media/cdm/ppapi/cdm_file_io_impl.h - 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.

 #ifndef MEDIA_CDM_PPAPI_CDM_FILE_IO_IMPL_H_
 #define MEDIA_CDM_PPAPI_CDM_FILE_IO_IMPL_H_

 #include <algorithm>
 #include <string>
 #include <vector>

 #include "base/basictypes.h"
 #include "media/cdm/ppapi/api/content_decryption_module.h"
 #include "ppapi/c/ppb_file_io.h"
 #include "ppapi/cpp/file_io.h"
 #include "ppapi/cpp/file_ref.h"
 #include "ppapi/cpp/instance.h"
 #include "ppapi/cpp/module.h"
 #include "ppapi/cpp/private/isolated_file_system_private.h"
 #include "ppapi/utility/completion_callback_factory.h"

 namespace media {

 // Due to PPAPI limitations, all functions must be called on the main thread.
 //
 // Implementation notes about states:
 // 1, When a method is called in an invalid state (e.g. Read() before Open() is
 //    called, Write() before Open() finishes or Open() after Open()), kError
 //    will be returned. The state of |this| will not change.
 // 2, When the file is opened by another CDM instance, or when we call Read()/
 //    Write() during a pending Read()/Write(), kInUse will be returned. The
 //    state of |this| will not change.
 // 3, When a pepper operation failed (either synchronously or asynchronously),
 //    kError will be returned. The state of |this| will be set to ERROR.
 // 4. Any operation in ERROR state will end up with kError.
 class CdmFileIOImpl : public cdm::FileIO {
  public:
   // A class that helps release |file_lock_map_|.
   // There should be only one instance of ResourceTracker in a process. Also,
   // ResourceTracker should outlive all CdmFileIOImpl instances.
   class ResourceTracker {
    public:
     ResourceTracker();
     ~ResourceTracker();
    private:
     DISALLOW_COPY_AND_ASSIGN(ResourceTracker);
   };

   // After the first successful file read, call |first_file_read_cb| to report
   // the file size. |first_file_read_cb| takes one parameter: the file size in
   // bytes.
   CdmFileIOImpl(cdm::FileIOClient* client,
                 PP_Instance pp_instance,
                 const pp::CompletionCallback& first_file_read_cb);

   // cdm::FileIO implementation.
   void Open(const char* file_name, uint32_t file_name_size) override;
   void Read() override;
   void Write(const uint8_t* data, uint32_t data_size) override;
   void Close() override;

  private:
   // TODO(xhwang): Introduce more detailed states for UMA logging if needed.
   enum State {
     STATE_UNOPENED,
     STATE_OPENING_FILE_SYSTEM,
     STATE_FILE_SYSTEM_OPENED,
     STATE_READING,
     STATE_WRITING,
     STATE_CLOSED,
     STATE_ERROR
   };

   enum ErrorType {
     OPEN_WHILE_IN_USE,
     READ_WHILE_IN_USE,
     WRITE_WHILE_IN_USE,
     OPEN_ERROR,
     READ_ERROR,
     WRITE_ERROR
   };

   // Always use Close() to release |this| object.
   virtual ~CdmFileIOImpl();

   // |file_id_| -> |is_file_lock_acquired_| map.
   // Design detail:
   // - We never erase an entry from this map.
   // - Pros: When the same file is read or written repeatedly, we don't need to
   //   insert/erase the entry repeatedly, which is expensive.
   // - Cons: If there are a lot of one-off files used, this map will be
   //   unnecessarily large. But this should be a rare case.
   // - Ideally we could use unordered_map for this. But unordered_set is only
   //   available in C++11.
   typedef std::map<std::string, bool> FileLockMap;

   // File lock map shared by all CdmFileIOImpl objects to prevent read/write
   // race. A CdmFileIOImpl object tries to acquire a lock before opening a
   // file. If the file open failed, the lock is released. Otherwise, the
   // CdmFileIOImpl object holds the lock until Close() is called.
   // TODO(xhwang): Investigate the following cases and make sure we are good:
   // - This assumes all CDM instances run in the same process for a given file
   //   system.
   // - When multiple CDM instances are running in different profiles (e.g.
   //   normal/incognito window, multiple profiles), we may be overlocking.
   static FileLockMap* file_lock_map_;

   // Sets |file_id_|. Returns false if |file_id_| cannot be set (e.g. origin URL
   // cannot be fetched).
   bool SetFileID();

   // Acquires the file lock. Returns true if the lock is successfully acquired.
   // After the lock is acquired, other cdm::FileIO objects in the same process
   // and in the same origin will get kInUse when trying to open the same file.
   bool AcquireFileLock();

   // Releases the file lock so that the file can be opened by other cdm::FileIO
   // objects.
   void ReleaseFileLock();

   // Helper functions for Open().
   void OpenFileSystem();
   void OnFileSystemOpened(int32_t result, pp::FileSystem file_system);

   // Helper functions for Read().
   void OpenFileForRead();
   void OnFileOpenedForRead(int32_t result);
   void ReadFile();
   void OnFileRead(int32_t bytes_read);

   // Helper functions for Write(). We always write data to a temporary file,
   // then rename the temporary file to the target file. This can prevent data
   // corruption if |this| is Close()'ed while waiting for writing to complete.
   // However, if Close() is called after OpenTempFileForWrite() but before
   // RenameTempFile(), we may still end up with an empty, partially written or
   // fully written temporary file in the file system. This temporary file will
   // be truncated next time OpenTempFileForWrite() is called.

   void OpenTempFileForWrite();
   void OnTempFileOpenedForWrite(int32_t result);
   void WriteTempFile();
   void OnTempFileWritten(int32_t bytes_written);
   // Note: pp::FileRef::Rename() actually does a "move": if the target file
   // exists, Rename() will succeed and the target file will be overwritten.
   // See PepperInternalFileRefBackend::Rename() for implementation detail.
   void RenameTempFile();
   void OnTempFileRenamed(int32_t result);

   // Reset |this| to a clean state.
   void Reset();

   // For real open/read/write errors, Reset() and set the |state_| to ERROR.
   // Calls client_->OnXxxxComplete with kError or kInUse asynchronously. In some
   // cases we could actually call them synchronously, but since these errors
   // shouldn't happen in normal cases, we are not optimizing such cases.
   void OnError(ErrorType error_type);

   // Callback to notify client of error asynchronously.
   void NotifyClientOfError(int32_t result, ErrorType error_type);

   State state_;

   // Non-owning pointer.
   cdm::FileIOClient* const client_;

   const pp::InstanceHandle pp_instance_handle_;

   // Format: /<requested_file_name>
   std::string file_name_;

   // A string ID that uniquely identifies a file in the user's profile.
   // It consists of the origin of the document URL (including scheme, host and
   // port, delimited by colons) and the |file_name_|.
   // For example: http:example.com:8080/foo_file.txt
   std::string file_id_;

   pp::IsolatedFileSystemPrivate isolated_file_system_;
   pp::FileSystem file_system_;

   // Shared between read and write. During read, |file_ref_| refers to the real
   // file to read data from. During write, it refers to the temporary file to
   // write data into.
   pp::FileIO file_io_;
   pp::FileRef file_ref_;

   // A temporary buffer to hold (partial) data to write or the data that has
   // been read. The size of |io_buffer_| is always "bytes to write" or "bytes to
   // read". Use "char" instead of "unit8_t" because PPB_FileIO uses char* for
   // binary data read and write.
   std::vector<char> io_buffer_;

   // Offset into the file for reading/writing data. When writing data to the
   // file, this is also the offset to the |io_buffer_|.
   size_t io_offset_;

   // Buffer to hold all read data requested. This buffer is passed to |client_|
   // when read completes.
   std::vector<char> cumulative_read_buffer_;

   bool first_file_read_reported_;

   // Callback to report the file size in bytes after the first successful read.
   pp::CompletionCallback first_file_read_cb_;

   pp::CompletionCallbackFactory<CdmFileIOImpl> callback_factory_;

   DISALLOW_COPY_AND_ASSIGN(CdmFileIOImpl);
 };

 }  // namespace media

 #endif  // MEDIA_CDM_PPAPI_CDM_FILE_IO_IMPL_H_
	// 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.

	#ifndef MEDIA_CDM_PPAPI_CDM_FILE_IO_IMPL_H_
	#define MEDIA_CDM_PPAPI_CDM_FILE_IO_IMPL_H_

	#include <algorithm>
	#include <string>
	#include <vector>

	#include "base/basictypes.h"
	#include "media/cdm/ppapi/api/content_decryption_module.h"
	#include "ppapi/c/ppb_file_io.h"
	#include "ppapi/cpp/file_io.h"
	#include "ppapi/cpp/file_ref.h"
	#include "ppapi/cpp/instance.h"
	#include "ppapi/cpp/module.h"
	#include "ppapi/cpp/private/isolated_file_system_private.h"
	#include "ppapi/utility/completion_callback_factory.h"

	namespace media {

	// Due to PPAPI limitations, all functions must be called on the main thread.
	//
	// Implementation notes about states:
	// 1, When a method is called in an invalid state (e.g. Read() before Open() is
	// called, Write() before Open() finishes or Open() after Open()), kError
	// will be returned. The state of \|this\| will not change.
	// 2, When the file is opened by another CDM instance, or when we call Read()/
	// Write() during a pending Read()/Write(), kInUse will be returned. The
	// state of \|this\| will not change.
	// 3, When a pepper operation failed (either synchronously or asynchronously),
	// kError will be returned. The state of \|this\| will be set to ERROR.
	// 4. Any operation in ERROR state will end up with kError.
	class CdmFileIOImpl : public cdm::FileIO {
	public:
	// A class that helps release \|file_lock_map_\|.
	// There should be only one instance of ResourceTracker in a process. Also,
	// ResourceTracker should outlive all CdmFileIOImpl instances.
	class ResourceTracker {
	public:
	ResourceTracker();
	~ResourceTracker();
	private:
	DISALLOW_COPY_AND_ASSIGN(ResourceTracker);
	};

	// After the first successful file read, call \|first_file_read_cb\| to report
	// the file size. \|first_file_read_cb\| takes one parameter: the file size in
	// bytes.
	CdmFileIOImpl(cdm::FileIOClient* client,
	PP_Instance pp_instance,
	const pp::CompletionCallback& first_file_read_cb);

	// cdm::FileIO implementation.
	void Open(const char* file_name, uint32_t file_name_size) override;
	void Read() override;
	void Write(const uint8_t* data, uint32_t data_size) override;
	void Close() override;

	private:
	// TODO(xhwang): Introduce more detailed states for UMA logging if needed.
	enum State {
	STATE_UNOPENED,
	STATE_OPENING_FILE_SYSTEM,
	STATE_FILE_SYSTEM_OPENED,
	STATE_READING,
	STATE_WRITING,
	STATE_CLOSED,
	STATE_ERROR
	};

	enum ErrorType {
	OPEN_WHILE_IN_USE,
	READ_WHILE_IN_USE,
	WRITE_WHILE_IN_USE,
	OPEN_ERROR,
	READ_ERROR,
	WRITE_ERROR
	};

	// Always use Close() to release \|this\| object.
	virtual ~CdmFileIOImpl();

	// \|file_id_\| -> \|is_file_lock_acquired_\| map.
	// Design detail:
	// - We never erase an entry from this map.
	// - Pros: When the same file is read or written repeatedly, we don't need to
	// insert/erase the entry repeatedly, which is expensive.
	// - Cons: If there are a lot of one-off files used, this map will be
	// unnecessarily large. But this should be a rare case.
	// - Ideally we could use unordered_map for this. But unordered_set is only
	// available in C++11.
	typedef std::map<std::string, bool> FileLockMap;

	// File lock map shared by all CdmFileIOImpl objects to prevent read/write
	// race. A CdmFileIOImpl object tries to acquire a lock before opening a
	// file. If the file open failed, the lock is released. Otherwise, the
	// CdmFileIOImpl object holds the lock until Close() is called.
	// TODO(xhwang): Investigate the following cases and make sure we are good:
	// - This assumes all CDM instances run in the same process for a given file
	// system.
	// - When multiple CDM instances are running in different profiles (e.g.
	// normal/incognito window, multiple profiles), we may be overlocking.
	static FileLockMap* file_lock_map_;

	// Sets \|file_id_\|. Returns false if \|file_id_\| cannot be set (e.g. origin URL
	// cannot be fetched).
	bool SetFileID();

	// Acquires the file lock. Returns true if the lock is successfully acquired.
	// After the lock is acquired, other cdm::FileIO objects in the same process
	// and in the same origin will get kInUse when trying to open the same file.
	bool AcquireFileLock();

	// Releases the file lock so that the file can be opened by other cdm::FileIO
	// objects.
	void ReleaseFileLock();

	// Helper functions for Open().
	void OpenFileSystem();
	void OnFileSystemOpened(int32_t result, pp::FileSystem file_system);

	// Helper functions for Read().
	void OpenFileForRead();
	void OnFileOpenedForRead(int32_t result);
	void ReadFile();
	void OnFileRead(int32_t bytes_read);

	// Helper functions for Write(). We always write data to a temporary file,
	// then rename the temporary file to the target file. This can prevent data
	// corruption if \|this\| is Close()'ed while waiting for writing to complete.
	// However, if Close() is called after OpenTempFileForWrite() but before
	// RenameTempFile(), we may still end up with an empty, partially written or
	// fully written temporary file in the file system. This temporary file will
	// be truncated next time OpenTempFileForWrite() is called.

	void OpenTempFileForWrite();
	void OnTempFileOpenedForWrite(int32_t result);
	void WriteTempFile();
	void OnTempFileWritten(int32_t bytes_written);
	// Note: pp::FileRef::Rename() actually does a "move": if the target file
	// exists, Rename() will succeed and the target file will be overwritten.
	// See PepperInternalFileRefBackend::Rename() for implementation detail.
	void RenameTempFile();
	void OnTempFileRenamed(int32_t result);

	// Reset \|this\| to a clean state.
	void Reset();

	// For real open/read/write errors, Reset() and set the \|state_\| to ERROR.
	// Calls client_->OnXxxxComplete with kError or kInUse asynchronously. In some
	// cases we could actually call them synchronously, but since these errors
	// shouldn't happen in normal cases, we are not optimizing such cases.
	void OnError(ErrorType error_type);

	// Callback to notify client of error asynchronously.
	void NotifyClientOfError(int32_t result, ErrorType error_type);

	State state_;

	// Non-owning pointer.
	cdm::FileIOClient* const client_;

	const pp::InstanceHandle pp_instance_handle_;

	// Format: /<requested_file_name>
	std::string file_name_;

	// A string ID that uniquely identifies a file in the user's profile.
	// It consists of the origin of the document URL (including scheme, host and
	// port, delimited by colons) and the \|file_name_\|.
	// For example: http:example.com:8080/foo_file.txt
	std::string file_id_;

	pp::IsolatedFileSystemPrivate isolated_file_system_;
	pp::FileSystem file_system_;

	// Shared between read and write. During read, \|file_ref_\| refers to the real
	// file to read data from. During write, it refers to the temporary file to
	// write data into.
	pp::FileIO file_io_;
	pp::FileRef file_ref_;

	// A temporary buffer to hold (partial) data to write or the data that has
	// been read. The size of \|io_buffer_\| is always "bytes to write" or "bytes to
	// read". Use "char" instead of "unit8_t" because PPB_FileIO uses char* for
	// binary data read and write.
	std::vector<char> io_buffer_;

	// Offset into the file for reading/writing data. When writing data to the
	// file, this is also the offset to the \|io_buffer_\|.
	size_t io_offset_;

	// Buffer to hold all read data requested. This buffer is passed to \|client_\|
	// when read completes.
	std::vector<char> cumulative_read_buffer_;

	bool first_file_read_reported_;

	// Callback to report the file size in bytes after the first successful read.
	pp::CompletionCallback first_file_read_cb_;

	pp::CompletionCallbackFactory<CdmFileIOImpl> callback_factory_;

	DISALLOW_COPY_AND_ASSIGN(CdmFileIOImpl);
	};

	} // namespace media

	#endif // MEDIA_CDM_PPAPI_CDM_FILE_IO_IMPL_H_