components/sessions/session_backend.cc - chromium/src - Git at Google

 // Copyright 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 "components/sessions/session_backend.h"

 #include <limits>

 #include "base/files/file.h"
 #include "base/files/file_util.h"
 #include "base/memory/scoped_vector.h"
 #include "base/metrics/histogram.h"
 #include "base/threading/thread_restrictions.h"

 using base::TimeTicks;

 namespace sessions {

 // File version number.
 static const int32 kFileCurrentVersion = 1;

 // The signature at the beginning of the file = SSNS (Sessions).
 static const int32 kFileSignature = 0x53534E53;

 namespace {

 // The file header is the first bytes written to the file,
 // and is used to identify the file as one written by us.
 struct FileHeader {
   int32 signature;
   int32 version;
 };

 // SessionFileReader ----------------------------------------------------------

 // SessionFileReader is responsible for reading the set of SessionCommands that
 // describe a Session back from a file. SessionFileRead does minimal error
 // checking on the file (pretty much only that the header is valid).

 class SessionFileReader {
  public:
   typedef sessions::SessionCommand::id_type id_type;
   typedef sessions::SessionCommand::size_type size_type;

   explicit SessionFileReader(const base::FilePath& path)
       : errored_(false),
         buffer_(SessionBackend::kFileReadBufferSize, 0),
         buffer_position_(0),
         available_count_(0) {
     file_.reset(new base::File(
         path, base::File::FLAG_OPEN | base::File::FLAG_READ));
   }
   // Reads the contents of the file specified in the constructor, returning
   // true on success. It is up to the caller to free all SessionCommands
   // added to commands.
   bool Read(sessions::BaseSessionService::SessionType type,
             ScopedVector<sessions::SessionCommand>* commands);

  private:
   // Reads a single command, returning it. A return value of NULL indicates
   // either there are no commands, or there was an error. Use errored_ to
   // distinguish the two. If NULL is returned, and there is no error, it means
   // the end of file was successfully reached.
   sessions::SessionCommand* ReadCommand();

   // Shifts the unused portion of buffer_ to the beginning and fills the
   // remaining portion with data from the file. Returns false if the buffer
   // couldn't be filled. A return value of false only signals an error if
   // errored_ is set to true.
   bool FillBuffer();

   // Whether an error condition has been detected (
   bool errored_;

   // As we read from the file, data goes here.
   std::string buffer_;

   // The file.
   scoped_ptr<base::File> file_;

   // Position in buffer_ of the data.
   size_t buffer_position_;

   // Number of available bytes; relative to buffer_position_.
   size_t available_count_;

   DISALLOW_COPY_AND_ASSIGN(SessionFileReader);
 };

 bool SessionFileReader::Read(sessions::BaseSessionService::SessionType type,
                              ScopedVector<sessions::SessionCommand>* commands) {
   if (!file_->IsValid())
     return false;
   FileHeader header;
   int read_count;
   TimeTicks start_time = TimeTicks::Now();
   read_count = file_->ReadAtCurrentPos(reinterpret_cast<char*>(&header),
                                        sizeof(header));
   if (read_count != sizeof(header) || header.signature != kFileSignature ||
       header.version != kFileCurrentVersion)
     return false;

   ScopedVector<sessions::SessionCommand> read_commands;
   for (sessions::SessionCommand* command = ReadCommand(); command && !errored_;
        command = ReadCommand())
     read_commands.push_back(command);
   if (!errored_)
     read_commands.swap(*commands);
   if (type == sessions::BaseSessionService::TAB_RESTORE) {
     UMA_HISTOGRAM_TIMES("TabRestore.read_session_file_time",
                         TimeTicks::Now() - start_time);
   } else {
     UMA_HISTOGRAM_TIMES("SessionRestore.read_session_file_time",
                         TimeTicks::Now() - start_time);
   }
   return !errored_;
 }

 sessions::SessionCommand* SessionFileReader::ReadCommand() {
   // Make sure there is enough in the buffer for the size of the next command.
   if (available_count_ < sizeof(size_type)) {
     if (!FillBuffer())
       return NULL;
     if (available_count_ < sizeof(size_type)) {
       VLOG(1) << "SessionFileReader::ReadCommand, file incomplete";
       // Still couldn't read a valid size for the command, assume write was
       // incomplete and return NULL.
       return NULL;
     }
   }
   // Get the size of the command.
   size_type command_size;
   memcpy(&command_size, &(buffer_[buffer_position_]), sizeof(command_size));
   buffer_position_ += sizeof(command_size);
   available_count_ -= sizeof(command_size);

   if (command_size == 0) {
     VLOG(1) << "SessionFileReader::ReadCommand, empty command";
     // Empty command. Shouldn't happen if write was successful, fail.
     return NULL;
   }

   // Make sure buffer has the complete contents of the command.
   if (command_size > available_count_) {
     if (command_size > buffer_.size())
       buffer_.resize((command_size / 1024 + 1) * 1024, 0);
     if (!FillBuffer() || command_size > available_count_) {
       // Again, assume the file was ok, and just the last chunk was lost.
       VLOG(1) << "SessionFileReader::ReadCommand, last chunk lost";
       return NULL;
     }
   }
   const id_type command_id = buffer_[buffer_position_];
   // NOTE: command_size includes the size of the id, which is not part of
   // the contents of the SessionCommand.
   sessions::SessionCommand* command =
       new sessions::SessionCommand(command_id, command_size - sizeof(id_type));
   if (command_size > sizeof(id_type)) {
     memcpy(command->contents(),
            &(buffer_[buffer_position_ + sizeof(id_type)]),
            command_size - sizeof(id_type));
   }
   buffer_position_ += command_size;
   available_count_ -= command_size;
   return command;
 }

 bool SessionFileReader::FillBuffer() {
   if (available_count_ > 0 && buffer_position_ > 0) {
     // Shift buffer to beginning.
     memmove(&(buffer_[0]), &(buffer_[buffer_position_]), available_count_);
   }
   buffer_position_ = 0;
   DCHECK(buffer_position_ + available_count_ < buffer_.size());
   int to_read = static_cast<int>(buffer_.size() - available_count_);
   int read_count = file_->ReadAtCurrentPos(&(buffer_[available_count_]),
                                            to_read);
   if (read_count < 0) {
     errored_ = true;
     return false;
   }
   if (read_count == 0)
     return false;
   available_count_ += read_count;
   return true;
 }

 }  // namespace

 // SessionBackend -------------------------------------------------------------

 // File names (current and previous) for a type of TAB.
 static const char* kCurrentTabSessionFileName = "Current Tabs";
 static const char* kLastTabSessionFileName = "Last Tabs";

 // File names (current and previous) for a type of SESSION.
 static const char* kCurrentSessionFileName = "Current Session";
 static const char* kLastSessionFileName = "Last Session";

 // static
 const int SessionBackend::kFileReadBufferSize = 1024;

 SessionBackend::SessionBackend(sessions::BaseSessionService::SessionType type,
                                const base::FilePath& path_to_dir)
     : type_(type),
       path_to_dir_(path_to_dir),
       last_session_valid_(false),
       inited_(false),
       empty_file_(true) {
   // NOTE: this is invoked on the main thread, don't do file access here.
 }

 void SessionBackend::Init() {
   if (inited_)
     return;

   inited_ = true;

   // Create the directory for session info.
   base::CreateDirectory(path_to_dir_);

   MoveCurrentSessionToLastSession();
 }

 void SessionBackend::AppendCommands(
     ScopedVector<sessions::SessionCommand> commands,
     bool reset_first) {
   Init();
   // Make sure and check current_session_file_, if opening the file failed
   // current_session_file_ will be NULL.
   if ((reset_first && !empty_file_) || !current_session_file_.get() ||
       !current_session_file_->IsValid()) {
     ResetFile();
   }
   // Need to check current_session_file_ again, ResetFile may fail.
   if (current_session_file_.get() && current_session_file_->IsValid() &&
       !AppendCommandsToFile(current_session_file_.get(), commands)) {
     current_session_file_.reset(NULL);
   }
   empty_file_ = false;
 }

 void SessionBackend::ReadLastSessionCommands(
     const base::CancelableTaskTracker::IsCanceledCallback& is_canceled,
     const sessions::BaseSessionService::GetCommandsCallback& callback) {
   if (is_canceled.Run())
     return;

   Init();

   ScopedVector<sessions::SessionCommand> commands;
   ReadLastSessionCommandsImpl(&commands);
   callback.Run(commands.Pass());
 }

 bool SessionBackend::ReadLastSessionCommandsImpl(
     ScopedVector<sessions::SessionCommand>* commands) {
   Init();
   SessionFileReader file_reader(GetLastSessionPath());
   return file_reader.Read(type_, commands);
 }

 void SessionBackend::DeleteLastSession() {
   Init();
   base::DeleteFile(GetLastSessionPath(), false);
 }

 void SessionBackend::MoveCurrentSessionToLastSession() {
   Init();
   current_session_file_.reset(NULL);

   const base::FilePath current_session_path = GetCurrentSessionPath();
   const base::FilePath last_session_path = GetLastSessionPath();
   if (base::PathExists(last_session_path))
     base::DeleteFile(last_session_path, false);
   if (base::PathExists(current_session_path)) {
     int64 file_size;
     if (base::GetFileSize(current_session_path, &file_size)) {
       if (type_ == sessions::BaseSessionService::TAB_RESTORE) {
         UMA_HISTOGRAM_COUNTS("TabRestore.last_session_file_size",
                              static_cast<int>(file_size / 1024));
       } else {
         UMA_HISTOGRAM_COUNTS("SessionRestore.last_session_file_size",
                              static_cast<int>(file_size / 1024));
       }
     }
     last_session_valid_ = base::Move(current_session_path, last_session_path);
   }

   if (base::PathExists(current_session_path))
     base::DeleteFile(current_session_path, false);

   // Create and open the file for the current session.
   ResetFile();
 }

 bool SessionBackend::ReadCurrentSessionCommandsImpl(
     ScopedVector<sessions::SessionCommand>* commands) {
   Init();
   SessionFileReader file_reader(GetCurrentSessionPath());
   return file_reader.Read(type_, commands);
 }

 bool SessionBackend::AppendCommandsToFile(base::File* file,
     const ScopedVector<sessions::SessionCommand>& commands) {
   for (ScopedVector<sessions::SessionCommand>::const_iterator i =
            commands.begin();
        i != commands.end(); ++i) {
     int wrote;
     const size_type content_size = static_cast<size_type>((*i)->size());
     const size_type total_size =  content_size + sizeof(id_type);
     if (type_ == sessions::BaseSessionService::TAB_RESTORE)
       UMA_HISTOGRAM_COUNTS("TabRestore.command_size", total_size);
     else
       UMA_HISTOGRAM_COUNTS("SessionRestore.command_size", total_size);
     wrote = file->WriteAtCurrentPos(reinterpret_cast<const char*>(&total_size),
                                     sizeof(total_size));
     if (wrote != sizeof(total_size)) {
       NOTREACHED() << "error writing";
       return false;
     }
     id_type command_id = (*i)->id();
     wrote = file->WriteAtCurrentPos(reinterpret_cast<char*>(&command_id),
                                     sizeof(command_id));
     if (wrote != sizeof(command_id)) {
       NOTREACHED() << "error writing";
       return false;
     }
     if (content_size > 0) {
       wrote = file->WriteAtCurrentPos(reinterpret_cast<char*>((*i)->contents()),
                                       content_size);
       if (wrote != content_size) {
         NOTREACHED() << "error writing";
         return false;
       }
     }
   }
 #if defined(OS_CHROMEOS)
   file->Flush();
 #endif
   return true;
 }

 SessionBackend::~SessionBackend() {
   if (current_session_file_.get()) {
     // Destructor performs file IO because file is open in sync mode.
     // crbug.com/112512.
     base::ThreadRestrictions::ScopedAllowIO allow_io;
     current_session_file_.reset();
   }
 }

 void SessionBackend::ResetFile() {
   DCHECK(inited_);
   if (current_session_file_.get()) {
     // File is already open, truncate it. We truncate instead of closing and
     // reopening to avoid the possibility of scanners locking the file out
     // from under us once we close it. If truncation fails, we'll try to
     // recreate.
     const int header_size = static_cast<int>(sizeof(FileHeader));
     if (current_session_file_->Seek(
             base::File::FROM_BEGIN, header_size) != header_size ||
         !current_session_file_->SetLength(header_size))
       current_session_file_.reset(NULL);
   }
   if (!current_session_file_.get())
     current_session_file_.reset(OpenAndWriteHeader(GetCurrentSessionPath()));
   empty_file_ = true;
 }

 base::File* SessionBackend::OpenAndWriteHeader(const base::FilePath& path) {
   DCHECK(!path.empty());
   scoped_ptr<base::File> file(new base::File(
       path,
       base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE |
       base::File::FLAG_EXCLUSIVE_WRITE | base::File::FLAG_EXCLUSIVE_READ));
   if (!file->IsValid())
     return NULL;
   FileHeader header;
   header.signature = kFileSignature;
   header.version = kFileCurrentVersion;
   int wrote = file->WriteAtCurrentPos(reinterpret_cast<char*>(&header),
                                       sizeof(header));
   if (wrote != sizeof(header))
     return NULL;
   return file.release();
 }

 base::FilePath SessionBackend::GetLastSessionPath() {
   base::FilePath path = path_to_dir_;
   if (type_ == sessions::BaseSessionService::TAB_RESTORE)
     path = path.AppendASCII(kLastTabSessionFileName);
   else
     path = path.AppendASCII(kLastSessionFileName);
   return path;
 }

 base::FilePath SessionBackend::GetCurrentSessionPath() {
   base::FilePath path = path_to_dir_;
   if (type_ == sessions::BaseSessionService::TAB_RESTORE)
     path = path.AppendASCII(kCurrentTabSessionFileName);
   else
     path = path.AppendASCII(kCurrentSessionFileName);
   return path;
 }

 }  // namespace sessions
	// Copyright 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 "components/sessions/session_backend.h"

	#include <limits>

	#include "base/files/file.h"
	#include "base/files/file_util.h"
	#include "base/memory/scoped_vector.h"
	#include "base/metrics/histogram.h"
	#include "base/threading/thread_restrictions.h"

	using base::TimeTicks;

	namespace sessions {

	// File version number.
	static const int32 kFileCurrentVersion = 1;

	// The signature at the beginning of the file = SSNS (Sessions).
	static const int32 kFileSignature = 0x53534E53;

	namespace {

	// The file header is the first bytes written to the file,
	// and is used to identify the file as one written by us.
	struct FileHeader {
	int32 signature;
	int32 version;
	};

	// SessionFileReader ----------------------------------------------------------

	// SessionFileReader is responsible for reading the set of SessionCommands that
	// describe a Session back from a file. SessionFileRead does minimal error
	// checking on the file (pretty much only that the header is valid).

	class SessionFileReader {
	public:
	typedef sessions::SessionCommand::id_type id_type;
	typedef sessions::SessionCommand::size_type size_type;

	explicit SessionFileReader(const base::FilePath& path)
	: errored_(false),
	buffer_(SessionBackend::kFileReadBufferSize, 0),
	buffer_position_(0),
	available_count_(0) {
	file_.reset(new base::File(
	path, base::File::FLAG_OPEN \| base::File::FLAG_READ));
	}
	// Reads the contents of the file specified in the constructor, returning
	// true on success. It is up to the caller to free all SessionCommands
	// added to commands.
	bool Read(sessions::BaseSessionService::SessionType type,
	ScopedVector<sessions::SessionCommand>* commands);

	private:
	// Reads a single command, returning it. A return value of NULL indicates
	// either there are no commands, or there was an error. Use errored_ to
	// distinguish the two. If NULL is returned, and there is no error, it means
	// the end of file was successfully reached.
	sessions::SessionCommand* ReadCommand();

	// Shifts the unused portion of buffer_ to the beginning and fills the
	// remaining portion with data from the file. Returns false if the buffer
	// couldn't be filled. A return value of false only signals an error if
	// errored_ is set to true.
	bool FillBuffer();

	// Whether an error condition has been detected (
	bool errored_;

	// As we read from the file, data goes here.
	std::string buffer_;

	// The file.
	scoped_ptr<base::File> file_;

	// Position in buffer_ of the data.
	size_t buffer_position_;

	// Number of available bytes; relative to buffer_position_.
	size_t available_count_;

	DISALLOW_COPY_AND_ASSIGN(SessionFileReader);
	};

	bool SessionFileReader::Read(sessions::BaseSessionService::SessionType type,
	ScopedVector<sessions::SessionCommand>* commands) {
	if (!file_->IsValid())
	return false;
	FileHeader header;
	int read_count;
	TimeTicks start_time = TimeTicks::Now();
	read_count = file_->ReadAtCurrentPos(reinterpret_cast<char*>(&header),
	sizeof(header));
	if (read_count != sizeof(header) \|\| header.signature != kFileSignature \|\|
	header.version != kFileCurrentVersion)
	return false;

	ScopedVector<sessions::SessionCommand> read_commands;
	for (sessions::SessionCommand* command = ReadCommand(); command && !errored_;
	command = ReadCommand())
	read_commands.push_back(command);
	if (!errored_)
	read_commands.swap(*commands);
	if (type == sessions::BaseSessionService::TAB_RESTORE) {
	UMA_HISTOGRAM_TIMES("TabRestore.read_session_file_time",
	TimeTicks::Now() - start_time);
	} else {
	UMA_HISTOGRAM_TIMES("SessionRestore.read_session_file_time",
	TimeTicks::Now() - start_time);
	}
	return !errored_;
	}

	sessions::SessionCommand* SessionFileReader::ReadCommand() {
	// Make sure there is enough in the buffer for the size of the next command.
	if (available_count_ < sizeof(size_type)) {
	if (!FillBuffer())
	return NULL;
	if (available_count_ < sizeof(size_type)) {
	VLOG(1) << "SessionFileReader::ReadCommand, file incomplete";
	// Still couldn't read a valid size for the command, assume write was
	// incomplete and return NULL.
	return NULL;
	}
	}
	// Get the size of the command.
	size_type command_size;
	memcpy(&command_size, &(buffer_[buffer_position_]), sizeof(command_size));
	buffer_position_ += sizeof(command_size);
	available_count_ -= sizeof(command_size);

	if (command_size == 0) {
	VLOG(1) << "SessionFileReader::ReadCommand, empty command";
	// Empty command. Shouldn't happen if write was successful, fail.
	return NULL;
	}

	// Make sure buffer has the complete contents of the command.
	if (command_size > available_count_) {
	if (command_size > buffer_.size())
	buffer_.resize((command_size / 1024 + 1) * 1024, 0);
	if (!FillBuffer() \|\| command_size > available_count_) {
	// Again, assume the file was ok, and just the last chunk was lost.
	VLOG(1) << "SessionFileReader::ReadCommand, last chunk lost";
	return NULL;
	}
	}
	const id_type command_id = buffer_[buffer_position_];
	// NOTE: command_size includes the size of the id, which is not part of
	// the contents of the SessionCommand.
	sessions::SessionCommand* command =
	new sessions::SessionCommand(command_id, command_size - sizeof(id_type));
	if (command_size > sizeof(id_type)) {
	memcpy(command->contents(),
	&(buffer_[buffer_position_ + sizeof(id_type)]),
	command_size - sizeof(id_type));
	}
	buffer_position_ += command_size;
	available_count_ -= command_size;
	return command;
	}

	bool SessionFileReader::FillBuffer() {
	if (available_count_ > 0 && buffer_position_ > 0) {
	// Shift buffer to beginning.
	memmove(&(buffer_[0]), &(buffer_[buffer_position_]), available_count_);
	}
	buffer_position_ = 0;
	DCHECK(buffer_position_ + available_count_ < buffer_.size());
	int to_read = static_cast<int>(buffer_.size() - available_count_);
	int read_count = file_->ReadAtCurrentPos(&(buffer_[available_count_]),
	to_read);
	if (read_count < 0) {
	errored_ = true;
	return false;
	}
	if (read_count == 0)
	return false;
	available_count_ += read_count;
	return true;
	}

	} // namespace

	// SessionBackend -------------------------------------------------------------

	// File names (current and previous) for a type of TAB.
	static const char* kCurrentTabSessionFileName = "Current Tabs";
	static const char* kLastTabSessionFileName = "Last Tabs";

	// File names (current and previous) for a type of SESSION.
	static const char* kCurrentSessionFileName = "Current Session";
	static const char* kLastSessionFileName = "Last Session";

	// static
	const int SessionBackend::kFileReadBufferSize = 1024;

	SessionBackend::SessionBackend(sessions::BaseSessionService::SessionType type,
	const base::FilePath& path_to_dir)
	: type_(type),
	path_to_dir_(path_to_dir),
	last_session_valid_(false),
	inited_(false),
	empty_file_(true) {
	// NOTE: this is invoked on the main thread, don't do file access here.
	}

	void SessionBackend::Init() {
	if (inited_)
	return;

	inited_ = true;

	// Create the directory for session info.
	base::CreateDirectory(path_to_dir_);

	MoveCurrentSessionToLastSession();
	}

	void SessionBackend::AppendCommands(
	ScopedVector<sessions::SessionCommand> commands,
	bool reset_first) {
	Init();
	// Make sure and check current_session_file_, if opening the file failed
	// current_session_file_ will be NULL.
	if ((reset_first && !empty_file_) \|\| !current_session_file_.get() \|\|
	!current_session_file_->IsValid()) {
	ResetFile();
	}
	// Need to check current_session_file_ again, ResetFile may fail.
	if (current_session_file_.get() && current_session_file_->IsValid() &&
	!AppendCommandsToFile(current_session_file_.get(), commands)) {
	current_session_file_.reset(NULL);
	}
	empty_file_ = false;
	}

	void SessionBackend::ReadLastSessionCommands(
	const base::CancelableTaskTracker::IsCanceledCallback& is_canceled,
	const sessions::BaseSessionService::GetCommandsCallback& callback) {
	if (is_canceled.Run())
	return;

	Init();

	ScopedVector<sessions::SessionCommand> commands;
	ReadLastSessionCommandsImpl(&commands);
	callback.Run(commands.Pass());
	}

	bool SessionBackend::ReadLastSessionCommandsImpl(
	ScopedVector<sessions::SessionCommand>* commands) {
	Init();
	SessionFileReader file_reader(GetLastSessionPath());
	return file_reader.Read(type_, commands);
	}

	void SessionBackend::DeleteLastSession() {
	Init();
	base::DeleteFile(GetLastSessionPath(), false);
	}

	void SessionBackend::MoveCurrentSessionToLastSession() {
	Init();
	current_session_file_.reset(NULL);

	const base::FilePath current_session_path = GetCurrentSessionPath();
	const base::FilePath last_session_path = GetLastSessionPath();
	if (base::PathExists(last_session_path))
	base::DeleteFile(last_session_path, false);
	if (base::PathExists(current_session_path)) {
	int64 file_size;
	if (base::GetFileSize(current_session_path, &file_size)) {
	if (type_ == sessions::BaseSessionService::TAB_RESTORE) {
	UMA_HISTOGRAM_COUNTS("TabRestore.last_session_file_size",
	static_cast<int>(file_size / 1024));
	} else {
	UMA_HISTOGRAM_COUNTS("SessionRestore.last_session_file_size",
	static_cast<int>(file_size / 1024));
	}
	}
	last_session_valid_ = base::Move(current_session_path, last_session_path);
	}

	if (base::PathExists(current_session_path))
	base::DeleteFile(current_session_path, false);

	// Create and open the file for the current session.
	ResetFile();
	}

	bool SessionBackend::ReadCurrentSessionCommandsImpl(
	ScopedVector<sessions::SessionCommand>* commands) {
	Init();
	SessionFileReader file_reader(GetCurrentSessionPath());
	return file_reader.Read(type_, commands);
	}

	bool SessionBackend::AppendCommandsToFile(base::File* file,
	const ScopedVector<sessions::SessionCommand>& commands) {
	for (ScopedVector<sessions::SessionCommand>::const_iterator i =
	commands.begin();
	i != commands.end(); ++i) {
	int wrote;
	const size_type content_size = static_cast<size_type>((*i)->size());
	const size_type total_size = content_size + sizeof(id_type);
	if (type_ == sessions::BaseSessionService::TAB_RESTORE)
	UMA_HISTOGRAM_COUNTS("TabRestore.command_size", total_size);
	else
	UMA_HISTOGRAM_COUNTS("SessionRestore.command_size", total_size);
	wrote = file->WriteAtCurrentPos(reinterpret_cast<const char*>(&total_size),
	sizeof(total_size));
	if (wrote != sizeof(total_size)) {
	NOTREACHED() << "error writing";
	return false;
	}
	id_type command_id = (*i)->id();
	wrote = file->WriteAtCurrentPos(reinterpret_cast<char*>(&command_id),
	sizeof(command_id));
	if (wrote != sizeof(command_id)) {
	NOTREACHED() << "error writing";
	return false;
	}
	if (content_size > 0) {
	wrote = file->WriteAtCurrentPos(reinterpret_cast<char>((i)->contents()),
	content_size);
	if (wrote != content_size) {
	NOTREACHED() << "error writing";
	return false;
	}
	}
	}
	#if defined(OS_CHROMEOS)
	file->Flush();
	#endif
	return true;
	}

	SessionBackend::~SessionBackend() {
	if (current_session_file_.get()) {
	// Destructor performs file IO because file is open in sync mode.
	// crbug.com/112512.
	base::ThreadRestrictions::ScopedAllowIO allow_io;
	current_session_file_.reset();
	}
	}

	void SessionBackend::ResetFile() {
	DCHECK(inited_);
	if (current_session_file_.get()) {
	// File is already open, truncate it. We truncate instead of closing and
	// reopening to avoid the possibility of scanners locking the file out
	// from under us once we close it. If truncation fails, we'll try to
	// recreate.
	const int header_size = static_cast<int>(sizeof(FileHeader));
	if (current_session_file_->Seek(
	base::File::FROM_BEGIN, header_size) != header_size \|\|
	!current_session_file_->SetLength(header_size))
	current_session_file_.reset(NULL);
	}
	if (!current_session_file_.get())
	current_session_file_.reset(OpenAndWriteHeader(GetCurrentSessionPath()));
	empty_file_ = true;
	}

	base::File* SessionBackend::OpenAndWriteHeader(const base::FilePath& path) {
	DCHECK(!path.empty());
	scoped_ptr<base::File> file(new base::File(
	path,
	base::File::FLAG_CREATE_ALWAYS \| base::File::FLAG_WRITE \|
	base::File::FLAG_EXCLUSIVE_WRITE \| base::File::FLAG_EXCLUSIVE_READ));
	if (!file->IsValid())
	return NULL;
	FileHeader header;
	header.signature = kFileSignature;
	header.version = kFileCurrentVersion;
	int wrote = file->WriteAtCurrentPos(reinterpret_cast<char*>(&header),
	sizeof(header));
	if (wrote != sizeof(header))
	return NULL;
	return file.release();
	}

	base::FilePath SessionBackend::GetLastSessionPath() {
	base::FilePath path = path_to_dir_;
	if (type_ == sessions::BaseSessionService::TAB_RESTORE)
	path = path.AppendASCII(kLastTabSessionFileName);
	else
	path = path.AppendASCII(kLastSessionFileName);
	return path;
	}

	base::FilePath SessionBackend::GetCurrentSessionPath() {
	base::FilePath path = path_to_dir_;
	if (type_ == sessions::BaseSessionService::TAB_RESTORE)
	path = path.AppendASCII(kCurrentTabSessionFileName);
	else
	path = path.AppendASCII(kCurrentSessionFileName);
	return path;
	}

	} // namespace sessions