// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/files/file.h" #include #include #include "base/logging.h" #include "base/metrics/sparse_histogram.h" #include "base/threading/thread_restrictions.h" namespace base { // Make sure our Whence mappings match the system headers. static_assert(File::FROM_BEGIN == FILE_BEGIN && File::FROM_CURRENT == FILE_CURRENT && File::FROM_END == FILE_END, "whence mapping must match the system headers"); bool File::IsValid() const { return file_.IsValid(); } PlatformFile File::GetPlatformFile() const { return file_.Get(); } PlatformFile File::TakePlatformFile() { return file_.Take(); } void File::Close() { if (!file_.IsValid()) return; ThreadRestrictions::AssertIOAllowed(); SCOPED_FILE_TRACE("Close"); file_.Close(); } int64_t File::Seek(Whence whence, int64_t offset) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); SCOPED_FILE_TRACE_WITH_SIZE("Seek", offset); LARGE_INTEGER distance, res; distance.QuadPart = offset; DWORD move_method = static_cast(whence); if (!SetFilePointerEx(file_.Get(), distance, &res, move_method)) return -1; return res.QuadPart; } int File::Read(int64_t offset, char* data, int size) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); DCHECK(!async_); if (size < 0) return -1; SCOPED_FILE_TRACE_WITH_SIZE("Read", size); LARGE_INTEGER offset_li; offset_li.QuadPart = offset; OVERLAPPED overlapped = {0}; overlapped.Offset = offset_li.LowPart; overlapped.OffsetHigh = offset_li.HighPart; DWORD bytes_read; if (::ReadFile(file_.Get(), data, size, &bytes_read, &overlapped)) return bytes_read; if (ERROR_HANDLE_EOF == GetLastError()) return 0; return -1; } int File::ReadAtCurrentPos(char* data, int size) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); DCHECK(!async_); if (size < 0) return -1; SCOPED_FILE_TRACE_WITH_SIZE("ReadAtCurrentPos", size); DWORD bytes_read; if (::ReadFile(file_.Get(), data, size, &bytes_read, NULL)) return bytes_read; if (ERROR_HANDLE_EOF == GetLastError()) return 0; return -1; } int File::ReadNoBestEffort(int64_t offset, char* data, int size) { // TODO(dbeam): trace this separately? return Read(offset, data, size); } int File::ReadAtCurrentPosNoBestEffort(char* data, int size) { // TODO(dbeam): trace this separately? return ReadAtCurrentPos(data, size); } int File::Write(int64_t offset, const char* data, int size) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); DCHECK(!async_); SCOPED_FILE_TRACE_WITH_SIZE("Write", size); LARGE_INTEGER offset_li; offset_li.QuadPart = offset; OVERLAPPED overlapped = {0}; overlapped.Offset = offset_li.LowPart; overlapped.OffsetHigh = offset_li.HighPart; DWORD bytes_written; if (::WriteFile(file_.Get(), data, size, &bytes_written, &overlapped)) return bytes_written; return -1; } int File::WriteAtCurrentPos(const char* data, int size) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); DCHECK(!async_); if (size < 0) return -1; SCOPED_FILE_TRACE_WITH_SIZE("WriteAtCurrentPos", size); DWORD bytes_written; if (::WriteFile(file_.Get(), data, size, &bytes_written, NULL)) return bytes_written; return -1; } int File::WriteAtCurrentPosNoBestEffort(const char* data, int size) { return WriteAtCurrentPos(data, size); } int64_t File::GetLength() { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); SCOPED_FILE_TRACE("GetLength"); LARGE_INTEGER size; if (!::GetFileSizeEx(file_.Get(), &size)) return -1; return static_cast(size.QuadPart); } bool File::SetLength(int64_t length) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); SCOPED_FILE_TRACE_WITH_SIZE("SetLength", length); // Get the current file pointer. LARGE_INTEGER file_pointer; LARGE_INTEGER zero; zero.QuadPart = 0; if (!::SetFilePointerEx(file_.Get(), zero, &file_pointer, FILE_CURRENT)) return false; LARGE_INTEGER length_li; length_li.QuadPart = length; // If length > file size, SetFilePointerEx() should extend the file // with zeroes on all Windows standard file systems (NTFS, FATxx). if (!::SetFilePointerEx(file_.Get(), length_li, NULL, FILE_BEGIN)) return false; // Set the new file length and move the file pointer to its old position. // This is consistent with ftruncate()'s behavior, even when the file // pointer points to a location beyond the end of the file. // TODO(rvargas): Emulating ftruncate details seem suspicious and it is not // promised by the interface (nor was promised by PlatformFile). See if this // implementation detail can be removed. return ((::SetEndOfFile(file_.Get()) != FALSE) && (::SetFilePointerEx(file_.Get(), file_pointer, NULL, FILE_BEGIN) != FALSE)); } bool File::SetTimes(Time last_access_time, Time last_modified_time) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); SCOPED_FILE_TRACE("SetTimes"); FILETIME last_access_filetime = last_access_time.ToFileTime(); FILETIME last_modified_filetime = last_modified_time.ToFileTime(); return (::SetFileTime(file_.Get(), NULL, &last_access_filetime, &last_modified_filetime) != FALSE); } bool File::GetInfo(Info* info) { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); SCOPED_FILE_TRACE("GetInfo"); BY_HANDLE_FILE_INFORMATION file_info; if (!GetFileInformationByHandle(file_.Get(), &file_info)) return false; LARGE_INTEGER size; size.HighPart = file_info.nFileSizeHigh; size.LowPart = file_info.nFileSizeLow; info->size = size.QuadPart; info->is_directory = (file_info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0; info->is_symbolic_link = false; // Windows doesn't have symbolic links. info->last_modified = Time::FromFileTime(file_info.ftLastWriteTime); info->last_accessed = Time::FromFileTime(file_info.ftLastAccessTime); info->creation_time = Time::FromFileTime(file_info.ftCreationTime); return true; } File::Error File::Lock() { DCHECK(IsValid()); SCOPED_FILE_TRACE("Lock"); BOOL result = LockFile(file_.Get(), 0, 0, MAXDWORD, MAXDWORD); if (!result) return OSErrorToFileError(GetLastError()); return FILE_OK; } File::Error File::Unlock() { DCHECK(IsValid()); SCOPED_FILE_TRACE("Unlock"); BOOL result = UnlockFile(file_.Get(), 0, 0, MAXDWORD, MAXDWORD); if (!result) return OSErrorToFileError(GetLastError()); return FILE_OK; } File File::Duplicate() { if (!IsValid()) return File(); SCOPED_FILE_TRACE("Duplicate"); HANDLE other_handle = nullptr; if (!::DuplicateHandle(GetCurrentProcess(), // hSourceProcessHandle GetPlatformFile(), GetCurrentProcess(), // hTargetProcessHandle &other_handle, 0, // dwDesiredAccess ignored due to SAME_ACCESS FALSE, // !bInheritHandle DUPLICATE_SAME_ACCESS)) { return File(OSErrorToFileError(GetLastError())); } File other(other_handle); if (async()) other.async_ = true; return other.Pass(); } // Static. File::Error File::OSErrorToFileError(DWORD last_error) { switch (last_error) { case ERROR_SHARING_VIOLATION: return FILE_ERROR_IN_USE; case ERROR_FILE_EXISTS: return FILE_ERROR_EXISTS; case ERROR_FILE_NOT_FOUND: case ERROR_PATH_NOT_FOUND: return FILE_ERROR_NOT_FOUND; case ERROR_ACCESS_DENIED: return FILE_ERROR_ACCESS_DENIED; case ERROR_TOO_MANY_OPEN_FILES: return FILE_ERROR_TOO_MANY_OPENED; case ERROR_OUTOFMEMORY: case ERROR_NOT_ENOUGH_MEMORY: return FILE_ERROR_NO_MEMORY; case ERROR_HANDLE_DISK_FULL: case ERROR_DISK_FULL: case ERROR_DISK_RESOURCES_EXHAUSTED: return FILE_ERROR_NO_SPACE; case ERROR_USER_MAPPED_FILE: return FILE_ERROR_INVALID_OPERATION; case ERROR_NOT_READY: case ERROR_SECTOR_NOT_FOUND: case ERROR_DEV_NOT_EXIST: case ERROR_IO_DEVICE: case ERROR_FILE_CORRUPT: case ERROR_DISK_CORRUPT: return FILE_ERROR_IO; default: UMA_HISTOGRAM_SPARSE_SLOWLY("PlatformFile.UnknownErrors.Windows", last_error); return FILE_ERROR_FAILED; } } void File::DoInitialize(const FilePath& path, uint32_t flags) { ThreadRestrictions::AssertIOAllowed(); DCHECK(!IsValid()); DWORD disposition = 0; if (flags & FLAG_OPEN) disposition = OPEN_EXISTING; if (flags & FLAG_CREATE) { DCHECK(!disposition); disposition = CREATE_NEW; } if (flags & FLAG_OPEN_ALWAYS) { DCHECK(!disposition); disposition = OPEN_ALWAYS; } if (flags & FLAG_CREATE_ALWAYS) { DCHECK(!disposition); DCHECK(flags & FLAG_WRITE); disposition = CREATE_ALWAYS; } if (flags & FLAG_OPEN_TRUNCATED) { DCHECK(!disposition); DCHECK(flags & FLAG_WRITE); disposition = TRUNCATE_EXISTING; } if (!disposition) { NOTREACHED(); return; } DWORD access = 0; if (flags & FLAG_WRITE) access = GENERIC_WRITE; if (flags & FLAG_APPEND) { DCHECK(!access); access = FILE_APPEND_DATA; } if (flags & FLAG_READ) access |= GENERIC_READ; if (flags & FLAG_WRITE_ATTRIBUTES) access |= FILE_WRITE_ATTRIBUTES; if (flags & FLAG_EXECUTE) access |= GENERIC_EXECUTE; DWORD sharing = (flags & FLAG_EXCLUSIVE_READ) ? 0 : FILE_SHARE_READ; if (!(flags & FLAG_EXCLUSIVE_WRITE)) sharing |= FILE_SHARE_WRITE; if (flags & FLAG_SHARE_DELETE) sharing |= FILE_SHARE_DELETE; DWORD create_flags = 0; if (flags & FLAG_ASYNC) create_flags |= FILE_FLAG_OVERLAPPED; if (flags & FLAG_TEMPORARY) create_flags |= FILE_ATTRIBUTE_TEMPORARY; if (flags & FLAG_HIDDEN) create_flags |= FILE_ATTRIBUTE_HIDDEN; if (flags & FLAG_DELETE_ON_CLOSE) create_flags |= FILE_FLAG_DELETE_ON_CLOSE; if (flags & FLAG_BACKUP_SEMANTICS) create_flags |= FILE_FLAG_BACKUP_SEMANTICS; if (flags & FLAG_SEQUENTIAL_SCAN) create_flags |= FILE_FLAG_SEQUENTIAL_SCAN; file_.Set(CreateFile(path.value().c_str(), access, sharing, NULL, disposition, create_flags, NULL)); if (file_.IsValid()) { error_details_ = FILE_OK; async_ = ((flags & FLAG_ASYNC) == FLAG_ASYNC); if (flags & (FLAG_OPEN_ALWAYS)) created_ = (ERROR_ALREADY_EXISTS != GetLastError()); else if (flags & (FLAG_CREATE_ALWAYS | FLAG_CREATE)) created_ = true; } else { error_details_ = OSErrorToFileError(GetLastError()); } } bool File::DoFlush() { ThreadRestrictions::AssertIOAllowed(); DCHECK(IsValid()); return ::FlushFileBuffers(file_.Get()) != FALSE; } void File::SetPlatformFile(PlatformFile file) { file_.Set(file); } } // namespace base