//===------------------ directory_iterator.cpp ----------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "experimental/filesystem"
#include "__config"
#if defined(_LIBCPP_WIN32API)
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#else
#include <dirent.h>
#endif
#include <errno.h>
_LIBCPP_BEGIN_NAMESPACE_EXPERIMENTAL_FILESYSTEM
namespace { namespace detail {
#if !defined(_LIBCPP_WIN32API)
inline error_code capture_errno() {
_LIBCPP_ASSERT(errno, "Expected errno to be non-zero");
return error_code{errno, std::generic_category()};
}
#endif
template <class ...Args>
inline bool set_or_throw(std::error_code& my_ec,
std::error_code* user_ec,
const char* msg, Args&&... args)
{
if (user_ec) {
*user_ec = my_ec;
return true;
}
__throw_filesystem_error(msg, std::forward<Args>(args)..., my_ec);
return false;
}
#if !defined(_LIBCPP_WIN32API)
inline path::string_type posix_readdir(DIR *dir_stream, error_code& ec) {
struct dirent* dir_entry_ptr = nullptr;
errno = 0; // zero errno in order to detect errors
ec.clear();
if ((dir_entry_ptr = ::readdir(dir_stream)) == nullptr) {
if (errno)
ec = capture_errno();
return {};
} else {
return dir_entry_ptr->d_name;
}
}
#endif
}} // namespace detail
using detail::set_or_throw;
#if defined(_LIBCPP_WIN32API)
class __dir_stream {
public:
__dir_stream() = delete;
__dir_stream& operator=(const __dir_stream&) = delete;
__dir_stream(__dir_stream&& __ds) noexcept
: __stream_(__ds.__stream_), __root_(std::move(__ds.__root_)),
__entry_(std::move(__ds.__entry_)) {
__ds.__stream_ = INVALID_HANDLE_VALUE;
}
__dir_stream(const path& root, directory_options opts, error_code& ec)
: __stream_(INVALID_HANDLE_VALUE), __root_(root) {
__stream_ = ::FindFirstFile(root.c_str(), &__data_);
if (__stream_ == INVALID_HANDLE_VALUE) {
ec = error_code(::GetLastError(), std::generic_category());
const bool ignore_permission_denied =
bool(opts & directory_options::skip_permission_denied);
if (ignore_permission_denied && ec.value() == ERROR_ACCESS_DENIED)
ec.clear();
return;
}
}
~__dir_stream() noexcept {
if (__stream_ == INVALID_HANDLE_VALUE)
return;
close();
}
bool good() const noexcept { return __stream_ != INVALID_HANDLE_VALUE; }
bool advance(error_code& ec) {
while (::FindNextFile(__stream_, &__data_)) {
if (!strcmp(__data_.cFileName, ".") || strcmp(__data_.cFileName, ".."))
continue;
__entry_.assign(__root_ / __data_.cFileName);
return true;
}
ec = error_code(::GetLastError(), std::generic_category());
close();
return false;
}
private:
std::error_code close() noexcept {
std::error_code ec;
if (!::FindClose(__stream_))
ec = error_code(::GetLastError(), std::generic_category());
__stream_ = INVALID_HANDLE_VALUE;
return ec;
}
HANDLE __stream_{INVALID_HANDLE_VALUE};
WIN32_FIND_DATA __data_;
public:
path __root_;
directory_entry __entry_;
};
#else
class __dir_stream {
public:
__dir_stream() = delete;
__dir_stream& operator=(const __dir_stream&) = delete;
__dir_stream(__dir_stream&& other) noexcept
: __stream_(other.__stream_), __root_(std::move(other.__root_)),
__entry_(std::move(other.__entry_))
{
other.__stream_ = nullptr;
}
__dir_stream(const path& root, directory_options opts, error_code& ec)
: __stream_(nullptr),
__root_(root)
{
if ((__stream_ = ::opendir(root.c_str())) == nullptr) {
ec = detail::capture_errno();
const bool allow_eacess =
bool(opts & directory_options::skip_permission_denied);
if (allow_eacess && ec.value() == EACCES)
ec.clear();
return;
}
advance(ec);
}
~__dir_stream() noexcept
{ if (__stream_) close(); }
bool good() const noexcept { return __stream_ != nullptr; }
bool advance(error_code &ec) {
while (true) {
auto str = detail::posix_readdir(__stream_, ec);
if (str == "." || str == "..") {
continue;
} else if (ec || str.empty()) {
close();
return false;
} else {
__entry_.assign(__root_ / str);
return true;
}
}
}
private:
std::error_code close() noexcept {
std::error_code m_ec;
if (::closedir(__stream_) == -1)
m_ec = detail::capture_errno();
__stream_ = nullptr;
return m_ec;
}
DIR * __stream_{nullptr};
public:
path __root_;
directory_entry __entry_;
};
#endif
// directory_iterator
directory_iterator::directory_iterator(const path& p, error_code *ec,
directory_options opts)
{
std::error_code m_ec;
__imp_ = make_shared<__dir_stream>(p, opts, m_ec);
if (ec) *ec = m_ec;
if (!__imp_->good()) {
__imp_.reset();
if (m_ec)
set_or_throw(m_ec, ec,
"directory_iterator::directory_iterator(...)", p);
}
}
directory_iterator& directory_iterator::__increment(error_code *ec)
{
_LIBCPP_ASSERT(__imp_, "Attempting to increment an invalid iterator");
std::error_code m_ec;
if (!__imp_->advance(m_ec)) {
__imp_.reset();
if (m_ec)
set_or_throw(m_ec, ec, "directory_iterator::operator++()");
} else {
if (ec) ec->clear();
}
return *this;
}
directory_entry const& directory_iterator::__dereference() const {
_LIBCPP_ASSERT(__imp_, "Attempting to dereference an invalid iterator");
return __imp_->__entry_;
}
// recursive_directory_iterator
struct recursive_directory_iterator::__shared_imp {
stack<__dir_stream> __stack_;
directory_options __options_;
};
recursive_directory_iterator::recursive_directory_iterator(const path& p,
directory_options opt, error_code *ec)
: __imp_(nullptr), __rec_(true)
{
if (ec) ec->clear();
std::error_code m_ec;
__dir_stream new_s(p, opt, m_ec);
if (m_ec) set_or_throw(m_ec, ec, "recursive_directory_iterator", p);
if (m_ec || !new_s.good()) return;
__imp_ = _VSTD::make_shared<__shared_imp>();
__imp_->__options_ = opt;
__imp_->__stack_.push(_VSTD::move(new_s));
}
void recursive_directory_iterator::__pop(error_code* ec)
{
_LIBCPP_ASSERT(__imp_, "Popping the end iterator");
if (ec) ec->clear();
__imp_->__stack_.pop();
if (__imp_->__stack_.size() == 0)
__imp_.reset();
else
__advance(ec);
}
directory_options recursive_directory_iterator::options() const {
return __imp_->__options_;
}
int recursive_directory_iterator::depth() const {
return __imp_->__stack_.size() - 1;
}
const directory_entry& recursive_directory_iterator::__dereference() const {
return __imp_->__stack_.top().__entry_;
}
recursive_directory_iterator&
recursive_directory_iterator::__increment(error_code *ec)
{
if (ec) ec->clear();
if (recursion_pending()) {
if (__try_recursion(ec) || (ec && *ec))
return *this;
}
__rec_ = true;
__advance(ec);
return *this;
}
void recursive_directory_iterator::__advance(error_code* ec) {
// REQUIRES: ec must be cleared before calling this function.
const directory_iterator end_it;
auto& stack = __imp_->__stack_;
std::error_code m_ec;
while (stack.size() > 0) {
if (stack.top().advance(m_ec))
return;
if (m_ec) break;
stack.pop();
}
__imp_.reset();
if (m_ec)
set_or_throw(m_ec, ec, "recursive_directory_iterator::operator++()");
}
bool recursive_directory_iterator::__try_recursion(error_code *ec) {
bool rec_sym =
bool(options() & directory_options::follow_directory_symlink);
auto& curr_it = __imp_->__stack_.top();
bool skip_rec = false;
std::error_code m_ec;
if (!rec_sym) {
file_status st = curr_it.__entry_.symlink_status(m_ec);
if (m_ec && status_known(st))
m_ec.clear();
if (m_ec || is_symlink(st) || !is_directory(st))
skip_rec = true;
} else {
file_status st = curr_it.__entry_.status(m_ec);
if (m_ec && status_known(st))
m_ec.clear();
if (m_ec || !is_directory(st))
skip_rec = true;
}
if (!skip_rec) {
__dir_stream new_it(curr_it.__entry_.path(), __imp_->__options_, m_ec);
if (new_it.good()) {
__imp_->__stack_.push(_VSTD::move(new_it));
return true;
}
}
if (m_ec) {
const bool allow_eacess = bool(__imp_->__options_
& directory_options::skip_permission_denied);
if (m_ec.value() == EACCES && allow_eacess) {
if (ec) ec->clear();
} else {
__imp_.reset();
set_or_throw(m_ec, ec,
"recursive_directory_iterator::operator++()");
}
}
return false;
}
_LIBCPP_END_NAMESPACE_EXPERIMENTAL_FILESYSTEM