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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
#include "mozilla/ipc/NodeChannel.h"
#include "chrome/common/ipc_message.h"
#include "chrome/common/ipc_message_utils.h"
#include "mojo/core/ports/name.h"
#include "mozilla/ipc/IOThread.h"
#include "mozilla/ipc/GeckoChildProcessHost.h"
#include "mozilla/ipc/ProtocolMessageUtils.h"
#include "mozilla/ipc/ProtocolUtils.h"
#include "nsThreadUtils.h"
#include "nsXULAppAPI.h"
#ifdef FUZZING_SNAPSHOT
# include "mozilla/fuzzing/IPCFuzzController.h"
#endif
template <>
struct IPC::ParamTraits<mozilla::ipc::NodeChannel::Introduction> {
using paramType = mozilla::ipc::NodeChannel::Introduction;
static void Write(MessageWriter* aWriter, paramType&& aParam) {
WriteParam(aWriter, aParam.mName);
WriteParam(aWriter, std::move(aParam.mHandle));
WriteParam(aWriter, aParam.mMode);
WriteParam(aWriter, aParam.mMyPid);
WriteParam(aWriter, aParam.mOtherPid);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadParam(aReader, &aResult->mName) &&
ReadParam(aReader, &aResult->mHandle) &&
ReadParam(aReader, &aResult->mMode) &&
ReadParam(aReader, &aResult->mMyPid) &&
ReadParam(aReader, &aResult->mOtherPid);
}
};
namespace mozilla::ipc {
NodeChannel::NodeChannel(const NodeName& aName,
UniquePtr<IPC::Channel> aChannel, Listener* aListener,
base::ProcessId aPid,
GeckoChildProcessHost* aChildProcessHost)
: mListener(aListener),
mName(aName),
mOtherPid(aPid),
mChannel(std::move(aChannel)),
mChildProcessHost(aChildProcessHost) {}
NodeChannel::~NodeChannel() { Close(); }
// Called when the NodeChannel's refcount drops to `0`.
void NodeChannel::Destroy() {
// We want to dispatch the `delete` operation to the IO thread. We need to do
// this even if we're already on the IO thread, as we could be in an
// `IPC::Channel` callback which unfortunately will not hold a strong
// reference to keep `this` alive.
nsISerialEventTarget* ioThread = XRE_GetAsyncIOEventTarget();
// Synchronously invoke `FinalDestroy` if we're already shutting the IO thread
// down to ensure we're cleaned up before the thread dies. This is safe as we
// can't be in a non-owning IPC::Channel callback at this point.
if (ioThread->IsOnCurrentThread() && MessageLoop::current() &&
!MessageLoop::current()->IsAcceptingTasks()) {
FinalDestroy();
return;
}
MOZ_ALWAYS_SUCCEEDS(ioThread->Dispatch(NewNonOwningRunnableMethod(
"NodeChannel::Destroy", this, &NodeChannel::FinalDestroy)));
}
void NodeChannel::FinalDestroy() {
AssertIOThread();
delete this;
}
void NodeChannel::Start() {
AssertIOThread();
if (!mChannel->Connect(this)) {
OnChannelError();
}
}
void NodeChannel::Close() {
AssertIOThread();
if (mState.exchange(State::Closed) != State::Closed) {
mChannel->Close();
}
}
void NodeChannel::SetOtherPid(base::ProcessId aNewPid) {
AssertIOThread();
MOZ_ASSERT(aNewPid != base::kInvalidProcessId);
base::ProcessId previousPid = base::kInvalidProcessId;
if (!mOtherPid.compare_exchange_strong(previousPid, aNewPid)) {
// The PID was already set before this call, double-check that it's correct.
MOZ_RELEASE_ASSERT(previousPid == aNewPid,
"Different sources disagree on the correct pid?");
}
mChannel->SetOtherPid(aNewPid);
}
#ifdef XP_DARWIN
void NodeChannel::SetMachTaskPort(task_t aTask) {
AssertIOThread();
if (mState != State::Closed) {
mChannel->SetOtherMachTask(aTask);
}
}
#endif
void NodeChannel::SendEventMessage(UniquePtr<IPC::Message> aMessage) {
// Make sure we're not sending a message with one of our special internal
// types ,as those should only be sent using the corresponding methods on
// NodeChannel.
MOZ_DIAGNOSTIC_ASSERT(aMessage->type() != BROADCAST_MESSAGE_TYPE &&
aMessage->type() != INTRODUCE_MESSAGE_TYPE &&
aMessage->type() != REQUEST_INTRODUCTION_MESSAGE_TYPE &&
aMessage->type() != ACCEPT_INVITE_MESSAGE_TYPE);
SendMessage(std::move(aMessage));
}
void NodeChannel::RequestIntroduction(const NodeName& aPeerName) {
MOZ_ASSERT(aPeerName != mojo::core::ports::kInvalidNodeName);
auto message = MakeUnique<IPC::Message>(MSG_ROUTING_CONTROL,
REQUEST_INTRODUCTION_MESSAGE_TYPE);
IPC::MessageWriter writer(*message);
WriteParam(&writer, aPeerName);
SendMessage(std::move(message));
}
void NodeChannel::Introduce(Introduction aIntroduction) {
auto message =
MakeUnique<IPC::Message>(MSG_ROUTING_CONTROL, INTRODUCE_MESSAGE_TYPE);
IPC::MessageWriter writer(*message);
WriteParam(&writer, std::move(aIntroduction));
SendMessage(std::move(message));
}
void NodeChannel::Broadcast(UniquePtr<IPC::Message> aMessage) {
MOZ_DIAGNOSTIC_ASSERT(aMessage->type() == BROADCAST_MESSAGE_TYPE,
"Can only broadcast messages with the correct type");
SendMessage(std::move(aMessage));
}
void NodeChannel::AcceptInvite(const NodeName& aRealName,
const PortName& aInitialPort) {
MOZ_ASSERT(aRealName != mojo::core::ports::kInvalidNodeName);
MOZ_ASSERT(aInitialPort != mojo::core::ports::kInvalidPortName);
auto message =
MakeUnique<IPC::Message>(MSG_ROUTING_CONTROL, ACCEPT_INVITE_MESSAGE_TYPE);
IPC::MessageWriter writer(*message);
WriteParam(&writer, aRealName);
WriteParam(&writer, aInitialPort);
SendMessage(std::move(message));
}
void NodeChannel::SendMessage(UniquePtr<IPC::Message> aMessage) {
if (aMessage->size() > IPC::Channel::kMaximumMessageSize) {
CrashReporter::RecordAnnotationCString(
CrashReporter::Annotation::IPCMessageName, aMessage->name());
CrashReporter::RecordAnnotationU32(
CrashReporter::Annotation::IPCMessageSize, aMessage->size());
CrashReporter::RecordAnnotationU32(
CrashReporter::Annotation::IPCMessageLargeBufferShmemFailureSize,
aMessage->LargeBufferShmemFailureSize());
MOZ_CRASH("IPC message size is too large");
}
aMessage->AssertAsLargeAsHeader();
#ifdef FUZZING_SNAPSHOT
if (mBlockSendRecv) {
return;
}
#endif
if (mState != State::Active) {
NS_WARNING("Dropping message as channel has been closed");
return;
}
// NOTE: As this is not guaranteed to be running on the I/O thread, the
// channel may have become closed since we checked above. IPC::Channel will
// handle that and return `false` here, so we can re-check `mState`.
if (!mChannel->Send(std::move(aMessage))) {
NS_WARNING("Call to Send() failed");
// If we're still active, update `mState` to `State::Closing`, and dispatch
// a runnable to actually close our channel.
State expected = State::Active;
if (mState.compare_exchange_strong(expected, State::Closing)) {
XRE_GetAsyncIOEventTarget()->Dispatch(
NewRunnableMethod("NodeChannel::CloseForSendError", this,
&NodeChannel::OnChannelError));
}
}
}
void NodeChannel::OnMessageReceived(UniquePtr<IPC::Message> aMessage) {
AssertIOThread();
#ifdef FUZZING_SNAPSHOT
if (mBlockSendRecv && !aMessage->IsFuzzMsg()) {
return;
}
#endif
IPC::MessageReader reader(*aMessage);
switch (aMessage->type()) {
case REQUEST_INTRODUCTION_MESSAGE_TYPE: {
NodeName name;
if (IPC::ReadParam(&reader, &name)) {
mListener->OnRequestIntroduction(mName, name);
return;
}
break;
}
case INTRODUCE_MESSAGE_TYPE: {
Introduction introduction;
if (IPC::ReadParam(&reader, &introduction)) {
mListener->OnIntroduce(mName, std::move(introduction));
return;
}
break;
}
case BROADCAST_MESSAGE_TYPE: {
mListener->OnBroadcast(mName, std::move(aMessage));
return;
}
case ACCEPT_INVITE_MESSAGE_TYPE: {
NodeName realName;
PortName initialPort;
if (IPC::ReadParam(&reader, &realName) &&
IPC::ReadParam(&reader, &initialPort)) {
mListener->OnAcceptInvite(mName, realName, initialPort);
return;
}
break;
}
// Assume all unrecognized types are intended as user event messages, and
// deliver them to our listener as such. This allows us to use the same type
// field for both internal messages and protocol messages.
//
// FIXME: Consider doing something cleaner in the future?
case EVENT_MESSAGE_TYPE:
default: {
#ifdef FUZZING_SNAPSHOT
if (!fuzzing::IPCFuzzController::instance().ObserveIPCMessage(
this, *aMessage)) {
return;
}
#endif
mListener->OnEventMessage(mName, std::move(aMessage));
return;
}
}
// If we got to this point without early returning the message was malformed
// in some way. Report an error.
NS_WARNING("NodeChannel received a malformed message");
OnChannelError();
}
void NodeChannel::OnChannelConnected(base::ProcessId aPeerPid) {
AssertIOThread();
SetOtherPid(aPeerPid);
// We may need to tell the GeckoChildProcessHost which we were created by that
// the channel has been connected to unblock completing the process launch.
if (mChildProcessHost) {
mChildProcessHost->OnChannelConnected(aPeerPid);
}
}
void NodeChannel::OnChannelError() {
AssertIOThread();
State prev = mState.exchange(State::Closed);
if (prev == State::Closed) {
return;
}
// Clean up the channel.
mChannel->Close();
// Tell our listener about the error.
mListener->OnChannelError(mName);
}
} // namespace mozilla::ipc