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//
// Automatically generated by ipdlc.
// Edit at your own risk
//
#include "mozilla/_ipdltest/PTestSelfManageParent.h"
#include "mozilla/ProfilerLabels.h"
#include "mozilla/_ipdltest/PTestSelfManageRootParent.h"
#include "ipc/IPCMessageUtils.h"
#include "ipc/IPCMessageUtilsSpecializations.h"
#include "nsIFile.h"
#include "mozilla/ipc/Endpoint.h"
#include "mozilla/ipc/ProtocolMessageUtils.h"
#include "mozilla/ipc/ProtocolUtils.h"
#include "mozilla/ipc/ShmemMessageUtils.h"
#include "mozilla/ipc/TaintingIPCUtils.h"
namespace mozilla {
namespace _ipdltest {
MOZ_IMPLICIT PTestSelfManageParent::PTestSelfManageParent() :
mozilla::ipc::IRefCountedProtocol(PTestSelfManageMsgStart, mozilla::ipc::ParentSide)
{
MOZ_COUNT_CTOR(PTestSelfManageParent);
}
PTestSelfManageParent::~PTestSelfManageParent()
{
MOZ_COUNT_DTOR(PTestSelfManageParent);
}
auto PTestSelfManageParent::ActorAlloc() -> void
{
AddRef();
}
auto PTestSelfManageParent::ActorDealloc() -> void
{
Release();
}
auto PTestSelfManageParent::ManagedPTestSelfManageParent(nsTArray<PTestSelfManageParent*>& aArr) const -> void
{
mManagedPTestSelfManageParent.ToArray(aArr);
}
auto PTestSelfManageParent::ManagedPTestSelfManageParent() const -> const ManagedContainer<PTestSelfManageParent>&
{
return mManagedPTestSelfManageParent;
}
auto PTestSelfManageParent::AllManagedActorsCount() const -> uint32_t
{
uint32_t total = 0;
total += mManagedPTestSelfManageParent.Count();
return total;
}
auto PTestSelfManageParent::OpenPTestSelfManageEndpoint(PTestSelfManageParent* aActor) -> ManagedEndpoint<PTestSelfManageChild>
{
if (!aActor) {
NS_WARNING("Cannot bind null PTestSelfManageParent actor");
return ManagedEndpoint<PTestSelfManageChild>();
}
if (aActor->SetManagerAndRegister(this)) {
mManagedPTestSelfManageParent.Insert(aActor);
} else {
NS_WARNING("Failed to bind PTestSelfManageParent actor");
return ManagedEndpoint<PTestSelfManageChild>();
}
// Mark our actor as awaiting the other side to be bound. This will
// be cleared when a `MANAGED_ENDPOINT_{DROPPED,BOUND}` message is
// received.
aActor->mAwaitingManagedEndpointBind = true;
return ManagedEndpoint<PTestSelfManageChild>(mozilla::ipc::PrivateIPDLInterface(), aActor);
}
auto PTestSelfManageParent::BindPTestSelfManageEndpoint(
ManagedEndpoint<PTestSelfManageParent> aEndpoint,
PTestSelfManageParent* aActor) -> bool
{
return aEndpoint.Bind(mozilla::ipc::PrivateIPDLInterface(), aActor, this, mManagedPTestSelfManageParent);
}
auto PTestSelfManageParent::SendPTestSelfManageConstructor(PTestSelfManageParent* actor) -> PTestSelfManageParent*
{
if (!actor) {
NS_WARNING("Cannot bind null PTestSelfManageParent actor");
return nullptr;
}
if (actor->SetManagerAndRegister(this)) {
mManagedPTestSelfManageParent.Insert(actor);
} else {
NS_WARNING("Failed to bind PTestSelfManageParent actor");
return nullptr;
}
// Build our constructor message.
UniquePtr<IPC::Message> msg__ = PTestSelfManage::Msg_PTestSelfManageConstructor(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
IPC::WriteParam((&(writer__)), actor);
// Sentinel = 'actor'
((&(writer__)))->WriteSentinel(102892058);
// Notify the other side about the newly created actor. This can
// fail if our manager has already been destroyed.
//
// NOTE: If the send call fails due to toplevel channel teardown,
// the `IProtocol::ChannelSend` wrapper absorbs the error for us,
// so we don't tear down actors unexpectedly.
if (mozilla::ipc::LoggingEnabledFor("PTestSelfManage", mozilla::ipc::ParentSide)) {
mozilla::ipc::LogMessageForProtocol(
"PTestSelfManageParent",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PTestSelfManage::Msg_PTestSelfManageConstructor", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
// Warn, destroy the actor, and return null if the message failed to
// send. Otherwise, return the successfully created actor reference.
if (!sendok__) {
NS_WARNING("Error sending PTestSelfManageParent constructor");
actor->ActorDisconnected(FailedConstructor);
return nullptr;
}
return actor;
}
auto PTestSelfManageParent::Send__delete__(PTestSelfManageParent* actor) -> bool
{
if (!actor || !actor->CanSend()) {
NS_WARNING("Attempt to __delete__ missing or closed actor");
return false;
}
UniquePtr<IPC::Message> msg__ = PTestSelfManage::Msg___delete__((actor)->Id());
IPC::MessageWriter writer__{
(*(msg__)),
actor};
if (mozilla::ipc::LoggingEnabledFor("PTestSelfManage", mozilla::ipc::ParentSide)) {
mozilla::ipc::LogMessageForProtocol(
"PTestSelfManageParent",
actor->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PTestSelfManage::Msg___delete__", OTHER);
bool sendok__ = (actor)->ChannelSend(std::move(msg__));
actor->ActorDisconnected(Deletion);
return sendok__;
}
auto PTestSelfManageParent::RemoveManagee(
int32_t aProtocolId,
IProtocol* aListener) -> void
{
switch (aProtocolId) {
case PTestSelfManageMsgStart:
MOZ_ALWAYS_TRUE(mManagedPTestSelfManageParent.EnsureRemoved(static_cast<PTestSelfManageParent*>(aListener)));
return;
default:
FatalError("unreached");
return; }
}
auto PTestSelfManageParent::DeallocManagee(
int32_t aProtocolId,
IProtocol* aListener) -> void
{
switch (aProtocolId) {
default:
FatalError("unreached");
return;
}
}
auto PTestSelfManageParent::OnMessageReceived(const Message& msg__) -> PTestSelfManageParent::Result
{
switch (msg__.type()) {
case MANAGED_ENDPOINT_BOUND_MESSAGE_TYPE:
{
if (!mAwaitingManagedEndpointBind) {
NS_WARNING("Unexpected managed endpoint lifecycle message after actor bound!");
return MsgNotAllowed;
}
mAwaitingManagedEndpointBind = false;
return MsgProcessed;
}
case MANAGED_ENDPOINT_DROPPED_MESSAGE_TYPE:
{
if (!mAwaitingManagedEndpointBind) {
NS_WARNING("Unexpected managed endpoint lifecycle message after actor bound!");
return MsgNotAllowed;
}
mAwaitingManagedEndpointBind = false;
this->ActorDisconnected(ManagedEndpointDropped);
return MsgProcessed;
}
case PTestSelfManage::Reply_PTestSelfManageConstructor__ID:
{
return MsgProcessed;
}
case PTestSelfManage::Reply___delete____ID:
{
return MsgProcessed;
}
default:
return MsgNotKnown;
}
}
auto PTestSelfManageParent::OnMessageReceived(
const Message& msg__,
UniquePtr<Message>& reply__) -> PTestSelfManageParent::Result
{
MOZ_ASSERT_UNREACHABLE("message protocol not supported");
return MsgNotKnown;
}
auto PTestSelfManageParent::DoomSubtree() -> void
{
for (auto* key : mManagedPTestSelfManageParent) {
key->DoomSubtree();
}
SetDoomed();
}
auto PTestSelfManageParent::PeekManagedActor() -> IProtocol*
{
if (IProtocol* actor = mManagedPTestSelfManageParent.Peek()) {
return actor;
}
return nullptr;
}
} // namespace _ipdltest
} // namespace mozilla
namespace IPC {
auto ParamTraits<::mozilla::_ipdltest::PTestSelfManageParent*>::Write(
IPC::MessageWriter* aWriter,
const paramType& aVar) -> void
{
MOZ_RELEASE_ASSERT(
aWriter->GetActor(),
"Cannot serialize managed actors without an actor");
int32_t id;
if (!aVar) {
id = 0; // kNullActorId
} else {
id = aVar->Id();
if (id == 1) { // kFreedActorId
aVar->FatalError("Actor has been |delete|d");
}
MOZ_RELEASE_ASSERT(
aWriter->GetActor()->GetIPCChannel() == aVar->GetIPCChannel(),
"Actor must be from the same channel as the"
" actor it's being sent over");
MOZ_RELEASE_ASSERT(
aVar->CanSend(),
"Actor must still be open when sending");
}
IPC::WriteParam(aWriter, id);
}
auto ParamTraits<::mozilla::_ipdltest::PTestSelfManageParent*>::Read(IPC::MessageReader* aReader) -> IPC::ReadResult<paramType>
{
MOZ_RELEASE_ASSERT(
aReader->GetActor(),
"Cannot deserialize managed actors without an actor");
mozilla::Maybe<mozilla::ipc::IProtocol*> actor = aReader->GetActor()
->ReadActor(aReader, true, "PTestSelfManage", PTestSelfManageMsgStart);
if (actor.isSome()) {
return static_cast<::mozilla::_ipdltest::PTestSelfManageParent*>(actor.ref());
}
return {};
}
} // namespace IPC