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561 lines
27 KiB
561 lines
27 KiB
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Defining IPC Messages
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//
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// Your IPC messages will be defined by macros inside of an XXX_messages.h
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// header file. Most of the time, the system can automatically generate all
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// of messaging mechanism from these definitions, but sometimes some manual
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// coding is required. In these cases, you will also have an XXX_messages.cc
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// implementation file as well.
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//
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// The senders of your messages will include your XXX_messages.h file to
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// get the full set of definitions they need to send your messages.
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//
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// Each XXX_messages.h file must be registered with the IPC system. This
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// requires adding two things:
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// - An XXXMsgStart value to the IPCMessageStart enum in ipc_message_start.h
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// - An inclusion of XXX_messages.h file in a message generator .h file
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//
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// The XXXMsgStart value is an enumeration that ensures uniqueness for
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// each different message file. Later, you will use this inside your
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// XXX_messages.h file before invoking message declaration macros:
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// #define IPC_MESSAGE_START XXXMsgStart
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// ( ... your macro invocations go here ... )
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//
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// Message Generator Files
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//
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// A message generator .h header file pulls in all other message-declaring
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// headers for a given component. It is included by a message generator
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// .cc file, which is where all the generated code will wind up. Typically,
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// you will use an existing generator (e.g. common_message_generator.cc
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// in /chrome/common), but there are circumstances where you may add a
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// new one.
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//
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// In the rare circumstances where you can't re-use an existing file,
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// your YYY_message_generator.cc file for a component YYY would contain
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// the following code:
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// // Get basic type definitions.
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// #define IPC_MESSAGE_IMPL
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// #include "path/to/YYY_message_generator.h"
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// // Generate constructors.
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// #include "ipc/struct_constructor_macros.h"
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// #include "path/to/YYY_message_generator.h"
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// // Generate destructors.
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// #include "ipc/struct_destructor_macros.h"
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// #include "path/to/YYY_message_generator.h"
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// // Generate param traits write methods.
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// #include "ipc/param_traits_write_macros.h"
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// namespace IPC {
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// #include "path/to/YYY_message_generator.h"
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// } // namespace IPC
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// // Generate param traits read methods.
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// #include "ipc/param_traits_read_macros.h"
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// namespace IPC {
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// #include "path/to/YYY_message_generator.h"
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// } // namespace IPC
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// // Generate param traits log methods.
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// #include "ipc/param_traits_log_macros.h"
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// namespace IPC {
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// #include "path/to/YYY_message_generator.h"
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// } // namespace IPC
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//
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// In cases where manual generation is required, in your XXX_messages.cc
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// file, put the following after all the includes for param types:
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// #define IPC_MESSAGE_IMPL
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// #include "XXX_messages.h"
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// (... implementation of traits not auto-generated ...)
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//
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// Multiple Inclusion
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//
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// The XXX_messages.h file will be multiply-included by the
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// YYY_message_generator.cc file, so your XXX_messages file can't be
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// guarded in the usual manner. Ideally, there will be no need for any
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// inclusion guard, since the XXX_messages.h file should consist solely
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// of inclusions of other headers (which are self-guarding) and IPC
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// macros (which are multiply evaluating).
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//
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// Note that #pragma once cannot be used here; doing so would mark the whole
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// file as being singly-included. Since your XXX_messages.h file is only
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// partially-guarded, care must be taken to ensure that it is only included
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// by other .cc files (and the YYY_message_generator.h file). Including an
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// XXX_messages.h file in some other .h file may result in duplicate
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// declarations and a compilation failure.
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//
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// Type Declarations
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//
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// It is generally a bad idea to have type definitions in a XXX_messages.h
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// file; most likely the typedef will then be used in the message, as opposed
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// to the struct itself. Later, an IPC message dispatcher will need to call
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// a function taking that type, and that function is declared in some other
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// header. Thus, in order to get the type definition, the other header
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// would have to include the XXX_messages.h file, violating the rule above
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// about not including XXX_messages.h file in other .h files.
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//
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// One approach here is to move these type definitions to another (guarded)
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// .h file and include this second .h in your XXX_messages.h file. This
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// is still less than ideal, because the dispatched function would have to
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// redeclare the typedef or include this second header. This may be
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// reasonable in a few cases.
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//
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// Failing all of the above, then you will want to bracket the smallest
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// possible section of your XXX_messages.h file containing these types
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// with an include guard macro. Be aware that providing an incomplete
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// class type declaration to avoid pulling in a long chain of headers is
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// acceptable when your XXX_messages.h header is being included by the
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// message sending caller's code, but not when the YYY_message_generator.c
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// is building the messages. In addition, due to the multiple inclusion
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// restriction, these type ought to be guarded. Follow a convention like:
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// #ifndef SOME_GUARD_MACRO
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// #define SOME_GUARD_MACRO
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// class some_class; // One incomplete class declaration
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// class_some_other_class; // Another incomplete class declaration
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// #endif // SOME_GUARD_MACRO
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// #ifdef IPC_MESSAGE_IMPL
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// #include "path/to/some_class.h" // Full class declaration
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// #include "path/to/some_other_class.h" // Full class declaration
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// #endif // IPC_MESSAGE_IMPL
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// (.. IPC macros using some_class and some_other_class ...)
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//
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// Macro Invocations
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//
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// You will use IPC message macro invocations for three things:
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// - New struct definitions for IPC
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// - Registering existing struct and enum definitions with IPC
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// - Defining the messages themselves
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//
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// New structs are defined with IPC_STRUCT_BEGIN(), IPC_STRUCT_MEMBER(),
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// IPC_STRUCT_END() family of macros. These cause the XXX_messages.h
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// to proclaim equivalent struct declarations for use by callers, as well
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// as later registering the type with the message generation. Note that
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// IPC_STRUCT_MEMBER() is only permitted inside matching calls to
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// IPC_STRUCT_BEGIN() / IPC_STRUCT_END(). There is also an
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// IPC_STRUCT_BEGIN_WITH_PARENT(), which behaves like IPC_STRUCT_BEGIN(),
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// but also accommodates structs that inherit from other structs.
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//
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// Externally-defined structs are registered with IPC_STRUCT_TRAITS_BEGIN(),
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// IPC_STRUCT_TRAITS_MEMBER(), and IPC_STRUCT_TRAITS_END() macros. These
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// cause registration of the types with message generation only.
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// There's also IPC_STRUCT_TRAITS_PARENT, which is used to register a parent
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// class (whose own traits are already defined). Note that
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// IPC_STRUCT_TRAITS_MEMBER() and IPC_STRUCT_TRAITS_PARENT are only permitted
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// inside matching calls to IPC_STRUCT_TRAITS_BEGIN() /
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// IPC_STRUCT_TRAITS_END().
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//
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// Enum types are registered with a single IPC_ENUM_TRAITS_VALIDATE() macro.
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// There is no need to enumerate each value to the IPC mechanism. Instead,
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// pass an expression in terms of the parameter |value| to provide
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// range-checking. For convenience, the IPC_ENUM_TRAITS() is provided which
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// performs no checking, passing everything including out-of-range values.
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// Its use is discouraged. The IPC_ENUM_TRAITS_MAX_VALUE() macro can be used
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// for the typical case where the enum must be in the range 0..maxvalue
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// inclusive. The IPC_ENUM_TRAITS_MIN_MAX_VALUE() macro can be used for the
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// less typical case where the enum must be in the range minvalue..maxvalue
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// inclusive.
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//
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// Do not place semicolons following these IPC_ macro invocations. There
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// is no reason to expect that their expansion corresponds one-to-one with
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// C++ statements.
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//
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// Once the types have been declared / registered, message definitions follow.
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// "Sync" messages are just synchronous calls, the Send() call doesn't return
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// until a reply comes back. To declare a sync message, use the IPC_SYNC_
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// macros. The numbers at the end show how many input/output parameters there
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// are (i.e. 1_2 is 1 in, 2 out). Input parameters are first, followed by
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// output parameters. The caller uses Send([route id, ], in1, &out1, &out2).
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// The receiver's handler function will be
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// void OnSyncMessageName(const type1& in1, type2* out1, type3* out2)
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//
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// A caller can also send a synchronous message, while the receiver can respond
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// at a later time. This is transparent from the sender's side. The receiver
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// needs to use a different handler that takes in a IPC::Message* as the output
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// type, stash the message, and when it has the data it can Send the message.
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//
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// Use the IPC_MESSAGE_HANDLER_DELAY_REPLY macro instead of IPC_MESSAGE_HANDLER
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// IPC_MESSAGE_HANDLER_DELAY_REPLY(ViewHostMsg_SyncMessageName,
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// OnSyncMessageName)
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// Unlike IPC_MESSAGE_HANDLER which works with IPC_BEGIN_MESSAGE_MAP as well as
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// IPC_BEGIN_MESSAGE_MAP_WITH_PARAM, one needs to use
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// IPC_MESSAGE_HANDLER_WITH_PARAM_DELAY_REPLY to properly handle the param.
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//
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// The handler function will look like:
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// void OnSyncMessageName(const type1& in1, IPC::Message* reply_msg);
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//
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// Receiver stashes the IPC::Message* pointer, and when it's ready, it does:
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// ViewHostMsg_SyncMessageName::WriteReplyParams(reply_msg, out1, out2);
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// Send(reply_msg);
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// Files that want to export their ipc messages should do
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// #undef IPC_MESSAGE_EXPORT
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// #define IPC_MESSAGE_EXPORT VISIBILITY_MACRO
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// after including this header, but before using any of the macros below.
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// (This needs to be before the include guard.)
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#undef IPC_MESSAGE_EXPORT
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#define IPC_MESSAGE_EXPORT
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#ifndef IPC_IPC_MESSAGE_MACROS_H_
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#define IPC_IPC_MESSAGE_MACROS_H_
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#include <stdint.h>
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#include <tuple>
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#include "base/export_template.h"
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#include "ipc/ipc_message_templates.h"
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#include "ipc/ipc_message_utils.h"
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#include "ipc/param_traits_macros.h"
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// Convenience macro for defining structs without inheritance. Should not need
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// to be subsequently redefined.
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#define IPC_STRUCT_BEGIN(struct_name) \
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IPC_STRUCT_BEGIN_WITH_PARENT(struct_name, IPC::NoParams)
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// Macros for defining structs. Will be subsequently redefined.
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#define IPC_STRUCT_BEGIN_WITH_PARENT(struct_name, parent) \
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struct struct_name; \
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IPC_STRUCT_TRAITS_BEGIN(struct_name) \
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IPC_STRUCT_TRAITS_END() \
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struct IPC_MESSAGE_EXPORT struct_name : parent { \
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struct_name(); \
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struct_name(const struct_name&) = default; \
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struct_name(struct_name&&) = default; \
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struct_name& operator=(const struct_name&) = default; \
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struct_name& operator=(struct_name&&) = default; \
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~struct_name();
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// Optional variadic parameters specify the default value for this struct
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// member. They are passed through to the constructor for |type|.
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#define IPC_STRUCT_MEMBER(type, name, ...) type name;
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#define IPC_STRUCT_END() };
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// Message macros collect arguments and funnel them into the common message
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// generation macro. These should never be redefined.
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// Asynchronous messages have only in parameters and are declared like:
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// IPC_MESSAGE_CONTROL(FooMsg, int, float)
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#define IPC_MESSAGE_CONTROL(msg_class, ...) \
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IPC_MESSAGE_DECL(msg_class, CONTROL, IPC_TUPLE(__VA_ARGS__), void)
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#define IPC_MESSAGE_ROUTED(msg_class, ...) \
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IPC_MESSAGE_DECL(msg_class, ROUTED, IPC_TUPLE(__VA_ARGS__), void)
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// Synchronous messages have both in and out parameters, so the lists need to
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// be parenthesized to disambiguate:
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// IPC_SYNC_MESSAGE_CONTROL(BarMsg, (int, int), (bool))
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//
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// Implementation detail: The parentheses supplied by the caller for
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// disambiguation are also used to trigger the IPC_TUPLE invocations below,
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// so "IPC_TUPLE in" and "IPC_TUPLE out" are intentional.
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#define IPC_SYNC_MESSAGE_CONTROL(msg_class, in, out) \
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IPC_MESSAGE_DECL(msg_class, CONTROL, IPC_TUPLE in, IPC_TUPLE out)
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#define IPC_SYNC_MESSAGE_ROUTED(msg_class, in, out) \
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IPC_MESSAGE_DECL(msg_class, ROUTED, IPC_TUPLE in, IPC_TUPLE out)
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#define IPC_TUPLE(...) IPC::CheckedTuple<__VA_ARGS__>::Tuple
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#define IPC_MESSAGE_DECL(msg_name, kind, in_tuple, out_tuple) \
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struct IPC_MESSAGE_EXPORT msg_name##_Meta { \
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using InTuple = in_tuple; \
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using OutTuple = out_tuple; \
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enum { ID = IPC_MESSAGE_ID() }; \
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static const IPC::MessageKind kKind = IPC::MessageKind::kind; \
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static const char kName[]; \
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}; \
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extern template class EXPORT_TEMPLATE_DECLARE(IPC_MESSAGE_EXPORT) \
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IPC::MessageT<msg_name##_Meta>; \
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using msg_name = IPC::MessageT<msg_name##_Meta>; \
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IPC_MESSAGE_EXTRA(msg_name)
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#if defined(IPC_MESSAGE_IMPL)
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// "Implementation" inclusion provides the explicit template definition
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// for msg_name.
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#define IPC_MESSAGE_EXTRA(msg_name) \
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const char msg_name##_Meta::kName[] = #msg_name; \
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IPC_MESSAGE_DEFINE_KIND(msg_name) \
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template class EXPORT_TEMPLATE_DEFINE(IPC_MESSAGE_EXPORT) \
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IPC::MessageT<msg_name##_Meta>;
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// MSVC has an intentionally non-compliant "feature" that results in LNK2005
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// ("symbol already defined") errors if we provide an out-of-line definition
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// for kKind. Microsoft's official response is to test for _MSC_EXTENSIONS:
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// https://connect.microsoft.com/VisualStudio/feedback/details/786583/
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#if defined(_MSC_EXTENSIONS)
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#define IPC_MESSAGE_DEFINE_KIND(msg_name)
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#else
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#define IPC_MESSAGE_DEFINE_KIND(msg_name) \
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const IPC::MessageKind msg_name##_Meta::kKind;
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#endif
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#elif defined(IPC_MESSAGE_MACROS_LOG_ENABLED)
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#ifndef IPC_LOG_TABLE_ADD_ENTRY
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#error You need to define IPC_LOG_TABLE_ADD_ENTRY(msg_id, logger)
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#endif
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// "Log table" inclusion produces extra logging registration code.
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#define IPC_MESSAGE_EXTRA(msg_name) \
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class LoggerRegisterHelper##msg_name { \
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public: \
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LoggerRegisterHelper##msg_name() { \
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const uint32_t msg_id = static_cast<uint32_t>(msg_name::ID); \
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IPC_LOG_TABLE_ADD_ENTRY(msg_id, msg_name::Log); \
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} \
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}; \
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LoggerRegisterHelper##msg_name g_LoggerRegisterHelper##msg_name;
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#else
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// Normal inclusion produces nothing extra.
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#define IPC_MESSAGE_EXTRA(msg_name)
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#endif // defined(IPC_MESSAGE_IMPL)
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// Message IDs
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// Note: we currently use __LINE__ to give unique IDs to messages within
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// a file. They're globally unique since each file defines its own
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// IPC_MESSAGE_START.
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#define IPC_MESSAGE_ID() ((IPC_MESSAGE_START << 16) + __LINE__)
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#define IPC_MESSAGE_ID_CLASS(id) ((id) >> 16)
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#define IPC_MESSAGE_ID_LINE(id) ((id) & 0xffff)
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// Message crackers and handlers. Usage:
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//
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// bool MyClass::OnMessageReceived(const IPC::Message& msg) {
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// bool handled = true;
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// IPC_BEGIN_MESSAGE_MAP(MyClass, msg)
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// IPC_MESSAGE_HANDLER(MsgClassOne, OnMsgClassOne)
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// ...more handlers here ...
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// IPC_MESSAGE_HANDLER(MsgClassTen, OnMsgClassTen)
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// IPC_MESSAGE_UNHANDLED(handled = false)
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// IPC_END_MESSAGE_MAP()
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// return handled;
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// }
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#define IPC_BEGIN_MESSAGE_MAP(class_name, msg) \
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{ \
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typedef class_name _IpcMessageHandlerClass ALLOW_UNUSED_TYPE; \
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void* param__ = NULL; \
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(void)param__; \
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const IPC::Message& ipc_message__ = msg; \
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switch (ipc_message__.type()) {
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#define IPC_BEGIN_MESSAGE_MAP_WITH_PARAM(class_name, msg, param) \
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{ \
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typedef class_name _IpcMessageHandlerClass ALLOW_UNUSED_TYPE; \
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decltype(param) param__ = param; \
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const IPC::Message& ipc_message__ = msg; \
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switch (ipc_message__.type()) {
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#define IPC_MESSAGE_FORWARD(msg_class, obj, member_func) \
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case msg_class::ID: { \
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if (!msg_class::Dispatch(&ipc_message__, obj, this, param__, \
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&member_func)) \
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ipc_message__.set_dispatch_error(); \
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} \
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break;
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#define IPC_MESSAGE_HANDLER(msg_class, member_func) \
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IPC_MESSAGE_FORWARD(msg_class, this, _IpcMessageHandlerClass::member_func)
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#define IPC_MESSAGE_FORWARD_DELAY_REPLY(msg_class, obj, member_func) \
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case msg_class::ID: { \
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if (!msg_class::DispatchDelayReply(&ipc_message__, obj, param__, \
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&member_func)) \
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ipc_message__.set_dispatch_error(); \
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} \
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break;
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#define IPC_MESSAGE_HANDLER_DELAY_REPLY(msg_class, member_func) \
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IPC_MESSAGE_FORWARD_DELAY_REPLY(msg_class, this, \
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_IpcMessageHandlerClass::member_func)
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#define IPC_MESSAGE_FORWARD_WITH_PARAM_DELAY_REPLY(msg_class, obj, \
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member_func) \
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case msg_class::ID: { \
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if (!msg_class::DispatchWithParamDelayReply(&ipc_message__, obj, param__, \
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&member_func)) \
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ipc_message__.set_dispatch_error(); \
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} \
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break;
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#define IPC_MESSAGE_HANDLER_WITH_PARAM_DELAY_REPLY(msg_class, member_func) \
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IPC_MESSAGE_FORWARD_WITH_PARAM_DELAY_REPLY( \
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msg_class, this, _IpcMessageHandlerClass::member_func)
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#define IPC_MESSAGE_HANDLER_GENERIC(msg_class, code) \
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case msg_class::ID: { \
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code; \
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} \
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break;
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#define IPC_REPLY_HANDLER(func) \
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case IPC_REPLY_ID: { \
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func(ipc_message__); \
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} \
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break;
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#define IPC_MESSAGE_UNHANDLED(code) \
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default: { \
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code; \
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} \
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break;
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#define IPC_MESSAGE_UNHANDLED_ERROR() \
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IPC_MESSAGE_UNHANDLED(NOTREACHED() << \
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"Invalid message with type = " << \
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ipc_message__.type())
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#define IPC_END_MESSAGE_MAP() \
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} \
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}
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// This corresponds to an enum value from IPCMessageStart.
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#define IPC_MESSAGE_CLASS(message) IPC_MESSAGE_ID_CLASS((message).type())
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// Deprecated legacy macro names.
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// TODO(mdempsky): Replace uses with generic names.
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#define IPC_MESSAGE_CONTROL0(msg) IPC_MESSAGE_CONTROL(msg)
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#define IPC_MESSAGE_CONTROL1(msg, a) IPC_MESSAGE_CONTROL(msg, a)
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#define IPC_MESSAGE_CONTROL2(msg, a, b) IPC_MESSAGE_CONTROL(msg, a, b)
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#define IPC_MESSAGE_CONTROL3(msg, a, b, c) IPC_MESSAGE_CONTROL(msg, a, b, c)
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#define IPC_MESSAGE_CONTROL4(msg, a, b, c, d) \
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IPC_MESSAGE_CONTROL(msg, a, b, c, d)
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#define IPC_MESSAGE_CONTROL5(msg, a, b, c, d, e) \
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IPC_MESSAGE_CONTROL(msg, a, b, c, d, e)
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#define IPC_MESSAGE_ROUTED0(msg) IPC_MESSAGE_ROUTED(msg)
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#define IPC_MESSAGE_ROUTED1(msg, a) IPC_MESSAGE_ROUTED(msg, a)
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#define IPC_MESSAGE_ROUTED2(msg, a, b) IPC_MESSAGE_ROUTED(msg, a, b)
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#define IPC_MESSAGE_ROUTED3(msg, a, b, c) IPC_MESSAGE_ROUTED(msg, a, b, c)
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#define IPC_MESSAGE_ROUTED4(msg, a, b, c, d) IPC_MESSAGE_ROUTED(msg, a, b, c, d)
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#define IPC_MESSAGE_ROUTED5(msg, a, b, c, d, e) \
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IPC_MESSAGE_ROUTED(msg, a, b, c, d, e)
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#define IPC_SYNC_MESSAGE_CONTROL0_0(msg) IPC_SYNC_MESSAGE_CONTROL(msg, (), ())
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#define IPC_SYNC_MESSAGE_CONTROL0_1(msg, a) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (), (a))
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#define IPC_SYNC_MESSAGE_CONTROL0_2(msg, a, b) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (), (a, b))
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#define IPC_SYNC_MESSAGE_CONTROL0_3(msg, a, b, c) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (), (a, b, c))
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#define IPC_SYNC_MESSAGE_CONTROL0_4(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (), (a, b, c, d))
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#define IPC_SYNC_MESSAGE_CONTROL1_0(msg, a) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a), ())
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#define IPC_SYNC_MESSAGE_CONTROL1_1(msg, a, b) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a), (b))
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#define IPC_SYNC_MESSAGE_CONTROL1_2(msg, a, b, c) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a), (b, c))
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#define IPC_SYNC_MESSAGE_CONTROL1_3(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a), (b, c, d))
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#define IPC_SYNC_MESSAGE_CONTROL1_4(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a), (b, c, d, e))
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#define IPC_SYNC_MESSAGE_CONTROL2_0(msg, a, b) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b), ())
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#define IPC_SYNC_MESSAGE_CONTROL2_1(msg, a, b, c) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b), (c))
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#define IPC_SYNC_MESSAGE_CONTROL2_2(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b), (c, d))
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#define IPC_SYNC_MESSAGE_CONTROL2_3(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b), (c, d, e))
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#define IPC_SYNC_MESSAGE_CONTROL2_4(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b), (c, d, e, f))
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#define IPC_SYNC_MESSAGE_CONTROL3_0(msg, a, b, c) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c), ())
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#define IPC_SYNC_MESSAGE_CONTROL3_1(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c), (d))
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#define IPC_SYNC_MESSAGE_CONTROL3_2(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c), (d, e))
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#define IPC_SYNC_MESSAGE_CONTROL3_3(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c), (d, e, f))
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#define IPC_SYNC_MESSAGE_CONTROL3_4(msg, a, b, c, d, e, f, g) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c), (d, e, f, g))
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#define IPC_SYNC_MESSAGE_CONTROL4_0(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d), ())
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#define IPC_SYNC_MESSAGE_CONTROL4_1(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d), (e))
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#define IPC_SYNC_MESSAGE_CONTROL4_2(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d), (e, f))
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#define IPC_SYNC_MESSAGE_CONTROL4_3(msg, a, b, c, d, e, f, g) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d), (e, f, g))
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#define IPC_SYNC_MESSAGE_CONTROL4_4(msg, a, b, c, d, e, f, g, h) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d), (e, f, g, h))
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#define IPC_SYNC_MESSAGE_CONTROL5_0(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d, e), ())
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#define IPC_SYNC_MESSAGE_CONTROL5_1(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d, e), (f))
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#define IPC_SYNC_MESSAGE_CONTROL5_2(msg, a, b, c, d, e, f, g) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d, e), (f, g))
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#define IPC_SYNC_MESSAGE_CONTROL5_3(msg, a, b, c, d, e, f, g, h) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d, e), (f, g, h))
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#define IPC_SYNC_MESSAGE_CONTROL5_4(msg, a, b, c, d, e, f, g, h, i) \
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IPC_SYNC_MESSAGE_CONTROL(msg, (a, b, c, d, e), (f, g, h, i))
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#define IPC_SYNC_MESSAGE_ROUTED0_0(msg) IPC_SYNC_MESSAGE_ROUTED(msg, (), ())
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#define IPC_SYNC_MESSAGE_ROUTED0_1(msg, a) IPC_SYNC_MESSAGE_ROUTED(msg, (), (a))
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#define IPC_SYNC_MESSAGE_ROUTED0_2(msg, a, b) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (), (a, b))
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#define IPC_SYNC_MESSAGE_ROUTED0_3(msg, a, b, c) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (), (a, b, c))
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#define IPC_SYNC_MESSAGE_ROUTED0_4(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (), (a, b, c, d))
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#define IPC_SYNC_MESSAGE_ROUTED1_0(msg, a) IPC_SYNC_MESSAGE_ROUTED(msg, (a), ())
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#define IPC_SYNC_MESSAGE_ROUTED1_1(msg, a, b) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a), (b))
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#define IPC_SYNC_MESSAGE_ROUTED1_2(msg, a, b, c) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a), (b, c))
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#define IPC_SYNC_MESSAGE_ROUTED1_3(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a), (b, c, d))
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#define IPC_SYNC_MESSAGE_ROUTED1_4(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a), (b, c, d, e))
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#define IPC_SYNC_MESSAGE_ROUTED2_0(msg, a, b) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b), ())
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#define IPC_SYNC_MESSAGE_ROUTED2_1(msg, a, b, c) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b), (c))
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#define IPC_SYNC_MESSAGE_ROUTED2_2(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b), (c, d))
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#define IPC_SYNC_MESSAGE_ROUTED2_3(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b), (c, d, e))
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#define IPC_SYNC_MESSAGE_ROUTED2_4(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b), (c, d, e, f))
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#define IPC_SYNC_MESSAGE_ROUTED3_0(msg, a, b, c) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c), ())
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#define IPC_SYNC_MESSAGE_ROUTED3_1(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c), (d))
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#define IPC_SYNC_MESSAGE_ROUTED3_2(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c), (d, e))
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#define IPC_SYNC_MESSAGE_ROUTED3_3(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c), (d, e, f))
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#define IPC_SYNC_MESSAGE_ROUTED3_4(msg, a, b, c, d, e, f, g) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c), (d, e, f, g))
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#define IPC_SYNC_MESSAGE_ROUTED4_0(msg, a, b, c, d) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d), ())
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#define IPC_SYNC_MESSAGE_ROUTED4_1(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d), (e))
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#define IPC_SYNC_MESSAGE_ROUTED4_2(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d), (e, f))
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#define IPC_SYNC_MESSAGE_ROUTED4_3(msg, a, b, c, d, e, f, g) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d), (e, f, g))
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#define IPC_SYNC_MESSAGE_ROUTED4_4(msg, a, b, c, d, e, f, g, h) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d), (e, f, g, h))
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#define IPC_SYNC_MESSAGE_ROUTED5_0(msg, a, b, c, d, e) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d, e), ())
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#define IPC_SYNC_MESSAGE_ROUTED5_1(msg, a, b, c, d, e, f) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d, e), (f))
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#define IPC_SYNC_MESSAGE_ROUTED5_2(msg, a, b, c, d, e, f, g) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d, e), (f, g))
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#define IPC_SYNC_MESSAGE_ROUTED5_3(msg, a, b, c, d, e, f, g, h) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d, e), (f, g, h))
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#define IPC_SYNC_MESSAGE_ROUTED5_4(msg, a, b, c, d, e, f, g, h, i) \
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IPC_SYNC_MESSAGE_ROUTED(msg, (a, b, c, d, e), (f, g, h, i))
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#endif // IPC_IPC_MESSAGE_MACROS_H_
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// Clean up IPC_MESSAGE_START in this unguarded section so that the
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// XXX_messages.h files need not do so themselves. This makes the
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// XXX_messages.h files easier to write.
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#undef IPC_MESSAGE_START
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