/* * Copyright (C) the libgit2 contributors. All rights reserved. * * This file is part of libgit2, distributed under the GNU GPL v2 with * a Linking Exception. For full terms see the included COPYING file. */ #include "fs_path.h" #include "git2_util.h" #include "futils.h" #include "posix.h" #ifdef GIT_WIN32 #include "win32/posix.h" #include "win32/w32_buffer.h" #include "win32/w32_util.h" #include "win32/version.h" #include #else #include #endif #include #include #define ensure_error_set(code) do { \ const git_error *e = git_error_last(); \ if (!e || !e->message) \ git_error_set(e ? e->klass : GIT_ERROR_CALLBACK, \ "filesystem callback returned %d", code); \ } while(0) static int dos_drive_prefix_length(const char *path) { int i; /* * Does it start with an ASCII letter (i.e. highest bit not set), * followed by a colon? */ if (!(0x80 & (unsigned char)*path)) return *path && path[1] == ':' ? 2 : 0; /* * While drive letters must be letters of the English alphabet, it is * possible to assign virtually _any_ Unicode character via `subst` as * a drive letter to "virtual drives". Even `1`, or `ä`. Or fun stuff * like this: * * subst ֍: %USERPROFILE%\Desktop */ for (i = 1; i < 4 && (0x80 & (unsigned char)path[i]); i++) ; /* skip first UTF-8 character */ return path[i] == ':' ? i + 1 : 0; } #ifdef GIT_WIN32 static bool looks_like_network_computer_name(const char *path, int pos) { if (pos < 3) return false; if (path[0] != '/' || path[1] != '/') return false; while (pos-- > 2) { if (path[pos] == '/') return false; } return true; } #endif /* * Based on the Android implementation, BSD licensed. * http://android.git.kernel.org/ * * Copyright (C) 2008 The Android Open Source Project * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * AS IS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ int git_fs_path_basename_r(git_str *buffer, const char *path) { const char *endp, *startp; int len, result; /* Empty or NULL string gets treated as "." */ if (path == NULL || *path == '\0') { startp = "."; len = 1; goto Exit; } /* Strip trailing slashes */ endp = path + strlen(path) - 1; while (endp > path && *endp == '/') endp--; /* All slashes becomes "/" */ if (endp == path && *endp == '/') { startp = "/"; len = 1; goto Exit; } /* Find the start of the base */ startp = endp; while (startp > path && *(startp - 1) != '/') startp--; /* Cast is safe because max path < max int */ len = (int)(endp - startp + 1); Exit: result = len; if (buffer != NULL && git_str_set(buffer, startp, len) < 0) return -1; return result; } /* * Determine if the path is a Windows prefix and, if so, returns * its actual length. If it is not a prefix, returns -1. */ static int win32_prefix_length(const char *path, int len) { #ifndef GIT_WIN32 GIT_UNUSED(path); GIT_UNUSED(len); #else /* * Mimic unix behavior where '/.git' returns '/': 'C:/.git' * will return 'C:/' here */ if (dos_drive_prefix_length(path) == len) return len; /* * Similarly checks if we're dealing with a network computer name * '//computername/.git' will return '//computername/' */ if (looks_like_network_computer_name(path, len)) return len; #endif return -1; } /* * Based on the Android implementation, BSD licensed. * Check http://android.git.kernel.org/ */ int git_fs_path_dirname_r(git_str *buffer, const char *path) { const char *endp; int is_prefix = 0, len; /* Empty or NULL string gets treated as "." */ if (path == NULL || *path == '\0') { path = "."; len = 1; goto Exit; } /* Strip trailing slashes */ endp = path + strlen(path) - 1; while (endp > path && *endp == '/') endp--; if (endp - path + 1 > INT_MAX) { git_error_set(GIT_ERROR_INVALID, "path too long"); return -1; } if ((len = win32_prefix_length(path, (int)(endp - path + 1))) > 0) { is_prefix = 1; goto Exit; } /* Find the start of the dir */ while (endp > path && *endp != '/') endp--; /* Either the dir is "/" or there are no slashes */ if (endp == path) { path = (*endp == '/') ? "/" : "."; len = 1; goto Exit; } do { endp--; } while (endp > path && *endp == '/'); if (endp - path + 1 > INT_MAX) { git_error_set(GIT_ERROR_INVALID, "path too long"); return -1; } if ((len = win32_prefix_length(path, (int)(endp - path + 1))) > 0) { is_prefix = 1; goto Exit; } /* Cast is safe because max path < max int */ len = (int)(endp - path + 1); Exit: if (buffer) { if (git_str_set(buffer, path, len) < 0) return -1; if (is_prefix && git_str_putc(buffer, '/') < 0) return -1; } return len; } char *git_fs_path_dirname(const char *path) { git_str buf = GIT_STR_INIT; char *dirname; git_fs_path_dirname_r(&buf, path); dirname = git_str_detach(&buf); git_str_dispose(&buf); /* avoid memleak if error occurs */ return dirname; } char *git_fs_path_basename(const char *path) { git_str buf = GIT_STR_INIT; char *basename; git_fs_path_basename_r(&buf, path); basename = git_str_detach(&buf); git_str_dispose(&buf); /* avoid memleak if error occurs */ return basename; } size_t git_fs_path_basename_offset(git_str *buffer) { ssize_t slash; if (!buffer || buffer->size <= 0) return 0; slash = git_str_rfind_next(buffer, '/'); if (slash >= 0 && buffer->ptr[slash] == '/') return (size_t)(slash + 1); return 0; } int git_fs_path_root(const char *path) { int offset = 0, prefix_len; /* Does the root of the path look like a windows drive ? */ if ((prefix_len = dos_drive_prefix_length(path))) offset += prefix_len; #ifdef GIT_WIN32 /* Are we dealing with a windows network path? */ else if ((path[0] == '/' && path[1] == '/' && path[2] != '/') || (path[0] == '\\' && path[1] == '\\' && path[2] != '\\')) { offset += 2; /* Skip the computer name segment */ while (path[offset] && path[offset] != '/' && path[offset] != '\\') offset++; } if (path[offset] == '\\') return offset; #endif if (path[offset] == '/') return offset; return -1; /* Not a real error - signals that path is not rooted */ } static void path_trim_slashes(git_str *path) { int ceiling = git_fs_path_root(path->ptr) + 1; if (ceiling < 0) return; while (path->size > (size_t)ceiling) { if (path->ptr[path->size-1] != '/') break; path->ptr[path->size-1] = '\0'; path->size--; } } int git_fs_path_join_unrooted( git_str *path_out, const char *path, const char *base, ssize_t *root_at) { ssize_t root; GIT_ASSERT_ARG(path_out); GIT_ASSERT_ARG(path); root = (ssize_t)git_fs_path_root(path); if (base != NULL && root < 0) { if (git_str_joinpath(path_out, base, path) < 0) return -1; root = (ssize_t)strlen(base); } else { if (git_str_sets(path_out, path) < 0) return -1; if (root < 0) root = 0; else if (base) git_fs_path_equal_or_prefixed(base, path, &root); } if (root_at) *root_at = root; return 0; } void git_fs_path_squash_slashes(git_str *path) { char *p, *q; if (path->size == 0) return; for (p = path->ptr, q = path->ptr; *q; p++, q++) { *p = *q; while (*q == '/' && *(q+1) == '/') { path->size--; q++; } } *p = '\0'; } int git_fs_path_prettify(git_str *path_out, const char *path, const char *base) { char buf[GIT_PATH_MAX]; GIT_ASSERT_ARG(path_out); GIT_ASSERT_ARG(path); /* construct path if needed */ if (base != NULL && git_fs_path_root(path) < 0) { if (git_str_joinpath(path_out, base, path) < 0) return -1; path = path_out->ptr; } if (p_realpath(path, buf) == NULL) { /* git_error_set resets the errno when dealing with a GIT_ERROR_OS kind of error */ int error = (errno == ENOENT || errno == ENOTDIR) ? GIT_ENOTFOUND : -1; git_error_set(GIT_ERROR_OS, "failed to resolve path '%s'", path); git_str_clear(path_out); return error; } return git_str_sets(path_out, buf); } int git_fs_path_prettify_dir(git_str *path_out, const char *path, const char *base) { int error = git_fs_path_prettify(path_out, path, base); return (error < 0) ? error : git_fs_path_to_dir(path_out); } int git_fs_path_to_dir(git_str *path) { if (path->asize > 0 && git_str_len(path) > 0 && path->ptr[git_str_len(path) - 1] != '/') git_str_putc(path, '/'); return git_str_oom(path) ? -1 : 0; } void git_fs_path_string_to_dir(char *path, size_t size) { size_t end = strlen(path); if (end && path[end - 1] != '/' && end < size) { path[end] = '/'; path[end + 1] = '\0'; } } int git__percent_decode(git_str *decoded_out, const char *input) { int len, hi, lo, i; GIT_ASSERT_ARG(decoded_out); GIT_ASSERT_ARG(input); len = (int)strlen(input); git_str_clear(decoded_out); for(i = 0; i < len; i++) { char c = input[i]; if (c != '%') goto append; if (i >= len - 2) goto append; hi = git__fromhex(input[i + 1]); lo = git__fromhex(input[i + 2]); if (hi < 0 || lo < 0) goto append; c = (char)(hi << 4 | lo); i += 2; append: if (git_str_putc(decoded_out, c) < 0) return -1; } return 0; } static int error_invalid_local_file_uri(const char *uri) { git_error_set(GIT_ERROR_CONFIG, "'%s' is not a valid local file URI", uri); return -1; } static int local_file_url_prefixlen(const char *file_url) { int len = -1; if (git__prefixcmp(file_url, "file://") == 0) { if (file_url[7] == '/') len = 8; else if (git__prefixcmp(file_url + 7, "localhost/") == 0) len = 17; } return len; } bool git_fs_path_is_local_file_url(const char *file_url) { return (local_file_url_prefixlen(file_url) > 0); } int git_fs_path_fromurl(git_str *local_path_out, const char *file_url) { int offset; GIT_ASSERT_ARG(local_path_out); GIT_ASSERT_ARG(file_url); if ((offset = local_file_url_prefixlen(file_url)) < 0 || file_url[offset] == '\0' || file_url[offset] == '/') return error_invalid_local_file_uri(file_url); #ifndef GIT_WIN32 offset--; /* A *nix absolute path starts with a forward slash */ #endif git_str_clear(local_path_out); return git__percent_decode(local_path_out, file_url + offset); } int git_fs_path_walk_up( git_str *path, const char *ceiling, int (*cb)(void *data, const char *), void *data) { int error = 0; git_str iter; ssize_t stop = 0, scan; char oldc = '\0'; GIT_ASSERT_ARG(path); GIT_ASSERT_ARG(cb); if (ceiling != NULL) { if (git__prefixcmp(path->ptr, ceiling) == 0) stop = (ssize_t)strlen(ceiling); else stop = git_str_len(path); } scan = git_str_len(path); /* empty path: yield only once */ if (!scan) { error = cb(data, ""); if (error) ensure_error_set(error); return error; } iter.ptr = path->ptr; iter.size = git_str_len(path); iter.asize = path->asize; while (scan >= stop) { error = cb(data, iter.ptr); iter.ptr[scan] = oldc; if (error) { ensure_error_set(error); break; } scan = git_str_rfind_next(&iter, '/'); if (scan >= 0) { scan++; oldc = iter.ptr[scan]; iter.size = scan; iter.ptr[scan] = '\0'; } } if (scan >= 0) iter.ptr[scan] = oldc; /* relative path: yield for the last component */ if (!error && stop == 0 && iter.ptr[0] != '/') { error = cb(data, ""); if (error) ensure_error_set(error); } return error; } bool git_fs_path_exists(const char *path) { GIT_ASSERT_ARG_WITH_RETVAL(path, false); return p_access(path, F_OK) == 0; } bool git_fs_path_isdir(const char *path) { struct stat st; if (p_stat(path, &st) < 0) return false; return S_ISDIR(st.st_mode) != 0; } bool git_fs_path_isfile(const char *path) { struct stat st; GIT_ASSERT_ARG_WITH_RETVAL(path, false); if (p_stat(path, &st) < 0) return false; return S_ISREG(st.st_mode) != 0; } bool git_fs_path_islink(const char *path) { struct stat st; GIT_ASSERT_ARG_WITH_RETVAL(path, false); if (p_lstat(path, &st) < 0) return false; return S_ISLNK(st.st_mode) != 0; } #ifdef GIT_WIN32 bool git_fs_path_is_empty_dir(const char *path) { git_win32_path filter_w; bool empty = false; if (git_win32__findfirstfile_filter(filter_w, path)) { WIN32_FIND_DATAW findData; HANDLE hFind = FindFirstFileW(filter_w, &findData); /* FindFirstFile will fail if there are no children to the given * path, which can happen if the given path is a file (and obviously * has no children) or if the given path is an empty mount point. * (Most directories have at least directory entries '.' and '..', * but ridiculously another volume mounted in another drive letter's * path space do not, and thus have nothing to enumerate.) If * FindFirstFile fails, check if this is a directory-like thing * (a mount point). */ if (hFind == INVALID_HANDLE_VALUE) return git_fs_path_isdir(path); /* If the find handle was created successfully, then it's a directory */ empty = true; do { /* Allow the enumeration to return . and .. and still be considered * empty. In the special case of drive roots (i.e. C:\) where . and * .. do not occur, we can still consider the path to be an empty * directory if there's nothing there. */ if (!git_fs_path_is_dot_or_dotdotW(findData.cFileName)) { empty = false; break; } } while (FindNextFileW(hFind, &findData)); FindClose(hFind); } return empty; } #else static int path_found_entry(void *payload, git_str *path) { GIT_UNUSED(payload); return !git_fs_path_is_dot_or_dotdot(path->ptr); } bool git_fs_path_is_empty_dir(const char *path) { int error; git_str dir = GIT_STR_INIT; if (!git_fs_path_isdir(path)) return false; if ((error = git_str_sets(&dir, path)) != 0) git_error_clear(); else error = git_fs_path_direach(&dir, 0, path_found_entry, NULL); git_str_dispose(&dir); return !error; } #endif int git_fs_path_set_error(int errno_value, const char *path, const char *action) { switch (errno_value) { case ENOENT: case ENOTDIR: git_error_set(GIT_ERROR_OS, "could not find '%s' to %s", path, action); return GIT_ENOTFOUND; case EINVAL: case ENAMETOOLONG: git_error_set(GIT_ERROR_OS, "invalid path for filesystem '%s'", path); return GIT_EINVALIDSPEC; case EEXIST: git_error_set(GIT_ERROR_OS, "failed %s - '%s' already exists", action, path); return GIT_EEXISTS; case EACCES: git_error_set(GIT_ERROR_OS, "failed %s - '%s' is locked", action, path); return GIT_ELOCKED; default: git_error_set(GIT_ERROR_OS, "could not %s '%s'", action, path); return -1; } } int git_fs_path_lstat(const char *path, struct stat *st) { if (p_lstat(path, st) == 0) return 0; return git_fs_path_set_error(errno, path, "stat"); } static bool _check_dir_contents( git_str *dir, const char *sub, bool (*predicate)(const char *)) { bool result; size_t dir_size = git_str_len(dir); size_t sub_size = strlen(sub); size_t alloc_size; /* leave base valid even if we could not make space for subdir */ if (GIT_ADD_SIZET_OVERFLOW(&alloc_size, dir_size, sub_size) || GIT_ADD_SIZET_OVERFLOW(&alloc_size, alloc_size, 2) || git_str_try_grow(dir, alloc_size, false) < 0) return false; /* save excursion */ if (git_str_joinpath(dir, dir->ptr, sub) < 0) return false; result = predicate(dir->ptr); /* restore path */ git_str_truncate(dir, dir_size); return result; } bool git_fs_path_contains(git_str *dir, const char *item) { return _check_dir_contents(dir, item, &git_fs_path_exists); } bool git_fs_path_contains_dir(git_str *base, const char *subdir) { return _check_dir_contents(base, subdir, &git_fs_path_isdir); } bool git_fs_path_contains_file(git_str *base, const char *file) { return _check_dir_contents(base, file, &git_fs_path_isfile); } int git_fs_path_find_dir(git_str *dir) { int error = 0; char buf[GIT_PATH_MAX]; if (p_realpath(dir->ptr, buf) != NULL) error = git_str_sets(dir, buf); /* call dirname if this is not a directory */ if (!error) /* && git_fs_path_isdir(dir->ptr) == false) */ error = (git_fs_path_dirname_r(dir, dir->ptr) < 0) ? -1 : 0; if (!error) error = git_fs_path_to_dir(dir); return error; } int git_fs_path_resolve_relative(git_str *path, size_t ceiling) { char *base, *to, *from, *next; size_t len; GIT_ERROR_CHECK_ALLOC_STR(path); if (ceiling > path->size) ceiling = path->size; /* recognize drive prefixes, etc. that should not be backed over */ if (ceiling == 0) ceiling = git_fs_path_root(path->ptr) + 1; /* recognize URL prefixes that should not be backed over */ if (ceiling == 0) { for (next = path->ptr; *next && git__isalpha(*next); ++next); if (next[0] == ':' && next[1] == '/' && next[2] == '/') ceiling = (next + 3) - path->ptr; } base = to = from = path->ptr + ceiling; while (*from) { for (next = from; *next && *next != '/'; ++next); len = next - from; if (len == 1 && from[0] == '.') /* do nothing with singleton dot */; else if (len == 2 && from[0] == '.' && from[1] == '.') { /* error out if trying to up one from a hard base */ if (to == base && ceiling != 0) { git_error_set(GIT_ERROR_INVALID, "cannot strip root component off url"); return -1; } /* no more path segments to strip, * use '../' as a new base path */ if (to == base) { if (*next == '/') len++; if (to != from) memmove(to, from, len); to += len; /* this is now the base, can't back up from a * relative prefix */ base = to; } else { /* back up a path segment */ while (to > base && to[-1] == '/') to--; while (to > base && to[-1] != '/') to--; } } else { if (*next == '/' && *from != '/') len++; if (to != from) memmove(to, from, len); to += len; } from += len; while (*from == '/') from++; } *to = '\0'; path->size = to - path->ptr; return 0; } int git_fs_path_apply_relative(git_str *target, const char *relpath) { return git_str_joinpath(target, git_str_cstr(target), relpath) || git_fs_path_resolve_relative(target, 0); } int git_fs_path_cmp( const char *name1, size_t len1, int isdir1, const char *name2, size_t len2, int isdir2, int (*compare)(const char *, const char *, size_t)) { unsigned char c1, c2; size_t len = len1 < len2 ? len1 : len2; int cmp; cmp = compare(name1, name2, len); if (cmp) return cmp; c1 = name1[len]; c2 = name2[len]; if (c1 == '\0' && isdir1) c1 = '/'; if (c2 == '\0' && isdir2) c2 = '/'; return (c1 < c2) ? -1 : (c1 > c2) ? 1 : 0; } size_t git_fs_path_common_dirlen(const char *one, const char *two) { const char *p, *q, *dirsep = NULL; for (p = one, q = two; *p && *q; p++, q++) { if (*p == '/' && *q == '/') dirsep = p; else if (*p != *q) break; } return dirsep ? (dirsep - one) + 1 : 0; } int git_fs_path_make_relative(git_str *path, const char *parent) { const char *p, *q, *p_dirsep, *q_dirsep; size_t plen = path->size, newlen, alloclen, depth = 1, i, offset; for (p_dirsep = p = path->ptr, q_dirsep = q = parent; *p && *q; p++, q++) { if (*p == '/' && *q == '/') { p_dirsep = p; q_dirsep = q; } else if (*p != *q) break; } /* need at least 1 common path segment */ if ((p_dirsep == path->ptr || q_dirsep == parent) && (*p_dirsep != '/' || *q_dirsep != '/')) { git_error_set(GIT_ERROR_INVALID, "%s is not a parent of %s", parent, path->ptr); return GIT_ENOTFOUND; } if (*p == '/' && !*q) p++; else if (!*p && *q == '/') q++; else if (!*p && !*q) return git_str_clear(path), 0; else { p = p_dirsep + 1; q = q_dirsep + 1; } plen -= (p - path->ptr); if (!*q) return git_str_set(path, p, plen); for (; (q = strchr(q, '/')) && *(q + 1); q++) depth++; GIT_ERROR_CHECK_ALLOC_MULTIPLY(&newlen, depth, 3); GIT_ERROR_CHECK_ALLOC_ADD(&newlen, newlen, plen); GIT_ERROR_CHECK_ALLOC_ADD(&alloclen, newlen, 1); /* save the offset as we might realllocate the pointer */ offset = p - path->ptr; if (git_str_try_grow(path, alloclen, 1) < 0) return -1; p = path->ptr + offset; memmove(path->ptr + (depth * 3), p, plen + 1); for (i = 0; i < depth; i++) memcpy(path->ptr + (i * 3), "../", 3); path->size = newlen; return 0; } bool git_fs_path_has_non_ascii(const char *path, size_t pathlen) { const uint8_t *scan = (const uint8_t *)path, *end; for (end = scan + pathlen; scan < end; ++scan) if (*scan & 0x80) return true; return false; } #ifdef GIT_USE_ICONV int git_fs_path_iconv_init_precompose(git_fs_path_iconv_t *ic) { git_str_init(&ic->buf, 0); ic->map = iconv_open(GIT_PATH_REPO_ENCODING, GIT_PATH_NATIVE_ENCODING); return 0; } void git_fs_path_iconv_clear(git_fs_path_iconv_t *ic) { if (ic) { if (ic->map != (iconv_t)-1) iconv_close(ic->map); git_str_dispose(&ic->buf); } } int git_fs_path_iconv(git_fs_path_iconv_t *ic, const char **in, size_t *inlen) { char *nfd = (char*)*in, *nfc; size_t nfdlen = *inlen, nfclen, wantlen = nfdlen, alloclen, rv; int retry = 1; if (!ic || ic->map == (iconv_t)-1 || !git_fs_path_has_non_ascii(*in, *inlen)) return 0; git_str_clear(&ic->buf); while (1) { GIT_ERROR_CHECK_ALLOC_ADD(&alloclen, wantlen, 1); if (git_str_grow(&ic->buf, alloclen) < 0) return -1; nfc = ic->buf.ptr + ic->buf.size; nfclen = ic->buf.asize - ic->buf.size; rv = iconv(ic->map, &nfd, &nfdlen, &nfc, &nfclen); ic->buf.size = (nfc - ic->buf.ptr); if (rv != (size_t)-1) break; /* if we cannot convert the data (probably because iconv thinks * it is not valid UTF-8 source data), then use original data */ if (errno != E2BIG) return 0; /* make space for 2x the remaining data to be converted * (with per retry overhead to avoid infinite loops) */ wantlen = ic->buf.size + max(nfclen, nfdlen) * 2 + (size_t)(retry * 4); if (retry++ > 4) goto fail; } ic->buf.ptr[ic->buf.size] = '\0'; *in = ic->buf.ptr; *inlen = ic->buf.size; return 0; fail: git_error_set(GIT_ERROR_OS, "unable to convert unicode path data"); return -1; } static const char *nfc_file = "\xC3\x85\x73\x74\x72\xC3\xB6\x6D"; static const char *nfd_file = "\x41\xCC\x8A\x73\x74\x72\x6F\xCC\x88\x6D"; /* Check if the platform is decomposing unicode data for us. We will * emulate core Git and prefer to use precomposed unicode data internally * on these platforms, composing the decomposed unicode on the fly. * * This mainly happens on the Mac where HDFS stores filenames as * decomposed unicode. Even on VFAT and SAMBA file systems, the Mac will * return decomposed unicode from readdir() even when the actual * filesystem is storing precomposed unicode. */ bool git_fs_path_does_decompose_unicode(const char *root) { git_str nfc_path = GIT_STR_INIT; git_str nfd_path = GIT_STR_INIT; int fd; bool found_decomposed = false; size_t orig_len; const char *trailer; /* Create a file using a precomposed path and then try to find it * using the decomposed name. If the lookup fails, then we will mark * that we should precompose unicode for this repository. */ if (git_str_joinpath(&nfc_path, root, nfc_file) < 0) goto done; /* record original path length before trailer */ orig_len = nfc_path.size; if ((fd = git_futils_mktmp(&nfc_path, nfc_path.ptr, 0666)) < 0) goto done; p_close(fd); trailer = nfc_path.ptr + orig_len; /* try to look up as NFD path */ if (git_str_joinpath(&nfd_path, root, nfd_file) < 0 || git_str_puts(&nfd_path, trailer) < 0) goto done; found_decomposed = git_fs_path_exists(nfd_path.ptr); /* remove temporary file (using original precomposed path) */ (void)p_unlink(nfc_path.ptr); done: git_str_dispose(&nfc_path); git_str_dispose(&nfd_path); return found_decomposed; } #else bool git_fs_path_does_decompose_unicode(const char *root) { GIT_UNUSED(root); return false; } #endif #if defined(__sun) || defined(__GNU__) typedef char path_dirent_data[sizeof(struct dirent) + FILENAME_MAX + 1]; #else typedef struct dirent path_dirent_data; #endif int git_fs_path_direach( git_str *path, uint32_t flags, int (*fn)(void *, git_str *), void *arg) { int error = 0; ssize_t wd_len; DIR *dir; struct dirent *de; #ifdef GIT_USE_ICONV git_fs_path_iconv_t ic = GIT_PATH_ICONV_INIT; #endif GIT_UNUSED(flags); if (git_fs_path_to_dir(path) < 0) return -1; wd_len = git_str_len(path); if ((dir = opendir(path->ptr)) == NULL) { git_error_set(GIT_ERROR_OS, "failed to open directory '%s'", path->ptr); if (errno == ENOENT) return GIT_ENOTFOUND; return -1; } #ifdef GIT_USE_ICONV if ((flags & GIT_FS_PATH_DIR_PRECOMPOSE_UNICODE) != 0) (void)git_fs_path_iconv_init_precompose(&ic); #endif while ((de = readdir(dir)) != NULL) { const char *de_path = de->d_name; size_t de_len = strlen(de_path); if (git_fs_path_is_dot_or_dotdot(de_path)) continue; #ifdef GIT_USE_ICONV if ((error = git_fs_path_iconv(&ic, &de_path, &de_len)) < 0) break; #endif if ((error = git_str_put(path, de_path, de_len)) < 0) break; git_error_clear(); error = fn(arg, path); git_str_truncate(path, wd_len); /* restore path */ /* Only set our own error if the callback did not set one already */ if (error != 0) { if (!git_error_last()) ensure_error_set(error); break; } } closedir(dir); #ifdef GIT_USE_ICONV git_fs_path_iconv_clear(&ic); #endif return error; } #if defined(GIT_WIN32) && !defined(__MINGW32__) /* Using _FIND_FIRST_EX_LARGE_FETCH may increase performance in Windows 7 * and better. */ #ifndef FIND_FIRST_EX_LARGE_FETCH # define FIND_FIRST_EX_LARGE_FETCH 2 #endif int git_fs_path_diriter_init( git_fs_path_diriter *diriter, const char *path, unsigned int flags) { git_win32_path path_filter; static int is_win7_or_later = -1; if (is_win7_or_later < 0) is_win7_or_later = git_has_win32_version(6, 1, 0); GIT_ASSERT_ARG(diriter); GIT_ASSERT_ARG(path); memset(diriter, 0, sizeof(git_fs_path_diriter)); diriter->handle = INVALID_HANDLE_VALUE; if (git_str_puts(&diriter->path_utf8, path) < 0) return -1; path_trim_slashes(&diriter->path_utf8); if (diriter->path_utf8.size == 0) { git_error_set(GIT_ERROR_FILESYSTEM, "could not open directory '%s'", path); return -1; } if ((diriter->parent_len = git_win32_path_from_utf8(diriter->path, diriter->path_utf8.ptr)) < 0 || !git_win32__findfirstfile_filter(path_filter, diriter->path_utf8.ptr)) { git_error_set(GIT_ERROR_OS, "could not parse the directory path '%s'", path); return -1; } diriter->handle = FindFirstFileExW( path_filter, is_win7_or_later ? FindExInfoBasic : FindExInfoStandard, &diriter->current, FindExSearchNameMatch, NULL, is_win7_or_later ? FIND_FIRST_EX_LARGE_FETCH : 0); if (diriter->handle == INVALID_HANDLE_VALUE) { git_error_set(GIT_ERROR_OS, "could not open directory '%s'", path); return -1; } diriter->parent_utf8_len = diriter->path_utf8.size; diriter->flags = flags; return 0; } static int diriter_update_paths(git_fs_path_diriter *diriter) { size_t filename_len, path_len; filename_len = wcslen(diriter->current.cFileName); if (GIT_ADD_SIZET_OVERFLOW(&path_len, diriter->parent_len, filename_len) || GIT_ADD_SIZET_OVERFLOW(&path_len, path_len, 2)) return -1; if (path_len > GIT_WIN_PATH_UTF16) { git_error_set(GIT_ERROR_FILESYSTEM, "invalid path '%.*ls\\%ls' (path too long)", diriter->parent_len, diriter->path, diriter->current.cFileName); return -1; } diriter->path[diriter->parent_len] = L'\\'; memcpy(&diriter->path[diriter->parent_len+1], diriter->current.cFileName, filename_len * sizeof(wchar_t)); diriter->path[path_len-1] = L'\0'; git_str_truncate(&diriter->path_utf8, diriter->parent_utf8_len); if (diriter->parent_utf8_len > 0 && diriter->path_utf8.ptr[diriter->parent_utf8_len-1] != '/') git_str_putc(&diriter->path_utf8, '/'); git_str_put_w(&diriter->path_utf8, diriter->current.cFileName, filename_len); if (git_str_oom(&diriter->path_utf8)) return -1; return 0; } int git_fs_path_diriter_next(git_fs_path_diriter *diriter) { bool skip_dot = !(diriter->flags & GIT_FS_PATH_DIR_INCLUDE_DOT_AND_DOTDOT); do { /* Our first time through, we already have the data from * FindFirstFileW. Use it, otherwise get the next file. */ if (!diriter->needs_next) diriter->needs_next = 1; else if (!FindNextFileW(diriter->handle, &diriter->current)) return GIT_ITEROVER; } while (skip_dot && git_fs_path_is_dot_or_dotdotW(diriter->current.cFileName)); if (diriter_update_paths(diriter) < 0) return -1; return 0; } int git_fs_path_diriter_filename( const char **out, size_t *out_len, git_fs_path_diriter *diriter) { GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(out_len); GIT_ASSERT_ARG(diriter); GIT_ASSERT(diriter->path_utf8.size > diriter->parent_utf8_len); *out = &diriter->path_utf8.ptr[diriter->parent_utf8_len+1]; *out_len = diriter->path_utf8.size - diriter->parent_utf8_len - 1; return 0; } int git_fs_path_diriter_fullpath( const char **out, size_t *out_len, git_fs_path_diriter *diriter) { GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(out_len); GIT_ASSERT_ARG(diriter); *out = diriter->path_utf8.ptr; *out_len = diriter->path_utf8.size; return 0; } int git_fs_path_diriter_stat(struct stat *out, git_fs_path_diriter *diriter) { GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(diriter); return git_win32__file_attribute_to_stat(out, (WIN32_FILE_ATTRIBUTE_DATA *)&diriter->current, diriter->path); } void git_fs_path_diriter_free(git_fs_path_diriter *diriter) { if (diriter == NULL) return; git_str_dispose(&diriter->path_utf8); if (diriter->handle != INVALID_HANDLE_VALUE) { FindClose(diriter->handle); diriter->handle = INVALID_HANDLE_VALUE; } } #else int git_fs_path_diriter_init( git_fs_path_diriter *diriter, const char *path, unsigned int flags) { GIT_ASSERT_ARG(diriter); GIT_ASSERT_ARG(path); memset(diriter, 0, sizeof(git_fs_path_diriter)); if (git_str_puts(&diriter->path, path) < 0) return -1; path_trim_slashes(&diriter->path); if (diriter->path.size == 0) { git_error_set(GIT_ERROR_FILESYSTEM, "could not open directory '%s'", path); return -1; } if ((diriter->dir = opendir(diriter->path.ptr)) == NULL) { git_str_dispose(&diriter->path); git_error_set(GIT_ERROR_OS, "failed to open directory '%s'", path); return -1; } #ifdef GIT_USE_ICONV if ((flags & GIT_FS_PATH_DIR_PRECOMPOSE_UNICODE) != 0) (void)git_fs_path_iconv_init_precompose(&diriter->ic); #endif diriter->parent_len = diriter->path.size; diriter->flags = flags; return 0; } int git_fs_path_diriter_next(git_fs_path_diriter *diriter) { struct dirent *de; const char *filename; size_t filename_len; bool skip_dot = !(diriter->flags & GIT_FS_PATH_DIR_INCLUDE_DOT_AND_DOTDOT); int error = 0; GIT_ASSERT_ARG(diriter); errno = 0; do { if ((de = readdir(diriter->dir)) == NULL) { if (!errno) return GIT_ITEROVER; git_error_set(GIT_ERROR_OS, "could not read directory '%s'", diriter->path.ptr); return -1; } } while (skip_dot && git_fs_path_is_dot_or_dotdot(de->d_name)); filename = de->d_name; filename_len = strlen(filename); #ifdef GIT_USE_ICONV if ((diriter->flags & GIT_FS_PATH_DIR_PRECOMPOSE_UNICODE) != 0 && (error = git_fs_path_iconv(&diriter->ic, &filename, &filename_len)) < 0) return error; #endif git_str_truncate(&diriter->path, diriter->parent_len); if (diriter->parent_len > 0 && diriter->path.ptr[diriter->parent_len-1] != '/') git_str_putc(&diriter->path, '/'); git_str_put(&diriter->path, filename, filename_len); if (git_str_oom(&diriter->path)) return -1; return error; } int git_fs_path_diriter_filename( const char **out, size_t *out_len, git_fs_path_diriter *diriter) { GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(out_len); GIT_ASSERT_ARG(diriter); GIT_ASSERT(diriter->path.size > diriter->parent_len); *out = &diriter->path.ptr[diriter->parent_len+1]; *out_len = diriter->path.size - diriter->parent_len - 1; return 0; } int git_fs_path_diriter_fullpath( const char **out, size_t *out_len, git_fs_path_diriter *diriter) { GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(out_len); GIT_ASSERT_ARG(diriter); *out = diriter->path.ptr; *out_len = diriter->path.size; return 0; } int git_fs_path_diriter_stat(struct stat *out, git_fs_path_diriter *diriter) { GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(diriter); return git_fs_path_lstat(diriter->path.ptr, out); } void git_fs_path_diriter_free(git_fs_path_diriter *diriter) { if (diriter == NULL) return; if (diriter->dir) { closedir(diriter->dir); diriter->dir = NULL; } #ifdef GIT_USE_ICONV git_fs_path_iconv_clear(&diriter->ic); #endif git_str_dispose(&diriter->path); } #endif int git_fs_path_dirload( git_vector *contents, const char *path, size_t prefix_len, uint32_t flags) { git_fs_path_diriter iter = GIT_FS_PATH_DIRITER_INIT; const char *name; size_t name_len; char *dup; int error; GIT_ASSERT_ARG(contents); GIT_ASSERT_ARG(path); if ((error = git_fs_path_diriter_init(&iter, path, flags)) < 0) return error; while ((error = git_fs_path_diriter_next(&iter)) == 0) { if ((error = git_fs_path_diriter_fullpath(&name, &name_len, &iter)) < 0) break; GIT_ASSERT(name_len > prefix_len); dup = git__strndup(name + prefix_len, name_len - prefix_len); GIT_ERROR_CHECK_ALLOC(dup); if ((error = git_vector_insert(contents, dup)) < 0) break; } if (error == GIT_ITEROVER) error = 0; git_fs_path_diriter_free(&iter); return error; } int git_fs_path_from_url_or_path(git_str *local_path_out, const char *url_or_path) { if (git_fs_path_is_local_file_url(url_or_path)) return git_fs_path_fromurl(local_path_out, url_or_path); else return git_str_sets(local_path_out, url_or_path); } /* Reject paths like AUX or COM1, or those versions that end in a dot or * colon. ("AUX." or "AUX:") */ GIT_INLINE(bool) validate_dospath( const char *component, size_t len, const char dospath[3], bool trailing_num) { size_t last = trailing_num ? 4 : 3; if (len < last || git__strncasecmp(component, dospath, 3) != 0) return true; if (trailing_num && (component[3] < '1' || component[3] > '9')) return true; return (len > last && component[last] != '.' && component[last] != ':'); } GIT_INLINE(bool) validate_char(unsigned char c, unsigned int flags) { if ((flags & GIT_FS_PATH_REJECT_BACKSLASH) && c == '\\') return false; if ((flags & GIT_FS_PATH_REJECT_SLASH) && c == '/') return false; if (flags & GIT_FS_PATH_REJECT_NT_CHARS) { if (c < 32) return false; switch (c) { case '<': case '>': case ':': case '"': case '|': case '?': case '*': return false; } } return true; } /* * We fundamentally don't like some paths when dealing with user-inputted * strings (to avoid escaping a sandbox): we don't want dot or dot-dot * anywhere, we want to avoid writing weird paths on Windows that can't * be handled by tools that use the non-\\?\ APIs, we don't want slashes * or double slashes at the end of paths that can make them ambiguous. * * For checkout, we don't want to recurse into ".git" either. */ static bool validate_component( const char *component, size_t len, unsigned int flags) { if (len == 0) return !(flags & GIT_FS_PATH_REJECT_EMPTY_COMPONENT); if ((flags & GIT_FS_PATH_REJECT_TRAVERSAL) && len == 1 && component[0] == '.') return false; if ((flags & GIT_FS_PATH_REJECT_TRAVERSAL) && len == 2 && component[0] == '.' && component[1] == '.') return false; if ((flags & GIT_FS_PATH_REJECT_TRAILING_DOT) && component[len - 1] == '.') return false; if ((flags & GIT_FS_PATH_REJECT_TRAILING_SPACE) && component[len - 1] == ' ') return false; if ((flags & GIT_FS_PATH_REJECT_TRAILING_COLON) && component[len - 1] == ':') return false; if (flags & GIT_FS_PATH_REJECT_DOS_PATHS) { if (!validate_dospath(component, len, "CON", false) || !validate_dospath(component, len, "PRN", false) || !validate_dospath(component, len, "AUX", false) || !validate_dospath(component, len, "NUL", false) || !validate_dospath(component, len, "COM", true) || !validate_dospath(component, len, "LPT", true)) return false; } return true; } #ifdef GIT_WIN32 GIT_INLINE(bool) validate_length( const char *path, size_t len, size_t utf8_char_len) { GIT_UNUSED(path); GIT_UNUSED(len); return (utf8_char_len <= MAX_PATH); } #endif bool git_fs_path_str_is_valid_ext( const git_str *path, unsigned int flags, bool (*validate_char_cb)(char ch, void *payload), bool (*validate_component_cb)(const char *component, size_t len, void *payload), bool (*validate_length_cb)(const char *path, size_t len, size_t utf8_char_len), void *payload) { const char *start, *c; size_t len = 0; if (!flags) return true; for (start = c = path->ptr; *c && len < path->size; c++, len++) { if (!validate_char(*c, flags)) return false; if (validate_char_cb && !validate_char_cb(*c, payload)) return false; if (*c != '/') continue; if (!validate_component(start, (c - start), flags)) return false; if (validate_component_cb && !validate_component_cb(start, (c - start), payload)) return false; start = c + 1; } /* * We want to support paths specified as either `const char *` * or `git_str *`; we pass size as `SIZE_MAX` when we use a * `const char *` to avoid a `strlen`. Ensure that we didn't * have a NUL in the buffer if there was a non-SIZE_MAX length. */ if (path->size != SIZE_MAX && len != path->size) return false; if (!validate_component(start, (c - start), flags)) return false; if (validate_component_cb && !validate_component_cb(start, (c - start), payload)) return false; #ifdef GIT_WIN32 if ((flags & GIT_FS_PATH_REJECT_LONG_PATHS) != 0) { size_t utf8_len = git_utf8_char_length(path->ptr, len); if (!validate_length(path->ptr, len, utf8_len)) return false; if (validate_length_cb && !validate_length_cb(path->ptr, len, utf8_len)) return false; } #else GIT_UNUSED(validate_length_cb); #endif return true; } int git_fs_path_validate_str_length_with_suffix( git_str *path, size_t suffix_len) { #ifdef GIT_WIN32 size_t utf8_len = git_utf8_char_length(path->ptr, path->size); size_t total_len; if (GIT_ADD_SIZET_OVERFLOW(&total_len, utf8_len, suffix_len) || total_len > MAX_PATH) { git_error_set(GIT_ERROR_FILESYSTEM, "path too long: '%.*s'", (int)path->size, path->ptr); return -1; } #else GIT_UNUSED(path); GIT_UNUSED(suffix_len); #endif return 0; } int git_fs_path_normalize_slashes(git_str *out, const char *path) { int error; char *p; if ((error = git_str_puts(out, path)) < 0) return error; for (p = out->ptr; *p; p++) { if (*p == '\\') *p = '/'; } return 0; } bool git_fs_path_supports_symlinks(const char *dir) { git_str path = GIT_STR_INIT; bool supported = false; struct stat st; int fd; if ((fd = git_futils_mktmp(&path, dir, 0666)) < 0 || p_close(fd) < 0 || p_unlink(path.ptr) < 0 || p_symlink("testing", path.ptr) < 0 || p_lstat(path.ptr, &st) < 0) goto done; supported = (S_ISLNK(st.st_mode) != 0); done: if (path.size) (void)p_unlink(path.ptr); git_str_dispose(&path); return supported; } static git_fs_path_owner_t mock_owner = GIT_FS_PATH_OWNER_NONE; void git_fs_path__set_owner(git_fs_path_owner_t owner) { mock_owner = owner; } #ifdef GIT_WIN32 static PSID *sid_dup(PSID sid) { DWORD len; PSID dup; len = GetLengthSid(sid); if ((dup = git__malloc(len)) == NULL) return NULL; if (!CopySid(len, dup, sid)) { git_error_set(GIT_ERROR_OS, "could not duplicate sid"); git__free(dup); return NULL; } return dup; } static int current_user_sid(PSID *out) { TOKEN_USER *info = NULL; HANDLE token = NULL; DWORD len = 0; int error = -1; if (!OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &token)) { git_error_set(GIT_ERROR_OS, "could not lookup process information"); goto done; } if (GetTokenInformation(token, TokenUser, NULL, 0, &len) || GetLastError() != ERROR_INSUFFICIENT_BUFFER) { git_error_set(GIT_ERROR_OS, "could not lookup token metadata"); goto done; } info = git__malloc(len); GIT_ERROR_CHECK_ALLOC(info); if (!GetTokenInformation(token, TokenUser, info, len, &len)) { git_error_set(GIT_ERROR_OS, "could not lookup current user"); goto done; } if ((*out = sid_dup(info->User.Sid))) error = 0; done: if (token) CloseHandle(token); git__free(info); return error; } static int file_owner_sid(PSID *out, const char *path) { git_win32_path path_w32; PSECURITY_DESCRIPTOR descriptor = NULL; PSID owner_sid; DWORD ret; int error = -1; if (git_win32_path_from_utf8(path_w32, path) < 0) return -1; ret = GetNamedSecurityInfoW(path_w32, SE_FILE_OBJECT, OWNER_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION, &owner_sid, NULL, NULL, NULL, &descriptor); if (ret == ERROR_FILE_NOT_FOUND || ret == ERROR_PATH_NOT_FOUND) error = GIT_ENOTFOUND; else if (ret != ERROR_SUCCESS) git_error_set(GIT_ERROR_OS, "failed to get security information"); else if (!IsValidSid(owner_sid)) git_error_set(GIT_ERROR_OS, "file owner is not valid"); else if ((*out = sid_dup(owner_sid))) error = 0; if (descriptor) LocalFree(descriptor); return error; } int git_fs_path_owner_is( bool *out, const char *path, git_fs_path_owner_t owner_type) { PSID owner_sid = NULL, user_sid = NULL; BOOL is_admin, admin_owned; int error; if (mock_owner) { *out = ((mock_owner & owner_type) != 0); return 0; } if ((error = file_owner_sid(&owner_sid, path)) < 0) goto done; if ((owner_type & GIT_FS_PATH_OWNER_CURRENT_USER) != 0) { if ((error = current_user_sid(&user_sid)) < 0) goto done; if (EqualSid(owner_sid, user_sid)) { *out = true; goto done; } } admin_owned = IsWellKnownSid(owner_sid, WinBuiltinAdministratorsSid) || IsWellKnownSid(owner_sid, WinLocalSystemSid); if (admin_owned && (owner_type & GIT_FS_PATH_OWNER_ADMINISTRATOR) != 0) { *out = true; goto done; } if (admin_owned && (owner_type & GIT_FS_PATH_USER_IS_ADMINISTRATOR) != 0 && CheckTokenMembership(NULL, owner_sid, &is_admin) && is_admin) { *out = true; goto done; } *out = false; done: git__free(owner_sid); git__free(user_sid); return error; } #else static int sudo_uid_lookup(uid_t *out) { git_str uid_str = GIT_STR_INIT; int64_t uid; int error; if ((error = git__getenv(&uid_str, "SUDO_UID")) == 0 && (error = git__strntol64(&uid, uid_str.ptr, uid_str.size, NULL, 10)) == 0 && uid == (int64_t)((uid_t)uid)) { *out = (uid_t)uid; } git_str_dispose(&uid_str); return error; } int git_fs_path_owner_is( bool *out, const char *path, git_fs_path_owner_t owner_type) { struct stat st; uid_t euid, sudo_uid; if (mock_owner) { *out = ((mock_owner & owner_type) != 0); return 0; } euid = geteuid(); if (p_lstat(path, &st) != 0) { if (errno == ENOENT) return GIT_ENOTFOUND; git_error_set(GIT_ERROR_OS, "could not stat '%s'", path); return -1; } if ((owner_type & GIT_FS_PATH_OWNER_CURRENT_USER) != 0 && st.st_uid == euid) { *out = true; return 0; } if ((owner_type & GIT_FS_PATH_OWNER_ADMINISTRATOR) != 0 && st.st_uid == 0) { *out = true; return 0; } if ((owner_type & GIT_FS_PATH_OWNER_RUNNING_SUDO) != 0 && euid == 0 && sudo_uid_lookup(&sudo_uid) == 0 && st.st_uid == sudo_uid) { *out = true; return 0; } *out = false; return 0; } #endif int git_fs_path_owner_is_current_user(bool *out, const char *path) { return git_fs_path_owner_is(out, path, GIT_FS_PATH_OWNER_CURRENT_USER); } int git_fs_path_owner_is_system(bool *out, const char *path) { return git_fs_path_owner_is(out, path, GIT_FS_PATH_OWNER_ADMINISTRATOR); } int git_fs_path_find_executable(git_str *fullpath, const char *executable) { #ifdef GIT_WIN32 git_win32_path fullpath_w, executable_w; int error; if (git__utf8_to_16(executable_w, GIT_WIN_PATH_MAX, executable) < 0) return -1; error = git_win32_path_find_executable(fullpath_w, executable_w); if (error == 0) error = git_str_put_w(fullpath, fullpath_w, wcslen(fullpath_w)); return error; #else git_str path = GIT_STR_INIT; const char *current_dir, *term; bool found = false; if (git__getenv(&path, "PATH") < 0) return -1; current_dir = path.ptr; while (*current_dir) { if (! (term = strchr(current_dir, GIT_PATH_LIST_SEPARATOR))) term = strchr(current_dir, '\0'); git_str_clear(fullpath); if (git_str_put(fullpath, current_dir, (term - current_dir)) < 0 || git_str_putc(fullpath, '/') < 0 || git_str_puts(fullpath, executable) < 0) return -1; if (git_fs_path_isfile(fullpath->ptr)) { found = true; break; } current_dir = term; while (*current_dir == GIT_PATH_LIST_SEPARATOR) current_dir++; } git_str_dispose(&path); if (found) return 0; git_str_clear(fullpath); return GIT_ENOTFOUND; #endif }