media/cdm/ppapi/cdm_file_io_impl.cc - chromium/src - Git at Google

 // Copyright 2013 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 "media/cdm/ppapi/cdm_file_io_impl.h"

 #include <sstream>

 #include "media/cdm/ppapi/cdm_logging.h"
 #include "ppapi/c/pp_errors.h"
 #include "ppapi/cpp/dev/url_util_dev.h"

 namespace media {

 // Arbitrary choice based on the following heuristic ideas:
 // - not too big to avoid unnecessarily large memory allocation;
 // - not too small to avoid breaking most reads into multiple read operations.
 const int kReadSize = 8 * 1024;

 // Call func_call and check the result. If the result is not
 // PP_OK_COMPLETIONPENDING, print out logs, call OnError() and return.
 #define CHECK_PP_OK_COMPLETIONPENDING(func_call, error_type)            \
   do {                                                                  \
     int32_t result = func_call;                                         \
     PP_DCHECK(result != PP_OK);                                         \
     if (result != PP_OK_COMPLETIONPENDING) {                            \
       CDM_DLOG() << #func_call << " failed with result: " << result;    \
       state_ = STATE_ERROR;                                             \
       OnError(error_type);                                              \
       return;                                                           \
     }                                                                   \
   } while (0)

 #if !defined(NDEBUG)
 // PPAPI calls should only be made on the main thread. In this file, main thread
 // checking is only performed in public APIs and the completion callbacks. This
 // ensures all functions are running on the main thread since internal methods
 // are called either by the public APIs or by the completion callbacks.
 static bool IsMainThread() {
   return pp::Module::Get()->core()->IsMainThread();
 }
 #endif  // !defined(NDEBUG)

 // Posts a task to run |cb| on the main thread. The task is posted even if the
 // current thread is the main thread.
 static void PostOnMain(pp::CompletionCallback cb) {
   pp::Module::Get()->core()->CallOnMainThread(0, cb, PP_OK);
 }

 CdmFileIOImpl::FileLockMap* CdmFileIOImpl::file_lock_map_ = NULL;

 CdmFileIOImpl::ResourceTracker::ResourceTracker() {
   // Do nothing here since we lazy-initialize CdmFileIOImpl::file_lock_map_
   // in CdmFileIOImpl::AcquireFileLock().
 }

 CdmFileIOImpl::ResourceTracker::~ResourceTracker() {
   delete CdmFileIOImpl::file_lock_map_;
 }

 CdmFileIOImpl::CdmFileIOImpl(
     cdm::FileIOClient* client,
     PP_Instance pp_instance,
     const pp::CompletionCallback& first_file_read_cb)
     : state_(STATE_UNOPENED),
       client_(client),
       pp_instance_handle_(pp_instance),
       io_offset_(0),
       first_file_read_reported_(false),
       first_file_read_cb_(first_file_read_cb),
       callback_factory_(this) {
   PP_DCHECK(IsMainThread());
   PP_DCHECK(pp_instance);  // 0 indicates a "NULL handle".
 }

 CdmFileIOImpl::~CdmFileIOImpl() {
   // The destructor is private. |this| can only be destructed through Close().
   PP_DCHECK(state_ == STATE_CLOSED);
 }

 // Call sequence: Open() -> OpenFileSystem() -> STATE_FILE_SYSTEM_OPENED.
 // Note: This only stores file name and opens the file system. The real file
 // open is deferred to when Read() or Write() is called.
 void CdmFileIOImpl::Open(const char* file_name, uint32_t file_name_size) {
   CDM_DLOG() << __func__;
   PP_DCHECK(IsMainThread());

   if (state_ != STATE_UNOPENED) {
     CDM_DLOG() << "Open() called in an invalid state.";
     OnError(OPEN_ERROR);
     return;
   }

   // File name should not (1) be empty, (2) start with '_', or (3) contain any
   // path separators.
   std::string file_name_str(file_name, file_name_size);
   if (file_name_str.empty() ||
       file_name_str[0] == '_' ||
       file_name_str.find('/') != std::string::npos ||
       file_name_str.find('\\') != std::string::npos) {
     CDM_DLOG() << "Invalid file name.";
     state_ = STATE_ERROR;
     OnError(OPEN_ERROR);
     return;
   }

   // pp::FileRef only accepts path that begins with a '/' character.
   file_name_ = '/' + file_name_str;

   if (!AcquireFileLock()) {
     CDM_DLOG() << "File is in use by other cdm::FileIO objects.";
     OnError(OPEN_WHILE_IN_USE);
     return;
   }

   state_ = STATE_OPENING_FILE_SYSTEM;
   OpenFileSystem();
 }

 // Call sequence:
 // Read() -> OpenFileForRead() -> ReadFile() -> Done.
 void CdmFileIOImpl::Read() {
   CDM_DLOG() << __func__;
   PP_DCHECK(IsMainThread());

   if (state_ == STATE_READING || state_ == STATE_WRITING) {
     CDM_DLOG() << "Read() called during pending read/write.";
     OnError(READ_WHILE_IN_USE);
     return;
   }

   if (state_ != STATE_FILE_SYSTEM_OPENED) {
     CDM_DLOG() << "Read() called in an invalid state.";
     OnError(READ_ERROR);
     return;
   }

   PP_DCHECK(io_offset_ == 0);
   PP_DCHECK(io_buffer_.empty());
   PP_DCHECK(cumulative_read_buffer_.empty());
   io_buffer_.resize(kReadSize);
   io_offset_ = 0;

   state_ = STATE_READING;
   OpenFileForRead();
 }

 // Call sequence:
 // Write() -> OpenTempFileForWrite() -> WriteTempFile() -> RenameTempFile().
 // The file name of the temporary file is /_<requested_file_name>.
 void CdmFileIOImpl::Write(const uint8_t* data, uint32_t data_size) {
   CDM_DLOG() << __func__;
   PP_DCHECK(IsMainThread());

   if (state_ == STATE_READING || state_ == STATE_WRITING) {
     CDM_DLOG() << "Write() called during pending read/write.";
     OnError(WRITE_WHILE_IN_USE);
     return;
   }

   if (state_ != STATE_FILE_SYSTEM_OPENED) {
     CDM_DLOG() << "Write() called in an invalid state.";
     OnError(WRITE_ERROR);
     return;
   }

   PP_DCHECK(io_offset_ == 0);
   PP_DCHECK(io_buffer_.empty());
   if (data_size > 0)
     io_buffer_.assign(data, data + data_size);
   else
     PP_DCHECK(!data);

   state_ = STATE_WRITING;
   OpenTempFileForWrite();
 }

 void CdmFileIOImpl::Close() {
   CDM_DLOG() << __func__;
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ != STATE_CLOSED);
   Reset();
   state_ = STATE_CLOSED;
   ReleaseFileLock();
   // All pending callbacks are canceled since |callback_factory_| is destroyed.
   delete this;
 }

 bool CdmFileIOImpl::SetFileID() {
   PP_DCHECK(file_id_.empty());
   PP_DCHECK(!file_name_.empty() && file_name_[0] == '/');

   // Not taking ownership of |url_util_dev| (which is a singleton).
   const pp::URLUtil_Dev* url_util_dev = pp::URLUtil_Dev::Get();
   PP_URLComponents_Dev components;
   pp::Var url_var =
       url_util_dev->GetDocumentURL(pp_instance_handle_, &components);
   if (!url_var.is_string())
     return false;
   std::string url = url_var.AsString();

   file_id_.append(url, components.scheme.begin, components.scheme.len);
   file_id_ += ':';
   file_id_.append(url, components.host.begin, components.host.len);
   file_id_ += ':';
   file_id_.append(url, components.port.begin, components.port.len);
   file_id_ += file_name_;

   return true;
 }

 bool CdmFileIOImpl::AcquireFileLock() {
   PP_DCHECK(IsMainThread());

   if (file_id_.empty() && !SetFileID())
     return false;

   if (!file_lock_map_) {
     file_lock_map_ = new FileLockMap();
   } else {
     FileLockMap::iterator found = file_lock_map_->find(file_id_);
     if (found != file_lock_map_->end() && found->second)
       return false;
   }

   (*file_lock_map_)[file_id_] = true;
   return true;
 }

 void CdmFileIOImpl::ReleaseFileLock() {
   PP_DCHECK(IsMainThread());

   if (!file_lock_map_)
     return;

   FileLockMap::iterator found = file_lock_map_->find(file_id_);
   if (found != file_lock_map_->end() && found->second)
     found->second = false;
 }

 void CdmFileIOImpl::OpenFileSystem() {
   PP_DCHECK(state_ == STATE_OPENING_FILE_SYSTEM);

   pp::CompletionCallbackWithOutput<pp::FileSystem> cb =
       callback_factory_.NewCallbackWithOutput(
           &CdmFileIOImpl::OnFileSystemOpened);
   isolated_file_system_ = pp::IsolatedFileSystemPrivate(
       pp_instance_handle_, PP_ISOLATEDFILESYSTEMTYPE_PRIVATE_PLUGINPRIVATE);

   CHECK_PP_OK_COMPLETIONPENDING(isolated_file_system_.Open(cb), OPEN_ERROR);
 }

 void CdmFileIOImpl::OnFileSystemOpened(int32_t result,
                                        pp::FileSystem file_system) {
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ == STATE_OPENING_FILE_SYSTEM);

   if (result != PP_OK) {
     CDM_DLOG() << "File system open failed asynchronously.";
     ReleaseFileLock();
     state_ = STATE_ERROR;
     OnError(OPEN_ERROR);
     return;
   }

   file_system_ = file_system;

   state_ = STATE_FILE_SYSTEM_OPENED;
   client_->OnOpenComplete(cdm::FileIOClient::kSuccess);
 }

 void CdmFileIOImpl::OpenFileForRead() {
   PP_DCHECK(state_ == STATE_READING);

   PP_DCHECK(file_io_.is_null());
   PP_DCHECK(file_ref_.is_null());
   file_io_ = pp::FileIO(pp_instance_handle_);
   file_ref_ = pp::FileRef(file_system_, file_name_.c_str());

   // Open file for read. If file doesn't exist, PP_ERROR_FILENOTFOUND will be
   // returned.
   int32_t file_open_flag = PP_FILEOPENFLAG_READ;

   pp::CompletionCallback cb =
       callback_factory_.NewCallback(&CdmFileIOImpl::OnFileOpenedForRead);
   CHECK_PP_OK_COMPLETIONPENDING(file_io_.Open(file_ref_, file_open_flag, cb),
                                 READ_ERROR);
 }

 void CdmFileIOImpl::OnFileOpenedForRead(int32_t result) {
   CDM_DLOG() << __func__ << ": " << result;
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ == STATE_READING);

   if (result != PP_OK && result != PP_ERROR_FILENOTFOUND) {
     CDM_DLOG() << "File open failed.";
     state_ = STATE_ERROR;
     OnError(OPEN_ERROR);
     return;
   }

   // File doesn't exist.
   if (result == PP_ERROR_FILENOTFOUND) {
     Reset();
     state_ = STATE_FILE_SYSTEM_OPENED;
     client_->OnReadComplete(cdm::FileIOClient::kSuccess, NULL, 0);
     return;
   }

   ReadFile();
 }

 // Call sequence:
 //                               fully read
 // ReadFile() ---> OnFileRead() ------------> Done.
 //     ^                |
 //     | partially read |
 //     |----------------|
 void CdmFileIOImpl::ReadFile() {
   PP_DCHECK(state_ == STATE_READING);
   PP_DCHECK(!io_buffer_.empty());

   pp::CompletionCallback cb =
       callback_factory_.NewCallback(&CdmFileIOImpl::OnFileRead);
   CHECK_PP_OK_COMPLETIONPENDING(
       file_io_.Read(io_offset_, &io_buffer_[0], io_buffer_.size(), cb),
       READ_ERROR);
 }

 void CdmFileIOImpl::OnFileRead(int32_t bytes_read) {
   CDM_DLOG() << __func__ << ": " << bytes_read;
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ == STATE_READING);

   // 0 |bytes_read| indicates end-of-file reached.
   if (bytes_read < PP_OK) {
     CDM_DLOG() << "Read file failed.";
     state_ = STATE_ERROR;
     OnError(READ_ERROR);
     return;
   }

   PP_DCHECK(static_cast<size_t>(bytes_read) <= io_buffer_.size());
   // Append |bytes_read| in |io_buffer_| to |cumulative_read_buffer_|.
   cumulative_read_buffer_.insert(cumulative_read_buffer_.end(),
                                  io_buffer_.begin(),
                                  io_buffer_.begin() + bytes_read);
   io_offset_ += bytes_read;

   // Not received end-of-file yet. Keep reading.
   if (bytes_read > 0) {
     ReadFile();
     return;
   }

   // We hit end-of-file. Return read data to the client.

   // Clear |cumulative_read_buffer_| in case OnReadComplete() calls Read() or
   // Write().
   std::vector<char> local_buffer;
   std::swap(cumulative_read_buffer_, local_buffer);

   const uint8_t* data = local_buffer.empty() ?
       NULL : reinterpret_cast<const uint8_t*>(&local_buffer[0]);

   // Call this before OnReadComplete() so that we always have the latest file
   // size before CDM fires errors.
   if (!first_file_read_reported_) {
     first_file_read_cb_.Run(local_buffer.size());
     first_file_read_reported_ = true;
   }

   Reset();

   state_ = STATE_FILE_SYSTEM_OPENED;
   client_->OnReadComplete(
       cdm::FileIOClient::kSuccess, data, local_buffer.size());
 }

 void CdmFileIOImpl::OpenTempFileForWrite() {
   PP_DCHECK(state_ == STATE_WRITING);

   PP_DCHECK(file_name_.size() > 1 && file_name_[0] == '/');
   // Temporary file name format: /_<requested_file_name>
   std::string temp_file_name = "/_" + file_name_.substr(1);

   PP_DCHECK(file_io_.is_null());
   PP_DCHECK(file_ref_.is_null());
   file_io_ = pp::FileIO(pp_instance_handle_);
   file_ref_ = pp::FileRef(file_system_, temp_file_name.c_str());

   // Create the file if it doesn't exist. Truncate the file to length 0 if it
   // exists.
   // TODO(xhwang): Find a good way to report to UMA cases where the temporary
   // file already exists (due to previous interruption or failure).
   int32_t file_open_flag = PP_FILEOPENFLAG_WRITE |
                            PP_FILEOPENFLAG_TRUNCATE |
                            PP_FILEOPENFLAG_CREATE;

   pp::CompletionCallback cb =
       callback_factory_.NewCallback(&CdmFileIOImpl::OnTempFileOpenedForWrite);
   CHECK_PP_OK_COMPLETIONPENDING(
       file_io_.Open(file_ref_, file_open_flag, cb), WRITE_ERROR);
 }

 void CdmFileIOImpl::OnTempFileOpenedForWrite(int32_t result) {
   CDM_DLOG() << __func__ << ": " << result;
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ == STATE_WRITING);

   if (result != PP_OK) {
     CDM_DLOG() << "Open temporary file failed.";
     state_ = STATE_ERROR;
     OnError(WRITE_ERROR);
     return;
   }

   // We were told to write 0 bytes (to clear the file). In this case, there's
   // no need to write anything.
   if (io_buffer_.empty()) {
     RenameTempFile();
     return;
   }

   PP_DCHECK(io_offset_ == 0);
   io_offset_ = 0;
   WriteTempFile();
 }

 // Call sequence:
 //                                         fully written
 // WriteTempFile() -> OnTempFileWritten() ---------------> RenameTempFile().
 //      ^                     |
 //      |  partially written  |
 //      |---------------------|
 void CdmFileIOImpl::WriteTempFile() {
   PP_DCHECK(state_ == STATE_WRITING);
   PP_DCHECK(io_offset_ < io_buffer_.size());

   pp::CompletionCallback cb =
       callback_factory_.NewCallback(&CdmFileIOImpl::OnTempFileWritten);
   CHECK_PP_OK_COMPLETIONPENDING(file_io_.Write(io_offset_,
                                                &io_buffer_[io_offset_],
                                                io_buffer_.size() - io_offset_,
                                                cb),
                                 WRITE_ERROR);
 }

 void CdmFileIOImpl::OnTempFileWritten(int32_t bytes_written) {
   CDM_DLOG() << __func__ << ": " << bytes_written;
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ == STATE_WRITING);

   if (bytes_written <= PP_OK) {
     CDM_DLOG() << "Write temporary file failed.";
     state_ = STATE_ERROR;
     OnError(WRITE_ERROR);
     return;
   }

   io_offset_ += bytes_written;
   PP_DCHECK(io_offset_ <= io_buffer_.size());

   if (io_offset_ < io_buffer_.size()) {
     WriteTempFile();
     return;
   }

   // All data written. Now rename the temporary file to the real file.
   RenameTempFile();
 }

 void CdmFileIOImpl::RenameTempFile() {
   PP_DCHECK(state_ == STATE_WRITING);

   pp::CompletionCallback cb =
       callback_factory_.NewCallback(&CdmFileIOImpl::OnTempFileRenamed);
   CHECK_PP_OK_COMPLETIONPENDING(
       file_ref_.Rename(pp::FileRef(file_system_, file_name_.c_str()), cb),
       WRITE_ERROR);
 }

 void CdmFileIOImpl::OnTempFileRenamed(int32_t result) {
   CDM_DLOG() << __func__ << ": " << result;
   PP_DCHECK(IsMainThread());
   PP_DCHECK(state_ == STATE_WRITING);

   if (result != PP_OK) {
     CDM_DLOG() << "Rename temporary file failed.";
     state_ = STATE_ERROR;
     OnError(WRITE_ERROR);
     return;
   }

   Reset();

   state_ = STATE_FILE_SYSTEM_OPENED;
   client_->OnWriteComplete(cdm::FileIOClient::kSuccess);
 }

 void CdmFileIOImpl::Reset() {
   PP_DCHECK(IsMainThread());
   io_buffer_.clear();
   io_offset_ = 0;
   cumulative_read_buffer_.clear();
   file_io_.Close();
   file_io_ = pp::FileIO();
   file_ref_ = pp::FileRef();
 }

 void CdmFileIOImpl::OnError(ErrorType error_type) {
   // For *_WHILE_IN_USE errors, do not reset these values. Otherwise, the
   // existing read/write operation will fail.
   if (error_type == READ_ERROR || error_type == WRITE_ERROR)
     Reset();

   PostOnMain(callback_factory_.NewCallback(&CdmFileIOImpl::NotifyClientOfError,
                                            error_type));
 }

 void CdmFileIOImpl::NotifyClientOfError(int32_t result,
                                         ErrorType error_type) {
   PP_DCHECK(result == PP_OK);
   switch (error_type) {
     case OPEN_ERROR:
       client_->OnOpenComplete(cdm::FileIOClient::kError);
       break;
     case READ_ERROR:
       client_->OnReadComplete(cdm::FileIOClient::kError, NULL, 0);
       break;
     case WRITE_ERROR:
       client_->OnWriteComplete(cdm::FileIOClient::kError);
       break;
     case OPEN_WHILE_IN_USE:
       client_->OnOpenComplete(cdm::FileIOClient::kInUse);
       break;
     case READ_WHILE_IN_USE:
       client_->OnReadComplete(cdm::FileIOClient::kInUse, NULL, 0);
       break;
     case WRITE_WHILE_IN_USE:
       client_->OnWriteComplete(cdm::FileIOClient::kInUse);
       break;
   }
 }

 }  // namespace media
	// Copyright 2013 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 "media/cdm/ppapi/cdm_file_io_impl.h"

	#include <sstream>

	#include "media/cdm/ppapi/cdm_logging.h"
	#include "ppapi/c/pp_errors.h"
	#include "ppapi/cpp/dev/url_util_dev.h"

	namespace media {

	// Arbitrary choice based on the following heuristic ideas:
	// - not too big to avoid unnecessarily large memory allocation;
	// - not too small to avoid breaking most reads into multiple read operations.
	const int kReadSize = 8 * 1024;

	// Call func_call and check the result. If the result is not
	// PP_OK_COMPLETIONPENDING, print out logs, call OnError() and return.
	#define CHECK_PP_OK_COMPLETIONPENDING(func_call, error_type) \
	do { \
	int32_t result = func_call; \
	PP_DCHECK(result != PP_OK); \
	if (result != PP_OK_COMPLETIONPENDING) { \
	CDM_DLOG() << #func_call << " failed with result: " << result; \
	state_ = STATE_ERROR; \
	OnError(error_type); \
	return; \
	} \
	} while (0)

	#if !defined(NDEBUG)
	// PPAPI calls should only be made on the main thread. In this file, main thread
	// checking is only performed in public APIs and the completion callbacks. This
	// ensures all functions are running on the main thread since internal methods
	// are called either by the public APIs or by the completion callbacks.
	static bool IsMainThread() {
	return pp::Module::Get()->core()->IsMainThread();
	}
	#endif // !defined(NDEBUG)

	// Posts a task to run \|cb\| on the main thread. The task is posted even if the
	// current thread is the main thread.
	static void PostOnMain(pp::CompletionCallback cb) {
	pp::Module::Get()->core()->CallOnMainThread(0, cb, PP_OK);
	}

	CdmFileIOImpl::FileLockMap* CdmFileIOImpl::file_lock_map_ = NULL;

	CdmFileIOImpl::ResourceTracker::ResourceTracker() {
	// Do nothing here since we lazy-initialize CdmFileIOImpl::file_lock_map_
	// in CdmFileIOImpl::AcquireFileLock().
	}

	CdmFileIOImpl::ResourceTracker::~ResourceTracker() {
	delete CdmFileIOImpl::file_lock_map_;
	}

	CdmFileIOImpl::CdmFileIOImpl(
	cdm::FileIOClient* client,
	PP_Instance pp_instance,
	const pp::CompletionCallback& first_file_read_cb)
	: state_(STATE_UNOPENED),
	client_(client),
	pp_instance_handle_(pp_instance),
	io_offset_(0),
	first_file_read_reported_(false),
	first_file_read_cb_(first_file_read_cb),
	callback_factory_(this) {
	PP_DCHECK(IsMainThread());
	PP_DCHECK(pp_instance); // 0 indicates a "NULL handle".
	}

	CdmFileIOImpl::~CdmFileIOImpl() {
	// The destructor is private. \|this\| can only be destructed through Close().
	PP_DCHECK(state_ == STATE_CLOSED);
	}

	// Call sequence: Open() -> OpenFileSystem() -> STATE_FILE_SYSTEM_OPENED.
	// Note: This only stores file name and opens the file system. The real file
	// open is deferred to when Read() or Write() is called.
	void CdmFileIOImpl::Open(const char* file_name, uint32_t file_name_size) {
	CDM_DLOG() << __func__;
	PP_DCHECK(IsMainThread());

	if (state_ != STATE_UNOPENED) {
	CDM_DLOG() << "Open() called in an invalid state.";
	OnError(OPEN_ERROR);
	return;
	}

	// File name should not (1) be empty, (2) start with '_', or (3) contain any
	// path separators.
	std::string file_name_str(file_name, file_name_size);
	if (file_name_str.empty() \|\|
	file_name_str[0] == '_' \|\|
	file_name_str.find('/') != std::string::npos \|\|
	file_name_str.find('\\') != std::string::npos) {
	CDM_DLOG() << "Invalid file name.";
	state_ = STATE_ERROR;
	OnError(OPEN_ERROR);
	return;
	}

	// pp::FileRef only accepts path that begins with a '/' character.
	file_name_ = '/' + file_name_str;

	if (!AcquireFileLock()) {
	CDM_DLOG() << "File is in use by other cdm::FileIO objects.";
	OnError(OPEN_WHILE_IN_USE);
	return;
	}

	state_ = STATE_OPENING_FILE_SYSTEM;
	OpenFileSystem();
	}

	// Call sequence:
	// Read() -> OpenFileForRead() -> ReadFile() -> Done.
	void CdmFileIOImpl::Read() {
	CDM_DLOG() << __func__;
	PP_DCHECK(IsMainThread());

	if (state_ == STATE_READING \|\| state_ == STATE_WRITING) {
	CDM_DLOG() << "Read() called during pending read/write.";
	OnError(READ_WHILE_IN_USE);
	return;
	}

	if (state_ != STATE_FILE_SYSTEM_OPENED) {
	CDM_DLOG() << "Read() called in an invalid state.";
	OnError(READ_ERROR);
	return;
	}

	PP_DCHECK(io_offset_ == 0);
	PP_DCHECK(io_buffer_.empty());
	PP_DCHECK(cumulative_read_buffer_.empty());
	io_buffer_.resize(kReadSize);
	io_offset_ = 0;

	state_ = STATE_READING;
	OpenFileForRead();
	}

	// Call sequence:
	// Write() -> OpenTempFileForWrite() -> WriteTempFile() -> RenameTempFile().
	// The file name of the temporary file is /_<requested_file_name>.
	void CdmFileIOImpl::Write(const uint8_t* data, uint32_t data_size) {
	CDM_DLOG() << __func__;
	PP_DCHECK(IsMainThread());

	if (state_ == STATE_READING \|\| state_ == STATE_WRITING) {
	CDM_DLOG() << "Write() called during pending read/write.";
	OnError(WRITE_WHILE_IN_USE);
	return;
	}

	if (state_ != STATE_FILE_SYSTEM_OPENED) {
	CDM_DLOG() << "Write() called in an invalid state.";
	OnError(WRITE_ERROR);
	return;
	}

	PP_DCHECK(io_offset_ == 0);
	PP_DCHECK(io_buffer_.empty());
	if (data_size > 0)
	io_buffer_.assign(data, data + data_size);
	else
	PP_DCHECK(!data);

	state_ = STATE_WRITING;
	OpenTempFileForWrite();
	}

	void CdmFileIOImpl::Close() {
	CDM_DLOG() << __func__;
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ != STATE_CLOSED);
	Reset();
	state_ = STATE_CLOSED;
	ReleaseFileLock();
	// All pending callbacks are canceled since \|callback_factory_\| is destroyed.
	delete this;
	}

	bool CdmFileIOImpl::SetFileID() {
	PP_DCHECK(file_id_.empty());
	PP_DCHECK(!file_name_.empty() && file_name_[0] == '/');

	// Not taking ownership of \|url_util_dev\| (which is a singleton).
	const pp::URLUtil_Dev* url_util_dev = pp::URLUtil_Dev::Get();
	PP_URLComponents_Dev components;
	pp::Var url_var =
	url_util_dev->GetDocumentURL(pp_instance_handle_, &components);
	if (!url_var.is_string())
	return false;
	std::string url = url_var.AsString();

	file_id_.append(url, components.scheme.begin, components.scheme.len);
	file_id_ += ':';
	file_id_.append(url, components.host.begin, components.host.len);
	file_id_ += ':';
	file_id_.append(url, components.port.begin, components.port.len);
	file_id_ += file_name_;

	return true;
	}

	bool CdmFileIOImpl::AcquireFileLock() {
	PP_DCHECK(IsMainThread());

	if (file_id_.empty() && !SetFileID())
	return false;

	if (!file_lock_map_) {
	file_lock_map_ = new FileLockMap();
	} else {
	FileLockMap::iterator found = file_lock_map_->find(file_id_);
	if (found != file_lock_map_->end() && found->second)
	return false;
	}

	(*file_lock_map_)[file_id_] = true;
	return true;
	}

	void CdmFileIOImpl::ReleaseFileLock() {
	PP_DCHECK(IsMainThread());

	if (!file_lock_map_)
	return;

	FileLockMap::iterator found = file_lock_map_->find(file_id_);
	if (found != file_lock_map_->end() && found->second)
	found->second = false;
	}

	void CdmFileIOImpl::OpenFileSystem() {
	PP_DCHECK(state_ == STATE_OPENING_FILE_SYSTEM);

	pp::CompletionCallbackWithOutput<pp::FileSystem> cb =
	callback_factory_.NewCallbackWithOutput(
	&CdmFileIOImpl::OnFileSystemOpened);
	isolated_file_system_ = pp::IsolatedFileSystemPrivate(
	pp_instance_handle_, PP_ISOLATEDFILESYSTEMTYPE_PRIVATE_PLUGINPRIVATE);

	CHECK_PP_OK_COMPLETIONPENDING(isolated_file_system_.Open(cb), OPEN_ERROR);
	}

	void CdmFileIOImpl::OnFileSystemOpened(int32_t result,
	pp::FileSystem file_system) {
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ == STATE_OPENING_FILE_SYSTEM);

	if (result != PP_OK) {
	CDM_DLOG() << "File system open failed asynchronously.";
	ReleaseFileLock();
	state_ = STATE_ERROR;
	OnError(OPEN_ERROR);
	return;
	}

	file_system_ = file_system;

	state_ = STATE_FILE_SYSTEM_OPENED;
	client_->OnOpenComplete(cdm::FileIOClient::kSuccess);
	}

	void CdmFileIOImpl::OpenFileForRead() {
	PP_DCHECK(state_ == STATE_READING);

	PP_DCHECK(file_io_.is_null());
	PP_DCHECK(file_ref_.is_null());
	file_io_ = pp::FileIO(pp_instance_handle_);
	file_ref_ = pp::FileRef(file_system_, file_name_.c_str());

	// Open file for read. If file doesn't exist, PP_ERROR_FILENOTFOUND will be
	// returned.
	int32_t file_open_flag = PP_FILEOPENFLAG_READ;

	pp::CompletionCallback cb =
	callback_factory_.NewCallback(&CdmFileIOImpl::OnFileOpenedForRead);
	CHECK_PP_OK_COMPLETIONPENDING(file_io_.Open(file_ref_, file_open_flag, cb),
	READ_ERROR);
	}

	void CdmFileIOImpl::OnFileOpenedForRead(int32_t result) {
	CDM_DLOG() << __func__ << ": " << result;
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ == STATE_READING);

	if (result != PP_OK && result != PP_ERROR_FILENOTFOUND) {
	CDM_DLOG() << "File open failed.";
	state_ = STATE_ERROR;
	OnError(OPEN_ERROR);
	return;
	}

	// File doesn't exist.
	if (result == PP_ERROR_FILENOTFOUND) {
	Reset();
	state_ = STATE_FILE_SYSTEM_OPENED;
	client_->OnReadComplete(cdm::FileIOClient::kSuccess, NULL, 0);
	return;
	}

	ReadFile();
	}

	// Call sequence:
	// fully read
	// ReadFile() ---> OnFileRead() ------------> Done.
	// ^ \|
	// \| partially read \|
	// \|----------------\|
	void CdmFileIOImpl::ReadFile() {
	PP_DCHECK(state_ == STATE_READING);
	PP_DCHECK(!io_buffer_.empty());

	pp::CompletionCallback cb =
	callback_factory_.NewCallback(&CdmFileIOImpl::OnFileRead);
	CHECK_PP_OK_COMPLETIONPENDING(
	file_io_.Read(io_offset_, &io_buffer_[0], io_buffer_.size(), cb),
	READ_ERROR);
	}

	void CdmFileIOImpl::OnFileRead(int32_t bytes_read) {
	CDM_DLOG() << __func__ << ": " << bytes_read;
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ == STATE_READING);

	// 0 \|bytes_read\| indicates end-of-file reached.
	if (bytes_read < PP_OK) {
	CDM_DLOG() << "Read file failed.";
	state_ = STATE_ERROR;
	OnError(READ_ERROR);
	return;
	}

	PP_DCHECK(static_cast<size_t>(bytes_read) <= io_buffer_.size());
	// Append \|bytes_read\| in \|io_buffer_\| to \|cumulative_read_buffer_\|.
	cumulative_read_buffer_.insert(cumulative_read_buffer_.end(),
	io_buffer_.begin(),
	io_buffer_.begin() + bytes_read);
	io_offset_ += bytes_read;

	// Not received end-of-file yet. Keep reading.
	if (bytes_read > 0) {
	ReadFile();
	return;
	}

	// We hit end-of-file. Return read data to the client.

	// Clear \|cumulative_read_buffer_\| in case OnReadComplete() calls Read() or
	// Write().
	std::vector<char> local_buffer;
	std::swap(cumulative_read_buffer_, local_buffer);

	const uint8_t* data = local_buffer.empty() ?
	NULL : reinterpret_cast<const uint8_t*>(&local_buffer[0]);

	// Call this before OnReadComplete() so that we always have the latest file
	// size before CDM fires errors.
	if (!first_file_read_reported_) {
	first_file_read_cb_.Run(local_buffer.size());
	first_file_read_reported_ = true;
	}

	Reset();

	state_ = STATE_FILE_SYSTEM_OPENED;
	client_->OnReadComplete(
	cdm::FileIOClient::kSuccess, data, local_buffer.size());
	}

	void CdmFileIOImpl::OpenTempFileForWrite() {
	PP_DCHECK(state_ == STATE_WRITING);

	PP_DCHECK(file_name_.size() > 1 && file_name_[0] == '/');
	// Temporary file name format: /_<requested_file_name>
	std::string temp_file_name = "/_" + file_name_.substr(1);

	PP_DCHECK(file_io_.is_null());
	PP_DCHECK(file_ref_.is_null());
	file_io_ = pp::FileIO(pp_instance_handle_);
	file_ref_ = pp::FileRef(file_system_, temp_file_name.c_str());

	// Create the file if it doesn't exist. Truncate the file to length 0 if it
	// exists.
	// TODO(xhwang): Find a good way to report to UMA cases where the temporary
	// file already exists (due to previous interruption or failure).
	int32_t file_open_flag = PP_FILEOPENFLAG_WRITE \|
	PP_FILEOPENFLAG_TRUNCATE \|
	PP_FILEOPENFLAG_CREATE;

	pp::CompletionCallback cb =
	callback_factory_.NewCallback(&CdmFileIOImpl::OnTempFileOpenedForWrite);
	CHECK_PP_OK_COMPLETIONPENDING(
	file_io_.Open(file_ref_, file_open_flag, cb), WRITE_ERROR);
	}

	void CdmFileIOImpl::OnTempFileOpenedForWrite(int32_t result) {
	CDM_DLOG() << __func__ << ": " << result;
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ == STATE_WRITING);

	if (result != PP_OK) {
	CDM_DLOG() << "Open temporary file failed.";
	state_ = STATE_ERROR;
	OnError(WRITE_ERROR);
	return;
	}

	// We were told to write 0 bytes (to clear the file). In this case, there's
	// no need to write anything.
	if (io_buffer_.empty()) {
	RenameTempFile();
	return;
	}

	PP_DCHECK(io_offset_ == 0);
	io_offset_ = 0;
	WriteTempFile();
	}

	// Call sequence:
	// fully written
	// WriteTempFile() -> OnTempFileWritten() ---------------> RenameTempFile().
	// ^ \|
	// \| partially written \|
	// \|---------------------\|
	void CdmFileIOImpl::WriteTempFile() {
	PP_DCHECK(state_ == STATE_WRITING);
	PP_DCHECK(io_offset_ < io_buffer_.size());

	pp::CompletionCallback cb =
	callback_factory_.NewCallback(&CdmFileIOImpl::OnTempFileWritten);
	CHECK_PP_OK_COMPLETIONPENDING(file_io_.Write(io_offset_,
	&io_buffer_[io_offset_],
	io_buffer_.size() - io_offset_,
	cb),
	WRITE_ERROR);
	}

	void CdmFileIOImpl::OnTempFileWritten(int32_t bytes_written) {
	CDM_DLOG() << __func__ << ": " << bytes_written;
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ == STATE_WRITING);

	if (bytes_written <= PP_OK) {
	CDM_DLOG() << "Write temporary file failed.";
	state_ = STATE_ERROR;
	OnError(WRITE_ERROR);
	return;
	}

	io_offset_ += bytes_written;
	PP_DCHECK(io_offset_ <= io_buffer_.size());

	if (io_offset_ < io_buffer_.size()) {
	WriteTempFile();
	return;
	}

	// All data written. Now rename the temporary file to the real file.
	RenameTempFile();
	}

	void CdmFileIOImpl::RenameTempFile() {
	PP_DCHECK(state_ == STATE_WRITING);

	pp::CompletionCallback cb =
	callback_factory_.NewCallback(&CdmFileIOImpl::OnTempFileRenamed);
	CHECK_PP_OK_COMPLETIONPENDING(
	file_ref_.Rename(pp::FileRef(file_system_, file_name_.c_str()), cb),
	WRITE_ERROR);
	}

	void CdmFileIOImpl::OnTempFileRenamed(int32_t result) {
	CDM_DLOG() << __func__ << ": " << result;
	PP_DCHECK(IsMainThread());
	PP_DCHECK(state_ == STATE_WRITING);

	if (result != PP_OK) {
	CDM_DLOG() << "Rename temporary file failed.";
	state_ = STATE_ERROR;
	OnError(WRITE_ERROR);
	return;
	}

	Reset();

	state_ = STATE_FILE_SYSTEM_OPENED;
	client_->OnWriteComplete(cdm::FileIOClient::kSuccess);
	}

	void CdmFileIOImpl::Reset() {
	PP_DCHECK(IsMainThread());
	io_buffer_.clear();
	io_offset_ = 0;
	cumulative_read_buffer_.clear();
	file_io_.Close();
	file_io_ = pp::FileIO();
	file_ref_ = pp::FileRef();
	}

	void CdmFileIOImpl::OnError(ErrorType error_type) {
	// For *_WHILE_IN_USE errors, do not reset these values. Otherwise, the
	// existing read/write operation will fail.
	if (error_type == READ_ERROR \|\| error_type == WRITE_ERROR)
	Reset();

	PostOnMain(callback_factory_.NewCallback(&CdmFileIOImpl::NotifyClientOfError,
	error_type));
	}

	void CdmFileIOImpl::NotifyClientOfError(int32_t result,
	ErrorType error_type) {
	PP_DCHECK(result == PP_OK);
	switch (error_type) {
	case OPEN_ERROR:
	client_->OnOpenComplete(cdm::FileIOClient::kError);
	break;
	case READ_ERROR:
	client_->OnReadComplete(cdm::FileIOClient::kError, NULL, 0);
	break;
	case WRITE_ERROR:
	client_->OnWriteComplete(cdm::FileIOClient::kError);
	break;
	case OPEN_WHILE_IN_USE:
	client_->OnOpenComplete(cdm::FileIOClient::kInUse);
	break;
	case READ_WHILE_IN_USE:
	client_->OnReadComplete(cdm::FileIOClient::kInUse, NULL, 0);
	break;
	case WRITE_WHILE_IN_USE:
	client_->OnWriteComplete(cdm::FileIOClient::kInUse);
	break;
	}
	}

	} // namespace media