mojo/public/cpp/bindings/interface_ptr.h - chromium/src.git - Git at Google

 // Copyright 2014 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_PUBLIC_CPP_BINDINGS_INTERFACE_PTR_H_
 #define MOJO_PUBLIC_CPP_BINDINGS_INTERFACE_PTR_H_

 #include <stdint.h>

 #include <string>
 #include <utility>

 #include "base/callback_forward.h"
 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/single_thread_task_runner.h"
 #include "mojo/public/cpp/bindings/connection_error_callback.h"
 #include "mojo/public/cpp/bindings/interface_ptr_info.h"
 #include "mojo/public/cpp/bindings/lib/interface_ptr_state.h"

 namespace mojo {

 // A pointer to a local proxy of a remote Interface implementation. Uses a
 // message pipe to communicate with the remote implementation, and automatically
 // closes the pipe and deletes the proxy on destruction. The pointer must be
 // bound to a message pipe before the interface methods can be called. Once a
 // pointer is destroyed, it is guaranteed that pending callbacks as well as the
 // connection error handler (if registered) won't be called.
 //
 // This class is thread hostile, as is the local proxy it manages, while bound
 // to a message pipe. All calls to this class or the proxy should be from the
 // same sequence that bound it. If you need to move the proxy to a different
 // sequence, extract the InterfacePtrInfo (containing just the message pipe and
 // any version information) using PassInterface() on the original sequence, pass
 // it to a different sequence, and create and bind a new InterfacePtr from that
 // sequence. If an InterfacePtr is not bound to a message pipe, it may be bound
 // or destroyed on any sequence.
 template <typename Interface>
 class InterfacePtr {
  public:
   using InterfaceType = Interface;
   using PtrInfoType = InterfacePtrInfo<Interface>;
   using Proxy = typename Interface::Proxy_;

   // Constructs an unbound InterfacePtr.
   InterfacePtr() {}
   InterfacePtr(decltype(nullptr)) {}

   // Takes over the binding of another InterfacePtr.
   InterfacePtr(InterfacePtr&& other) {
     internal_state_.Swap(&other.internal_state_);
   }

   explicit InterfacePtr(PtrInfoType&& info) { Bind(std::move(info)); }

   // Takes over the binding of another InterfacePtr, and closes any message pipe
   // already bound to this pointer.
   InterfacePtr& operator=(InterfacePtr&& other) {
     reset();
     internal_state_.Swap(&other.internal_state_);
     return *this;
   }

   // Assigning nullptr to this class causes it to close the currently bound
   // message pipe (if any) and returns the pointer to the unbound state.
   InterfacePtr& operator=(decltype(nullptr)) {
     reset();
     return *this;
   }

   // Closes the bound message pipe (if any) on destruction.
   ~InterfacePtr() {}

   // Binds the InterfacePtr to a remote implementation of Interface.
   //
   // Calling with an invalid |info| (containing an invalid message pipe handle)
   // has the same effect as reset(). In this case, the InterfacePtr is not
   // considered as bound.
   //
   // |runner| must belong to the same thread. It will be used to dispatch all
   // callbacks and connection error notification. It is useful when you attach
   // multiple task runners to a single thread for the purposes of task
   // scheduling.
   void Bind(InterfacePtrInfo<Interface> info,
             scoped_refptr<base::SingleThreadTaskRunner> runner = nullptr) {
     reset();
     if (info.is_valid())
       internal_state_.Bind(std::move(info), std::move(runner));
   }

   // Returns whether or not this InterfacePtr is bound to a message pipe.
   bool is_bound() const { return internal_state_.is_bound(); }

   // Returns a raw pointer to the local proxy. Caller does not take ownership.
   // Note that the local proxy is thread hostile, as stated above.
   Proxy* get() const { return internal_state_.instance(); }

   // Functions like a pointer to Interface. Must already be bound.
   Proxy* operator->() const { return get(); }
   Proxy& operator*() const { return *get(); }

   // Returns the version number of the interface that the remote side supports.
   uint32_t version() const { return internal_state_.version(); }

   // Queries the max version that the remote side supports. On completion, the
   // result will be returned as the input of |callback|. The version number of
   // this interface pointer will also be updated.
   void QueryVersion(const base::Callback<void(uint32_t)>& callback) {
     internal_state_.QueryVersion(callback);
   }

   // If the remote side doesn't support the specified version, it will close its
   // end of the message pipe asynchronously. This does nothing if it's already
   // known that the remote side supports the specified version, i.e., if
   // |version <= this->version()|.
   //
   // After calling RequireVersion() with a version not supported by the remote
   // side, all subsequent calls to interface methods will be ignored.
   void RequireVersion(uint32_t version) {
     internal_state_.RequireVersion(version);
   }

   // Sends a no-op message on the underlying message pipe and runs the current
   // message loop until its response is received. This can be used in tests to
   // verify that no message was sent on a message pipe in response to some
   // stimulus.
   void FlushForTesting() { internal_state_.FlushForTesting(); }

   // Closes the bound message pipe, if any.
   void reset() {
     State doomed;
     internal_state_.Swap(&doomed);
   }

   // Similar to the method above, but also specifies a disconnect reason.
   void ResetWithReason(uint32_t custom_reason, const std::string& description) {
     if (internal_state_.is_bound())
       internal_state_.CloseWithReason(custom_reason, description);
     reset();
   }

   // Whether there are any associated interfaces running on the pipe currently.
   bool HasAssociatedInterfaces() const {
     return internal_state_.HasAssociatedInterfaces();
   }

   // Indicates whether the message pipe has encountered an error. If true,
   // method calls made on this interface will be dropped (and may already have
   // been dropped).
   bool encountered_error() const { return internal_state_.encountered_error(); }

   // Registers a handler to receive error notifications. The handler will be
   // called from the sequence that owns this InterfacePtr.
   //
   // This method may only be called after the InterfacePtr has been bound to a
   // message pipe.
   void set_connection_error_handler(base::OnceClosure error_handler) {
     internal_state_.set_connection_error_handler(std::move(error_handler));
   }

   void set_connection_error_with_reason_handler(
       ConnectionErrorWithReasonCallback error_handler) {
     internal_state_.set_connection_error_with_reason_handler(
         std::move(error_handler));
   }

   // Unbinds the InterfacePtr and returns the information which could be used
   // to setup an InterfacePtr again. This method may be used to move the proxy
   // to a different sequence (see class comments for details).
   //
   // It is an error to call PassInterface() while:
   //   - there are pending responses; or
   //     TODO: fix this restriction, it's not always obvious when there is a
   //     pending response.
   //   - there are associated interfaces running.
   //     TODO(yzshen): For now, users need to make sure there is no one holding
   //     on to associated interface endpoint handles at both sides of the
   //     message pipe in order to call this method. We need a way to forcefully
   //     invalidate associated interface endpoint handles.
   InterfacePtrInfo<Interface> PassInterface() {
     CHECK(!HasAssociatedInterfaces());
     CHECK(!internal_state_.has_pending_callbacks());
     State state;
     internal_state_.Swap(&state);

     return state.PassInterface();
   }

   bool Equals(const InterfacePtr& other) const {
     if (this == &other)
       return true;

     // Now that the two refer to different objects, they are equivalent if
     // and only if they are both null.
     return !(*this) && !other;
   }

   // DO NOT USE. Exposed only for internal use and for testing.
   internal::InterfacePtrState<Interface>* internal_state() {
     return &internal_state_;
   }

   // Allow InterfacePtr<> to be used in boolean expressions.
   explicit operator bool() const { return internal_state_.is_bound(); }

  private:
   typedef internal::InterfacePtrState<Interface> State;
   mutable State internal_state_;

   DISALLOW_COPY_AND_ASSIGN(InterfacePtr);
 };

 // If |info| is valid (containing a valid message pipe handle), returns an
 // InterfacePtr bound to it. Otherwise, returns an unbound InterfacePtr.
 template <typename Interface>
 InterfacePtr<Interface> MakeProxy(
     InterfacePtrInfo<Interface> info,
     scoped_refptr<base::SingleThreadTaskRunner> runner = nullptr) {
   InterfacePtr<Interface> ptr;
   if (info.is_valid())
     ptr.Bind(std::move(info), std::move(runner));
   return std::move(ptr);
 }

 }  // namespace mojo

 #endif  // MOJO_PUBLIC_CPP_BINDINGS_INTERFACE_PTR_H_
	// Copyright 2014 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_PUBLIC_CPP_BINDINGS_INTERFACE_PTR_H_
	#define MOJO_PUBLIC_CPP_BINDINGS_INTERFACE_PTR_H_

	#include <stdint.h>

	#include <string>
	#include <utility>

	#include "base/callback_forward.h"
	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/single_thread_task_runner.h"
	#include "mojo/public/cpp/bindings/connection_error_callback.h"
	#include "mojo/public/cpp/bindings/interface_ptr_info.h"
	#include "mojo/public/cpp/bindings/lib/interface_ptr_state.h"

	namespace mojo {

	// A pointer to a local proxy of a remote Interface implementation. Uses a
	// message pipe to communicate with the remote implementation, and automatically
	// closes the pipe and deletes the proxy on destruction. The pointer must be
	// bound to a message pipe before the interface methods can be called. Once a
	// pointer is destroyed, it is guaranteed that pending callbacks as well as the
	// connection error handler (if registered) won't be called.
	//
	// This class is thread hostile, as is the local proxy it manages, while bound
	// to a message pipe. All calls to this class or the proxy should be from the
	// same sequence that bound it. If you need to move the proxy to a different
	// sequence, extract the InterfacePtrInfo (containing just the message pipe and
	// any version information) using PassInterface() on the original sequence, pass
	// it to a different sequence, and create and bind a new InterfacePtr from that
	// sequence. If an InterfacePtr is not bound to a message pipe, it may be bound
	// or destroyed on any sequence.
	template <typename Interface>
	class InterfacePtr {
	public:
	using InterfaceType = Interface;
	using PtrInfoType = InterfacePtrInfo<Interface>;
	using Proxy = typename Interface::Proxy_;

	// Constructs an unbound InterfacePtr.
	InterfacePtr() {}
	InterfacePtr(decltype(nullptr)) {}

	// Takes over the binding of another InterfacePtr.
	InterfacePtr(InterfacePtr&& other) {
	internal_state_.Swap(&other.internal_state_);
	}

	explicit InterfacePtr(PtrInfoType&& info) { Bind(std::move(info)); }

	// Takes over the binding of another InterfacePtr, and closes any message pipe
	// already bound to this pointer.
	InterfacePtr& operator=(InterfacePtr&& other) {
	reset();
	internal_state_.Swap(&other.internal_state_);
	return *this;
	}

	// Assigning nullptr to this class causes it to close the currently bound
	// message pipe (if any) and returns the pointer to the unbound state.
	InterfacePtr& operator=(decltype(nullptr)) {
	reset();
	return *this;
	}

	// Closes the bound message pipe (if any) on destruction.
	~InterfacePtr() {}

	// Binds the InterfacePtr to a remote implementation of Interface.
	//
	// Calling with an invalid \|info\| (containing an invalid message pipe handle)
	// has the same effect as reset(). In this case, the InterfacePtr is not
	// considered as bound.
	//
	// \|runner\| must belong to the same thread. It will be used to dispatch all
	// callbacks and connection error notification. It is useful when you attach
	// multiple task runners to a single thread for the purposes of task
	// scheduling.
	void Bind(InterfacePtrInfo<Interface> info,
	scoped_refptr<base::SingleThreadTaskRunner> runner = nullptr) {
	reset();
	if (info.is_valid())
	internal_state_.Bind(std::move(info), std::move(runner));
	}

	// Returns whether or not this InterfacePtr is bound to a message pipe.
	bool is_bound() const { return internal_state_.is_bound(); }

	// Returns a raw pointer to the local proxy. Caller does not take ownership.
	// Note that the local proxy is thread hostile, as stated above.
	Proxy* get() const { return internal_state_.instance(); }

	// Functions like a pointer to Interface. Must already be bound.
	Proxy* operator->() const { return get(); }
	Proxy& operator() const { return get(); }

	// Returns the version number of the interface that the remote side supports.
	uint32_t version() const { return internal_state_.version(); }

	// Queries the max version that the remote side supports. On completion, the
	// result will be returned as the input of \|callback\|. The version number of
	// this interface pointer will also be updated.
	void QueryVersion(const base::Callback<void(uint32_t)>& callback) {
	internal_state_.QueryVersion(callback);
	}

	// If the remote side doesn't support the specified version, it will close its
	// end of the message pipe asynchronously. This does nothing if it's already
	// known that the remote side supports the specified version, i.e., if
	// \|version <= this->version()\|.
	//
	// After calling RequireVersion() with a version not supported by the remote
	// side, all subsequent calls to interface methods will be ignored.
	void RequireVersion(uint32_t version) {
	internal_state_.RequireVersion(version);
	}

	// Sends a no-op message on the underlying message pipe and runs the current
	// message loop until its response is received. This can be used in tests to
	// verify that no message was sent on a message pipe in response to some
	// stimulus.
	void FlushForTesting() { internal_state_.FlushForTesting(); }

	// Closes the bound message pipe, if any.
	void reset() {
	State doomed;
	internal_state_.Swap(&doomed);
	}

	// Similar to the method above, but also specifies a disconnect reason.
	void ResetWithReason(uint32_t custom_reason, const std::string& description) {
	if (internal_state_.is_bound())
	internal_state_.CloseWithReason(custom_reason, description);
	reset();
	}

	// Whether there are any associated interfaces running on the pipe currently.
	bool HasAssociatedInterfaces() const {
	return internal_state_.HasAssociatedInterfaces();
	}

	// Indicates whether the message pipe has encountered an error. If true,
	// method calls made on this interface will be dropped (and may already have
	// been dropped).
	bool encountered_error() const { return internal_state_.encountered_error(); }

	// Registers a handler to receive error notifications. The handler will be
	// called from the sequence that owns this InterfacePtr.
	//
	// This method may only be called after the InterfacePtr has been bound to a
	// message pipe.
	void set_connection_error_handler(base::OnceClosure error_handler) {
	internal_state_.set_connection_error_handler(std::move(error_handler));
	}

	void set_connection_error_with_reason_handler(
	ConnectionErrorWithReasonCallback error_handler) {
	internal_state_.set_connection_error_with_reason_handler(
	std::move(error_handler));
	}

	// Unbinds the InterfacePtr and returns the information which could be used
	// to setup an InterfacePtr again. This method may be used to move the proxy
	// to a different sequence (see class comments for details).
	//
	// It is an error to call PassInterface() while:
	// - there are pending responses; or
	// TODO: fix this restriction, it's not always obvious when there is a
	// pending response.
	// - there are associated interfaces running.
	// TODO(yzshen): For now, users need to make sure there is no one holding
	// on to associated interface endpoint handles at both sides of the
	// message pipe in order to call this method. We need a way to forcefully
	// invalidate associated interface endpoint handles.
	InterfacePtrInfo<Interface> PassInterface() {
	CHECK(!HasAssociatedInterfaces());
	CHECK(!internal_state_.has_pending_callbacks());
	State state;
	internal_state_.Swap(&state);

	return state.PassInterface();
	}

	bool Equals(const InterfacePtr& other) const {
	if (this == &other)
	return true;

	// Now that the two refer to different objects, they are equivalent if
	// and only if they are both null.
	return !(*this) && !other;
	}

	// DO NOT USE. Exposed only for internal use and for testing.
	internal::InterfacePtrState<Interface>* internal_state() {
	return &internal_state_;
	}

	// Allow InterfacePtr<> to be used in boolean expressions.
	explicit operator bool() const { return internal_state_.is_bound(); }

	private:
	typedef internal::InterfacePtrState<Interface> State;
	mutable State internal_state_;

	DISALLOW_COPY_AND_ASSIGN(InterfacePtr);
	};

	// If \|info\| is valid (containing a valid message pipe handle), returns an
	// InterfacePtr bound to it. Otherwise, returns an unbound InterfacePtr.
	template <typename Interface>
	InterfacePtr<Interface> MakeProxy(
	InterfacePtrInfo<Interface> info,
	scoped_refptr<base::SingleThreadTaskRunner> runner = nullptr) {
	InterfacePtr<Interface> ptr;
	if (info.is_valid())
	ptr.Bind(std::move(info), std::move(runner));
	return std::move(ptr);
	}

	} // namespace mojo

	#endif // MOJO_PUBLIC_CPP_BINDINGS_INTERFACE_PTR_H_