gecko-dev/ipc/glue/ProtocolUtils.cpp

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C++

/* -*- 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, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "base/process_util.h"
#include "base/task.h"
#ifdef OS_POSIX
#include <errno.h>
#endif
#include "mozilla/IntegerPrintfMacros.h"
#include "mozilla/ipc/ProtocolUtils.h"
#include "mozilla/dom/ContentParent.h"
#include "mozilla/ipc/MessageChannel.h"
#include "mozilla/ipc/Transport.h"
#include "mozilla/StaticMutex.h"
#include "mozilla/SystemGroup.h"
#include "mozilla/Unused.h"
#include "nsPrintfCString.h"
#if defined(MOZ_SANDBOX) && defined(XP_WIN)
#define TARGET_SANDBOX_EXPORTS
#include "mozilla/sandboxTarget.h"
#endif
#if defined(MOZ_CRASHREPORTER) && defined(XP_WIN)
#include "aclapi.h"
#include "sddl.h"
#include "mozilla/TypeTraits.h"
#endif
#include "nsAutoPtr.h"
using namespace IPC;
using base::GetCurrentProcId;
using base::ProcessHandle;
using base::ProcessId;
namespace mozilla {
#if defined(MOZ_CRASHREPORTER) && defined(XP_WIN)
// Generate RAII classes for LPTSTR and PSECURITY_DESCRIPTOR.
MOZ_TYPE_SPECIFIC_SCOPED_POINTER_TEMPLATE(ScopedLPTStr, \
RemovePointer<LPTSTR>::Type, \
::LocalFree)
MOZ_TYPE_SPECIFIC_SCOPED_POINTER_TEMPLATE(ScopedPSecurityDescriptor, \
RemovePointer<PSECURITY_DESCRIPTOR>::Type, \
::LocalFree)
#endif
namespace ipc {
IPCResult
IPCResult::Fail(NotNull<IProtocol*> actor, const char* where, const char* why)
{
// Calls top-level protocol to handle the error.
nsPrintfCString errorMsg("%s::%s %s\n", actor->ProtocolName(), where, why);
actor->GetIPCChannel()->Listener()->ProcessingError(
HasResultCodes::MsgProcessingError, errorMsg.get());
return IPCResult(false);
}
class ChannelOpened : public IPC::Message
{
public:
ChannelOpened(TransportDescriptor aDescriptor,
ProcessId aOtherProcess,
ProtocolId aProtocol,
NestedLevel aNestedLevel = NOT_NESTED)
: IPC::Message(MSG_ROUTING_CONTROL, // these only go to top-level actors
CHANNEL_OPENED_MESSAGE_TYPE,
0,
HeaderFlags(aNestedLevel))
{
IPC::WriteParam(this, aDescriptor);
IPC::WriteParam(this, aOtherProcess);
IPC::WriteParam(this, static_cast<uint32_t>(aProtocol));
}
static bool Read(const IPC::Message& aMsg,
TransportDescriptor* aDescriptor,
ProcessId* aOtherProcess,
ProtocolId* aProtocol)
{
PickleIterator iter(aMsg);
if (!IPC::ReadParam(&aMsg, &iter, aDescriptor) ||
!IPC::ReadParam(&aMsg, &iter, aOtherProcess) ||
!IPC::ReadParam(&aMsg, &iter, reinterpret_cast<uint32_t*>(aProtocol))) {
return false;
}
aMsg.EndRead(iter);
return true;
}
};
nsresult
Bridge(const PrivateIPDLInterface&,
MessageChannel* aParentChannel, ProcessId aParentPid,
MessageChannel* aChildChannel, ProcessId aChildPid,
ProtocolId aProtocol, ProtocolId aChildProtocol)
{
if (!aParentPid || !aChildPid) {
return NS_ERROR_INVALID_ARG;
}
TransportDescriptor parentSide, childSide;
nsresult rv;
if (NS_FAILED(rv = CreateTransport(aParentPid, &parentSide, &childSide))) {
return rv;
}
if (!aParentChannel->Send(new ChannelOpened(parentSide,
aChildPid,
aProtocol,
IPC::Message::NESTED_INSIDE_CPOW))) {
CloseDescriptor(parentSide);
CloseDescriptor(childSide);
return NS_ERROR_BRIDGE_OPEN_PARENT;
}
if (!aChildChannel->Send(new ChannelOpened(childSide,
aParentPid,
aChildProtocol,
IPC::Message::NESTED_INSIDE_CPOW))) {
CloseDescriptor(parentSide);
CloseDescriptor(childSide);
return NS_ERROR_BRIDGE_OPEN_CHILD;
}
return NS_OK;
}
bool
Open(const PrivateIPDLInterface&,
MessageChannel* aOpenerChannel, ProcessId aOtherProcessId,
Transport::Mode aOpenerMode,
ProtocolId aProtocol, ProtocolId aChildProtocol)
{
bool isParent = (Transport::MODE_SERVER == aOpenerMode);
ProcessId thisPid = GetCurrentProcId();
ProcessId parentId = isParent ? thisPid : aOtherProcessId;
ProcessId childId = !isParent ? thisPid : aOtherProcessId;
if (!parentId || !childId) {
return false;
}
TransportDescriptor parentSide, childSide;
if (NS_FAILED(CreateTransport(parentId, &parentSide, &childSide))) {
return false;
}
Message* parentMsg = new ChannelOpened(parentSide, childId, aProtocol);
Message* childMsg = new ChannelOpened(childSide, parentId, aChildProtocol);
nsAutoPtr<Message> messageForUs(isParent ? parentMsg : childMsg);
nsAutoPtr<Message> messageForOtherSide(!isParent ? parentMsg : childMsg);
if (!aOpenerChannel->Echo(messageForUs.forget()) ||
!aOpenerChannel->Send(messageForOtherSide.forget())) {
CloseDescriptor(parentSide);
CloseDescriptor(childSide);
return false;
}
return true;
}
bool
UnpackChannelOpened(const PrivateIPDLInterface&,
const Message& aMsg,
TransportDescriptor* aTransport,
ProcessId* aOtherProcess,
ProtocolId* aProtocol)
{
return ChannelOpened::Read(aMsg, aTransport, aOtherProcess, aProtocol);
}
#if defined(XP_WIN)
bool DuplicateHandle(HANDLE aSourceHandle,
DWORD aTargetProcessId,
HANDLE* aTargetHandle,
DWORD aDesiredAccess,
DWORD aOptions) {
// If our process is the target just duplicate the handle.
if (aTargetProcessId == base::GetCurrentProcId()) {
return !!::DuplicateHandle(::GetCurrentProcess(), aSourceHandle,
::GetCurrentProcess(), aTargetHandle,
aDesiredAccess, false, aOptions);
}
#if defined(MOZ_SANDBOX)
// Try the broker next (will fail if not sandboxed).
if (SandboxTarget::Instance()->BrokerDuplicateHandle(aSourceHandle,
aTargetProcessId,
aTargetHandle,
aDesiredAccess,
aOptions)) {
return true;
}
#endif
// Finally, see if we already have access to the process.
ScopedProcessHandle targetProcess(OpenProcess(PROCESS_DUP_HANDLE,
FALSE,
aTargetProcessId));
if (!targetProcess) {
#ifdef MOZ_CRASHREPORTER
CrashReporter::AnnotateCrashReport(
NS_LITERAL_CSTRING("IPCTransportFailureReason"),
NS_LITERAL_CSTRING("Failed to open target process."));
#endif
return false;
}
return !!::DuplicateHandle(::GetCurrentProcess(), aSourceHandle,
targetProcess, aTargetHandle,
aDesiredAccess, FALSE, aOptions);
}
#endif
#ifdef MOZ_CRASHREPORTER
void
AnnotateSystemError()
{
int64_t error = 0;
#if defined(XP_WIN)
error = ::GetLastError();
#elif defined(OS_POSIX)
error = errno;
#endif
if (error) {
CrashReporter::AnnotateCrashReport(
NS_LITERAL_CSTRING("IPCSystemError"),
nsPrintfCString("%" PRId64, error));
}
}
#endif
#if defined(MOZ_CRASHREPORTER) && defined(XP_MACOSX)
void
AnnotateCrashReportWithErrno(const char* tag, int error)
{
CrashReporter::AnnotateCrashReport(
nsCString(tag),
nsPrintfCString("%d", error));
}
#endif
void
LogMessageForProtocol(const char* aTopLevelProtocol, base::ProcessId aOtherPid,
const char* aContextDescription,
uint32_t aMessageId,
MessageDirection aDirection)
{
nsPrintfCString logMessage("[time: %" PRId64 "][%d%s%d] [%s] %s %s\n",
PR_Now(), base::GetCurrentProcId(),
aDirection == MessageDirection::eReceiving ? "<-" : "->",
aOtherPid, aTopLevelProtocol,
aContextDescription,
StringFromIPCMessageType(aMessageId));
#ifdef ANDROID
__android_log_write(ANDROID_LOG_INFO, "GeckoIPC", logMessage.get());
#endif
fputs(logMessage.get(), stderr);
}
void
ProtocolErrorBreakpoint(const char* aMsg)
{
// Bugs that generate these error messages can be tough to
// reproduce. Log always in the hope that someone finds the error
// message.
printf_stderr("IPDL protocol error: %s\n", aMsg);
}
void
FatalError(const char* aProtocolName, const char* aMsg, bool aIsParent)
{
ProtocolErrorBreakpoint(aMsg);
nsAutoCString formattedMessage("IPDL error [");
formattedMessage.AppendASCII(aProtocolName);
formattedMessage.AppendLiteral("]: \"");
formattedMessage.AppendASCII(aMsg);
if (aIsParent) {
#ifdef MOZ_CRASHREPORTER
// We're going to crash the parent process because at this time
// there's no other really nice way of getting a minidump out of
// this process if we're off the main thread.
formattedMessage.AppendLiteral("\". Intentionally crashing.");
NS_ERROR(formattedMessage.get());
CrashReporter::AnnotateCrashReport(NS_LITERAL_CSTRING("IPCFatalErrorProtocol"),
nsDependentCString(aProtocolName));
CrashReporter::AnnotateCrashReport(NS_LITERAL_CSTRING("IPCFatalErrorMsg"),
nsDependentCString(aMsg));
AnnotateSystemError();
#endif
MOZ_CRASH("IPC FatalError in the parent process!");
} else {
formattedMessage.AppendLiteral("\". abort()ing as a result.");
NS_RUNTIMEABORT(formattedMessage.get());
}
}
void
LogicError(const char* aMsg)
{
NS_RUNTIMEABORT(aMsg);
}
void
ActorIdReadError(const char* aActorDescription)
{
nsPrintfCString message("Error deserializing id for %s", aActorDescription);
NS_RUNTIMEABORT(message.get());
}
void
BadActorIdError(const char* aActorDescription)
{
nsPrintfCString message("bad id for %s", aActorDescription);
ProtocolErrorBreakpoint(message.get());
}
void
ActorLookupError(const char* aActorDescription)
{
nsPrintfCString message("could not lookup id for %s", aActorDescription);
ProtocolErrorBreakpoint(message.get());
}
void
MismatchedActorTypeError(const char* aActorDescription)
{
nsPrintfCString message("actor that should be of type %s has different type",
aActorDescription);
ProtocolErrorBreakpoint(message.get());
}
void
UnionTypeReadError(const char* aUnionName)
{
nsPrintfCString message("error deserializing type of union %s", aUnionName);
NS_RUNTIMEABORT(message.get());
}
void
ArrayLengthReadError(const char* aElementName)
{
nsPrintfCString message("error deserializing length of %s[]", aElementName);
NS_RUNTIMEABORT(message.get());
}
void
SentinelReadError(const char* aClassName)
{
nsPrintfCString message("incorrect sentinel when reading %s", aClassName);
NS_RUNTIMEABORT(message.get());
}
void
TableToArray(const nsTHashtable<nsPtrHashKey<void>>& aTable,
nsTArray<void*>& aArray)
{
uint32_t i = 0;
void** elements = aArray.AppendElements(aTable.Count());
for (auto iter = aTable.ConstIter(); !iter.Done(); iter.Next()) {
elements[i] = iter.Get()->GetKey();
++i;
}
}
Maybe<IProtocol*>
IProtocol::ReadActor(const IPC::Message* aMessage, PickleIterator* aIter, bool aNullable,
const char* aActorDescription, int32_t aProtocolTypeId)
{
int32_t id;
if (!IPC::ReadParam(aMessage, aIter, &id)) {
ActorIdReadError(aActorDescription);
return Nothing();
}
if (id == 1 || (id == 0 && !aNullable)) {
BadActorIdError(aActorDescription);
return Nothing();
}
if (id == 0) {
return Some(static_cast<IProtocol*>(nullptr));
}
IProtocol* listener = this->Lookup(id);
if (!listener) {
ActorLookupError(aActorDescription);
return Nothing();
}
if (listener->GetProtocolTypeId() != aProtocolTypeId) {
MismatchedActorTypeError(aActorDescription);
return Nothing();
}
return Some(listener);
}
int32_t
IProtocol::Register(IProtocol* aRouted)
{
return Manager()->Register(aRouted);
}
int32_t
IProtocol::RegisterID(IProtocol* aRouted, int32_t aId)
{
return Manager()->RegisterID(aRouted, aId);
}
IProtocol*
IProtocol::Lookup(int32_t aId)
{
return Manager()->Lookup(aId);
}
void
IProtocol::Unregister(int32_t aId)
{
if (mId == aId) {
mId = kFreedActorId;
}
Manager()->Unregister(aId);
}
Shmem::SharedMemory*
IProtocol::CreateSharedMemory(size_t aSize,
SharedMemory::SharedMemoryType aType,
bool aUnsafe,
int32_t* aId)
{
return Manager()->CreateSharedMemory(aSize, aType, aUnsafe, aId);
}
Shmem::SharedMemory*
IProtocol::LookupSharedMemory(int32_t aId)
{
return Manager()->LookupSharedMemory(aId);
}
bool
IProtocol::IsTrackingSharedMemory(Shmem::SharedMemory* aSegment)
{
return Manager()->IsTrackingSharedMemory(aSegment);
}
bool
IProtocol::DestroySharedMemory(Shmem& aShmem)
{
return Manager()->DestroySharedMemory(aShmem);
}
ProcessId
IProtocol::OtherPid() const
{
return Manager()->OtherPid();
}
void
IProtocol::FatalError(const char* const aErrorMsg) const
{
HandleFatalError(ProtocolName(), aErrorMsg);
}
void
IProtocol::HandleFatalError(const char* aProtocolName, const char* aErrorMsg) const
{
if (IProtocol* manager = Manager()) {
manager->HandleFatalError(aProtocolName, aErrorMsg);
return;
}
mozilla::ipc::FatalError(aProtocolName, aErrorMsg, mSide == ParentSide);
}
bool
IProtocol::AllocShmem(size_t aSize,
Shmem::SharedMemory::SharedMemoryType aType,
Shmem* aOutMem)
{
Shmem::id_t id;
Shmem::SharedMemory* rawmem(CreateSharedMemory(aSize, aType, false, &id));
if (!rawmem) {
return false;
}
*aOutMem = Shmem(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), rawmem, id);
return true;
}
bool
IProtocol::AllocUnsafeShmem(size_t aSize,
Shmem::SharedMemory::SharedMemoryType aType,
Shmem* aOutMem)
{
Shmem::id_t id;
Shmem::SharedMemory* rawmem(CreateSharedMemory(aSize, aType, true, &id));
if (!rawmem) {
return false;
}
*aOutMem = Shmem(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), rawmem, id);
return true;
}
bool
IProtocol::DeallocShmem(Shmem& aMem)
{
bool ok = DestroySharedMemory(aMem);
#ifdef DEBUG
if (!ok) {
if (mSide == ChildSide) {
FatalError("bad Shmem");
} else {
NS_WARNING("bad Shmem");
}
return false;
}
#endif // DEBUG
aMem.forget(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead());
return ok;
}
void
IProtocol::SetManager(IProtocol* aManager)
{
MOZ_RELEASE_ASSERT(!mManager || mManager == aManager);
mManager = aManager;
}
void
IProtocol::SetEventTargetForActor(IProtocol* aActor, nsIEventTarget* aEventTarget)
{
// Make sure we have a manager for the internal method to access.
aActor->SetManager(this);
SetEventTargetForActorInternal(aActor, aEventTarget);
}
void
IProtocol::ReplaceEventTargetForActor(IProtocol* aActor,
nsIEventTarget* aEventTarget)
{
// Ensure the actor has been registered.
MOZ_ASSERT(aActor->Manager());
ReplaceEventTargetForActorInternal(aActor, aEventTarget);
}
void
IProtocol::SetEventTargetForActorInternal(IProtocol* aActor,
nsIEventTarget* aEventTarget)
{
Manager()->SetEventTargetForActorInternal(aActor, aEventTarget);
}
void
IProtocol::ReplaceEventTargetForActorInternal(IProtocol* aActor,
nsIEventTarget* aEventTarget)
{
Manager()->ReplaceEventTargetForActorInternal(aActor, aEventTarget);
}
nsIEventTarget*
IProtocol::GetActorEventTarget()
{
// We should only call this function when this actor has been registered and
// is not unregistered yet.
MOZ_RELEASE_ASSERT(mId != kNullActorId && mId != kFreedActorId);
RefPtr<nsIEventTarget> target = Manager()->GetActorEventTargetInternal(this);
return target;
}
already_AddRefed<nsIEventTarget>
IProtocol::GetActorEventTargetInternal(IProtocol* aActor)
{
return Manager()->GetActorEventTargetInternal(aActor);
}
IToplevelProtocol::IToplevelProtocol(ProtocolId aProtoId, Side aSide)
: IProtocol(aSide),
mProtocolId(aProtoId),
mOtherPid(mozilla::ipc::kInvalidProcessId),
mLastRouteId(aSide == ParentSide ? kFreedActorId : kNullActorId),
mLastShmemId(aSide == ParentSide ? kFreedActorId : kNullActorId),
mEventTargetMutex("ProtocolEventTargetMutex")
{
}
IToplevelProtocol::~IToplevelProtocol()
{
if (mTrans) {
RefPtr<DeleteTask<Transport>> task = new DeleteTask<Transport>(mTrans.release());
XRE_GetIOMessageLoop()->PostTask(task.forget());
}
}
base::ProcessId
IToplevelProtocol::OtherPid() const
{
return mOtherPid;
}
void
IToplevelProtocol::SetOtherProcessId(base::ProcessId aOtherPid)
{
mOtherPid = aOtherPid;
}
bool
IToplevelProtocol::TakeMinidump(nsIFile** aDump, uint32_t* aSequence)
{
MOZ_RELEASE_ASSERT(GetSide() == ParentSide);
#ifdef MOZ_CRASHREPORTER
return XRE_TakeMinidumpForChild(OtherPid(), aDump, aSequence);
#else
return false;
#endif
}
bool
IToplevelProtocol::Open(mozilla::ipc::Transport* aTransport,
base::ProcessId aOtherPid,
MessageLoop* aThread,
mozilla::ipc::Side aSide)
{
SetOtherProcessId(aOtherPid);
return GetIPCChannel()->Open(aTransport, aThread, aSide);
}
bool
IToplevelProtocol::Open(MessageChannel* aChannel,
MessageLoop* aMessageLoop,
mozilla::ipc::Side aSide)
{
SetOtherProcessId(base::GetCurrentProcId());
return GetIPCChannel()->Open(aChannel, aMessageLoop->SerialEventTarget(), aSide);
}
bool
IToplevelProtocol::Open(MessageChannel* aChannel,
nsIEventTarget* aEventTarget,
mozilla::ipc::Side aSide)
{
SetOtherProcessId(base::GetCurrentProcId());
return GetIPCChannel()->Open(aChannel, aEventTarget, aSide);
}
void
IToplevelProtocol::Close()
{
GetIPCChannel()->Close();
}
void
IToplevelProtocol::SetReplyTimeoutMs(int32_t aTimeoutMs)
{
GetIPCChannel()->SetReplyTimeoutMs(aTimeoutMs);
}
bool
IToplevelProtocol::IsOnCxxStack() const
{
return GetIPCChannel()->IsOnCxxStack();
}
int32_t
IToplevelProtocol::Register(IProtocol* aRouted)
{
if (aRouted->Id() != kNullActorId && aRouted->Id() != kFreedActorId) {
// If there's already an ID, just return that.
return aRouted->Id();
}
int32_t id = GetSide() == ParentSide ? ++mLastRouteId : --mLastRouteId;
mActorMap.AddWithID(aRouted, id);
aRouted->SetId(id);
// Inherit our event target from our manager.
if (IProtocol* manager = aRouted->Manager()) {
MutexAutoLock lock(mEventTargetMutex);
if (nsCOMPtr<nsIEventTarget> target = mEventTargetMap.Lookup(manager->Id())) {
mEventTargetMap.AddWithID(target, id);
}
}
return id;
}
int32_t
IToplevelProtocol::RegisterID(IProtocol* aRouted,
int32_t aId)
{
mActorMap.AddWithID(aRouted, aId);
aRouted->SetId(aId);
return aId;
}
IProtocol*
IToplevelProtocol::Lookup(int32_t aId)
{
return mActorMap.Lookup(aId);
}
void
IToplevelProtocol::Unregister(int32_t aId)
{
mActorMap.Remove(aId);
MutexAutoLock lock(mEventTargetMutex);
mEventTargetMap.RemoveIfPresent(aId);
}
Shmem::SharedMemory*
IToplevelProtocol::CreateSharedMemory(size_t aSize,
Shmem::SharedMemory::SharedMemoryType aType,
bool aUnsafe,
Shmem::id_t* aId)
{
RefPtr<Shmem::SharedMemory> segment(
Shmem::Alloc(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), aSize, aType, aUnsafe));
if (!segment) {
return nullptr;
}
int32_t id = GetSide() == ParentSide ? ++mLastShmemId : --mLastShmemId;
Shmem shmem(
Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(),
segment.get(),
id);
Message* descriptor = shmem.ShareTo(
Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), OtherPid(), MSG_ROUTING_CONTROL);
if (!descriptor) {
return nullptr;
}
Unused << GetIPCChannel()->Send(descriptor);
*aId = shmem.Id(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead());
Shmem::SharedMemory* rawSegment = segment.get();
mShmemMap.AddWithID(segment.forget().take(), *aId);
return rawSegment;
}
Shmem::SharedMemory*
IToplevelProtocol::LookupSharedMemory(Shmem::id_t aId)
{
return mShmemMap.Lookup(aId);
}
bool
IToplevelProtocol::IsTrackingSharedMemory(Shmem::SharedMemory* segment)
{
return mShmemMap.HasData(segment);
}
bool
IToplevelProtocol::DestroySharedMemory(Shmem& shmem)
{
Shmem::id_t aId = shmem.Id(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead());
Shmem::SharedMemory* segment = LookupSharedMemory(aId);
if (!segment) {
return false;
}
Message* descriptor = shmem.UnshareFrom(
Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), OtherPid(), MSG_ROUTING_CONTROL);
mShmemMap.Remove(aId);
Shmem::Dealloc(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), segment);
if (!GetIPCChannel()->CanSend()) {
delete descriptor;
return true;
}
return descriptor && GetIPCChannel()->Send(descriptor);
}
void
IToplevelProtocol::DeallocShmems()
{
for (IDMap<SharedMemory*>::const_iterator cit = mShmemMap.begin(); cit != mShmemMap.end(); ++cit) {
Shmem::Dealloc(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), cit->second);
}
mShmemMap.Clear();
}
bool
IToplevelProtocol::ShmemCreated(const Message& aMsg)
{
Shmem::id_t id;
RefPtr<Shmem::SharedMemory> rawmem(Shmem::OpenExisting(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), aMsg, &id, true));
if (!rawmem) {
return false;
}
mShmemMap.AddWithID(rawmem.forget().take(), id);
return true;
}
bool
IToplevelProtocol::ShmemDestroyed(const Message& aMsg)
{
Shmem::id_t id;
PickleIterator iter = PickleIterator(aMsg);
if (!IPC::ReadParam(&aMsg, &iter, &id)) {
return false;
}
aMsg.EndRead(iter);
Shmem::SharedMemory* rawmem = LookupSharedMemory(id);
if (rawmem) {
mShmemMap.Remove(id);
Shmem::Dealloc(Shmem::IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead(), rawmem);
}
return true;
}
already_AddRefed<nsIEventTarget>
IToplevelProtocol::GetMessageEventTarget(const Message& aMsg)
{
int32_t route = aMsg.routing_id();
Maybe<MutexAutoLock> lock;
lock.emplace(mEventTargetMutex);
nsCOMPtr<nsIEventTarget> target = mEventTargetMap.Lookup(route);
if (aMsg.is_constructor()) {
ActorHandle handle;
PickleIterator iter = PickleIterator(aMsg);
if (!IPC::ReadParam(&aMsg, &iter, &handle)) {
return nullptr;
}
// Normally a new actor inherits its event target from its manager. If the
// manager has no event target, we give the subclass a chance to make a new
// one.
if (!target) {
MutexAutoUnlock unlock(mEventTargetMutex);
target = GetConstructedEventTarget(aMsg);
}
mEventTargetMap.AddWithID(target, handle.mId);
} else if (!target) {
// We don't need the lock after this point.
lock.reset();
target = GetSpecificMessageEventTarget(aMsg);
}
return target.forget();
}
already_AddRefed<nsIEventTarget>
IToplevelProtocol::GetActorEventTargetInternal(IProtocol* aActor)
{
MOZ_RELEASE_ASSERT(aActor->Id() != kNullActorId && aActor->Id() != kFreedActorId);
MutexAutoLock lock(mEventTargetMutex);
nsCOMPtr<nsIEventTarget> target = mEventTargetMap.Lookup(aActor->Id());
return target.forget();
}
already_AddRefed<nsIEventTarget>
IToplevelProtocol::GetActorEventTarget(IProtocol* aActor)
{
return GetActorEventTargetInternal(aActor);
}
nsIEventTarget*
IToplevelProtocol::GetActorEventTarget()
{
// The EventTarget of a ToplevelProtocol shall never be set.
return nullptr;
}
void
IToplevelProtocol::SetEventTargetForActorInternal(IProtocol* aActor,
nsIEventTarget* aEventTarget)
{
// The EventTarget of a ToplevelProtocol shall never be set.
MOZ_RELEASE_ASSERT(aActor != this);
// We should only call this function on actors that haven't been used for IPC
// code yet. Otherwise we'll be posting stuff to the wrong event target before
// we're called.
MOZ_RELEASE_ASSERT(aActor->Id() == kNullActorId || aActor->Id() == kFreedActorId);
// Register the actor early. When it's registered again, it will keep the same
// ID.
int32_t id = Register(aActor);
aActor->SetId(id);
MutexAutoLock lock(mEventTargetMutex);
mEventTargetMap.AddWithID(aEventTarget, id);
}
void
IToplevelProtocol::ReplaceEventTargetForActorInternal(
IProtocol* aActor,
nsIEventTarget* aEventTarget)
{
// The EventTarget of a ToplevelProtocol shall never be set.
MOZ_RELEASE_ASSERT(aActor != this);
int32_t id = aActor->Id();
// The ID of the actor should have existed.
MOZ_RELEASE_ASSERT(id!= kNullActorId && id!= kFreedActorId);
MutexAutoLock lock(mEventTargetMutex);
mEventTargetMap.ReplaceWithID(aEventTarget, id);
}
} // namespace ipc
} // namespace mozilla