mojo/system/data_pipe.h - platform/external/chromium_org - 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 MOJO_SYSTEM_DATA_PIPE_H_
 #define MOJO_SYSTEM_DATA_PIPE_H_

 #include <stdint.h>

 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/synchronization/lock.h"
 #include "mojo/public/c/system/data_pipe.h"
 #include "mojo/public/c/system/types.h"
 #include "mojo/system/handle_signals_state.h"
 #include "mojo/system/system_impl_export.h"

 namespace mojo {
 namespace system {

 class Waiter;
 class WaiterList;

 // |DataPipe| is a base class for secondary objects implementing data pipes,
 // similar to |MessagePipe| (see the explanatory comment in core.cc). It is
 // typically owned by the dispatcher(s) corresponding to the local endpoints.
 // Its subclasses implement the three cases: local producer and consumer, local
 // producer and remote consumer, and remote producer and local consumer. This
 // class is thread-safe.
 class MOJO_SYSTEM_IMPL_EXPORT DataPipe :
     public base::RefCountedThreadSafe<DataPipe> {
  public:
   // The default options for |MojoCreateDataPipe()|. (Real uses should obtain
   // this via |ValidateCreateOptions()| with a null |in_options|; this is
   // exposed directly for testing convenience.)
   static const MojoCreateDataPipeOptions kDefaultCreateOptions;

   // Validates and/or sets default options for |MojoCreateDataPipeOptions|. If
   // non-null, |in_options| must point to a struct of at least
   // |in_options->struct_size| bytes. |out_options| must point to a (current)
   // |MojoCreateDataPipeOptions| and will be entirely overwritten on success (it
   // may be partly overwritten on failure).
   static MojoResult ValidateCreateOptions(
       const MojoCreateDataPipeOptions* in_options,
       MojoCreateDataPipeOptions* out_options);

   // These are called by the producer dispatcher to implement its methods of
   // corresponding names.
   void ProducerCancelAllWaiters();
   void ProducerClose();
   // This does not validate its arguments, except to check that |*num_bytes| is
   // a multiple of |element_num_bytes_|.
   MojoResult ProducerWriteData(const void* elements,
                                uint32_t* num_bytes,
                                bool all_or_none);
   // This does not validate its arguments.
   MojoResult ProducerBeginWriteData(void** buffer,
                                     uint32_t* buffer_num_bytes,
                                     bool all_or_none);
   MojoResult ProducerEndWriteData(uint32_t num_bytes_written);
   MojoResult ProducerAddWaiter(Waiter* waiter,
                                MojoHandleSignals signals,
                                uint32_t context);
   void ProducerRemoveWaiter(Waiter* waiter);
   bool ProducerIsBusy() const;

   // These are called by the consumer dispatcher to implement its methods of
   // corresponding names.
   void ConsumerCancelAllWaiters();
   void ConsumerClose();
   // This does not validate its arguments, except to check that |*num_bytes| is
   // a multiple of |element_num_bytes_|.
   MojoResult ConsumerReadData(void* elements,
                               uint32_t* num_bytes,
                               bool all_or_none);
   MojoResult ConsumerDiscardData(uint32_t* num_bytes,
                                  bool all_or_none);
   MojoResult ConsumerQueryData(uint32_t* num_bytes);
   // This does not validate its arguments.
   MojoResult ConsumerBeginReadData(const void** buffer,
                                    uint32_t* buffer_num_bytes,
                                    bool all_or_none);
   MojoResult ConsumerEndReadData(uint32_t num_bytes_read);
   MojoResult ConsumerAddWaiter(Waiter* waiter,
                                MojoHandleSignals signals,
                                uint32_t context);
   void ConsumerRemoveWaiter(Waiter* waiter);
   bool ConsumerIsBusy() const;

  protected:
   DataPipe(bool has_local_producer,
            bool has_local_consumer,
            const MojoCreateDataPipeOptions& validated_options);

   friend class base::RefCountedThreadSafe<DataPipe>;
   virtual ~DataPipe();

   virtual void ProducerCloseImplNoLock() = 0;
   // |*num_bytes| will be a nonzero multiple of |element_num_bytes_|.
   virtual MojoResult ProducerWriteDataImplNoLock(const void* elements,
                                                  uint32_t* num_bytes,
                                                  bool all_or_none) = 0;
   virtual MojoResult ProducerBeginWriteDataImplNoLock(
       void** buffer,
       uint32_t* buffer_num_bytes,
       bool all_or_none) = 0;
   virtual MojoResult ProducerEndWriteDataImplNoLock(
       uint32_t num_bytes_written) = 0;
   // Note: A producer should not be writable during a two-phase write.
   virtual HandleSignalsState ProducerGetHandleSignalsStateNoLock() const = 0;

   virtual void ConsumerCloseImplNoLock() = 0;
   // |*num_bytes| will be a nonzero multiple of |element_num_bytes_|.
   virtual MojoResult ConsumerReadDataImplNoLock(void* elements,
                                                 uint32_t* num_bytes,
                                                 bool all_or_none) = 0;
   virtual MojoResult ConsumerDiscardDataImplNoLock(uint32_t* num_bytes,
                                                    bool all_or_none) = 0;
   // |*num_bytes| will be a nonzero multiple of |element_num_bytes_|.
   virtual MojoResult ConsumerQueryDataImplNoLock(uint32_t* num_bytes) = 0;
   virtual MojoResult ConsumerBeginReadDataImplNoLock(const void** buffer,
                                                      uint32_t* buffer_num_bytes,
                                                      bool all_or_none) = 0;
   virtual MojoResult ConsumerEndReadDataImplNoLock(uint32_t num_bytes_read) = 0;
   // Note: A consumer should not be writable during a two-phase read.
   virtual HandleSignalsState ConsumerGetHandleSignalsStateNoLock() const = 0;

   // Thread-safe and fast (they don't take the lock):
   bool may_discard() const { return may_discard_; }
   size_t element_num_bytes() const { return element_num_bytes_; }
   size_t capacity_num_bytes() const { return capacity_num_bytes_; }

   // Must be called under lock.
   bool producer_open_no_lock() const {
     lock_.AssertAcquired();
     return producer_open_;
   }
   bool consumer_open_no_lock() const {
     lock_.AssertAcquired();
     return consumer_open_;
   }
   uint32_t producer_two_phase_max_num_bytes_written_no_lock() const {
     lock_.AssertAcquired();
     return producer_two_phase_max_num_bytes_written_;
   }
   uint32_t consumer_two_phase_max_num_bytes_read_no_lock() const {
     lock_.AssertAcquired();
     return consumer_two_phase_max_num_bytes_read_;
   }
   void set_producer_two_phase_max_num_bytes_written_no_lock(
       uint32_t num_bytes) {
     lock_.AssertAcquired();
     producer_two_phase_max_num_bytes_written_ = num_bytes;
   }
   void set_consumer_two_phase_max_num_bytes_read_no_lock(uint32_t num_bytes) {
     lock_.AssertAcquired();
     consumer_two_phase_max_num_bytes_read_ = num_bytes;
   }
   bool producer_in_two_phase_write_no_lock() const {
     lock_.AssertAcquired();
     return producer_two_phase_max_num_bytes_written_ > 0;
   }
   bool consumer_in_two_phase_read_no_lock() const {
     lock_.AssertAcquired();
     return consumer_two_phase_max_num_bytes_read_ > 0;
   }

  private:
   void AwakeProducerWaitersForStateChangeNoLock(
       const HandleSignalsState& new_producer_state);
   void AwakeConsumerWaitersForStateChangeNoLock(
       const HandleSignalsState& new_consumer_state);

   bool has_local_producer_no_lock() const {
     lock_.AssertAcquired();
     return !!producer_waiter_list_;
   }
   bool has_local_consumer_no_lock() const {
     lock_.AssertAcquired();
     return !!consumer_waiter_list_;
   }

   const bool may_discard_;
   const size_t element_num_bytes_;
   const size_t capacity_num_bytes_;

   mutable base::Lock lock_;  // Protects the following members.
   // *Known* state of producer or consumer.
   bool producer_open_;
   bool consumer_open_;
   // Non-null only if the producer or consumer, respectively, is local.
   scoped_ptr<WaiterList> producer_waiter_list_;
   scoped_ptr<WaiterList> consumer_waiter_list_;
   // These are nonzero if and only if a two-phase write/read is in progress.
   uint32_t producer_two_phase_max_num_bytes_written_;
   uint32_t consumer_two_phase_max_num_bytes_read_;

   DISALLOW_COPY_AND_ASSIGN(DataPipe);
 };

 }  // namespace system
 }  // namespace mojo

 #endif  // MOJO_SYSTEM_DATA_PIPE_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 MOJO_SYSTEM_DATA_PIPE_H_
	#define MOJO_SYSTEM_DATA_PIPE_H_

	#include <stdint.h>

	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/synchronization/lock.h"
	#include "mojo/public/c/system/data_pipe.h"
	#include "mojo/public/c/system/types.h"
	#include "mojo/system/handle_signals_state.h"
	#include "mojo/system/system_impl_export.h"

	namespace mojo {
	namespace system {

	class Waiter;
	class WaiterList;

	// \|DataPipe\| is a base class for secondary objects implementing data pipes,
	// similar to \|MessagePipe\| (see the explanatory comment in core.cc). It is
	// typically owned by the dispatcher(s) corresponding to the local endpoints.
	// Its subclasses implement the three cases: local producer and consumer, local
	// producer and remote consumer, and remote producer and local consumer. This
	// class is thread-safe.
	class MOJO_SYSTEM_IMPL_EXPORT DataPipe :
	public base::RefCountedThreadSafe<DataPipe> {
	public:
	// The default options for \|MojoCreateDataPipe()\|. (Real uses should obtain
	// this via \|ValidateCreateOptions()\| with a null \|in_options\|; this is
	// exposed directly for testing convenience.)
	static const MojoCreateDataPipeOptions kDefaultCreateOptions;

	// Validates and/or sets default options for \|MojoCreateDataPipeOptions\|. If
	// non-null, \|in_options\| must point to a struct of at least
	// \|in_options->struct_size\| bytes. \|out_options\| must point to a (current)
	// \|MojoCreateDataPipeOptions\| and will be entirely overwritten on success (it
	// may be partly overwritten on failure).
	static MojoResult ValidateCreateOptions(
	const MojoCreateDataPipeOptions* in_options,
	MojoCreateDataPipeOptions* out_options);

	// These are called by the producer dispatcher to implement its methods of
	// corresponding names.
	void ProducerCancelAllWaiters();
	void ProducerClose();
	// This does not validate its arguments, except to check that \|*num_bytes\| is
	// a multiple of \|element_num_bytes_\|.
	MojoResult ProducerWriteData(const void* elements,
	uint32_t* num_bytes,
	bool all_or_none);
	// This does not validate its arguments.
	MojoResult ProducerBeginWriteData(void** buffer,
	uint32_t* buffer_num_bytes,
	bool all_or_none);
	MojoResult ProducerEndWriteData(uint32_t num_bytes_written);
	MojoResult ProducerAddWaiter(Waiter* waiter,
	MojoHandleSignals signals,
	uint32_t context);
	void ProducerRemoveWaiter(Waiter* waiter);
	bool ProducerIsBusy() const;

	// These are called by the consumer dispatcher to implement its methods of
	// corresponding names.
	void ConsumerCancelAllWaiters();
	void ConsumerClose();
	// This does not validate its arguments, except to check that \|*num_bytes\| is
	// a multiple of \|element_num_bytes_\|.
	MojoResult ConsumerReadData(void* elements,
	uint32_t* num_bytes,
	bool all_or_none);
	MojoResult ConsumerDiscardData(uint32_t* num_bytes,
	bool all_or_none);
	MojoResult ConsumerQueryData(uint32_t* num_bytes);
	// This does not validate its arguments.
	MojoResult ConsumerBeginReadData(const void** buffer,
	uint32_t* buffer_num_bytes,
	bool all_or_none);
	MojoResult ConsumerEndReadData(uint32_t num_bytes_read);
	MojoResult ConsumerAddWaiter(Waiter* waiter,
	MojoHandleSignals signals,
	uint32_t context);
	void ConsumerRemoveWaiter(Waiter* waiter);
	bool ConsumerIsBusy() const;

	protected:
	DataPipe(bool has_local_producer,
	bool has_local_consumer,
	const MojoCreateDataPipeOptions& validated_options);

	friend class base::RefCountedThreadSafe<DataPipe>;
	virtual ~DataPipe();

	virtual void ProducerCloseImplNoLock() = 0;
	// \|*num_bytes\| will be a nonzero multiple of \|element_num_bytes_\|.
	virtual MojoResult ProducerWriteDataImplNoLock(const void* elements,
	uint32_t* num_bytes,
	bool all_or_none) = 0;
	virtual MojoResult ProducerBeginWriteDataImplNoLock(
	void** buffer,
	uint32_t* buffer_num_bytes,
	bool all_or_none) = 0;
	virtual MojoResult ProducerEndWriteDataImplNoLock(
	uint32_t num_bytes_written) = 0;
	// Note: A producer should not be writable during a two-phase write.
	virtual HandleSignalsState ProducerGetHandleSignalsStateNoLock() const = 0;

	virtual void ConsumerCloseImplNoLock() = 0;
	// \|*num_bytes\| will be a nonzero multiple of \|element_num_bytes_\|.
	virtual MojoResult ConsumerReadDataImplNoLock(void* elements,
	uint32_t* num_bytes,
	bool all_or_none) = 0;
	virtual MojoResult ConsumerDiscardDataImplNoLock(uint32_t* num_bytes,
	bool all_or_none) = 0;
	// \|*num_bytes\| will be a nonzero multiple of \|element_num_bytes_\|.
	virtual MojoResult ConsumerQueryDataImplNoLock(uint32_t* num_bytes) = 0;
	virtual MojoResult ConsumerBeginReadDataImplNoLock(const void** buffer,
	uint32_t* buffer_num_bytes,
	bool all_or_none) = 0;
	virtual MojoResult ConsumerEndReadDataImplNoLock(uint32_t num_bytes_read) = 0;
	// Note: A consumer should not be writable during a two-phase read.
	virtual HandleSignalsState ConsumerGetHandleSignalsStateNoLock() const = 0;

	// Thread-safe and fast (they don't take the lock):
	bool may_discard() const { return may_discard_; }
	size_t element_num_bytes() const { return element_num_bytes_; }
	size_t capacity_num_bytes() const { return capacity_num_bytes_; }

	// Must be called under lock.
	bool producer_open_no_lock() const {
	lock_.AssertAcquired();
	return producer_open_;
	}
	bool consumer_open_no_lock() const {
	lock_.AssertAcquired();
	return consumer_open_;
	}
	uint32_t producer_two_phase_max_num_bytes_written_no_lock() const {
	lock_.AssertAcquired();
	return producer_two_phase_max_num_bytes_written_;
	}
	uint32_t consumer_two_phase_max_num_bytes_read_no_lock() const {
	lock_.AssertAcquired();
	return consumer_two_phase_max_num_bytes_read_;
	}
	void set_producer_two_phase_max_num_bytes_written_no_lock(
	uint32_t num_bytes) {
	lock_.AssertAcquired();
	producer_two_phase_max_num_bytes_written_ = num_bytes;
	}
	void set_consumer_two_phase_max_num_bytes_read_no_lock(uint32_t num_bytes) {
	lock_.AssertAcquired();
	consumer_two_phase_max_num_bytes_read_ = num_bytes;
	}
	bool producer_in_two_phase_write_no_lock() const {
	lock_.AssertAcquired();
	return producer_two_phase_max_num_bytes_written_ > 0;
	}
	bool consumer_in_two_phase_read_no_lock() const {
	lock_.AssertAcquired();
	return consumer_two_phase_max_num_bytes_read_ > 0;
	}

	private:
	void AwakeProducerWaitersForStateChangeNoLock(
	const HandleSignalsState& new_producer_state);
	void AwakeConsumerWaitersForStateChangeNoLock(
	const HandleSignalsState& new_consumer_state);

	bool has_local_producer_no_lock() const {
	lock_.AssertAcquired();
	return !!producer_waiter_list_;
	}
	bool has_local_consumer_no_lock() const {
	lock_.AssertAcquired();
	return !!consumer_waiter_list_;
	}

	const bool may_discard_;
	const size_t element_num_bytes_;
	const size_t capacity_num_bytes_;

	mutable base::Lock lock_; // Protects the following members.
	// Known state of producer or consumer.
	bool producer_open_;
	bool consumer_open_;
	// Non-null only if the producer or consumer, respectively, is local.
	scoped_ptr<WaiterList> producer_waiter_list_;
	scoped_ptr<WaiterList> consumer_waiter_list_;
	// These are nonzero if and only if a two-phase write/read is in progress.
	uint32_t producer_two_phase_max_num_bytes_written_;
	uint32_t consumer_two_phase_max_num_bytes_read_;

	DISALLOW_COPY_AND_ASSIGN(DataPipe);
	};

	} // namespace system
	} // namespace mojo

	#endif // MOJO_SYSTEM_DATA_PIPE_H_