ipc/ipc_message.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.

 #ifndef IPC_IPC_MESSAGE_H_
 #define IPC_IPC_MESSAGE_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <string>

 #include "base/gtest_prod_util.h"
 #include "base/memory/ref_counted.h"
 #include "base/pickle.h"
 #include "base/trace_event/trace_event.h"
 #include "build/build_config.h"
 #include "ipc/ipc_buildflags.h"
 #include "ipc/ipc_message_support_export.h"

 namespace mojo {
 namespace internal {
 struct UnmappedNativeStructSerializerImpl;
 }
 }  // namespace mojo

 namespace IPC {

 namespace internal {
 class ChannelReader;
 }  // namespace internal

 //------------------------------------------------------------------------------

 struct LogData;
 class MessageAttachmentSet;

 class IPC_MESSAGE_SUPPORT_EXPORT Message : public base::Pickle {
  public:
   enum PriorityValue {
     PRIORITY_LOW = 1,
     PRIORITY_NORMAL,
     PRIORITY_HIGH
   };

   // Bit values used in the flags field.
   // Upper 24 bits of flags store a reference number, so this enum is limited to
   // 8 bits.
   enum {
     PRIORITY_MASK     = 0x03,  // Low 2 bits of store the priority value.
     SYNC_BIT          = 0x04,
     REPLY_BIT         = 0x08,
     REPLY_ERROR_BIT   = 0x10,
     UNBLOCK_BIT       = 0x20,
     PUMPING_MSGS_BIT  = 0x40,
     HAS_SENT_TIME_BIT = 0x80,
   };

   ~Message() override;

   Message();

   // Initialize a message with a user-defined type, priority value, and
   // destination WebView ID.
   Message(int32_t routing_id, uint32_t type, PriorityValue priority);

   // Initializes a message from a const block of data.  The data is not copied;
   // instead the data is merely referenced by this message.  Only const methods
   // should be used on the message when initialized this way.
   Message(const char* data, int data_len);

   Message(const Message& other);
   Message& operator=(const Message& other);

   bool IsValid() const { return header_size() == sizeof(Header) && header(); }

   PriorityValue priority() const {
     return static_cast<PriorityValue>(header()->flags & PRIORITY_MASK);
   }

   // True if this is a synchronous message.
   void set_sync() {
     header()->flags |= SYNC_BIT;
   }
   bool is_sync() const {
     return (header()->flags & SYNC_BIT) != 0;
   }

   // Set this on a reply to a synchronous message.
   void set_reply() {
     header()->flags |= REPLY_BIT;
   }

   bool is_reply() const {
     return (header()->flags & REPLY_BIT) != 0;
   }

   // Set this on a reply to a synchronous message to indicate that no receiver
   // was found.
   void set_reply_error() {
     header()->flags |= REPLY_ERROR_BIT;
   }

   bool is_reply_error() const {
     return (header()->flags & REPLY_ERROR_BIT) != 0;
   }

   // Normally when a receiver gets a message and they're blocked on a
   // synchronous message Send, they buffer a message.  Setting this flag causes
   // the receiver to be unblocked and the message to be dispatched immediately.
   void set_unblock(bool unblock) {
     if (unblock) {
       header()->flags |= UNBLOCK_BIT;
     } else {
       header()->flags &= ~UNBLOCK_BIT;
     }
   }

   bool should_unblock() const {
     return (header()->flags & UNBLOCK_BIT) != 0;
   }

   // Tells the receiver that the caller is pumping messages while waiting
   // for the result.
   bool is_caller_pumping_messages() const {
     return (header()->flags & PUMPING_MSGS_BIT) != 0;
   }

   void set_dispatch_error() const {
     dispatch_error_ = true;
   }

   bool dispatch_error() const {
     return dispatch_error_;
   }

   uint32_t type() const {
     return header()->type;
   }

   int32_t routing_id() const {
     return header()->routing;
   }

   void set_routing_id(int32_t new_id) {
     header()->routing = new_id;
   }

   uint32_t flags() const {
     return header()->flags;
   }

   // Sets all the given header values. The message should be empty at this
   // call.
   void SetHeaderValues(int32_t routing, uint32_t type, uint32_t flags);

   template<class T, class S, class P>
   static bool Dispatch(const Message* msg, T* obj, S* sender, P* parameter,
                        void (T::*func)()) {
     (obj->*func)();
     return true;
   }

   template<class T, class S, class P>
   static bool Dispatch(const Message* msg, T* obj, S* sender, P* parameter,
                        void (T::*func)(P*)) {
     (obj->*func)(parameter);
     return true;
   }

   // Used for async messages with no parameters.
   static void Log(std::string* name, const Message* msg, std::string* l) {
   }

   // The static method FindNext() returns several pieces of information, which
   // are aggregated into an instance of this struct.
   struct IPC_MESSAGE_SUPPORT_EXPORT NextMessageInfo {
     NextMessageInfo();
     ~NextMessageInfo();

     // Total message size. Always valid if |message_found| is true.
     // If |message_found| is false but we could determine message size
     // from the header, this field is non-zero. Otherwise it's zero.
     size_t message_size;
     // Whether an entire message was found in the given memory range.
     bool message_found;
     // Only filled in if |message_found| is true.
     // The start address is passed into FindNext() by the caller, so isn't
     // repeated in this struct. The end address of the pickle should be used to
     // construct a base::Pickle.
     const char* pickle_end;
     // Only filled in if |message_found| is true.
     // The end address of the message should be used to determine the start
     // address of the next message.
     const char* message_end;
   };

   // |info| is an output parameter and must not be nullptr.
   static void FindNext(const char* range_start,
                        const char* range_end,
                        NextMessageInfo* info);

   // WriteAttachment appends |attachment| to the end of the set. It returns
   // false iff the set is full.
   bool WriteAttachment(
       scoped_refptr<base::Pickle::Attachment> attachment) override;
   // ReadAttachment parses an attachment given the parsing state |iter| and
   // writes it to |*attachment|. It returns true on success.
   bool ReadAttachment(
       base::PickleIterator* iter,
       scoped_refptr<base::Pickle::Attachment>* attachment) const override;
   // Returns true if there are any attachment in this message.
   bool HasAttachments() const override;

 #if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
   // Adds the outgoing time from Time::Now() at the end of the message and sets
   // a bit to indicate that it's been added.
   void set_sent_time(int64_t time);
   int64_t sent_time() const;

   void set_received_time(int64_t time) const;
   int64_t received_time() const { return received_time_; }
   void set_output_params(const std::string& op) const { output_params_ = op; }
   const std::string& output_params() const { return output_params_; }
   // The following four functions are needed so we can log sync messages with
   // delayed replies.  We stick the log data from the sent message into the
   // reply message, so that when it's sent and we have the output parameters
   // we can log it.  As such, we set a flag on the sent message to not log it.
   void set_sync_log_data(LogData* data) const { log_data_ = data; }
   LogData* sync_log_data() const { return log_data_; }
   void set_dont_log() const { dont_log_ = true; }
   bool dont_log() const { return dont_log_; }
 #endif

  protected:
   friend class Channel;
   friend class ChannelMojo;
   friend class ChannelNacl;
   friend class ChannelPosix;
   friend class ChannelWin;
   friend class internal::ChannelReader;
   friend class MessageReplyDeserializer;
   friend class SyncMessage;

   friend struct mojo::internal::UnmappedNativeStructSerializerImpl;

 #pragma pack(push, 4)
   struct Header : base::Pickle::Header {
     int32_t routing;  // ID of the view that this message is destined for
     uint32_t type;    // specifies the user-defined message type
     uint32_t flags;   // specifies control flags for the message
 #if defined(OS_POSIX) || defined(OS_FUCHSIA)
     uint16_t num_fds; // the number of descriptors included with this message
     uint16_t pad;     // explicitly initialize this to appease valgrind
 #endif
   };
 #pragma pack(pop)

   Header* header() {
     return headerT<Header>();
   }
   const Header* header() const {
     return headerT<Header>();
   }

   void Init();

   // Used internally to support IPC::Listener::OnBadMessageReceived.
   mutable bool dispatch_error_;

   // The set of file descriptors associated with this message.
   scoped_refptr<MessageAttachmentSet> attachment_set_;

   // Ensure that a MessageAttachmentSet is allocated
   void EnsureMessageAttachmentSet();

   MessageAttachmentSet* attachment_set() {
     EnsureMessageAttachmentSet();
     return attachment_set_.get();
   }
   const MessageAttachmentSet* attachment_set() const {
     return attachment_set_.get();
   }

 #if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
   // Used for logging.
   mutable int64_t received_time_;
   mutable std::string output_params_;
   mutable LogData* log_data_;
   mutable bool dont_log_;
 #endif

   FRIEND_TEST_ALL_PREFIXES(IPCMessageTest, FindNext);
   FRIEND_TEST_ALL_PREFIXES(IPCMessageTest, FindNextOverflow);
 };

 //------------------------------------------------------------------------------

 }  // namespace IPC

 enum SpecialRoutingIDs {
   // indicates that we don't have a routing ID yet.
   MSG_ROUTING_NONE = -2,

   // indicates a general message not sent to a particular tab.
   MSG_ROUTING_CONTROL = INT32_MAX,
 };

 #define IPC_REPLY_ID 0xFFFFFFF0  // Special message id for replies
 #define IPC_LOGGING_ID 0xFFFFFFF1  // Special message id for logging

 #endif  // IPC_IPC_MESSAGE_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.

	#ifndef IPC_IPC_MESSAGE_H_
	#define IPC_IPC_MESSAGE_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <string>

	#include "base/gtest_prod_util.h"
	#include "base/memory/ref_counted.h"
	#include "base/pickle.h"
	#include "base/trace_event/trace_event.h"
	#include "build/build_config.h"
	#include "ipc/ipc_buildflags.h"
	#include "ipc/ipc_message_support_export.h"

	namespace mojo {
	namespace internal {
	struct UnmappedNativeStructSerializerImpl;
	}
	} // namespace mojo

	namespace IPC {

	namespace internal {
	class ChannelReader;
	} // namespace internal

	//------------------------------------------------------------------------------

	struct LogData;
	class MessageAttachmentSet;

	class IPC_MESSAGE_SUPPORT_EXPORT Message : public base::Pickle {
	public:
	enum PriorityValue {
	PRIORITY_LOW = 1,
	PRIORITY_NORMAL,
	PRIORITY_HIGH
	};

	// Bit values used in the flags field.
	// Upper 24 bits of flags store a reference number, so this enum is limited to
	// 8 bits.
	enum {
	PRIORITY_MASK = 0x03, // Low 2 bits of store the priority value.
	SYNC_BIT = 0x04,
	REPLY_BIT = 0x08,
	REPLY_ERROR_BIT = 0x10,
	UNBLOCK_BIT = 0x20,
	PUMPING_MSGS_BIT = 0x40,
	HAS_SENT_TIME_BIT = 0x80,
	};

	~Message() override;

	Message();

	// Initialize a message with a user-defined type, priority value, and
	// destination WebView ID.
	Message(int32_t routing_id, uint32_t type, PriorityValue priority);

	// Initializes a message from a const block of data. The data is not copied;
	// instead the data is merely referenced by this message. Only const methods
	// should be used on the message when initialized this way.
	Message(const char* data, int data_len);

	Message(const Message& other);
	Message& operator=(const Message& other);

	bool IsValid() const { return header_size() == sizeof(Header) && header(); }

	PriorityValue priority() const {
	return static_cast<PriorityValue>(header()->flags & PRIORITY_MASK);
	}

	// True if this is a synchronous message.
	void set_sync() {
	header()->flags \|= SYNC_BIT;
	}
	bool is_sync() const {
	return (header()->flags & SYNC_BIT) != 0;
	}

	// Set this on a reply to a synchronous message.
	void set_reply() {
	header()->flags \|= REPLY_BIT;
	}

	bool is_reply() const {
	return (header()->flags & REPLY_BIT) != 0;
	}

	// Set this on a reply to a synchronous message to indicate that no receiver
	// was found.
	void set_reply_error() {
	header()->flags \|= REPLY_ERROR_BIT;
	}

	bool is_reply_error() const {
	return (header()->flags & REPLY_ERROR_BIT) != 0;
	}

	// Normally when a receiver gets a message and they're blocked on a
	// synchronous message Send, they buffer a message. Setting this flag causes
	// the receiver to be unblocked and the message to be dispatched immediately.
	void set_unblock(bool unblock) {
	if (unblock) {
	header()->flags \|= UNBLOCK_BIT;
	} else {
	header()->flags &= ~UNBLOCK_BIT;
	}
	}

	bool should_unblock() const {
	return (header()->flags & UNBLOCK_BIT) != 0;
	}

	// Tells the receiver that the caller is pumping messages while waiting
	// for the result.
	bool is_caller_pumping_messages() const {
	return (header()->flags & PUMPING_MSGS_BIT) != 0;
	}

	void set_dispatch_error() const {
	dispatch_error_ = true;
	}

	bool dispatch_error() const {
	return dispatch_error_;
	}

	uint32_t type() const {
	return header()->type;
	}

	int32_t routing_id() const {
	return header()->routing;
	}

	void set_routing_id(int32_t new_id) {
	header()->routing = new_id;
	}

	uint32_t flags() const {
	return header()->flags;
	}

	// Sets all the given header values. The message should be empty at this
	// call.
	void SetHeaderValues(int32_t routing, uint32_t type, uint32_t flags);

	template<class T, class S, class P>
	static bool Dispatch(const Message* msg, T* obj, S* sender, P* parameter,
	void (T::*func)()) {
	(obj->*func)();
	return true;
	}

	template<class T, class S, class P>
	static bool Dispatch(const Message* msg, T* obj, S* sender, P* parameter,
	void (T::func)(P)) {
	(obj->*func)(parameter);
	return true;
	}

	// Used for async messages with no parameters.
	static void Log(std::string* name, const Message* msg, std::string* l) {
	}

	// The static method FindNext() returns several pieces of information, which
	// are aggregated into an instance of this struct.
	struct IPC_MESSAGE_SUPPORT_EXPORT NextMessageInfo {
	NextMessageInfo();
	~NextMessageInfo();

	// Total message size. Always valid if \|message_found\| is true.
	// If \|message_found\| is false but we could determine message size
	// from the header, this field is non-zero. Otherwise it's zero.
	size_t message_size;
	// Whether an entire message was found in the given memory range.
	bool message_found;
	// Only filled in if \|message_found\| is true.
	// The start address is passed into FindNext() by the caller, so isn't
	// repeated in this struct. The end address of the pickle should be used to
	// construct a base::Pickle.
	const char* pickle_end;
	// Only filled in if \|message_found\| is true.
	// The end address of the message should be used to determine the start
	// address of the next message.
	const char* message_end;
	};

	// \|info\| is an output parameter and must not be nullptr.
	static void FindNext(const char* range_start,
	const char* range_end,
	NextMessageInfo* info);

	// WriteAttachment appends \|attachment\| to the end of the set. It returns
	// false iff the set is full.
	bool WriteAttachment(
	scoped_refptr<base::Pickle::Attachment> attachment) override;
	// ReadAttachment parses an attachment given the parsing state \|iter\| and
	// writes it to \|*attachment\|. It returns true on success.
	bool ReadAttachment(
	base::PickleIterator* iter,
	scoped_refptr<base::Pickle::Attachment>* attachment) const override;
	// Returns true if there are any attachment in this message.
	bool HasAttachments() const override;

	#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
	// Adds the outgoing time from Time::Now() at the end of the message and sets
	// a bit to indicate that it's been added.
	void set_sent_time(int64_t time);
	int64_t sent_time() const;

	void set_received_time(int64_t time) const;
	int64_t received_time() const { return received_time_; }
	void set_output_params(const std::string& op) const { output_params_ = op; }
	const std::string& output_params() const { return output_params_; }
	// The following four functions are needed so we can log sync messages with
	// delayed replies. We stick the log data from the sent message into the
	// reply message, so that when it's sent and we have the output parameters
	// we can log it. As such, we set a flag on the sent message to not log it.
	void set_sync_log_data(LogData* data) const { log_data_ = data; }
	LogData* sync_log_data() const { return log_data_; }
	void set_dont_log() const { dont_log_ = true; }
	bool dont_log() const { return dont_log_; }
	#endif

	protected:
	friend class Channel;
	friend class ChannelMojo;
	friend class ChannelNacl;
	friend class ChannelPosix;
	friend class ChannelWin;
	friend class internal::ChannelReader;
	friend class MessageReplyDeserializer;
	friend class SyncMessage;

	friend struct mojo::internal::UnmappedNativeStructSerializerImpl;

	#pragma pack(push, 4)
	struct Header : base::Pickle::Header {
	int32_t routing; // ID of the view that this message is destined for
	uint32_t type; // specifies the user-defined message type
	uint32_t flags; // specifies control flags for the message
	#if defined(OS_POSIX) \|\| defined(OS_FUCHSIA)
	uint16_t num_fds; // the number of descriptors included with this message
	uint16_t pad; // explicitly initialize this to appease valgrind
	#endif
	};
	#pragma pack(pop)

	Header* header() {
	return headerT<Header>();
	}
	const Header* header() const {
	return headerT<Header>();
	}

	void Init();

	// Used internally to support IPC::Listener::OnBadMessageReceived.
	mutable bool dispatch_error_;

	// The set of file descriptors associated with this message.
	scoped_refptr<MessageAttachmentSet> attachment_set_;

	// Ensure that a MessageAttachmentSet is allocated
	void EnsureMessageAttachmentSet();

	MessageAttachmentSet* attachment_set() {
	EnsureMessageAttachmentSet();
	return attachment_set_.get();
	}
	const MessageAttachmentSet* attachment_set() const {
	return attachment_set_.get();
	}

	#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
	// Used for logging.
	mutable int64_t received_time_;
	mutable std::string output_params_;
	mutable LogData* log_data_;
	mutable bool dont_log_;
	#endif

	FRIEND_TEST_ALL_PREFIXES(IPCMessageTest, FindNext);
	FRIEND_TEST_ALL_PREFIXES(IPCMessageTest, FindNextOverflow);
	};

	//------------------------------------------------------------------------------

	} // namespace IPC

	enum SpecialRoutingIDs {
	// indicates that we don't have a routing ID yet.
	MSG_ROUTING_NONE = -2,

	// indicates a general message not sent to a particular tab.
	MSG_ROUTING_CONTROL = INT32_MAX,
	};

	#define IPC_REPLY_ID 0xFFFFFFF0 // Special message id for replies
	#define IPC_LOGGING_ID 0xFFFFFFF1 // Special message id for logging

	#endif // IPC_IPC_MESSAGE_H_