fish-shell/src/path.cpp

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// 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 "path.h"
#include <errno.h>
#include <sys/mount.h>
#include <sys/param.h>
#include <sys/stat.h>
#if defined(__linux__)
#include <sys/statfs.h>
#endif
#include <unistd.h>
#include <cstring>
#include <cwchar>
#include <memory>
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#include <string>
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#include <type_traits>
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#include <vector>
#include "common.h"
#include "env.h"
#include "expand.h"
#include "fallback.h" // IWYU pragma: keep
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#include "flog.h"
#include "wcstringutil.h"
#include "wutil.h" // IWYU pragma: keep
// 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.
const wcstring_list_t dflt_pathsv({L"/bin", L"/usr/bin", PREFIX L"/bin"});
static bool path_get_path_core(const wcstring &cmd, wcstring *out_path,
const maybe_t<env_var_t> &bin_path_var) {
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// If the command has a slash, it must be an absolute or relative path and thus we don't bother
// looking for a matching command.
if (cmd.find(L'/') != wcstring::npos) {
std::string narrow = wcs2string(cmd);
if (access(narrow.c_str(), X_OK) != 0) {
return false;
}
struct stat buff;
if (stat(narrow.c_str(), &buff)) {
return false;
}
if (S_ISREG(buff.st_mode)) {
if (out_path) out_path->assign(cmd);
return true;
}
errno = EACCES;
return false;
}
const wcstring_list_t *pathsv;
if (bin_path_var) {
pathsv = &bin_path_var->as_list();
} else {
pathsv = &dflt_pathsv;
}
int err = ENOENT;
for (auto next_path : *pathsv) {
if (next_path.empty()) continue;
append_path_component(next_path, cmd);
std::string narrow = wcs2string(next_path);
if (access(narrow.c_str(), X_OK) == 0) {
struct stat buff;
if (stat(narrow.c_str(), &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;
}
}
errno = err;
return false;
}
bool path_get_path(const wcstring &cmd, wcstring *out_path, const environment_t &vars) {
return path_get_path_core(cmd, out_path, vars.get(L"PATH"));
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}
bool path_is_executable(const std::string &path) {
if (access(path.c_str(), X_OK)) return false;
struct stat buff;
if (stat(path.c_str(), &buff) == -1) {
if (errno != EACCES) wperror(L" stat");
return false;
}
if (!S_ISREG(buff.st_mode)) return false;
return true;
}
/// \return 1 if the path is remote, 0 if local, -1 if unknown.
static int path_is_remote(const wcstring &path) {
std::string narrow = wcs2string(path);
#if defined(__linux__)
struct statfs buf {};
if (statfs(narrow.c_str(), &buf) < 0) {
return -1;
}
// Linux has constants for these like NFS_SUPER_MAGIC, SMB_SUPER_MAGIC, CIFS_MAGIC_NUMBER but
// these are in varying headers. Simply hard code them.
// NOTE: The cast is necessary for 32-bit systems because of the 4-byte CIFS_MAGIC_NUMBER
switch (static_cast<unsigned int>(buf.f_type)) {
case 0x6969: // NFS_SUPER_MAGIC
case 0x517B: // SMB_SUPER_MAGIC
case 0xFE534D42U: // SMB2_MAGIC_NUMBER - not in the manpage
case 0xFF534D42U: // CIFS_MAGIC_NUMBER
return 1;
default:
// Other FSes are assumed local.
return 0;
}
#elif defined(ST_LOCAL)
// ST_LOCAL is a flag to statvfs, which is itself standardized.
// In practice the only system to use this path is NetBSD.
struct statvfs buf {};
if (statvfs(narrow.c_str(), &buf) < 0) return -1;
return (buf.f_flag & ST_LOCAL) ? 0 : 1;
#elif defined(MNT_LOCAL)
struct statfs buf {};
if (statfs(narrow.c_str(), &buf) < 0) return -1;
return (buf.f_flags & MNT_LOCAL) ? 0 : 1;
#else
return -1;
#endif
}
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wcstring_list_t path_get_paths(const wcstring &cmd, const environment_t &vars) {
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FLOGF(path, L"path_get_paths('%ls')", cmd.c_str());
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wcstring_list_t paths;
// If the command has a slash, it must be an absolute or relative path and thus we don't bother
// looking for matching commands in the PATH var.
if (cmd.find(L'/') != wcstring::npos) {
std::string narrow = wcs2string(cmd);
if (path_is_executable(narrow)) paths.push_back(cmd);
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return paths;
}
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auto path_var = vars.get(L"PATH");
if (!path_var) return paths;
const wcstring_list_t &pathsv = path_var->as_list();
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for (auto path : pathsv) {
if (path.empty()) continue;
append_path_component(path, cmd);
std::string narrow = wcs2string(path);
if (path_is_executable(narrow)) paths.push_back(path);
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}
return paths;
}
wcstring_list_t path_apply_cdpath(const wcstring &dir, const wcstring &wd,
const environment_t &env_vars) {
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.
paths.push_back(path_normalize_for_cd(wd, dir));
} else {
// Respect CDPATH.
wcstring_list_t cdpathsv;
if (auto cdpaths = env_vars.get(L"CDPATH")) {
cdpathsv = cdpaths->as_list();
}
// Always append $PWD
cdpathsv.push_back(L".");
for (wcstring next_path : cdpathsv) {
if (next_path.empty()) next_path = L".";
if (next_path == L".") {
// next_path is just '.', and we have a working directory, so use the wd instead.
next_path = wd;
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}
// We want to return an absolute path (see issue 6220)
if (string_prefixes_string(L"./", next_path)) {
next_path = next_path.replace(0, 2, wd);
} else if (string_prefixes_string(L"../", next_path) || next_path == L"..") {
next_path = next_path.insert(0, wd);
}
expand_tilde(next_path, env_vars);
if (next_path.empty()) continue;
wcstring whole_path = std::move(next_path);
append_path_component(whole_path, dir);
paths.push_back(whole_path);
}
}
return paths;
}
maybe_t<wcstring> path_get_cdpath(const wcstring &dir, const wcstring &wd,
const environment_t &env_vars) {
int err = ENOENT;
if (dir.empty()) return none();
assert(!wd.empty() && wd.back() == L'/');
auto paths = path_apply_cdpath(dir, wd, env_vars);
for (const wcstring &dir : paths) {
struct stat buf;
if (wstat(dir, &buf) == 0) {
if (S_ISDIR(buf.st_mode)) {
return dir;
}
err = ENOTDIR;
}
}
errno = err;
return none();
}
maybe_t<wcstring> path_as_implicit_cd(const wcstring &path, const wcstring &wd,
const environment_t &vars) {
wcstring exp_path = path;
expand_tilde(exp_path, vars);
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).
return path_get_cdpath(exp_path, wd, vars);
}
return none();
}
// 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
// "/".
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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, env_stack_t &vars) {
wcstring warning_var_name = L"_FISH_WARNED_" + which_dir;
if (vars.get(warning_var_name, ENV_GLOBAL | ENV_EXPORT)) {
return;
}
vars.set_one(warning_var_name, ENV_GLOBAL | ENV_EXPORT, L"1");
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FLOG(error, custom_error_msg.c_str());
if (path.empty()) {
FLOGF(warning_path, _(L"Unable to locate the %ls directory."), which_dir.c_str());
FLOGF(warning_path,
_(L"Please set the %ls or HOME environment variable before starting fish."),
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xdg_var.c_str());
} else {
const wchar_t *env_var = using_xdg ? xdg_var.c_str() : L"HOME";
FLOGF(warning_path, _(L"Unable to locate %ls directory derived from $%ls: '%ls'."),
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which_dir.c_str(), env_var, path.c_str());
FLOGF(warning_path, _(L"The error was '%s'."), std::strerror(saved_errno));
FLOGF(warning_path, _(L"Please set $%ls to a directory where you have write access."),
env_var);
}
ignore_result(write(STDERR_FILENO, "\n", 1));
}
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/// Make sure the specified directory exists. If needed, try to create it and any currently not
/// existing parent directories, like mkdir -p,.
///
/// \return 0 if, at the time of function return the directory exists, -1 otherwise.
static int create_directory(const wcstring &d) {
bool ok = false;
struct stat buf;
int stat_res = 0;
while ((stat_res = wstat(d, &buf)) != 0) {
if (errno != EAGAIN) break;
}
if (stat_res == 0) {
if (S_ISDIR(buf.st_mode)) ok = true;
} else if (errno == ENOENT) {
wcstring dir = wdirname(d);
if (!create_directory(dir) && !wmkdir(d, 0700)) ok = true;
}
return ok ? 0 : -1;
}
/// The following type wraps up a user's "base" directories, corresponding (conceptually if not
/// actually) to XDG spec.
struct base_directory_t {
wcstring path{}; /// the path where we attempted to create the directory.
int err{0}; /// the error code if creating the directory failed, or 0 on success.
int is_remote{-1}; /// 1 if the directory is remote (e.g. NFS), 0 if local, -1 if unknown.
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bool used_xdg{false}; /// whether an XDG variable was used in resolving the directory.
bool success() const { return err == 0; }
};
/// Attempt to get a base directory, creating it if necessary. If a variable named \p xdg_var is
/// set, use that directory; otherwise use the path \p non_xdg_homepath rooted in $HOME. \return the
/// result; see the base_directory_t fields.
static base_directory_t make_base_directory(const wcstring &xdg_var,
const wchar_t *non_xdg_homepath) {
// 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.
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const auto &vars = env_stack_t::globals();
base_directory_t result{};
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const auto xdg_dir = vars.get(xdg_var, ENV_GLOBAL | ENV_EXPORT);
if (!xdg_dir.missing_or_empty()) {
result.path = xdg_dir->as_string() + L"/fish";
result.used_xdg = true;
} else {
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const auto home = vars.get(L"HOME", ENV_GLOBAL | ENV_EXPORT);
if (!home.missing_or_empty()) {
result.path = home->as_string() + non_xdg_homepath;
}
}
errno = 0;
if (result.path.empty()) {
result.err = ENOENT;
} else if (create_directory(result.path) < 0) {
result.err = errno;
} else {
result.err = 0;
// Need to append a trailing slash to check the contents of the directory, not its parent.
result.is_remote = path_is_remote(result.path + L'/');
}
return result;
}
static const base_directory_t &get_data_directory() {
static base_directory_t s_dir = make_base_directory(L"XDG_DATA_HOME", L"/.local/share/fish");
return s_dir;
}
static const base_directory_t &get_config_directory() {
static base_directory_t s_dir = make_base_directory(L"XDG_CONFIG_HOME", L"/.config/fish");
return s_dir;
}
void path_emit_config_directory_messages(env_stack_t &vars) {
const auto &data = get_data_directory();
if (!data.success()) {
maybe_issue_path_warning(L"data", _(L"Your history will not be saved."), data.used_xdg,
L"XDG_DATA_HOME", data.path, data.err, vars);
}
if (data.is_remote > 0) {
FLOG(path, "data path appears to be on a network volume");
}
const auto &config = get_config_directory();
if (!config.success()) {
maybe_issue_path_warning(L"config", _(L"Your personal settings will not be saved."),
config.used_xdg, L"XDG_CONFIG_HOME", config.path, config.err,
vars);
}
if (config.is_remote > 0) {
FLOG(path, "config path appears to be on a network volume");
}
}
bool path_get_config(wcstring &path) {
const auto &dir = get_config_directory();
path = dir.success() ? dir.path : L"";
return dir.success();
}
bool path_get_data(wcstring &path) {
const auto &dir = get_data_directory();
path = dir.success() ? dir.path : L"";
return dir.success();
}
int path_get_data_is_remote() { return get_data_directory().is_remote; }
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;
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}
assert(trailing <= len);
if (trailing < len) path.resize(trailing);
}
bool paths_are_equivalent(const wcstring &p1, const wcstring &p2) {
if (p1 == p2) return true;
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size_t len1 = p1.size(), len2 = p2.size();
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// 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--;
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// Start walking
size_t idx1 = 0, idx2 = 0;
while (idx1 < len1 && idx2 < len2) {
wchar_t c1 = p1.at(idx1), c2 = p2.at(idx2);
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// If the characters are different, the strings are not equivalent.
if (c1 != c2) break;
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idx1++;
idx2++;
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// 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++;
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}
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// 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;
}
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return false;
}
void append_path_component(wcstring &path, const wcstring &component) {
if (path.empty() || component.empty()) {
path.append(component);
} else {
size_t path_len = path.size();
bool path_slash = path.at(path_len - 1) == L'/';
bool comp_slash = component.at(0) == L'/';
if (!path_slash && !comp_slash) {
// Need a slash
path.push_back(L'/');
} else if (path_slash && comp_slash) {
// Too many slashes.
path.erase(path_len - 1, 1);
}
path.append(component);
}
}