src/net/base/file_stream.h - cobalt - Git at Google

 // 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.

 // This file defines FileStream, a basic interface for reading and writing files
 // synchronously or asynchronously with support for seeking to an offset.
 // Note that even when used asynchronously, only one operation is supported at
 // a time.

 #ifndef NET_BASE_FILE_STREAM_H_
 #define NET_BASE_FILE_STREAM_H_

 #include "base/platform_file.h"
 #include "net/base/completion_callback.h"
 #include "net/base/file_stream_whence.h"
 #include "net/base/net_export.h"
 #include "net/base/net_log.h"

 class FilePath;

 namespace net {

 class IOBuffer;

 class NET_EXPORT FileStream {
  public:
   // Creates a |FileStream| with a new |BoundNetLog| (based on |net_log|)
   // attached.  |net_log| may be NULL if no logging is needed.
   explicit FileStream(net::NetLog* net_log);

   // Construct a FileStream with an existing file handle and opening flags.
   // |file| is valid file handle.
   // |flags| is a bitfield of base::PlatformFileFlags when the file handle was
   // opened.
   // |net_log| is the net log pointer to use to create a |BoundNetLog|.  May be
   // NULL if logging is not needed.
   // Note: the new FileStream object takes ownership of the PlatformFile and
   // will close it on destruction.
   FileStream(base::PlatformFile file, int flags, net::NetLog* net_log);

   // The underlying file is closed automatically.
   virtual ~FileStream();

   // Call this method to open the FileStream asynchronously.  The remaining
   // methods cannot be used unless the file is opened successfully. Returns
   // ERR_IO_PENDING if the operation is started. If the operation cannot be
   // started then an error code is returned.
   //
   // Once the operation is done, |callback| will be run on the thread where
   // Open() was called, with the result code. open_flags is a bitfield of
   // base::PlatformFileFlags.
   //
   // If the file stream is not closed manually, the underlying file will be
   // automatically closed when FileStream is destructed in an asynchronous
   // manner (i.e. the file stream is closed in the background but you don't
   // know when).
   virtual int Open(const FilePath& path, int open_flags,
                    const CompletionCallback& callback);

   // Call this method to open the FileStream synchronously.
   // The remaining methods cannot be used unless this method returns OK.  If
   // the file cannot be opened then an error code is returned.  open_flags is
   // a bitfield of base::PlatformFileFlags
   //
   // If the file stream is not closed manually, the underlying file will be
   // automatically closed when FileStream is destructed.
   virtual int OpenSync(const FilePath& path, int open_flags);

   // Returns true if Open succeeded and Close has not been called.
   virtual bool IsOpen() const;

   // Adjust the position from where data is read asynchronously.
   // Upon success, ERR_IO_PENDING is returned and |callback| will be run
   // on the thread where Seek() was called with the the stream position
   // relative to the start of the file.  Otherwise, an error code is returned.
   // It is invalid to request any asynchronous operations while there is an
   // in-flight asynchronous operation.
   virtual int Seek(Whence whence, int64 offset,
                    const Int64CompletionCallback& callback);

   // Adjust the position from where data is read synchronously.
   // Upon success, the stream position relative to the start of the file is
   // returned.  Otherwise, an error code is returned.  It is not valid to
   // call SeekSync while a Read call has a pending completion.
   virtual int64 SeekSync(Whence whence, int64 offset);

   // Returns the number of bytes available to read from the current stream
   // position until the end of the file.  Otherwise, an error code is returned.
   virtual int64 Available();

   // Call this method to read data from the current stream position
   // asynchronously. Up to buf_len bytes will be copied into buf.  (In
   // other words, partial reads are allowed.)  Returns the number of bytes
   // copied, 0 if at end-of-file, or an error code if the operation could
   // not be performed.
   //
   // The file must be opened with PLATFORM_FILE_ASYNC, and a non-null
   // callback must be passed to this method. If the read could not
   // complete synchronously, then ERR_IO_PENDING is returned, and the
   // callback will be run on the thread where Read() was called, when the
   // read has completed.
   //
   // It is valid to destroy or close the file stream while there is an
   // asynchronous read in progress.  That will cancel the read and allow
   // the buffer to be freed.
   //
   // It is invalid to request any asynchronous operations while there is an
   // in-flight asynchronous operation.
   //
   // This method must not be called if the stream was opened WRITE_ONLY.
   virtual int Read(IOBuffer* buf, int buf_len,
                    const CompletionCallback& callback);

   // Call this method to read data from the current stream position
   // synchronously. Up to buf_len bytes will be copied into buf.  (In
   // other words, partial reads are allowed.)  Returns the number of bytes
   // copied, 0 if at end-of-file, or an error code if the operation could
   // not be performed.
   //
   // The file must not be opened with PLATFORM_FILE_ASYNC.
   // This method must not be called if the stream was opened WRITE_ONLY.
   virtual int ReadSync(char* buf, int buf_len);

   // Performs the same as ReadSync, but ensures that exactly buf_len bytes
   // are copied into buf.  A partial read may occur, but only as a result of
   // end-of-file or fatal error.  Returns the number of bytes copied into buf,
   // 0 if at end-of-file and no bytes have been read into buf yet,
   // or an error code if the operation could not be performed.
   virtual int ReadUntilComplete(char *buf, int buf_len);

   // Call this method to write data at the current stream position
   // asynchronously.  Up to buf_len bytes will be written from buf. (In
   // other words, partial writes are allowed.)  Returns the number of
   // bytes written, or an error code if the operation could not be
   // performed.
   //
   // The file must be opened with PLATFORM_FILE_ASYNC, and a non-null
   // callback must be passed to this method. If the write could not
   // complete synchronously, then ERR_IO_PENDING is returned, and the
   // callback will be run on the thread where Write() was called when
   // the write has completed.
   //
   // It is valid to destroy or close the file stream while there is an
   // asynchronous write in progress.  That will cancel the write and allow
   // the buffer to be freed.
   //
   // It is invalid to request any asynchronous operations while there is an
   // in-flight asynchronous operation.
   //
   // This method must not be called if the stream was opened READ_ONLY.
   virtual int Write(IOBuffer* buf, int buf_len,
                     const CompletionCallback& callback);

   // Call this method to write data at the current stream position
   // synchronously.  Up to buf_len bytes will be written from buf. (In
   // other words, partial writes are allowed.)  Returns the number of
   // bytes written, or an error code if the operation could not be
   // performed.
   //
   // The file must not be opened with PLATFORM_FILE_ASYNC.
   // This method must not be called if the stream was opened READ_ONLY.
   virtual int WriteSync(const char* buf, int buf_len);

   // Truncates the file to be |bytes| length. This is only valid for writable
   // files. After truncation the file stream is positioned at |bytes|. The new
   // position is returned, or a value < 0 on error.
   // WARNING: one may not truncate a file beyond its current length on any
   //   platform with this call.
   virtual int64 Truncate(int64 bytes);

   // Forces out a filesystem sync on this file to make sure that the file was
   // written out to disk and is not currently sitting in the buffer. This does
   // not have to be called, it just forces one to happen at the time of
   // calling.
   //
   // The file must be opened with PLATFORM_FILE_ASYNC, and a non-null
   // callback must be passed to this method. If the write could not
   // complete synchronously, then ERR_IO_PENDING is returned, and the
   // callback will be run on the thread where Flush() was called when
   // the write has completed.
   //
   // It is valid to destroy or close the file stream while there is an
   // asynchronous flush in progress.  That will cancel the flush and allow
   // the buffer to be freed.
   //
   // It is invalid to request any asynchronous operations while there is an
   // in-flight asynchronous operation.
   //
   // This method should not be called if the stream was opened READ_ONLY.
   virtual int Flush(const CompletionCallback& callback);

   // Forces out a filesystem sync on this file to make sure that the file was
   // written out to disk and is not currently sitting in the buffer. This does
   // not have to be called, it just forces one to happen at the time of
   // calling.
   //
   // Returns an error code if the operation could not be performed.
   //
   // This method should not be called if the stream was opened READ_ONLY.
   virtual int FlushSync();

   // Turns on UMA error statistics gathering.
   void EnableErrorStatistics();

   // Sets the source reference for net-internals logging.
   // Creates source dependency events between |owner_bound_net_log| and
   // |bound_net_log_|.  Each gets an event showing the dependency on the other.
   // If only one of those is valid, it gets an event showing that a change
   // of ownership happened, but without details.
   void SetBoundNetLogSource(const net::BoundNetLog& owner_bound_net_log);

   // Returns the underlying platform file for testing.
   base::PlatformFile GetPlatformFileForTesting();

  private:
   class Context;

   bool is_async() const { return !!(open_flags_ & base::PLATFORM_FILE_ASYNC); }

   int open_flags_;
   net::BoundNetLog bound_net_log_;

   // Context performing I/O operations. It was extracted into separate class
   // to perform asynchronous operations because FileStream can be destroyed
   // before completion of async operation. Also if async FileStream is destroyed
   // without explicit closing file should be closed asynchronously without
   // delaying FileStream's destructor. To perform all that separate object is
   // necessary.
   scoped_ptr<Context> context_;

   DISALLOW_COPY_AND_ASSIGN(FileStream);
 };

 }  // namespace net

 #endif  // NET_BASE_FILE_STREAM_H_
	// 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.

	// This file defines FileStream, a basic interface for reading and writing files
	// synchronously or asynchronously with support for seeking to an offset.
	// Note that even when used asynchronously, only one operation is supported at
	// a time.

	#ifndef NET_BASE_FILE_STREAM_H_
	#define NET_BASE_FILE_STREAM_H_

	#include "base/platform_file.h"
	#include "net/base/completion_callback.h"
	#include "net/base/file_stream_whence.h"
	#include "net/base/net_export.h"
	#include "net/base/net_log.h"

	class FilePath;

	namespace net {

	class IOBuffer;

	class NET_EXPORT FileStream {
	public:
	// Creates a \|FileStream\| with a new \|BoundNetLog\| (based on \|net_log\|)
	// attached. \|net_log\| may be NULL if no logging is needed.
	explicit FileStream(net::NetLog* net_log);

	// Construct a FileStream with an existing file handle and opening flags.
	// \|file\| is valid file handle.
	// \|flags\| is a bitfield of base::PlatformFileFlags when the file handle was
	// opened.
	// \|net_log\| is the net log pointer to use to create a \|BoundNetLog\|. May be
	// NULL if logging is not needed.
	// Note: the new FileStream object takes ownership of the PlatformFile and
	// will close it on destruction.
	FileStream(base::PlatformFile file, int flags, net::NetLog* net_log);

	// The underlying file is closed automatically.
	virtual ~FileStream();

	// Call this method to open the FileStream asynchronously. The remaining
	// methods cannot be used unless the file is opened successfully. Returns
	// ERR_IO_PENDING if the operation is started. If the operation cannot be
	// started then an error code is returned.
	//
	// Once the operation is done, \|callback\| will be run on the thread where
	// Open() was called, with the result code. open_flags is a bitfield of
	// base::PlatformFileFlags.
	//
	// If the file stream is not closed manually, the underlying file will be
	// automatically closed when FileStream is destructed in an asynchronous
	// manner (i.e. the file stream is closed in the background but you don't
	// know when).
	virtual int Open(const FilePath& path, int open_flags,
	const CompletionCallback& callback);

	// Call this method to open the FileStream synchronously.
	// The remaining methods cannot be used unless this method returns OK. If
	// the file cannot be opened then an error code is returned. open_flags is
	// a bitfield of base::PlatformFileFlags
	//
	// If the file stream is not closed manually, the underlying file will be
	// automatically closed when FileStream is destructed.
	virtual int OpenSync(const FilePath& path, int open_flags);

	// Returns true if Open succeeded and Close has not been called.
	virtual bool IsOpen() const;

	// Adjust the position from where data is read asynchronously.
	// Upon success, ERR_IO_PENDING is returned and \|callback\| will be run
	// on the thread where Seek() was called with the the stream position
	// relative to the start of the file. Otherwise, an error code is returned.
	// It is invalid to request any asynchronous operations while there is an
	// in-flight asynchronous operation.
	virtual int Seek(Whence whence, int64 offset,
	const Int64CompletionCallback& callback);

	// Adjust the position from where data is read synchronously.
	// Upon success, the stream position relative to the start of the file is
	// returned. Otherwise, an error code is returned. It is not valid to
	// call SeekSync while a Read call has a pending completion.
	virtual int64 SeekSync(Whence whence, int64 offset);

	// Returns the number of bytes available to read from the current stream
	// position until the end of the file. Otherwise, an error code is returned.
	virtual int64 Available();

	// Call this method to read data from the current stream position
	// asynchronously. Up to buf_len bytes will be copied into buf. (In
	// other words, partial reads are allowed.) Returns the number of bytes
	// copied, 0 if at end-of-file, or an error code if the operation could
	// not be performed.
	//
	// The file must be opened with PLATFORM_FILE_ASYNC, and a non-null
	// callback must be passed to this method. If the read could not
	// complete synchronously, then ERR_IO_PENDING is returned, and the
	// callback will be run on the thread where Read() was called, when the
	// read has completed.
	//
	// It is valid to destroy or close the file stream while there is an
	// asynchronous read in progress. That will cancel the read and allow
	// the buffer to be freed.
	//
	// It is invalid to request any asynchronous operations while there is an
	// in-flight asynchronous operation.
	//
	// This method must not be called if the stream was opened WRITE_ONLY.
	virtual int Read(IOBuffer* buf, int buf_len,
	const CompletionCallback& callback);

	// Call this method to read data from the current stream position
	// synchronously. Up to buf_len bytes will be copied into buf. (In
	// other words, partial reads are allowed.) Returns the number of bytes
	// copied, 0 if at end-of-file, or an error code if the operation could
	// not be performed.
	//
	// The file must not be opened with PLATFORM_FILE_ASYNC.
	// This method must not be called if the stream was opened WRITE_ONLY.
	virtual int ReadSync(char* buf, int buf_len);

	// Performs the same as ReadSync, but ensures that exactly buf_len bytes
	// are copied into buf. A partial read may occur, but only as a result of
	// end-of-file or fatal error. Returns the number of bytes copied into buf,
	// 0 if at end-of-file and no bytes have been read into buf yet,
	// or an error code if the operation could not be performed.
	virtual int ReadUntilComplete(char *buf, int buf_len);

	// Call this method to write data at the current stream position
	// asynchronously. Up to buf_len bytes will be written from buf. (In
	// other words, partial writes are allowed.) Returns the number of
	// bytes written, or an error code if the operation could not be
	// performed.
	//
	// The file must be opened with PLATFORM_FILE_ASYNC, and a non-null
	// callback must be passed to this method. If the write could not
	// complete synchronously, then ERR_IO_PENDING is returned, and the
	// callback will be run on the thread where Write() was called when
	// the write has completed.
	//
	// It is valid to destroy or close the file stream while there is an
	// asynchronous write in progress. That will cancel the write and allow
	// the buffer to be freed.
	//
	// It is invalid to request any asynchronous operations while there is an
	// in-flight asynchronous operation.
	//
	// This method must not be called if the stream was opened READ_ONLY.
	virtual int Write(IOBuffer* buf, int buf_len,
	const CompletionCallback& callback);

	// Call this method to write data at the current stream position
	// synchronously. Up to buf_len bytes will be written from buf. (In
	// other words, partial writes are allowed.) Returns the number of
	// bytes written, or an error code if the operation could not be
	// performed.
	//
	// The file must not be opened with PLATFORM_FILE_ASYNC.
	// This method must not be called if the stream was opened READ_ONLY.
	virtual int WriteSync(const char* buf, int buf_len);

	// Truncates the file to be \|bytes\| length. This is only valid for writable
	// files. After truncation the file stream is positioned at \|bytes\|. The new
	// position is returned, or a value < 0 on error.
	// WARNING: one may not truncate a file beyond its current length on any
	// platform with this call.
	virtual int64 Truncate(int64 bytes);

	// Forces out a filesystem sync on this file to make sure that the file was
	// written out to disk and is not currently sitting in the buffer. This does
	// not have to be called, it just forces one to happen at the time of
	// calling.
	//
	// The file must be opened with PLATFORM_FILE_ASYNC, and a non-null
	// callback must be passed to this method. If the write could not
	// complete synchronously, then ERR_IO_PENDING is returned, and the
	// callback will be run on the thread where Flush() was called when
	// the write has completed.
	//
	// It is valid to destroy or close the file stream while there is an
	// asynchronous flush in progress. That will cancel the flush and allow
	// the buffer to be freed.
	//
	// It is invalid to request any asynchronous operations while there is an
	// in-flight asynchronous operation.
	//
	// This method should not be called if the stream was opened READ_ONLY.
	virtual int Flush(const CompletionCallback& callback);

	// Forces out a filesystem sync on this file to make sure that the file was
	// written out to disk and is not currently sitting in the buffer. This does
	// not have to be called, it just forces one to happen at the time of
	// calling.
	//
	// Returns an error code if the operation could not be performed.
	//
	// This method should not be called if the stream was opened READ_ONLY.
	virtual int FlushSync();

	// Turns on UMA error statistics gathering.
	void EnableErrorStatistics();

	// Sets the source reference for net-internals logging.
	// Creates source dependency events between \|owner_bound_net_log\| and
	// \|bound_net_log_\|. Each gets an event showing the dependency on the other.
	// If only one of those is valid, it gets an event showing that a change
	// of ownership happened, but without details.
	void SetBoundNetLogSource(const net::BoundNetLog& owner_bound_net_log);

	// Returns the underlying platform file for testing.
	base::PlatformFile GetPlatformFileForTesting();

	private:
	class Context;

	bool is_async() const { return !!(open_flags_ & base::PLATFORM_FILE_ASYNC); }

	int open_flags_;
	net::BoundNetLog bound_net_log_;

	// Context performing I/O operations. It was extracted into separate class
	// to perform asynchronous operations because FileStream can be destroyed
	// before completion of async operation. Also if async FileStream is destroyed
	// without explicit closing file should be closed asynchronously without
	// delaying FileStream's destructor. To perform all that separate object is
	// necessary.
	scoped_ptr<Context> context_;

	DISALLOW_COPY_AND_ASSIGN(FileStream);
	};

	} // namespace net

	#endif // NET_BASE_FILE_STREAM_H_