// Directory utilities. This library contains functions for locating configuration directories, for // testing if a command with a given name can be found in the PATH, and various other path-related // issues. #include "config.h" // IWYU pragma: keep #include #include #include #include #include #include #include #include #include #include "common.h" #include "env.h" #include "expand.h" #include "fallback.h" // IWYU pragma: keep #include "path.h" #include "wutil.h" // IWYU pragma: keep /// Unexpected error in path_get_path(). #define MISSING_COMMAND_ERR_MSG _(L"Error while searching for command '%ls'") static bool path_get_path_core(const wcstring &cmd, wcstring *out_path, const env_var_t &bin_path_var) { int err = ENOENT; debug(3, L"path_get_path( '%ls' )", cmd.c_str()); // If the command has a slash, it must be a full path. if (cmd.find(L'/') != wcstring::npos) { if (waccess(cmd, X_OK) != 0) { return false; } struct stat buff; if (wstat(cmd, &buff)) { return false; } if (S_ISREG(buff.st_mode)) { if (out_path) out_path->assign(cmd); return true; } errno = EACCES; return false; } wcstring bin_path; if (!bin_path_var.missing()) { bin_path = bin_path_var; } else { // Note that PREFIX is defined in the `Makefile` and is thus defined when this module is // compiled. This ensures we always default to "/bin", "/usr/bin" and the bin dir defined // for the fish programs. Possibly with a duplicate dir if PREFIX is empty, "/", "/usr" or // "/usr/". If the PREFIX duplicates /bin or /usr/bin that is harmless other than a trivial // amount of time testing a path we've already tested. bin_path = L"/bin" ARRAY_SEP_STR L"/usr/bin" ARRAY_SEP_STR PREFIX L"/bin"; } std::vector pathsv; tokenize_variable_array(bin_path, pathsv); for (auto next_path : pathsv) { if (next_path.empty()) continue; append_path_component(next_path, cmd); if (waccess(next_path, X_OK) == 0) { struct stat buff; if (wstat(next_path, &buff) == -1) { if (errno != EACCES) { wperror(L"stat"); } continue; } if (S_ISREG(buff.st_mode)) { if (out_path) *out_path = std::move(next_path); return true; } err = EACCES; } else { switch (errno) { case ENOENT: case ENAMETOOLONG: case EACCES: case ENOTDIR: { break; } default: { debug(1, MISSING_COMMAND_ERR_MSG, next_path.c_str()); wperror(L"access"); break; } } } } errno = err; return false; } bool path_get_path(const wcstring &cmd, wcstring *out_path, const env_vars_snapshot_t &vars) { return path_get_path_core(cmd, out_path, vars.get(L"PATH")); } bool path_get_path(const wcstring &cmd, wcstring *out_path) { return path_get_path_core(cmd, out_path, env_get_string(L"PATH")); } bool path_get_cdpath(const wcstring &dir, wcstring *out, const wchar_t *wd, const env_vars_snapshot_t &env_vars) { int err = ENOENT; if (dir.empty()) return false; if (wd) { size_t len = wcslen(wd); assert(wd[len - 1] == L'/'); } wcstring_list_t paths; if (dir.at(0) == L'/') { // Absolute path. paths.push_back(dir); } else if (string_prefixes_string(L"./", dir) || string_prefixes_string(L"../", dir) || dir == L"." || dir == L"..") { // Path is relative to the working directory. wcstring path; if (wd) path.append(wd); path.append(dir); paths.push_back(path); } else { // Respect CDPATH. env_var_t cdpaths = env_vars.get(L"CDPATH"); if (cdpaths.missing_or_empty()) cdpaths = L"."; std::vector cdpathsv; tokenize_variable_array(cdpaths, cdpathsv); for (auto next_path : cdpathsv) { if (next_path.empty()) next_path = L"."; if (next_path == L"." && wd != NULL) { // next_path is just '.', and we have a working directory, so use the wd instead. // TODO: if next_path starts with ./ we need to replace the . with the wd. next_path = wd; } expand_tilde(next_path); if (next_path.empty()) continue; wcstring whole_path = next_path; append_path_component(whole_path, dir); paths.push_back(whole_path); } } bool success = false; for (wcstring_list_t::const_iterator iter = paths.begin(); iter != paths.end(); ++iter) { struct stat buf; const wcstring &dir = *iter; if (wstat(dir, &buf) == 0) { if (S_ISDIR(buf.st_mode)) { success = true; if (out) out->assign(dir); break; } else { err = ENOTDIR; } } } if (!success) errno = err; return success; } bool path_can_be_implicit_cd(const wcstring &path, wcstring *out_path, const wchar_t *wd, const env_vars_snapshot_t &vars) { wcstring exp_path = path; expand_tilde(exp_path); bool result = false; if (string_prefixes_string(L"/", exp_path) || string_prefixes_string(L"./", exp_path) || string_prefixes_string(L"../", exp_path) || string_suffixes_string(L"/", exp_path) || exp_path == L"..") { // These paths can be implicit cd, so see if you cd to the path. Note that a single period // cannot (that's used for sourcing files anyways). result = path_get_cdpath(exp_path, out_path, wd, vars); } return result; } // If the given path looks like it's relative to the working directory, then prepend that working // directory. This operates on unescaped paths only (so a ~ means a literal ~). wcstring path_apply_working_directory(const wcstring &path, const wcstring &working_directory) { if (path.empty() || working_directory.empty()) return path; // We're going to make sure that if we want to prepend the wd, that the string has no leading // "/". bool prepend_wd = path.at(0) != L'/' && path.at(0) != HOME_DIRECTORY; if (!prepend_wd) { // No need to prepend the wd, so just return the path we were given. return path; } // Remove up to one "./". wcstring path_component = path; if (string_prefixes_string(L"./", path_component)) { path_component.erase(0, 2); } // Removing leading /s. while (string_prefixes_string(L"/", path_component)) { path_component.erase(0, 1); } // Construct and return a new path. wcstring new_path = working_directory; append_path_component(new_path, path_component); return new_path; } /// We separate this from path_create() for two reasons. First it's only caused if there is a /// problem, and thus is not central to the behavior of that function. Second, we only want to issue /// the message once. If the current shell starts a new fish shell (e.g., by running `fish -c` from /// a function) we don't want that subshell to issue the same warnings. static void maybe_issue_path_warning(const wcstring &which_dir, const wcstring &custom_error_msg, bool using_xdg, const wcstring &xdg_var, const wcstring &path, int saved_errno) { wcstring warning_var_name = L"_FISH_WARNED_" + which_dir; if (env_exist(warning_var_name.c_str(), ENV_GLOBAL | ENV_EXPORT)) { return; } env_set(warning_var_name, L"1", ENV_GLOBAL | ENV_EXPORT); debug(0, custom_error_msg.c_str()); if (path.empty()) { debug(0, _(L"Unable to locate the %ls directory."), which_dir.c_str()); debug(0, _(L"Please set the %ls or HOME environment variable before starting fish."), xdg_var.c_str()); } else { const wchar_t *env_var = using_xdg ? xdg_var.c_str() : L"HOME"; debug(0, _(L"Unable to locate %ls directory derived from $%ls: '%ls'."), which_dir.c_str(), env_var, path.c_str()); debug(0, _(L"The error was '%s'."), strerror(saved_errno)); debug(0, _(L"Please set $%ls to a directory where you have write access."), env_var); } fputwc(L'\n', stderr); } static void path_create(wcstring &path, const wcstring &xdg_var, const wcstring &which_dir, const wcstring &custom_error_msg) { bool path_done = false; bool using_xdg = false; int saved_errno = 0; // The vars we fetch must be exported. Allowing them to be universal doesn't make sense and // allowing that creates a lock inversion that deadlocks the shell since we're called before // uvars are available. const env_var_t xdg_dir = env_get_string(xdg_var, ENV_GLOBAL | ENV_EXPORT); if (!xdg_dir.missing_or_empty()) { using_xdg = true; path = xdg_dir + L"/fish"; if (create_directory(path) != -1) { path_done = true; } else { saved_errno = errno; } } else { const env_var_t home = env_get_string(L"HOME", ENV_GLOBAL | ENV_EXPORT); if (!home.missing_or_empty()) { path = home + (which_dir == L"config" ? L"/.config/fish" : L"/.local/share/fish"); if (create_directory(path) != -1) { path_done = true; } else { saved_errno = errno; } } } if (!path_done) { maybe_issue_path_warning(which_dir, custom_error_msg, using_xdg, xdg_var, path, saved_errno); path.clear(); } return; } /// Cache the config path. bool path_get_config(wcstring &path) { static bool config_path_done = false; static wcstring config_path(L""); if (!config_path_done) { path_create(config_path, L"XDG_CONFIG_HOME", L"config", _(L"Your personal settings will not be saved.")); config_path_done = true; } path = config_path; return !config_path.empty(); } /// Cache the data path. bool path_get_data(wcstring &path) { static bool data_path_done = false; static wcstring data_path(L""); if (!data_path_done) { data_path_done = true; path_create(data_path, L"XDG_DATA_HOME", L"data", _(L"Your history will not be saved.")); } path = data_path; return !data_path.empty(); } void path_make_canonical(wcstring &path) { // Ignore trailing slashes, unless it's the first character. size_t len = path.size(); while (len > 1 && path.at(len - 1) == L'/') len--; // Turn runs of slashes into a single slash. size_t trailing = 0; bool prev_was_slash = false; for (size_t leading = 0; leading < len; leading++) { wchar_t c = path.at(leading); bool is_slash = (c == '/'); if (!prev_was_slash || !is_slash) { // This is either the first slash in a run, or not a slash at all. path.at(trailing++) = c; } prev_was_slash = is_slash; } assert(trailing <= len); if (trailing < len) path.resize(trailing); } bool paths_are_equivalent(const wcstring &p1, const wcstring &p2) { if (p1 == p2) return true; size_t len1 = p1.size(), len2 = p2.size(); // Ignore trailing slashes after the first character. while (len1 > 1 && p1.at(len1 - 1) == L'/') len1--; while (len2 > 1 && p2.at(len2 - 1) == L'/') len2--; // Start walking size_t idx1 = 0, idx2 = 0; while (idx1 < len1 && idx2 < len2) { wchar_t c1 = p1.at(idx1), c2 = p2.at(idx2); // If the characters are different, the strings are not equivalent. if (c1 != c2) break; idx1++; idx2++; // If the character was a slash, walk forwards until we hit the end of the string, or a // non-slash. Note the first condition is invariant within the loop. while (c1 == L'/' && idx1 < len1 && p1.at(idx1) == L'/') idx1++; while (c2 == L'/' && idx2 < len2 && p2.at(idx2) == L'/') idx2++; } // We matched if we consumed all of the characters in both strings. return idx1 == len1 && idx2 == len2; } bool path_is_valid(const wcstring &path, const wcstring &working_directory) { bool path_is_valid; // Some special paths are always valid. if (path.empty()) { path_is_valid = false; } else if (path == L"." || path == L"./") { path_is_valid = true; } else if (path == L".." || path == L"../") { path_is_valid = (!working_directory.empty() && working_directory != L"/"); } else if (path.at(0) != '/') { // Prepend the working directory. Note that we know path is not empty here. wcstring tmp = working_directory; tmp.append(path); path_is_valid = (0 == waccess(tmp, F_OK)); } else { // Simple check. path_is_valid = (0 == waccess(path, F_OK)); } return path_is_valid; } bool paths_are_same_file(const wcstring &path1, const wcstring &path2) { if (paths_are_equivalent(path1, path2)) return true; struct stat s1, s2; if (wstat(path1, &s1) == 0 && wstat(path2, &s2) == 0) { return s1.st_ino == s2.st_ino && s1.st_dev == s2.st_dev; } return false; }