// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #include "coredump_test.h" #define NUM_CRASHING_COREDUMPS 5 FIXTURE_SETUP(coredump) { FILE *file; int ret; self->pid_coredump_server = -ESRCH; self->fd_tmpfs_detached = -1; file = fopen("/proc/sys/kernel/core_pattern", "r"); ASSERT_NE(NULL, file); ret = fread(self->original_core_pattern, 1, sizeof(self->original_core_pattern), file); ASSERT_TRUE(ret || feof(file)); ASSERT_LT(ret, sizeof(self->original_core_pattern)); self->original_core_pattern[ret] = '\0'; self->fd_tmpfs_detached = create_detached_tmpfs(); ASSERT_GE(self->fd_tmpfs_detached, 0); ret = fclose(file); ASSERT_EQ(0, ret); } FIXTURE_TEARDOWN(coredump) { const char *reason; FILE *file; int ret, status; if (self->pid_coredump_server > 0) { kill(self->pid_coredump_server, SIGTERM); waitpid(self->pid_coredump_server, &status, 0); } unlink("/tmp/coredump.file"); unlink("/tmp/coredump.socket"); file = fopen("/proc/sys/kernel/core_pattern", "w"); if (!file) { reason = "Unable to open core_pattern"; goto fail; } ret = fprintf(file, "%s", self->original_core_pattern); if (ret < 0) { reason = "Unable to write to core_pattern"; goto fail; } ret = fclose(file); if (ret) { reason = "Unable to close core_pattern"; goto fail; } if (self->fd_tmpfs_detached >= 0) { ret = close(self->fd_tmpfs_detached); if (ret < 0) { reason = "Unable to close detached tmpfs"; goto fail; } self->fd_tmpfs_detached = -1; } return; fail: /* This should never happen */ fprintf(stderr, "Failed to cleanup coredump test: %s\n", reason); } TEST_F(coredump, socket_request_kernel) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct stat st; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_core_file = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_kernel: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_kernel: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_kernel: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_kernel: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_kernel: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_kernel: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_kernel: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } fd_core_file = creat("/tmp/coredump.file", 0644); if (fd_core_file < 0) { fprintf(stderr, "socket_request_kernel: creat coredump file failed: %m\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_kernel: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_kernel: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_KERNEL | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_request_kernel: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "socket_request_kernel: read_marker COREDUMP_MARK_REQACK failed\n"); goto out; } for (;;) { char buffer[4096]; ssize_t bytes_read, bytes_write; bytes_read = read(fd_coredump, buffer, sizeof(buffer)); if (bytes_read < 0) { fprintf(stderr, "socket_request_kernel: read from coredump socket failed: %m\n"); goto out; } if (bytes_read == 0) break; bytes_write = write(fd_core_file, buffer, bytes_read); if (bytes_read != bytes_write) { if (bytes_write < 0 && errno == ENOSPC) continue; fprintf(stderr, "socket_request_kernel: write to core file failed (read=%zd, write=%zd): %m\n", bytes_read, bytes_write); goto out; } } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_kernel: completed successfully\n"); out: if (fd_core_file >= 0) close(fd_core_file); if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_TRUE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); ASSERT_EQ(stat("/tmp/coredump.file", &st), 0); ASSERT_GT(st.st_size, 0); system("file /tmp/coredump.file"); } TEST_F(coredump, socket_request_userspace) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_userspace: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_userspace: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_userspace: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_userspace: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_userspace: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_userspace: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_userspace: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_userspace: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_userspace: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_USERSPACE | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_request_userspace: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "socket_request_userspace: read_marker COREDUMP_MARK_REQACK failed\n"); goto out; } for (;;) { char buffer[4096]; ssize_t bytes_read; bytes_read = read(fd_coredump, buffer, sizeof(buffer)); if (bytes_read > 0) { fprintf(stderr, "socket_request_userspace: unexpected data received (expected no coredump data)\n"); goto out; } if (bytes_read < 0) { fprintf(stderr, "socket_request_userspace: read from coredump socket failed: %m\n"); goto out; } if (bytes_read == 0) break; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_userspace: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_TRUE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F(coredump, socket_request_reject) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_reject: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_reject: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_reject: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_reject: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_reject: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_reject: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_reject: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_reject: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_reject: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_REJECT | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_request_reject: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "socket_request_reject: read_marker COREDUMP_MARK_REQACK failed\n"); goto out; } for (;;) { char buffer[4096]; ssize_t bytes_read; bytes_read = read(fd_coredump, buffer, sizeof(buffer)); if (bytes_read > 0) { fprintf(stderr, "socket_request_reject: unexpected data received (expected no coredump data for REJECT)\n"); goto out; } if (bytes_read < 0) { fprintf(stderr, "socket_request_reject: read from coredump socket failed: %m\n"); goto out; } if (bytes_read == 0) break; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_reject: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_FALSE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F(coredump, socket_request_invalid_flag_combination) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_invalid_flag_combination: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_invalid_flag_combination: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_invalid_flag_combination: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_invalid_flag_combination: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_invalid_flag_combination: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_invalid_flag_combination: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_invalid_flag_combination: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_invalid_flag_combination: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_invalid_flag_combination: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_KERNEL | COREDUMP_REJECT | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_request_invalid_flag_combination: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_CONFLICTING)) { fprintf(stderr, "socket_request_invalid_flag_combination: read_marker COREDUMP_MARK_CONFLICTING failed\n"); goto out; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_invalid_flag_combination: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_FALSE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F(coredump, socket_request_unknown_flag) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_unknown_flag: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_unknown_flag: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_unknown_flag: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_unknown_flag: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_unknown_flag: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_unknown_flag: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_unknown_flag: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_unknown_flag: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_unknown_flag: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, (1ULL << 63), 0)) { fprintf(stderr, "socket_request_unknown_flag: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_UNSUPPORTED)) { fprintf(stderr, "socket_request_unknown_flag: read_marker COREDUMP_MARK_UNSUPPORTED failed\n"); goto out; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_unknown_flag: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_FALSE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F(coredump, socket_request_invalid_size_small) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_invalid_size_small: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_invalid_size_small: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_invalid_size_small: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_invalid_size_small: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_invalid_size_small: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_invalid_size_small: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_invalid_size_small: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_invalid_size_small: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_invalid_size_small: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_REJECT | COREDUMP_WAIT, COREDUMP_ACK_SIZE_VER0 / 2)) { fprintf(stderr, "socket_request_invalid_size_small: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_MINSIZE)) { fprintf(stderr, "socket_request_invalid_size_small: read_marker COREDUMP_MARK_MINSIZE failed\n"); goto out; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_invalid_size_small: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_FALSE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F(coredump, socket_request_invalid_size_large) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_request_invalid_size_large: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_request_invalid_size_large: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_request_invalid_size_large: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_request_invalid_size_large: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_request_invalid_size_large: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_request_invalid_size_large: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_request_invalid_size_large: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_request_invalid_size_large: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_request_invalid_size_large: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_REJECT | COREDUMP_WAIT, COREDUMP_ACK_SIZE_VER0 + PAGE_SIZE)) { fprintf(stderr, "socket_request_invalid_size_large: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_MAXSIZE)) { fprintf(stderr, "socket_request_invalid_size_large: read_marker COREDUMP_MARK_MAXSIZE failed\n"); goto out; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_request_invalid_size_large: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_FALSE(WCOREDUMP(status)); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } /* * Test: PIDFD_INFO_COREDUMP_SIGNAL via socket coredump with SIGSEGV * * Verify that when using socket-based coredump protocol, * the coredump_signal field is correctly exposed as SIGSEGV. */ TEST_F(coredump, socket_coredump_signal_sigsegv) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_coredump_signal_sigsegv: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_coredump_signal_sigsegv: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_coredump_signal_sigsegv: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_coredump_signal_sigsegv: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_coredump_signal_sigsegv: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_coredump_signal_sigsegv: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_coredump_signal_sigsegv: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } /* Verify coredump_signal is available and correct */ if (!(info.mask & PIDFD_INFO_COREDUMP_SIGNAL)) { fprintf(stderr, "socket_coredump_signal_sigsegv: PIDFD_INFO_COREDUMP_SIGNAL not set in mask\n"); goto out; } if (info.coredump_signal != SIGSEGV) { fprintf(stderr, "socket_coredump_signal_sigsegv: coredump_signal=%d, expected SIGSEGV=%d\n", info.coredump_signal, SIGSEGV); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_coredump_signal_sigsegv: read_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_REJECT | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_coredump_signal_sigsegv: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "socket_coredump_signal_sigsegv: read_marker COREDUMP_MARK_REQACK failed\n"); goto out; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_coredump_signal_sigsegv: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) crashing_child(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_EQ(WTERMSIG(status), SIGSEGV); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_COREDUMP)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_COREDUMP_SIGNAL)); ASSERT_EQ(info.coredump_signal, SIGSEGV); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } /* * Test: PIDFD_INFO_COREDUMP_SIGNAL via socket coredump with SIGABRT * * Verify that when using socket-based coredump protocol, * the coredump_signal field is correctly exposed as SIGABRT. */ TEST_F(coredump, socket_coredump_signal_sigabrt) { int pidfd, ret, status; pid_t pid, pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); ASSERT_EQ(ret, 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { struct coredump_req req = {}; int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1; int exit_code = EXIT_FAILURE; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_coredump_signal_sigabrt: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_coredump_signal_sigabrt: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "socket_coredump_signal_sigabrt: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_coredump_signal_sigabrt: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_coredump_signal_sigabrt: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "socket_coredump_signal_sigabrt: PIDFD_INFO_COREDUMP not set in mask\n"); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_coredump_signal_sigabrt: PIDFD_COREDUMPED not set in coredump_mask\n"); goto out; } /* Verify coredump_signal is available and correct */ if (!(info.mask & PIDFD_INFO_COREDUMP_SIGNAL)) { fprintf(stderr, "socket_coredump_signal_sigabrt: PIDFD_INFO_COREDUMP_SIGNAL not set in mask\n"); goto out; } if (info.coredump_signal != SIGABRT) { fprintf(stderr, "socket_coredump_signal_sigabrt: coredump_signal=%d, expected SIGABRT=%d\n", info.coredump_signal, SIGABRT); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_coredump_signal_sigabrt: read_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_REJECT | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_coredump_signal_sigabrt: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "socket_coredump_signal_sigabrt: read_marker COREDUMP_MARK_REQACK failed\n"); goto out; } exit_code = EXIT_SUCCESS; fprintf(stderr, "socket_coredump_signal_sigabrt: completed successfully\n"); out: if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); pid = fork(); ASSERT_GE(pid, 0); if (pid == 0) abort(); pidfd = sys_pidfd_open(pid, 0); ASSERT_GE(pidfd, 0); waitpid(pid, &status, 0); ASSERT_TRUE(WIFSIGNALED(status)); ASSERT_EQ(WTERMSIG(status), SIGABRT); ASSERT_TRUE(get_pidfd_info(pidfd, &info)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_COREDUMP)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_COREDUMP_SIGNAL)); ASSERT_EQ(info.coredump_signal, SIGABRT); wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F_TIMEOUT(coredump, socket_multiple_crashing_coredumps, 500) { int pidfd[NUM_CRASHING_COREDUMPS], status[NUM_CRASHING_COREDUMPS]; pid_t pid[NUM_CRASHING_COREDUMPS], pid_coredump_server; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets), 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { int fd_server = -1, fd_coredump = -1, fd_peer_pidfd = -1, fd_core_file = -1; int exit_code = EXIT_FAILURE; struct coredump_req req = {}; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "Failed to create and listen on unix socket\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "Failed to notify parent via ipc socket\n"); goto out; } close(ipc_sockets[1]); for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { fprintf(stderr, "accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "get_peer_pidfd failed for fd %d: %m\n", fd_coredump); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "get_pidfd_info failed for fd %d\n", fd_peer_pidfd); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP)) { fprintf(stderr, "pidfd info missing PIDFD_INFO_COREDUMP for fd %d\n", fd_peer_pidfd); goto out; } if (!(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "pidfd info missing PIDFD_COREDUMPED for fd %d\n", fd_peer_pidfd); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "read_coredump_req failed for fd %d\n", fd_coredump); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "check_coredump_req failed for fd %d\n", fd_coredump); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_KERNEL | COREDUMP_WAIT, 0)) { fprintf(stderr, "send_coredump_ack failed for fd %d\n", fd_coredump); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "read_marker failed for fd %d\n", fd_coredump); goto out; } fd_core_file = open_coredump_tmpfile(self->fd_tmpfs_detached); if (fd_core_file < 0) { fprintf(stderr, "%m - open_coredump_tmpfile failed for fd %d\n", fd_coredump); goto out; } for (;;) { char buffer[4096]; ssize_t bytes_read, bytes_write; bytes_read = read(fd_coredump, buffer, sizeof(buffer)); if (bytes_read < 0) { fprintf(stderr, "read failed for fd %d: %m\n", fd_coredump); goto out; } if (bytes_read == 0) break; bytes_write = write(fd_core_file, buffer, bytes_read); if (bytes_read != bytes_write) { if (bytes_write < 0 && errno == ENOSPC) continue; fprintf(stderr, "write failed for fd %d: %m\n", fd_core_file); goto out; } } close(fd_core_file); close(fd_peer_pidfd); close(fd_coredump); fd_peer_pidfd = -1; fd_coredump = -1; } exit_code = EXIT_SUCCESS; out: if (fd_core_file >= 0) close(fd_core_file); if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_coredump >= 0) close(fd_coredump); if (fd_server >= 0) close(fd_server); _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { pid[i] = fork(); ASSERT_GE(pid[i], 0); if (pid[i] == 0) crashing_child(); pidfd[i] = sys_pidfd_open(pid[i], 0); ASSERT_GE(pidfd[i], 0); } for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { waitpid(pid[i], &status[i], 0); ASSERT_TRUE(WIFSIGNALED(status[i])); ASSERT_TRUE(WCOREDUMP(status[i])); } for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { info.mask = PIDFD_INFO_EXIT | PIDFD_INFO_COREDUMP; ASSERT_EQ(ioctl(pidfd[i], PIDFD_GET_INFO, &info), 0); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); } wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_F_TIMEOUT(coredump, socket_multiple_crashing_coredumps_epoll_workers, 500) { int pidfd[NUM_CRASHING_COREDUMPS], status[NUM_CRASHING_COREDUMPS]; pid_t pid[NUM_CRASHING_COREDUMPS], pid_coredump_server, worker_pids[NUM_CRASHING_COREDUMPS]; struct pidfd_info info = {}; int ipc_sockets[2]; char c; ASSERT_TRUE(set_core_pattern("@@/tmp/coredump.socket")); ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets), 0); pid_coredump_server = fork(); ASSERT_GE(pid_coredump_server, 0); if (pid_coredump_server == 0) { int fd_server = -1, exit_code = EXIT_FAILURE, n_conns = 0; fd_server = -1; exit_code = EXIT_FAILURE; n_conns = 0; close(ipc_sockets[0]); fd_server = create_and_listen_unix_socket("/tmp/coredump.socket"); if (fd_server < 0) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: create_and_listen_unix_socket failed: %m\n"); goto out; } if (write_nointr(ipc_sockets[1], "1", 1) < 0) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: write_nointr to ipc socket failed: %m\n"); goto out; } close(ipc_sockets[1]); while (n_conns < NUM_CRASHING_COREDUMPS) { int fd_coredump = -1, fd_peer_pidfd = -1, fd_core_file = -1; struct coredump_req req = {}; fd_coredump = accept4(fd_server, NULL, NULL, SOCK_CLOEXEC); if (fd_coredump < 0) { if (errno == EAGAIN || errno == EWOULDBLOCK) continue; fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: accept4 failed: %m\n"); goto out; } fd_peer_pidfd = get_peer_pidfd(fd_coredump); if (fd_peer_pidfd < 0) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: get_peer_pidfd failed\n"); goto out; } if (!get_pidfd_info(fd_peer_pidfd, &info)) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: get_pidfd_info failed\n"); goto out; } if (!(info.mask & PIDFD_INFO_COREDUMP) || !(info.coredump_mask & PIDFD_COREDUMPED)) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: missing PIDFD_INFO_COREDUMP or PIDFD_COREDUMPED\n"); goto out; } if (!read_coredump_req(fd_coredump, &req)) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: read_coredump_req failed\n"); goto out; } if (!check_coredump_req(&req, COREDUMP_ACK_SIZE_VER0, COREDUMP_KERNEL | COREDUMP_USERSPACE | COREDUMP_REJECT | COREDUMP_WAIT)) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: check_coredump_req failed\n"); goto out; } if (!send_coredump_ack(fd_coredump, &req, COREDUMP_KERNEL | COREDUMP_WAIT, 0)) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: send_coredump_ack failed\n"); goto out; } if (!read_marker(fd_coredump, COREDUMP_MARK_REQACK)) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: read_marker failed\n"); goto out; } fd_core_file = open_coredump_tmpfile(self->fd_tmpfs_detached); if (fd_core_file < 0) { fprintf(stderr, "socket_multiple_crashing_coredumps_epoll_workers: open_coredump_tmpfile failed: %m\n"); goto out; } pid_t worker = fork(); if (worker == 0) { close(fd_server); process_coredump_worker(fd_coredump, fd_peer_pidfd, fd_core_file); } worker_pids[n_conns] = worker; if (fd_coredump >= 0) close(fd_coredump); if (fd_peer_pidfd >= 0) close(fd_peer_pidfd); if (fd_core_file >= 0) close(fd_core_file); n_conns++; } exit_code = EXIT_SUCCESS; out: if (fd_server >= 0) close(fd_server); // Reap all worker processes for (int i = 0; i < n_conns; i++) { int wstatus; if (waitpid(worker_pids[i], &wstatus, 0) < 0) { fprintf(stderr, "Failed to wait for worker %d: %m\n", worker_pids[i]); } else if (WIFEXITED(wstatus) && WEXITSTATUS(wstatus) != EXIT_SUCCESS) { fprintf(stderr, "Worker %d exited with error code %d\n", worker_pids[i], WEXITSTATUS(wstatus)); exit_code = EXIT_FAILURE; } } _exit(exit_code); } self->pid_coredump_server = pid_coredump_server; EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { pid[i] = fork(); ASSERT_GE(pid[i], 0); if (pid[i] == 0) crashing_child(); pidfd[i] = sys_pidfd_open(pid[i], 0); ASSERT_GE(pidfd[i], 0); } for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { ASSERT_GE(waitpid(pid[i], &status[i], 0), 0); ASSERT_TRUE(WIFSIGNALED(status[i])); ASSERT_TRUE(WCOREDUMP(status[i])); } for (int i = 0; i < NUM_CRASHING_COREDUMPS; i++) { info.mask = PIDFD_INFO_EXIT | PIDFD_INFO_COREDUMP; ASSERT_EQ(ioctl(pidfd[i], PIDFD_GET_INFO, &info), 0); ASSERT_GT((info.mask & PIDFD_INFO_COREDUMP), 0); ASSERT_GT((info.coredump_mask & PIDFD_COREDUMPED), 0); } wait_and_check_coredump_server(pid_coredump_server, _metadata, self); } TEST_HARNESS_MAIN