| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Christian Brauner | 3715 | 100.00% | 15 | 100.00% |
| Total | 3715 | 15 |
// SPDX-License-Identifier: GPL-2.0 #define _GNU_SOURCE #include <errno.h> #include <fcntl.h> #include <limits.h> #include <linux/types.h> #include <poll.h> #include <pthread.h> #include <sched.h> #include <signal.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <syscall.h> #include <sys/prctl.h> #include <sys/wait.h> #include <unistd.h> #include <sys/socket.h> #include <linux/kcmp.h> #include <sys/stat.h> #include "pidfd.h" #include "../kselftest_harness.h" FIXTURE(pidfd_info) { pid_t child_pid1; int child_pidfd1; pid_t child_pid2; int child_pidfd2; pid_t child_pid3; int child_pidfd3; pid_t child_pid4; int child_pidfd4; }; FIXTURE_SETUP(pidfd_info) { int ret; int ipc_sockets[2]; char c; ret = socketpair(AF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); EXPECT_EQ(ret, 0); self->child_pid1 = create_child(&self->child_pidfd1, 0); EXPECT_GE(self->child_pid1, 0); if (self->child_pid1 == 0) { close(ipc_sockets[0]); if (write_nointr(ipc_sockets[1], "1", 1) < 0) _exit(EXIT_FAILURE); close(ipc_sockets[1]); pause(); _exit(EXIT_SUCCESS); } EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); /* SIGKILL but don't reap. */ EXPECT_EQ(sys_pidfd_send_signal(self->child_pidfd1, SIGKILL, NULL, 0), 0); ret = socketpair(AF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); EXPECT_EQ(ret, 0); self->child_pid2 = create_child(&self->child_pidfd2, 0); EXPECT_GE(self->child_pid2, 0); if (self->child_pid2 == 0) { close(ipc_sockets[0]); if (write_nointr(ipc_sockets[1], "1", 1) < 0) _exit(EXIT_FAILURE); close(ipc_sockets[1]); pause(); _exit(EXIT_SUCCESS); } EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &c, 1), 1); EXPECT_EQ(close(ipc_sockets[0]), 0); /* SIGKILL and reap. */ EXPECT_EQ(sys_pidfd_send_signal(self->child_pidfd2, SIGKILL, NULL, 0), 0); EXPECT_EQ(sys_waitid(P_PID, self->child_pid2, NULL, WEXITED), 0); self->child_pid3 = create_child(&self->child_pidfd3, CLONE_NEWUSER | CLONE_NEWPID); EXPECT_GE(self->child_pid3, 0); if (self->child_pid3 == 0) _exit(EXIT_SUCCESS); self->child_pid4 = create_child(&self->child_pidfd4, CLONE_NEWUSER | CLONE_NEWPID); EXPECT_GE(self->child_pid4, 0); if (self->child_pid4 == 0) _exit(EXIT_SUCCESS); EXPECT_EQ(sys_waitid(P_PID, self->child_pid4, NULL, WEXITED), 0); } FIXTURE_TEARDOWN(pidfd_info) { sys_pidfd_send_signal(self->child_pidfd1, SIGKILL, NULL, 0); if (self->child_pidfd1 >= 0) EXPECT_EQ(0, close(self->child_pidfd1)); sys_waitid(P_PID, self->child_pid1, NULL, WEXITED); sys_pidfd_send_signal(self->child_pidfd2, SIGKILL, NULL, 0); if (self->child_pidfd2 >= 0) EXPECT_EQ(0, close(self->child_pidfd2)); sys_waitid(P_PID, self->child_pid2, NULL, WEXITED); sys_waitid(P_PID, self->child_pid3, NULL, WEXITED); sys_waitid(P_PID, self->child_pid4, NULL, WEXITED); } TEST_F(pidfd_info, sigkill_exit) { struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID, }; /* Process has exited but not been reaped so this must work. */ ASSERT_EQ(ioctl(self->child_pidfd1, PIDFD_GET_INFO, &info), 0); info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(self->child_pidfd1, PIDFD_GET_INFO, &info), 0); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_CREDS)); /* Process has exited but not been reaped, so no PIDFD_INFO_EXIT information yet. */ ASSERT_FALSE(!!(info.mask & PIDFD_INFO_EXIT)); } TEST_F(pidfd_info, sigkill_reaped) { struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID, }; /* Process has already been reaped and PIDFD_INFO_EXIT hasn't been set. */ ASSERT_NE(ioctl(self->child_pidfd2, PIDFD_GET_INFO, &info), 0); ASSERT_EQ(errno, ESRCH); info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(self->child_pidfd2, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_TRUE(WIFSIGNALED(info.exit_code)); ASSERT_EQ(WTERMSIG(info.exit_code), SIGKILL); } TEST_F(pidfd_info, success_exit) { struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID, }; /* Process has exited but not been reaped so this must work. */ ASSERT_EQ(ioctl(self->child_pidfd3, PIDFD_GET_INFO, &info), 0); info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(self->child_pidfd3, PIDFD_GET_INFO, &info), 0); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_CREDS)); /* Process has exited but not been reaped, so no PIDFD_INFO_EXIT information yet. */ ASSERT_FALSE(!!(info.mask & PIDFD_INFO_EXIT)); } TEST_F(pidfd_info, success_reaped) { struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID, }; /* Process has already been reaped and PIDFD_INFO_EXIT hasn't been set. */ ASSERT_NE(ioctl(self->child_pidfd4, PIDFD_GET_INFO, &info), 0); ASSERT_EQ(errno, ESRCH); info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(self->child_pidfd4, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_TRUE(WIFEXITED(info.exit_code)); ASSERT_EQ(WEXITSTATUS(info.exit_code), 0); } TEST_F(pidfd_info, success_reaped_poll) { struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT, }; struct pollfd fds = {}; int nevents; fds.events = POLLIN; fds.fd = self->child_pidfd2; nevents = poll(&fds, 1, -1); ASSERT_EQ(nevents, 1); ASSERT_TRUE(!!(fds.revents & POLLIN)); ASSERT_TRUE(!!(fds.revents & POLLHUP)); ASSERT_EQ(ioctl(self->child_pidfd2, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_TRUE(WIFSIGNALED(info.exit_code)); ASSERT_EQ(WTERMSIG(info.exit_code), SIGKILL); } static void *pidfd_info_pause_thread(void *arg) { pid_t pid_thread = gettid(); int ipc_socket = *(int *)arg; /* Inform the grand-parent what the tid of this thread is. */ if (write_nointr(ipc_socket, &pid_thread, sizeof(pid_thread)) != sizeof(pid_thread)) return NULL; close(ipc_socket); /* Sleep untill we're killed. */ pause(); return NULL; } TEST_F(pidfd_info, thread_group) { pid_t pid_leader, pid_poller, pid_thread; pthread_t thread; int nevents, pidfd_leader, pidfd_thread, pidfd_leader_thread, ret; int ipc_sockets[2]; struct pollfd fds = {}; struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT, }, info2; ret = socketpair(AF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); EXPECT_EQ(ret, 0); pid_leader = create_child(&pidfd_leader, 0); EXPECT_GE(pid_leader, 0); if (pid_leader == 0) { close(ipc_sockets[0]); /* The thread will outlive the thread-group leader. */ if (pthread_create(&thread, NULL, pidfd_info_pause_thread, &ipc_sockets[1])) syscall(__NR_exit, EXIT_FAILURE); /* Make the thread-group leader exit prematurely. */ syscall(__NR_exit, EXIT_SUCCESS); } /* * Opening a PIDFD_THREAD aka thread-specific pidfd based on a * thread-group leader must succeed. */ pidfd_leader_thread = sys_pidfd_open(pid_leader, PIDFD_THREAD); ASSERT_GE(pidfd_leader_thread, 0); pid_poller = fork(); ASSERT_GE(pid_poller, 0); if (pid_poller == 0) { /* * We can't poll and wait for the old thread-group * leader to exit using a thread-specific pidfd. The * thread-group leader exited prematurely and * notification is delayed until all subthreads have * exited. */ fds.events = POLLIN; fds.fd = pidfd_leader_thread; nevents = poll(&fds, 1, 10000 /* wait 5 seconds */); if (nevents != 0) _exit(EXIT_FAILURE); if (fds.revents & POLLIN) _exit(EXIT_FAILURE); if (fds.revents & POLLHUP) _exit(EXIT_FAILURE); _exit(EXIT_SUCCESS); } /* Retrieve the tid of the thread. */ EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &pid_thread, sizeof(pid_thread)), sizeof(pid_thread)); EXPECT_EQ(close(ipc_sockets[0]), 0); /* Opening a thread as a thread-group leader must fail. */ pidfd_thread = sys_pidfd_open(pid_thread, 0); ASSERT_LT(pidfd_thread, 0); ASSERT_EQ(errno, ENOENT); /* Opening a thread as a PIDFD_THREAD must succeed. */ pidfd_thread = sys_pidfd_open(pid_thread, PIDFD_THREAD); ASSERT_GE(pidfd_thread, 0); ASSERT_EQ(wait_for_pid(pid_poller), 0); /* * Note that pidfd_leader is a thread-group pidfd, so polling on it * would only notify us once all thread in the thread-group have * exited. So we can't poll before we have taken down the whole * thread-group. */ /* Get PIDFD_GET_INFO using the thread-group leader pidfd. */ ASSERT_EQ(ioctl(pidfd_leader, PIDFD_GET_INFO, &info), 0); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_CREDS)); /* Process has exited but not been reaped, so no PIDFD_INFO_EXIT information yet. */ ASSERT_FALSE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_EQ(info.pid, pid_leader); /* * Now retrieve the same info using the thread specific pidfd * for the thread-group leader. */ info2.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader_thread, PIDFD_GET_INFO, &info2), 0); ASSERT_TRUE(!!(info2.mask & PIDFD_INFO_CREDS)); /* Process has exited but not been reaped, so no PIDFD_INFO_EXIT information yet. */ ASSERT_FALSE(!!(info2.mask & PIDFD_INFO_EXIT)); ASSERT_EQ(info2.pid, pid_leader); /* Now try the thread-specific pidfd. */ ASSERT_EQ(ioctl(pidfd_thread, PIDFD_GET_INFO, &info), 0); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_CREDS)); /* The thread hasn't exited, so no PIDFD_INFO_EXIT information yet. */ ASSERT_FALSE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_EQ(info.pid, pid_thread); /* * Take down the whole thread-group. The thread-group leader * exited successfully but the thread will now be SIGKILLed. * This must be reflected in the recorded exit information. */ EXPECT_EQ(sys_pidfd_send_signal(pidfd_leader, SIGKILL, NULL, 0), 0); EXPECT_EQ(sys_waitid(P_PIDFD, pidfd_leader, NULL, WEXITED), 0); fds.events = POLLIN; fds.fd = pidfd_leader; nevents = poll(&fds, 1, -1); ASSERT_EQ(nevents, 1); ASSERT_TRUE(!!(fds.revents & POLLIN)); /* The thread-group leader has been reaped. */ ASSERT_TRUE(!!(fds.revents & POLLHUP)); /* * Retrieve exit information for the thread-group leader via the * thread-group leader pidfd. */ info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); /* Even though the thread-group exited successfully it will still report the group exit code. */ ASSERT_TRUE(WIFSIGNALED(info.exit_code)); ASSERT_EQ(WTERMSIG(info.exit_code), SIGKILL); /* * Retrieve exit information for the thread-group leader via the * thread-specific pidfd. */ info2.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader_thread, PIDFD_GET_INFO, &info2), 0); ASSERT_FALSE(!!(info2.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info2.mask & PIDFD_INFO_EXIT)); /* Even though the thread-group exited successfully it will still report the group exit code. */ ASSERT_TRUE(WIFSIGNALED(info2.exit_code)); ASSERT_EQ(WTERMSIG(info2.exit_code), SIGKILL); /* Retrieve exit information for the thread. */ info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_thread, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); /* The thread got SIGKILLed. */ ASSERT_TRUE(WIFSIGNALED(info.exit_code)); ASSERT_EQ(WTERMSIG(info.exit_code), SIGKILL); EXPECT_EQ(close(pidfd_leader), 0); EXPECT_EQ(close(pidfd_thread), 0); } static void *pidfd_info_thread_exec(void *arg) { pid_t pid_thread = gettid(); int ipc_socket = *(int *)arg; /* Inform the grand-parent what the tid of this thread is. */ if (write_nointr(ipc_socket, &pid_thread, sizeof(pid_thread)) != sizeof(pid_thread)) return NULL; if (read_nointr(ipc_socket, &pid_thread, sizeof(pid_thread)) != sizeof(pid_thread)) return NULL; close(ipc_socket); sys_execveat(AT_FDCWD, "pidfd_exec_helper", NULL, NULL, 0); return NULL; } TEST_F(pidfd_info, thread_group_exec) { pid_t pid_leader, pid_poller, pid_thread; pthread_t thread; int nevents, pidfd_leader, pidfd_leader_thread, pidfd_thread, ret; int ipc_sockets[2]; struct pollfd fds = {}; struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT, }; ret = socketpair(AF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); EXPECT_EQ(ret, 0); pid_leader = create_child(&pidfd_leader, 0); EXPECT_GE(pid_leader, 0); if (pid_leader == 0) { close(ipc_sockets[0]); /* The thread will outlive the thread-group leader. */ if (pthread_create(&thread, NULL, pidfd_info_thread_exec, &ipc_sockets[1])) syscall(__NR_exit, EXIT_FAILURE); /* Make the thread-group leader exit prematurely. */ syscall(__NR_exit, EXIT_SUCCESS); } /* Open a thread-specific pidfd for the thread-group leader. */ pidfd_leader_thread = sys_pidfd_open(pid_leader, PIDFD_THREAD); ASSERT_GE(pidfd_leader_thread, 0); pid_poller = fork(); ASSERT_GE(pid_poller, 0); if (pid_poller == 0) { /* * We can't poll and wait for the old thread-group * leader to exit using a thread-specific pidfd. The * thread-group leader exited prematurely and * notification is delayed until all subthreads have * exited. * * When the thread has execed it will taken over the old * thread-group leaders struct pid. Calling poll after * the thread execed will thus block again because a new * thread-group has started. */ fds.events = POLLIN; fds.fd = pidfd_leader_thread; nevents = poll(&fds, 1, 10000 /* wait 5 seconds */); if (nevents != 0) _exit(EXIT_FAILURE); if (fds.revents & POLLIN) _exit(EXIT_FAILURE); if (fds.revents & POLLHUP) _exit(EXIT_FAILURE); _exit(EXIT_SUCCESS); } /* Retrieve the tid of the thread. */ EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &pid_thread, sizeof(pid_thread)), sizeof(pid_thread)); /* Opening a thread as a PIDFD_THREAD must succeed. */ pidfd_thread = sys_pidfd_open(pid_thread, PIDFD_THREAD); ASSERT_GE(pidfd_thread, 0); /* Now that we've opened a thread-specific pidfd the thread can exec. */ ASSERT_EQ(write_nointr(ipc_sockets[0], &pid_thread, sizeof(pid_thread)), sizeof(pid_thread)); EXPECT_EQ(close(ipc_sockets[0]), 0); ASSERT_EQ(wait_for_pid(pid_poller), 0); /* Wait until the kernel has SIGKILLed the thread. */ fds.events = POLLHUP; fds.fd = pidfd_thread; nevents = poll(&fds, 1, -1); ASSERT_EQ(nevents, 1); /* The thread has been reaped. */ ASSERT_TRUE(!!(fds.revents & POLLHUP)); /* Retrieve thread-specific exit info from pidfd. */ ASSERT_EQ(ioctl(pidfd_thread, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); /* * While the kernel will have SIGKILLed the whole thread-group * during exec it will cause the individual threads to exit * cleanly. */ ASSERT_TRUE(WIFEXITED(info.exit_code)); ASSERT_EQ(WEXITSTATUS(info.exit_code), 0); /* * The thread-group leader is still alive, the thread has taken * over its struct pid and thus its pid number. */ info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader, PIDFD_GET_INFO, &info), 0); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_EQ(info.pid, pid_leader); /* Take down the thread-group leader. */ EXPECT_EQ(sys_pidfd_send_signal(pidfd_leader, SIGKILL, NULL, 0), 0); /* * Afte the exec we're dealing with an empty thread-group so now * we must see an exit notification on the thread-specific pidfd * for the thread-group leader as there's no subthread that can * revive the struct pid. */ fds.events = POLLIN; fds.fd = pidfd_leader_thread; nevents = poll(&fds, 1, -1); ASSERT_EQ(nevents, 1); ASSERT_TRUE(!!(fds.revents & POLLIN)); ASSERT_FALSE(!!(fds.revents & POLLHUP)); EXPECT_EQ(sys_waitid(P_PIDFD, pidfd_leader, NULL, WEXITED), 0); /* Retrieve exit information for the thread-group leader. */ info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); EXPECT_EQ(close(pidfd_leader), 0); EXPECT_EQ(close(pidfd_thread), 0); } static void *pidfd_info_thread_exec_sane(void *arg) { pid_t pid_thread = gettid(); int ipc_socket = *(int *)arg; /* Inform the grand-parent what the tid of this thread is. */ if (write_nointr(ipc_socket, &pid_thread, sizeof(pid_thread)) != sizeof(pid_thread)) return NULL; if (read_nointr(ipc_socket, &pid_thread, sizeof(pid_thread)) != sizeof(pid_thread)) return NULL; close(ipc_socket); sys_execveat(AT_FDCWD, "pidfd_exec_helper", NULL, NULL, 0); return NULL; } TEST_F(pidfd_info, thread_group_exec_thread) { pid_t pid_leader, pid_poller, pid_thread; pthread_t thread; int nevents, pidfd_leader, pidfd_leader_thread, pidfd_thread, ret; int ipc_sockets[2]; struct pollfd fds = {}; struct pidfd_info info = { .mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT, }; ret = socketpair(AF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, ipc_sockets); EXPECT_EQ(ret, 0); pid_leader = create_child(&pidfd_leader, 0); EXPECT_GE(pid_leader, 0); if (pid_leader == 0) { close(ipc_sockets[0]); /* The thread will outlive the thread-group leader. */ if (pthread_create(&thread, NULL, pidfd_info_thread_exec_sane, &ipc_sockets[1])) syscall(__NR_exit, EXIT_FAILURE); /* * Pause the thread-group leader. It will be killed once * the subthread execs. */ pause(); syscall(__NR_exit, EXIT_SUCCESS); } /* Retrieve the tid of the thread. */ EXPECT_EQ(close(ipc_sockets[1]), 0); ASSERT_EQ(read_nointr(ipc_sockets[0], &pid_thread, sizeof(pid_thread)), sizeof(pid_thread)); /* Opening a thread as a PIDFD_THREAD must succeed. */ pidfd_thread = sys_pidfd_open(pid_thread, PIDFD_THREAD); ASSERT_GE(pidfd_thread, 0); /* Open a thread-specific pidfd for the thread-group leader. */ pidfd_leader_thread = sys_pidfd_open(pid_leader, PIDFD_THREAD); ASSERT_GE(pidfd_leader_thread, 0); pid_poller = fork(); ASSERT_GE(pid_poller, 0); if (pid_poller == 0) { /* * The subthread will now exec. The struct pid of the old * thread-group leader will be assumed by the subthread which * becomes the new thread-group leader. So no exit notification * must be generated. Wait for 5 seconds and call it a success * if no notification has been received. */ fds.events = POLLIN; fds.fd = pidfd_leader_thread; nevents = poll(&fds, 1, 10000 /* wait 5 seconds */); if (nevents != 0) _exit(EXIT_FAILURE); if (fds.revents & POLLIN) _exit(EXIT_FAILURE); if (fds.revents & POLLHUP) _exit(EXIT_FAILURE); _exit(EXIT_SUCCESS); } /* Now that we've opened a thread-specific pidfd the thread can exec. */ ASSERT_EQ(write_nointr(ipc_sockets[0], &pid_thread, sizeof(pid_thread)), sizeof(pid_thread)); EXPECT_EQ(close(ipc_sockets[0]), 0); ASSERT_EQ(wait_for_pid(pid_poller), 0); /* Wait until the kernel has SIGKILLed the thread. */ fds.events = POLLHUP; fds.fd = pidfd_thread; nevents = poll(&fds, 1, -1); ASSERT_EQ(nevents, 1); /* The thread has been reaped. */ ASSERT_TRUE(!!(fds.revents & POLLHUP)); /* Retrieve thread-specific exit info from pidfd. */ ASSERT_EQ(ioctl(pidfd_thread, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); /* * While the kernel will have SIGKILLed the whole thread-group * during exec it will cause the individual threads to exit * cleanly. */ ASSERT_TRUE(WIFEXITED(info.exit_code)); ASSERT_EQ(WEXITSTATUS(info.exit_code), 0); /* * The thread-group leader is still alive, the thread has taken * over its struct pid and thus its pid number. */ info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader, PIDFD_GET_INFO, &info), 0); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_EXIT)); ASSERT_EQ(info.pid, pid_leader); /* Take down the thread-group leader. */ EXPECT_EQ(sys_pidfd_send_signal(pidfd_leader, SIGKILL, NULL, 0), 0); /* * Afte the exec we're dealing with an empty thread-group so now * we must see an exit notification on the thread-specific pidfd * for the thread-group leader as there's no subthread that can * revive the struct pid. */ fds.events = POLLIN; fds.fd = pidfd_leader_thread; nevents = poll(&fds, 1, -1); ASSERT_EQ(nevents, 1); ASSERT_TRUE(!!(fds.revents & POLLIN)); ASSERT_FALSE(!!(fds.revents & POLLHUP)); EXPECT_EQ(sys_waitid(P_PIDFD, pidfd_leader, NULL, WEXITED), 0); /* Retrieve exit information for the thread-group leader. */ info.mask = PIDFD_INFO_CGROUPID | PIDFD_INFO_EXIT; ASSERT_EQ(ioctl(pidfd_leader, PIDFD_GET_INFO, &info), 0); ASSERT_FALSE(!!(info.mask & PIDFD_INFO_CREDS)); ASSERT_TRUE(!!(info.mask & PIDFD_INFO_EXIT)); EXPECT_EQ(close(pidfd_leader), 0); EXPECT_EQ(close(pidfd_thread), 0); } TEST_HARNESS_MAIN
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