content/child/resource_dispatcher.h - chromium/src - Git at Google

 // Copyright (c) 2012 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.

 // See http://dev.chromium.org/developers/design-documents/multi-process-resource-loading

 #ifndef CONTENT_CHILD_RESOURCE_DISPATCHER_H_
 #define CONTENT_CHILD_RESOURCE_DISPATCHER_H_

 #include <stdint.h>

 #include <deque>
 #include <map>
 #include <memory>
 #include <string>

 #include "base/containers/hash_tables.h"
 #include "base/macros.h"
 #include "base/memory/linked_ptr.h"
 #include "base/memory/shared_memory.h"
 #include "base/memory/weak_ptr.h"
 #include "base/single_thread_task_runner.h"
 #include "base/time/time.h"
 #include "content/common/content_export.h"
 #include "content/common/url_loader.mojom.h"
 #include "content/public/common/resource_type.h"
 #include "ipc/ipc_listener.h"
 #include "ipc/ipc_sender.h"
 #include "mojo/public/cpp/system/data_pipe.h"
 #include "net/base/request_priority.h"
 #include "third_party/WebKit/public/platform/WebURLRequest.h"
 #include "url/gurl.h"
 #include "url/origin.h"

 namespace net {
 struct RedirectInfo;
 }

 namespace content {
 class RequestPeer;
 class ResourceDispatcherDelegate;
 class ResourceSchedulingFilter;
 struct ResourceResponseInfo;
 struct ResourceRequest;
 struct ResourceRequestCompletionStatus;
 struct ResourceResponseHead;
 class SharedMemoryReceivedDataFactory;
 struct SiteIsolationResponseMetaData;
 struct SyncLoadResponse;
 class URLLoaderClientImpl;

 namespace mojom {
 class URLLoaderFactory;
 }  // namespace mojom

 // This class serves as a communication interface to the ResourceDispatcherHost
 // in the browser process. It can be used from any child process.
 // Virtual methods are for tests.
 class CONTENT_EXPORT ResourceDispatcher : public IPC::Listener {
  public:
   ResourceDispatcher(
       IPC::Sender* sender,
       scoped_refptr<base::SingleThreadTaskRunner> thread_task_runner);
   ~ResourceDispatcher() override;

   // IPC::Listener implementation.
   bool OnMessageReceived(const IPC::Message& message) override;

   // Call this method to load the resource synchronously (i.e., in one shot).
   // This is an alternative to the StartAsync method. Be warned that this method
   // will block the calling thread until the resource is fully downloaded or an
   // error occurs. It could block the calling thread for a long time, so only
   // use this if you really need it!  There is also no way for the caller to
   // interrupt this method. Errors are reported via the status field of the
   // response parameter.
   //
   // |routing_id| is used to associated the bridge with a frame's network
   // context.
   virtual void StartSync(std::unique_ptr<ResourceRequest> request,
                          int routing_id,
                          SyncLoadResponse* response,
                          blink::WebURLRequest::LoadingIPCType ipc_type,
                          mojom::URLLoaderFactory* url_loader_factory);

   // Call this method to initiate the request. If this method succeeds, then
   // the peer's methods will be called asynchronously to report various events.
   // Returns the request id. |url_loader_factory| must be non-null if and only
   // if |ipc_type| is LoadingIPCType::Mojo.
   //
   // |routing_id| is used to associated the bridge with a frame's network
   // context.
   //
   // You can pass an optional argument |loading_task_runner| to specify task
   // queue to execute loading tasks on.
   virtual int StartAsync(
       std::unique_ptr<ResourceRequest> request,
       int routing_id,
       scoped_refptr<base::SingleThreadTaskRunner> loading_task_runner,
       const url::Origin& frame_origin,
       std::unique_ptr<RequestPeer> peer,
       blink::WebURLRequest::LoadingIPCType ipc_type,
       mojom::URLLoaderFactory* url_loader_factory,
       mojo::ScopedDataPipeConsumerHandle consumer_handle);

   // Removes a request from the |pending_requests_| list, returning true if the
   // request was found and removed.
   bool RemovePendingRequest(int request_id);

   // Cancels a request in the |pending_requests_| list.  The request will be
   // removed from the dispatcher as well.
   virtual void Cancel(int request_id);

   // Toggles the is_deferred attribute for the specified request.
   virtual void SetDefersLoading(int request_id, bool value);

   // Indicates the priority of the specified request changed.
   void DidChangePriority(int request_id,
                          net::RequestPriority new_priority,
                          int intra_priority_value);

   void set_message_sender(IPC::Sender* sender) {
     DCHECK(sender);
     DCHECK(pending_requests_.empty());
     message_sender_ = sender;
   }

   // This does not take ownership of the delegate. It is expected that the
   // delegate have a longer lifetime than the ResourceDispatcher.
   void set_delegate(ResourceDispatcherDelegate* delegate) {
     delegate_ = delegate;
   }

   // Remembers IO thread timestamp for next resource message.
   void set_io_timestamp(base::TimeTicks io_timestamp) {
     io_timestamp_ = io_timestamp;
   }

   void SetThreadTaskRunner(
       scoped_refptr<base::SingleThreadTaskRunner> thread_task_runner) {
     thread_task_runner_ = thread_task_runner;
   }

   void SetResourceSchedulingFilter(
       scoped_refptr<ResourceSchedulingFilter> resource_scheduling_filter);

   base::WeakPtr<ResourceDispatcher> GetWeakPtr() {
     return weak_factory_.GetWeakPtr();
   }

   void OnTransferSizeUpdated(int request_id, int32_t transfer_size_diff);

  private:
   friend class URLLoaderClientImpl;
   friend class URLResponseBodyConsumer;
   friend class ResourceDispatcherTest;

   typedef std::deque<IPC::Message*> MessageQueue;
   struct PendingRequestInfo {
     PendingRequestInfo(std::unique_ptr<RequestPeer> peer,
                        ResourceType resource_type,
                        int origin_pid,
                        const url::Origin& frame_origin,
                        const GURL& request_url,
                        bool download_to_file);

     ~PendingRequestInfo();

     std::unique_ptr<RequestPeer> peer;
     ResourceType resource_type;
     // The PID of the original process which issued this request. This gets
     // non-zero only for a request proxied by another renderer, particularly
     // requests from plugins.
     int origin_pid;
     MessageQueue deferred_message_queue;
     bool is_deferred = false;
     // Original requested url.
     GURL url;
     // The security origin of the frame that initiates this request.
     url::Origin frame_origin;
     // The url of the latest response even in case of redirection.
     GURL response_url;
     bool download_to_file;
     std::unique_ptr<IPC::Message> pending_redirect_message;
     base::TimeTicks request_start;
     base::TimeTicks response_start;
     base::TimeTicks completion_time;
     linked_ptr<base::SharedMemory> buffer;
     scoped_refptr<SharedMemoryReceivedDataFactory> received_data_factory;
     std::unique_ptr<SiteIsolationResponseMetaData> site_isolation_metadata;
     int buffer_size;

     // For mojo loading.
     mojom::URLLoaderAssociatedPtr url_loader;
     std::unique_ptr<URLLoaderClientImpl> url_loader_client;
   };
   using PendingRequestMap = std::map<int, std::unique_ptr<PendingRequestInfo>>;

   // Helper to lookup the info based on the request_id.
   // May return NULL if the request as been canceled from the client side.
   PendingRequestInfo* GetPendingRequestInfo(int request_id);

   // Follows redirect, if any, for the given request.
   void FollowPendingRedirect(int request_id, PendingRequestInfo* request_info);

   // Message response handlers, called by the message handler for this process.
   void OnUploadProgress(int request_id, int64_t position, int64_t size);
   void OnReceivedResponse(int request_id, const ResourceResponseHead&);
   void OnReceivedCachedMetadata(int request_id,
                                 const std::vector<uint8_t>& data);
   void OnReceivedRedirect(int request_id,
                           const net::RedirectInfo& redirect_info,
                           const ResourceResponseHead& response_head);
   void OnSetDataBuffer(int request_id,
                        base::SharedMemoryHandle shm_handle,
                        int shm_size,
                        base::ProcessId renderer_pid);
   void OnReceivedData(int request_id,
                       int data_offset,
                       int data_length,
                       int encoded_data_length);
   void OnDownloadedData(int request_id, int data_len, int encoded_data_length);
   void OnRequestComplete(
       int request_id,
       const ResourceRequestCompletionStatus& request_complete_data);

   // Dispatch the message to one of the message response handlers.
   void DispatchMessage(const IPC::Message& message);

   // Dispatch any deferred messages for the given request, provided it is not
   // again in the deferred state. This method may mutate |pending_requests_|.
   void FlushDeferredMessages(int request_id);

   void ToResourceResponseInfo(const PendingRequestInfo& request_info,
                               const ResourceResponseHead& browser_info,
                               ResourceResponseInfo* renderer_info) const;

   base::TimeTicks ToRendererCompletionTime(
       const PendingRequestInfo& request_info,
       const base::TimeTicks& browser_completion_time) const;

   // Returns timestamp provided by IO thread. If no timestamp is supplied,
   // then current time is returned. Saved timestamp is reset, so following
   // invocations will return current time until set_io_timestamp is called.
   base::TimeTicks ConsumeIOTimestamp();

   void ContinueForNavigation(
       int request_id,
       mojo::ScopedDataPipeConsumerHandle consumer_handle);

   // Returns true if the message passed in is a resource related message.
   static bool IsResourceDispatcherMessage(const IPC::Message& message);

   // ViewHostMsg_Resource_DataReceived is not POD, it has a shared memory
   // handle in it that we should cleanup it up nicely. This method accepts any
   // message and determine whether the message is
   // ViewHostMsg_Resource_DataReceived and clean up the shared memory handle.
   static void ReleaseResourcesInDataMessage(const IPC::Message& message);

   // Iterate through a message queue and clean up the messages by calling
   // ReleaseResourcesInDataMessage and removing them from the queue. Intended
   // for use on deferred message queues that are no longer needed.
   static void ReleaseResourcesInMessageQueue(MessageQueue* queue);

   IPC::Sender* message_sender_;

   // All pending requests issued to the host
   PendingRequestMap pending_requests_;

   ResourceDispatcherDelegate* delegate_;

   // IO thread timestamp for ongoing IPC message.
   base::TimeTicks io_timestamp_;

   scoped_refptr<base::SingleThreadTaskRunner> thread_task_runner_;
   scoped_refptr<ResourceSchedulingFilter> resource_scheduling_filter_;

   base::WeakPtrFactory<ResourceDispatcher> weak_factory_;

   DISALLOW_COPY_AND_ASSIGN(ResourceDispatcher);
 };

 }  // namespace content

 #endif  // CONTENT_CHILD_RESOURCE_DISPATCHER_H_
	// Copyright (c) 2012 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.

	// See http://dev.chromium.org/developers/design-documents/multi-process-resource-loading

	#ifndef CONTENT_CHILD_RESOURCE_DISPATCHER_H_
	#define CONTENT_CHILD_RESOURCE_DISPATCHER_H_

	#include <stdint.h>

	#include <deque>
	#include <map>
	#include <memory>
	#include <string>

	#include "base/containers/hash_tables.h"
	#include "base/macros.h"
	#include "base/memory/linked_ptr.h"
	#include "base/memory/shared_memory.h"
	#include "base/memory/weak_ptr.h"
	#include "base/single_thread_task_runner.h"
	#include "base/time/time.h"
	#include "content/common/content_export.h"
	#include "content/common/url_loader.mojom.h"
	#include "content/public/common/resource_type.h"
	#include "ipc/ipc_listener.h"
	#include "ipc/ipc_sender.h"
	#include "mojo/public/cpp/system/data_pipe.h"
	#include "net/base/request_priority.h"
	#include "third_party/WebKit/public/platform/WebURLRequest.h"
	#include "url/gurl.h"
	#include "url/origin.h"

	namespace net {
	struct RedirectInfo;
	}

	namespace content {
	class RequestPeer;
	class ResourceDispatcherDelegate;
	class ResourceSchedulingFilter;
	struct ResourceResponseInfo;
	struct ResourceRequest;
	struct ResourceRequestCompletionStatus;
	struct ResourceResponseHead;
	class SharedMemoryReceivedDataFactory;
	struct SiteIsolationResponseMetaData;
	struct SyncLoadResponse;
	class URLLoaderClientImpl;

	namespace mojom {
	class URLLoaderFactory;
	} // namespace mojom

	// This class serves as a communication interface to the ResourceDispatcherHost
	// in the browser process. It can be used from any child process.
	// Virtual methods are for tests.
	class CONTENT_EXPORT ResourceDispatcher : public IPC::Listener {
	public:
	ResourceDispatcher(
	IPC::Sender* sender,
	scoped_refptr<base::SingleThreadTaskRunner> thread_task_runner);
	~ResourceDispatcher() override;

	// IPC::Listener implementation.
	bool OnMessageReceived(const IPC::Message& message) override;

	// Call this method to load the resource synchronously (i.e., in one shot).
	// This is an alternative to the StartAsync method. Be warned that this method
	// will block the calling thread until the resource is fully downloaded or an
	// error occurs. It could block the calling thread for a long time, so only
	// use this if you really need it! There is also no way for the caller to
	// interrupt this method. Errors are reported via the status field of the
	// response parameter.
	//
	// \|routing_id\| is used to associated the bridge with a frame's network
	// context.
	virtual void StartSync(std::unique_ptr<ResourceRequest> request,
	int routing_id,
	SyncLoadResponse* response,
	blink::WebURLRequest::LoadingIPCType ipc_type,
	mojom::URLLoaderFactory* url_loader_factory);

	// Call this method to initiate the request. If this method succeeds, then
	// the peer's methods will be called asynchronously to report various events.
	// Returns the request id. \|url_loader_factory\| must be non-null if and only
	// if \|ipc_type\| is LoadingIPCType::Mojo.
	//
	// \|routing_id\| is used to associated the bridge with a frame's network
	// context.
	//
	// You can pass an optional argument \|loading_task_runner\| to specify task
	// queue to execute loading tasks on.
	virtual int StartAsync(
	std::unique_ptr<ResourceRequest> request,
	int routing_id,
	scoped_refptr<base::SingleThreadTaskRunner> loading_task_runner,
	const url::Origin& frame_origin,
	std::unique_ptr<RequestPeer> peer,
	blink::WebURLRequest::LoadingIPCType ipc_type,
	mojom::URLLoaderFactory* url_loader_factory,
	mojo::ScopedDataPipeConsumerHandle consumer_handle);

	// Removes a request from the \|pending_requests_\| list, returning true if the
	// request was found and removed.
	bool RemovePendingRequest(int request_id);

	// Cancels a request in the \|pending_requests_\| list. The request will be
	// removed from the dispatcher as well.
	virtual void Cancel(int request_id);

	// Toggles the is_deferred attribute for the specified request.
	virtual void SetDefersLoading(int request_id, bool value);

	// Indicates the priority of the specified request changed.
	void DidChangePriority(int request_id,
	net::RequestPriority new_priority,
	int intra_priority_value);

	void set_message_sender(IPC::Sender* sender) {
	DCHECK(sender);
	DCHECK(pending_requests_.empty());
	message_sender_ = sender;
	}

	// This does not take ownership of the delegate. It is expected that the
	// delegate have a longer lifetime than the ResourceDispatcher.
	void set_delegate(ResourceDispatcherDelegate* delegate) {
	delegate_ = delegate;
	}

	// Remembers IO thread timestamp for next resource message.
	void set_io_timestamp(base::TimeTicks io_timestamp) {
	io_timestamp_ = io_timestamp;
	}

	void SetThreadTaskRunner(
	scoped_refptr<base::SingleThreadTaskRunner> thread_task_runner) {
	thread_task_runner_ = thread_task_runner;
	}

	void SetResourceSchedulingFilter(
	scoped_refptr<ResourceSchedulingFilter> resource_scheduling_filter);

	base::WeakPtr<ResourceDispatcher> GetWeakPtr() {
	return weak_factory_.GetWeakPtr();
	}

	void OnTransferSizeUpdated(int request_id, int32_t transfer_size_diff);

	private:
	friend class URLLoaderClientImpl;
	friend class URLResponseBodyConsumer;
	friend class ResourceDispatcherTest;

	typedef std::deque<IPC::Message*> MessageQueue;
	struct PendingRequestInfo {
	PendingRequestInfo(std::unique_ptr<RequestPeer> peer,
	ResourceType resource_type,
	int origin_pid,
	const url::Origin& frame_origin,
	const GURL& request_url,
	bool download_to_file);

	~PendingRequestInfo();

	std::unique_ptr<RequestPeer> peer;
	ResourceType resource_type;
	// The PID of the original process which issued this request. This gets
	// non-zero only for a request proxied by another renderer, particularly
	// requests from plugins.
	int origin_pid;
	MessageQueue deferred_message_queue;
	bool is_deferred = false;
	// Original requested url.
	GURL url;
	// The security origin of the frame that initiates this request.
	url::Origin frame_origin;
	// The url of the latest response even in case of redirection.
	GURL response_url;
	bool download_to_file;
	std::unique_ptr<IPC::Message> pending_redirect_message;
	base::TimeTicks request_start;
	base::TimeTicks response_start;
	base::TimeTicks completion_time;
	linked_ptr<base::SharedMemory> buffer;
	scoped_refptr<SharedMemoryReceivedDataFactory> received_data_factory;
	std::unique_ptr<SiteIsolationResponseMetaData> site_isolation_metadata;
	int buffer_size;

	// For mojo loading.
	mojom::URLLoaderAssociatedPtr url_loader;
	std::unique_ptr<URLLoaderClientImpl> url_loader_client;
	};
	using PendingRequestMap = std::map<int, std::unique_ptr<PendingRequestInfo>>;

	// Helper to lookup the info based on the request_id.
	// May return NULL if the request as been canceled from the client side.
	PendingRequestInfo* GetPendingRequestInfo(int request_id);

	// Follows redirect, if any, for the given request.
	void FollowPendingRedirect(int request_id, PendingRequestInfo* request_info);

	// Message response handlers, called by the message handler for this process.
	void OnUploadProgress(int request_id, int64_t position, int64_t size);
	void OnReceivedResponse(int request_id, const ResourceResponseHead&);
	void OnReceivedCachedMetadata(int request_id,
	const std::vector<uint8_t>& data);
	void OnReceivedRedirect(int request_id,
	const net::RedirectInfo& redirect_info,
	const ResourceResponseHead& response_head);
	void OnSetDataBuffer(int request_id,
	base::SharedMemoryHandle shm_handle,
	int shm_size,
	base::ProcessId renderer_pid);
	void OnReceivedData(int request_id,
	int data_offset,
	int data_length,
	int encoded_data_length);
	void OnDownloadedData(int request_id, int data_len, int encoded_data_length);
	void OnRequestComplete(
	int request_id,
	const ResourceRequestCompletionStatus& request_complete_data);

	// Dispatch the message to one of the message response handlers.
	void DispatchMessage(const IPC::Message& message);

	// Dispatch any deferred messages for the given request, provided it is not
	// again in the deferred state. This method may mutate \|pending_requests_\|.
	void FlushDeferredMessages(int request_id);

	void ToResourceResponseInfo(const PendingRequestInfo& request_info,
	const ResourceResponseHead& browser_info,
	ResourceResponseInfo* renderer_info) const;

	base::TimeTicks ToRendererCompletionTime(
	const PendingRequestInfo& request_info,
	const base::TimeTicks& browser_completion_time) const;

	// Returns timestamp provided by IO thread. If no timestamp is supplied,
	// then current time is returned. Saved timestamp is reset, so following
	// invocations will return current time until set_io_timestamp is called.
	base::TimeTicks ConsumeIOTimestamp();

	void ContinueForNavigation(
	int request_id,
	mojo::ScopedDataPipeConsumerHandle consumer_handle);

	// Returns true if the message passed in is a resource related message.
	static bool IsResourceDispatcherMessage(const IPC::Message& message);

	// ViewHostMsg_Resource_DataReceived is not POD, it has a shared memory
	// handle in it that we should cleanup it up nicely. This method accepts any
	// message and determine whether the message is
	// ViewHostMsg_Resource_DataReceived and clean up the shared memory handle.
	static void ReleaseResourcesInDataMessage(const IPC::Message& message);

	// Iterate through a message queue and clean up the messages by calling
	// ReleaseResourcesInDataMessage and removing them from the queue. Intended
	// for use on deferred message queues that are no longer needed.
	static void ReleaseResourcesInMessageQueue(MessageQueue* queue);

	IPC::Sender* message_sender_;

	// All pending requests issued to the host
	PendingRequestMap pending_requests_;

	ResourceDispatcherDelegate* delegate_;

	// IO thread timestamp for ongoing IPC message.
	base::TimeTicks io_timestamp_;

	scoped_refptr<base::SingleThreadTaskRunner> thread_task_runner_;
	scoped_refptr<ResourceSchedulingFilter> resource_scheduling_filter_;

	base::WeakPtrFactory<ResourceDispatcher> weak_factory_;

	DISALLOW_COPY_AND_ASSIGN(ResourceDispatcher);
	};

	} // namespace content

	#endif // CONTENT_CHILD_RESOURCE_DISPATCHER_H_