// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2023 Cyril Hrubis */ #define TST_NO_DEFAULT_MAIN #include #include #include #include #include #include #include #include "tst_test.h" #include "tst_safe_macros.h" #include "lapi/pidfd.h" #include "lapi/io_uring.h" #include "lapi/bpf.h" #include "lapi/fsmount.h" #include "tst_fd.h" struct tst_fd_desc { void (*open_fd)(struct tst_fd *fd); void (*destroy)(struct tst_fd *fd); const char *desc; }; static void open_file(struct tst_fd *fd) { fd->fd = SAFE_OPEN("fd_file", O_RDWR | O_CREAT, 0666); SAFE_UNLINK("fd_file"); } static void open_path(struct tst_fd *fd) { int tfd; tfd = SAFE_CREAT("fd_file", 0666); SAFE_CLOSE(tfd); fd->fd = SAFE_OPEN("fd_file", O_PATH); SAFE_UNLINK("fd_file"); } static void open_dir(struct tst_fd *fd) { SAFE_MKDIR("fd_dir", 0700); fd->fd = SAFE_OPEN("fd_dir", O_DIRECTORY); SAFE_RMDIR("fd_dir"); } static void open_dev_zero(struct tst_fd *fd) { fd->fd = SAFE_OPEN("/dev/zero", O_RDONLY); } static void open_proc_self_maps(struct tst_fd *fd) { fd->fd = SAFE_OPEN("/proc/self/maps", O_RDONLY); } static void open_pipe_read(struct tst_fd *fd) { int pipe[2]; SAFE_PIPE(pipe); fd->fd = pipe[0]; fd->priv = pipe[1]; } static void open_pipe_write(struct tst_fd *fd) { int pipe[2]; SAFE_PIPE(pipe); fd->fd = pipe[1]; fd->priv = pipe[0]; } static void destroy_pipe(struct tst_fd *fd) { SAFE_CLOSE(fd->priv); } static void open_unix_sock(struct tst_fd *fd) { fd->fd = SAFE_SOCKET(AF_UNIX, SOCK_STREAM, 0); } static void open_inet_sock(struct tst_fd *fd) { fd->fd = SAFE_SOCKET(AF_INET, SOCK_STREAM, 0); } static void open_epoll(struct tst_fd *fd) { fd->fd = epoll_create(1); if (fd->fd < 0) tst_res(TCONF | TERRNO, "epoll_create()"); } static void open_eventfd(struct tst_fd *fd) { fd->fd = eventfd(0, 0); if (fd->fd < 0) tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } static void open_signalfd(struct tst_fd *fd) { sigset_t sfd_mask; sigemptyset(&sfd_mask); fd->fd = signalfd(-1, &sfd_mask, 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_timerfd(struct tst_fd *fd) { fd->fd = timerfd_create(CLOCK_REALTIME, 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_pidfd(struct tst_fd *fd) { fd->fd = syscall(__NR_pidfd_open, getpid(), 0); if (fd->fd < 0) tst_res(TCONF | TERRNO, "pidfd_open()"); } static void open_fanotify(struct tst_fd *fd) { fd->fd = syscall(__NR_fanotify_init, FAN_CLASS_NOTIF, O_RDONLY); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_inotify(struct tst_fd *fd) { fd->fd = inotify_init(); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_userfaultfd(struct tst_fd *fd) { fd->fd = syscall(__NR_userfaultfd, 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_perf_event(struct tst_fd *fd) { struct perf_event_attr pe_attr = { .type = PERF_TYPE_SOFTWARE, .size = sizeof(struct perf_event_attr), .config = PERF_COUNT_SW_CPU_CLOCK, .disabled = 1, .exclude_kernel = 1, .exclude_hv = 1, }; fd->fd = syscall(__NR_perf_event_open, &pe_attr, 0, -1, -1, 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_io_uring(struct tst_fd *fd) { struct io_uring_params uring_params = {}; fd->fd = syscall(__NR_io_uring_setup, 1, &uring_params); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_bpf_map(struct tst_fd *fd) { union bpf_attr array_attr = { .map_type = BPF_MAP_TYPE_ARRAY, .key_size = 4, .value_size = 8, .max_entries = 1, }; fd->fd = syscall(__NR_bpf, BPF_MAP_CREATE, &array_attr, sizeof(array_attr)); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_fsopen(struct tst_fd *fd) { fd->fd = syscall(__NR_fsopen, "ext2", 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_fspick(struct tst_fd *fd) { fd->fd = syscall(__NR_fspick, AT_FDCWD, "/", 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_open_tree(struct tst_fd *fd) { fd->fd = syscall(__NR_open_tree, AT_FDCWD, "/", 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_memfd(struct tst_fd *fd) { fd->fd = syscall(__NR_memfd_create, "ltp_memfd", 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static void open_memfd_secret(struct tst_fd *fd) { fd->fd = syscall(__NR_memfd_secret, 0); if (fd->fd < 0) { tst_res(TCONF | TERRNO, "Skipping %s", tst_fd_desc(fd)); } } static struct tst_fd_desc fd_desc[] = { [TST_FD_FILE] = {.open_fd = open_file, .desc = "file"}, [TST_FD_PATH] = {.open_fd = open_path, .desc = "O_PATH file"}, [TST_FD_DIR] = {.open_fd = open_dir, .desc = "directory"}, [TST_FD_DEV_ZERO] = {.open_fd = open_dev_zero, .desc = "/dev/zero"}, [TST_FD_PROC_MAPS] = {.open_fd = open_proc_self_maps, .desc = "/proc/self/maps"}, [TST_FD_PIPE_READ] = {.open_fd = open_pipe_read, .desc = "pipe read end", .destroy = destroy_pipe}, [TST_FD_PIPE_WRITE] = {.open_fd = open_pipe_write, .desc = "pipe write end", .destroy = destroy_pipe}, [TST_FD_UNIX_SOCK] = {.open_fd = open_unix_sock, .desc = "unix socket"}, [TST_FD_INET_SOCK] = {.open_fd = open_inet_sock, .desc = "inet socket"}, [TST_FD_EPOLL] = {.open_fd = open_epoll, .desc = "epoll"}, [TST_FD_EVENTFD] = {.open_fd = open_eventfd, .desc = "eventfd"}, [TST_FD_SIGNALFD] = {.open_fd = open_signalfd, .desc = "signalfd"}, [TST_FD_TIMERFD] = {.open_fd = open_timerfd, .desc = "timerfd"}, [TST_FD_PIDFD] = {.open_fd = open_pidfd, .desc = "pidfd"}, [TST_FD_FANOTIFY] = {.open_fd = open_fanotify, .desc = "fanotify"}, [TST_FD_INOTIFY] = {.open_fd = open_inotify, .desc = "inotify"}, [TST_FD_USERFAULTFD] = {.open_fd = open_userfaultfd, .desc = "userfaultfd"}, [TST_FD_PERF_EVENT] = {.open_fd = open_perf_event, .desc = "perf event"}, [TST_FD_IO_URING] = {.open_fd = open_io_uring, .desc = "io uring"}, [TST_FD_BPF_MAP] = {.open_fd = open_bpf_map, .desc = "bpf map"}, [TST_FD_FSOPEN] = {.open_fd = open_fsopen, .desc = "fsopen"}, [TST_FD_FSPICK] = {.open_fd = open_fspick, .desc = "fspick"}, [TST_FD_OPEN_TREE] = {.open_fd = open_open_tree, .desc = "open_tree"}, [TST_FD_MEMFD] = {.open_fd = open_memfd, .desc = "memfd"}, [TST_FD_MEMFD_SECRET] = {.open_fd = open_memfd_secret, .desc = "memfd secret"}, }; const char *tst_fd_desc(struct tst_fd *fd) { if (fd->type >= ARRAY_SIZE(fd_desc)) return "invalid"; return fd_desc[fd->type].desc; } int tst_fd_next(struct tst_fd *fd) { size_t len = ARRAY_SIZE(fd_desc); if (fd->fd >= 0) { SAFE_CLOSE(fd->fd); if (fd_desc[fd->type].destroy) fd_desc[fd->type].destroy(fd); fd->type++; } for (;;) { if (fd->type >= len) return 0; fd_desc[fd->type].open_fd(fd); if (fd->fd >= 0) return 1; fd->type++; } }