// // Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2020 // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // #include "td/utils/port/FileFd.h" #if TD_PORT_WINDOWS #include "td/utils/port/Stat.h" #include "td/utils/port/wstring_convert.h" #endif #include "td/utils/logging.h" #include "td/utils/misc.h" #include "td/utils/port/detail/PollableFd.h" #include "td/utils/port/PollFlags.h" #include "td/utils/port/sleep.h" #include "td/utils/ScopeGuard.h" #include "td/utils/StringBuilder.h" #include #include #include #include #if TD_PORT_POSIX #include #include #include #include #include #endif namespace td { namespace { struct PrintFlags { int32 flags; }; StringBuilder &operator<<(StringBuilder &sb, const PrintFlags &print_flags) { auto flags = print_flags.flags; if (flags & ~(FileFd::Write | FileFd::Read | FileFd::Truncate | FileFd::Create | FileFd::Append | FileFd::CreateNew | FileFd::Direct | FileFd::WinStat)) { return sb << "opened with invalid flags " << flags; } if (flags & FileFd::Create) { sb << "opened/created "; } else if (flags & FileFd::CreateNew) { sb << "created "; } else { sb << "opened "; } if ((flags & FileFd::Write) && (flags & FileFd::Read)) { if (flags & FileFd::Append) { sb << "for reading and appending"; } else { sb << "for reading and writing"; } } else if (flags & FileFd::Write) { if (flags & FileFd::Append) { sb << "for appending"; } else { sb << "for writing"; } } else if (flags & FileFd::Read) { sb << "for reading"; } else { sb << "for nothing"; } if (flags & FileFd::Truncate) { sb << " with truncation"; } if (flags & FileFd::Direct) { sb << " for direct io"; } if (flags & FileFd::WinStat) { sb << " for stat"; } return sb; } } // namespace namespace detail { class FileFdImpl { public: PollableFdInfo info; }; } // namespace detail FileFd::FileFd() = default; FileFd::FileFd(FileFd &&) = default; FileFd &FileFd::operator=(FileFd &&) = default; FileFd::~FileFd() = default; FileFd::FileFd(unique_ptr impl) : impl_(std::move(impl)) { } Result FileFd::open(CSlice filepath, int32 flags, int32 mode) { if (flags & ~(Write | Read | Truncate | Create | Append | CreateNew | Direct | WinStat)) { return Status::Error(PSLICE() << "File \"" << filepath << "\" has failed to be " << PrintFlags{flags}); } if ((flags & (Write | Read)) == 0) { return Status::Error(PSLICE() << "File \"" << filepath << "\" can't be " << PrintFlags{flags}); } #if TD_PORT_POSIX int native_flags = 0; if ((flags & Write) && (flags & Read)) { native_flags |= O_RDWR; } else if (flags & Write) { native_flags |= O_WRONLY; } else { CHECK(flags & Read); native_flags |= O_RDONLY; } if (flags & Truncate) { native_flags |= O_TRUNC; } if (flags & Create) { native_flags |= O_CREAT; } else if (flags & CreateNew) { native_flags |= O_CREAT; native_flags |= O_EXCL; } if (flags & Append) { native_flags |= O_APPEND; } #if TD_LINUX if (flags & Direct) { native_flags |= O_DIRECT; } #endif int native_fd = detail::skip_eintr([&] { return ::open(filepath.c_str(), native_flags, static_cast(mode)); }); if (native_fd < 0) { return OS_ERROR(PSLICE() << "File \"" << filepath << "\" can't be " << PrintFlags{flags}); } return from_native_fd(NativeFd(native_fd)); #elif TD_PORT_WINDOWS // TODO: support modes auto r_filepath = to_wstring(filepath); if (r_filepath.is_error()) { return Status::Error(PSLICE() << "Failed to convert file path \" << filepath << \" to UTF-16"); } auto w_filepath = r_filepath.move_as_ok(); DWORD desired_access = 0; if ((flags & Write) && (flags & Read)) { desired_access |= GENERIC_READ | GENERIC_WRITE; } else if (flags & Write) { desired_access |= GENERIC_WRITE; } else { CHECK(flags & Read); desired_access |= GENERIC_READ; } // TODO: share mode DWORD share_mode = FILE_SHARE_READ | FILE_SHARE_DELETE | FILE_SHARE_WRITE; DWORD creation_disposition = 0; if (flags & Create) { if (flags & Truncate) { creation_disposition = CREATE_ALWAYS; } else { creation_disposition = OPEN_ALWAYS; } } else if (flags & CreateNew) { creation_disposition = CREATE_NEW; } else { if (flags & Truncate) { creation_disposition = TRUNCATE_EXISTING; } else { creation_disposition = OPEN_EXISTING; } } DWORD native_flags = 0; if (flags & Direct) { native_flags |= FILE_FLAG_WRITE_THROUGH | FILE_FLAG_NO_BUFFERING; } if (flags & WinStat) { native_flags |= FILE_FLAG_BACKUP_SEMANTICS; } #if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP | WINAPI_PARTITION_SYSTEM) auto handle = CreateFile(w_filepath.c_str(), desired_access, share_mode, nullptr, creation_disposition, native_flags, nullptr); #else CREATEFILE2_EXTENDED_PARAMETERS extended_parameters; std::memset(&extended_parameters, 0, sizeof(extended_parameters)); extended_parameters.dwSize = sizeof(extended_parameters); extended_parameters.dwFileAttributes = FILE_ATTRIBUTE_NORMAL; extended_parameters.dwFileFlags = native_flags; auto handle = CreateFile2(w_filepath.c_str(), desired_access, share_mode, creation_disposition, &extended_parameters); #endif if (handle == INVALID_HANDLE_VALUE) { return OS_ERROR(PSLICE() << "File \"" << filepath << "\" can't be " << PrintFlags{flags}); } #if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP | WINAPI_PARTITION_SYSTEM) if (flags & Write) { DWORD bytes_returned = 0; DeviceIoControl(handle, FSCTL_SET_SPARSE, nullptr, 0, nullptr, 0, &bytes_returned, nullptr); } #endif auto native_fd = NativeFd(handle); if (flags & Append) { LARGE_INTEGER offset; offset.QuadPart = 0; auto set_pointer_res = SetFilePointerEx(handle, offset, nullptr, FILE_END); if (!set_pointer_res) { return OS_ERROR(PSLICE() << "Failed to seek to the end of file \"" << filepath << "\""); } } return from_native_fd(std::move(native_fd)); #endif } FileFd FileFd::from_native_fd(NativeFd native_fd) { auto impl = make_unique(); impl->info.set_native_fd(std::move(native_fd)); impl->info.add_flags(PollFlags::Write()); return FileFd(std::move(impl)); } Result FileFd::write(Slice slice) { auto native_fd = get_native_fd().fd(); #if TD_PORT_POSIX auto bytes_written = detail::skip_eintr([&] { return ::write(native_fd, slice.begin(), slice.size()); }); bool success = bytes_written >= 0; #elif TD_PORT_WINDOWS DWORD bytes_written = 0; BOOL success = WriteFile(native_fd, slice.data(), narrow_cast(slice.size()), &bytes_written, nullptr); #endif if (success) { return narrow_cast(bytes_written); } return OS_ERROR(PSLICE() << "Write to " << get_native_fd() << " has failed"); } Result FileFd::writev(Span slices) { #if TD_PORT_POSIX auto native_fd = get_native_fd().fd(); TRY_RESULT(slices_size, narrow_cast_safe(slices.size())); auto bytes_written = detail::skip_eintr([&] { return ::writev(native_fd, slices.begin(), slices_size); }); bool success = bytes_written >= 0; if (success) { return narrow_cast(bytes_written); } return OS_ERROR(PSLICE() << "Writev to " << get_native_fd() << " has failed"); #else size_t res = 0; for (auto slice : slices) { TRY_RESULT(size, write(slice)); res += size; } return res; #endif } Result FileFd::read(MutableSlice slice) { auto native_fd = get_native_fd().fd(); #if TD_PORT_POSIX auto bytes_read = detail::skip_eintr([&] { return ::read(native_fd, slice.begin(), slice.size()); }); bool success = bytes_read >= 0; bool is_eof = success && narrow_cast(bytes_read) < slice.size(); #elif TD_PORT_WINDOWS DWORD bytes_read = 0; BOOL success = ReadFile(native_fd, slice.data(), narrow_cast(slice.size()), &bytes_read, nullptr); bool is_eof = bytes_read == 0; #endif if (success) { if (is_eof) { get_poll_info().clear_flags(PollFlags::Read()); } return static_cast(bytes_read); } return OS_ERROR(PSLICE() << "Read from " << get_native_fd() << " has failed"); } Result FileFd::pwrite(Slice slice, int64 offset) { if (offset < 0) { return Status::Error("Offset must be non-negative"); } auto native_fd = get_native_fd().fd(); #if TD_PORT_POSIX TRY_RESULT(offset_off_t, narrow_cast_safe(offset)); auto bytes_written = detail::skip_eintr([&] { return ::pwrite(native_fd, slice.begin(), slice.size(), offset_off_t); }); bool success = bytes_written >= 0; #elif TD_PORT_WINDOWS DWORD bytes_written = 0; OVERLAPPED overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); overlapped.Offset = static_cast(offset); overlapped.OffsetHigh = static_cast(offset >> 32); BOOL success = WriteFile(native_fd, slice.data(), narrow_cast(slice.size()), &bytes_written, &overlapped); #endif if (success) { return narrow_cast(bytes_written); } return OS_ERROR(PSLICE() << "Pwrite to " << get_native_fd() << " at offset " << offset << " has failed"); } Result FileFd::pread(MutableSlice slice, int64 offset) const { if (offset < 0) { return Status::Error("Offset must be non-negative"); } auto native_fd = get_native_fd().fd(); #if TD_PORT_POSIX TRY_RESULT(offset_off_t, narrow_cast_safe(offset)); auto bytes_read = detail::skip_eintr([&] { return ::pread(native_fd, slice.begin(), slice.size(), offset_off_t); }); bool success = bytes_read >= 0; #elif TD_PORT_WINDOWS DWORD bytes_read = 0; OVERLAPPED overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); overlapped.Offset = static_cast(offset); overlapped.OffsetHigh = static_cast(offset >> 32); BOOL success = ReadFile(native_fd, slice.data(), narrow_cast(slice.size()), &bytes_read, &overlapped); #endif if (success) { return narrow_cast(bytes_read); } return OS_ERROR(PSLICE() << "Pread from " << get_native_fd() << " at offset " << offset << " has failed"); } static std::mutex in_process_lock_mutex; static std::unordered_set locked_files; static Status create_local_lock(const string &path, int32 &max_tries) { while (true) { { // mutex lock scope std::lock_guard lock(in_process_lock_mutex); if (locked_files.find(path) == locked_files.end()) { VLOG(fd) << "Lock file \"" << path << '"'; locked_files.insert(path); return Status::OK(); } } if (--max_tries <= 0) { return Status::Error( 0, PSLICE() << "Can't lock file \"" << path << "\", because it is already in use by current program"); } usleep_for(100000); } } Status FileFd::lock(const LockFlags flags, const string &path, int32 max_tries) { if (max_tries <= 0) { return Status::Error(0, "Can't lock file: wrong max_tries"); } bool need_local_unlock = false; if (!path.empty()) { if (flags == LockFlags::Unlock) { need_local_unlock = true; } else if (flags == LockFlags::Read) { LOG(FATAL) << "Local locking in Read mode is unsupported"; } else { CHECK(flags == LockFlags::Write); VLOG(fd) << "Trying to lock file \"" << path << '"'; TRY_STATUS(create_local_lock(path, max_tries)); need_local_unlock = true; } } SCOPE_EXIT { if (need_local_unlock) { remove_local_lock(path); } }; #if TD_PORT_POSIX auto native_fd = get_native_fd().fd(); #elif TD_PORT_WINDOWS auto native_fd = get_native_fd().fd(); #endif while (true) { #if TD_PORT_POSIX struct flock lock; std::memset(&lock, 0, sizeof(lock)); lock.l_type = static_cast([&] { switch (flags) { case LockFlags::Read: return F_RDLCK; case LockFlags::Write: return F_WRLCK; case LockFlags::Unlock: return F_UNLCK; default: UNREACHABLE(); return F_UNLCK; } }()); lock.l_whence = SEEK_SET; if (fcntl(native_fd, F_SETLK, &lock) == -1) { if (errno == EAGAIN) { #elif TD_PORT_WINDOWS OVERLAPPED overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); BOOL result; if (flags == LockFlags::Unlock) { result = UnlockFileEx(native_fd, 0, MAXDWORD, MAXDWORD, &overlapped); } else { DWORD dw_flags = LOCKFILE_FAIL_IMMEDIATELY; if (flags == LockFlags::Write) { dw_flags |= LOCKFILE_EXCLUSIVE_LOCK; } result = LockFileEx(native_fd, dw_flags, 0, MAXDWORD, MAXDWORD, &overlapped); } if (!result) { if (GetLastError() == ERROR_LOCK_VIOLATION) { #endif if (--max_tries > 0) { usleep_for(100000); continue; } return OS_ERROR(PSLICE() << "Can't lock file \"" << path << "\", because it is already in use; check for another program instance running"); } return OS_ERROR("Can't lock file"); } break; } if (flags == LockFlags::Write) { need_local_unlock = false; } return Status::OK(); } void FileFd::remove_local_lock(const string &path) { if (!path.empty()) { VLOG(fd) << "Unlock file \"" << path << '"'; std::unique_lock lock(in_process_lock_mutex); auto erased = locked_files.erase(path); CHECK(erased > 0); } } void FileFd::close() { impl_.reset(); } bool FileFd::empty() const { return !impl_; } const NativeFd &FileFd::get_native_fd() const { return get_poll_info().native_fd(); } NativeFd FileFd::move_as_native_fd() { auto res = get_poll_info().move_as_native_fd(); impl_.reset(); return res; } #if TD_PORT_WINDOWS namespace { uint64 filetime_to_unix_time_nsec(LONGLONG filetime) { const auto FILETIME_UNIX_TIME_DIFF = 116444736000000000ll; return static_cast((filetime - FILETIME_UNIX_TIME_DIFF) * 100); } struct FileSize { int64 size_; int64 real_size_; }; Result get_file_size(const FileFd &file_fd) { FILE_STANDARD_INFO standard_info; if (!GetFileInformationByHandleEx(file_fd.get_native_fd().fd(), FileStandardInfo, &standard_info, sizeof(standard_info))) { return OS_ERROR("Get FileStandardInfo failed"); } FileSize res; res.size_ = standard_info.EndOfFile.QuadPart; res.real_size_ = standard_info.AllocationSize.QuadPart; if (res.size_ > 0 && res.real_size_ <= 0) { res.real_size_ = res.size_; // just in case } return res; } } // namespace #endif Result FileFd::get_size() const { #if TD_PORT_POSIX TRY_RESULT(s, stat()); #else if TD_PORT_WINDOWS TRY_RESULT(s, get_file_size(*this)); #endif return s.size_; } Result FileFd::get_real_size() const { #if TD_PORT_POSIX TRY_RESULT(s, stat()); #else if TD_PORT_WINDOWS TRY_RESULT(s, get_file_size(*this)); #endif return s.real_size_; } Result FileFd::stat() const { CHECK(!empty()); #if TD_PORT_POSIX return detail::fstat(get_native_fd().fd()); #elif TD_PORT_WINDOWS Stat res; FILE_BASIC_INFO basic_info; auto status = GetFileInformationByHandleEx(get_native_fd().fd(), FileBasicInfo, &basic_info, sizeof(basic_info)); if (!status) { return OS_ERROR("Get FileBasicInfo failed"); } res.atime_nsec_ = filetime_to_unix_time_nsec(basic_info.LastAccessTime.QuadPart); res.mtime_nsec_ = filetime_to_unix_time_nsec(basic_info.LastWriteTime.QuadPart); res.is_dir_ = (basic_info.FileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0; res.is_reg_ = !res.is_dir_; // TODO this is still wrong TRY_RESULT(file_size, get_file_size(*this)); res.size_ = file_size.size_; res.real_size_ = file_size.real_size_; return res; #endif } Status FileFd::sync() { CHECK(!empty()); #if TD_PORT_POSIX #if TD_DARWIN if (detail::skip_eintr([&] { return fcntl(get_native_fd().fd(), F_FULLFSYNC); }) == -1) { #else if (detail::skip_eintr([&] { return fsync(get_native_fd().fd()); }) != 0) { #endif #elif TD_PORT_WINDOWS if (FlushFileBuffers(get_native_fd().fd()) == 0) { #endif return OS_ERROR("Sync failed"); } return Status::OK(); } Status FileFd::seek(int64 position) { CHECK(!empty()); #if TD_PORT_POSIX TRY_RESULT(position_off_t, narrow_cast_safe(position)); if (detail::skip_eintr([&] { return ::lseek(get_native_fd().fd(), position_off_t, SEEK_SET); }) < 0) { #elif TD_PORT_WINDOWS LARGE_INTEGER offset; offset.QuadPart = position; if (SetFilePointerEx(get_native_fd().fd(), offset, nullptr, FILE_BEGIN) == 0) { #endif return OS_ERROR("Seek failed"); } return Status::OK(); } Status FileFd::truncate_to_current_position(int64 current_position) { CHECK(!empty()); #if TD_PORT_POSIX TRY_RESULT(current_position_off_t, narrow_cast_safe(current_position)); if (detail::skip_eintr([&] { return ::ftruncate(get_native_fd().fd(), current_position_off_t); }) < 0) { #elif TD_PORT_WINDOWS if (SetEndOfFile(get_native_fd().fd()) == 0) { #endif return OS_ERROR("Truncate failed"); } return Status::OK(); } PollableFdInfo &FileFd::get_poll_info() { CHECK(!empty()); return impl_->info; } const PollableFdInfo &FileFd::get_poll_info() const { CHECK(!empty()); return impl_->info; } } // namespace td