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/libfabric-1.11.0/fabtests/benchmarks/benchmark_shared.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/benchmark_shared.h
Examining data/libfabric-1.11.0/fabtests/benchmarks/dgram_pingpong.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/msg_bw.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/msg_pingpong.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/rdm_cntr_pingpong.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/rdm_pingpong.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/rdm_tagged_bw.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/rdm_tagged_pingpong.c
Examining data/libfabric-1.11.0/fabtests/benchmarks/rma_bw.c
Examining data/libfabric-1.11.0/fabtests/common/hmem.c
Examining data/libfabric-1.11.0/fabtests/common/hmem_cuda.c
Examining data/libfabric-1.11.0/fabtests/common/hmem_rocr.c
Examining data/libfabric-1.11.0/fabtests/common/hmem_ze.c
Examining data/libfabric-1.11.0/fabtests/common/jsmn.c
Examining data/libfabric-1.11.0/fabtests/common/osx/osd.c
Examining data/libfabric-1.11.0/fabtests/common/shared.c
Examining data/libfabric-1.11.0/fabtests/common/windows/getopt.c
Examining data/libfabric-1.11.0/fabtests/common/windows/osd.c
Examining data/libfabric-1.11.0/fabtests/functional/av_xfer.c
Examining data/libfabric-1.11.0/fabtests/functional/bw.c
Examining data/libfabric-1.11.0/fabtests/functional/cm_data.c
Examining data/libfabric-1.11.0/fabtests/functional/cq_data.c
Examining data/libfabric-1.11.0/fabtests/functional/dgram.c
Examining data/libfabric-1.11.0/fabtests/functional/dgram_waitset.c
Examining data/libfabric-1.11.0/fabtests/functional/inj_complete.c
Examining data/libfabric-1.11.0/fabtests/functional/mcast.c
Examining data/libfabric-1.11.0/fabtests/functional/msg.c
Examining data/libfabric-1.11.0/fabtests/functional/msg_epoll.c
Examining data/libfabric-1.11.0/fabtests/functional/msg_sockets.c
Examining data/libfabric-1.11.0/fabtests/functional/multi_ep.c
Examining data/libfabric-1.11.0/fabtests/functional/multi_mr.c
Examining data/libfabric-1.11.0/fabtests/functional/multi_recv.c
Examining data/libfabric-1.11.0/fabtests/functional/poll.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_atomic.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_multi_domain.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_rma_simple.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_shared_av.c
Examining data/libfabric-1.11.0/fabtests/functional/rdm_tagged_peek.c
Examining data/libfabric-1.11.0/fabtests/functional/recv_cancel.c
Examining data/libfabric-1.11.0/fabtests/functional/resmgmt_test.c
Examining data/libfabric-1.11.0/fabtests/functional/scalable_ep.c
Examining data/libfabric-1.11.0/fabtests/functional/shared_ctx.c
Examining data/libfabric-1.11.0/fabtests/functional/stream_msg.c
Examining data/libfabric-1.11.0/fabtests/functional/unexpected_msg.c
Examining data/libfabric-1.11.0/fabtests/functional/unmap_mem.c
Examining data/libfabric-1.11.0/fabtests/include/freebsd/osd.h
Examining data/libfabric-1.11.0/fabtests/include/ft_osd.h
Examining data/libfabric-1.11.0/fabtests/include/hmem.h
Examining data/libfabric-1.11.0/fabtests/include/jsmn.h
Examining data/libfabric-1.11.0/fabtests/include/osx/malloc.h
Examining data/libfabric-1.11.0/fabtests/include/osx/osd.h
Examining data/libfabric-1.11.0/fabtests/include/shared.h
Examining data/libfabric-1.11.0/fabtests/include/unit_common.h
Examining data/libfabric-1.11.0/fabtests/include/unix/osd.h
Examining data/libfabric-1.11.0/fabtests/include/windows/getopt/getopt.h
Examining data/libfabric-1.11.0/fabtests/include/windows/netdb.h
Examining data/libfabric-1.11.0/fabtests/include/windows/netinet/in.h
Examining data/libfabric-1.11.0/fabtests/include/windows/netinet/tcp.h
Examining data/libfabric-1.11.0/fabtests/include/windows/osd.h
Examining data/libfabric-1.11.0/fabtests/include/windows/poll.h
Examining data/libfabric-1.11.0/fabtests/include/windows/sys/socket.h
Examining data/libfabric-1.11.0/fabtests/include/windows/sys/uio.h
Examining data/libfabric-1.11.0/fabtests/include/windows/sys/wait.h
Examining data/libfabric-1.11.0/fabtests/include/windows/unistd.h
Examining data/libfabric-1.11.0/fabtests/multinode/include/coll_test.h
Examining data/libfabric-1.11.0/fabtests/multinode/include/core.h
Examining data/libfabric-1.11.0/fabtests/multinode/include/pattern.h
Examining data/libfabric-1.11.0/fabtests/multinode/src/core.c
Examining data/libfabric-1.11.0/fabtests/multinode/src/core_coll.c
Examining data/libfabric-1.11.0/fabtests/multinode/src/harness.c
Examining data/libfabric-1.11.0/fabtests/multinode/src/pattern.c
Examining data/libfabric-1.11.0/fabtests/ubertest/config.c
Examining data/libfabric-1.11.0/fabtests/ubertest/connect.c
Examining data/libfabric-1.11.0/fabtests/ubertest/cq.c
Examining data/libfabric-1.11.0/fabtests/ubertest/domain.c
Examining data/libfabric-1.11.0/fabtests/ubertest/ep.c
Examining data/libfabric-1.11.0/fabtests/ubertest/fabtest.h
Examining data/libfabric-1.11.0/fabtests/ubertest/ofi_atomic.c
Examining data/libfabric-1.11.0/fabtests/ubertest/ofi_atomic.h
Examining data/libfabric-1.11.0/fabtests/ubertest/test_ctrl.c
Examining data/libfabric-1.11.0/fabtests/ubertest/uber.c
Examining data/libfabric-1.11.0/fabtests/ubertest/verify.c
Examining data/libfabric-1.11.0/fabtests/ubertest/xfer.c
Examining data/libfabric-1.11.0/fabtests/unit/av_test.c
Examining data/libfabric-1.11.0/fabtests/unit/cntr_test.c
Examining data/libfabric-1.11.0/fabtests/unit/common.c
Examining data/libfabric-1.11.0/fabtests/unit/cq_test.c
Examining data/libfabric-1.11.0/fabtests/unit/dom_test.c
Examining data/libfabric-1.11.0/fabtests/unit/eq_test.c
Examining data/libfabric-1.11.0/fabtests/unit/getinfo_test.c
Examining data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c
Examining data/libfabric-1.11.0/fabtests/unit/mr_test.c
Examining data/libfabric-1.11.0/fabtests/unit/resource_freeing.c
Examining data/libfabric-1.11.0/include/fasthash.h
Examining data/libfabric-1.11.0/include/freebsd/osd.h
Examining data/libfabric-1.11.0/include/linux/osd.h
Examining data/libfabric-1.11.0/include/linux/rdpmc.h
Examining data/libfabric-1.11.0/include/ofi.h
Examining data/libfabric-1.11.0/include/ofi_abi.h
Examining data/libfabric-1.11.0/include/ofi_atom.h
Examining data/libfabric-1.11.0/include/ofi_atomic.h
Examining data/libfabric-1.11.0/include/ofi_bitmask.h
Examining data/libfabric-1.11.0/include/ofi_coll.h
Examining data/libfabric-1.11.0/include/ofi_cuda.h
Examining data/libfabric-1.11.0/include/ofi_enosys.h
Examining data/libfabric-1.11.0/include/ofi_epoll.h
Examining data/libfabric-1.11.0/include/ofi_file.h
Examining data/libfabric-1.11.0/include/ofi_hmem.h
Examining data/libfabric-1.11.0/include/ofi_hook.h
Examining data/libfabric-1.11.0/include/ofi_indexer.h
Examining data/libfabric-1.11.0/include/ofi_iov.h
Examining data/libfabric-1.11.0/include/ofi_list.h
Examining data/libfabric-1.11.0/include/ofi_lock.h
Examining data/libfabric-1.11.0/include/ofi_mem.h
Examining data/libfabric-1.11.0/include/ofi_mr.h
Examining data/libfabric-1.11.0/include/ofi_net.h
Examining data/libfabric-1.11.0/include/ofi_osd.h
Examining data/libfabric-1.11.0/include/ofi_perf.h
Examining data/libfabric-1.11.0/include/ofi_proto.h
Examining data/libfabric-1.11.0/include/ofi_prov.h
Examining data/libfabric-1.11.0/include/ofi_rbuf.h
Examining data/libfabric-1.11.0/include/ofi_recvwin.h
Examining data/libfabric-1.11.0/include/ofi_shm.h
Examining data/libfabric-1.11.0/include/ofi_signal.h
Examining data/libfabric-1.11.0/include/ofi_tree.h
Examining data/libfabric-1.11.0/include/ofi_util.h
Examining data/libfabric-1.11.0/include/osx/osd.h
Examining data/libfabric-1.11.0/include/rbtree.h
Examining data/libfabric-1.11.0/include/rdma/fabric.h
Examining data/libfabric-1.11.0/include/rdma/fi_atomic.h
Examining data/libfabric-1.11.0/include/rdma/fi_cm.h
Examining data/libfabric-1.11.0/include/rdma/fi_collective.h
Examining data/libfabric-1.11.0/include/rdma/fi_domain.h
Examining data/libfabric-1.11.0/include/rdma/fi_endpoint.h
Examining data/libfabric-1.11.0/include/rdma/fi_eq.h
Examining data/libfabric-1.11.0/include/rdma/fi_errno.h
Examining data/libfabric-1.11.0/include/rdma/fi_rma.h
Examining data/libfabric-1.11.0/include/rdma/fi_tagged.h
Examining data/libfabric-1.11.0/include/rdma/fi_trigger.h
Examining data/libfabric-1.11.0/include/rdma/providers/fi_log.h
Examining data/libfabric-1.11.0/include/rdma/providers/fi_prov.h
Examining data/libfabric-1.11.0/include/shared/ofi_str.h
Examining data/libfabric-1.11.0/include/unix/osd.h
Examining data/libfabric-1.11.0/include/uthash.h
Examining data/libfabric-1.11.0/include/windows/arpa/inet.h
Examining data/libfabric-1.11.0/include/windows/config.h
Examining data/libfabric-1.11.0/include/windows/dirent.h
Examining data/libfabric-1.11.0/include/windows/ifaddrs.h
Examining data/libfabric-1.11.0/include/windows/net/if.h
Examining data/libfabric-1.11.0/include/windows/netdb.h
Examining data/libfabric-1.11.0/include/windows/netinet/in.h
Examining data/libfabric-1.11.0/include/windows/netinet/ip.h
Examining data/libfabric-1.11.0/include/windows/netinet/tcp.h
Examining data/libfabric-1.11.0/include/windows/osd.h
Examining data/libfabric-1.11.0/include/windows/poll.h
Examining data/libfabric-1.11.0/include/windows/pthread.h
Examining data/libfabric-1.11.0/include/windows/sys/ipc.h
Examining data/libfabric-1.11.0/include/windows/sys/mman.h
Examining data/libfabric-1.11.0/include/windows/sys/param.h
Examining data/libfabric-1.11.0/include/windows/sys/select.h
Examining data/libfabric-1.11.0/include/windows/sys/socket.h
Examining data/libfabric-1.11.0/include/windows/sys/time.h
Examining data/libfabric-1.11.0/include/windows/sys/uio.h
Examining data/libfabric-1.11.0/include/windows/sys/wait.h
Examining data/libfabric-1.11.0/include/windows/unistd.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_compiler.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_flight_recorder.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_hwi.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_l2atomic.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_mu.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_node.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_progress.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_spi.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_atomic.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_atomic_def.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_cm.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_domain.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_endpoint.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_eq.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_tagged.h
Examining data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_trigger.h
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_agent.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_atomic.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_av.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_cm.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_cntr.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_cq.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_domain.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_fabric.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_info.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_init.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_mr.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_msg.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_node.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_progress.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_rma.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_spi.c
Examining data/libfabric-1.11.0/prov/bgq/src/fi_bgq_tagged.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/cq_agent_init.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/cq_mfifo_init.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/cq_mfifo_multithreaded.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/cq_mfifo_multithreaded_perf.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/cq_mfifo_overflow.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2alloc_func.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2alloc_simple.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2alloc_single.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2atomic_fifo_perf.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2barrier_func.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2lock_func.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/l2lock_init.c
Examining data/libfabric-1.11.0/prov/bgq/src/test/spi_pingpong.c
Examining data/libfabric-1.11.0/prov/efa/src/efa.h
Examining data/libfabric-1.11.0/prov/efa/src/efa_av.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_cm.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_cq.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_device.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_domain.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_ep.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_fabric.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_mr.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_msg.c
Examining data/libfabric-1.11.0/prov/efa/src/efa_rma.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_atomic.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_atomic.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_attr.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_cntr.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_cntr.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_cq.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_domain.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_fabric.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_init.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_msg.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_msg.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_cmd.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_cmd.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_entry.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_entry.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_data.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_misc.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_req.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_req.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_read.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_read.h
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_rma.c
Examining data/libfabric-1.11.0/prov/efa/src/rxr/rxr_rma.h
Examining data/libfabric-1.11.0/prov/gni/include/fi_ext_gni.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_atomic.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_auth_key.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_av.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_bitmap.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_buddy_allocator.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_cm.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_cm_nic.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_cntr.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_cq.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_datagram.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_ep.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_eq.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_freelist.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_hashtable.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_mbox_allocator.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_mr.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_mr_cache.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_mr_notifier.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_msg.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_nameserver.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_nic.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_poll.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_priv.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_progress.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_queue.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_rma.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_shmem.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_smrn.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_tags.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_trigger.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_util.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_vc.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_vector.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_wait.h
Examining data/libfabric-1.11.0/prov/gni/include/gnix_xpmem.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_atomic.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_atomic_def.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_cm.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_domain.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_endpoint.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_eq.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_rma.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_tagged.h
Examining data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_trigger.h
Examining data/libfabric-1.11.0/prov/gni/src/gnix_atomic.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_auth_key.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_av.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_bitmap.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_buddy_allocator.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_cm.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_cm_nic.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_cntr.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_cq.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_datagram.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_dom.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_ep.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_eq.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_freelist.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_hashtable.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_init.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_mr.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_mr_cache.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_mr_notifier.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_msg.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_nic.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_poll.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_progress.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_queue.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_rma.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_sep.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_shmem.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_smrn.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_tags.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_trigger.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_util.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_vc.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_vector.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_wait.c
Examining data/libfabric-1.11.0/prov/gni/src/gnix_xpmem.c
Examining data/libfabric-1.11.0/prov/gni/test/allocator.c
Examining data/libfabric-1.11.0/prov/gni/test/api.c
Examining data/libfabric-1.11.0/prov/gni/test/api_cntr.c
Examining data/libfabric-1.11.0/prov/gni/test/api_cq.c
Examining data/libfabric-1.11.0/prov/gni/test/auth_key.c
Examining data/libfabric-1.11.0/prov/gni/test/av.c
Examining data/libfabric-1.11.0/prov/gni/test/bitmap.c
Examining data/libfabric-1.11.0/prov/gni/test/buddy_allocator.c
Examining data/libfabric-1.11.0/prov/gni/test/cancel.c
Examining data/libfabric-1.11.0/prov/gni/test/cm.c
Examining data/libfabric-1.11.0/prov/gni/test/cntr.c
Examining data/libfabric-1.11.0/prov/gni/test/common.c
Examining data/libfabric-1.11.0/prov/gni/test/common.h
Examining data/libfabric-1.11.0/prov/gni/test/cq.c
Examining data/libfabric-1.11.0/prov/gni/test/datagram.c
Examining data/libfabric-1.11.0/prov/gni/test/dlist-utils.c
Examining data/libfabric-1.11.0/prov/gni/test/dom.c
Examining data/libfabric-1.11.0/prov/gni/test/ep.c
Examining data/libfabric-1.11.0/prov/gni/test/eq.c
Examining data/libfabric-1.11.0/prov/gni/test/fabric.c
Examining data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c
Examining data/libfabric-1.11.0/prov/gni/test/freelist.c
Examining data/libfabric-1.11.0/prov/gni/test/gnix_rdma_headers.h
Examining data/libfabric-1.11.0/prov/gni/test/hashtable.c
Examining data/libfabric-1.11.0/prov/gni/test/mr.c
Examining data/libfabric-1.11.0/prov/gni/test/mr_notifier.c
Examining data/libfabric-1.11.0/prov/gni/test/nic.c
Examining data/libfabric-1.11.0/prov/gni/test/pmi_utils.c
Examining data/libfabric-1.11.0/prov/gni/test/queue.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_addr_str_sr.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_atomic.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_multi_recv.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_rx_overrun.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_sr.c
Examining data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c
Examining data/libfabric-1.11.0/prov/gni/test/sep.c
Examining data/libfabric-1.11.0/prov/gni/test/shmem.c
Examining data/libfabric-1.11.0/prov/gni/test/smrn.c
Examining data/libfabric-1.11.0/prov/gni/test/tags.c
Examining data/libfabric-1.11.0/prov/gni/test/utils.c
Examining data/libfabric-1.11.0/prov/gni/test/vc.c
Examining data/libfabric-1.11.0/prov/gni/test/vc_lookup.c
Examining data/libfabric-1.11.0/prov/gni/test/vector.c
Examining data/libfabric-1.11.0/prov/gni/test/wait.c
Examining data/libfabric-1.11.0/prov/hook/hook_debug/include/hook_debug.h
Examining data/libfabric-1.11.0/prov/hook/hook_debug/src/hook_debug.c
Examining data/libfabric-1.11.0/prov/hook/include/hook_prov.h
Examining data/libfabric-1.11.0/prov/hook/perf/include/hook_perf.h
Examining data/libfabric-1.11.0/prov/hook/perf/src/hook_perf.c
Examining data/libfabric-1.11.0/prov/hook/src/hook.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_av.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_cm.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_cntr.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_cq.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_domain.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_ep.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_eq.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_wait.c
Examining data/libfabric-1.11.0/prov/hook/src/hook_xfer.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail.h
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_attr.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_av.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_cq.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_domain.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_ep.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_fabric.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_init.c
Examining data/libfabric-1.11.0/prov/mrail/src/mrail_rma.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_addr.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_buf.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_cntr.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_cq.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_domain.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ep.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ep_msg.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ep_rma.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ep_srx.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_fabric.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_fs.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_iface.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_init.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_log.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ndinit.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ov.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_ov.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_pep.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_queue.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.h
Examining data/libfabric-1.11.0/prov/netdir/src/netdir_util.h
Examining data/libfabric-1.11.0/prov/psm/src/psm_am.h
Examining data/libfabric-1.11.0/prov/psm/src/psmx.h
Examining data/libfabric-1.11.0/prov/psm/src/psmx_am.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_av.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_cm.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_cq.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_domain.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_ep.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_fabric.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_init.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_mr.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_msg.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_msg2.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_rma.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_tagged.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_util.c
Examining data/libfabric-1.11.0/prov/psm/src/psmx_wait.c
Examining data/libfabric-1.11.0/prov/psm/src/version.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_atomic.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_atomic_def.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_cm.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_endpoint.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_eq.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_rma.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_tagged.h
Examining data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_trigger.h
Examining data/libfabric-1.11.0/prov/psm2/src/psm2_revision.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2.h
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_am.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_attr.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_cm.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_cntr.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_domain.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_ep.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_fabric.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_msg.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_tagged.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_trx_ctxt.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_wait.c
Examining data/libfabric-1.11.0/prov/psm2/src/version.h
Examining data/libfabric-1.11.0/prov/psm2/src/psmx2_av.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream.h
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_attr.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_cm.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_domain.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_ep.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_eq.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_fabric.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_init.c
Examining data/libfabric-1.11.0/prov/rstream/src/rstream_msg.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd.h
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_atomic.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_attr.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_av.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_cntr.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_cq.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_domain.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_ep.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_fabric.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_init.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_msg.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_proto.h
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_rma.c
Examining data/libfabric-1.11.0/prov/rxd/src/rxd_tagged.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm.h
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_atomic.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_attr.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_av.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_conn.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_cq.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_ep.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_fabric.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_init.c
Examining data/libfabric-1.11.0/prov/rxm/src/rxm_rma.c
Examining data/libfabric-1.11.0/prov/shm/src/smr.h
Examining data/libfabric-1.11.0/prov/shm/src/smr_atomic.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_attr.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_av.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_cntr.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_comp.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_cq.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_domain.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_ep.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_fabric.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_init.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_msg.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_progress.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_rma.c
Examining data/libfabric-1.11.0/prov/shm/src/smr_signal.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_atomic.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_atomic_def.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_cm.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_domain.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_endpoint.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_eq.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_rma.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_tagged.h
Examining data/libfabric-1.11.0/prov/sockets/include/rdma/fi_direct_trigger.h
Examining data/libfabric-1.11.0/prov/sockets/include/sock.h
Examining data/libfabric-1.11.0/prov/sockets/include/sock_util.h
Examining data/libfabric-1.11.0/prov/sockets/src/sock_atomic.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_attr.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_av.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_comm.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_conn.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_cq.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_ctx.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_dom.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_ep.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_ep_dgram.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_ep_rdm.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_eq.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_fabric.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_mr.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_msg.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_poll.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_progress.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_rma.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_rx_entry.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c
Examining data/libfabric-1.11.0/prov/sockets/src/sock_wait.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx.h
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_attr.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_comm.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_conn_mgr.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_cq.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_domain.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_ep.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_eq.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_fabric.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_init.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_rma.c
Examining data/libfabric-1.11.0/prov/tcp/src/tcpx_shared_ctx.c
Examining data/libfabric-1.11.0/prov/udp/src/udpx.h
Examining data/libfabric-1.11.0/prov/udp/src/udpx_attr.c
Examining data/libfabric-1.11.0/prov/udp/src/udpx_cq.c
Examining data/libfabric-1.11.0/prov/udp/src/udpx_domain.c
Examining data/libfabric-1.11.0/prov/udp/src/udpx_ep.c
Examining data/libfabric-1.11.0/prov/udp/src/udpx_fabric.c
Examining data/libfabric-1.11.0/prov/udp/src/udpx_init.c
Examining data/libfabric-1.11.0/prov/usnic/src/fi_ext_usnic.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_av.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_av.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_cm.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_cm.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_cq.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_cq.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_domain.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_endpoint.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_endpoint.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_ep_dgram.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_eq.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_ext.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_fake_ibv.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_mem.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_poll.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_poll.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_progress.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_progress.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_rudp.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_socket.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_socket.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_timer.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_timer.h
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_wait.c
Examining data/libfabric-1.11.0/prov/usnic/src/usdf_wait.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/cq_desc.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/cq_enet_desc.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/kcompat.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/kcompat_priv.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl1_utils.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl3_utils.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl_utils.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl_utils_common.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/linux/delay.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/linux/slab.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/linux_types.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/rq_enet_desc.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_caps.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_caps.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_dest.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_dest.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_device.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_device.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_enum.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_event.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_cmd.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_cmd.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_mem.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_poll.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_pio_udp.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_raw.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_queue.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_queues.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_socket.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_socket.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_time.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_util.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_vnic.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_vnic.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_abi.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_direct.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ib_abi.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_user_utils.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_cq.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_cq.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_devcmd.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_enet.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_intr.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_intr.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_resource.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_rq.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_rq.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_stats.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_wq.c
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_wq.h
Examining data/libfabric-1.11.0/prov/usnic/src/usnic_direct/wq_enet_desc.h
Examining data/libfabric-1.11.0/prov/util/src/cuda_mem_monitor.c
Examining data/libfabric-1.11.0/prov/util/src/rocr_mem_monitor.c
Examining data/libfabric-1.11.0/prov/util/src/util_atomic.c
Examining data/libfabric-1.11.0/prov/util/src/util_attr.c
Examining data/libfabric-1.11.0/prov/util/src/util_av.c
Examining data/libfabric-1.11.0/prov/util/src/util_buf.c
Examining data/libfabric-1.11.0/prov/util/src/util_cntr.c
Examining data/libfabric-1.11.0/prov/util/src/util_coll.c
Examining data/libfabric-1.11.0/prov/util/src/util_cq.c
Examining data/libfabric-1.11.0/prov/util/src/util_domain.c
Examining data/libfabric-1.11.0/prov/util/src/util_ep.c
Examining data/libfabric-1.11.0/prov/util/src/util_eq.c
Examining data/libfabric-1.11.0/prov/util/src/util_fabric.c
Examining data/libfabric-1.11.0/prov/util/src/util_main.c
Examining data/libfabric-1.11.0/prov/util/src/util_mem_hooks.c
Examining data/libfabric-1.11.0/prov/util/src/util_mem_monitor.c
Examining data/libfabric-1.11.0/prov/util/src/util_mr_cache.c
Examining data/libfabric-1.11.0/prov/util/src/util_mr_map.c
Examining data/libfabric-1.11.0/prov/util/src/util_ns.c
Examining data/libfabric-1.11.0/prov/util/src/util_pep.c
Examining data/libfabric-1.11.0/prov/util/src/util_poll.c
Examining data/libfabric-1.11.0/prov/util/src/util_shm.c
Examining data/libfabric-1.11.0/prov/util/src/util_wait.c
Examining data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c
Examining data/libfabric-1.11.0/prov/verbs/src/fi_verbs.h
Examining data/libfabric-1.11.0/prov/verbs/src/ofi_verbs_priv.h
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_cm_xrc.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_dgram_av.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_dgram_ep_msg.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_domain.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_domain_xrc.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_ep.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_info.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_msg.c
Examining data/libfabric-1.11.0/prov/verbs/src/verbs_rma.c
Examining data/libfabric-1.11.0/src/abi_1_0.c
Examining data/libfabric-1.11.0/src/common.c
Examining data/libfabric-1.11.0/src/enosys.c
Examining data/libfabric-1.11.0/src/fabric.c
Examining data/libfabric-1.11.0/src/fasthash.c
Examining data/libfabric-1.11.0/src/fi_tostr.c
Examining data/libfabric-1.11.0/src/hmem.c
Examining data/libfabric-1.11.0/src/hmem_cuda.c
Examining data/libfabric-1.11.0/src/hmem_rocr.c
Examining data/libfabric-1.11.0/src/hmem_ze.c
Examining data/libfabric-1.11.0/src/indexer.c
Examining data/libfabric-1.11.0/src/iov.c
Examining data/libfabric-1.11.0/src/linux/osd.c
Examining data/libfabric-1.11.0/src/linux/rdpmc.c
Examining data/libfabric-1.11.0/src/log.c
Examining data/libfabric-1.11.0/src/mem.c
Examining data/libfabric-1.11.0/src/perf.c
Examining data/libfabric-1.11.0/src/rbtree.c
Examining data/libfabric-1.11.0/src/shared/ofi_str.c
Examining data/libfabric-1.11.0/src/tree.c
Examining data/libfabric-1.11.0/src/unix/osd.c
Examining data/libfabric-1.11.0/src/var.c
Examining data/libfabric-1.11.0/src/windows/osd.c
Examining data/libfabric-1.11.0/util/info.c
Examining data/libfabric-1.11.0/util/pingpong.c
Examining data/libfabric-1.11.0/util/strerror.c
Examining data/libfabric-1.11.0/util/windows/getopt/getopt.cpp
Examining data/libfabric-1.11.0/util/windows/getopt/getopt.h

FINAL RESULTS:

data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:457:7:  [5] (race) readlink:
  This accepts filename arguments; if an attacker can move those files or
  change the link content, a race condition results. Also, it does not
  terminate with ASCII NUL. (CWE-362, CWE-20). Reconsider approach.
		n = readlink(path, buffer, 80);
data/libfabric-1.11.0/fabtests/common/shared.c:362:55:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
static int ft_reg_mr(void *buf, size_t size, uint64_t access,
data/libfabric-1.11.0/fabtests/common/shared.c:380:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/fabtests/common/shared.c:438:42:  [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.
		ret = ft_reg_mr(context->buf, mr_size, access,
data/libfabric-1.11.0/fabtests/functional/rdm_atomic.c:184:5:  [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,					\
data/libfabric-1.11.0/fabtests/functional/rdm_atomic.c:188:5:  [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,					\
data/libfabric-1.11.0/fabtests/functional/rdm_atomic.c:205:4:  [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,						\
data/libfabric-1.11.0/fabtests/functional/rdm_atomic.c:209:4:  [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,						\
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:487:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(tx_buf, "%s", welcome_text);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:490:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(rx_buf, "%s", welcome_text);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:493:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(tx_buf, "%s%s", welcome_text, write_text);
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:79:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(tx_buf, "%s%s", welcome_text1, welcome_text2);
data/libfabric-1.11.0/fabtests/include/shared.h:297:7:  [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.
	do { fprintf(stderr, call "(): %s:%d, ret=%d (%s)\n", __FILE__, __LINE__, \
data/libfabric-1.11.0/fabtests/include/shared.h:517:40:  [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.
#define FT_PRINT_OPTS_USAGE(opt, desc) fprintf(stderr, FT_OPTS_USAGE_FORMAT "\n", opt, desc)
data/libfabric-1.11.0/fabtests/include/unit_common.h:46:2:  [4] (format) sprintf:
  Potential format string problem (CWE-134). Make format string constant.
	sprintf(buf, str ": ret=%d (%s)", (int)-ret, fi_strerror((int)-ret))
data/libfabric-1.11.0/fabtests/ubertest/domain.c:216:11:  [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.
	uint64_t access;
data/libfabric-1.11.0/fabtests/ubertest/domain.c:246:49:  [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.
			ret = fi_mr_reg(domain, ctrl->res_buf, size, access,
data/libfabric-1.11.0/fabtests/ubertest/domain.c:256:50:  [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.
			ret = fi_mr_reg(domain, ctrl->comp_buf, size, access,
data/libfabric-1.11.0/fabtests/ubertest/domain.c:275:11:  [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.
	uint64_t access;
data/libfabric-1.11.0/fabtests/ubertest/domain.c:291:44:  [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.
		ret = fi_mr_reg(domain, ctrl->buf, size, access, 0,
data/libfabric-1.11.0/fabtests/unit/av_test.c:66:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_readerr ret = %d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/av_test.c:98:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_sread ret = %d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/av_test.c:154:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%d, %s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:162:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "close(av) = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:215:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "getaddrinfo: %s", gai_strerror(ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:237:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "test does not yet support %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:263:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "test does not yet support %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:311:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:327:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:367:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:381:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:415:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:472:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:545:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:552:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_bind() = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:572:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:617:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:624:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_bind() = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:630:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:673:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:680:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_bind() = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:697:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:710:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:781:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:788:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_bind() = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:810:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:874:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_open(%s) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/av_test.c:902:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:918:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_endpoint=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:924:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_ep_bind=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:934:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_av_insert ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/av_test.c:1003:2:  [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, FT_OPTS_USAGE_FORMAT " (max=%d)\n", "-n <num_good_addr>",
data/libfabric-1.11.0/fabtests/unit/cq_test.c:136:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_cq_open with size %d returned %d, %s",
data/libfabric-1.11.0/fabtests/unit/cq_test.c:143:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "close(cq) = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/cq_test.c:169:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_cq_open(1, 0, FI_CQ_FORMAT_UNSPEC, "
data/libfabric-1.11.0/fabtests/unit/cq_test.c:177:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_cq_signal = %d %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/cq_test.c:186:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_cq_sread = %d %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/cq_test.c:197:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "close(cq) = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:79:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_eq_open(%d, 0, FI_WAIT_UNSPEC) = %d, %s",
data/libfabric-1.11.0/fabtests/unit/eq_test.c:86:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "close(eq) = %d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:117:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:131:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_eq_write ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:143:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_eq_read ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:195:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:205:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_eq_write ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:237:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:243:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_control ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:249:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_trywait ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:257:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "poll errno=%d, %s", errno, fi_strerror(-errno));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:270:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_write ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:278:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "poll errno=%d, %s", errno, fi_strerror(-errno));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:301:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_eq_write ret=%d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:323:4:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
			sprintf(err_buf, "fi_eq_read ret=%d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:349:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_sread returned %d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:375:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:410:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:464:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:490:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_write ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:501:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_read ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:549:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_eq_open ret=%d, %s", ret, fi_strerror(-ret));
data/libfabric-1.11.0/fabtests/unit/eq_test.c:566:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, ", fi_eq_readerr returned: %d: %s, ", ret,
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:60:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "%s addrlen not set", str);
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:64:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "%s address not set", str);
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:93:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "Util provider name not appended to core "
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:335:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:368:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:400:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:458:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:484:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:510:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:697:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(err_buf, "fi_getinfo returned %d - %s",
data/libfabric-1.11.0/fabtests/unit/mr_test.c:55:11:  [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.
	uint64_t access;
data/libfabric-1.11.0/fabtests/unit/mr_test.c:60:30:  [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.
	ret = ft_alloc_bit_combo(0, access, &access_combinations, &cnt);
data/libfabric-1.11.0/include/ofi_enosys.h:227:12:  [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.
		uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/include/ofi_enosys.h:230:26:  [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.
		size_t count, uint64_t access,
data/libfabric-1.11.0/include/ofi_mr.h:212:44:  [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.
		      size_t len, uint64_t key, uint64_t access,
data/libfabric-1.11.0/include/ofi_mr.h:236:26:  [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.
		size_t count, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/include/ofi_mr.h:240:18:  [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.
	       uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/include/ofi_mr.h:243:45:  [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.
		  uintptr_t *addr, uint64_t key, uint64_t access);
data/libfabric-1.11.0/include/rdma/fi_domain.h:126:12:  [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.
	uint64_t		access;
data/libfabric-1.11.0/include/rdma/fi_domain.h:278:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/include/rdma/fi_domain.h:281:27:  [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.
			size_t count, uint64_t access,
data/libfabric-1.11.0/include/uthash.h:514:29:  [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.
#define HASH_OOPS(...) do { fprintf(stderr,__VA_ARGS__); exit(-1); } while (0)
data/libfabric-1.11.0/include/windows/osd.h:262:9:  [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.
#define snprintf _snprintf
data/libfabric-1.11.0/include/windows/osd.h:262:18:  [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.
#define snprintf _snprintf
data/libfabric-1.11.0/include/windows/osd.h:642:12:  [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.
	int len = vsnprintf(0, 0, format, args);
data/libfabric-1.11.0/include/windows/osd.h:644:2:  [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.
	vsnprintf(*ptr, len + 1, format, args);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_flight_recorder.h:66:2:  [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((char *)next->str, FLIGHT_RECORDER_ENTRY_STRLEN, format, __VA_ARGS__);	\
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_domain.h:139:12:  [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.
	uint64_t		access;
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_domain.h:265:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	  uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_domain.h:268:49:  [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.
	return domain->mr->reg(&domain->fid, buf, len, access, offset,
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_mr.c:87:24:  [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.
		size_t len, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:62:2:  [4] (buffer) strcat:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120). Consider using strcat_s, strncat, strlcat, or
  snprintf (warning: strncat is easily misused).
	strcat(value,current_node_block_value);
data/libfabric-1.11.0/prov/efa/src/efa.h:167:15:  [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.
		   uint64_t access, struct fid_mr **mr_fid);
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:621:2:  [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(str, name_len, EFA_FABRIC_PREFIX "%s", straddr);
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:83:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:134:15:  [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.
		   uint64_t access, struct fid_mr **mr_fid)
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:144:52:  [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.
	return fi_mr_regv(efa_domain->shm_domain, iov, 1, access, 0, requested_key, 0, mr_fid, NULL);
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:193:32:  [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.
			     size_t count, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:201:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:211:17:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			    uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:219:41:  [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.
	return efa_mr_cache_regv(fid, &iov, 1, access, offset, requested_key,
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:299:25:  [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.
	core_access = mr_attr->access;
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:416:33:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		       size_t count, uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:423:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:433:18:  [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.
		      uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/efa/src/efa_mr.c:440:35:  [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 efa_mr_regv(fid, &iov, 1, access, offset, requested_key,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr.h:860:34:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			   int mr_iov_start, uint64_t access);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_domain.c:113:26:  [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.
		size_t count, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_domain.c:121:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_domain.c:130:18:  [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.
		      uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_domain.c:138:42:  [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.
	return rxr_mr_regv(domain_fid, &iov, 1, access, offset, requested_key,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:467:34:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			   int mr_iov_start, uint64_t access)
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:486:5:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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, 0, 0, 0,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:492:5:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_cmd.c:763:6:  [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.
	l = snprintf(str, str_len, ("\tdata:    "));
data/libfabric-1.11.0/prov/gni/include/gnix.h:1166:12:  [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.
		uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/gni/include/gnix.h:1170:41:  [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.
                 size_t count, uint64_t access,
data/libfabric-1.11.0/prov/gni/include/gnix_mr.h:229:15:  [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.
			  uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/gni/include/gnix_mr_cache.h:117:11:  [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.
	uint64_t access;
data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_domain.h:62:19:  [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.
		       uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_domain.h:135:29:  [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.
			    size_t len, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/gni/include/rdma/fi_direct_domain.h:139:45:  [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.
	return gnix_mr_reg(&domain->fid, buf, len, access, offset,
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:164:2:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
	sprintf(full_filename, "%s/%s.%d.%d", huge_page, basename, getpid(),
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:201:15:  [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.
			  uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:212:14:  [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.
			.access = access,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:234:34:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 (offset || !buf || !mr_o || !access ||
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:235:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 & ~(FI_READ | FI_WRITE | FI_RECV | FI_SEND |
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:338:11:  [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.
	uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:349:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 = access,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:361:25:  [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.
	size_t count, uint64_t access,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:368:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 = access,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:411:35:  [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.
			attr->mr_iov[0].iov_len, attr->access, attr->offset,
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:681:22:  [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.
	if (fi_reg_context->access & (FI_RECV | FI_READ | FI_REMOTE_WRITE))
data/libfabric-1.11.0/prov/gni/src/gnix_mr.c:1047:22:  [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.
	if (fi_reg_context->access & (FI_RECV | FI_READ | FI_REMOTE_WRITE))
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:182:9:  [4] (buffer) fscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	while (fscanf(arp_table, ARP_TABLE_FORMAT, ip_str, mac_str) == 2) {
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:256:13:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function.
			scount = sscanf(line, "%s%s%s%s%s%s", fnd_ip_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:209:9:  [4] (buffer) fscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function.
			rc = fscanf(f, "%s\n", mynid);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:214:9:  [4] (buffer) fscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function.
			rc = fscanf(f, "%s\n", next_nid);
data/libfabric-1.11.0/prov/gni/test/api.c:62:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/api_cntr.c:59:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/api_cq.c:60:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/cm.c:67:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/cntr.c:62:2:  [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(__VA_ARGS__);	\
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:60:3:  [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(__VA_ARGS__);                \
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:265:3:  [4] (format) sprintf:
  Potential format string problem (CWE-134). Make format string constant.
		sprintf(node[0], rand_str);
data/libfabric-1.11.0/prov/gni/test/freelist.c:48:25:  [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.
#define dbg_printf(...) fprintf(stderr, __VA_ARGS__); fflush(stderr)
data/libfabric-1.11.0/prov/gni/test/mr.c:68:30:  [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.
#define MR_DBG(fmt, args...) fprintf(stderr, fmt, ##args)
data/libfabric-1.11.0/prov/gni/test/rdm_addr_str_sr.c:58:25:  [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.
#define dbg_printf(...) fprintf(stderr, __VA_ARGS__); fflush(stderr)
data/libfabric-1.11.0/prov/gni/test/rdm_atomic.c:64:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:64:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:65:3:  [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(__VA_ARGS__);		\
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:244:3:  [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, __VA_ARGS__); \
data/libfabric-1.11.0/prov/gni/test/rdm_multi_recv.c:62:25:  [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.
#define dbg_printf(...) fprintf(stderr, __VA_ARGS__); fflush(stderr)
data/libfabric-1.11.0/prov/gni/test/rdm_sr.c:63:25:  [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.
#define dbg_printf(...) fprintf(stderr, __VA_ARGS__); fflush(stderr)
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:62:3:  [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, __VA_ARGS__); \
data/libfabric-1.11.0/prov/hook/src/hook_domain.c:66:27:  [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.
			size_t count, uint64_t access,
data/libfabric-1.11.0/prov/hook/src/hook_domain.c:74:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/hook/src/hook_domain.c:86:19:  [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.
		       uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/hook/src/hook_domain.c:93:36:  [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.
	return hook_mr_regv(fid, &iov, 1, access, offset, requested_key,
data/libfabric-1.11.0/prov/mrail/src/mrail_domain.c:169:14:  [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.
			 uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/mrail/src/mrail_domain.c:188:58:  [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.
		ret = fi_mr_reg(mrail_domain->domains[rail], buf, len, access,
data/libfabric-1.11.0/prov/mrail/src/mrail_domain.c:219:28:  [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.
			 size_t count, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/mrail/src/mrail_domain.c:239:61:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		ret = fi_mr_regv(mrail_domain->domains[rail], iov, count, access,
data/libfabric-1.11.0/prov/netdir/src/netdir.h:106:14:  [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.
		  uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/netdir/src/netdir.h:109:29:  [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.
		   size_t count, uint64_t access,
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:84:14:  [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.
		  uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:129:6:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 (access & FI_REMOTE_READ)
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:131:6:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 (access & FI_REMOTE_WRITE)
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:133:7:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 ((access & FI_WRITE) || (access & FI_RECV))
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:133:30:  [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.
	if ((access & FI_WRITE) || (access & FI_RECV))
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:201:29:  [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.
		   size_t count, uint64_t access,
data/libfabric-1.11.0/prov/netdir/src/netdir_mr.c:208:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	OFI_UNUSED(access);
data/libfabric-1.11.0/prov/psm/src/psmx.h:533:12:  [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.
	uint64_t		access;
data/libfabric-1.11.0/prov/psm/src/psmx.h:676:82:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
int	psmx_mr_validate(struct psmx_fid_mr *mr, uint64_t addr, size_t len, uint64_t access);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:617:6:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	int access;
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:627:51:  [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.
	op_error = mr ?  psmx_mr_validate(mr, addr, len, access) : -FI_EINVAL;
data/libfabric-1.11.0/prov/psm/src/psmx_init.c:306:4:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
			sscanf(node, "%*[^:]:%" SCNi8 ":%" SCNu8, &src_addr->unit, &src_addr->port);
data/libfabric-1.11.0/prov/psm/src/psmx_init.c:308:4:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
			sscanf(service, "%" SCNu32, &src_addr->service);
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:99:82:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
int psmx_mr_validate(struct psmx_fid_mr *mr, uint64_t addr, size_t len, uint64_t access)
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:108:7:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 ((access & mr->access) != access)
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:108:20:  [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.
	if ((access & mr->access) != access)
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:108:31:  [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.
	if ((access & mr->access) != access)
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:240:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:274:20:  [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.
	mr_priv->access = access;
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:288:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:327:20:  [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.
	mr_priv->access = access;
data/libfabric-1.11.0/prov/psm/src/psmx_mr.c:382:26:  [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.
	mr_priv->access = attr->access;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:339:6:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	int access;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:357:50:  [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.
	op_error = mr ? psmx_mr_validate(mr, addr, len, access) : -FI_EINVAL;
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.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.
		uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.h:61:26:  [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.
		size_t count, uint64_t access,
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.h:136:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	  uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.h:139:46:  [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.
	return psmx2_mr_reg(&domain->fid, buf, len, access, offset,
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.h:145:27:  [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.
			size_t count, uint64_t access,
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_domain.h:149:49:  [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.
	return psmx2_mr_regv(&domain->fid, iov, count, access,
data/libfabric-1.11.0/prov/psm2/src/psmx2.h:805:12:  [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.
	uint64_t		access;
data/libfabric-1.11.0/prov/psm2/src/psmx2.h:1135:84:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
int	psmx2_mr_validate(struct psmx2_fid_mr *mr, uint64_t addr, size_t len, uint64_t access);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:672:6:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	int access;
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:682:52:  [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.
	op_error = mr ?  psmx2_mr_validate(mr, addr, len, access) : -FI_EINVAL;
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:261:2:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
	sprintf(path, "%s_%d", PSMX2_SYSFS_PATH, unit);
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:393:3:  [4] (buffer) strcat:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120). Consider using strcat_s, strncat, strlcat, or
  snprintf (warning: strncat is easily misused).
		strcat(psmx2_hfi_info.default_domain_name, unit_name);
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:550:5:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
				sscanf(node, "%*[^:]:%" SCNi8 ":%" SCNu8,
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:553:5:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
				sscanf(service, "%" SCNu32, &src_addr->service);
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:102:30:  [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.
		      size_t len, uint64_t access)
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:111:7:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 ((access & mr->access) != access)
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:111:20:  [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.
	if ((access & mr->access) != access)
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:111:31:  [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.
	if ((access & mr->access) != access)
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:279:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:312:20:  [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.
	mr_priv->access = access;
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:327:14:  [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.
			 uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:366:20:  [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.
	mr_priv->access = access;
data/libfabric-1.11.0/prov/psm2/src/psmx2_mr.c:419:26:  [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.
	mr_priv->access = attr->access;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:434:6:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	int access;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:469:51:  [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.
	op_error = mr ? psmx2_mr_validate(mr, addr, len, access) : -FI_EINVAL;
data/libfabric-1.11.0/prov/rxd/src/rxd_domain.c:90:48:  [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.
		  uintptr_t *io_addr, uint64_t key, uint64_t access)
data/libfabric-1.11.0/prov/rxd/src/rxd_domain.c:96:10:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
				key, access, NULL);
data/libfabric-1.11.0/prov/rxm/src/rxm.h:818:48:  [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.
		    size_t count, size_t reg_limit, uint64_t access,
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:195:48:  [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.
		    size_t count, size_t reg_limit, uint64_t access,
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:208:17:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
					      len, access, 0, &mr[i]);
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:220:63:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
rxm_mr_get_msg_access(struct rxm_domain *rxm_domain, uint64_t access)
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:223:2:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 |= FI_READ | FI_REMOTE_READ;
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:226:3:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 |= FI_WRITE;
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:227:9:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 access;
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:260:60:  [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.
	msg_attr.access = rxm_mr_get_msg_access(rxm_domain, attr->access);
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:290:19:  [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.
		       uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:299:13:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 = access,
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:312:45:  [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 = rxm_mr_get_msg_access(rxm_domain, access);
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:314:55:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	ret = fi_mr_regv(rxm_domain->msg_domain, iov, count, access, offset,
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:340:18:  [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.
		      uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/rxm/src/rxm_domain.c:347:35:  [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 rxm_mr_regv(fid, &iov, 1, access, offset, requested_key,
data/libfabric-1.11.0/prov/rxm/src/rxm_rma.c:39:15:  [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.
		   uint64_t access, struct rxm_rma_buf *rma_buf)
data/libfabric-1.11.0/prov/rxm/src/rxm_rma.c:48:11:  [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, rma_buf->mr.mr);
data/libfabric-1.11.0/prov/sockets/include/sock.h:1081:45:  [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.
				   uintptr_t *buf, size_t len, uint64_t access);
data/libfabric-1.11.0/prov/sockets/include/sock.h:1083:41:  [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.
				    void *buf, size_t len, uint64_t access);
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:107:39:  [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.
	uintptr_t *buf, size_t len, uint64_t access)
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:114:58:  [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.
	err = ofi_mr_map_verify(&domain->mr_map, buf, len, key, access, (void **)&mr);
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:125:34:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 *buf, size_t len, uint64_t access)
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:128:51:  [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.
	return sock_mr_verify_key(domain, key, buf, len, access);
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:191:25:  [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.
	size_t count, uint64_t access,
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:199:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:207:11:  [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.
	uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/sockets/src/sock_mr.c:214:33:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 sock_regv(fid, &iov, 1, access, offset, requested_key,
data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c:367:19:  [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.
				     uint64_t access)
data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c:384:25:  [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.
				    rma_iov[i].key, access);
data/libfabric-1.11.0/prov/usnic/src/usdf.h:499:12:  [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.
		uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/usnic/src/usdf.h:502:27:  [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.
		 size_t count, uint64_t access,
data/libfabric-1.11.0/prov/usnic/src/usdf_ext.c:60:2:  [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(uip->ui.v1.ui_ifname, dap->uda_ifname);
data/libfabric-1.11.0/prov/usnic/src/usdf_mem.c:85:14:  [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.
	   uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/usnic/src/usdf_mem.c:132:27:  [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.
		 size_t count, uint64_t access,
data/libfabric-1.11.0/prov/usnic/src/usdf_mem.c:141:59:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 usdf_reg_mr(fid, iov[0].iov_base, iov[0].iov_len, access,
data/libfabric-1.11.0/prov/usnic/src/usdf_mem.c:155:10:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			attr->access,
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/kcompat_priv.h:83:26:  [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.
#define usd_err(args...) fprintf(stderr, args)
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_vnic.c:63:21:  [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(#m " = 0x%lx\n", (u64)c->m); \
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_user_utils.h:69:3:  [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(fd, args); \
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_user_utils.h:84:3:  [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, args " error: %s\n", ## __VA_ARGS__, \
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_user_utils.h:97:3:  [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, args " error: %s\n", ## __VA_ARGS__, \
data/libfabric-1.11.0/prov/util/src/util_attr.c:90:3:  [4] (buffer) sprintf:
  Does not check for buffer overflows (CWE-120). Use sprintf_s, snprintf, or
  vsnprintf.
		sprintf(str, "%s%c%s", head, OFI_NAME_DELIM, tail);
data/libfabric-1.11.0/prov/util/src/util_attr.c:103:2:  [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(&exclude[1], util_prov_name);
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:103:44:  [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.
		      size_t len, uint64_t key, uint64_t access,
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:117:7:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 ((access & attr->access) != access) {
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:117:22:  [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.
	if ((access & attr->access) != access) {
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:117:33:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 ((access & attr->access) != access) {
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:228:36:  [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.
	cur_abi_attr->access = user_attr->access;
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:297:33:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	        size_t count, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:305:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:316:18:  [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.
	       uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:323:35:  [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 ofi_mr_regv(fid, &iov, 1, access, offset, requested_key, flags,
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:328:45:  [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.
		  uintptr_t *addr, uint64_t key, uint64_t access)
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:336:10:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
				key, access, NULL);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:809:3:  [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(fi->fabric_attr->name, name_len, VERBS_IB_PREFIX "%" PRIx64,
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1657:11:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
				ret = sscanf(service, "%" SCNu16,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:39:32:  [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.
	       size_t count, uint64_t access, uint64_t offset,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:49:20:  [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.
				 iov->iov_len, access, offset, requested_key,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:51:37:  [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.
		       fi_mr_reg(domain, NULL, 0, access, offset, requested_key,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:58:63:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can 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 vrb_mr_regv(fid, attr->mr_iov, attr->iov_count, attr->access,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:159:17:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
	      uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:176:52:  [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.
	ret = vrb_mr_reg_common(md, vrb_mr_ofi2ibv_access(access, md->domain),
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:237:16:  [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.
		    uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/prov/verbs/src/verbs_mr.c:253:16:  [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.
	attr.access = access;
data/libfabric-1.11.0/src/common.c:313:10:  [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.
		size = snprintf(buf, MIN(*len, sizeof(str)),
data/libfabric-1.11.0/src/common.c:324:10:  [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.
		size = snprintf(buf, MIN(*len, sizeof(str)),
data/libfabric-1.11.0/src/common.c:332:10:  [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.
		size = snprintf(buf, *len, "fi_addr_efa://[%s]:%" PRIu16 ":%" PRIu32,
data/libfabric-1.11.0/src/common.c:341:10:  [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.
		size = snprintf(buf, *len, "fi_sockaddr_ib://[%s]" /* GID */
data/libfabric-1.11.0/src/common.c:351:10:  [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.
		size = snprintf(buf, *len, "fi_addr_psmx://%" PRIx64,
data/libfabric-1.11.0/src/common.c:356:7:  [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(buf, *len, "fi_addr_psmx2://%" PRIx64 ":%" PRIx64,
data/libfabric-1.11.0/src/common.c:360:10:  [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.
		size = snprintf(buf, *len, "fi_addr_gni://%" PRIx64,
data/libfabric-1.11.0/src/common.c:373:10:  [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.
		size = snprintf(buf, *len, "fi_addr_ib_ud://"
data/libfabric-1.11.0/src/common.c:439:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://%" SCNx64, (uint64_t *) *addr);
data/libfabric-1.11.0/src/common.c:456:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://%" SCNx64 ":%" SCNx64,
data/libfabric-1.11.0/src/common.c:477:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://"
data/libfabric-1.11.0/src/common.c:602:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://[%64[^]]]:%" SCNu16 ":%" SCNu32, gid, qpn, qkey);
data/libfabric-1.11.0/src/common.c:626:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://:%" SCNu16, &sin->sin_port);
data/libfabric-1.11.0/src/common.c:630:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://%64[^:]:%" SCNu16, ip, &sin->sin_port);
data/libfabric-1.11.0/src/common.c:671:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://:%" SCNu16, &sin6->sin6_port);
data/libfabric-1.11.0/src/common.c:675:8:  [4] (buffer) sscanf:
  The scanf() family's %s operation, without a limit specification, permits
  buffer overflows (CWE-120, CWE-20). Specify a limit to %s, or use a
  different input function. If the scanf format is influenceable by an
  attacker, it's exploitable.
	ret = sscanf(str, "%*[^:]://[%64[^]]]:%" SCNu16, ip, &sin6->sin6_port);
data/libfabric-1.11.0/src/common.c:1475:2:  [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.
	vsnprintf(&dest[len], n - 1 - len, fmt, arglist);
data/libfabric-1.11.0/src/enosys.c:283:12:  [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.
		uint64_t access, uint64_t offset, uint64_t requested_key,
data/libfabric-1.11.0/src/enosys.c:289:26:  [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.
		size_t count, uint64_t access,
data/libfabric-1.11.0/src/log.c:163:2:  [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.
	vsnprintf(buf + size, sizeof(buf) - size, fmt, vargs);
data/libfabric-1.11.0/src/unix/osd.c:124:2:  [4] (buffer) strcat:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120). Consider using strcat_s, strncat, strlcat, or
  snprintf (warning: strncat is easily misused).
	strcat(fname, name);
data/libfabric-1.11.0/src/windows/osd.c:169:2:  [4] (buffer) lstrcpyA:
  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).
	lstrcpyA(path, dir);
data/libfabric-1.11.0/src/windows/osd.c:171:3:  [4] (buffer) lstrcatA:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120).
		lstrcatA(path, "\\");
data/libfabric-1.11.0/src/windows/osd.c:172:3:  [4] (buffer) lstrcatA:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120).
		lstrcatA(path, file);
data/libfabric-1.11.0/src/windows/osd.c:250:2:  [4] (buffer) lstrcpyA:
  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).
	lstrcpyA(fname, ofi_shm_prefix);
data/libfabric-1.11.0/src/windows/osd.c:251:2:  [4] (buffer) lstrcatA:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120).
	lstrcatA(fname, name);
data/libfabric-1.11.0/src/windows/osd.c:263:37:  [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.
		shm->shared_fd = OpenFileMappingA(access, FALSE, shm->name);
data/libfabric-1.11.0/src/windows/osd.c:271:43:  [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.
	shm->ptr = MapViewOfFile(shm->shared_fd, access, 0, 0, size);
data/libfabric-1.11.0/util/pingpong.c:126:4:  [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, "[%s] %s:%-4d: " fmt, "debug",         \
data/libfabric-1.11.0/util/pingpong.c:307:2:  [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(port_s, 6, "%" PRIu16, port);
data/libfabric-1.11.0/util/pingpong.c:1005:3:  [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(str, size, "%" PRIu64, cnt);
data/libfabric-1.11.0/util/pingpong.c:1872:2:  [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(ct->tx_buf, fin_buf);
data/libfabric-1.11.0/fabtests/benchmarks/dgram_pingpong.c:90:15:  [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 ((op = getopt(argc, argv, "hT:" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) !=
data/libfabric-1.11.0/fabtests/benchmarks/msg_bw.c:87:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/benchmarks/msg_pingpong.c:87:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) !=
data/libfabric-1.11.0/fabtests/benchmarks/rdm_cntr_pingpong.c:81:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/benchmarks/rdm_pingpong.c:77:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) !=
data/libfabric-1.11.0/fabtests/benchmarks/rdm_tagged_bw.c:80:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/benchmarks/rdm_tagged_pingpong.c:79:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/benchmarks/rma_bw.c:100:15:  [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 ((op = getopt(argc, argv, "ho:" CS_OPTS INFO_OPTS BENCHMARK_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:617:5:  [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* const argv[], const char *optstring)
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:644:5:  [3] (buffer) getopt_long:
  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_long(int argc, char * const argv[],
data/libfabric-1.11.0/fabtests/functional/av_xfer.c:208:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/bw.c:202:15:  [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 ((op = getopt(argc, argv, "W:vT:h" CS_OPTS ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/cm_data.c:465:15:  [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 ((op = getopt(argc, argv, "q:h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/cq_data.c:116:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/dgram.c:59:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/dgram_waitset.c:166:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/inj_complete.c:165:15:  [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 ((op = getopt(argc, argv, "m:OSRvh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/mcast.c:83:15:  [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 ((op = getopt(argc, argv, "Mh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/msg.c:71:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/msg_epoll.c:202:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/msg_sockets.c:468:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/multi_ep.c:286:15:  [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 ((op = getopt(argc, argv, "c:vh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/multi_mr.c:288:15:  [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 ((op = getopt(argc, argv, "c:Vvh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/multi_recv.c:277:15:  [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 ((op = getopt(argc, argv, "Mhv" CS_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/poll.c:250:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm.c:72:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_atomic.c:498:15:  [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 ((op = getopt(argc, argv, "ho:z:" CS_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:591:15:  [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 ((op = getopt(argc, argv, "aT:h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_multi_domain.c:404:15:  [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 ((op = getopt(argc, argv, "c:Vh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_rma_simple.c:102:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:135:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_shared_av.c:163:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/rdm_tagged_peek.c:238:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/recv_cancel.c:196:15:  [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 ((op = getopt(argc, argv, "Vh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/resmgmt_test.c:194:15:  [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 ((op = getopt(argc, argv, "S:R:m:l:T:X:ActdjwvVh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/scalable_ep.c:362:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/shared_ctx.c:606:15:  [3] (buffer) getopt_long:
  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 ((op = getopt_long(argc, argv, "h" ADDR_OPTS INFO_OPTS,
data/libfabric-1.11.0/fabtests/functional/stream_msg.c:255:15:  [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 ((op = getopt(argc, argv, "h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/unexpected_msg.c:225:15:  [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 ((op = getopt(argc, argv, "m:i:c:vdSh" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/functional/unmap_mem.c:156:15:  [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 ((op = getopt(argc, argv, "h" CS_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/include/windows/getopt/getopt.h:61:5:  [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 *const argv[], const char *optstring);
data/libfabric-1.11.0/fabtests/include/windows/getopt/getopt.h:71:5:  [3] (buffer) getopt_long:
  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_long(int argc, char *const argv[],
data/libfabric-1.11.0/fabtests/multinode/src/harness.c:296:14:  [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, "n:C:h" CS_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/ubertest/uber.c:666:15:  [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 ((op = getopt(argc, argv, "u:q:xy:z:hf" ADDR_OPTS)) != -1) {
data/libfabric-1.11.0/fabtests/unit/av_test.c:1020:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "g:G:n:s:h")) != -1) {
data/libfabric-1.11.0/fabtests/unit/cntr_test.c:163:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "h")) != -1) {
data/libfabric-1.11.0/fabtests/unit/cq_test.c:233:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "hL:")) != -1) {
data/libfabric-1.11.0/fabtests/unit/dom_test.c:70:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "n:h")) != -1) {
data/libfabric-1.11.0/fabtests/unit/eq_test.c:600:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "h")) != -1) {
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:954:15:  [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 ((op = getopt(argc, argv, ADDR_OPTS INFO_OPTS "h")) != -1) {
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:774:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "h" "s:")) != -1) {
data/libfabric-1.11.0/fabtests/unit/mr_test.c:214:15:  [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 ((op = getopt(argc, argv, FAB_OPTS "h")) != -1) {
data/libfabric-1.11.0/fabtests/unit/resource_freeing.c:265:15:  [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 ((op = getopt(argc, argv, "i:h" ADDR_OPTS INFO_OPTS)) != -1) {
data/libfabric-1.11.0/include/rdma/fi_endpoint.h:74:8:  [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)(fid_t fid, int level, int optname,
data/libfabric-1.11.0/include/rdma/fi_endpoint.h:213:18:  [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.
	return ep->ops->getopt(fid, level, optname, optval, optlen);
data/libfabric-1.11.0/include/windows/pthread.h:46:42:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
#define pthread_mutex_init(mutex, attr) (InitializeCriticalSection(mutex), 0)
data/libfabric-1.11.0/include/windows/pthread.h:57:2:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
	EnterCriticalSection(mutex);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_endpoint.h:1149:18:  [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.
	return ep->ops->getopt(fid, level, optname, optval, optlen);
data/libfabric-1.11.0/prov/bgq/src/test/cq_agent_init.c:63:12:  [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.
		envvar = getenv("BG_APPAGENT"); lineno = __LINE__;
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:261:9:  [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 = getenv("SYSFS_PATH");
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:353:7:  [3] (buffer) realpath:
  This function does not protect against buffer overflows, and some
  implementations can overflow internally (CWE-120/CWE-785!). Ensure that the
  destination buffer is at least of size MAXPATHLEN, andto protect against
  implementation problems, the input argument should also be checked to
  ensure it is no larger than MAXPATHLEN.
	if (!realpath(driver_sym_path, driver_real_path)) {
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:387:7:  [3] (buffer) realpath:
  This function does not protect against buffer overflows, and some
  implementations can overflow internally (CWE-120/CWE-785!). Ensure that the
  destination buffer is at least of size MAXPATHLEN, andto protect against
  implementation problems, the input argument should also be checked to
  ensure it is no larger than MAXPATHLEN.
	if (!realpath(dbdf_sym_path, dbdf_real_path)) {
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:930:6:  [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 (getenv("RDMAV_FORK_SAFE") || getenv("IBV_FORK_SAFE") )
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:930:35:  [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 (getenv("RDMAV_FORK_SAFE") || getenv("IBV_FORK_SAFE") )
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:1068:7:  [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 (!getenv("RDMAV_HUGEPAGES_SAFE")) {
data/libfabric-1.11.0/prov/gni/src/gnix_auth_key.c:270:17:  [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.
				char *dir = getenv("TMPDIR");
data/libfabric-1.11.0/prov/gni/src/gnix_auth_key.c:271:22:  [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.
				char *filename = getenv("GNIX_AK_FILENAME");
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:777:6:  [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 (getenv("GNIX_DISABLE_XPMEM") != NULL)
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:779:6:  [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 (getenv("GNIX_MBOX_FALLBACK_DISABLE") != NULL)
data/libfabric-1.11.0/prov/gni/src/gnix_nic.c:1417:6:  [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 (getenv("GNIX_MAX_NICS") != NULL)
data/libfabric-1.11.0/prov/gni/src/gnix_nic.c:1418:33:  [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.
		gnix_max_nics_per_ptag = atoi(getenv("GNIX_MAX_NICS"));
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:189:9:  [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.
	home = getenv("HOME");
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:191:13:  [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.
	nodefile = getenv("PBS_NODEFILE");
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:193:23:  [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 *jobid = getenv("SLURM_JOB_ID");
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:195:12:  [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.
			jobid = getenv("SLURM_JOBID");
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:371:14:  [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 ((cptr = getenv("PMI_FORK_RANK")) != NULL) {
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:374:15:  [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 ((cptr = getenv("ALPS_APP_PE")) != NULL) {
data/libfabric-1.11.0/prov/gni/test/av.c:613:2:  [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(0);
data/libfabric-1.11.0/prov/gni/test/bitmap.c:595:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/buddy_allocator.c:166:2:  [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) time(NULL));
data/libfabric-1.11.0/prov/gni/test/dlist-utils.c:51:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:280:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:573:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/freelist.c:53:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:378:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:398:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:424:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:461:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:537:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:573:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:620:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:667:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:717:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/mr.c:1486:2:  [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(0xDEADBEEF);
data/libfabric-1.11.0/prov/gni/test/mr_notifier.c:273:2:  [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(0); /* want repeatable sequence, I think */
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:773:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:847:2:  [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(time(NULL));
data/libfabric-1.11.0/prov/gni/test/tags.c:368:2:  [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(0xDEADBEEF);
data/libfabric-1.11.0/prov/gni/test/utils.c:116:10:  [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.
		cptr = getenv("PMI_FORK_RANK");
data/libfabric-1.11.0/prov/gni/test/utils.c:118:11:  [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.
			cptr = getenv("ALPS_APP_PE");
data/libfabric-1.11.0/prov/mrail/src/mrail_init.c:129:8:  [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.
	str = getenv("MPI_LOCALRANKID");
data/libfabric-1.11.0/prov/mrail/src/mrail_init.c:131:9:  [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.
		str = getenv("OMPI_COMM_WORLD_LOCAL_RANK");
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:674:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&entry->wait_completion.comp_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:926:2:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
	EnterCriticalSection(&ep->send_op.send_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.h:117:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.h:143:2:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
	EnterCriticalSection(&ep->send_op.send_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep.c:195:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&ep->send_op.send_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep.c:205:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&ep->prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep.c:278:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&ep->unexpected.unexp_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_rma.c:215:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&main_entry->wait_completion.comp_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_rma.c:393:3:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
		InitializeCriticalSection(&main_entry->wait_completion.comp_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_rma.c:580:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(&entry->aux_entry->wait_completion.comp_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_rma.c:617:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(&entry->aux_entry->wait_completion.comp_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_srx.c:145:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&srx->prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:101:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&eq->lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:199:2:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
	EnterCriticalSection(&eq->lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:317:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(&eq->lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c:219:4:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
			EnterCriticalSection(&ep->srx->prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c:221:4:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
			EnterCriticalSection(&ep->prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c:295:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(&srx->prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c:377:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(&ep->srx->prepost_lock);
data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c:381:3:  [3] (misc) EnterCriticalSection:
  On some versions of Windows, exceptions can be thrown in low-memory
  situations. Use InitializeCriticalSectionAndSpinCount instead.
		EnterCriticalSection(&ep->prepost_lock);
data/libfabric-1.11.0/prov/psm/src/psmx_init.c:56:6:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK") || getenv("PMIX_RANK"))
data/libfabric-1.11.0/prov/psm/src/psmx_init.c:56:40:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK") || getenv("PMIX_RANK"))
data/libfabric-1.11.0/prov/psm/src/psmx_init.c:56:62:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK") || getenv("PMIX_RANK"))
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:164:11:  [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 ((s = getenv("OMPI_COMM_WORLD_LOCAL_SIZE"))) {
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:166:12:  [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 ((s = getenv("OMPI_COMM_WORLD_LOCAL_RANK")))
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:73:6:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK") || getenv("PMIX_RANK"))
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:73:40:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK") || getenv("PMIX_RANK"))
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:73:62:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK") || getenv("PMIX_RANK"))
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:178:12:  [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.
	char *s = getenv("PSM2_MULTI_EP");
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:313:6:  [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.
	s = getenv("HFI_UNIT");
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:317:6:  [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.
	s = getenv("PSM2_MULTIRAIL");
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:212:11:  [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 ((s = getenv("OMPI_COMM_WORLD_LOCAL_SIZE"))) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:214:12:  [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 ((s = getenv("OMPI_COMM_WORLD_LOCAL_RANK")))
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:717:6:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK"))
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:717:40:  [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 (getenv("OMPI_COMM_WORLD_RANK") || getenv("PMI_RANK"))
data/libfabric-1.11.0/src/var.c:112:9:  [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 = getenv(param->env_var_name);
data/libfabric-1.11.0/src/var.c:277:14:  [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.
	str_value = getenv(param->env_var_name);
data/libfabric-1.11.0/src/windows/osd.c:202:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&locks->ini_lock);
data/libfabric-1.11.0/src/windows/osd.c:203:2:  [3] (misc) InitializeCriticalSection:
  Exceptions can be thrown in low-memory situations. Use
  InitializeCriticalSectionAndSpinCount instead.
	InitializeCriticalSection(&locks->util_fabric_lock);
data/libfabric-1.11.0/util/info.c:347:15:  [3] (buffer) getopt_long:
  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 ((op = getopt_long(argc, argv, "n:P:c:m:t:a:p:d:f:eg:lhv", longopts,
data/libfabric-1.11.0/util/pingpong.c:2244:15:  [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 ((op = getopt(argc, argv, "hvd:p:e:I:S:B:P:cm:")) != -1) {
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:601:5:  [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* const argv[], const char *optstring)
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:626:5:  [3] (buffer) getopt_long:
  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_long(int argc, char * const argv[],
data/libfabric-1.11.0/util/windows/getopt/getopt.h:36:5:  [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 * const argv[], const char *optstring);
data/libfabric-1.11.0/util/windows/getopt/getopt.h:45:5:  [3] (buffer) getopt_long:
  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_long(int argc, char * const argv[],
data/libfabric-1.11.0/fabtests/benchmarks/benchmark_shared.c:52:33:  [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).
		hints->tx_attr->inject_size = atoi(optarg);
data/libfabric-1.11.0/fabtests/benchmarks/benchmark_shared.c:55:22:  [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).
		opts.window_size = atoi(optarg);
data/libfabric-1.11.0/fabtests/benchmarks/dgram_pingpong.c:94:14:  [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).
			timeout = atoi(optarg);
data/libfabric-1.11.0/fabtests/common/shared.c:86:1:  [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 default_port[8] = "9228";
data/libfabric-1.11.0/fabtests/common/shared.c:87:8:  [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 default_oob_port[8] = "3000";
data/libfabric-1.11.0/fabtests/common/shared.c:91:1:  [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 test_name[50] = "custom";
data/libfabric-1.11.0/fabtests/common/shared.c:1210:2:  [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 buf[FT_MAX_CTRL_MSG];
data/libfabric-1.11.0/fabtests/common/shared.c:1594:2:  [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(*dst_addr, src_addr, src_addrlen);
data/libfabric-1.11.0/fabtests/common/shared.c:1665:1:  [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 *size_str(char str[FT_STR_LEN], long long size)
data/libfabric-1.11.0/fabtests/common/shared.c:1665:16:  [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.
char *size_str(char str[FT_STR_LEN], long long size)
data/libfabric-1.11.0/fabtests/common/shared.c:1697:1:  [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 *cnt_str(char str[FT_STR_LEN], long long cnt)
data/libfabric-1.11.0/fabtests/common/shared.c:1697:15:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 *cnt_str(char str[FT_STR_LEN], long long cnt)
data/libfabric-1.11.0/fabtests/common/shared.c:1748:2:  [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 sstr[FT_STR_LEN];
data/libfabric-1.11.0/fabtests/common/shared.c:2697:2:  [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 str[FT_STR_LEN];
data/libfabric-1.11.0/fabtests/common/shared.c:2907:18:  [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).
		opts->device = atoi(optarg);
data/libfabric-1.11.0/fabtests/common/shared.c:2953:27:  [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).
		opts->num_connections = atoi(optarg);
data/libfabric-1.11.0/fabtests/common/shared.c:2967:22:  [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).
		opts->iterations = atoi(optarg);
data/libfabric-1.11.0/fabtests/common/shared.c:2974:26:  [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).
			opts->transfer_size = atoi(optarg);
data/libfabric-1.11.0/fabtests/common/shared.c:2998:29:  [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).
		opts->warmup_iterations = atoi(optarg);
data/libfabric-1.11.0/fabtests/functional/bw.c:63:23:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
		ret = ft_check_buf((char *) rx_ctx_arr[i].buf +
data/libfabric-1.11.0/fabtests/functional/bw.c:210:23:  [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).
			opts.window_size = atoi(optarg);
data/libfabric-1.11.0/fabtests/functional/bw.c:216:17:  [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).
			sleep_time = atoi(optarg);
data/libfabric-1.11.0/fabtests/functional/msg_sockets.c:95:9:  [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.
	static char namebuf[BUFSIZ];
data/libfabric-1.11.0/fabtests/functional/msg_sockets.c:96:9:  [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.
	static char servbuf[BUFSIZ];
data/libfabric-1.11.0/fabtests/functional/msg_sockets.c:116:2:  [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 buf1[BUFSIZ], buf2[BUFSIZ];
data/libfabric-1.11.0/fabtests/functional/msg_sockets.c:305:9:  [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.
	static char buf[BUFSIZ];
data/libfabric-1.11.0/fabtests/functional/multi_ep.c:293:14:  [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).
			num_eps = atoi(optarg);
data/libfabric-1.11.0/fabtests/functional/multi_mr.c:184:13:  [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.
		tx_buf = (char *)mr_res_array[i].buf;
data/libfabric-1.11.0/fabtests/functional/shared_ctx.c:610:13:  [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).
			ep_cnt = atoi(optarg);
data/libfabric-1.11.0/fabtests/functional/stream_msg.c:83:2:  [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 buffer[msg_len];
data/libfabric-1.11.0/fabtests/functional/stream_msg.c:105:2:  [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 buffer[msg_len];
data/libfabric-1.11.0/fabtests/include/hmem.h:77:2:  [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(dst, src, size);
data/libfabric-1.11.0/fabtests/include/shared.h:213:8:  [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.
extern char test_name[50];
data/libfabric-1.11.0/fabtests/include/shared.h:251:8:  [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.
extern char default_port[8];
data/libfabric-1.11.0/fabtests/include/shared.h:284:1:  [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 *size_str(char str[FT_STR_LEN], long long size);
data/libfabric-1.11.0/fabtests/include/shared.h:284:16:  [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.
char *size_str(char str[FT_STR_LEN], long long size);
data/libfabric-1.11.0/fabtests/include/shared.h:285:1:  [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 *cnt_str(char str[FT_STR_LEN], long long cnt);
data/libfabric-1.11.0/fabtests/include/shared.h:285:15:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 *cnt_str(char str[FT_STR_LEN], long long cnt);
data/libfabric-1.11.0/fabtests/multinode/src/core.c:81:2:  [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 my_name[FT_MAX_CTRL_MSG];
data/libfabric-1.11.0/fabtests/multinode/src/core_coll.c:472:2:  [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 my_name[FT_MAX_CTRL_MSG];
data/libfabric-1.11.0/fabtests/multinode/src/harness.c:114:2:  [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(items, my_item, item_size);
data/libfabric-1.11.0/fabtests/multinode/src/harness.c:137:2:  [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 chs[pm_job.num_ranks];
data/libfabric-1.11.0/fabtests/multinode/src/harness.c:260:2:  [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(&pm_job.oob_server_addr, res->ai_addr, res->ai_addrlen);
data/libfabric-1.11.0/fabtests/multinode/src/harness.c:304:23:  [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).
			pm_job.num_ranks = atoi(optarg);
data/libfabric-1.11.0/fabtests/ubertest/config.c:459:4:  [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(test_set + key->offset + key->val_size * i,
data/libfabric-1.11.0/fabtests/ubertest/config.c:589:8:  [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, "rb");
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:233:2:  [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			node[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:234:2:  [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			service[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:235:2:  [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			prov_name[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:305:2:  [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			node[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:306:2:  [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			service[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:307:2:  [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			prov_name[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/fabtest.h:308:2:  [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			fabric_name[FI_NAME_MAX];
data/libfabric-1.11.0/fabtests/ubertest/uber.c:678:23:  [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).
			test_start_index = atoi(optarg);
data/libfabric-1.11.0/fabtests/ubertest/uber.c:681:21:  [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).
			test_end_index = atoi(optarg);
data/libfabric-1.11.0/fabtests/ubertest/verify.c:95:3:  [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(ft_atom_ctrl.orig_buf, ft_mr_ctrl.buf, size);
data/libfabric-1.11.0/fabtests/ubertest/verify.c:96:3:  [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(ft_tx_ctrl.cpy_buf, ft_tx_ctrl.buf, size);
data/libfabric-1.11.0/fabtests/ubertest/verify.c:101:3:  [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(ft_tx_ctrl.cpy_buf, ft_tx_ctrl.buf, size);
data/libfabric-1.11.0/fabtests/unit/av_test.c:55:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/av_test.c:71:3:  [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(err_buf, "fi_eq_readerr fid = %p, should be %p",
data/libfabric-1.11.0/fabtests/unit/av_test.c:76:3:  [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(err_buf, "fi_eq_readerr fid = %p, should be %p",
data/libfabric-1.11.0/fabtests/unit/av_test.c:81:3:  [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(err_buf, "fi_eq_readerr index = %" PRIu64 ", should be %d",
data/libfabric-1.11.0/fabtests/unit/av_test.c:86:3:  [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(err_buf, "fi_eq_readerr err = %d, should be > 0",
data/libfabric-1.11.0/fabtests/unit/av_test.c:103:3:  [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(err_buf, "fi_eq_sread event = %u, should be %u", event,
data/libfabric-1.11.0/fabtests/unit/av_test.c:108:3:  [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(err_buf, "fi_eq_sread fid = %p, should be %p",
data/libfabric-1.11.0/fabtests/unit/av_test.c:114:3:  [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(err_buf, "fi_eq_sread fid = %p, should be %p", entry->context,
data/libfabric-1.11.0/fabtests/unit/av_test.c:119:3:  [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(err_buf, "count = %" PRIu64 ", should be %u", entry->data, count);
data/libfabric-1.11.0/fabtests/unit/av_test.c:269:3:  [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(err_buf, "internal error, not enough room for %d addresses",
data/libfabric-1.11.0/fabtests/unit/av_test.c:331:3:  [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(err_buf, "fi_addr == FI_ADDR_NOTAVAIL");
data/libfabric-1.11.0/fabtests/unit/av_test.c:356:3:  [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(err_buf, "test not valid for AV type FI_AV_MAP");
data/libfabric-1.11.0/fabtests/unit/av_test.c:431:3:  [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(err_buf, "fi_av_insert ret=%d, should be 0", ret);
data/libfabric-1.11.0/fabtests/unit/av_test.c:435:3:  [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(err_buf,
data/libfabric-1.11.0/fabtests/unit/av_test.c:496:3:  [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(err_buf, "fi_av_insert ret=%d, should be 1", ret);
data/libfabric-1.11.0/fabtests/unit/av_test.c:504:3:  [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(err_buf, "fi_addr[0] = FI_ADDR_NOTAVAIL");
data/libfabric-1.11.0/fabtests/unit/av_test.c:508:3:  [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(err_buf, "fi_addr[1] != FI_ADDR_NOTAVAIL");
data/libfabric-1.11.0/fabtests/unit/av_test.c:581:4:  [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(err_buf, "fi_addr[%d] = FI_ADDR_NOTAVAIL", i);
data/libfabric-1.11.0/fabtests/unit/av_test.c:725:4:  [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(err_buf, "bad context: %p", entry.context);
data/libfabric-1.11.0/fabtests/unit/av_test.c:729:4:  [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(err_buf, "duplicate context: %p", entry.context);
data/libfabric-1.11.0/fabtests/unit/av_test.c:733:4:  [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(err_buf, "count = %" PRIu64 ", should be %d", entry.data,
data/libfabric-1.11.0/fabtests/unit/av_test.c:741:4:  [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(err_buf, "fi_addr[%d] = FI_ADDR_NOTAVAIL", i);
data/libfabric-1.11.0/fabtests/unit/av_test.c:820:3:  [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(err_buf, "fi_eq_sread ret = %d, should be -FI_EAVAIL", ret);
data/libfabric-1.11.0/fabtests/unit/av_test.c:836:3:  [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(err_buf, "fi_addr[0] = FI_ADDR_NOTAVAIL");
data/libfabric-1.11.0/fabtests/unit/av_test.c:840:3:  [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(err_buf, "fi_addr[1] != FI_ADDR_NOTAVAIL");
data/libfabric-1.11.0/fabtests/unit/av_test.c:910:5:  [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(err_buf, "fi_addr[%d] == FI_ADDR_NOTAVAIL", i);
data/libfabric-1.11.0/fabtests/unit/av_test.c:942:5:  [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(err_buf, "fi_addr[%d] == FI_ADDR_NOTAVAIL", i);
data/libfabric-1.11.0/fabtests/unit/av_test.c:1029:20:  [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).
			num_good_addr = atoi(optarg);
data/libfabric-1.11.0/fabtests/unit/cntr_test.c:45:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/cq_test.c:45:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/cq_test.c:191:3:  [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(err_buf, "fi_cq_sread - signal ignored");
data/libfabric-1.11.0/fabtests/unit/cq_test.c:236:15:  [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).
			test_max = atoi(optarg);
data/libfabric-1.11.0/fabtests/unit/eq_test.c:46:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/eq_test.c:148:4:  [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(err_buf, "iter %d: event = %d, should be %d\n", i, event,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:154:4:  [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(err_buf, "iter %d: context mismatch %d != %d", i,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:160:4:  [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(err_buf, "iter %d: fid mismatch %p != %p", i,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:169:3:  [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(err_buf, "fi_eq_read of empty EQ returned %d", ret);
data/libfabric-1.11.0/fabtests/unit/eq_test.c:261:3:  [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(err_buf, "poll returned %d, should be 0", ret);
data/libfabric-1.11.0/fabtests/unit/eq_test.c:282:3:  [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(err_buf, "poll returned %d, should be 1", ret);
data/libfabric-1.11.0/fabtests/unit/eq_test.c:329:4:  [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(err_buf, "iter %zu: event = %d, should be %d\n",
data/libfabric-1.11.0/fabtests/unit/eq_test.c:357:3:  [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(err_buf, "fi_eq_sread slept %d ms, expected %d",
data/libfabric-1.11.0/fabtests/unit/eq_test.c:473:3:  [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(err_buf, "fi_eq_read of empty EQ returned %d", ret);
data/libfabric-1.11.0/fabtests/unit/eq_test.c:480:3:  [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(err_buf, "fi_eq_sread slept %d ms, expected 2000",
data/libfabric-1.11.0/fabtests/unit/eq_test.c:508:3:  [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(err_buf, "fi_eq_sread slept %d ms, expected immediate return",
data/libfabric-1.11.0/fabtests/unit/eq_test.c:514:3:  [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(err_buf, "fi_eq_sread: event = %d, should be %d\n", event,
data/libfabric-1.11.0/fabtests/unit/eq_test.c:519:3:  [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(err_buf, "fi_eq_sread: fid mismatch: %p should be %p\n",
data/libfabric-1.11.0/fabtests/unit/eq_test.c:524:3:  [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(err_buf, "fi_eq_sread: context mismatch: %p should be %p\n",
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:53:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/getinfo_test.c:54:8:  [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 new_prov_var[128];
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:57:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:85:7:  [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("/proc/self/pagemap", O_RDONLY);
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:581:3:  [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(err_buf, "Assuming MR cache not enabled by provider");
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:687:3:  [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(err_buf, "FI_HMEM support not requested");
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:693:3:  [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(err_buf, "ft_hmem_init(FI_HMEM_CUDA) failed");
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:709:3:  [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(err_buf, "FI_HMEM support not requested");
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:715:3:  [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(err_buf, "ft_hmem_init(FI_HMEM_ROCR) failed");
data/libfabric-1.11.0/fabtests/unit/mr_test.c:44:8:  [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 err_buf[512];
data/libfabric-1.11.0/fabtests/unit/resource_freeing.c:272:12:  [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).
			iters = atoi(optarg);
data/libfabric-1.11.0/include/ofi_cuda.h:61:14:  [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.
		iov_buf = (char *)iov[i].iov_base + iov_offset;
data/libfabric-1.11.0/include/ofi_cuda.h:85:20:  [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.
		cudaMemcpy(buf, (char *) iov[0].iov_base + iov_offset,
data/libfabric-1.11.0/include/ofi_cuda.h:101:15:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
		cudaMemcpy((char *) iov[0].iov_base + iov_offset,
data/libfabric-1.11.0/include/ofi_hmem.h:106:2:  [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(dest, src, size);
data/libfabric-1.11.0/include/ofi_iov.h:97:3:  [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((char *)iov[0].iov_base + iov_offset, buf, size);
data/libfabric-1.11.0/include/ofi_iov.h:97:11:  [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.
		memcpy((char *)iov[0].iov_base + iov_offset, buf, size);
data/libfabric-1.11.0/include/ofi_iov.h:113:3:  [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(buf, (char *)iov[0].iov_base + iov_offset, size);
data/libfabric-1.11.0/include/ofi_iov.h:113:16:  [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.
		memcpy(buf, (char *)iov[0].iov_base + iov_offset, size);
data/libfabric-1.11.0/include/ofi_mem.h:84:3:  [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(dest, src, size);
data/libfabric-1.11.0/include/ofi_net.h:161:2:  [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			ipstr[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/include/ofi_net.h:164:2:  [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			net_name[OFI_ADDRSTRLEN];
data/libfabric-1.11.0/include/ofi_net.h:165:2:  [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			ifa_name[OFI_ADDRSTRLEN];
data/libfabric-1.11.0/include/ofi_rbuf.h:165:3:  [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((char*)rb->buf + (rb->wpos & rb->size_mask), buf, len);
data/libfabric-1.11.0/include/ofi_rbuf.h:167:3:  [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((char*)rb->buf + (rb->wpos & rb->size_mask), buf, endlen);
data/libfabric-1.11.0/include/ofi_rbuf.h:168:3:  [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(rb->buf, (char*)buf + endlen, len - endlen);
data/libfabric-1.11.0/include/ofi_rbuf.h:189:3:  [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(buf, (char*)rb->buf + (rb->rcnt & rb->size_mask), len);
data/libfabric-1.11.0/include/ofi_rbuf.h:191:3:  [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(buf, (char*)rb->buf + (rb->rcnt & rb->size_mask), endlen);
data/libfabric-1.11.0/include/ofi_rbuf.h:192:3:  [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((char*)buf + endlen, rb->buf, len - endlen);
data/libfabric-1.11.0/include/ofi_shm.h:179:2:  [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		name[SMR_NAME_MAX];
data/libfabric-1.11.0/include/ofi_shm.h:194:2:  [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 name[SMR_NAME_MAX];
data/libfabric-1.11.0/include/ofi_util.h:691:2:  [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		data[0];
data/libfabric-1.11.0/include/windows/dirent.h:7:2:  [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	d_name[256];
data/libfabric-1.11.0/include/windows/ifaddrs.h:30:2:  [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		   ad_name[16];
data/libfabric-1.11.0/include/windows/osd.h:840:3:  [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(dst, src, len);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_flight_recorder.h:48:2:  [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		str[FLIGHT_RECORDER_ENTRY_STRLEN];
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_mu.h:109:2:  [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 prefix[1024];							\
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_mu.h:183:2:  [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 prefix[1024];							\
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_mu.h:551:2:  [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 prefix[1024];							\
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:104:3:  [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(payload_vaddr, (const void*) addr, nbytes);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:225:4:  [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*)vaddr, (void *)((uintptr_t)payload + payload_offset), nbytes);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:238:4:  [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*)vaddr, (void *)((uintptr_t)payload + payload_offset), nbytes);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:354:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
			if (send_len) memcpy(recv_buf, (void*)&pkt->payload.byte[0], send_len);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:381:18:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
			if (send_len) memcpy(recv_buf, (void*)&pkt->payload.byte[0], send_len);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:839:2:  [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*)uepkt, (const void *)pkt, bytes_to_copy);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:972:5:  [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((void*)&tmp_pkt[0], (void*)va_head, bytes_before_wrap);
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_rx.h:974:5:  [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((void*)&tmp_pkt[bytes_before_wrap], (void*)va_start, bytes_after_wrap);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_atomic.h:386:12:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
		if (buf) memcpy((void *)payload, (const void *)buf, nbytes);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_atomic.h:411:13:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
			if (buf) memcpy((void*)&payload->atomic_fetch.data[0], (const void*) buf, nbytes);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_atomic.h:417:5:  [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((void*)&payload->atomic_fetch.data[nbytes], compare_vaddr, nbytes);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_endpoint.h:502:11:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
	if (len) memcpy(payload_vaddr, buf, len);	/* TODO use a qpx-optimized memcpy instead */
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_endpoint.h:587:14:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
				if (len) memcpy((void*)payload_vaddr, buf, len);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_endpoint.h:592:6:  [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*)payload_vaddr, iov[i].iov_base, iov[i].iov_len);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:354:2:  [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(payload, buf, len);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:454:3:  [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(payload, buf, len);
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_av.c:346:2:  [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, (const void *)&tmp, *addrlen);
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_cm.c:60:3:  [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(addr_str, "%u.%u.%u.%u.%u.%u",
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_cm.c:71:17:  [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(addr_str, "%u.%u.%u.%u.%u.%u",
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_init.c:174:2:  [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(fi->tx_attr, fi_bgq_global.default_tx_attr, sizeof(*fi->tx_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_init.c:196:2:  [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(fi->rx_attr, fi_bgq_global.default_rx_attr, sizeof(*fi->rx_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_init.c:240:2:  [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(fi->ep_attr, fi_bgq_global.default_ep_attr, sizeof(*fi->ep_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:61:2:  [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(current_node_block_value,",(%d,%d,%d)",current_block_id,current_node_block_count,proc_count);
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:128:2:  [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(&my_bgq_rank_node_id,&my_bgq_coords,sizeof(BG_CoordinateMapping_t));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:133:3:  [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(&origcoord, &(mapping[i]),sizeof(BG_CoordinateMapping_t));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:289:3:  [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 current_node_block_value[BGQ_SINGLE_ENTRY_NODE_BLOCK_MAX_LEN*2];
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:290:3:  [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(value,"(vector");
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:155:2:  [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(info.tx_attr, attr, sizeof(*info.tx_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:158:2:  [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(info.ep_attr, bgq_sep->info->ep_attr, sizeof(*info.ep_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:161:2:  [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(info.domain_attr, bgq_sep->info->domain_attr, sizeof(*info.domain_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:164:2:  [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(info.fabric_attr, bgq_sep->info->fabric_attr, sizeof(*info.fabric_attr));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:278:2:  [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(info.ep_attr, bgq_sep->info->ep_attr,
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:286:2:  [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(info.domain_attr, bgq_sep->info->domain_attr,
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:294:2:  [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(info.fabric_attr, bgq_sep->info->fabric_attr,
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:416:2:  [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(bgq_sep->info, info, sizeof (struct fi_info));
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_sep.c:423:2:  [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(bgq_sep->info->ep_attr, info->ep_attr, sizeof(struct fi_ep_attr));
data/libfabric-1.11.0/prov/bgq/src/test/l2atomic_fifo_perf.c:166:5:  [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 out[1024*10];
data/libfabric-1.11.0/prov/bgq/src/test/l2atomic_fifo_perf.c:176:11:  [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.
						n = sprintf(ptr, ":: "); ptr += n; 
data/libfabric-1.11.0/prov/bgq/src/test/l2atomic_fifo_perf.c:185:10:  [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.
					n = sprintf(ptr, "%5.2f(%5.2f) ", result[i][test].mmps, (double)result[i][test].count/10000000.0);
data/libfabric-1.11.0/prov/bgq/src/test/l2atomic_fifo_perf.c:187:10:  [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.
					n = sprintf(ptr, "%5.2f ", result[i][test].mmps);
data/libfabric-1.11.0/prov/efa/src/efa_av.c:52:2:  [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 peer_gid[INET6_ADDRSTRLEN] = { 0 };
data/libfabric-1.11.0/prov/efa/src/efa_av.c:179:2:  [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 str[INET6_ADDRSTRLEN] = { 0 };
data/libfabric-1.11.0/prov/efa/src/efa_av.c:210:2:  [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(ah_attr.grh.dgid.raw, addr->raw, sizeof(addr->raw));
data/libfabric-1.11.0/prov/efa/src/efa_av.c:216:2:  [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 *)&conn->ep_addr, addr, sizeof(*addr));
data/libfabric-1.11.0/prov/efa/src/efa_av.c:254:3:  [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(&reverse_av->key, &key, sizeof(key));
data/libfabric-1.11.0/prov/efa/src/efa_av.c:295:2:  [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 smr_name[NAME_MAX];
data/libfabric-1.11.0/prov/efa/src/efa_av.c:502:2:  [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, (void *)&conn->ep_addr, MIN(sizeof(conn->ep_addr), *addrlen));
data/libfabric-1.11.0/prov/efa/src/efa_av.c:514:2:  [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 str[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/prov/efa/src/efa_cm.c:41:2:  [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(dst_addr, src_addr, len);
data/libfabric-1.11.0/prov/efa/src/efa_cm.c:51:2:  [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 str[INET6_ADDRSTRLEN] = {};
data/libfabric-1.11.0/prov/efa/src/efa_cq.c:164:4:  [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(&wce->wc, &wc, sizeof(wc));
data/libfabric-1.11.0/prov/efa/src/efa_ep.c:649:3:  [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(ep->src_addr, info->src_addr, info->src_addrlen);
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:282:2:  [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 driver_real_path[PATH_MAX];
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:284:2:  [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 dbdf_real_path[PATH_MAX];
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:486:8:  [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).
	ret = atoi(&gdr_support);
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:617:2:  [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 straddr[INET6_ADDRSTRLEN] = {};
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:637:15:  [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).
		addr->qpn = atoi(service);
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:653:2:  [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(src_addr, &gid, sizeof(gid));
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:849:4:  [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(cur->dest_addr, dest_addr, EFA_EP_ADDR_LEN);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr.h:89:3:  [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(ptr + i, &rxr_poison_value, sizeof(rxr_poison_value));
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_atomic.c:48:2:  [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(shm_msg, msg, sizeof(*msg));
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_atomic.c:50:3:  [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(rma_iov, msg->rma_iov,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_atomic.c:101:3:  [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(&tx_entry->atomic_ex, atomic_ex, sizeof(struct rxr_atomic_ex));
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:78:3:  [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(rx_entry->iov, msg->msg_iov, sizeof(*rx_entry->iov) * msg->iov_count);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:84:3:  [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(&rx_entry->desc[0], msg->desc, sizeof(*msg->desc) * msg->iov_count);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:233:3:  [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(rx_entry->iov, posted_entry->iov,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:377:2:  [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(&tx_entry->iov[0], msg->msg_iov, sizeof(struct iovec) * msg->iov_count);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:380:3:  [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(tx_entry->desc, msg->desc, sizeof(*msg->desc) * msg->iov_count);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_ep.c:867:2:  [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 shm_ep_name[NAME_MAX];
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_init.c:143:2:  [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 gid[INET6_ADDRSTRLEN] = { 0 };
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_init.c:518:3:  [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(cur_efa_addr->raw, ((struct efa_ep_addr *)cur->src_addr)->raw, 16);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_msg.c:608:3:  [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(rx_entry->iov, msg->msg_iov, sizeof(*rx_entry->iov) * msg->iov_count);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_msg.c:613:3:  [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(rx_entry->desc, msg->desc, sizeof(void*) * msg->iov_count);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_msg.c:872:2:  [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(rx_entry->iov, msg->msg_iov,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_msg.c:940:3:  [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(rx_entry->iov, msg->msg_iov,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_cmd.c:548:3:  [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 host_gid[ep->core_addrlen * 3];
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_cmd.c:552:14:  [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.
			length += sprintf(&host_gid[length], "%02x ",
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_cmd.c:748:2:  [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 str[RXR_PKT_DUMP_DATA_LEN * 4];
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_entry.c:206:2:  [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(dest, src, sizeof(struct rxr_pkt_entry));
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_entry.c:207:2:  [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(dest->pkt, src->pkt, ep->mtu_size);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_entry.h:94:2:  [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 pkt[0]; /* rxr_ctrl_*_pkt, or rxr_data_pkt */
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_data.c:109:4:  [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 *)buf + done,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_data.c:110:12:  [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.
			       (char *)tx_iov[tx_entry->iov_index].iov_base +
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_data.c:116:3:  [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((char *)buf + done,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_data.c:117:11:  [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.
		       (char *)tx_iov[tx_entry->iov_index].iov_base +
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_data.c:173:6:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 *)tx_iov[tx_entry->iov_index].iov_base +
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_misc.c:61:2:  [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(handshake_hdr->features, ep->features,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_misc.c:121:2:  [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(peer->features, handshake_pkt->features,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_misc.c:539:2:  [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_entry->pkt + RXR_ATOMRSP_HDR_SIZE, rx_entry->atomrsp_buf, atomrsp_hdr->seg_size);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_req.c:133:3:  [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(raw_addr_hdr->raw_addr, ep->core_addr, raw_addr_hdr->addr_len);
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_req.c:814:2:  [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(rx_entry->rma_iov, read_iov,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_req.c:1496:2:  [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(rx_entry->rma_iov, read_iov,
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_pkt_type_req.h:82:2:  [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 raw_addr[0];
data/libfabric-1.11.0/prov/efa/src/rxr/rxr_rma.c:148:2:  [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(tx_entry->rma_iov, msg_rma->rma_iov,
data/libfabric-1.11.0/prov/gni/include/gnix.h:1047:2:  [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 inject_buf[GNIX_INJECT_SIZE];
data/libfabric-1.11.0/prov/gni/include/gnix_cm.h:58:2:  [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 eqe_buf[GNIX_CM_EQE_BUF_SIZE];
data/libfabric-1.11.0/prov/gni/include/gnix_cm.h:74:2:  [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 eqe_buf[GNIX_CM_EQE_BUF_SIZE];
data/libfabric-1.11.0/prov/gni/include/gnix_cm.h:123:2:  [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, &ep_name[addr_size * idx], addr_size);
data/libfabric-1.11.0/prov/gni/include/gnix_cq.h:78:2:  [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 err_data[GNIX_CQ_MAX_ERR_DATA_SIZE];
data/libfabric-1.11.0/prov/gni/include/gnix_datagram.h:224:2:  [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 dgram_in_buf[GNI_DATAGRAM_MAXSIZE];
data/libfabric-1.11.0/prov/gni/include/gnix_datagram.h:225:2:  [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 dgram_out_buf[GNI_DATAGRAM_MAXSIZE];
data/libfabric-1.11.0/prov/gni/include/gnix_util.h:84:4:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 new_fmt[fmt_len];				\
data/libfabric-1.11.0/prov/gni/src/gnix_auth_key.c:272:5:  [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 path[GNIX_AK_PATH_LEN];
data/libfabric-1.11.0/prov/gni/src/gnix_av.c:271:2:  [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(entry_ptr, entry, sizeof(*entry));
data/libfabric-1.11.0/prov/gni/src/gnix_av.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(&the_entry->gnix_addr, &ep_name.gnix_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_av.c:379:3:  [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(&key, &ep_name.gnix_addr, sizeof(gnix_ht_key_t));
data/libfabric-1.11.0/prov/gni/src/gnix_av.c:451:2:  [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(entry_ptr, entry, sizeof(*entry));
data/libfabric-1.11.0/prov/gni/src/gnix_av.c:475:5:  [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(&rx_addr, &entry->gnix_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_av.c:633:3:  [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(addr, (void *)&ep_name, MIN(*addrlen, sizeof(ep_name)));
data/libfabric-1.11.0/prov/gni/src/gnix_av.c:742:2:  [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 int_buf[GNIX_AV_MAX_STR_ADDR_LEN];
data/libfabric-1.11.0/prov/gni/src/gnix_buddy_allocator.c:246:2:  [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 err_buf[256] = {0}, *error = NULL;
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:320:3:  [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(addr, ep_name, cpylen);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:387:2:  [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(ep_name, addr, len);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:438:3:  [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(addr, ep_name, cpylen);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:705:3:  [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(eqe_ptr->data, param, paramlen);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:827:3:  [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(eqe_ptr->data, param, paramlen);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:1233:3:  [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(eqe_ptr->data, param, paramlen);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:1291:3:  [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(&pep_priv->src_addr, ep_name, info->src_addrlen);
data/libfabric-1.11.0/prov/gni/src/gnix_cm_nic.c:106:2:  [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 rcv_buf[GNIX_CM_NIC_MAX_MSG_SIZE];
data/libfabric-1.11.0/prov/gni/src/gnix_cm_nic.c:464:3:  [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 tmp_buf[GNIX_CM_NIC_MAX_MSG_SIZE];
data/libfabric-1.11.0/prov/gni/src/gnix_cq.c:460:3:  [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(buf, event->the_entry, cq_priv->entry_size);
data/libfabric-1.11.0/prov/gni/src/gnix_cq.c:462:4:  [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(&src_addr[read_count], &event->src_addr, sizeof(fi_addr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_cq.c:581:4:  [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(cq_priv->err_data, gnix_cq_err->err_data,
data/libfabric-1.11.0/prov/gni/src/gnix_cq.c:591:4:  [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->err_data, gnix_cq_err->err_data, err_data_cpylen);
data/libfabric-1.11.0/prov/gni/src/gnix_datagram.c:170:2:  [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(dptr, data, nbytes);
data/libfabric-1.11.0/prov/gni/src/gnix_datagram.c:209:2:  [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, dptr, nbytes);
data/libfabric-1.11.0/prov/gni/src/gnix_dom.c:55:8:  [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 *__gnix_mr_type_to_str[GNIX_MR_MAX_TYPE] = {
data/libfabric-1.11.0/prov/gni/src/gnix_ep.c:2358:3:  [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(&ep_priv->src_addr, info->src_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_ep.c:2363:3:  [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(&ep_priv->dest_addr, info->dest_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_eq.c:215:3:  [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(err_buf->buf, err_data, err_size);
data/libfabric-1.11.0/prov/gni/src/gnix_eq.c:523:2:  [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, entry->the_entry, read_size);
data/libfabric-1.11.0/prov/gni/src/gnix_eq.c:598:2:  [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, entry->the_entry, read_size);
data/libfabric-1.11.0/prov/gni/src/gnix_eq.c:647:2:  [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(entry->the_entry, buf, len);
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:356:4:  [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(dest_addr, hints->dest_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:390:5:  [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(dest_addr, hints->dest_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:402:4:  [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(src_addr, hints->src_addr, hints->src_addrlen);
data/libfabric-1.11.0/prov/gni/src/gnix_hashtable.c:636:2:  [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(&ht->ht_attr, tbl_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:124:2:  [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 error_buf[256];
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:194:2:  [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 error_buf[256];
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:210:7:  [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(filename, O_CREAT | O_RDWR | O_EXCL, 0700);
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:302:2:  [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 error_buf[256];
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:544:2:  [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 error_buf[256];
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:602:2:  [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 error_buf[256];
data/libfabric-1.11.0/prov/gni/src/gnix_mbox_allocator.c:684:2:  [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 error_buf[256];
data/libfabric-1.11.0/prov/gni/src/gnix_mr_cache.c:1013:2:  [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_p->attr, cache_attr, sizeof(*cache_attr));
data/libfabric-1.11.0/prov/gni/src/gnix_mr_notifier.c:83:14:  [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).
		kdreg_fd = open(KDREG_DEV, O_RDWR | O_NONBLOCK);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:172:3:  [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((uint8_t *) dest[i].recv_addr + offset,
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:206:3:  [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 *) (dest + cum_len), src[i].iov_base,
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:276:3:  [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 *)req->msg.recv_info[0].recv_addr, data, len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:423:5:  [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(buffer, req->vc->gnix_ep_name,
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:708:3:  [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 *)req->msg.recv_info[0].recv_addr, addr, head_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:719:3:  [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 *)addr, &req->msg.send_info[0].tail, tail_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:752:5:  [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(recv_addr, addr, head_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:768:5:  [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((void *)recv_addr, &req->msg.send_info[i].tail, tail_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:799:4:  [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(recv_addr, addr, req->msg.recv_info[i].tail_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:818:4:  [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(recv_addr, addr, req->msg.recv_info[i].head_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:2089:3:  [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 *)req->msg.send_info[0].send_addr, data_ptr, hdr->len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:2359:2:  [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->msg.send_info, data_ptr,
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:2514:4:  [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 *)recv_ptr, (void *)send_ptr, copy_len);
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:2766:4:  [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 *)buf, (void *)req->msg.send_info[0].send_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_msg.c:3241:3:  [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->inject_buf, (void *)loc_addr, len);
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:151:2:  [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 buf[1024];
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:152:2:  [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 ip_str[128], mac_str[128];
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:166:14:  [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).
	arp_table = fopen(ARP_TABLE_FILE, "r");
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:228:2:  [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 line[BUF_SIZE], *tmp;
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:229:2:  [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 dummy[64], iface[64], fnd_ip_addr[64];
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:230:2:  [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 mac_str[64];
data/libfabric-1.11.0/prov/gni/src/gnix_nameserver.c:235:7:  [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).
	fd = fopen("/proc/net/arp", "r");
data/libfabric-1.11.0/prov/gni/src/gnix_nic.c:527:5:  [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 ebuf[512];
data/libfabric-1.11.0/prov/gni/src/gnix_nic.c:1418:28:  [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).
		gnix_max_nics_per_ptag = atoi(getenv("GNIX_MAX_NICS"));
data/libfabric-1.11.0/prov/gni/src/gnix_rma.c:133:2:  [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 *)req->rma.loc_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_rma.c:150:3:  [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 *)req->rma.loc_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_rma.c:162:3:  [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 *)addr,
data/libfabric-1.11.0/prov/gni/src/gnix_rma.c:1451:3:  [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->inject_buf, (void *)loc_addr, len);
data/libfabric-1.11.0/prov/gni/src/gnix_sep.c:241:3:  [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(attr, sep_priv->info->tx_attr,
data/libfabric-1.11.0/prov/gni/src/gnix_sep.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(attr, sep_priv->info->rx_attr,
data/libfabric-1.11.0/prov/gni/src/gnix_shmem.c:64:7:  [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_CREAT | O_EXCL | O_RDWR, 
data/libfabric-1.11.0/prov/gni/src/gnix_shmem.c:154:8:  [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_RDWR, GNIX_DEFAULT_ACCESS_PERMS);
data/libfabric-1.11.0/prov/gni/src/gnix_tags.c:478:2:  [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(&ts->attr, attributes, sizeof(struct gnix_tag_storage_attr));
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:165:2:  [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 nodelist[PATH_MAX];
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:173:7:  [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(CCM_ALPS_INFO_FILE, O_RDONLY);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:201:6:  [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).
	f = fopen(nodefile, "r");
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:203:3:  [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 mynid[PATH_MAX];
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:204:3:  [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 next_nid[PATH_MAX];
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:372:11:  [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).
		my_pe = atoi(cptr);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:375:12:  [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).
			my_pe = atoi(cptr);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:485:2:  [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 filename[PATH_MAX];
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:492:7:  [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(filename, O_WRONLY);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:518:7:  [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(filename, O_WRONLY);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:708:2:  [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 buf[BUF_SZ];
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:753:2:  [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 buffer[4096], *line, *field;
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:765:7:  [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).
	fd = fopen("/proc/job", "r");
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:783:13:  [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).
				ncpus = atoi(field);
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:349:2:  [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(cptr, &rtype, sizeof(rtype));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:351:2:  [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(cptr, target_addr, sizeof(struct gnix_address));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:353:2:  [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(cptr, src_addr, sizeof(struct gnix_address));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:355:2:  [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(cptr, &src_vc_id, sizeof(int));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:357:2:  [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(cptr, &src_vc_vaddr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:359:2:  [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(cptr, src_smsg_attr, sizeof(gni_smsg_attr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:361:2:  [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(cptr, src_irq_cq_mhdl, sizeof(gni_mem_handle_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:363:2:  [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(cptr, &caps, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:365:2:  [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(cptr, &my_segid, sizeof(xpmem_segid_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:367:2:  [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(cptr, &name_type, sizeof(name_type));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:369:2:  [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(cptr, &rx_ctx_cnt, sizeof(rx_ctx_cnt));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:371:2:  [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(cptr, &key_offset, sizeof(key_offset));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:400:2:  [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(target_addr, cptr, sizeof(struct gnix_address));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:402:2:  [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(src_addr, cptr, sizeof(struct gnix_address));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:404:2:  [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(src_vc_id, cptr, sizeof(int));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:406:2:  [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(src_vc_vaddr, cptr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:408:2:  [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(src_smsg_attr, cptr, sizeof(gni_smsg_attr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:410:2:  [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(src_irq_cq_mhndl, cptr, sizeof(gni_mem_handle_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:412:2:  [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(caps, cptr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:414:2:  [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(peer_segid, cptr, sizeof(xpmem_segid_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:416:2:  [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(name_type, cptr, sizeof(*name_type));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:418:2:  [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(rx_ctx_cnt, cptr, sizeof(*rx_ctx_cnt));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:420:2:  [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(key_offset, cptr, sizeof(*key_offset));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:463:2:  [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(cptr, &rtype, sizeof(rtype));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:465:2:  [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(cptr, &src_vc_vaddr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:467:2:  [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(cptr, &resp_vc_vaddr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:469:2:  [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(cptr, &resp_vc_id, sizeof(int));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:471:2:  [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(cptr, resp_smsg_attr, sizeof(gni_smsg_attr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:473:2:  [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(cptr, resp_irq_cq_mhndl, sizeof(gni_mem_handle_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:475:2:  [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(cptr, &caps, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:477:2:  [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(cptr, &my_segid, sizeof(xpmem_segid_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:479:2:  [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(cptr, &key_offset, sizeof(uint32_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:499:2:  [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(src_vc_vaddr, cptr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:501:2:  [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(resp_vc_vaddr, cptr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:503:2:  [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(resp_vc_id, cptr, sizeof(int));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:505:2:  [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(resp_smsg_attr, cptr, sizeof(gni_smsg_attr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:507:2:  [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(resp_irq_cq_mhndl, cptr, sizeof(gni_mem_handle_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:509:2:  [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(caps, cptr, sizeof(uint64_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:511:2:  [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(peer_segid, cptr, sizeof(xpmem_segid_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:513:2:  [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(key_offset, cptr, sizeof(uint32_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:520:2:  [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(rtype, rbuf, sizeof(uint8_t));
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:1010:3:  [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(&data->src_smsg_attr,
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:1141:2:  [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 sbuf[GNIX_CM_NIC_MAX_MSG_SIZE] = {0};
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:1304:2:  [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 sbuf[GNIX_CM_NIC_MAX_MSG_SIZE] = {0};
data/libfabric-1.11.0/prov/gni/src/gnix_vc.c:1477:3:  [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(&vc_ptr->peer_addr,
data/libfabric-1.11.0/prov/gni/src/gnix_vector.c:126:2:  [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(&vec->attr, attr, sizeof(gnix_vec_attr_t));
data/libfabric-1.11.0/prov/gni/src/gnix_wait.c:332:2:  [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(arg, src, copy_size);
data/libfabric-1.11.0/prov/gni/src/gnix_xpmem.c:359:3:  [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(&mr_cache_attr, &_gnix_xpmem_default_mr_cache_attr,
data/libfabric-1.11.0/prov/gni/src/gnix_xpmem.c:501:2:  [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(dst_addr, local_start_addr, len);
data/libfabric-1.11.0/prov/gni/test/allocator.c:147:7:  [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).
	fd = fopen("/proc/self/maps", "r");
data/libfabric-1.11.0/prov/gni/test/allocator.c:303:2:  [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(mail_box->base, test_string, sizeof(test_string));
data/libfabric-1.11.0/prov/gni/test/api.c:81:7:  [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 *api_cdm_id[NUMEPS] = { "5000", "5001" };
data/libfabric-1.11.0/prov/gni/test/av.c:840:2:  [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 addrstr[ADDRSTR_LEN];
data/libfabric-1.11.0/prov/gni/test/cm.c:131:3:  [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 *)sa, (void *)ifa->ifa_addr,
data/libfabric-1.11.0/prov/gni/test/cntr.c:617:2:  [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 s_buffer[128], r_buffer[128];
data/libfabric-1.11.0/prov/gni/test/cntr.c:623:3:  [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(s_buffer, "Hello there iter=%d", i);
data/libfabric-1.11.0/prov/gni/test/datagram.c:72:2:  [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 my_hostname[HOST_NAME_MAX];
data/libfabric-1.11.0/prov/gni/test/datagram.c:152:21:  [2] (integer) atol:
  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).
	uint32_t correct = atol(my_cdm_id);
data/libfabric-1.11.0/prov/gni/test/datagram.c:283:2:  [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 out_buf[GNI_DATAGRAM_MAXSIZE];
data/libfabric-1.11.0/prov/gni/test/dlist-utils.c:74:2:  [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 dummy[3];
data/libfabric-1.11.0/prov/gni/test/eq.c:153:2:  [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 out_buf[1024];
data/libfabric-1.11.0/prov/gni/test/eq.c:245:2:  [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 out_buf[1024];
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:91:8:  [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 *target[NUMEPS];
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:92:8:  [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 *source[NUMEPS];
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:192:2:  [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 rand_str[GNIX_FI_ADDR_STR_LEN] = {0};
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:198:3:  [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(rand_str, "gni;");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:215:3:  [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(rand_str + strlen(rand_str), "%04i",
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:223:3:  [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(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:231:3:  [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(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:246:3:  [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(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:254:3:  [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(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:1388:11:  [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.
			   i, (char *) fi[i]->dest_addr);
data/libfabric-1.11.0/prov/gni/test/freelist.c:168:2:  [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 dummy[7];
data/libfabric-1.11.0/prov/gni/test/hashtable.c:195:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:225:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:239:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:253:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:267:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:281:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:296:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:310:2:  [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(&attr, &default_attr, sizeof(gnix_hashtable_attr_t));
data/libfabric-1.11.0/prov/gni/test/hashtable.c:665:2:  [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 test_elements_found[1024] = {0};
data/libfabric-1.11.0/prov/gni/test/hashtable.c:715:2:  [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 test_elements_found[1024] = {0};
data/libfabric-1.11.0/prov/gni/test/mr_notifier.c:110:2:  [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 *mems[num_lens];
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:97:8:  [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 *send_state_strings[S_STATE_INVALID + 1] = {
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:133:8:  [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 *recv_state_strings[R_STATE_INVALID + 1] = {
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1011:2:  [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 *src_buf[2] = {source, source + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1012:2:  [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 *dst_buf[2] = {target, target + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1183:2:  [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 *src_buf[2] = {source, source + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1184:2:  [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 *dst_buf[2] = {target, target + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1470:2:  [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 *src_buf[2] = {source, source + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1471:2:  [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 *dst_buf[2] = {target, target + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1640:2:  [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 *src_buf[2] = {source, source + len};
data/libfabric-1.11.0/prov/gni/test/rdm_fi_pcd_trecv_msg.c:1641:2:  [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 *dst_buf[2] = {target, target + len};
data/libfabric-1.11.0/prov/gni/test/rdm_sr.c:84:7:  [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 *cdm_id[NUMEPS] = { "5000", "5001" };
data/libfabric-1.11.0/prov/gni/test/rdm_sr.c:435:2:  [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 my_hostname[HOST_NAME_MAX];
data/libfabric-1.11.0/prov/gni/test/rdm_sr.c:575:9:  [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.
		if (((char *)iov_buf[i].iov_base)[iov_idx] != buf[j]) {
data/libfabric-1.11.0/prov/gni/test/rdm_sr.c:579:13:  [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 *)iov_buf[i].iov_base)[iov_idx],
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:318:10:  [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.
			if (((char *)iov_buf[i].iov_base)[j] != buf[cum_len]) {
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c: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.
				       ((char *)iov_buf[i].iov_base)[j],
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:770:2:  [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 msg[num_msgs][slen];
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:779:4:  [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(msg[i], "%d\n", i);
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:844:2:  [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 msg[num_msgs][slen];
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:858:5:  [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(msg[i], "%d\n", i%10);
data/libfabric-1.11.0/prov/gni/test/sep.c:699:9:  [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.
		if (((char *)iov_buf[i].iov_base)[iov_idx] != buf[j]) {
data/libfabric-1.11.0/prov/gni/test/sep.c:704:13:  [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 *)iov_buf[i].iov_base)[iov_idx],
data/libfabric-1.11.0/prov/gni/test/sep.c:721:13:  [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 *)ib[i].iov_base,
data/libfabric-1.11.0/prov/gni/test/sep.c:722:13:  [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 *)ob[i].iov_base);
data/libfabric-1.11.0/prov/gni/test/shmem.c:51:2:  [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 name[128];
data/libfabric-1.11.0/prov/gni/test/tags.c:821:2:  [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(&attr, test_attr, sizeof(struct gnix_tag_storage_attr));
data/libfabric-1.11.0/prov/gni/test/tags.c:945:2:  [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(reqs, default_reqs, sizeof(struct gnix_fr_element) * requests);
data/libfabric-1.11.0/prov/gni/test/tags.c:993:2:  [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(reqs, default_reqs, sizeof(struct gnix_fr_element) * 8);
data/libfabric-1.11.0/prov/gni/test/tags.c:1041:2:  [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(reqs, default_reqs, sizeof(struct gnix_fr_element) * requests);
data/libfabric-1.11.0/prov/gni/test/tags.c:1536:2:  [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(&attr, &default_list_attr, sizeof(struct gnix_tag_storage_attr));
data/libfabric-1.11.0/prov/gni/test/tags.c:1639:2:  [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(&attr, &default_list_attr, sizeof(struct gnix_tag_storage_attr));
data/libfabric-1.11.0/prov/gni/test/tags.c:1740:2:  [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(&attr, &default_hlist_attr, sizeof(struct gnix_tag_storage_attr));
data/libfabric-1.11.0/prov/gni/test/tags.c:1843:2:  [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(&attr, &default_hlist_attr, sizeof(struct gnix_tag_storage_attr));
data/libfabric-1.11.0/prov/gni/test/utils.c:120:12:  [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).
			trank = atoi(cptr);
data/libfabric-1.11.0/prov/gni/test/vc.c:602:2:  [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(&key, &gni_addr[1],
data/libfabric-1.11.0/prov/gni/test/vc.c:655:2:  [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(&key, &gni_addr[1],
data/libfabric-1.11.0/prov/gni/test/vc.c:666:2:  [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(&key, &gni_addr[0],
data/libfabric-1.11.0/prov/gni/test/vc.c:793:2:  [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 b0[DATA_LEN], b1[DATA_LEN];
data/libfabric-1.11.0/prov/mrail/src/mrail_cq.c:394:2:  [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(&ooo_recv->comp, comp, sizeof(*comp));
data/libfabric-1.11.0/prov/mrail/src/mrail_domain.c:69:2:  [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(mr_map, map->raw_key, map->key_size);
data/libfabric-1.11.0/prov/mrail/src/mrail_ep.c:161:3:  [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(unexp_msg_entry->data, data, len);
data/libfabric-1.11.0/prov/mrail/src/mrail_ep.c:230:2:  [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(&recv->iov[1], iov, sizeof(*iov) * count);
data/libfabric-1.11.0/prov/mrail/src/mrail_ep.c:320:2:  [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(&iov_dest[1], iov_src, sizeof(*iov_src) * count);
data/libfabric-1.11.0/prov/mrail/src/mrail_init.c:133:22:  [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).
		mrail_local_rank = atoi(str);
data/libfabric-1.11.0/prov/netdir/src/netdir.h:152:5:  [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(dst, src, width);
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:581:3:  [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(entry->iov[i].iov_base, buf, cp);
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:753:3:  [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(entry->iov[0].iov_base, entry->inline_buf->buffer,
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:1008:36:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
		new_iovecs[new_iter].iov_base = (char *)to_iovecs[to_iter].iov_base + to_offset;
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:1010:16:  [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.
			(uint64_t)((char *)from_iovecs[from_iter].iov_base + from_offset);
data/libfabric-1.11.0/prov/netdir/src/netdir_domain.c:218:2:  [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(&domain->addr, addr, ofi_sizeofaddr(addr));
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_msg.c:129:5:  [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, msg->msg_iov[i].iov_base, msg->msg_iov[i].iov_len);
data/libfabric-1.11.0/prov/netdir/src/netdir_ep_rma.c:430:5:  [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, msg->msg_iov[i].iov_base, msg->msg_iov[i].iov_len);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:165:3:  [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(dst, &ev->operation, copylen);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:171:4:  [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(dst, ev->data, min(len - copylen, ev->len));
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:274:3:  [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(buf, &ev->error, offsetof(struct fi_eq_err_entry, err_data));
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:276:3:  [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(buf->err_data, ev->error.err_data, buf->err_data_size);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:281:3:  [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(buf, &ev->error, sizeof(ev->error));
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.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(custom->data, buf, len);
data/libfabric-1.11.0/prov/netdir/src/netdir_log.h:127:9:  [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.
	static char lerr[128];
data/libfabric-1.11.0/prov/netdir/src/netdir_ndinit.c:423:5:  [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(&adapter->address,
data/libfabric-1.11.0/prov/netdir/src/netdir_unexp.c:372:2:  [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(entry->buf, ctx->entry, result->BytesTransferred);
data/libfabric-1.11.0/prov/psm/src/psmx.h:227:2:  [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			buf[0];
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:565:4:  [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->atomic.result, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:649:5:  [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(tmp_buf, result, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:653:5:  [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(result, tmp_buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:673:5:  [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(tmp_buf, result, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:677:5:  [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(result, tmp_buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:824:3:  [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((uint8_t *)req+sizeof(*req), (void *)buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:1011:3:  [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((uint8_t *)req+sizeof(*req), (void *)buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:1217:3:  [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((uint8_t *)req + sizeof(*req), (void *)buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:1218:3:  [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((uint8_t *)req + sizeof(*req) + len, (void *)compare, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:1233:4:  [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(tmp_buf, buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_atomic.c:1234:4:  [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((uint8_t *)tmp_buf + len, compare, len);
data/libfabric-1.11.0/prov/psm/src/psmx_av.c:317:3:  [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(addr, &epid, *addrlen);
data/libfabric-1.11.0/prov/psm/src/psmx_cq.c:603:5:  [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 *)&event->cqe, cq_priv->entry_size);
data/libfabric-1.11.0/prov/psm/src/psmx_cq.c:656:3:  [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(buf, &cq_priv->pending_error->cqe, size);
data/libfabric-1.11.0/prov/psm/src/psmx_init.c:326:10:  [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).
			svc = atoi(service);
data/libfabric-1.11.0/prov/psm/src/psmx_msg2.c:168:5:  [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->recv.buf, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_msg2.c:175:6:  [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(unexp->buf, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_msg2.c:204:5:  [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->recv.buf + offset, src, copy_len);
data/libfabric-1.11.0/prov/psm/src/psmx_msg2.c:391:2:  [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->recv.buf, unexp->buf, req->recv.len_received);
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:104:4:  [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(rma_addr, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:291:4:  [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->read.buf + offset, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:375:3:  [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(dst, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:720:3:  [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((uint8_t *)req + sizeof(*req), (void *)buf, len);
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:80:9:  [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.
	static char s[40];
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:82:2:  [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(s,
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:159:2:  [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 env[32];
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:165:16:  [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).
		local_size = atoi(s);
data/libfabric-1.11.0/prov/psm/src/psmx_util.c:167:17:  [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).
			local_rank = atoi(s);
data/libfabric-1.11.0/prov/psm2/src/psmx2.h:440:3:  [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[PSMX2_IOV_BUF_SIZE];
data/libfabric-1.11.0/prov/psm2/src/psmx2.h:848:2:  [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 default_domain_name[PSMX2_MAX_UNITS * 8]; /* hfi1_0;hfi1_1;...;hfi1_n */
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:75:3:  [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(buf, ioc[i].addr, copy_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:91:3:  [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(ioc[i].addr, buf, copy_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:616:5:  [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->atomic.result, src, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:704:5:  [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(tmp_buf, result, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:708:5:  [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(result, tmp_buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:728:5:  [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(tmp_buf, result, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:732:5:  [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(result, tmp_buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:853:3:  [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->tmpbuf, (void *)buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:1157:3:  [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->tmpbuf, (void *)buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:1334:3:  [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->ioc, resultv, iov_size);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:1553:3:  [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->tmpbuf, buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:1554:3:  [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((uint8_t *)req->tmpbuf + len, compare, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_atomic.c:1756:3:  [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->ioc, resultv, iov_size);
data/libfabric-1.11.0/prov/psm2/src/psmx2_av.c:794:3:  [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(addr, &name, MIN(*addrlen, sizeof(name)));
data/libfabric-1.11.0/prov/psm2/src/psmx2_av.c:822:3:  [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(addr, &name, MIN(*addrlen, sizeof(name)));
data/libfabric-1.11.0/prov/psm2/src/psmx2_cm.c:65:3:  [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(addr, &epname, MIN(*addrlen, addr_size));
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1641:5:  [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 *)&event->cqe, cq_priv->entry_size);
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1693:3:  [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(buf, &cq_priv->pending_error->cqe, size);
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:257:2:  [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 path[64];
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:258:2:  [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 buffer[32];
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:286:2:  [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 unit_name[8];
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:315:14:  [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).
		hfi_unit = atoi(s);
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:319:15:  [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).
		multirail = atoi(s);
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:390:3:  [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(unit_name, "hfi1_%hu", i);
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:430:2:  [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 buffer[80];
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:589:10:  [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).
			svc = atoi(service);
data/libfabric-1.11.0/prov/psm2/src/psmx2_msg.c:330:5:  [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(p, iov[i].iov_base, iov[i].iov_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_msg.c:483:2:  [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(&rep->iov_info, recv_buf, PSMX2_STATUS_RCVLEN(status));
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:63:3:  [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((uint8_t *)iov[i].iov_base + offset, src, copy_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:143:4:  [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(rma_addr, src, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:379:5:  [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->read.buf + offset, src, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:480:4:  [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 *)addr, buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:492:6:  [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(dst, iov[i].iov_base, iov[i].iov_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:499:4:  [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 *)addr, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:507:6:  [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(iov[i].iov_base, src, iov[i].iov_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:805:2:  [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->iov, iov, count * sizeof(struct iovec));
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:1038:3:  [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->tmpbuf, (void *)buf, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:1217:5:  [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(p, iov[i].iov_base, iov[i].iov_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_tagged.c:873:5:  [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(p, iov[i].iov_base, iov[i].iov_len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:80:9:  [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.
	static char s[40];
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:82:2:  [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(s,
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:207:2:  [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 env[32];
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:213:16:  [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).
		local_size = atoi(s);
data/libfabric-1.11.0/prov/psm2/src/psmx2_util.c:215:17:  [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).
			local_rank = atoi(s);
data/libfabric-1.11.0/prov/rstream/src/rstream_msg.c:530:3:  [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(tx_addr, ((char *)buf + sent_len), curr_avail_len);
data/libfabric-1.11.0/prov/rstream/src/rstream_msg.c:638:3:  [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(buf, rx_data_ptr, current_chunk);
data/libfabric-1.11.0/prov/rxd/src/rxd_atomic.c:63:3:  [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(&tx_entry->res_iov[0], res_iov, sizeof(*res_iov) * res_count);
data/libfabric-1.11.0/prov/rxd/src/rxd_cq.c:474:2:  [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(dup_entry, rx_entry, sizeof(*rx_entry));
data/libfabric-1.11.0/prov/rxd/src/rxd_cq.c:787:2:  [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_result[RXD_MAX_MTU_SIZE];
data/libfabric-1.11.0/prov/rxd/src/rxd_ep.c:213:2:  [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(rx_entry->iov, iov, sizeof(*rx_entry->iov) * iov_count);
data/libfabric-1.11.0/prov/rxd/src/rxd_ep.c:347:2:  [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(&tx_entry->iov[0], iov, sizeof(*iov) * iov_count);
data/libfabric-1.11.0/prov/rxd/src/rxd_ep.c:534:2:  [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(hdr->rma, rma_iov, sizeof(*rma_iov) * rma_count);
data/libfabric-1.11.0/prov/rxd/src/rxd_ep.c:1212:2:  [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(dg_info->src_addr, info->src_addr, info->src_addrlen);
data/libfabric-1.11.0/prov/rxm/src/rxm_atomic.c:56:3:  [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(atomic_hdr->rma_ioc, rma_ioc,
data/libfabric-1.11.0/prov/rxm/src/rxm_conn.c:354:2:  [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(peer->addr, addr, cmap->av->addrlen);
data/libfabric-1.11.0/prov/rxm/src/rxm_conn.c:397:2:  [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(handle->peer->addr, ofi_av_get_addr(cmap->av, index),
data/libfabric-1.11.0/prov/rxm/src/rxm_conn.c:1054:2:  [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(&remote_pep_addr, msg_info->dest_addr, msg_info->dest_addrlen);
data/libfabric-1.11.0/prov/rxm/src/rxm_ep.c:1280:2:  [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(def_tx->sar_seg.payload.iov,
data/libfabric-1.11.0/prov/rxm/src/rxm_ep.c:1318:2:  [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(tx_buf->pkt.data, buf, len);
data/libfabric-1.11.0/prov/rxm/src/rxm_ep.c:1343:3:  [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(inject_pkt->data, buf, len);
data/libfabric-1.11.0/prov/rxm/src/rxm_ep.c:1379:3:  [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(tx_buf->pkt.data, buf, len);
data/libfabric-1.11.0/prov/shm/src/smr_atomic.c:46:2:  [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(cmd->rma.rma_ioc, rma_ioc, sizeof(*rma_ioc) * ioc_count);
data/libfabric-1.11.0/prov/shm/src/smr_av.c:169:4:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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)[MIN(*addrlen - 1, strlen(smr_name(peer_smr)))] = '\0';
data/libfabric-1.11.0/prov/shm/src/smr_ep.c:78:5:  [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)[*addrlen - 1] = '\0';
data/libfabric-1.11.0/prov/shm/src/smr_ep.c:252:2:  [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(pend->iov, iov, sizeof(*iov) * iov_count);
data/libfabric-1.11.0/prov/shm/src/smr_ep.c:307:2:  [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(cmd->msg.data.iov, iov, sizeof(*iov) * count);
data/libfabric-1.11.0/prov/shm/src/smr_ep.c:654:2:  [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 name[SMR_NAME_MAX];
data/libfabric-1.11.0/prov/shm/src/smr_init.c:55:2:  [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 temp_name[SMR_NAME_MAX];
data/libfabric-1.11.0/prov/shm/src/smr_msg.c:68:2:  [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(&entry->iov, iov, sizeof(*iov) * count);
data/libfabric-1.11.0/prov/shm/src/smr_progress.c:302:2:  [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 shm_name[SMR_NAME_MAX];
data/libfabric-1.11.0/prov/shm/src/smr_progress.c:394:2:  [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(sar_iov, iov, sizeof(*iov) * iov_count);
data/libfabric-1.11.0/prov/shm/src/smr_progress.c:412:2:  [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(sar_entry->iov, sar_iov, sizeof(*sar_iov) * iov_count);
data/libfabric-1.11.0/prov/shm/src/smr_progress.c:450:2:  [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_result[SMR_INJECT_SIZE];
data/libfabric-1.11.0/prov/shm/src/smr_progress.c:466:3:  [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(src, op == FI_ATOMIC_READ ? dst : tmp_result,
data/libfabric-1.11.0/prov/shm/src/smr_progress.c:645:3:  [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(&unexp->cmd, cmd, sizeof(*cmd));
data/libfabric-1.11.0/prov/shm/src/smr_rma.c:45:2:  [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(cmd->rma.rma_iov, rma_iov, sizeof(*rma_iov) * iov_count);
data/libfabric-1.11.0/prov/sockets/include/sock.h:470:2:  [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 event[0];
data/libfabric-1.11.0/prov/sockets/include/sock.h:492:2:  [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 service[NI_MAXSERV];
data/libfabric-1.11.0/prov/sockets/include/sock.h:498:2:  [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 reserved[2];
data/libfabric-1.11.0/prov/sockets/include/sock.h:785:2:  [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 inject[SOCK_EP_MAX_INJECT_SZ];
data/libfabric-1.11.0/prov/sockets/include/sock.h:879:2:  [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 cq_entry[0];
data/libfabric-1.11.0/prov/sockets/include/sock.h:919:2:  [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 cm_data[0];
data/libfabric-1.11.0/prov/sockets/include/sock.h:951:2:  [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 cm_data[SOCK_EP_MAX_CM_DATA_SZ];
data/libfabric-1.11.0/prov/sockets/include/sock.h:959:4:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 inject[SOCK_EP_MAX_INJECT_SZ];
data/libfabric-1.11.0/prov/sockets/include/sock.h:967:4:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 inject[SOCK_EP_MAX_INJECT_SZ];
data/libfabric-1.11.0/prov/sockets/include/sock.h:982:4:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (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 inject[SOCK_EP_MAX_INJECT_SZ];
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:200:2:  [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 sa_ip[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:262:3:  [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(&av_addr->addr, &addr[i], ofi_sizeofaddr(&addr[i]));
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:306:2:  [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, &av_addr->addr, MIN(*addrlen, (size_t)_av->addrlen));
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:362:2:  [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 base_host[FI_NAME_MAX] = {0};
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:363:2:  [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_host[FI_NAME_MAX] = {0};
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:364:2:  [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_port[FI_NAME_MAX] = {0};
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:384:2:  [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(base_host, node, hostlen - offset);
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:385:13:  [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).
	var_port = atoi(service);
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:386:13:  [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).
	var_host = atoi(node + hostlen - offset);
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:458:2:  [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 straddr[OFI_ADDRSTRLEN];
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:459:2:  [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 ipaddr[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c:387:4:  [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(arg, &cntr->mut, sizeof(cntr->mut));
data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c:388:4:  [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 *)arg + sizeof(cntr->mut), &cntr->cond,
data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c:404:3:  [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(arg, &cntr->attr.flags, sizeof(uint64_t));
data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c:408:3:  [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(&cntr->attr.flags, arg, sizeof(uint64_t));
data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c:526:3:  [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(&_cntr->attr, &sock_cntr_attr, sizeof(sock_cntr_attr));
data/libfabric-1.11.0/prov/sockets/src/sock_cntr.c:528:3:  [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(&_cntr->attr, attr, sizeof(sock_cntr_attr));
data/libfabric-1.11.0/prov/sockets/src/sock_cq.c:188:3:  [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(&overflow_entry->cq_entry[0], buf, len);
data/libfabric-1.11.0/prov/sockets/src/sock_cq.c:457:4:  [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->err_data, entry.err_data, buf->err_data_size);
data/libfabric-1.11.0/prov/sockets/src/sock_cq.c:459:4:  [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, &entry, sizeof(struct fi_cq_err_entry_1_0));
data/libfabric-1.11.0/prov/sockets/src/sock_cq.c:539:4:  [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(arg, &cq->cq_rbfd.fd[OFI_RB_READ_FD], sizeof(int));
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:933:3:  [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(&new_ep->tx_attr, &sock_ep->tx_attr, sizeof(struct fi_tx_attr));
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:934:3:  [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(&new_ep->rx_attr, &sock_ep->rx_attr, sizeof(struct fi_rx_attr));
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:943:3:  [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(&new_ep->ep, &sock_ep->ep, sizeof(struct fid_ep));
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1320:2:  [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 netbuf[OFI_ADDRSTRLEN];
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1508:3:  [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(info->src_addr, src_addr, ofi_sizeofaddr(src_addr));
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1526:3:  [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(info->dest_addr, dest_addr, info->dest_addrlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1566:2:  [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 hostname[HOST_NAME_MAX];
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1578:2:  [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(src_addr, rai->ai_addr, rai->ai_addrlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1664:3:  [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(sock_ep->attr->src_addr, info->src_addr,
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1675:3:  [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(sock_ep->attr->dest_addr, info->dest_addr,
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1762:2:  [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(&sock_ep->attr->info, info, sizeof(struct fi_info));
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1800:2:  [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 buf[8];
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:77:3:  [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(addr, sock_ep->attr->src_addr, len);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:86:3:  [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(addr, &sock_pep->src_addr, len);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:158:3:  [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(sock_ep->attr->src_addr, addr, addrlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:164:3:  [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(&sock_pep->src_addr, addr, addrlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:179:2:  [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, sock_ep->attr->dest_addr, len);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:408:3:  [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(&cm_entry->data, param, cm_data_sz);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:471:2:  [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(_ep->attr->dest_addr, addr, ofi_sizeofaddr(addr));
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:487:2:  [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->src_addr, _ep->attr->src_addr,
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:489:2:  [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(&handle->dest_addr, addr, ofi_sizeofaddr(addr));
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:497:3:  [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(handle->cm_data, param, paramlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:574:3:  [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(handle->cm_data, param, paramlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:838:2:  [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(&conn_req->hdr, hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:883:2:  [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(cm_entry->data, conn_req->cm_data, req_cm_data_sz);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:999:3:  [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(hreq->cm_data, param, paramlen);
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:1077:3:  [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(&_pep->src_addr, info->src_addr,
data/libfabric-1.11.0/prov/sockets/src/sock_ep_msg.c:1100:3:  [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(&_pep->src_addr, result->ai_addr,
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:106:2:  [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, entry->event, entry->len);
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:162:4:  [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->err_data, err_entry->err_data, buf->err_data_size);
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:197:2:  [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(entry->event, buf, len);
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:238:3:  [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(err_data_entry->err_data, err_data, err_data_size);
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:316:4:  [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(arg, &eq->list.signal.fd[FI_READ_FD], sizeof(int));
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:393:3:  [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(&sock_eq->attr, &_sock_eq_def_attr,
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:396:3:  [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(&sock_eq->attr, attr, sizeof(struct fi_eq_attr));
data/libfabric-1.11.0/prov/sockets/src/sock_progress.c:866:2:  [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_result[SOCK_EP_MAX_ATOMIC_SZ];
data/libfabric-1.11.0/prov/sockets/src/sock_progress.c:872:4:  [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(cmp, tmp_result, ofi_datatype_size(datatype) * cnt);
data/libfabric-1.11.0/prov/sockets/src/sock_progress.c:1046:2:  [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 *) (uintptr_t) rx_entry->iov[0].ioc.addr,
data/libfabric-1.11.0/prov/sockets/src/sock_progress.c:1155:5:  [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(msg_iov[i].iov_base,
data/libfabric-1.11.0/prov/sockets/src/sock_progress.c:1259:5:  [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(dst, src, len);
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:72:2:  [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(&trigger->op.rma.msg, msg, sizeof(*msg));
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:76:2:  [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(&trigger->op.rma.msg_iov[0], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:78:2:  [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(&trigger->op.rma.rma_iov[0], &msg->rma_iov[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:118:2:  [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(&trigger->op.msg.msg, msg, sizeof(*msg));
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:120:2:  [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 *) &trigger->op.msg.msg_iov[0], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:160:2:  [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(&trigger->op.tmsg.msg, msg, sizeof(*msg));
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:162:2:  [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 *) &trigger->op.tmsg.msg_iov[0], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:204:2:  [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(&trigger->op.atomic.msg, msg, sizeof(*msg));
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:208:2:  [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(&trigger->op.atomic.msg_iov[0], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:210:2:  [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(&trigger->op.atomic.rma_iov[0], &msg->rma_iov[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:214:3:  [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(&trigger->op.atomic.comparev[0], &comparev[0],
data/libfabric-1.11.0/prov/sockets/src/sock_trigger.c:220:3:  [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(&trigger->op.atomic.resultv[0], &resultv[0],
data/libfabric-1.11.0/prov/sockets/src/sock_wait.c:63:3:  [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(arg, &wait->wobj.fd[WAIT_READ_FD], sizeof(int));
data/libfabric-1.11.0/prov/sockets/src/sock_wait.c:69:3:  [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(arg, &mut_cond, sizeof(mut_cond));
data/libfabric-1.11.0/prov/tcp/src/tcpx.h:109:2:  [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			cm_data[TCPX_MAX_CM_DATA_SIZE];
data/libfabric-1.11.0/prov/tcp/src/tcpx_comm.c:69:2:  [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, &stage_buf->buf[stage_buf->cur_pos], ret);
data/libfabric-1.11.0/prov/tcp/src/tcpx_conn_mgr.c:204:2:  [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(cm_entry->data, cm_ctx->cm_data, cm_ctx->cm_data_sz);
data/libfabric-1.11.0/prov/tcp/src/tcpx_conn_mgr.c:260:4:  [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(err_entry.err_data, cm_ctx->cm_data,
data/libfabric-1.11.0/prov/tcp/src/tcpx_conn_mgr.c:376:2:  [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(cm_entry->data, cm_ctx->cm_data, cm_ctx->cm_data_sz);
data/libfabric-1.11.0/prov/tcp/src/tcpx_ep.c:122:3:  [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(cm_ctx->cm_data, param, paramlen);
data/libfabric-1.11.0/prov/tcp/src/tcpx_ep.c:156:3:  [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(cm_ctx->cm_data, param, paramlen);
data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c:104:2:  [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(&recv_entry->iov[0], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c:154:2:  [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(recv_entry->iov, iov, count * sizeof(*iov));
data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c:205:3:  [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(&tx_entry->iov[1], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c:291:2:  [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(&tx_entry->iov[1], &iov[0], count * sizeof(struct iovec));
data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c:328:2:  [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((uint8_t *)&tx_entry->hdr + offset, (uint8_t *) buf, len);
data/libfabric-1.11.0/prov/tcp/src/tcpx_msg.c:410:2:  [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((uint8_t *) &tx_entry->hdr + sizeof(tx_entry->hdr.cq_data_hdr),
data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c:456:2:  [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(&rx_entry->hdr, &tcpx_ep->cur_rx_msg.hdr,
data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c:496:2:  [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(&rx_entry->hdr, &tcpx_ep->cur_rx_msg.hdr,
data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c:533:2:  [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(&rx_entry->hdr, &tcpx_ep->cur_rx_msg.hdr,
data/libfabric-1.11.0/prov/tcp/src/tcpx_progress.c:566:2:  [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(&rx_entry->hdr, &tcpx_ep->cur_rx_msg.hdr,
data/libfabric-1.11.0/prov/tcp/src/tcpx_rma.c:63:2:  [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(rma_iov, msg->rma_iov,
data/libfabric-1.11.0/prov/tcp/src/tcpx_rma.c:83:2:  [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(&recv_entry->iov[0], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/tcp/src/tcpx_rma.c:212:2:  [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(rma_iov, msg->rma_iov,
data/libfabric-1.11.0/prov/tcp/src/tcpx_rma.c:228:3:  [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(&send_entry->iov[1], &msg->msg_iov[0],
data/libfabric-1.11.0/prov/tcp/src/tcpx_rma.c:371:2:  [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((uint8_t *)&send_entry->hdr + offset, (uint8_t *)buf, len);
data/libfabric-1.11.0/prov/tcp/src/tcpx_shared_ctx.c:92:2:  [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(&recv_entry->iov[0], msg->msg_iov,
data/libfabric-1.11.0/prov/tcp/src/tcpx_shared_ctx.c:150:2:  [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(&recv_entry->iov[0], iov, count * sizeof(*iov));
data/libfabric-1.11.0/prov/udp/src/udpx_ep.c:106:2:  [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(&mc->addr, addr, ofi_sizeofaddr(addr));
data/libfabric-1.11.0/prov/udp/src/udpx_ep.c:116:2:  [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 str[INET6_ADDRSTRLEN + 8];
data/libfabric-1.11.0/prov/udp/src/udpx_ep.c:665:2:  [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 hostname[HOST_NAME_MAX];
data/libfabric-1.11.0/prov/usnic/src/fi_ext_usnic.h:64:2:  [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 ui_ifname[IFNAMSIZ];
data/libfabric-1.11.0/prov/usnic/src/fi_ext_usnic.h:77:2:  [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			ui_ifname[IFNAMSIZ];
data/libfabric-1.11.0/prov/usnic/src/fi_ext_usnic.h:82:2:  [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			ui_devname[FI_EXT_USNIC_MAX_DEVNAME];
data/libfabric-1.11.0/prov/usnic/src/fi_ext_usnic.h:99:2:  [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			ui_firmware[64];
data/libfabric-1.11.0/prov/usnic/src/usdf.h: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 addr_str[USDF_ADDR_STR_LEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_av.c:630:3:  [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(addr, &sin, copylen);
data/libfabric-1.11.0/prov/usnic/src/usdf_cm.c:111:2:  [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(err_data_entry->err_data, reqp->creq_data, data_size);
data/libfabric-1.11.0/prov/usnic/src/usdf_cm.c:183:2:  [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 outstr[USDF_ADDR_STR_LEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_cm.c:207:2:  [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 outstr[USDF_ADDR_STR_LEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_cm.c:226:2:  [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 addr_str[USDF_ADDR_STR_LEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_cm.c:241:3:  [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(addr, sin, MIN(len, *addrlen));
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:164:2:  [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(&rxd.urd_iov[1], iov, sizeof(*iov) * count);
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:278:2:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:282:3:  [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((char *) hdr + sizeof(*hdr) + len, iov[i].iov_base,
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:314:2:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:321:2:  [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(&send_iov[1], iov, sizeof(struct iovec) * count);
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:513:2:  [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(&rxd.urd_iov[0], iov, sizeof(*iov) * count);
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:626:2:  [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(hdr, &dest->ds_dest.ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:659:33:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
	hdr = (struct usd_udp_hdr *) ((char *) iov[0].iov_base +
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:661:2:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:665:2:  [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(send_iov, iov, sizeof(struct iovec) * count);
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:702:3:  [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(send_iov, iov, sizeof(struct iovec) * count);
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:703:28:  [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.
		send_iov[0].iov_base = ((char *) send_iov[0].iov_base +
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:750:3:  [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(send_iov, msg->msg_iov,
data/libfabric-1.11.0/prov/usnic/src/usdf_dgram.c:752:28:  [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.
		send_iov[0].iov_base = ((char *) send_iov[0].iov_base +
data/libfabric-1.11.0/prov/usnic/src/usdf_domain.c:162:2:  [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 requested[INET_ADDRSTRLEN], actual[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_eq.c:106:2:  [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, ev->ue_buf, copylen);
data/libfabric-1.11.0/prov/usnic/src/usdf_eq.c:158:2:  [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(ev_buf, buf, len);
data/libfabric-1.11.0/prov/usnic/src/usdf_eq.c:249:3:  [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(given_buffer->err_data, entry.err_data,
data/libfabric-1.11.0/prov/usnic/src/usdf_ext.c:104:2:  [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(uip->ui.v2.ui_mac_addr, dap->uda_mac_addr,
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:612:2:  [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 dest_str[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:613:2:  [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 src_str[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:614:2:  [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 dev_str[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_fake_ibv.c:100:5:  [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 value[8];
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:208:3:  [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(entry->data, reqp->creq_data, reqp->creq_datalen);
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:445:2:  [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(reqp->creq_data, param, paramlen);
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:534:2:  [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, &pep->pep_src_addr, MIN(copylen, *addrlen));
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:553:2:  [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 namebuf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:554:2:  [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 servbuf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:631:3:  [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(&pep->pep_src_addr, sin, sizeof(*sin));
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:771:2:  [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(&pep->pep_src_addr, pep->pep_info->src_addr,
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl_utils_common.c:259:3:  [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[128];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_dest.c:232:5:  [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(eth.ether_shost, dap->uda_mac_addr, ETH_ALEN);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_dest.c:572:5:  [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(&eth->ether_dhost[0], dmac, ETH_ALEN);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_device.c:546:30:  [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).
        ctx->ucx_ib_dev_fd = open(idp->id_dev_path, O_RDWR);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_device.c:562:27:  [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).
    ctx->ucmd_ib_dev_fd = open(idp->id_dev_path, O_RDWR | O_CLOEXEC);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:74:5:  [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 ibdev_buf[32];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:123:14:  [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).
        fd = open(ibdev_path, O_RDONLY);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:196:5:  [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[PATH_MAX + 128];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:197:5:  [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 gid[80];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:207:10:  [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).
    fd = open(name, O_RDONLY);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:246:5:  [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[PATH_MAX + 128];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:254:10:  [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).
    fd = open(name, O_RDONLY);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:283:5:  [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[PATH_MAX + 128];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:284:5:  [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[32];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:292:10:  [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).
    fd = open(name, O_RDONLY);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:305:15:  [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).
    *result = atoi(buf);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:358:5:  [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[PATH_MAX + 128];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:367:10:  [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).
    fd = open(name, O_RDONLY);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.h:57:5:  [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 id_name[80];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.h:58:5:  [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 id_usnic_name[USD_MAX_DEVNAME];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.h:59:5:  [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 id_dev_path[PATH_MAX]; /* path to IB dev */
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.h:60:5:  [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 id_class_path[PATH_MAX];       /* path to IB class info */
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_pio_udp.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(copybuf + 2, buf, len);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_pio_udp.c:207:5:  [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(copybuf + 2, uhdr, uhdrlen);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_pio_udp.c:208:5:  [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(copybuf + 2 + uhdrlen, pkt, pktlen);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:69:5:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:112:5:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:154:5:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:155:5:  [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(hdr + 1, buf, len);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:196:5:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:246:5:  [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(hdr + 1, uhdr, uhdrlen);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:247:5:  [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((char *) (hdr + 1) + uhdrlen, pkt, pktlen);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:294:5:  [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(hdr, &dest->ds_dest.ds_udp.u_hdr, sizeof(*hdr));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_post_ud_udp.c:307:5:  [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(&send_iov[1], iov, sizeof(struct iovec) * iov_count);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_util.h:107:14:  [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   net_data[6];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_direct.h:72:5:  [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 uda_devname[USD_MAX_DEVNAME];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_direct.h:73:5:  [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 uda_ifname[IFNAMSIZ];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_direct.h:88:5:  [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 uda_firmware[64];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_direct.h:266:5:  [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 ude_devname[USD_MAX_DEVNAME];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:72:2:  [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_pa, &sinp, sizeof(sinp));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:77:3:  [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(macaddr, req.arp_ha.sa_data, 6);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:90:2:  [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			ifname[IF_NAMESIZE];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:110:3:  [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[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:126:2:  [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 	buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:160:3:  [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 ifname[IFNAMSIZ];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:161:3:  [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 src_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:162:3:  [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 dst_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:175:3:  [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 nh_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:176:3:  [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 src_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:177:3:  [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 dst_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:186:3:  [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 src_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.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 dst_buf[INET_ADDRSTRLEN];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_user_utils.h:81:3:  [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 err_buf[50]; \
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_user_utils.h:94:3:  [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 err_buf[50]; \
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:219:28:  [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.
		vdev->res[type].vaddr = (char __iomem *)bar[bar_num].vaddr +
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:683:2:  [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(&vdev->args[2], args, nargs * sizeof(args[0]));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:698:2:  [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(args, &vdev->args[1], nargs * sizeof(args[0]));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:713:2:  [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(vdev->args, args, nargs * sizeof(args[0]));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:717:2:  [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(args, vdev->args, nargs * sizeof(args[0]));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:1067:2:  [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, &laa, ETH_ALEN);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:1273:3:  [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(&vdev->notify_copy, vdev->notify, vdev->notify_sz);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:1334:2:  [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(prov_buf, buf, len);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_dev.c:1628:2:  [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(prov_buf, buf, len);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_devcmd.h:781:2:  [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 fw_version[32];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_devcmd.h:782:2:  [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 fw_build[32];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_devcmd.h:783:2:  [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 hw_version[32];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_devcmd.h:784:2:  [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 hw_serial_number[32];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_enet.h:56:2:  [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 devname[16];
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/vnic_resource.h:108:2:  [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[16];		/* card serial number */
data/libfabric-1.11.0/prov/util/src/util_av.c:288:3:  [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(entry->data, addr, av->addrlen);
data/libfabric-1.11.0/prov/util/src/util_av.c:731:2:  [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 name[FI_NAME_MAX];
data/libfabric-1.11.0/prov/util/src/util_av.c:732:2:  [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 svc[FI_NAME_MAX];
data/libfabric-1.11.0/prov/util/src/util_av.c:762:2:  [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(name, node, name_len);
data/libfabric-1.11.0/prov/util/src/util_av.c:763:15:  [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).
	name_index = atoi(node + name_len);
data/libfabric-1.11.0/prov/util/src/util_av.c:764:14:  [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).
	svc_index = atoi(service);
data/libfabric-1.11.0/prov/util/src/util_av.c:790:4:  [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_temp, ai->ai_addr, *addrlen);
data/libfabric-1.11.0/prov/util/src/util_av.c:901:2:  [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, av_addr, MIN(*addrlen, av_addrlen));
data/libfabric-1.11.0/prov/util/src/util_coll.c:469:2:  [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(result, send_buf, count * ofi_datatype_size(datatype));
data/libfabric-1.11.0/prov/util/src/util_coll.c:968:4:  [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(copy_item->out_buf, copy_item->in_buf,
data/libfabric-1.11.0/prov/util/src/util_cq.c:343:3:  [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(buf->err_data, err->comp.err_data, err_data_size);
data/libfabric-1.11.0/prov/util/src/util_cq.c:349:3:  [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(buf, &err->comp, sizeof(struct fi_cq_err_entry_1_0));
data/libfabric-1.11.0/prov/util/src/util_eq.c:50:3:  [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(err_data, err_entry->err_data, err_data_size);
data/libfabric-1.11.0/prov/util/src/util_eq.c:114:4:  [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, entry->data, ret);
data/libfabric-1.11.0/prov/util/src/util_eq.c:150:2:  [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(entry->data, buf, len);
data/libfabric-1.11.0/prov/util/src/util_mr_map.c:52:2:  [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 *) dup_attr->mr_iov, attr->mr_iov,
data/libfabric-1.11.0/prov/util/src/util_ns.c:88:2:  [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(service, service_in, ns->service_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:95:2:  [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(name, name_in, ns->name_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:148:2:  [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(name_out, name, ns->name_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:151:3:  [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(service_in, key, ns->service_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:195:3:  [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(io_buf, cmd, cmd_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:380:2:  [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(write_buf, &cmd, cmd_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:382:2:  [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 *)((char *)write_buf + write_len), service,
data/libfabric-1.11.0/prov/util/src/util_ns.c:385:2:  [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 *)((char *)write_buf + write_len), name,
data/libfabric-1.11.0/prov/util/src/util_ns.c:425:2:  [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(write_buf, &cmd, cmd_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:427:2:  [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 *)((char *)write_buf + write_len), service,
data/libfabric-1.11.0/prov/util/src/util_ns.c:430:2:  [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 *)((char *)write_buf + write_len), name,
data/libfabric-1.11.0/prov/util/src/util_ns.c:472:2:  [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(io_buf, &cmd, cmd_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:474:2:  [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 *)((char *)io_buf + io_len), service,
data/libfabric-1.11.0/prov/util/src/util_ns.c:499:3:  [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(service, (char *) io_buf + io_len, ns->service_len);
data/libfabric-1.11.0/prov/util/src/util_ns.c:501:3:  [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(dest_addr, (char *) io_buf + io_len, ns->name_len);
data/libfabric-1.11.0/prov/util/src/util_wait.c:437:4:  [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(pollfd->fd, &wait->pollfds->fds[0],
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:230:67:  [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).
		sib->sib_sid = htonll(((uint64_t) RDMA_PS_IB << 16) + (uint16_t)atoi(service));
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:348:2:  [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 *param_help, param_default_str[256] = { 0 };
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:48:3:  [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(dst_addr, src_addr, *dst_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:50:3:  [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(dst_addr, src_addr, src_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:79:2:  [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(ep->info->src_addr, addr, ep->info->src_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:121:2:  [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(cm_hdr->data, param, cm_hdr->size);
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:146:2:  [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(rdma_cm_hdr->src_addr,
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:148:2:  [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(rdma_cm_hdr->dst_addr,
data/libfabric-1.11.0/prov/verbs/src/verbs_cm.c:262:3:  [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((cm_data + 1), param, *paramlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_cm_xrc.c:93:2:  [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(ep->conn_setup->event_data, data, ep->conn_setup->event_len);
data/libfabric-1.11.0/prov/verbs/src/verbs_cm_xrc.c:130:2:  [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 buf[OFI_ADDRSTRLEN];
data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c:135:3:  [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(entry->err_data, &wce->wc.vendor_err, entry->err_data_size);
data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c:137:3:  [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(&entry->err_data, &wce->wc.vendor_err,
data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c:350:4:  [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(&wce->wc, &wc, sizeof wc);
data/libfabric-1.11.0/prov/verbs/src/verbs_dgram_av.c:182:2:  [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, &av_entry->addr, MIN(*addrlen, sizeof(av_entry->addr)));
data/libfabric-1.11.0/prov/verbs/src/verbs_domain_xrc.c:223:2:  [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(ep->conn_setup->pending_param, conn_param,
data/libfabric-1.11.0/prov/verbs/src/verbs_domain_xrc.c:532:25:  [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).
		domain->xrc.xrcd_fd = open(vrb_gl_data.msg.xrcd_filename,
data/libfabric-1.11.0/prov/verbs/src/verbs_ep.c:912:2:  [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(ep->info->src_addr, addr, ep->info->src_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_ep.c:913:2:  [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(&ep->ep_name, addr, ep->info->src_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_ep.c:934:2:  [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, &ep->ep_name, sizeof(ep->ep_name));
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:233:2:  [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((*info)->src_addr, rdma_get_local_addr(event->id), (*info)->src_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:239:2:  [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((*info)->dest_addr, rdma_get_peer_addr(event->id), (*info)->dest_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:282:3:  [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(entry->data, cm_hdr->data, datalen);
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:392:2:  [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(ep->accept_param_data, param_data, param_len);
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:1000:4:  [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(eq->err.err_data, cm_hdr->data,
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:1092:2:  [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(entry->data, buf, len);
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:1149:2:  [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, entry->data, entry->len);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:344:3:  [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(rai->ai_src_addr, fi->src_addr, fi->src_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:350:3:  [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(rai->ai_dst_addr, fi->dest_addr, fi->dest_addrlen);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:390:3:  [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(*addr, ep_name, sizeof(*ep_name));
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:412:4:  [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(fi->src_addr, rai->ai_src_addr, rai->ai_src_len);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:419:4:  [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(fi->dest_addr, rai->ai_dst_addr, rai->ai_dst_len);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:869:2:  [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 addr_str[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:928:2:  [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 name[INET6_ADDRSTRLEN + 16];
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1021:2:  [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(&sib->sib_addr.sib_raw, &gid->raw, sizeof(*gid));
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1287:2:  [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(rai->ai_src_addr, local_addr, rai->ai_src_len);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1583:9:  [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).
		svc = atoi(service);
data/libfabric-1.11.0/src/abi_1_0.c:212:4:  [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(dst, src, sizeof(*src));	\
data/libfabric-1.11.0/src/abi_1_0.c:339:2:  [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(&attr, attr_1_0, sizeof(*attr_1_0));
data/libfabric-1.11.0/src/common.c:288:2:  [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 str[INET6_ADDRSTRLEN + 8];
data/libfabric-1.11.0/src/common.c:398:2:  [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 fmt[16];
data/libfabric-1.11.0/src/common.c:468:2:  [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 gid[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/src/common.c:501:2:  [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 gid[64 + 1];
data/libfabric-1.11.0/src/common.c:502:2:  [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 extra_str[64 + 1];
data/libfabric-1.11.0/src/common.c:589:2:  [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 gid[INET6_ADDRSTRLEN];
data/libfabric-1.11.0/src/common.c:617:2:  [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 ip[64];
data/libfabric-1.11.0/src/common.c:662:2:  [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 ip[64];
data/libfabric-1.11.0/src/common.c:722:2:  [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, ai->ai_addr, *len);
data/libfabric-1.11.0/src/common.c:767:2:  [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, ifa->ifa_addr, *len);
data/libfabric-1.11.0/src/common.c:813:9:  [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.
	static char str[64];
data/libfabric-1.11.0/src/common.c:923:2:  [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(maskaddr, srcaddr, ofi_sizeofaddr(srcaddr));
data/libfabric-1.11.0/src/common.c:952:2:  [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 buf[OFI_ADDRSTRLEN];
data/libfabric-1.11.0/src/common.c:1058:2:  [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(fds, pfds->fds, pfds->nfds * sizeof(*pfds->fds));
data/libfabric-1.11.0/src/common.c:1059:2:  [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(contexts, pfds->context, pfds->nfds * sizeof(*pfds->context));
data/libfabric-1.11.0/src/common.c:1357:3:  [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(&addr_entry->ipaddr, ifa->ifa_addr,
data/libfabric-1.11.0/src/hmem.c:132:15:  [2] (buffer) char:
  Statically-sized arrays can be improperly restricted, leading to potential
  overflows or other issues (CWE-119!/CWE-120). Perform bounds checking, use
  functions that limit length, or ensure that the size is larger than the
  maximum possible length.
		hmem_buf = (char *)hmem_iov[i].iov_base + hmem_iov_offset;
data/libfabric-1.11.0/src/iov.c:55:14:  [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.
		iov_buf = (char *)iov[i].iov_base + iov_offset;
data/libfabric-1.11.0/src/iov.c:60:4:  [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(iov_buf, (char *) buf + done, len);
data/libfabric-1.11.0/src/iov.c:62:4:  [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 *) buf + done, iov_buf, len);
data/libfabric-1.11.0/src/linux/osd.c:57:7:  [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).
	fd = fopen("/proc/meminfo", "r");
data/libfabric-1.11.0/src/linux/osd.c:160:7:  [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).
	fd = fopen(speed_filename, "r");
data/libfabric-1.11.0/src/log.c:153:2:  [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 buf[1024];
data/libfabric-1.11.0/src/unix/osd.c:213:7:  [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/libfabric-1.11.0/src/unix/osd.c:251:11:  [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).
		first = atoi(b);
data/libfabric-1.11.0/src/unix/osd.c:257:11:  [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).
			last = atoi(c);
data/libfabric-1.11.0/src/unix/osd.c:261:14:  [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).
				stride = atoi(c);
data/libfabric-1.11.0/src/windows/osd.c:127:3:  [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(addr, &sock_addr, MIN(*len, sock_addr_len));
data/libfabric-1.11.0/src/windows/osd.c:144:3:  [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(addr, &sock_addr, MIN(*len, sock_addr_len));
data/libfabric-1.11.0/src/windows/osd.c:339:3:  [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(msg->msg_iov[i].iov_base, buffer + offset, chunk_len);
data/libfabric-1.11.0/src/windows/osd.c:384:3:  [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(buffer + offset, msg->msg_iov[i].iov_base,
data/libfabric-1.11.0/util/pingpong.c:195:2:  [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 ctrl_buf[PP_CTRL_BUF_LEN + 1];
data/libfabric-1.11.0/util/pingpong.c:252:2:  [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 size_msg[50];
data/libfabric-1.11.0/util/pingpong.c:253:2:  [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 iter_msg[50];
data/libfabric-1.11.0/util/pingpong.c:298:2:  [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 port_s[6];
data/libfabric-1.11.0/util/pingpong.c:628:2:  [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(ct->hints->dest_addr, ct->rem_name, len);
data/libfabric-1.11.0/util/pingpong.c:1014:2:  [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 str[PP_STR_LEN];
data/libfabric-1.11.0/util/pingpong.c:1277:2:  [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 sstr[PP_STR_LEN];
data/libfabric-1.11.0/fabtests/common/shared.c:2549:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		ret = read(ft_socket_pair[1], &pair_status, sizeof(int));
data/libfabric-1.11.0/fabtests/common/shared.c:2555:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		ret = read(ft_socket_pair[0], &pair_status, sizeof(int));
data/libfabric-1.11.0/fabtests/common/shared.c:2936:17:  [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 (optarg && strlen(optarg) > 1)
data/libfabric-1.11.0/fabtests/common/shared.c:3096:23:  [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 message_len = strlen(message) + 1;
data/libfabric-1.11.0/fabtests/common/shared.c:3098:13:  [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).
	recv_len = strlen(rx_buf) + 1;
data/libfabric-1.11.0/fabtests/common/shared.c:3115:23:  [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 message_len = strlen(greeting) + 1;
data/libfabric-1.11.0/fabtests/common/shared.c:3312:44:  [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).
	return !strncasecmp(str, OFI_UTIL_PREFIX, strlen(OFI_UTIL_PREFIX));
data/libfabric-1.11.0/fabtests/common/shared.c:3322:11:  [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(delim + 1);
data/libfabric-1.11.0/fabtests/common/shared.c:3329:10:  [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).
		*len = strlen(str);
data/libfabric-1.11.0/fabtests/common/shared.c:3343:11:  [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(delim + 1);
data/libfabric-1.11.0/fabtests/common/shared.c:3350:10:  [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).
		*len = strlen(str);
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:62:15:  [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).
	size_t len = strlen(optstring);
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:99:21:  [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).
	assert(len <= (int)strlen(str));
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:101:13:  [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).
	int olen = strlen(opt);
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:190:16:  [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 olen = strlen(optstring);
data/libfabric-1.11.0/fabtests/common/windows/getopt.c:191:16:  [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 slen = strlen(str);
data/libfabric-1.11.0/fabtests/functional/msg_epoll.c:90:23:  [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 message_len = strlen(message) + 1;
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:160:41:  [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 (strncmp(result_buf, welcome_text, strlen(welcome_text))) {
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:166:19:  [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).
		for (i = 0; i < strlen(welcome_text); i++) {
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:181:39:  [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).
		if (strncmp(result_buf, write_text, strlen(write_text))) {
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:187:35:  [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 (strncmp(rx_buf, write_text, strlen(write_text))) {
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:200:30:  [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).
		ret = fi_write(ep, tx_buf, strlen(welcome_text), mr_desc,
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:247:19:  [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).
			      tx_buf + strlen(welcome_text),
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:248:10:  [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).
			      strlen(write_text), &work.context);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:260:22:  [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).
			      result_buf, strlen(write_text), &work.context);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:281:15:  [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).
				 tx_buf + strlen(welcome_text),
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:282:6:  [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).
				 strlen(welcome_text), &work.context, FI_UINT8, FI_BOR);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:308:15:  [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).
				 tx_buf + strlen(welcome_text),
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:309:6:  [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).
				 strlen(welcome_text), &work.context, FI_UINT8, FI_BOR);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:310:58:  [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).
	format_simple_msg_fetch(&fetch, &fetch_iov, result_buf, strlen(welcome_text));
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:340:15:  [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).
				 tx_buf + strlen(welcome_text),
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:341:6:  [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).
				 strlen(welcome_text), &work.context, FI_UINT8, FI_CSWAP_LE);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:342:58:  [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).
	format_simple_msg_fetch(&fetch, &fetch_iov, result_buf, strlen(welcome_text));
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:343:65:  [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).
	format_simple_msg_compare(&compare, &compare_iov, compare_buf, strlen(welcome_text));
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:364:6:  [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).
				 strlen(write_text), &work.context, 0xCAFE);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:377:52:  [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).
	format_simple_msg_tagged(&msg, &msg_iov, tx_buf + strlen(welcome_text),
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:378:6:  [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).
				 strlen(write_text), &work.context, 0xCAFE);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:391:6:  [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).
			  strlen(write_text), &work.context);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:405:45:  [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).
	format_simple_msg(&msg, &msg_iov, tx_buf + strlen(welcome_text),
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:406:6:  [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).
			  strlen(write_text), &work.context);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:486:27:  [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).
		memset(compare_buf, ~0, strlen(welcome_text) * 2);
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:488:18:  [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).
		memset(&tx_buf[strlen(welcome_text)], ~0, strlen(welcome_text));
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:488:45:  [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).
		memset(&tx_buf[strlen(welcome_text)], ~0, strlen(welcome_text));
data/libfabric-1.11.0/fabtests/functional/rdm_deferred_wq.c:514:34:  [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).
	ret = ft_tx(ep, remote_fi_addr, strlen(welcome_text), &tx_ctx);
data/libfabric-1.11.0/fabtests/functional/rdm_rma_simple.c:48:23:  [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 message_len = strlen(message) + 1;
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:82:45:  [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).
		ret = rma_write_trigger((char *) tx_buf + strlen(welcome_text1),
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:83:6:  [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).
					strlen(welcome_text2), txcntr, 3);
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:88:30:  [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).
		ret = fi_write(ep, tx_buf, strlen(welcome_text1), mr_desc,
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:129:23:  [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).
	opts.transfer_size = strlen(welcome_text1) + strlen(welcome_text2);
data/libfabric-1.11.0/fabtests/functional/rdm_rma_trigger.c:129:47:  [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).
	opts.transfer_size = strlen(welcome_text1) + strlen(welcome_text2);
data/libfabric-1.11.0/fabtests/functional/rdm_shared_av.c:83:23:  [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 message_len = strlen(message) + 1;
data/libfabric-1.11.0/fabtests/functional/recv_cancel.c:110:3:  [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(1000);
data/libfabric-1.11.0/fabtests/functional/stream_msg.c:82:25:  [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).
	const size_t msg_len = strlen(msg);
data/libfabric-1.11.0/fabtests/functional/stream_msg.c:104:25:  [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).
	const size_t msg_len = strlen(msg);
data/libfabric-1.11.0/fabtests/include/windows/osd.h:91:6:  [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(res) > n)
data/libfabric-1.11.0/fabtests/ubertest/config.c:254:38:  [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 (!strncmp(key->str, "test_type", strlen("test_type"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:259:50:  [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).
	} else if (!strncmp(key->str, "class_function", strlen("class_function"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:290:43:  [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).
	} else if (!strncmp(key->str, "ep_type", strlen("ep_type"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:295:43:  [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).
	} else if (!strncmp(key->str, "av_type", strlen("av_type"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:299:46:  [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).
	} else if (!strncmp(key->str, "test_class", strlen("test_class"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:305:47:  [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).
	} else if (!strncmp(key->str, "eq_wait_obj", strlen("eq_wait_obj")) ||
data/libfabric-1.11.0/fabtests/ubertest/config.c:306:37:  [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).
		!strncmp(key->str, "cq_wait_obj", strlen("cq_wait_obj")) ||
data/libfabric-1.11.0/fabtests/ubertest/config.c:307:39:  [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).
		!strncmp(key->str, "cntr_wait_obj", strlen("cntr_wait_obj"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:313:38:  [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).
	} else if (!strncmp(key->str, "op", strlen("op"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:334:44:  [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).
	} else if (!strncmp(key->str, "datatype", strlen("datatype"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:350:45:  [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).
	} else if (!strncmp(key->str, "msg_flags", strlen("msg_flags"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:354:43:  [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).
	} else if (!strncmp(key->str, "mr_mode", strlen("mr_mode"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:360:44:  [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).
	} else if (!strncmp(key->str, "progress", strlen("progress"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:365:45:  [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).
	} else if (!strncmp(key->str, "threading", strlen("threading"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:373:49:  [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).
	} else if (!strncmp(key->str, "constant_caps", strlen("constant_caps"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:385:52:  [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).
	} else if (!strncmp(key->str, "rx_cq_bind_flags", strlen("rx_cq_bind_flags"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:388:52:  [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).
	} else if (!strncmp(key->str, "tx_cq_bind_flags", strlen("tx_cq_bind_flags"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:391:47:  [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).
	} else if (!strncmp(key->str, "rx_op_flags", strlen("rx_op_flags"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:394:47:  [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).
	} else if (!strncmp(key->str, "tx_op_flags", strlen("tx_op_flags"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:397:45:  [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).
	} else if (!strncmp(key->str, "comp_type", strlen("comp_type"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:402:40:  [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).
	} else if (!strncmp(key->str, "mode", strlen("mode"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:406:46:  [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).
	} else if (!strncmp(key->str, "test_flags", strlen("test_flags"))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:429:56:  [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 (!strncmp(config + key_token->start, keys[i].str, strlen(keys[i].str))) {
data/libfabric-1.11.0/fabtests/ubertest/config.c:856:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(info->node, set->node, sizeof(info->node) - 1);
data/libfabric-1.11.0/fabtests/ubertest/config.c:858:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(info->node, opts.dst_addr, sizeof(info->node) - 1);
data/libfabric-1.11.0/fabtests/ubertest/config.c:860:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(info->service, set->service, sizeof(info->service) - 1);
data/libfabric-1.11.0/fabtests/ubertest/config.c:862:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(info->service, opts.dst_port, sizeof(info->service) - 1);
data/libfabric-1.11.0/fabtests/ubertest/config.c:863:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(info->prov_name, set->prov_name, sizeof(info->prov_name) - 1);
data/libfabric-1.11.0/fabtests/ubertest/uber.c:282:4:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
			strncpy(test_info->prov_name, info->fabric_attr->prov_name,
data/libfabric-1.11.0/fabtests/ubertest/uber.c:286:4:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
			strncpy(test_info->fabric_name, info->fabric_attr->name,
data/libfabric-1.11.0/fabtests/unit/mr_cache_evict.c:110:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	read_size = read(fd, &entry, sizeof(entry));
data/libfabric-1.11.0/include/ofi_util.h:947:44:  [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).
	return !strncasecmp(str, OFI_UTIL_PREFIX, strlen(OFI_UTIL_PREFIX));
data/libfabric-1.11.0/include/rdma/fi_eq.h:170:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	ssize_t	(*read)(struct fid_eq *eq, uint32_t *event,
data/libfabric-1.11.0/include/rdma/fi_eq.h:261:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	ssize_t	(*read)(struct fid_cq *cq, void *buf, size_t count);
data/libfabric-1.11.0/include/rdma/fi_eq.h:299:13:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	uint64_t (*read)(struct fid_cntr *cntr);
data/libfabric-1.11.0/include/rdma/fi_eq.h:361:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return eq->ops->read(eq, event, buf, len, flags);
data/libfabric-1.11.0/include/rdma/fi_eq.h:394:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return cq->ops->read(cq, buf, count);
data/libfabric-1.11.0/include/rdma/fi_eq.h:437:20:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return cntr->ops->read(cntr);
data/libfabric-1.11.0/include/rdma/fi_rma.h:68:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	ssize_t	(*read)(struct fid_ep *ep, void *buf, size_t len, void *desc,
data/libfabric-1.11.0/include/rdma/fi_rma.h:101:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return ep->rma->read(ep, buf, len, desc, src_addr, addr, key, context);
data/libfabric-1.11.0/include/unix/osd.h:124:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return read(fd, buf, count);
data/libfabric-1.11.0/include/uthash.h:95:26:  [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).
#define uthash_strlen(s) strlen(s)
data/libfabric-1.11.0/include/windows/unistd.h:37:20:  [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.
static inline void usleep(DWORD waitTime)
data/libfabric-1.11.0/prov/bgq/include/rdma/bgq/fi_bgq_flight_recorder.h:117:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(next->str, str, FLIGHT_RECORDER_ENTRY_STRLEN);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_endpoint.h:140:4:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	} read __attribute((aligned(L2_CACHE_LINE_SIZE)));
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_eq.h:561:20:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return cntr->ops->read(cntr);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:89:43:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	MUHWI_Descriptor_t * model = &bgq_ep->tx.read.emulation.mfifo_model;
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:125:29:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			(const void*)&bgq_ep->tx.read.emulation.dput_model);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:151:29:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			(const void*)&bgq_ep->tx.read.cntr_model);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:193:30:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				(const void*)&bgq_ep->tx.read.cq_model);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:266:29:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			(const void*)&bgq_ep->tx.read.cq_model);
data/libfabric-1.11.0/prov/bgq/include/rdma/fi_direct_rma.h:990:36:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	(FI_BGQ_RMA_SPECIALIZED_FUNC_NAME(read,				\
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_agent.c:41:12:  [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.
	while (1) usleep(1000);
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:694:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		bgq_ep->tx.read.global_one_paddr =
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:698:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		bgq_ep->tx.read.global_zero_paddr =
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:706:22:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc = &bgq_ep->tx.read.emulation.mfifo_model;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:738:22:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc = &bgq_ep->tx.read.emulation.dput_model;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:774:22:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc = &bgq_ep->tx.read.cntr_model;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:795:33:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc->Pa_Payload = bgq_ep->tx.read.global_one_paddr;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:804:22:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc = &bgq_ep->tx.read.cq_model;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:825:33:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc->Pa_Payload = bgq_ep->tx.read.global_zero_paddr;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:926:33:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc->Pa_Payload = bgq_ep->tx.read.global_one_paddr;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:959:33:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc->Pa_Payload = bgq_ep->tx.read.global_zero_paddr;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_ep.c:1093:33:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		desc->Pa_Payload = bgq_ep->tx.read.global_one_paddr;
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_node.c:288:4:  [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(1);
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_pmi.c:358:3:  [1] (buffer) strcat:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120). Consider using strcat_s, strncat, strlcat, or
  snprintf (warning: strncat is easily misused). Risk is low because the
  source is a constant character.
		strcat(value,")");
data/libfabric-1.11.0/prov/bgq/src/fi_bgq_rma.c:46:43:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	.read	= FI_BGQ_RMA_SPECIALIZED_FUNC_NAME(read, LOCK),	\
data/libfabric-1.11.0/prov/bgq/src/test/l2barrier_func.c:61:2:  [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(5000);
data/libfabric-1.11.0/prov/bgq/src/test/l2barrier_func.c:72:19:  [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.
	if (tcoord == 0) usleep(1);
data/libfabric-1.11.0/prov/bgq/src/test/l2lock_func.c:66:2:  [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(5000);
data/libfabric-1.11.0/prov/efa/src/efa_domain.c:104:14:  [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(name) - strlen(efa_rdm_domain.suffix);
data/libfabric-1.11.0/prov/efa/src/efa_domain.c:104:29:  [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(name) - strlen(efa_rdm_domain.suffix);
data/libfabric-1.11.0/prov/efa/src/efa_domain.c:106:14:  [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(name) - strlen(efa_dgrm_domain.suffix);
data/libfabric-1.11.0/prov/efa/src/efa_domain.c:106:29:  [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(name) - strlen(efa_dgrm_domain.suffix);
data/libfabric-1.11.0/prov/efa/src/efa_ep.c:586:7:  [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(domain->ctx->ibv_ctx->device->name))) {
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:265:9:  [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(sysfs_path);
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:418:13:  [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).
	name_len = strlen(EFA_FABRIC_PREFIX) + INET6_ADDRSTRLEN;
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:616:20:  [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).
	size_t name_len = strlen(EFA_FABRIC_PREFIX) + INET6_ADDRSTRLEN;
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:699:13:  [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).
	name_len = strlen(EFA_FABRIC_PREFIX) + INET6_ADDRSTRLEN;
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:708:13:  [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).
	name_len = strlen(ctx->ibv_ctx->device->name) + strlen(ep_dom->suffix);
data/libfabric-1.11.0/prov/efa/src/efa_fabric.c:708:50:  [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(ctx->ibv_ctx->device->name) + strlen(ep_dom->suffix);
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:567:15:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	bytes_read = read(ep->conn_fd, &resp, sizeof(resp));
data/libfabric-1.11.0/prov/gni/src/gnix_cm.c:965:22:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	conn->bytes_read += read(fd, &conn->req, sizeof(conn->req));
data/libfabric-1.11.0/prov/gni/src/gnix_dom.c:309:5:  [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(__gnix_mr_type_to_str[i])) == 0)
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:561:8:  [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(gnix_fab_name))) {
data/libfabric-1.11.0/prov/gni/src/gnix_fabric.c:572:9:  [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).
				    strlen(gnix_dom_name))) {
data/libfabric-1.11.0/prov/gni/src/gnix_mr_notifier.c:258:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		ret = read(mrn->fd, buf, len);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:178:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	rc = read(fd, &info, sizeof(ccm_alps_info_t));
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:488:20:  [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).
	int val_str_len = strlen(val_str);
data/libfabric-1.11.0/prov/gni/src/gnix_util.c:516:20:  [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).
	int val_str_len = strlen(val_str);
data/libfabric-1.11.0/prov/gni/src/gnix_wait.c:165:3:  [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(gnix_wait_thread_sleep_time);
data/libfabric-1.11.0/prov/gni/test/cm.c:210:36:  [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).
	cr_assert(rd == (sizeof(*entry) + strlen(cli_cm_in_data)));
data/libfabric-1.11.0/prov/gni/test/cm.c:215:6:  [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).
			  strlen(cli_cm_in_data)));
data/libfabric-1.11.0/prov/gni/test/cm.c:244:42:  [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).
	ret = fi_accept(srv_ep, srv_cm_in_data, strlen(srv_cm_in_data));
data/libfabric-1.11.0/prov/gni/test/cm.c:319:5:  [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(cli_cm_in_data));
data/libfabric-1.11.0/prov/gni/test/cm.c:338:37:  [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).
		cr_assert(rd == (sizeof(*entry) + strlen(srv_cm_in_data)));
data/libfabric-1.11.0/prov/gni/test/cm.c:341:7:  [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(srv_cm_in_data)));
data/libfabric-1.11.0/prov/gni/test/cntr.c:590:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(cntr_basic, read)
data/libfabric-1.11.0/prov/gni/test/cntr.c:595:21:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(cntr_scalable, read)
data/libfabric-1.11.0/prov/gni/test/cntr.c:634:10:  [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).
			      strlen(s_buffer),
data/libfabric-1.11.0/prov/gni/test/dom.c:235:7:  [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(other_reg_type)),  0, "Incorrect op value");
data/libfabric-1.11.0/prov/gni/test/eq.c:206:38:  [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).
			cr_assert(err_buf.err_data_size = strlen(err_data_buf),
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:203:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:204:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:210:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:211:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:215:22:  [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).
		sprintf(rand_str + strlen(rand_str), "%04i",
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:217:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:223:22:  [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).
		sprintf(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:224:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:225:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:231:22:  [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).
		sprintf(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:232:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:233:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:239:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:240:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:246:22:  [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).
		sprintf(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:247:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:248:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:254:22:  [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).
		sprintf(rand_str + strlen(rand_str), "0x");
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:255:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:256:12:  [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).
		rand_str[strlen(rand_str)] = ';';
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:262:21:  [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).
		memset(rand_str + strlen(rand_str), byte, nbytes);
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:794:6:  [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).
		   strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:802:6:  [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).
		   strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:808:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:816:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:824:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:831:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:838:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:846:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:853:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:861:25:  [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).
			   COLOR_RESET, buf, strlen(buf));
data/libfabric-1.11.0/prov/gni/test/fi_addr_str.c:1083:8:  [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(addr));
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:2105:21:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(rdm_rma_basic, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:2116:23:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_basic, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:2121:28:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_1dom_basic, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:2128:24:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(rdm_rma_scalable, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:2139:26:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_scalable, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_rma.c:2144:31:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_1dom_scalable, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:1785:25:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(rdm_rma_stx_basic, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:1796:27:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_stx_basic, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:1801:32:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_1dom_stx_basic, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:1808:28:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(rdm_rma_stx_scalable, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:1819:30:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_stx_scalable, read)
data/libfabric-1.11.0/prov/gni/test/rdm_dgram_stx.c:1824:35:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
Test(dgram_rma_1dom_stx_scalable, read)
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:780:34:  [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).
			ret = fi_tsend(ep[1], msg[i], strlen(msg[i]),
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:809:25:  [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).
			cr_assert(cqe.len == strlen(msg[ridx]));
data/libfabric-1.11.0/prov/gni/test/rdm_tagged_sr.c:859:35:  [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).
				ret = fi_tsend(ep[1], msg[i], strlen(msg[i]),
data/libfabric-1.11.0/prov/netdir/src/netdir_cq.c:492:10:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		return strncpy(buf, fi_strerror(-prov_errno), len);
data/libfabric-1.11.0/prov/netdir/src/netdir_eq.c:372:10:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		return strncpy(buf, fi_strerror(-prov_errno), len);
data/libfabric-1.11.0/prov/netdir/src/netdir_log.h:109:39:  [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).
	rc = strncat_s(errmsg, max_msg_len - strlen(errmsg),
data/libfabric-1.11.0/prov/psm/src/psmx.h:187:5:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		} read;
data/libfabric-1.11.0/prov/psm/src/psmx.h:418:5:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		} read;
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:91:23:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		_psmx_read(trigger->read.ep,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:92:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.buf,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:93:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.len,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:94:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.desc,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:95:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.src_addr,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:96:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.addr,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:97:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.key,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:98:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.context,
data/libfabric-1.11.0/prov/psm/src/psmx_cntr.c:99:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			   trigger->read.flags);
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:241:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.addr = (uint64_t)rma_addr;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:242:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.len = rma_len;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:243:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.key = key;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:244:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.context = (void *)args[4].u64;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:245:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.peer_addr = (void *)epaddr;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:291:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			memcpy(req->read.buf + offset, src, len);
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:292:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.len_read += len;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:298:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.context,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:299:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.buf,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:301:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.len_read,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:304:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.len - req->read.len_read,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:304:28:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.len - req->read.len_read,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:465:57:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		err = psm_mq_isend(domain->psm_mq, (psm_epaddr_t)req->read.peer_addr,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:466:23:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				0, (uint64_t)req->read.context,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:467:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				(void *)req->read.addr, req->read.len,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:467:34:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				(void *)req->read.addr, req->read.len,
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:503:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.ep = ep;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:504:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.buf = buf;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:505:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.len = len;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:506:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.desc = desc;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:507:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.src_addr = src_addr;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:508:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.addr = addr;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:509:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.key = key;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:510:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.context = context;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:511:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		trigger->read.flags = flags & ~FI_TRIGGER;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:542:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.buf = buf;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:543:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.len = len;
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:544:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.addr = addr;	/* needed? */
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:545:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.key = key; 	/* needed? */
data/libfabric-1.11.0/prov/psm/src/psmx_rma.c:546:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.context = context;
data/libfabric-1.11.0/prov/psm2/include/rdma/fi_direct_eq.h:120:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return eq->ops->read(eq, event, buf, len, flags);
data/libfabric-1.11.0/prov/psm2/src/psmx2.h:389:5:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		} read;
data/libfabric-1.11.0/prov/psm2/src/psmx2_attr.c:185:63:  [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).
	    strncasecmp(hints->domain_attr->name, domain_attr->name, strlen(PSMX2_DOMAIN_NAME))) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:563:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			am_req->read.len_read += PSMX2_STATUS_RCVLEN(req);
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:564:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:564:40:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:592:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			am_req->read.len_read += PSMX2_STATUS_RCVLEN(req);
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:593:16:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:593:40:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1284:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
					am_req->read.len_read += PSMX2_STATUS_RCVLEN(status);
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1285:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
					if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1285:42:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
					if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1316:14:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
					am_req->read.len_read += PSMX2_STATUS_RCVLEN(status);
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1317:18:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
					if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_cq.c:1317:42:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
					if (am_req->read.len_read < am_req->read.len) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_domain.c:313:58:  [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).
	    strncmp(info->domain_attr->name, PSMX2_DOMAIN_NAME, strlen(PSMX2_DOMAIN_NAME))) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_init.c:392:4:  [1] (buffer) strcat:
  Does not check for buffer overflows when concatenating to destination
  [MS-banned] (CWE-120). Consider using strcat_s, strncat, strlcat, or
  snprintf (warning: strncat is easily misused). Risk is low because the
  source is a constant character.
			strcat(psmx2_hfi_info.default_domain_name, ";");
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:306:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.addr = (uint64_t)rma_addr;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:307:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.len = rma_len;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:308:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.key = key;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:309:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.context = (void *)args[1].u64;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:310:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.peer_addr = (void *)epaddr;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:314:43:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			PSMX2_SET_TAG(psm2_tag, (uint64_t)req->read.context, 0,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:317:27:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				  (psm2_epaddr_t)req->read.peer_addr,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:319:19:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				 (void *)req->read.addr, req->read.len,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:319:35:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				 (void *)req->read.addr, req->read.len,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:379:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				memcpy(req->read.buf + offset, src, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:381:35:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				psmx2_iov_copy(req->iov, req->read.iov_count, offset, src, len);
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:383:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			req->read.len_read += len;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:385:19:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		if (eom || req->read.len == req->read.len_read) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:385:36:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		if (eom || req->read.len == req->read.len_read) {
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:392:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.context,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:393:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.buf,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:395:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.len_read,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:398:12:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.len - req->read.len_read,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:398:28:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
						req->read.len - req->read.len_read,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:615:42:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		PSMX2_SET_TAG(psm2_tag, (uint64_t)req->read.context, 0,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:618:30:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				     (psm2_epaddr_t)req->read.peer_addr,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:620:23:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				     (void *)req->read.addr, req->read.len,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:620:39:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				     (void *)req->read.addr, req->read.len,
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:670:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.buf = buf;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:671:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.len = len;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:672:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.addr = addr;	/* needed? */
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:673:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.key = key; 	/* needed? */
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:674:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.context = context;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:808:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.iov_count = count;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:809:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.len = total_len;
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:810:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.addr = addr;	/* needed? */
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:811:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.key = key; 	/* needed? */
data/libfabric-1.11.0/prov/psm2/src/psmx2_rma.c:812:7:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	req->read.context = context;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:160:5:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		} read;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:468:31:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		psmx2_read_generic(trigger->read.ep,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:469:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.buf,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:470:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.len,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:471:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.desc,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:472:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.src_addr,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:473:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.addr,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:474:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.key,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:475:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.context,
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:476:17:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
				   trigger->read.flags);
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:750:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.ep = ep;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:751:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.buf = buf;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:752:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.len = len;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:753:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.desc = desc;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:754:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.src_addr = src_addr;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:755:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.addr = addr;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:756:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.key = key;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:757:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.context = context;
data/libfabric-1.11.0/prov/psm2/src/psmx2_trigger.h:758:11:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	trigger->read.flags = flags & ~FI_TRIGGER;
data/libfabric-1.11.0/prov/rxm/src/rxm_ep.c:2370:5:  [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("tcp"))) {
data/libfabric-1.11.0/prov/shm/src/smr_av.c:73:53:  [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).
	for (i = 0; i < count; i++, addr = (char *) addr + strlen(addr) + 1) {
data/libfabric-1.11.0/prov/shm/src/smr_av.c:168:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy((char *)addr, smr_name(peer_smr), *addrlen);
data/libfabric-1.11.0/prov/shm/src/smr_av.c:169:36:  [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).
	((char *) addr)[MIN(*addrlen - 1, strlen(smr_name(peer_smr)))] = '\0';
data/libfabric-1.11.0/prov/shm/src/smr_av.c:170:13:  [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).
	*addrlen = strlen(smr_name(peer_smr) + 1);
data/libfabric-1.11.0/prov/shm/src/smr_av.c:179:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(buf, (const char *)addr, *len);
data/libfabric-1.11.0/prov/shm/src/smr_av.c:181:9:  [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((const char *)addr) + 1;
data/libfabric-1.11.0/prov/shm/src/smr_ep.c:75:13:  [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).
	*addrlen = strlen(ep->name) + 1;
data/libfabric-1.11.0/prov/shm/src/smr_init.c:74:13:  [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).
	*addrlen = strlen(*addr) + 1;
data/libfabric-1.11.0/prov/sockets/src/sock_av.c:373:12:  [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).
	hostlen = strlen(node);
data/libfabric-1.11.0/prov/sockets/src/sock_cq.c:474:10:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		return strncpy(buf, fi_strerror(-prov_errno), len);
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1351:22:  [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).
			snprintf(netbuf + strlen(netbuf), sizeof(netbuf) - strlen(netbuf),
data/libfabric-1.11.0/prov/sockets/src/sock_ep.c:1351:55:  [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).
			snprintf(netbuf + strlen(netbuf), sizeof(netbuf) - strlen(netbuf),
data/libfabric-1.11.0/prov/sockets/src/sock_eq.c:272:10:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		return strncpy(buf, fi_strerror(-prov_errno), len);
data/libfabric-1.11.0/prov/usnic/src/usdf_cq.c:557:3:  [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(sleep_time_us);
data/libfabric-1.11.0/prov/usnic/src/usdf_cq.c:722:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(buf, fi_strerror(prov_errno), len);
data/libfabric-1.11.0/prov/usnic/src/usdf_cq.c:1125:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		ret = read(cq->object.fd, &ev, sizeof(ev));
data/libfabric-1.11.0/prov/usnic/src/usdf_eq.c:123:13:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			nbytes = read(eq->eq_fd, &val, sizeof(val));
data/libfabric-1.11.0/prov/usnic/src/usdf_ext.c:97:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(uip->ui.v2.ui_devname, dap->uda_devname, len - 1);
data/libfabric-1.11.0/prov/usnic/src/usdf_ext.c:101:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(uip->ui.v2.ui_ifname, dap->uda_ifname, len - 1);
data/libfabric-1.11.0/prov/usnic/src/usdf_ext.c:119:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(uip->ui.v2.ui_firmware, dap->uda_firmware, len - 1);
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:159:7:  [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((char *)hints->src_addr) > USDF_ADDR_STR_LEN)
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:163:7:  [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((char *)hints->dest_addr) > USDF_ADDR_STR_LEN)
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:271:21:  [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).
		fi->src_addrlen = strlen(address_string);
data/libfabric-1.11.0/prov/usnic/src/usdf_fabric.c:278:22:  [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).
		fi->dest_addrlen = strlen(address_string);
data/libfabric-1.11.0/prov/usnic/src/usdf_pep.c:171:6:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	n = read(crp->cr_sockfd, crp->cr_ptr, crp->cr_resid);
data/libfabric-1.11.0/prov/usnic/src/usdf_progress.c:80:6:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	n = read(fp->fab_eventfd, &val, sizeof(val));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/kcompat.h:69:16:  [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.
#define udelay usleep
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl_utils_common.c:158:4:  [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);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl_utils_common.c:438:4:  [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);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/libnl_utils_common.c:446:13:  [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(5);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_device.c:122:9:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
        strncpy(entries[n].ude_devname, idp->id_usnic_name,
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_device.c:404:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(dap->uda_devname, dev_name, sizeof(dap->uda_devname) - 1);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_event.c:64:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    n = read(dev->ud_attrs.uda_event_fd, &ib_event, sizeof(ib_event));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:130:13:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
        n = read(fd, ibdev_buf, sizeof(ibdev_buf) - 1);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:150:13:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
            strncpy(idp->id_name, dent->d_name, sizeof(idp->id_name) - 1);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:151:13:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
            strncpy(idp->id_usnic_name, ibdev_buf,
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:213:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    n = read(fd, gid, sizeof(gid) - 1);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:261:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    n = read(fd, dev->ud_attrs.uda_ifname,
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:298:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    n = read(fd, buf, sizeof(buf));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_ib_sysfs.c:374:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
    n = read(fd, fw, sizeof(dev->ud_attrs.uda_firmware));
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usd_socket.c:83:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
    strncpy(ifr.ifr_name, dp->uda_ifname, IFNAMSIZ - 1);
data/libfabric-1.11.0/prov/usnic/src/usnic_direct/usnic_ip_utils.c:68:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(req.arp_dev, ifname, sizeof(req.arp_dev) - 1);
data/libfabric-1.11.0/prov/util/src/util_attr.c:87:8:  [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).
	len = strlen(head) + strlen(tail) + 2;
data/libfabric-1.11.0/prov/util/src/util_attr.c:87:23:  [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).
	len = strlen(head) + strlen(tail) + 2;
data/libfabric-1.11.0/prov/util/src/util_attr.c:98:19:  [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).
	exclude = malloc(strlen(util_prov_name) + 2);
data/libfabric-1.11.0/prov/util/src/util_attr.c:114:6:  [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(name)) {
data/libfabric-1.11.0/prov/util/src/util_av.c:150:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(buf, "127.0.0.1", buflen);
data/libfabric-1.11.0/prov/util/src/util_av.c:207:13:  [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).
	*addrlen = strlen(node) + 1;
data/libfabric-1.11.0/prov/util/src/util_av.c:759:18:  [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).
	for (name_len = strlen(node); isdigit(node[name_len - 1]); )
data/libfabric-1.11.0/prov/util/src/util_av.c:768:4:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
			strncpy(name, node, sizeof(name) - 1);
data/libfabric-1.11.0/prov/util/src/util_av.c:777:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
				strncpy(svc, service, sizeof(svc) - 1);
data/libfabric-1.11.0/prov/util/src/util_av.c:810:6:  [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(node) >= FI_NAME_MAX || strlen(service) >= FI_NAME_MAX) {
data/libfabric-1.11.0/prov/util/src/util_av.c:810:37:  [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(node) >= FI_NAME_MAX || strlen(service) >= FI_NAME_MAX) {
data/libfabric-1.11.0/prov/util/src/util_eq.c:193:24:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	return (buf && len) ? strncpy(buf, fi_strerror(prov_errno), len) :
data/libfabric-1.11.0/prov/util/src/util_mem_monitor.c:317:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		ret = read(uffd.fd, &msg, sizeof(msg));
data/libfabric-1.11.0/prov/util/src/util_shm.c:165:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(ep_name->name, (char *)attr->name, SMR_NAME_MAX - 1);
data/libfabric-1.11.0/prov/util/src/util_shm.c:222:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy((char *) smr_name(*smr), attr->name, total_size - name_offset);
data/libfabric-1.11.0/prov/util/src/util_shm.c:326:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(smr_peer_data(region)[index].addr.name,
data/libfabric-1.11.0/prov/util/src/util_shm.c:381:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(map->peers[id].peer.name, name, SMR_NAME_MAX);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:352:24:  [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 param_str_sz = strlen(param_str);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:353:32:  [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 begin_def_section_sz = strlen(begin_def_section);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:354:30:  [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).
	size_t end_def_section_sz = strlen(end_def_section);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:361:10:  [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).
					MIN(strlen(*(char **)param_default),
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:363:5:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
				strncpy(param_default_str, *(char **)param_default,
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:371:23:  [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).
			param_default_sz = strlen(param_default_str);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:375:23:  [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).
			param_default_sz = strlen(param_default_str);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:384:23:  [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).
	len = param_str_sz + strlen(begin_def_section) +
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:393:2:  [1] (buffer) strncat:
  Easily used incorrectly (e.g., incorrectly computing the correct maximum
  size to add) [MS-banned] (CWE-120). Consider strcat_s, strlcat, snprintf,
  or automatically resizing strings.
	strncat(param_help, param_str, param_str_sz + 1);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:394:2:  [1] (buffer) strncat:
  Easily used incorrectly (e.g., incorrectly computing the correct maximum
  size to add) [MS-banned] (CWE-120). Consider strcat_s, strlcat, snprintf,
  or automatically resizing strings.
	strncat(param_help, begin_def_section, begin_def_section_sz + 1);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:395:2:  [1] (buffer) strncat:
  Easily used incorrectly (e.g., incorrectly computing the correct maximum
  size to add) [MS-banned] (CWE-120). Consider strcat_s, strlcat, snprintf,
  or automatically resizing strings.
	strncat(param_help, param_default_str, param_default_sz + 1);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:396:2:  [1] (buffer) strncat:
  Easily used incorrectly (e.g., incorrectly computing the correct maximum
  size to add) [MS-banned] (CWE-120). Consider strcat_s, strlcat, snprintf,
  or automatically resizing strings.
	strncat(param_help, end_def_section, end_def_section_sz + 1);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.c:478:9:  [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).
			     strlen(verbs_dev_presets[i].dev_name_prefix)))
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.h:803:22:  [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 domain_len = strlen(domain_name);
data/libfabric-1.11.0/prov/verbs/src/fi_verbs.h:804:22:  [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 suffix_len = strlen(verbs_msg_xrc_domain.suffix);
data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c:177:10:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
			ret = read(fds[1].fd, &data, 1);
data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c:215:34:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
		ret = _cq->util_cq.cq_fid.ops->read(&_cq->util_cq.cq_fid, p, count - cur);
data/libfabric-1.11.0/prov/verbs/src/verbs_cq.c:368:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(buf, ibv_wc_status_str(prov_errno), len);
data/libfabric-1.11.0/prov/verbs/src/verbs_domain.c:223:11:  [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(name) - strlen(verbs_dgram_domain.suffix));
data/libfabric-1.11.0/prov/verbs/src/verbs_domain.c:223:26:  [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).
				      strlen(name) - strlen(verbs_dgram_domain.suffix));
data/libfabric-1.11.0/prov/verbs/src/verbs_ep.c:983:7:  [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(dom->verbs->device->name))) {
data/libfabric-1.11.0/prov/verbs/src/verbs_eq.c:1232:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(buf, strerror(prov_errno), len);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:803:14:  [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(VERBS_IB_PREFIX) + INET6_ADDRSTRLEN;
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:847:13:  [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).
	name_len = strlen(dev_name) + strlen(ep_dom->suffix);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:847:32:  [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(dev_name) + strlen(ep_dom->suffix);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:946:8:  [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(IPV6_LINK_LOCAL_ADDR_PREFIX_STR))) {
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:947:3:  [1] (buffer) strncat:
  Easily used incorrectly (e.g., incorrectly computing the correct maximum
  size to add) [MS-banned] (CWE-120). Consider strcat_s, strlcat, snprintf,
  or automatically resizing strings. Risk is low because the source is a
  constant character.
		strncat(name, "%", sizeof(name) - strlen(name) - 1);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:947:37:  [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).
		strncat(name, "%", sizeof(name) - strlen(name) - 1);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:948:3:  [1] (buffer) strncat:
  Easily used incorrectly (e.g., incorrectly computing the correct maximum
  size to add) [MS-banned] (CWE-120). Consider strcat_s, strlcat, snprintf,
  or automatically resizing strings.
		strncat(name, ifa->ifa_name, sizeof(name) - strlen(name) - 1);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:948:47:  [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).
		strncat(name, ifa->ifa_name, sizeof(name) - strlen(name) - 1);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1116:15:  [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).
		iface_len = strlen(iface);
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1211:10:  [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).
				     strlen(dev->name))) {
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1374:6:  [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).
					strlen(vrb_gl_data.device_name)))
data/libfabric-1.11.0/prov/verbs/src/verbs_info.c:1543:6:  [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).
					strlen(dev_name))) {
data/libfabric-1.11.0/src/common.c:506:8:  [1] (buffer) sscanf:
  It's unclear if the %s limit in the format string is small enough
  (CWE-120). Check that the limit is sufficiently small, or use a different
  input function.
	ret = sscanf(str, "%*[^:]://[%64[^]]]" /* GID */
data/libfabric-1.11.0/src/common.c:1224:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(addr_entry->ipstr, "127.0.0.1", sizeof(addr_entry->ipstr));
data/libfabric-1.11.0/src/common.c:1225:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(addr_entry->net_name, "127.0.0.1/32", sizeof(addr_entry->net_name));
data/libfabric-1.11.0/src/common.c:1226:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(addr_entry->ifa_name, "lo", sizeof(addr_entry->ifa_name));
data/libfabric-1.11.0/src/common.c:1238:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(addr_entry->ipstr, "::1", sizeof(addr_entry->ipstr));
data/libfabric-1.11.0/src/common.c:1239:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(addr_entry->net_name, "::1/128", sizeof(addr_entry->net_name));
data/libfabric-1.11.0/src/common.c:1240:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120). Risk is low because the source is a
  constant string.
	strncpy(addr_entry->ifa_name, "lo", sizeof(addr_entry->ifa_name));
data/libfabric-1.11.0/src/common.c:1260:4:  [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(1000 << retries);
data/libfabric-1.11.0/src/common.c:1307:20:  [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).
	snprintf(netstr + strlen(netstr), len - strlen(netstr),
data/libfabric-1.11.0/src/common.c:1307:42:  [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).
	snprintf(netstr + strlen(netstr), len - strlen(netstr),
data/libfabric-1.11.0/src/common.c:1329:6:  [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).
					strlen(iface)) == 0) {
data/libfabric-1.11.0/src/common.c:1347:46:  [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 (iface && strncmp(iface, ifa->ifa_name, strlen(iface)) != 0) {
data/libfabric-1.11.0/src/common.c:1359:3:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
		strncpy(addr_entry->ifa_name, ifa->ifa_name,
data/libfabric-1.11.0/src/common.c:1462:14:  [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).
	size_t sz = strlen(buffer);
data/libfabric-1.11.0/src/fabric.c:87:8:  [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).
	len = strlen(name);
data/libfabric-1.11.0/src/fabric.c:101:9:  [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(names[i]);
data/libfabric-1.11.0/src/fabric.c:121:7:  [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(prov->prov_name) != strlen(name_to_match)
data/libfabric-1.11.0/src/fabric.c:121:34:  [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(prov->prov_name) != strlen(name_to_match)
data/libfabric-1.11.0/src/fabric.c:123:9:  [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).
				    strlen(name_to_match))) {
data/libfabric-1.11.0/src/fabric.c:124:8:  [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).
			if (strlen(name_to_match) > 5)
data/libfabric-1.11.0/src/fabric.c:266:8:  [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).
		if ((strlen(prov->prov_name) == len) &&
data/libfabric-1.11.0/src/fabric.c:281:27:  [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).
	prov = ofi_getprov(name, strlen(name));
data/libfabric-1.11.0/src/fabric.c:440:37:  [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).
	prov = ofi_getprov(provider->name, strlen(provider->name));
data/libfabric-1.11.0/src/fabric.c:488:13:  [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).
	size_t l = strlen(entry->d_name);
data/libfabric-1.11.0/src/fabric.c:511:36:  [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).
			if(!ofi_getprov(split_names[j], strlen(split_names[j]))) {
data/libfabric-1.11.0/src/fabric.c:620:40:  [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).
			short_prov_name = prov->prov_name + strlen(OFI_UTIL_PREFIX);
data/libfabric-1.11.0/src/fabric.c:1193:31:  [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).
	prov = ofi_getprov(top_name, strlen(top_name));
data/libfabric-1.11.0/src/fi_tostr.c:298:12:  [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).
	p = buf + strlen(buf);
data/libfabric-1.11.0/src/linux/osd.c:123:2:  [1] (buffer) strncpy:
  Easily used incorrectly; doesn't always \0-terminate or check for invalid
  pointers [MS-banned] (CWE-120).
	strncpy(ifr.ifr_name, ifa->ifa_name, IF_NAMESIZE);
data/libfabric-1.11.0/src/linux/osd.c:149:24:  [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 filename_len = strlen(speed_filename_prefix) +
data/libfabric-1.11.0/src/linux/osd.c:150:10:  [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).
			      strlen(speed_filename_prefix) +
data/libfabric-1.11.0/src/shared/ofi_str.c:71:19:  [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).
	uneedle = malloc(strlen(needle) + 1);
data/libfabric-1.11.0/src/shared/ofi_str.c:72:21:  [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).
	uhaystack = malloc(strlen(haystack) + 1);
data/libfabric-1.11.0/src/shared/ofi_str.c:76:18:  [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).
	for (i = 0; i < strlen(needle); i++)
data/libfabric-1.11.0/src/shared/ofi_str.c:80:18:  [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).
	for (i = 0; i < strlen(haystack); i++)
data/libfabric-1.11.0/src/shared/ofi_str.c:106:15:  [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).
	src = dest + strlen(substr);
data/libfabric-1.11.0/src/shared/ofi_str.c:107:21:  [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).
	memmove(dest, src, strlen(src) + 1);
data/libfabric-1.11.0/src/shared/ofi_str.c:114:15:  [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).
	size_t len = strlen(substr) + 2; // account for delim and null char
data/libfabric-1.11.0/src/unix/osd.c:119:20:  [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).
	fname = calloc(1, strlen(name) + 2); /* '/' + %s + trailing 0 */
data/libfabric-1.11.0/src/unix/osd.c:123:2:  [1] (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 character.
	strcpy(fname, "/");
data/libfabric-1.11.0/src/unix/osd.c:127:18:  [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).
	for (i = 0; i < strlen(fname); i++) {
data/libfabric-1.11.0/src/unix/osd.c:219:8:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	len = read(fd, buf, size);
data/libfabric-1.11.0/src/windows/osd.c:156:8:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	DWORD read;
data/libfabric-1.11.0/src/windows/osd.c:179:39:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	if (!ReadFile(fd, buf, (DWORD)size, &read, 0))
data/libfabric-1.11.0/src/windows/osd.c:182:13:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	len = (int)read;
data/libfabric-1.11.0/src/windows/osd.c:348:9:  [1] (buffer) read:
  Check buffer boundaries if used in a loop including recursive loops
  (CWE-120, CWE-20).
	return read;
data/libfabric-1.11.0/util/pingpong.c:673:20:  [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).
				 ct->ctrl_buf, strlen(ct->ctrl_buf));
data/libfabric-1.11.0/util/pingpong.c:686:20:  [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).
				 ct->ctrl_buf, strlen(ct->ctrl_buf));
data/libfabric-1.11.0/util/pingpong.c:723:19:  [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).
			 ct->ctrl_buf, strlen(ct->ctrl_buf));
data/libfabric-1.11.0/util/pingpong.c:748:20:  [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).
				 ct->ctrl_buf, strlen(ct->ctrl_buf));
data/libfabric-1.11.0/util/pingpong.c:769:22:  [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).
			 ct->cnt_ack_msg, strlen(ct->ctrl_buf));
data/libfabric-1.11.0/util/pingpong.c:1868:30:  [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).
	const size_t fin_buf_size = strlen(fin_buf) + 1;
data/libfabric-1.11.0/util/pingpong.c:1992:42:  [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 (!strncasecmp("msg", optarg, 3) && (strlen(optarg) == 3)) {
data/libfabric-1.11.0/util/pingpong.c:1995:8:  [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(optarg) == 3)) {
data/libfabric-1.11.0/util/pingpong.c:1998:8:  [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(optarg) == 5)) {
data/libfabric-1.11.0/util/pingpong.c:2016:42:  [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 (!strncasecmp("all", optarg, 3) && (strlen(optarg) == 3)) {
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:61:15:  [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).
	size_t len = strlen(optstring);
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:99:21:  [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).
	assert(len <= (int)strlen(str));
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:101:13:  [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).
	int olen = strlen(opt);
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:186:16:  [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 olen = strlen(optstring);
data/libfabric-1.11.0/util/windows/getopt/getopt.cpp:187:16:  [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 slen = strlen(str);

ANALYSIS SUMMARY:

Hits = 1872
Lines analyzed = 321033 in approximately 7.45 seconds (43088 lines/second)
Physical Source Lines of Code (SLOC) = 230014
Hits@level = [0] 959 [1] 472 [2] 921 [3] 147 [4] 331 [5]   1
Hits@level+ = [0+] 2831 [1+] 1872 [2+] 1400 [3+] 479 [4+] 332 [5+]   1
Hits/KSLOC@level+ = [0+] 12.3079 [1+] 8.13864 [2+] 6.08659 [3+] 2.08248 [4+] 1.44339 [5+] 0.00434756
Dot directories skipped = 1 (--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.