sandbox/src/sharedmem_ipc_server.h - chromium/src - Git at Google

 // Copyright (c) 2010 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 SANDBOX_SRC_SHAREDMEM_IPC_SERVER_H_
 #define SANDBOX_SRC_SHAREDMEM_IPC_SERVER_H_

 #include <list>

 #include "base/basictypes.h"
 #include "sandbox/src/crosscall_params.h"
 #include "sandbox/src/crosscall_server.h"
 #include "sandbox/src/sharedmem_ipc_client.h"

 #include "testing/gtest/include/gtest/gtest_prod.h"

 // IPC transport implementation that uses shared memory.
 // This is the server side
 //
 // The server side has knowledge about the layout of the shared memory
 // and the state transitions. Both are explained in sharedmem_ipc_client.h
 //
 // As opposed to SharedMemIPClient, the Server object should be one for the
 // entire lifetime of the target process. The server is in charge of creating
 // the events (ping, pong) both for the client and for the target that are used
 // to signal the IPC and also in charge of setting the initial state of the
 // channels.
 //
 // When an IPC is ready, the server relies on being called by on the
 // ThreadPingEventReady callback. The IPC server then retrieves the buffer,
 // marshals it into a CrossCallParam object and calls the Dispatcher, who is in
 // charge of fulfilling the IPC request.
 namespace sandbox {

 // the shared memory implementation of the IPC server. There should be one
 // of these objects per target (IPC client) process
 class SharedMemIPCServer {
  public:
   // Creates the IPC server.
   // target_process: handle to the target process. It must be suspended.
   // target_process_id: process id of the target process.
   // target_job: the job object handle associated with the target process.
   // thread_provider: a thread provider object.
   // dispatcher: an object that can service IPC calls.
   SharedMemIPCServer(HANDLE target_process, DWORD target_process_id,
                      HANDLE target_job, ThreadProvider* thread_provider,
                      Dispatcher* dispatcher);

   ~SharedMemIPCServer();

   // Initializes the server structures, shared memory structures and
   // creates the kernels events used to signal the IPC.
   bool Init(void* shared_mem, size_t shared_size, size_t channel_size);

  private:
   FRIEND_TEST(IPCTest, SharedMemServerTests);
   // When an event fires (IPC request). A thread from the ThreadProvider
   // will call this function. The context parameter should be the same as
   // provided when ThreadProvider::RegisterWait was called.
   static void __stdcall ThreadPingEventReady(void* context,
                                              unsigned char);

   // Makes the client and server events. This function is called once
   // per channel.
   bool MakeEvents(HANDLE* server_ping, HANDLE* server_pong,
                   HANDLE* client_ping, HANDLE* client_pong);

   // A copy this structure is maintained per channel.
   // Note that a lot of the fields are just the same of what we have in the IPC
   // object itself. It is better to have the copies since we can dispatch in the
   // static method without worrying about converting back to a member function
   // call or about threading issues.
   struct ServerControl {
     // This channel server ping event.
     HANDLE ping_event;
     // This channel server pong event.
     HANDLE pong_event;
     // The size of this channel.
     size_t channel_size;
     // The pointer to the actual channel data.
     char* channel_buffer;
     // The pointer to the base of the shared memory.
     char* shared_base;
     // A pointer to this channel's client-side control structure this structure
     // lives in the shared memory.
     ChannelControl* channel;
     // the IPC dispatcher associated with this channel.
     Dispatcher* dispatcher;
     // The target process information associated with this channel.
     ClientInfo target_info;
   };

   // Looks for the appropriate handler for this IPC and invokes it.
   static bool InvokeCallback(const ServerControl* service_context,
                              void* ipc_buffer, CrossCallReturn* call_result);

   // Points to the shared memory channel control which lives at
   // the start of the shared section.
   IPCControl* client_control_;

   // Keeps track of the server side objects that are used to answer an IPC.
   typedef std::list<ServerControl*> ServerContexts;
   ServerContexts server_contexts_;

   // The thread provider provides the threads that call back into this object
   // when the IPC events fire.
   ThreadProvider* thread_provider_;

   // The IPC object is associated with a target process.
   HANDLE target_process_;

   // The target process id associated with the IPC object.
   DWORD target_process_id_;

   // The target object is inside a job too.
   HANDLE target_job_object_;

   // The dispatcher handles 'ready' IPC calls.
   Dispatcher* call_dispatcher_;

   DISALLOW_COPY_AND_ASSIGN(SharedMemIPCServer);
 };

 }  // namespace sandbox

 #endif  // SANDBOX_SRC_SHAREDMEM_IPC_SERVER_H_
	// Copyright (c) 2010 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 SANDBOX_SRC_SHAREDMEM_IPC_SERVER_H_
	#define SANDBOX_SRC_SHAREDMEM_IPC_SERVER_H_

	#include <list>

	#include "base/basictypes.h"
	#include "sandbox/src/crosscall_params.h"
	#include "sandbox/src/crosscall_server.h"
	#include "sandbox/src/sharedmem_ipc_client.h"

	#include "testing/gtest/include/gtest/gtest_prod.h"

	// IPC transport implementation that uses shared memory.
	// This is the server side
	//
	// The server side has knowledge about the layout of the shared memory
	// and the state transitions. Both are explained in sharedmem_ipc_client.h
	//
	// As opposed to SharedMemIPClient, the Server object should be one for the
	// entire lifetime of the target process. The server is in charge of creating
	// the events (ping, pong) both for the client and for the target that are used
	// to signal the IPC and also in charge of setting the initial state of the
	// channels.
	//
	// When an IPC is ready, the server relies on being called by on the
	// ThreadPingEventReady callback. The IPC server then retrieves the buffer,
	// marshals it into a CrossCallParam object and calls the Dispatcher, who is in
	// charge of fulfilling the IPC request.
	namespace sandbox {

	// the shared memory implementation of the IPC server. There should be one
	// of these objects per target (IPC client) process
	class SharedMemIPCServer {
	public:
	// Creates the IPC server.
	// target_process: handle to the target process. It must be suspended.
	// target_process_id: process id of the target process.
	// target_job: the job object handle associated with the target process.
	// thread_provider: a thread provider object.
	// dispatcher: an object that can service IPC calls.
	SharedMemIPCServer(HANDLE target_process, DWORD target_process_id,
	HANDLE target_job, ThreadProvider* thread_provider,
	Dispatcher* dispatcher);

	~SharedMemIPCServer();

	// Initializes the server structures, shared memory structures and
	// creates the kernels events used to signal the IPC.
	bool Init(void* shared_mem, size_t shared_size, size_t channel_size);

	private:
	FRIEND_TEST(IPCTest, SharedMemServerTests);
	// When an event fires (IPC request). A thread from the ThreadProvider
	// will call this function. The context parameter should be the same as
	// provided when ThreadProvider::RegisterWait was called.
	static void __stdcall ThreadPingEventReady(void* context,
	unsigned char);

	// Makes the client and server events. This function is called once
	// per channel.
	bool MakeEvents(HANDLE* server_ping, HANDLE* server_pong,
	HANDLE* client_ping, HANDLE* client_pong);

	// A copy this structure is maintained per channel.
	// Note that a lot of the fields are just the same of what we have in the IPC
	// object itself. It is better to have the copies since we can dispatch in the
	// static method without worrying about converting back to a member function
	// call or about threading issues.
	struct ServerControl {
	// This channel server ping event.
	HANDLE ping_event;
	// This channel server pong event.
	HANDLE pong_event;
	// The size of this channel.
	size_t channel_size;
	// The pointer to the actual channel data.
	char* channel_buffer;
	// The pointer to the base of the shared memory.
	char* shared_base;
	// A pointer to this channel's client-side control structure this structure
	// lives in the shared memory.
	ChannelControl* channel;
	// the IPC dispatcher associated with this channel.
	Dispatcher* dispatcher;
	// The target process information associated with this channel.
	ClientInfo target_info;
	};

	// Looks for the appropriate handler for this IPC and invokes it.
	static bool InvokeCallback(const ServerControl* service_context,
	void* ipc_buffer, CrossCallReturn* call_result);

	// Points to the shared memory channel control which lives at
	// the start of the shared section.
	IPCControl* client_control_;

	// Keeps track of the server side objects that are used to answer an IPC.
	typedef std::list<ServerControl*> ServerContexts;
	ServerContexts server_contexts_;

	// The thread provider provides the threads that call back into this object
	// when the IPC events fire.
	ThreadProvider* thread_provider_;

	// The IPC object is associated with a target process.
	HANDLE target_process_;

	// The target process id associated with the IPC object.
	DWORD target_process_id_;

	// The target object is inside a job too.
	HANDLE target_job_object_;

	// The dispatcher handles 'ready' IPC calls.
	Dispatcher* call_dispatcher_;

	DISALLOW_COPY_AND_ASSIGN(SharedMemIPCServer);
	};

	} // namespace sandbox

	#endif // SANDBOX_SRC_SHAREDMEM_IPC_SERVER_H_