// 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 IPC_ATTACHMENT_BROKER_H_ #define IPC_ATTACHMENT_BROKER_H_ #include "base/gtest_prod_util.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "base/process/process_handle.h" #include "base/synchronization/lock.h" #include "build/build_config.h" #include "ipc/brokerable_attachment.h" #include "ipc/ipc_export.h" #include "ipc/ipc_listener.h" // If the platform has no attachments that need brokering, then it shouldn't // compile any code that calls member functions of AttachmentBroker. This // prevents symbols only used by AttachmentBroker and its subclasses from // making it into the binary. #if defined(OS_WIN) || (defined(OS_MACOSX) && !defined(OS_IOS)) #define USE_ATTACHMENT_BROKER 1 #else #define USE_ATTACHMENT_BROKER 0 #endif // defined(OS_WIN) namespace base { class SequencedTaskRunner; class SingleThreadTaskRunner; }; namespace IPC { class AttachmentBroker; class Endpoint; // Classes that inherit from this abstract base class are capable of // communicating with a broker to send and receive attachments to Chrome IPC // messages. class IPC_EXPORT SupportsAttachmentBrokering { public: // Returns an AttachmentBroker used to broker attachments of IPC messages to // other processes. There must be exactly one AttachmentBroker per process. virtual AttachmentBroker* GetAttachmentBroker() = 0; }; // Responsible for brokering attachments to Chrome IPC messages. On platforms // that support attachment brokering, every IPC channel should have a reference // to a AttachmentBroker. // This class is not thread safe. The implementation of this class assumes that // it is only ever used on the same thread as its consumers. class IPC_EXPORT AttachmentBroker : public Listener { public: // A standard observer interface that allows consumers of the AttachmentBroker // to be notified when a new attachment has been received. class Observer { public: virtual void ReceivedBrokerableAttachmentWithId( const BrokerableAttachment::AttachmentId& id) = 0; }; // Each process has at most one attachment broker. The process is responsible // for ensuring that |broker| stays alive for as long as the process is // sending/receiving ipc messages. static void SetGlobal(AttachmentBroker* broker); static AttachmentBroker* GetGlobal(); AttachmentBroker(); ~AttachmentBroker() override; // Sends |attachment| to |destination_process|. The implementation uses an // IPC::Channel to communicate with the broker process. This may be the same // IPC::Channel that is requesting the brokering of an attachment. // Returns true on success and false otherwise. virtual bool SendAttachmentToProcess( const scoped_refptr& attachment, base::ProcessId destination_process) = 0; // Returns whether the attachment was available. If the attachment was // available, populates the output parameter |attachment|. bool GetAttachmentWithId(BrokerableAttachment::AttachmentId id, scoped_refptr* attachment); // Any given observer should only ever add itself once to the observer list. // Notifications to |observer| will be posted to |runner|. // The |observer| is expected to call RemoveObserver() before being destroyed. void AddObserver(Observer* observer, const scoped_refptr& runner); void RemoveObserver(Observer* observer); // These two methods should only be called by the broker process. // // Each unprivileged process should have one IPC channel on which it // communicates attachment information with the broker process. In the broker // process, these channels must be registered and deregistered with the // Attachment Broker as they are created and destroyed. // // Invocations of Send() on |endpoint| will occur on thread bound to |runner|. virtual void RegisterCommunicationChannel( Endpoint* endpoint, scoped_refptr runner); virtual void DeregisterCommunicationChannel(Endpoint* endpoint); // In each unprivileged process, exactly one channel should be used to // communicate brokerable attachments with the broker process. virtual void RegisterBrokerCommunicationChannel(Endpoint* endpoint); virtual void DeregisterBrokerCommunicationChannel(Endpoint* endpoint); // True if and only if this broker is privileged. virtual bool IsPrivilegedBroker(); protected: using AttachmentVector = std::vector>; // Adds |attachment| to |attachments_|, and notifies the observers. void HandleReceivedAttachment( const scoped_refptr& attachment); // Informs the observers that a new BrokerableAttachment has been received. void NotifyObservers(const BrokerableAttachment::AttachmentId& id); // Informs the observer identified by |unique_id| that a new // BrokerableAttachment has been received. void NotifyObserver(int unique_id, const BrokerableAttachment::AttachmentId& id); // This method is exposed for testing only. AttachmentVector* get_attachments() { return &attachments_; } base::Lock* get_lock() { return &lock_; } private: #if defined(OS_WIN) FRIEND_TEST_ALL_PREFIXES(AttachmentBrokerUnprivilegedWinTest, ReceiveValidMessage); FRIEND_TEST_ALL_PREFIXES(AttachmentBrokerUnprivilegedWinTest, ReceiveInvalidMessage); #endif // defined(OS_WIN) // A vector of BrokerableAttachments that have been received, but not yet // consumed. // A std::vector is used instead of a std::map because this container is // expected to have few elements, for which a std::vector is expected to have // better performance. AttachmentVector attachments_; struct ObserverInfo { ObserverInfo(); ObserverInfo(const ObserverInfo& other); ~ObserverInfo(); Observer* observer; int unique_id; // Notifications must be dispatched onto |runner|. scoped_refptr runner; }; std::vector observers_; // This member holds the last id given to an ObserverInfo. int last_unique_id_; // The AttachmentBroker can be accessed from any thread, so modifications to // internal state must be guarded by a lock. base::Lock lock_; DISALLOW_COPY_AND_ASSIGN(AttachmentBroker); }; } // namespace IPC #endif // IPC_ATTACHMENT_BROKER_H_