gecko-dev/ipc/glue/RPCChannel.h

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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: sw=4 ts=4 et :
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla Plugin App.
*
* The Initial Developer of the Original Code is
* Chris Jones <jones.chris.g@gmail.com>
* Portions created by the Initial Developer are Copyright (C) 2009
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#ifndef ipc_glue_RPCChannel_h
#define ipc_glue_RPCChannel_h 1
// FIXME/cjones probably shouldn't depend on STL
#include <queue>
#include <stack>
#include "mozilla/ipc/SyncChannel.h"
#include "nsAutoPtr.h"
namespace mozilla {
namespace ipc {
//-----------------------------------------------------------------------------
class RPCChannel : public SyncChannel
{
friend class CxxStackFrame;
public:
// What happens if RPC calls race?
enum RacyRPCPolicy {
RRPError,
RRPChildWins,
RRPParentWins
};
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class /*NS_INTERFACE_CLASS*/ RPCListener :
public SyncChannel::SyncListener
{
public:
virtual ~RPCListener() { }
virtual void OnChannelClose() = 0;
virtual void OnChannelError() = 0;
virtual Result OnMessageReceived(const Message& aMessage) = 0;
virtual bool OnReplyTimeout() = 0;
virtual Result OnMessageReceived(const Message& aMessage,
Message*& aReply) = 0;
virtual Result OnCallReceived(const Message& aMessage,
Message*& aReply) = 0;
virtual void OnEnteredCxxStack()
{
NS_RUNTIMEABORT("default impl shouldn't be invoked");
}
virtual void OnExitedCxxStack()
{
NS_RUNTIMEABORT("default impl shouldn't be invoked");
}
virtual RacyRPCPolicy MediateRPCRace(const Message& parent,
const Message& child)
{
return RRPChildWins;
}
};
RPCChannel(RPCListener* aListener);
virtual ~RPCChannel();
NS_OVERRIDE
void Clear();
// Make an RPC to the other side of the channel
bool Call(Message* msg, Message* reply);
// RPCChannel overrides these so that the async and sync messages
// can be counted against mStackFrames
NS_OVERRIDE
virtual bool Send(Message* msg);
NS_OVERRIDE
virtual bool Send(Message* msg, Message* reply);
// Asynchronously, send the child a message that puts it in such a
// state that it can't send messages to the parent unless the
// parent sends a message to it first. The child stays in this
// state until the parent calls |UnblockChild()|.
//
// It is an error to
// - call this on the child side of the channel.
// - nest |BlockChild()| calls
// - call this when the child is already blocked on a sync or RPC
// in-/out- message/call
//
// Return true iff successful.
bool BlockChild();
// Asynchronously undo |BlockChild()|.
//
// It is an error to
// - call this on the child side of the channel
// - call this without a matching |BlockChild()|
//
// Return true iff successful.
bool UnblockChild();
NS_OVERRIDE
virtual bool OnSpecialMessage(uint16 id, const Message& msg);
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// Override the SyncChannel handler so we can dispatch RPC
// messages. Called on the IO thread only.
NS_OVERRIDE
virtual void OnMessageReceived(const Message& msg);
NS_OVERRIDE
virtual void OnChannelError();
#ifdef OS_WIN
static bool IsSpinLoopActive() {
return (sInnerEventLoopDepth > 0);
}
protected:
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bool WaitForNotify();
bool IsMessagePending();
bool SpinInternalEventLoop();
static void EnterModalLoop() {
sInnerEventLoopDepth++;
}
static void ExitModalLoop() {
sInnerEventLoopDepth--;
NS_ASSERTION(sInnerEventLoopDepth >= 0,
"sInnerEventLoopDepth dropped below zero!");
}
static int sInnerEventLoopDepth;
#endif
private:
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// Called on worker thread only
RPCListener* Listener() const {
return static_cast<RPCListener*>(mListener);
}
bool EventOccurred();
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void MaybeProcessDeferredIncall();
void EnqueuePendingMessages();
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void OnMaybeDequeueOne();
void Incall(const Message& call, size_t stackDepth);
void DispatchIncall(const Message& call);
void BlockOnParent();
void UnblockFromParent();
// This helper class managed RPCChannel.mCxxStackDepth on behalf
// of RPCChannel. When the stack depth is incremented from zero
// to non-zero, it invokes an RPCChannel callback, and similarly
// for when the depth goes from non-zero to zero;
void EnteredCxxStack()
{
Listener()->OnEnteredCxxStack();
}
void ExitedCxxStack()
{
Listener()->OnExitedCxxStack();
}
class NS_STACK_CLASS CxxStackFrame
{
public:
CxxStackFrame(RPCChannel& that) : mThat(that) {
NS_ABORT_IF_FALSE(0 <= mThat.mCxxStackFrames,
"mismatched CxxStackFrame ctor/dtor");
mThat.AssertWorkerThread();
if (0 == mThat.mCxxStackFrames++)
mThat.EnteredCxxStack();
}
~CxxStackFrame() {
bool exitingStack = (0 == --mThat.mCxxStackFrames);
// mListener could have gone away if Close() was called while
// RPCChannel code was still on the stack
if (!mThat.mListener)
return;
mThat.AssertWorkerThread();
if (exitingStack)
mThat.ExitedCxxStack();
}
private:
RPCChannel& mThat;
// disable harmful methods
CxxStackFrame();
CxxStackFrame(const CxxStackFrame&);
CxxStackFrame& operator=(const CxxStackFrame&);
};
// Called from both threads
size_t StackDepth() {
mMutex.AssertCurrentThreadOwns();
return mStack.size();
}
void DebugAbort(const char* file, int line, const char* cond,
const char* why,
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const char* type="rpc", bool reply=false);
//
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// Queue of all incoming messages, except for replies to sync
// messages, which are delivered directly to the SyncChannel
// through its mRecvd member.
//
// If both this side and the other side are functioning correctly,
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// the queue can only be in certain configurations. Let
//
// |A<| be an async in-message,
// |S<| be a sync in-message,
// |C<| be an RPC in-call,
// |R<| be an RPC reply.
//
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// The queue can only match this configuration
//
// A<* (S< | C< | R< (?{mStack.size() == 1} A<* (S< | C<)))
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//
// The other side can send as many async messages |A<*| as it
// wants before sending us a blocking message.
//
// The first case is |S<|, a sync in-msg. The other side must be
// blocked, and thus can't send us any more messages until we
// process the sync in-msg.
//
// The second case is |C<|, an RPC in-call; the other side must be
// blocked. (There's a subtlety here: this in-call might have
// raced with an out-call, but we detect that with the mechanism
// below, |mRemoteStackDepth|, and races don't matter to the
// queue.)
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//
// Final case, the other side replied to our most recent out-call
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// |R<|. If that was the *only* out-call on our stack,
// |?{mStack.size() == 1}|, then other side "finished with us,"
// and went back to its own business. That business might have
// included sending any number of async message |A<*| until
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// sending a blocking message |(S< | C<)|. If we had more than
// one RPC call on our stack, the other side *better* not have
// sent us another blocking message, because it's blocked on a
// reply from us.
//
std::queue<Message> mPending;
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//
// Stack of all the RPC out-calls on which this RPCChannel is
// awaiting a response.
//
std::stack<Message> mStack;
//
// Map of replies received "out of turn", because of RPC
// in-calls racing with replies to outstanding in-calls. See
// https://bugzilla.mozilla.org/show_bug.cgi?id=521929.
//
typedef std::map<size_t, Message> MessageMap;
MessageMap mOutOfTurnReplies;
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//
// Stack of RPC in-calls that were deferred because of race
// conditions.
//
std::stack<Message> mDeferred;
//
// This is what we think the RPC stack depth is on the "other
// side" of this RPC channel. We maintain this variable so that
// we can detect racy RPC calls. With each RPC out-call sent, we
// send along what *we* think the stack depth of the remote side
// is *before* it will receive the RPC call.
//
// After sending the out-call, our stack depth is "incremented"
// by pushing that pending message onto mPending.
//
// Then when processing an in-call |c|, it must be true that
//
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// mStack.size() == c.remoteDepth
//
// i.e., my depth is actually the same as what the other side
// thought it was when it sent in-call |c|. If this fails to
// hold, we have detected racy RPC calls.
//
// We then increment mRemoteStackDepth *just before* processing
// the in-call, since we know the other side is waiting on it, and
// decrement it *just after* finishing processing that in-call,
// since our response will pop the top of the other side's
// |mPending|.
//
// One nice aspect of this race detection is that it is symmetric;
// if one side detects a race, then the other side must also
// detect the same race.
//
size_t mRemoteStackDepthGuess;
// True iff the parent has put us in a |BlockChild()| state.
bool mBlockedOnParent;
// Approximation of number of Sync/RPCChannel-code frames on the
// C++ stack. It can only be interpreted as the implication
//
// mCxxStackDepth > 0 => RPCChannel code on C++ stack
//
// This member is only accessed on the worker thread, and so is
// not protected by mMutex. It is managed exclusively by the
// helper |class CxxStackFrame|.
int mCxxStackFrames;
private:
//
// All dequeuing tasks require a single point of cancellation,
// which is handled via a reference-counted task.
//
class RefCountedTask
{
public:
RefCountedTask(CancelableTask* aTask)
: mTask(aTask)
, mRefCnt(0) {}
~RefCountedTask() { delete mTask; }
void Run() { mTask->Run(); }
void Cancel() { mTask->Cancel(); }
void AddRef() { ++mRefCnt; }
void Release() {
if (--mRefCnt == 0)
delete this;
}
private:
CancelableTask* mTask;
nsrefcnt mRefCnt;
};
//
// Wrap an existing task which can be cancelled at any time
// without the wrapper's knowledge.
//
class DequeueTask : public Task
{
public:
DequeueTask(RefCountedTask* aTask) : mTask(aTask) {}
void Run() { mTask->Run(); }
private:
nsRefPtr<RefCountedTask> mTask;
};
// A task encapsulating dequeuing one pending task
nsRefPtr<RefCountedTask> mDequeueOneTask;
};
} // namespace ipc
} // namespace mozilla
#endif // ifndef ipc_glue_RPCChannel_h