// Copyright 2015 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_ASSOCIATED_INTERFACE_PTR_H_ #define MOJO_PUBLIC_CPP_BINDINGS_ASSOCIATED_INTERFACE_PTR_H_ #include #include #include #include "base/callback.h" #include "base/logging.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "base/sequenced_task_runner.h" #include "mojo/public/cpp/bindings/associated_interface_ptr_info.h" #include "mojo/public/cpp/bindings/associated_interface_request.h" #include "mojo/public/cpp/bindings/bindings_export.h" #include "mojo/public/cpp/bindings/connection_error_callback.h" #include "mojo/public/cpp/bindings/lib/associated_interface_ptr_state.h" #include "mojo/public/cpp/bindings/lib/multiplex_router.h" #include "mojo/public/cpp/system/message_pipe.h" namespace mojo { // Represents the client side of an associated interface. It is similar to // InterfacePtr, except that it doesn't own a message pipe handle. template class AssociatedInterfacePtr { public: using InterfaceType = Interface; using PtrInfoType = AssociatedInterfacePtrInfo; using Proxy = typename Interface::Proxy_; // Constructs an unbound AssociatedInterfacePtr. AssociatedInterfacePtr() {} AssociatedInterfacePtr(decltype(nullptr)) {} AssociatedInterfacePtr(AssociatedInterfacePtr&& other) { internal_state_.Swap(&other.internal_state_); } explicit AssociatedInterfacePtr(PtrInfoType&& info) { Bind(std::move(info)); } AssociatedInterfacePtr& operator=(AssociatedInterfacePtr&& other) { reset(); internal_state_.Swap(&other.internal_state_); return *this; } // Assigning nullptr to this class causes it to closes the associated // interface (if any) and returns the pointer to the unbound state. AssociatedInterfacePtr& operator=(decltype(nullptr)) { reset(); return *this; } ~AssociatedInterfacePtr() {} // Sets up this object as the client side of an associated interface. // Calling with an invalid |info| has the same effect as reset(). In this // case, the AssociatedInterfacePtr is not considered as bound. // // Optionally, |runner| is a SequencedTaskRunner bound to the current sequence // on which all callbacks and connection error notifications will be // dispatched. It is only useful to specify this to use a different // SequencedTaskRunner than SequencedTaskRunnerHandle::Get(). // // NOTE: The corresponding AssociatedInterfaceRequest must be sent over // another interface before using this object to make calls. Please see the // comments of MakeRequest(AssociatedInterfacePtr*) for more // details. void Bind(AssociatedInterfacePtrInfo info, scoped_refptr runner = nullptr) { reset(); if (info.is_valid()) internal_state_.Bind(std::move(info), std::move(runner)); } bool is_bound() const { return internal_state_.is_bound(); } 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 object will also be updated. void QueryVersion(const base::Callback& callback) { internal_state_.QueryVersion(callback); } // If the remote side doesn't support the specified version, it will close the // associated interface 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 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 associated interface (if any) and returns the pointer to the // unbound state. 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(); } // Indicates whether an error has been encountered. 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. // // This method may only be called after the AssociatedInterfacePtr has been // bound. 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 and returns the associated interface pointer information which // could be used to setup an AssociatedInterfacePtr again. This method may be // used to move the proxy to a different sequence. // // It is an error to call PassInterface() while there are pending responses. // TODO: fix this restriction, it's not always obvious when there is a // pending response. AssociatedInterfacePtrInfo PassInterface() { DCHECK(!internal_state_.has_pending_callbacks()); State state; internal_state_.Swap(&state); return state.PassInterface(); } // DO NOT USE. Exposed only for internal use and for testing. internal::AssociatedInterfacePtrState* internal_state() { return &internal_state_; } // Allow AssociatedInterfacePtr<> to be used in boolean expressions. explicit operator bool() const { return internal_state_.is_bound(); } private: typedef internal::AssociatedInterfacePtrState State; mutable State internal_state_; DISALLOW_COPY_AND_ASSIGN(AssociatedInterfacePtr); }; // Creates an associated interface. The returned request is supposed to be sent // over another interface (either associated or non-associated). // // NOTE: |ptr| must NOT be used to make calls before the request is sent. // Violating that will lead to crash. On the other hand, as soon as the request // is sent, |ptr| is usable. There is no need to wait until the request is bound // to an implementation at the remote side. template AssociatedInterfaceRequest MakeRequest( AssociatedInterfacePtr* ptr, scoped_refptr runner = nullptr) { AssociatedInterfacePtrInfo ptr_info; auto request = MakeRequest(&ptr_info); ptr->Bind(std::move(ptr_info), std::move(runner)); return request; } // Creates an associated interface. One of the two endpoints is supposed to be // sent over another interface (either associated or non-associated); while the // other is used locally. // // NOTE: If |ptr_info| is used locally and bound to an AssociatedInterfacePtr, // the interface pointer must NOT be used to make calls before the request is // sent. Please see NOTE of the previous function for more details. template AssociatedInterfaceRequest MakeRequest( AssociatedInterfacePtrInfo* ptr_info) { ScopedInterfaceEndpointHandle handle0; ScopedInterfaceEndpointHandle handle1; ScopedInterfaceEndpointHandle::CreatePairPendingAssociation(&handle0, &handle1); ptr_info->set_handle(std::move(handle0)); ptr_info->set_version(0); return AssociatedInterfaceRequest(std::move(handle1)); } // Like MakeRequest() above, but it creates a dedicated message pipe. The // returned request can be bound directly to an implementation, without being // first passed through a message pipe endpoint. // // This function has two main uses: // // * In testing, where the returned request is bound to e.g. a mock and there // are no other interfaces involved. // // * When discarding messages sent on an interface, which can be done by // discarding the returned request. template AssociatedInterfaceRequest MakeRequestAssociatedWithDedicatedPipe( AssociatedInterfacePtr* ptr) { MessagePipe pipe; scoped_refptr router0 = new internal::MultiplexRouter( std::move(pipe.handle0), internal::MultiplexRouter::MULTI_INTERFACE, false, base::SequencedTaskRunnerHandle::Get()); scoped_refptr router1 = new internal::MultiplexRouter( std::move(pipe.handle1), internal::MultiplexRouter::MULTI_INTERFACE, true, base::SequencedTaskRunnerHandle::Get()); ScopedInterfaceEndpointHandle endpoint0, endpoint1; ScopedInterfaceEndpointHandle::CreatePairPendingAssociation(&endpoint0, &endpoint1); InterfaceId id = router1->AssociateInterface(std::move(endpoint0)); endpoint0 = router0->CreateLocalEndpointHandle(id); ptr->Bind(AssociatedInterfacePtrInfo(std::move(endpoint0), Interface::Version_)); return AssociatedInterfaceRequest(std::move(endpoint1)); } // |handle| is supposed to be the request of an associated interface. This // method associates the interface with a dedicated, disconnected message pipe. // That way, the corresponding associated interface pointer of |handle| can // safely make calls (although those calls are silently dropped). MOJO_CPP_BINDINGS_EXPORT void AssociateWithDisconnectedPipe( ScopedInterfaceEndpointHandle handle); } // namespace mojo #endif // MOJO_PUBLIC_CPP_BINDINGS_ASSOCIATED_INTERFACE_PTR_H_