rtc_base/stream.h - src - Git at Google

 /*
  *  Copyright 2004 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef RTC_BASE_STREAM_H_
 #define RTC_BASE_STREAM_H_

 #include <memory>

 #include "rtc_base/buffer.h"
 #include "rtc_base/constructor_magic.h"
 #include "rtc_base/critical_section.h"
 #include "rtc_base/message_handler.h"
 #include "rtc_base/message_queue.h"
 #include "rtc_base/third_party/sigslot/sigslot.h"

 namespace rtc {

 ///////////////////////////////////////////////////////////////////////////////
 // StreamInterface is a generic asynchronous stream interface, supporting read,
 // write, and close operations, and asynchronous signalling of state changes.
 // The interface is designed with file, memory, and socket implementations in
 // mind.  Some implementations offer extended operations, such as seeking.
 ///////////////////////////////////////////////////////////////////////////////

 // The following enumerations are declared outside of the StreamInterface
 // class for brevity in use.

 // The SS_OPENING state indicates that the stream will signal open or closed
 // in the future.
 enum StreamState { SS_CLOSED, SS_OPENING, SS_OPEN };

 // Stream read/write methods return this value to indicate various success
 // and failure conditions described below.
 enum StreamResult { SR_ERROR, SR_SUCCESS, SR_BLOCK, SR_EOS };

 // StreamEvents are used to asynchronously signal state transitionss.  The flags
 // may be combined.
 //  SE_OPEN: The stream has transitioned to the SS_OPEN state
 //  SE_CLOSE: The stream has transitioned to the SS_CLOSED state
 //  SE_READ: Data is available, so Read is likely to not return SR_BLOCK
 //  SE_WRITE: Data can be written, so Write is likely to not return SR_BLOCK
 enum StreamEvent { SE_OPEN = 1, SE_READ = 2, SE_WRITE = 4, SE_CLOSE = 8 };

 class Thread;

 struct StreamEventData : public MessageData {
   int events, error;
   StreamEventData(int ev, int er) : events(ev), error(er) {}
 };

 class StreamInterface : public MessageHandler {
  public:
   enum { MSG_POST_EVENT = 0xF1F1, MSG_MAX = MSG_POST_EVENT };

   ~StreamInterface() override;

   virtual StreamState GetState() const = 0;

   // Read attempts to fill buffer of size buffer_len.  Write attempts to send
   // data_len bytes stored in data.  The variables read and write are set only
   // on SR_SUCCESS (see below).  Likewise, error is only set on SR_ERROR.
   // Read and Write return a value indicating:
   //  SR_ERROR: an error occurred, which is returned in a non-null error
   //    argument.  Interpretation of the error requires knowledge of the
   //    stream's concrete type, which limits its usefulness.
   //  SR_SUCCESS: some number of bytes were successfully written, which is
   //    returned in a non-null read/write argument.
   //  SR_BLOCK: the stream is in non-blocking mode, and the operation would
   //    block, or the stream is in SS_OPENING state.
   //  SR_EOS: the end-of-stream has been reached, or the stream is in the
   //    SS_CLOSED state.
   virtual StreamResult Read(void* buffer,
                             size_t buffer_len,
                             size_t* read,
                             int* error) = 0;
   virtual StreamResult Write(const void* data,
                              size_t data_len,
                              size_t* written,
                              int* error) = 0;
   // Attempt to transition to the SS_CLOSED state.  SE_CLOSE will not be
   // signalled as a result of this call.
   virtual void Close() = 0;

   // Streams may signal one or more StreamEvents to indicate state changes.
   // The first argument identifies the stream on which the state change occured.
   // The second argument is a bit-wise combination of StreamEvents.
   // If SE_CLOSE is signalled, then the third argument is the associated error
   // code.  Otherwise, the value is undefined.
   // Note: Not all streams will support asynchronous event signalling.  However,
   // SS_OPENING and SR_BLOCK returned from stream member functions imply that
   // certain events will be raised in the future.
   sigslot::signal3<StreamInterface*, int, int> SignalEvent;

   // Like calling SignalEvent, but posts a message to the specified thread,
   // which will call SignalEvent.  This helps unroll the stack and prevent
   // re-entrancy.
   void PostEvent(Thread* t, int events, int err);
   // Like the aforementioned method, but posts to the current thread.
   void PostEvent(int events, int err);

   // Return true if flush is successful.
   virtual bool Flush();

   //
   // CONVENIENCE METHODS
   //
   // These methods are implemented in terms of other methods, for convenience.
   //

   // WriteAll is a helper function which repeatedly calls Write until all the
   // data is written, or something other than SR_SUCCESS is returned.  Note that
   // unlike Write, the argument 'written' is always set, and may be non-zero
   // on results other than SR_SUCCESS.  The remaining arguments have the
   // same semantics as Write.
   StreamResult WriteAll(const void* data,
                         size_t data_len,
                         size_t* written,
                         int* error);

  protected:
   StreamInterface();

   // MessageHandler Interface
   void OnMessage(Message* msg) override;

  private:
   RTC_DISALLOW_COPY_AND_ASSIGN(StreamInterface);
 };

 ///////////////////////////////////////////////////////////////////////////////
 // StreamAdapterInterface is a convenient base-class for adapting a stream.
 // By default, all operations are pass-through.  Override the methods that you
 // require adaptation.  Streams should really be upgraded to reference-counted.
 // In the meantime, use the owned flag to indicate whether the adapter should
 // own the adapted stream.
 ///////////////////////////////////////////////////////////////////////////////

 class StreamAdapterInterface : public StreamInterface,
                                public sigslot::has_slots<> {
  public:
   explicit StreamAdapterInterface(StreamInterface* stream, bool owned = true);

   // Core Stream Interface
   StreamState GetState() const override;
   StreamResult Read(void* buffer,
                     size_t buffer_len,
                     size_t* read,
                     int* error) override;
   StreamResult Write(const void* data,
                      size_t data_len,
                      size_t* written,
                      int* error) override;
   void Close() override;

   bool Flush() override;

   void Attach(StreamInterface* stream, bool owned = true);
   StreamInterface* Detach();

  protected:
   ~StreamAdapterInterface() override;

   // Note that the adapter presents itself as the origin of the stream events,
   // since users of the adapter may not recognize the adapted object.
   virtual void OnEvent(StreamInterface* stream, int events, int err);
   StreamInterface* stream() { return stream_; }

  private:
   StreamInterface* stream_;
   bool owned_;
   RTC_DISALLOW_COPY_AND_ASSIGN(StreamAdapterInterface);
 };

 }  // namespace rtc

 #endif  // RTC_BASE_STREAM_H_
	/*
	* Copyright 2004 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef RTC_BASE_STREAM_H_
	#define RTC_BASE_STREAM_H_

	#include <memory>

	#include "rtc_base/buffer.h"
	#include "rtc_base/constructor_magic.h"
	#include "rtc_base/critical_section.h"
	#include "rtc_base/message_handler.h"
	#include "rtc_base/message_queue.h"
	#include "rtc_base/third_party/sigslot/sigslot.h"

	namespace rtc {

	///////////////////////////////////////////////////////////////////////////////
	// StreamInterface is a generic asynchronous stream interface, supporting read,
	// write, and close operations, and asynchronous signalling of state changes.
	// The interface is designed with file, memory, and socket implementations in
	// mind. Some implementations offer extended operations, such as seeking.
	///////////////////////////////////////////////////////////////////////////////

	// The following enumerations are declared outside of the StreamInterface
	// class for brevity in use.

	// The SS_OPENING state indicates that the stream will signal open or closed
	// in the future.
	enum StreamState { SS_CLOSED, SS_OPENING, SS_OPEN };

	// Stream read/write methods return this value to indicate various success
	// and failure conditions described below.
	enum StreamResult { SR_ERROR, SR_SUCCESS, SR_BLOCK, SR_EOS };

	// StreamEvents are used to asynchronously signal state transitionss. The flags
	// may be combined.
	// SE_OPEN: The stream has transitioned to the SS_OPEN state
	// SE_CLOSE: The stream has transitioned to the SS_CLOSED state
	// SE_READ: Data is available, so Read is likely to not return SR_BLOCK
	// SE_WRITE: Data can be written, so Write is likely to not return SR_BLOCK
	enum StreamEvent { SE_OPEN = 1, SE_READ = 2, SE_WRITE = 4, SE_CLOSE = 8 };

	class Thread;

	struct StreamEventData : public MessageData {
	int events, error;
	StreamEventData(int ev, int er) : events(ev), error(er) {}
	};

	class StreamInterface : public MessageHandler {
	public:
	enum { MSG_POST_EVENT = 0xF1F1, MSG_MAX = MSG_POST_EVENT };

	~StreamInterface() override;

	virtual StreamState GetState() const = 0;

	// Read attempts to fill buffer of size buffer_len. Write attempts to send
	// data_len bytes stored in data. The variables read and write are set only
	// on SR_SUCCESS (see below). Likewise, error is only set on SR_ERROR.
	// Read and Write return a value indicating:
	// SR_ERROR: an error occurred, which is returned in a non-null error
	// argument. Interpretation of the error requires knowledge of the
	// stream's concrete type, which limits its usefulness.
	// SR_SUCCESS: some number of bytes were successfully written, which is
	// returned in a non-null read/write argument.
	// SR_BLOCK: the stream is in non-blocking mode, and the operation would
	// block, or the stream is in SS_OPENING state.
	// SR_EOS: the end-of-stream has been reached, or the stream is in the
	// SS_CLOSED state.
	virtual StreamResult Read(void* buffer,
	size_t buffer_len,
	size_t* read,
	int* error) = 0;
	virtual StreamResult Write(const void* data,
	size_t data_len,
	size_t* written,
	int* error) = 0;
	// Attempt to transition to the SS_CLOSED state. SE_CLOSE will not be
	// signalled as a result of this call.
	virtual void Close() = 0;

	// Streams may signal one or more StreamEvents to indicate state changes.
	// The first argument identifies the stream on which the state change occured.
	// The second argument is a bit-wise combination of StreamEvents.
	// If SE_CLOSE is signalled, then the third argument is the associated error
	// code. Otherwise, the value is undefined.
	// Note: Not all streams will support asynchronous event signalling. However,
	// SS_OPENING and SR_BLOCK returned from stream member functions imply that
	// certain events will be raised in the future.
	sigslot::signal3<StreamInterface*, int, int> SignalEvent;

	// Like calling SignalEvent, but posts a message to the specified thread,
	// which will call SignalEvent. This helps unroll the stack and prevent
	// re-entrancy.
	void PostEvent(Thread* t, int events, int err);
	// Like the aforementioned method, but posts to the current thread.
	void PostEvent(int events, int err);

	// Return true if flush is successful.
	virtual bool Flush();

	//
	// CONVENIENCE METHODS
	//
	// These methods are implemented in terms of other methods, for convenience.
	//

	// WriteAll is a helper function which repeatedly calls Write until all the
	// data is written, or something other than SR_SUCCESS is returned. Note that
	// unlike Write, the argument 'written' is always set, and may be non-zero
	// on results other than SR_SUCCESS. The remaining arguments have the
	// same semantics as Write.
	StreamResult WriteAll(const void* data,
	size_t data_len,
	size_t* written,
	int* error);

	protected:
	StreamInterface();

	// MessageHandler Interface
	void OnMessage(Message* msg) override;

	private:
	RTC_DISALLOW_COPY_AND_ASSIGN(StreamInterface);
	};

	///////////////////////////////////////////////////////////////////////////////
	// StreamAdapterInterface is a convenient base-class for adapting a stream.
	// By default, all operations are pass-through. Override the methods that you
	// require adaptation. Streams should really be upgraded to reference-counted.
	// In the meantime, use the owned flag to indicate whether the adapter should
	// own the adapted stream.
	///////////////////////////////////////////////////////////////////////////////

	class StreamAdapterInterface : public StreamInterface,
	public sigslot::has_slots<> {
	public:
	explicit StreamAdapterInterface(StreamInterface* stream, bool owned = true);

	// Core Stream Interface
	StreamState GetState() const override;
	StreamResult Read(void* buffer,
	size_t buffer_len,
	size_t* read,
	int* error) override;
	StreamResult Write(const void* data,
	size_t data_len,
	size_t* written,
	int* error) override;
	void Close() override;

	bool Flush() override;

	void Attach(StreamInterface* stream, bool owned = true);
	StreamInterface* Detach();

	protected:
	~StreamAdapterInterface() override;

	// Note that the adapter presents itself as the origin of the stream events,
	// since users of the adapter may not recognize the adapted object.
	virtual void OnEvent(StreamInterface* stream, int events, int err);
	StreamInterface* stream() { return stream_; }

	private:
	StreamInterface* stream_;
	bool owned_;
	RTC_DISALLOW_COPY_AND_ASSIGN(StreamAdapterInterface);
	};

	} // namespace rtc

	#endif // RTC_BASE_STREAM_H_