//! POSIX-like functions supporting absolute path arguments, implemented in //! terms of `__wasilibc_find_relpath` and `*at`-style functions. #include #include #include #include #include #include #include #include #include #include static int find_relpath2( const char *path, char **relative, size_t *relative_len ) { // See comments in `preopens.c` for what this trick is doing. const char *abs; if (__wasilibc_find_relpath_alloc) return __wasilibc_find_relpath_alloc(path, &abs, relative, relative_len, 1); return __wasilibc_find_relpath(path, &abs, relative, *relative_len); } // Helper to call `__wasilibc_find_relpath` and return an already-managed // pointer for the `relative` path. This function is not reentrant since the // `relative` pointer will point to static data that cannot be reused until // `relative` is no longer used. static int find_relpath(const char *path, char **relative) { static __thread char *relative_buf = NULL; static __thread size_t relative_buf_len = 0; int fd = find_relpath2(path, &relative_buf, &relative_buf_len); // find_relpath2 can update relative_buf, so assign it after the call *relative = relative_buf; return fd; } // same as `find_relpath`, but uses another set of static variables to cache static int find_relpath_alt(const char *path, char **relative) { static __thread char *relative_buf = NULL; static __thread size_t relative_buf_len = 0; int fd = find_relpath2(path, &relative_buf, &relative_buf_len); // find_relpath2 can update relative_buf, so assign it after the call *relative = relative_buf; return fd; } int open(const char *path, int oflag, ...) { // WASI libc's `openat` ignores the mode argument, so call a special // entrypoint which avoids the varargs calling convention. return __wasilibc_open_nomode(path, oflag); } // See the documentation in libc.h int __wasilibc_open_nomode(const char *path, int oflag) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_openat_nomode(dirfd, relative_path, oflag); } int access(const char *path, int amode) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_faccessat(dirfd, relative_path, amode, 0); } ssize_t readlink( const char *restrict path, char *restrict buf, size_t bufsize) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_readlinkat(dirfd, relative_path, buf, bufsize); } int stat(const char *restrict path, struct stat *restrict buf) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_fstatat(dirfd, relative_path, buf, 0); } int lstat(const char *restrict path, struct stat *restrict buf) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_fstatat(dirfd, relative_path, buf, AT_SYMLINK_NOFOLLOW); } int utime(const char *path, const struct utimbuf *times) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_utimensat( dirfd, relative_path, times ? ((struct timespec [2]) { { .tv_sec = times->actime }, { .tv_sec = times->modtime } }) : NULL, 0); } int utimes(const char *path, const struct timeval times[2]) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_utimensat( dirfd, relative_path, times ? ((struct timespec [2]) { { .tv_sec = times[0].tv_sec, .tv_nsec = times[0].tv_usec * 1000 }, { .tv_sec = times[1].tv_sec, .tv_nsec = times[1].tv_usec * 1000 }, }) : NULL, 0); } int unlink(const char *path) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } // `unlinkat` imports `__wasi_path_remove_directory` even when // `AT_REMOVEDIR` isn't passed. Instead, use a specialized function which // just imports `__wasi_path_unlink_file`. return __wasilibc_nocwd___wasilibc_unlinkat(dirfd, relative_path); } int rmdir(const char *path) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd___wasilibc_rmdirat(dirfd, relative_path); } int remove(const char *path) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } // First try to remove it as a file. int r = __wasilibc_nocwd___wasilibc_unlinkat(dirfd, relative_path); if (r != 0 && (errno == EISDIR || errno == ENOTCAPABLE)) { // That failed, but it might be a directory. r = __wasilibc_nocwd___wasilibc_rmdirat(dirfd, relative_path); // If it isn't a directory, we lack capabilities to remove it as a file. if (errno == ENOTDIR) errno = ENOTCAPABLE; } return r; } int mkdir(const char *path, mode_t mode) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_mkdirat_nomode(dirfd, relative_path); } DIR *opendir(const char *dirname) { char *relative_path; int dirfd = find_relpath(dirname, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return NULL; } return __wasilibc_nocwd_opendirat(dirfd, relative_path); } int scandir( const char *restrict dir, struct dirent ***restrict namelist, int (*filter)(const struct dirent *), int (*compar)(const struct dirent **, const struct dirent **) ) { char *relative_path; int dirfd = find_relpath(dir, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_scandirat(dirfd, relative_path, namelist, filter, compar); } int symlink(const char *target, const char *linkpath) { char *relative_path; int dirfd = find_relpath(linkpath, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_symlinkat(target, dirfd, relative_path); } int link(const char *old, const char *new) { char *old_relative_path; int old_dirfd = find_relpath_alt(old, &old_relative_path); if (old_dirfd != -1) { char *new_relative_path; int new_dirfd = find_relpath(new, &new_relative_path); if (new_dirfd != -1) return __wasilibc_nocwd_linkat(old_dirfd, old_relative_path, new_dirfd, new_relative_path, 0); } // We couldn't find a preopen for it; indicate that we lack capabilities. errno = ENOTCAPABLE; return -1; } int rename(const char *old, const char *new) { char *old_relative_path; int old_dirfd = find_relpath_alt(old, &old_relative_path); if (old_dirfd != -1) { char *new_relative_path; int new_dirfd = find_relpath(new, &new_relative_path); if (new_dirfd != -1) return __wasilibc_nocwd_renameat(old_dirfd, old_relative_path, new_dirfd, new_relative_path); } // We couldn't find a preopen for it; indicate that we lack capabilities. errno = ENOTCAPABLE; return -1; } // Like `access`, but with `faccessat`'s flags argument. int __wasilibc_access(const char *path, int mode, int flags) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_faccessat(dirfd, relative_path, mode, flags); } // Like `utimensat`, but without the `at` part. int __wasilibc_utimens(const char *path, const struct timespec times[2], int flags) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_utimensat(dirfd, relative_path, times, flags); } // Like `stat`, but with `fstatat`'s flags argument. int __wasilibc_stat(const char *__restrict path, struct stat *__restrict st, int flags) { char *relative_path; int dirfd = find_relpath(path, &relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_fstatat(dirfd, relative_path, st, flags); } // Like `link`, but with `linkat`'s flags argument. int __wasilibc_link(const char *oldpath, const char *newpath, int flags) { char *old_relative_path; char *new_relative_path; int old_dirfd = find_relpath(oldpath, &old_relative_path); int new_dirfd = find_relpath(newpath, &new_relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (old_dirfd == -1 || new_dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_linkat(old_dirfd, old_relative_path, new_dirfd, new_relative_path, flags); } // Like `__wasilibc_link`, but oldpath is relative to olddirfd. int __wasilibc_link_oldat(int olddirfd, const char *oldpath, const char *newpath, int flags) { char *new_relative_path; int new_dirfd = find_relpath(newpath, &new_relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (new_dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_linkat(olddirfd, oldpath, new_dirfd, new_relative_path, flags); } // Like `__wasilibc_link`, but newpath is relative to newdirfd. int __wasilibc_link_newat(const char *oldpath, int newdirfd, const char *newpath, int flags) { char *old_relative_path; int old_dirfd = find_relpath(oldpath, &old_relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (old_dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_linkat(old_dirfd, old_relative_path, newdirfd, newpath, flags); } // Like `rename`, but from is relative to fromdirfd. int __wasilibc_rename_oldat(int fromdirfd, const char *from, const char *to) { char *to_relative_path; int to_dirfd = find_relpath(to, &to_relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (to_dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_renameat(fromdirfd, from, to_dirfd, to_relative_path); } // Like `rename`, but to is relative to todirfd. int __wasilibc_rename_newat(const char *from, int todirfd, const char *to) { char *from_relative_path; int from_dirfd = find_relpath(from, &from_relative_path); // If we can't find a preopen for it, indicate that we lack capabilities. if (from_dirfd == -1) { errno = ENOTCAPABLE; return -1; } return __wasilibc_nocwd_renameat(from_dirfd, from_relative_path, todirfd, to); }