32:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
		dt_compat = derive_dt_compat(atoi(argv[2]));
data/uhd-4.0.0.0/mpm/tools/eeprom-init.c:77:34:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
		mcu_compat = derive_mcu_compat(atoi(argv[2]));
data/uhd-4.0.0.0/mpm/tools/eeprom-init.c:84:34:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
		rev_compat = derive_rev_compat(atoi(argv[2]));
data/uhd-4.0.0.0/mpm/tools/eeprom-init.c:96:47:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	ep = usrp_sulfur_eeprom_new(NULL, (u16) pid, atoi(argv[2]), argv[1],
data/uhd-4.0.0.0/mpm/tools/eeprom.c:104:2:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	char tmp[18];
data/uhd-4.0.0.0/mpm/tools/eeprom.c:246:7:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
	fd = open(path, O_RDONLY);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:281:7:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
	fd = open(path, O_WRONLY | O_CREAT);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:306:7:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
	fd = open(path, O_WRONLY | O_CREAT);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:400:7:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
	fd = open(path, O_WRONLY | O_CREAT);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:461:7:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
	fd = open(path, O_RDONLY);
data/uhd-4.0.0.0/mpm/tools/eeprom.h:53:2:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	char serial[8];
data/uhd-4.0.0.0/mpm/tools/fan-limits.c:30:13:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	fan0_min = atoi(argv[1]) / 100;
data/uhd-4.0.0.0/mpm/tools/fan-limits.c:31:13:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	fan0_max = atoi(argv[2]) / 100;
data/uhd-4.0.0.0/mpm/tools/fan-limits.c:32:13:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	fan1_min = atoi(argv[3]) / 100;
data/uhd-4.0.0.0/mpm/tools/fan-limits.c:33:13:  [2] (integer) atoi:
  Unless checked, the resulting number can exceed the expected range
  (CWE-190). If source untrusted, check both minimum and maximum, even if the
  input had no minus sign (large numbers can roll over into negative number;
  consider saving to an unsigned value if that is intended).
	fan1_max = atoi(argv[4]) / 100;
data/uhd-4.0.0.0/tools/dissectors/epan/zpu/packet-zpu.c:136:21:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
                    memcpy(&addr, bytes, 4);
data/uhd-4.0.0.0/tools/kitchen_sink/kitchen_sink.cpp:151:5:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
    char s[20] = { 0 };
data/uhd-4.0.0.0/tools/nirio_programmer/nirio_programmer.cpp:133:41:  [2] (misc) open:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
        nirio_status_chain(fpga_session.open(lvbitx, true), status);
data/uhd-4.0.0.0/tools/uhd_dump/chdr_log.c:48:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char *conversion_error[1];
data/uhd-4.0.0.0/tools/uhd_dump/chdr_log.c:50:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char buffer[26];                      // Buffer to format GMT time stamp strings for output
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:32:40:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
   union u {unsigned long vi; unsigned char c[sizeof(unsigned long)];};
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:33:40:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
   union v {unsigned long ni; unsigned char d[sizeof(unsigned long)];};
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:52:39:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
   union u {unsigned int vi; unsigned char c[sizeof(unsigned long)];};
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:53:39:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
   union v {unsigned int ni; unsigned char d[sizeof(unsigned long)];};
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:67:41:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
   union u {unsigned short vi; unsigned char c[sizeof(unsigned short)];};
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:68:41:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
   union v {unsigned short ni; unsigned char d[sizeof(unsigned short)];};
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:88:3:  [2] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf. Risk is low because the source has a constant maximum length.
  sprintf(buffer,
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:124:3:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
  memcpy(packet_buffer->current->payload,packet,packet_buffer->current->size);
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:144:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char errbuf[PCAP_ERRBUF_SIZE];	// Error string
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:145:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char filter_exp[256];	                // The ascii filter expression
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:171:3:  [2] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf. Risk is low because the source has a constant maximum length.
  sprintf(filter_exp,"udp port %d",udp_port);
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.c:214:3:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  char errbuf[PCAP_ERRBUF_SIZE];	// Error string
data/uhd-4.0.0.0/tools/uhd_dump/uhd_dump.h:61:12:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
  unsigned char octet[4];
data/uhd-4.0.0.0/firmware/octoclock/include/lwip/sockets.h:344:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
#define read(a,b,c)           lwip_read(a,b,c)
data/uhd-4.0.0.0/firmware/usrp2/lib/hal_io.c:147:1:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
getchar(void)
data/uhd-4.0.0.0/firmware/usrp2/lib/hal_io.c:172:1:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
getchar(void)
data/uhd-4.0.0.0/firmware/usrp2/lib/stdio.h:36:5:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
int getchar(void);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/netdb.c:186:13:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  namelen = strlen(name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/api/netdb.c:331:22:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    size_t namelen = strlen(nodename);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dhcp.c:278:47:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p));
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dhcp.c:515:39:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    dhcp->boot_file_name = mem_malloc(strlen(dhcp->msg_in->file) + 1);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dhcp.c:956:47:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p));
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dhcp.c:1023:47:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p));
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/core/dns.c:958:8:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      (strlen(hostname) >= DNS_MAX_NAME_LENGTH)) {
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/include/lwip/sockets.h:344:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
#define read(a,b,c)           lwip_read(a,b,c)
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ethernetif.c:191:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
      read data into(q->payload, q->len);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ethernetif.c:193:38:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    acknowledge that packet has been read();
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:575:15:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    *msglen = strlen(*msg);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:596:15:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    *msglen = strlen(*msg);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:655:9:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  len = strlen(ppp_settings.passwd);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/auth.c:682:9:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  len = strlen(secbuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:469:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(rhostname, ppp_settings.remote_name, sizeof(rhostname));
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:714:14:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  name_len = strlen(cstate->chal_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:754:12:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  msglen = strlen(msg);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/chap.c:812:14:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  name_len = strlen(cstate->resp_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/fsm.c:291:44:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  f->term_reason_len = (reason == NULL? 0: strlen(reason));
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1276:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1309:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1361:22:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
          traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1399:22:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
          traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1430:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1462:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1485:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1498:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1511:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1519:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1527:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1535:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/pap.c:127:19:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  u->us_userlen = strlen(luser);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/pap.c:129:21:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  u->us_passwdlen = strlen(lpassword);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.c:480:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ppp_settings.user, user, sizeof(ppp_settings.user)-1);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp.c:487:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ppp_settings.passwd, passwd, sizeof(ppp_settings.passwd)-1);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:499:11:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
          strncpy(error, (char*)pb->payload + off + sizeof(pt), len);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:795:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l1 = strlen(sc->sc_service_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:799:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l2 = strlen(sc->sc_concentrator_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:1006:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l1 = strlen(sc->sc_service_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:1119:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l1 = strlen(sc->sc_service_name);
data/uhd-4.0.0.0/firmware/usrp2/lwip_port/netif/eth_driver.c:181:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
      read data into(q->payload, q->len);
data/uhd-4.0.0.0/firmware/usrp2/lwip_port/netif/eth_driver.c:183:38:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    acknowledge that packet has been read();
data/uhd-4.0.0.0/firmware/usrp3/include/flash/spi_flash.h:45:37:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    spif_read_fn_t                  read;
data/uhd-4.0.0.0/firmware/usrp3/lib/flash/spi_flash.c:31:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    flash->ops->read(flash->device, offset, buf, num_bytes);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/netdb.c:186:13:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  namelen = strlen(name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/api/netdb.c:331:22:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    size_t namelen = strlen(nodename);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dhcp.c:278:47:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p));
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dhcp.c:515:39:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    dhcp->boot_file_name = mem_malloc(strlen(dhcp->msg_in->file) + 1);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dhcp.c:956:47:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p));
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dhcp.c:1023:47:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p));
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/core/dns.c:958:8:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      (strlen(hostname) >= DNS_MAX_NAME_LENGTH)) {
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/include/lwip/sockets.h:344:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
#define read(a,b,c)           lwip_read(a,b,c)
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ethernetif.c:191:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
      read data into(q->payload, q->len);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ethernetif.c:193:38:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    acknowledge that packet has been read();
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:575:15:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    *msglen = strlen(*msg);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:596:15:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    *msglen = strlen(*msg);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:655:9:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  len = strlen(ppp_settings.passwd);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/auth.c:682:9:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  len = strlen(secbuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:469:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(rhostname, ppp_settings.remote_name, sizeof(rhostname));
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:714:14:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  name_len = strlen(cstate->chal_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:754:12:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  msglen = strlen(msg);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/chap.c:812:14:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  name_len = strlen(cstate->resp_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/fsm.c:291:44:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  f->term_reason_len = (reason == NULL? 0: strlen(reason));
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1276:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1309:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1361:22:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
          traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1399:22:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
          traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1430:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1462:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1485:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1498:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1511:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1519:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1527:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/lcp.c:1535:20:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        traceNdx = strlen(traceBuf);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/pap.c:127:19:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  u->us_userlen = strlen(luser);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/pap.c:129:21:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  u->us_passwdlen = strlen(lpassword);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.c:480:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ppp_settings.user, user, sizeof(ppp_settings.user)-1);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp.c:487:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ppp_settings.passwd, passwd, sizeof(ppp_settings.passwd)-1);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:499:11:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
          strncpy(error, (char*)pb->payload + off + sizeof(pt), len);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:795:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l1 = strlen(sc->sc_service_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:799:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l2 = strlen(sc->sc_concentrator_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:1006:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l1 = strlen(sc->sc_service_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip/lwip-1.3.1/src/netif/ppp/ppp_oe.c:1119:10:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    l1 = strlen(sc->sc_service_name);
data/uhd-4.0.0.0/firmware/usrp3/lwip_port/netif/eth_driver.c:181:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
      read data into(q->payload, q->len);
data/uhd-4.0.0.0/firmware/usrp3/lwip_port/netif/eth_driver.c:183:38:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    acknowledge that packet has been read();
data/uhd-4.0.0.0/host/examples/rfnoc_replay_samples_from_file.cpp:302:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    infile.read(tx_buf_ptr, samples_to_replay * sample_size);
data/uhd-4.0.0.0/host/examples/tx_samples_from_file.cpp:42:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        infile.read((char*)&buff.front(), buff.size() * sizeof(samp_type));
data/uhd-4.0.0.0/host/include/uhd/rfnoc/dirtifier.hpp:40:10:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    bool equal(property_base_t*) const
data/uhd-4.0.0.0/host/include/uhd/rfnoc/property.hpp:92:18:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    virtual bool equal(property_base_t* rhs) const = 0;
data/uhd-4.0.0.0/host/include/uhd/rfnoc/property.hpp:182:10:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    bool equal(property_base_t* rhs) const
data/uhd-4.0.0.0/host/include/uhd/transport/nirio/nirio_fifo.h:145:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    nirio_status read(
data/uhd-4.0.0.0/host/include/uhd/utils/soft_register.hpp:266:27:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    UHD_INLINE reg_data_t read(const soft_reg_field_t field)
data/uhd-4.0.0.0/host/include/uhd/utils/soft_register.hpp:366:27:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    UHD_INLINE reg_data_t read(const soft_reg_field_t field)
data/uhd-4.0.0.0/host/include/uhd/utils/soft_register.hpp:369:65:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        return soft_register_t<reg_data_t, readable, writable>::read(field);
data/uhd-4.0.0.0/host/lib/cal/database.cpp:152:10:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    file.read(reinterpret_cast<char*>(&result[0]), filesize);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:1311:30:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    return CreateString(str, strlen(str));
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:1318:30:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    return CreateString(str, strlen(str));
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:1385:36:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    return CreateSharedString(str, strlen(str));
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flatbuffers.h:1854:26:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
      FLATBUFFERS_ASSERT(strlen(file_identifier) == kFileIdentifierLength);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flexbuffers.h:518:40:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        flatbuffers::EscapeString(str, strlen(str), &s, true, false);
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flexbuffers.h:678:65:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  bool MutateString(const char *str) { return MutateString(str, strlen(str)); }
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flexbuffers.h:965:49:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  size_t Key(const char *str) { return Key(str, strlen(str)); }
data/uhd-4.0.0.0/host/lib/deps/flatbuffers/include/flatbuffers/flexbuffers.h:986:55:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
  size_t String(const char *str) { return String(str, strlen(str)); }
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/class.h:521:23:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        size_t size = strlen(rec.doc) + 1;
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/detail/common.h:221:27:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        size_t len = std::strlen(compiled_ver);                                \
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/numpy.h:1357:19:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        if (!std::equal(buffers[i].shape.cbegin(), buffers[i].shape.cend(), shape.cbegin()))
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:365:28:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
            if (it->doc && strlen(it->doc) > 0 && options::show_user_defined_docstrings()) {
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1357:31:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
                    if (other.equal(arg))
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1368:52:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
                    if (handle(kv.second[int_(0)]).equal(arg))
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1420:64:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
            PYBIND11_ENUM_OP_CONV("__eq__", !b.is_none() &&  a.equal(b));
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1421:64:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
            PYBIND11_ENUM_OP_CONV("__ne__",  b.is_none() || !a.equal(b));
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1436:56:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
            PYBIND11_ENUM_OP_STRICT("__eq__",  int_(a).equal(int_(b)), return false);
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pybind11.h:1437:56:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
            PYBIND11_ENUM_OP_STRICT("__ne__", !int_(a).equal(int_(b)), return true);
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pytypes.h:89:10:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    bool equal(object_api const &other) const      { return rich_compare(other, Py_EQ); }
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pytypes.h:537:65:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    friend bool operator==(const It &a, const It &b) { return a.equal(b); }
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pytypes.h:569:10:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    bool equal(const sequence_fast_readonly &b) const { return ptr == b.ptr; }
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pytypes.h:590:10:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    bool equal(const sequence_slow_readwrite &b) const { return index == b.index; }
data/uhd-4.0.0.0/host/lib/deps/pybind11/include/pybind11/pytypes.h:611:10:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    bool equal(const dict_readonly &b) const { return pos == b.pos; }
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:39:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:49:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:61:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:95:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:105:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:117:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:128:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:138:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/deps/rpclib/include/rpc/msgpack/adaptor/char_ptr.hpp:150:57:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
        uint32_t size = checked_get_container_size(std::strlen(v));
data/uhd-4.0.0.0/host/lib/error_c.cpp:62:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(error_out, error_str.c_str(), strbuffer_len);
data/uhd-4.0.0.0/host/lib/include/uhdlib/usrp/common/lmx2592.hpp:31:52:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    static sptr make(write_spi_t write, read_spi_t read);
data/uhd-4.0.0.0/host/lib/include/uhdlib/utils/ihex.hpp:37:10:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    void read(record_handle_type record_handler);
data/uhd-4.0.0.0/host/lib/rfnoc/graph.cpp:638:24:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        if (!src_prop->equal(dst_prop)) {
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v1.cpp:211:19:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                } read;
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v1.cpp:333:19:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                } read;
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v1.cpp:807:43:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    number_read      = out.params.fifo.op.read.numberRead;
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v1.cpp:808:43:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    number_remaining = out.params.fifo.op.read.numberRemaining;
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v2.cpp:167:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    uint32_t read;
data/uhd-4.0.0.0/host/lib/transport/nirio/niriok_proxy_impl_v2.cpp:807:28:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    number_read      = out.read;
data/uhd-4.0.0.0/host/lib/transport/nirio/rpc/rpc_client.cpp:62:46:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            CHAIN_BLOCKING_XFER(boost::asio::read(_socket,
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:35:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ptr, opt, n);
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:37:12:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    ptr += strlen(opt) + 1;
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:39:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ptr, arg, n);
data/uhd-4.0.0.0/host/lib/transport/uhd-dpdk/dpdk_common.cpp:41:12:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
    ptr += strlen(arg) + 1;
data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp:72:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(pp_string_out, pp_string_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp:87:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(strerror_out, strerror_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp:94:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp:151:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/metadata_c.cpp:208:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/ranges_c.cpp:21:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(pp_string_out, pp_string_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/ranges_c.cpp:90:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(pp_string_out, pp_string_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/ranges_c.cpp:97:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/sensors_c.cpp:118:69:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    UHD_SAFE_C_SAVE_ERROR(h, memset(name_out, '\0', strbuffer_len); strncpy(
data/uhd-4.0.0.0/host/lib/types/sensors_c.cpp:125:70:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    UHD_SAFE_C_SAVE_ERROR(h, memset(value_out, '\0', strbuffer_len); strncpy(
data/uhd-4.0.0.0/host/lib/types/sensors_c.cpp:132:69:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    UHD_SAFE_C_SAVE_ERROR(h, memset(unit_out, '\0', strbuffer_len); strncpy(
data/uhd-4.0.0.0/host/lib/types/sensors_c.cpp:149:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(pp_string_out, pp_string_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/sensors_c.cpp:156:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/string_vector_c.cpp:32:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(value_out, value_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/string_vector_c.cpp:44:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/types/tune_c.cpp:47:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(pp_string_out, pp_string_cpp.c_str(), strbuffer_len);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:224:25:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            file_reader.read(std::bind(&b200_iface_impl::fx3_control_write,
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:598:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            file.read((char*)out_buff, transfer_size);
data/uhd-4.0.0.0/host/lib/usrp/b200/b200_iface.cpp:718:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            file.read((char*)&out_buff[0], transfer_size);
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:263:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            file.read((char*)buf, sizeof(buf));
data/uhd-4.0.0.0/host/lib/usrp/common/fx2_ctrl.cpp:304:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        file.read((char*)data, 256);
data/uhd-4.0.0.0/host/lib/usrp/common/lmx2592.cpp:722:70:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
lmx2592_impl::sptr lmx2592_iface::make(write_spi_t write, read_spi_t read)
data/uhd-4.0.0.0/host/lib/usrp/common/lmx2592.cpp:724:50:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    return std::make_shared<lmx2592_impl>(write, read);
data/uhd-4.0.0.0/host/lib/usrp/dboard_eeprom_c.cpp:28:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(id_out, dboard_id_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/dboard_eeprom_c.cpp:41:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(id_out, dboard_serial_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/dboard_eeprom_c.cpp:80:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/mboard_eeprom_c.cpp:26:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(value_out, value_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/mboard_eeprom_c.cpp:39:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/mpmd/mpmd_image_loader.cpp:55:33:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        component_hash_ifstream.read(&component_hash[0], MD5LEN);
data/uhd-4.0.0.0/host/lib/usrp/subdev_spec_c.cpp:68:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(pp_string_out, pp_string_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/subdev_spec_c.cpp:76:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(string_out, string_cpp.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/subdev_spec_c.cpp:83:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp2/n200_image_loader.cpp:290:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    image_file.read((char*)test_bytes, 4);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/n200_image_loader.cpp:323:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    image_file.read((char*)test_bytes, 63);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/n200_image_loader.cpp:459:15:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        image.read((char*)pkt_out.data.flash_args.data, N200_FLASH_DATA_PACKET_SIZE);
data/uhd-4.0.0.0/host/lib/usrp/usrp2/n200_image_loader.cpp:518:15:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        image.read((char*)image_part, N200_FLASH_DATA_PACKET_SIZE);
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:139:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:196:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:253:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:347:12:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        h, strncpy(pp_string_out, USRP(h)->get_pp_string().c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:355:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:427:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:450:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:586:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(rx_subdev_name_out, rx_subdev_name.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:655:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(rx_lo_source_out,
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:757:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(ant_out, rx_antenna.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:840:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(tx_subdev_name_out, tx_subdev_name.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:909:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(tx_lo_source_out,
data/uhd-4.0.0.0/host/lib/usrp/usrp_c.cpp:1006:27:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
                          strncpy(ant_out, tx_antenna.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_uart.cpp:61:9:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    int getchar(void)
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_uart.cpp:93:30:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                for (int c = getchar(); c != '\n' and c != -1; c = getchar()) {
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_uart.cpp:93:68:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                for (int c = getchar(); c != '\n' and c != -1; c = getchar()) {
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_uart.cpp:134:33:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            for (int ch = this->getchar(); ch != -1; ch = this->getchar()) {
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_fw_uart.cpp:134:65:  [1] (buffer) getchar:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            for (int ch = this->getchar(); ch != -1; ch = this->getchar()) {
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_image_loader.cpp:356:23:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                image.read((char*)pkt_out.data8, X300_PACKET_SIZE_BYTES);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_impl.cpp:193:13:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    fw_file.read((char*)fw_file_buff, sizeof(fw_file_buff));
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_controller.cpp:616:42:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        if (_fw_regmap->clock_status_reg.read(which) == 1) {
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_controller.cpp:623:42:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    return (_fw_regmap->clock_status_reg.read(which) == 1);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_controller.cpp:631:38:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        _fw_regmap->clock_status_reg.read(fw_regmap_t::clk_status_reg_t::PPS_DETECT);
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_mb_controller.cpp:636:45:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
            != _fw_regmap->clock_status_reg.read(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1121:41:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        return bool(_regs->misc_ins_reg.read(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1310:41:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                if (_regs->misc_ins_reg.read(
data/uhd-4.0.0.0/host/lib/usrp/x300/x300_radio_control.cpp:1329:41:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                if (_regs->misc_ins_reg.read(
data/uhd-4.0.0.0/host/lib/usrp_clock/octoclock/octoclock_image_loader.cpp:83:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    bin_file.read((char*)&session.image[0], filesize);
data/uhd-4.0.0.0/host/lib/usrp_clock/usrp_clock_c.cpp:98:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(error_out, h->last_error.c_str(), strbuffer_len);)
data/uhd-4.0.0.0/host/lib/usrp_clock/usrp_clock_c.cpp:104:74:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    UHD_SAFE_C_SAVE_ERROR(h, memset(pp_string_out, '\0', strbuffer_len); strncpy(
data/uhd-4.0.0.0/host/lib/utils/ihex.cpp:85:19:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
void ihex_reader::read(ihex_reader::record_handle_type record_handler)
data/uhd-4.0.0.0/host/lib/utils/ihex.cpp:203:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    this->read(std::bind(&_file_writer_callback,
data/uhd-4.0.0.0/host/lib/utils/ihex.cpp:227:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    this->read(std::bind(&_vector_writer_callback,
data/uhd-4.0.0.0/host/lib/version_c.cpp:16:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(abi_string_out, cpp_abi_string.c_str(), buffer_len);)
data/uhd-4.0.0.0/host/lib/version_c.cpp:24:16:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
               strncpy(version_out, cpp_version.c_str(), buffer_len);)
data/uhd-4.0.0.0/host/tests/rfnoc_property_test.cpp:131:24:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    BOOST_CHECK(prop_i.equal(cloned_prop.get()));
data/uhd-4.0.0.0/mpm/lib/mykonos/ad937x_device.cpp:127:10:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    file.read(reinterpret_cast<char*>(binary.data()), ARM_BINARY_SIZE);
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11014:75:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
mykonosErr_t MYKONOS_jesd204bIlasCheck(mykonosDevice_t *device, uint16_t *mismatch)
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11094:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0001;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11099:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0002;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11104:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0004;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11109:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0008;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11114:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0010;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11119:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0020;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11124:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0040;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11129:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0080;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11134:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0100;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11139:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0200;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11144:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0400;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11149:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x0800;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11154:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x1000;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11159:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x2000;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11164:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x4000;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11167:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
    if (*mismatch)
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.c:11169:10:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
        *mismatch |= 0x8000;
data/uhd-4.0.0.0/mpm/lib/mykonos/adi/mykonos.h:175:75:  [1] (buffer) mismatch:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
mykonosErr_t MYKONOS_jesd204bIlasCheck(mykonosDevice_t *device, uint16_t *mismatch);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:108:6:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
	if (strlen(in) < 17)
data/uhd-4.0.0.0/mpm/tools/eeprom.c:111:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(tmp, in, sizeof(tmp) - 1);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:157:6:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
	if (strlen(serial) > 8) {
data/uhd-4.0.0.0/mpm/tools/eeprom.c:164:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(ep->serial, serial, 8);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:261:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		got = read(fd, rptr, len);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:351:2:  [1] (obsolete) usleep:
  This C routine is considered obsolete (as opposed to the shell command by
  the same name). The interaction of this function with SIGALRM and other
  timer functions such as sleep(), alarm(), setitimer(), and nanosleep() is
  unspecified (CWE-676). Use nanosleep(2) or setitimer(2) instead.
	usleep(5 * 1000);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:440:6:  [1] (buffer) strlen:
  Does not handle strings that are not \0-terminated; if given one it may
  perform an over-read (it could cause a crash if unprotected) (CWE-126).
	if (strlen(serial) > 8) {
data/uhd-4.0.0.0/mpm/tools/eeprom.c:447:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(ep->serial, serial, 8);
data/uhd-4.0.0.0/mpm/tools/eeprom.c:475:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		got = read(fd, rptr, len);
data/uhd-4.0.0.0/tools/kitchen_sink/kitchen_sink.cpp:320:17:  [1] (obsolete) usleep:
  This C routine is considered obsolete (as opposed to the shell command by
  the same name). The interaction of this function with SIGALRM and other
  timer functions such as sleep(), alarm(), setitimer(), and nanosleep() is
  unspecified (CWE-676). Use nanosleep(2) or setitimer(2) instead.
                usleep(delay);
data/uhd-4.0.0.0/tools/kitchen_sink/kitchen_sink.cpp:763:13:  [1] (obsolete) usleep:
  This C routine is considered obsolete (as opposed to the shell command by
  the same name). The interaction of this function with SIGALRM and other
  timer functions such as sleep(), alarm(), setitimer(), and nanosleep() is
  unspecified (CWE-676). Use nanosleep(2) or setitimer(2) instead.
            usleep(delay);
data/uhd-4.0.0.0/tools/kitchen_sink/kitchen_sink.cpp:1717:34:  [1] (buffer) fgetc:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
                        char c = fgetc(stdin);

ANALYSIS SUMMARY:

Hits = 1406
Lines analyzed = 597744 in approximately 18.52 seconds (32269 lines/second)
Physical Source Lines of Code (SLOC) = 393688
Hits@level = [0] 604 [1] 251 [2] 595 [3]  32 [4] 526 [5]   2
Hits@level+ = [0+] 2010 [1+] 1406 [2+] 1155 [3+] 560 [4+] 528 [5+]   2
Hits/KSLOC@level+ = [0+] 5.10557 [1+] 3.57136 [2+] 2.9338 [3+] 1.42245 [4+] 1.34116 [5+] 0.00508017
Dot directories skipped = 4 (--followdotdir overrides)
Minimum risk level = 1
Not every hit is necessarily a security vulnerability.
There may be other security vulnerabilities; review your code!
See 'Secure Programming HOWTO'
(https://dwheeler.com/secure-programs) for more information.