static void uv__fs_work(struct uv__work* w) { int retry_on_eintr; uv_fs_t* req; ssize_t r; req = container_of(w, uv_fs_t, work_req); retry_on_eintr = !(req->fs_type == UV_FS_CLOSE); do { errno = 0; #define X(type, action) \ case UV_FS_ ## type: \ r = action; \ break; switch (req->fs_type) { X(CHMOD, chmod(req->path, req->mode)); X(CHOWN, chown(req->path, req->uid, req->gid)); X(CLOSE, close(req->file)); X(FCHMOD, fchmod(req->file, req->mode)); X(FCHOWN, fchown(req->file, req->uid, req->gid)); X(FDATASYNC, uv__fs_fdatasync(req)); X(FSTAT, uv__fs_fstat(req->file, &req->statbuf)); X(FSYNC, fsync(req->file)); X(FTRUNCATE, ftruncate(req->file, req->off)); X(FUTIME, uv__fs_futime(req)); X(LSTAT, uv__fs_lstat(req->path, &req->statbuf)); X(LINK, link(req->path, req->new_path)); X(MKDIR, mkdir(req->path, req->mode)); X(OPEN, open(req->path, req->flags, req->mode)); X(READ, uv__fs_read(req)); X(READDIR, uv__fs_readdir(req)); X(READLINK, uv__fs_readlink(req)); X(RENAME, rename(req->path, req->new_path)); X(RMDIR, rmdir(req->path)); X(SENDFILE, uv__fs_sendfile(req)); X(STAT, uv__fs_stat(req->path, &req->statbuf)); X(SYMLINK, symlink(req->path, req->new_path)); X(UNLINK, unlink(req->path)); X(UTIME, uv__fs_utime(req)); X(WRITE, uv__fs_write(req)); default: abort(); } #undef X } while (r == -1 && errno == EINTR && retry_on_eintr); if (r == -1) req->result = -errno; else req->result = r; if (r == 0 && (req->fs_type == UV_FS_STAT || req->fs_type == UV_FS_FSTAT || req->fs_type == UV_FS_LSTAT)) { req->ptr = &req->statbuf; } }
static void uv__fs_work(struct uv__work* w) { int retry_on_eintr; uv_fs_t* req; ssize_t r; #ifdef O_CLOEXEC static int no_cloexec_support; #endif /* O_CLOEXEC */ req = container_of(w, uv_fs_t, work_req); retry_on_eintr = !(req->fs_type == UV_FS_CLOSE); do { errno = 0; #define X(type, action) \ case UV_FS_ ## type: \ r = action; \ break; switch (req->fs_type) { X(CHMOD, chmod(req->path, req->mode)); X(CHOWN, chown(req->path, req->uid, req->gid)); X(CLOSE, close(req->file)); X(FCHMOD, fchmod(req->file, req->mode)); X(FCHOWN, fchown(req->file, req->uid, req->gid)); X(FDATASYNC, uv__fs_fdatasync(req)); X(FSTAT, uv__fs_fstat(req->file, &req->statbuf)); X(FSYNC, fsync(req->file)); X(FTRUNCATE, ftruncate(req->file, req->off)); X(FUTIME, uv__fs_futime(req)); X(LSTAT, uv__fs_lstat(req->path, &req->statbuf)); X(LINK, link(req->path, req->new_path)); X(MKDIR, mkdir(req->path, req->mode)); X(MKDTEMP, uv__fs_mkdtemp(req)); X(READ, uv__fs_read(req)); X(READDIR, uv__fs_readdir(req)); X(READLINK, uv__fs_readlink(req)); X(RENAME, rename(req->path, req->new_path)); X(RMDIR, rmdir(req->path)); X(SENDFILE, uv__fs_sendfile(req)); X(STAT, uv__fs_stat(req->path, &req->statbuf)); X(SYMLINK, symlink(req->path, req->new_path)); X(UNLINK, unlink(req->path)); X(UTIME, uv__fs_utime(req)); X(WRITE, uv__fs_write(req)); case UV_FS_OPEN: #ifdef O_CLOEXEC /* Try O_CLOEXEC before entering locks */ if (!no_cloexec_support) { r = open(req->path, req->flags | O_CLOEXEC, req->mode); if (r >= 0) break; if (errno != EINVAL) break; no_cloexec_support = 1; } #endif /* O_CLOEXEC */ if (req->cb != NULL) uv_rwlock_rdlock(&req->loop->cloexec_lock); r = open(req->path, req->flags, req->mode); /* * In case of failure `uv__cloexec` will leave error in `errno`, * so it is enough to just set `r` to `-1`. */ if (r >= 0 && uv__cloexec(r, 1) != 0) { r = uv__close(r); if (r != 0 && r != -EINPROGRESS) abort(); r = -1; } if (req->cb != NULL) uv_rwlock_rdunlock(&req->loop->cloexec_lock); break; default: abort(); } #undef X } while (r == -1 && errno == EINTR && retry_on_eintr); if (r == -1) req->result = -errno; else req->result = r; if (r == 0 && (req->fs_type == UV_FS_STAT || req->fs_type == UV_FS_FSTAT || req->fs_type == UV_FS_LSTAT)) { req->ptr = &req->statbuf; } }