mirror of
https://github.com/mozilla/gecko-dev.git
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384 lines
9.6 KiB
C++
384 lines
9.6 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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* vim: sw=4 ts=4 et :
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*/
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "mozilla/ipc/MessageLink.h"
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#include "mozilla/ipc/MessageChannel.h"
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#include "mozilla/ipc/BrowserProcessSubThread.h"
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#include "mozilla/ipc/ProtocolUtils.h"
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#ifdef MOZ_NUWA_PROCESS
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#include "ipc/Nuwa.h"
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#include "mozilla/Preferences.h"
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#endif
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#include "nsDebug.h"
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#include "nsISupportsImpl.h"
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#include "nsXULAppAPI.h"
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using namespace mozilla;
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using namespace std;
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template<>
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struct RunnableMethodTraits<mozilla::ipc::ProcessLink>
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{
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static void RetainCallee(mozilla::ipc::ProcessLink* obj) { }
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static void ReleaseCallee(mozilla::ipc::ProcessLink* obj) { }
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};
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// We rely on invariants about the lifetime of the transport:
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//
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// - outlives this MessageChannel
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// - deleted on the IO thread
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//
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// These invariants allow us to send messages directly through the
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// transport without having to worry about orphaned Send() tasks on
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// the IO thread touching MessageChannel memory after it's been deleted
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// on the worker thread. We also don't need to refcount the
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// Transport, because whatever task triggers its deletion only runs on
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// the IO thread, and only runs after this MessageChannel is done with
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// the Transport.
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template<>
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struct RunnableMethodTraits<mozilla::ipc::MessageChannel::Transport>
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{
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static void RetainCallee(mozilla::ipc::MessageChannel::Transport* obj) { }
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static void ReleaseCallee(mozilla::ipc::MessageChannel::Transport* obj) { }
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};
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namespace mozilla {
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namespace ipc {
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MessageLink::MessageLink(MessageChannel *aChan)
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: mChan(aChan)
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{
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}
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MessageLink::~MessageLink()
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{
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mChan = nullptr;
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}
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ProcessLink::ProcessLink(MessageChannel *aChan)
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: MessageLink(aChan),
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mExistingListener(nullptr)
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{
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}
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ProcessLink::~ProcessLink()
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{
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mIOLoop = 0;
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if (mTransport) {
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mTransport->set_listener(0);
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// we only hold a weak ref to the transport, which is "owned"
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// by GeckoChildProcess/GeckoThread
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mTransport = 0;
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}
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}
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void
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ProcessLink::Open(mozilla::ipc::Transport* aTransport, MessageLoop *aIOLoop, Side aSide)
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{
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NS_PRECONDITION(aTransport, "need transport layer");
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// FIXME need to check for valid channel
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mTransport = aTransport;
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// FIXME figure out whether we're in parent or child, grab IO loop
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// appropriately
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bool needOpen = true;
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if(aIOLoop) {
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// We're a child or using the new arguments. Either way, we
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// need an open.
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needOpen = true;
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mChan->mSide = (aSide == UnknownSide) ? ChildSide : aSide;
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} else {
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NS_PRECONDITION(aSide == UnknownSide, "expected default side arg");
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// parent
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mChan->mSide = ParentSide;
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needOpen = false;
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aIOLoop = XRE_GetIOMessageLoop();
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}
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mIOLoop = aIOLoop;
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NS_ASSERTION(mIOLoop, "need an IO loop");
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NS_ASSERTION(mChan->mWorkerLoop, "need a worker loop");
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{
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MonitorAutoLock lock(*mChan->mMonitor);
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if (needOpen) {
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// Transport::Connect() has not been called. Call it so
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// we start polling our pipe and processing outgoing
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// messages.
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mIOLoop->PostTask(
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FROM_HERE,
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NewRunnableMethod(this, &ProcessLink::OnChannelOpened));
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} else {
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// Transport::Connect() has already been called. Take
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// over the channel from the previous listener and process
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// any queued messages.
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mIOLoop->PostTask(
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FROM_HERE,
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NewRunnableMethod(this, &ProcessLink::OnTakeConnectedChannel));
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}
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#ifdef MOZ_NUWA_PROCESS
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if (IsNuwaProcess() &&
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Preferences::GetBool("dom.ipc.processPrelaunch.testMode")) {
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// The pref value is turned on in a deadlock test against the Nuwa
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// process. The sleep here makes it easy to trigger the deadlock
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// that an IPC channel is still opening but the worker loop is
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// already frozen.
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sleep(5);
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}
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#endif
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// Should not wait here if something goes wrong with the channel.
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while (!mChan->Connected() && mChan->mChannelState != ChannelError) {
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mChan->mMonitor->Wait();
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}
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}
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}
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void
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ProcessLink::EchoMessage(Message *msg)
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{
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mChan->AssertWorkerThread();
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mChan->mMonitor->AssertCurrentThreadOwns();
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mIOLoop->PostTask(
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FROM_HERE,
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NewRunnableMethod(this, &ProcessLink::OnEchoMessage, msg));
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// OnEchoMessage takes ownership of |msg|
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}
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void
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ProcessLink::SendMessage(Message *msg)
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{
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mChan->AssertWorkerThread();
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mChan->mMonitor->AssertCurrentThreadOwns();
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mIOLoop->PostTask(
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FROM_HERE,
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NewRunnableMethod(mTransport, &Transport::Send, msg));
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}
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void
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ProcessLink::SendClose()
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{
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mChan->AssertWorkerThread();
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mChan->mMonitor->AssertCurrentThreadOwns();
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mIOLoop->PostTask(
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FROM_HERE, NewRunnableMethod(this, &ProcessLink::OnCloseChannel));
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}
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ThreadLink::ThreadLink(MessageChannel *aChan, MessageChannel *aTargetChan)
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: MessageLink(aChan),
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mTargetChan(aTargetChan)
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{
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}
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ThreadLink::~ThreadLink()
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{
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// :TODO: MonitorAutoLock lock(*mChan->mMonitor);
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// Bug 848949: We need to prevent the other side
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// from sending us any more messages to avoid Use-After-Free.
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// The setup here is as shown:
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//
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// (Us) (Them)
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// MessageChannel MessageChannel
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// | ^ \ / ^ |
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// | | X | |
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// v | / \ | v
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// ThreadLink ThreadLink
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//
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// We want to null out the diagonal link from their ThreadLink
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// to our MessageChannel. Note that we must hold the monitor so
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// that we do this atomically with respect to them trying to send
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// us a message.
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if (mTargetChan) {
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static_cast<ThreadLink*>(mTargetChan->mLink)->mTargetChan = 0;
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}
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mTargetChan = 0;
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}
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void
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ThreadLink::EchoMessage(Message *msg)
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{
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mChan->AssertWorkerThread();
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mChan->mMonitor->AssertCurrentThreadOwns();
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mChan->OnMessageReceivedFromLink(*msg);
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delete msg;
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}
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void
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ThreadLink::SendMessage(Message *msg)
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{
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mChan->AssertWorkerThread();
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mChan->mMonitor->AssertCurrentThreadOwns();
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if (mTargetChan)
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mTargetChan->OnMessageReceivedFromLink(*msg);
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delete msg;
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}
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void
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ThreadLink::SendClose()
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{
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mChan->AssertWorkerThread();
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mChan->mMonitor->AssertCurrentThreadOwns();
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mChan->mChannelState = ChannelClosed;
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// In a ProcessLink, we would close our half the channel. This
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// would show up on the other side as an error on the I/O thread.
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// The I/O thread would then invoke OnChannelErrorFromLink().
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// As usual, we skip that process and just invoke the
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// OnChannelErrorFromLink() method directly.
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if (mTargetChan)
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mTargetChan->OnChannelErrorFromLink();
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}
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bool
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ThreadLink::Unsound_IsClosed() const
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{
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MonitorAutoLock lock(*mChan->mMonitor);
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return mChan->mChannelState == ChannelClosed;
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}
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uint32_t
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ThreadLink::Unsound_NumQueuedMessages() const
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{
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// ThreadLinks don't have a message queue.
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return 0;
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}
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//
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// The methods below run in the context of the IO thread
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//
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void
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ProcessLink::OnMessageReceived(const Message& msg)
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{
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AssertIOThread();
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NS_ASSERTION(mChan->mChannelState != ChannelError, "Shouldn't get here!");
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MonitorAutoLock lock(*mChan->mMonitor);
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mChan->OnMessageReceivedFromLink(msg);
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}
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void
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ProcessLink::OnEchoMessage(Message* msg)
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{
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AssertIOThread();
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OnMessageReceived(*msg);
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delete msg;
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}
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void
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ProcessLink::OnChannelOpened()
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{
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mChan->AssertLinkThread();
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{
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MonitorAutoLock lock(*mChan->mMonitor);
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mExistingListener = mTransport->set_listener(this);
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#ifdef DEBUG
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if (mExistingListener) {
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queue<Message> pending;
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mExistingListener->GetQueuedMessages(pending);
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MOZ_ASSERT(pending.empty());
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}
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#endif // DEBUG
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mChan->mChannelState = ChannelOpening;
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lock.Notify();
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}
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/*assert*/mTransport->Connect();
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}
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void
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ProcessLink::OnTakeConnectedChannel()
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{
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AssertIOThread();
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queue<Message> pending;
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{
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MonitorAutoLock lock(*mChan->mMonitor);
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mChan->mChannelState = ChannelConnected;
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mExistingListener = mTransport->set_listener(this);
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if (mExistingListener) {
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mExistingListener->GetQueuedMessages(pending);
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}
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lock.Notify();
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}
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// Dispatch whatever messages the previous listener had queued up.
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while (!pending.empty()) {
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OnMessageReceived(pending.front());
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pending.pop();
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}
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}
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void
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ProcessLink::OnChannelConnected(int32_t peer_pid)
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{
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AssertIOThread();
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{
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MonitorAutoLock lock(*mChan->mMonitor);
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mChan->mChannelState = ChannelConnected;
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mChan->mMonitor->Notify();
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}
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if (mExistingListener)
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mExistingListener->OnChannelConnected(peer_pid);
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mChan->OnChannelConnected(peer_pid);
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}
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void
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ProcessLink::OnChannelError()
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{
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AssertIOThread();
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MonitorAutoLock lock(*mChan->mMonitor);
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mChan->OnChannelErrorFromLink();
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}
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void
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ProcessLink::OnCloseChannel()
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{
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AssertIOThread();
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mTransport->Close();
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MonitorAutoLock lock(*mChan->mMonitor);
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mChan->mChannelState = ChannelClosed;
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mChan->mMonitor->Notify();
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}
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bool
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ProcessLink::Unsound_IsClosed() const
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{
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return mTransport->Unsound_IsClosed();
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}
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uint32_t
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ProcessLink::Unsound_NumQueuedMessages() const
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{
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return mTransport->Unsound_NumQueuedMessages();
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}
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} // namespace ipc
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} // namespace mozilla
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