/* Copyright (C) 1991-2024 Free Software Foundation, Inc. This file is part of the GNU C Library. This file is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This file is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #if !_LIBC # include # include # include # include "pathmax.h" #else # define HAVE_OPENAT 1 # define D_INO_IN_DIRENT 1 # define HAVE_MSVC_INVALID_PARAMETER_HANDLER 0 # define HAVE_MINIMALLY_WORKING_GETCWD 0 #endif #include #include #include #include #include /* For AT_FDCWD on Solaris 9. */ /* If this host provides the openat function or if we're using the gnulib replacement function with a native fdopendir, then enable code below to make getcwd more efficient and robust. */ #if defined HAVE_OPENAT || (defined GNULIB_OPENAT && defined HAVE_FDOPENDIR) # define HAVE_OPENAT_SUPPORT 1 #else # define HAVE_OPENAT_SUPPORT 0 #endif #ifndef __set_errno # define __set_errno(val) (errno = (val)) #endif #include #ifndef _D_EXACT_NAMLEN # define _D_EXACT_NAMLEN(d) strlen ((d)->d_name) #endif #ifndef _D_ALLOC_NAMLEN # define _D_ALLOC_NAMLEN(d) (_D_EXACT_NAMLEN (d) + 1) #endif #include #include #include #if _LIBC # ifndef mempcpy # define mempcpy __mempcpy # endif #endif #ifndef MAX # define MAX(a, b) ((a) < (b) ? (b) : (a)) #endif #ifndef MIN # define MIN(a, b) ((a) < (b) ? (a) : (b)) #endif /* In this file, PATH_MAX only serves as a threshold for choosing among two algorithms. */ #ifndef PATH_MAX # define PATH_MAX 8192 #endif #if D_INO_IN_DIRENT # define MATCHING_INO(dp, ino) ((dp)->d_ino == (ino)) #else # define MATCHING_INO(dp, ino) true #endif #if HAVE_MSVC_INVALID_PARAMETER_HANDLER # include "msvc-inval.h" #endif #if !_LIBC # define GETCWD_RETURN_TYPE char * # define __close_nocancel_nostatus close # define __getcwd_generic rpl_getcwd # undef stat64 # define stat64 stat # define __fstat64 fstat # define __fstatat64 fstatat # define __lstat64 lstat # define __closedir closedir # define __opendir opendir # define __readdir64 readdir # define __fdopendir fdopendir # define __openat openat # define __rewinddir rewinddir # define __openat64 openat # define dirent64 dirent #else # include #endif /* The results of opendir() in this file are not used with dirfd and fchdir, and we do not leak fds to any single-threaded code that could use stdio, therefore save some unnecessary recursion in fchdir.c. FIXME - if the kernel ever adds support for multi-thread safety for avoiding standard fds, then we should use opendir_safer and openat_safer. */ #ifdef GNULIB_defined_DIR # undef DIR # undef opendir # undef closedir # undef readdir # undef rewinddir #else # ifdef GNULIB_defined_opendir # undef opendir # endif # ifdef GNULIB_defined_closedir # undef closedir # endif #endif #if defined _WIN32 && !defined __CYGWIN__ # if HAVE_MSVC_INVALID_PARAMETER_HANDLER static char * getcwd_nothrow (char *buf, size_t size) { char *result; TRY_MSVC_INVAL { result = _getcwd (buf, size); } CATCH_MSVC_INVAL { result = NULL; errno = ERANGE; } DONE_MSVC_INVAL; return result; } # else # define getcwd_nothrow _getcwd # endif # define getcwd_system getcwd_nothrow #else # define getcwd_system getcwd #endif /* Get the name of the current working directory, and put it in SIZE bytes of BUF. Returns NULL with errno set if the directory couldn't be determined or SIZE was too small. If successful, returns BUF. In GNU, if BUF is NULL, an array is allocated with 'malloc'; the array is SIZE bytes long, unless SIZE == 0, in which case it is as big as necessary. */ GETCWD_RETURN_TYPE __getcwd_generic (char *buf, size_t size) { /* Lengths of big file name components and entire file names, and a deep level of file name nesting. These numbers are not upper bounds; they are merely large values suitable for initial allocations, designed to be large enough for most real-world uses. */ enum { BIG_FILE_NAME_COMPONENT_LENGTH = 255, BIG_FILE_NAME_LENGTH = MIN (4095, PATH_MAX - 1), DEEP_NESTING = 100 }; #if HAVE_OPENAT_SUPPORT int fd = AT_FDCWD; bool fd_needs_closing = false; # if defined __linux__ bool proc_fs_not_mounted = false; # endif #else char dots[DEEP_NESTING * sizeof ".." + BIG_FILE_NAME_COMPONENT_LENGTH + 1]; char *dotlist = dots; size_t dotsize = sizeof dots; size_t dotlen = 0; #endif DIR *dirstream = NULL; dev_t rootdev, thisdev; ino_t rootino, thisino; char *dir; register char *dirp; struct stat64 st; size_t allocated = size; size_t used; #if HAVE_MINIMALLY_WORKING_GETCWD /* If AT_FDCWD is not defined, the algorithm below is O(N**2) and this is much slower than the system getcwd (at least on GNU/Linux). So trust the system getcwd's results unless they look suspicious. Use the system getcwd even if we have openat support, since the system getcwd works even when a parent is unreadable, while the openat-based approach does not. But on AIX 5.1..7.1, the system getcwd is not even minimally working: If the current directory name is slightly longer than PATH_MAX, it omits the first directory component and returns this wrong result with errno = 0. */ # undef getcwd dir = getcwd_system (buf, size); if (dir || (size && errno == ERANGE)) return dir; /* Solaris getcwd (NULL, 0) fails with errno == EINVAL, but it has internal magic that lets it work even if an ancestor directory is inaccessible, which is better in many cases. So in this case try again with a buffer that's almost always big enough. */ if (errno == EINVAL && buf == NULL && size == 0) { char big_buffer[BIG_FILE_NAME_LENGTH + 1]; dir = getcwd_system (big_buffer, sizeof big_buffer); if (dir) return strdup (dir); } # if HAVE_PARTLY_WORKING_GETCWD /* The system getcwd works, except it sometimes fails when it shouldn't, setting errno to ERANGE, ENAMETOOLONG, or ENOENT. */ if (errno != ERANGE && errno != ENAMETOOLONG && errno != ENOENT) return NULL; # endif #endif if (size == 0) { if (buf != NULL) { __set_errno (EINVAL); return NULL; } allocated = BIG_FILE_NAME_LENGTH + 1; } if (buf == NULL) { dir = malloc (allocated); if (dir == NULL) return NULL; } else dir = buf; dirp = dir + allocated; *--dirp = '\0'; if (__lstat64 (".", &st) < 0) goto lose; thisdev = st.st_dev; thisino = st.st_ino; if (__lstat64 ("/", &st) < 0) goto lose; rootdev = st.st_dev; rootino = st.st_ino; while (!(thisdev == rootdev && thisino == rootino)) { struct dirent64 *d; dev_t dotdev; ino_t dotino; bool mount_point; int parent_status; size_t dirroom; size_t namlen; bool use_d_ino = true; /* Look at the parent directory. */ #if HAVE_OPENAT_SUPPORT fd = __openat64 (fd, "..", O_RDONLY); if (fd < 0) goto lose; fd_needs_closing = true; parent_status = __fstat64 (fd, &st); #else dotlist[dotlen++] = '.'; dotlist[dotlen++] = '.'; dotlist[dotlen] = '\0'; parent_status = __lstat64 (dotlist, &st); #endif if (parent_status != 0) goto lose; if (dirstream && __closedir (dirstream) != 0) { dirstream = NULL; goto lose; } /* Figure out if this directory is a mount point. */ dotdev = st.st_dev; dotino = st.st_ino; mount_point = dotdev != thisdev; /* Search for the last directory. */ #if HAVE_OPENAT_SUPPORT dirstream = __fdopendir (fd); if (dirstream == NULL) goto lose; fd_needs_closing = false; #else dirstream = __opendir (dotlist); if (dirstream == NULL) goto lose; dotlist[dotlen++] = '/'; #endif for (;;) { /* Clear errno to distinguish EOF from error if readdir returns NULL. */ __set_errno (0); d = __readdir64 (dirstream); /* When we've iterated through all directory entries without finding one with a matching d_ino, rewind the stream and consider each name again, but this time, using lstat. This is necessary in a chroot on at least one system (glibc-2.3.6 + linux 2.6.12), where .., ../.., ../../.., etc. all had the same device number, yet the d_ino values for entries in / did not match those obtained via lstat. */ if (d == NULL && errno == 0 && use_d_ino) { use_d_ino = false; __rewinddir (dirstream); d = __readdir64 (dirstream); } if (d == NULL) { if (errno == 0) /* EOF on dirstream, which can mean e.g., that the current directory has been removed. */ __set_errno (ENOENT); goto lose; } if (d->d_name[0] == '.' && (d->d_name[1] == '\0' || (d->d_name[1] == '.' && d->d_name[2] == '\0'))) continue; if (use_d_ino) { bool match = (MATCHING_INO (d, thisino) || mount_point); if (! match) continue; } { int entry_status; #if HAVE_OPENAT_SUPPORT entry_status = __fstatat64 (fd, d->d_name, &st, AT_SYMLINK_NOFOLLOW); #else /* Compute size needed for this file name, or for the file name ".." in the same directory, whichever is larger. Room for ".." might be needed the next time through the outer loop. */ size_t name_alloc = _D_ALLOC_NAMLEN (d); size_t filesize = dotlen + MAX (sizeof "..", name_alloc); if (filesize < dotlen) goto memory_exhausted; if (dotsize < filesize) { /* My, what a deep directory tree you have, Grandma. */ size_t newsize = MAX (filesize, dotsize * 2); size_t i; if (newsize < dotsize) goto memory_exhausted; if (dotlist != dots) free (dotlist); dotlist = malloc (newsize); if (dotlist == NULL) goto lose; dotsize = newsize; i = 0; do { dotlist[i++] = '.'; dotlist[i++] = '.'; dotlist[i++] = '/'; } while (i < dotlen); } memcpy (dotlist + dotlen, d->d_name, _D_ALLOC_NAMLEN (d)); entry_status = __lstat64 (dotlist, &st); #endif /* We don't fail here if we cannot stat() a directory entry. This can happen when (network) file systems fail. If this entry is in fact the one we are looking for we will find out soon as we reach the end of the directory without having found anything. */ if (entry_status == 0 && S_ISDIR (st.st_mode) && st.st_dev == thisdev && st.st_ino == thisino) break; } } dirroom = dirp - dir; namlen = _D_EXACT_NAMLEN (d); if (dirroom <= namlen) { if (size != 0) { __set_errno (ERANGE); goto lose; } else { char *tmp; size_t oldsize = allocated; allocated += MAX (allocated, namlen); if (allocated < oldsize || ! (tmp = realloc (dir, allocated))) goto memory_exhausted; /* Move current contents up to the end of the buffer. This is guaranteed to be non-overlapping. */ dirp = memcpy (tmp + allocated - (oldsize - dirroom), tmp + dirroom, oldsize - dirroom); dir = tmp; } } dirp -= namlen; memcpy (dirp, d->d_name, namlen); *--dirp = '/'; thisdev = dotdev; thisino = dotino; #if HAVE_OPENAT_SUPPORT /* On some platforms, a system call returns the directory that FD points to. This is useful if some of the ancestor directories of the directory are unreadable, because in this situation the loop that climbs up the ancestor hierarchy runs into an EACCES error. For example, in some Android app, /data/data/com.termux is readable, but /data/data and /data are not. */ # if defined __linux__ /* On Linux, in particular, if /proc is mounted, readlink ("/proc/self/fd/") returns the directory, if its length is < 4096. (If the length is >= 4096, it fails with error ENAMETOOLONG, even if the buffer that we pass to the readlink function would be large enough.) */ if (!proc_fs_not_mounted) { char namebuf[14 + 10 + 1]; sprintf (namebuf, "/proc/self/fd/%u", (unsigned int) fd); char linkbuf[4096]; ssize_t linklen = readlink (namebuf, linkbuf, sizeof linkbuf); if (linklen < 0) { if (errno != ENAMETOOLONG) /* If this call was not successful, the next one will likely be not successful either. */ proc_fs_not_mounted = true; } else { dirroom = dirp - dir; if (dirroom < linklen) { if (size != 0) { __set_errno (ERANGE); goto lose; } else { char *tmp; size_t oldsize = allocated; allocated += linklen - dirroom; if (allocated < oldsize || ! (tmp = realloc (dir, allocated))) goto memory_exhausted; /* Move current contents up to the end of the buffer. */ dirp = memmove (tmp + dirroom + (allocated - oldsize), tmp + dirroom, oldsize - dirroom); dir = tmp; } } dirp -= linklen; memcpy (dirp, linkbuf, linklen); break; } } # endif #endif } if (dirstream && __closedir (dirstream) != 0) { dirstream = NULL; goto lose; } if (dirp == &dir[allocated - 1]) *--dirp = '/'; #if ! HAVE_OPENAT_SUPPORT if (dotlist != dots) free (dotlist); #endif used = dir + allocated - dirp; memmove (dir, dirp, used); if (size == 0) /* Ensure that the buffer is only as large as necessary. */ buf = (used < allocated ? realloc (dir, used) : dir); if (buf == NULL) /* Either buf was NULL all along, or 'realloc' failed but we still have the original string. */ buf = dir; return buf; memory_exhausted: __set_errno (ENOMEM); lose: { int save = errno; if (dirstream) __closedir (dirstream); #if HAVE_OPENAT_SUPPORT if (fd_needs_closing) __close_nocancel_nostatus (fd); #else if (dotlist != dots) free (dotlist); #endif if (buf == NULL) free (dir); __set_errno (save); } return NULL; } #if defined _LIBC && !defined GETCWD_RETURN_TYPE libc_hidden_def (__getcwd) weak_alias (__getcwd, getcwd) #endif