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//
// Automatically generated by ipdlc.
// Edit at your own risk
//
#include "mozilla/ipc/PIdleSchedulerChild.h"
#include "mozilla/ProfilerLabels.h"
#include "mozilla/ipc/IdleSchedulerChild.h"
#include "mozilla/ipc/PBackgroundChild.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 ipc {
MOZ_IMPLICIT PIdleSchedulerChild::PIdleSchedulerChild() :
mozilla::ipc::IRefCountedProtocol(kProtocolId, mozilla::ipc::ChildSide)
{
MOZ_COUNT_CTOR(PIdleSchedulerChild);
}
PIdleSchedulerChild::~PIdleSchedulerChild()
{
MOZ_COUNT_DTOR(PIdleSchedulerChild);
}
auto PIdleSchedulerChild::ActorAlloc() -> void
{
AddRef();
}
auto PIdleSchedulerChild::ActorDealloc() -> void
{
Release();
}
auto PIdleSchedulerChild::OtherPid() const -> ::base::ProcessId
{
::base::ProcessId pid =
::mozilla::ipc::IProtocol::ToplevelProtocol()->OtherPidMaybeInvalid();
MOZ_RELEASE_ASSERT(pid != ::base::kInvalidProcessId);
return pid;
}
auto PIdleSchedulerChild::OtherChildID() const -> ::GeckoChildID
{
::GeckoChildID childID =
::mozilla::ipc::IProtocol::ToplevelProtocol()->OtherChildIDMaybeInvalid();
MOZ_RELEASE_ASSERT(childID != -1);
return childID;
}
auto PIdleSchedulerChild::OtherEndpointProcInfo() const -> ::mozilla::ipc::EndpointProcInfo
{
return ::mozilla::ipc::EndpointProcInfo{OtherPid(), OtherChildID()};
}
auto PIdleSchedulerChild::Manager() const -> PBackgroundChild*
{
return static_cast<PBackgroundChild*>(IProtocol::Manager());
}
auto PIdleSchedulerChild::ManagedProtocolIds() const -> mozilla::Span<mozilla::ipc::ProtocolId const>
{
return {};
}
auto PIdleSchedulerChild::GetManagedActors(mozilla::ipc::ProtocolId aProtocol) -> UntypedManagedContainer*
{
switch (aProtocol) {
default:
return nullptr;
}
}
auto PIdleSchedulerChild::RejectPendingResponses(ResponseRejectReason aReason) -> void
{
mAsyncCallbacks.RejectPendingResponses(aReason);
}
auto PIdleSchedulerChild::SendInitForIdleUse(
mozilla::ipc::ResolveCallback<std::tuple<mozilla::Maybe<SharedMemoryHandle>, uint32_t>>&& aResolve,
mozilla::ipc::RejectCallback&& aReject) -> void
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_InitForIdleUse(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_InitForIdleUse", OTHER);
int32_t seqno__ = 0;
if (ChannelSend(std::move(msg__), (&(seqno__)))) {
mAsyncCallbacks.AddCallback(seqno__, PIdleScheduler::Reply_InitForIdleUse__ID, [resolve=std::move(aResolve)](IPC::MessageReader* aReader) mutable {
auto maybe__state = IPC::ReadParam<mozilla::Maybe<SharedMemoryHandle>>(aReader);
if (!maybe__state) {
(aReader)->FatalError("Error deserializing 'SharedMemoryHandle?'");
return MsgValueError;
}
auto& state = *maybe__state;
// Sentinel = 'state'
if ((!((aReader)->ReadSentinel(109314594)))) {
mozilla::ipc::SentinelReadError("Error deserializing 'SharedMemoryHandle?'");
return MsgValueError;
}
auto maybe__childId = IPC::ReadParam<uint32_t>(aReader);
if (!maybe__childId) {
(aReader)->FatalError("Error deserializing 'uint32_t'");
return MsgValueError;
}
auto& childId = *maybe__childId;
// Sentinel = 'childId'
if ((!((aReader)->ReadSentinel(185270962)))) {
mozilla::ipc::SentinelReadError("Error deserializing 'uint32_t'");
return MsgValueError;
}
aReader->EndRead();
resolve(std::make_tuple(std::move(state), std::move(childId)));
return MsgProcessed;
}, std::move(aReject));
}
else {
aReject(::mozilla::ipc::ResponseRejectReason::SendError);
}
return;
}
auto PIdleSchedulerChild::SendInitForIdleUse() -> RefPtr<InitForIdleUsePromise>
{
RefPtr<MozPromise<std::tuple<mozilla::Maybe<SharedMemoryHandle>, uint32_t>, ResponseRejectReason, true>::Private> promise__ = new MozPromise<std::tuple<mozilla::Maybe<SharedMemoryHandle>, uint32_t>, ResponseRejectReason, true>::Private(__func__);
promise__->UseDirectTaskDispatch(__func__);
SendInitForIdleUse([promise__](std::tuple<mozilla::Maybe<SharedMemoryHandle>, uint32_t>&& aValue) {
promise__->Resolve(std::move(aValue), __func__);
}, [promise__](ResponseRejectReason&& aReason) {
promise__->Reject(std::move(aReason), __func__);
});
return promise__;
}
auto PIdleSchedulerChild::SendRequestIdleTime(
const uint64_t& id,
const TimeDuration& budget) -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_RequestIdleTime(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
IPC::WriteParam((&(writer__)), id);
// Sentinel = 'id'
((&(writer__)))->WriteSentinel(20447438);
IPC::WriteParam((&(writer__)), budget);
// Sentinel = 'budget'
((&(writer__)))->WriteSentinel(144573052);
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_RequestIdleTime", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::SendIdleTimeUsed(const uint64_t& id) -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_IdleTimeUsed(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
IPC::WriteParam((&(writer__)), id);
// Sentinel = 'id'
((&(writer__)))->WriteSentinel(20447438);
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_IdleTimeUsed", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::SendSchedule() -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_Schedule(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_Schedule", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::SendRunningPrioritizedOperation() -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_RunningPrioritizedOperation(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_RunningPrioritizedOperation", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::SendPrioritizedOperationDone() -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_PrioritizedOperationDone(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_PrioritizedOperationDone", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::SendRequestGC(
mozilla::ipc::ResolveCallback<bool>&& aResolve,
mozilla::ipc::RejectCallback&& aReject) -> void
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_RequestGC(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_RequestGC", OTHER);
int32_t seqno__ = 0;
if (ChannelSend(std::move(msg__), (&(seqno__)))) {
mAsyncCallbacks.AddCallback(seqno__, PIdleScheduler::Reply_RequestGC__ID, [resolve=std::move(aResolve)](IPC::MessageReader* aReader) mutable {
auto maybe__may_gc = IPC::ReadParam<bool>(aReader);
if (!maybe__may_gc) {
(aReader)->FatalError("Error deserializing 'bool'");
return MsgValueError;
}
auto& may_gc = *maybe__may_gc;
// Sentinel = 'may_gc'
if ((!((aReader)->ReadSentinel(145425009)))) {
mozilla::ipc::SentinelReadError("Error deserializing 'bool'");
return MsgValueError;
}
aReader->EndRead();
resolve(std::move(may_gc));
return MsgProcessed;
}, std::move(aReject));
}
else {
aReject(::mozilla::ipc::ResponseRejectReason::SendError);
}
return;
}
auto PIdleSchedulerChild::SendRequestGC() -> RefPtr<RequestGCPromise>
{
RefPtr<MozPromise<bool, ResponseRejectReason, true>::Private> promise__ = new MozPromise<bool, ResponseRejectReason, true>::Private(__func__);
promise__->UseDirectTaskDispatch(__func__);
SendRequestGC([promise__](bool&& aValue) {
promise__->Resolve(std::move(aValue), __func__);
}, [promise__](ResponseRejectReason&& aReason) {
promise__->Reject(std::move(aReason), __func__);
});
return promise__;
}
auto PIdleSchedulerChild::SendStartedGC() -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_StartedGC(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_StartedGC", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::SendDoneGC() -> bool
{
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg_DoneGC(Id());
IPC::MessageWriter writer__{
(*(msg__)),
this};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_DoneGC", OTHER);
bool sendok__ = ChannelSend(std::move(msg__));
return sendok__;
}
auto PIdleSchedulerChild::Send__delete__(PIdleSchedulerChild* actor) -> bool
{
if (!actor || !actor->CanSend()) {
NS_WARNING("Attempt to __delete__ missing or closed actor");
return false;
}
UniquePtr<IPC::Message> msg__ = PIdleScheduler::Msg___delete__((actor)->Id());
IPC::MessageWriter writer__{
(*(msg__)),
actor};
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
actor->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Sending ",
msg__->type(),
mozilla::ipc::MessageDirection::eSending);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg___delete__", OTHER);
bool sendok__ = (actor)->ChannelSend(std::move(msg__));
actor->ActorDisconnected(Deletion);
return sendok__;
}
auto PIdleSchedulerChild::DeallocManagee(
int32_t aProtocolId,
IProtocol* aListener) -> void
{
FatalError("unreached");
return;
}
auto PIdleSchedulerChild::OnMessageReceived(const Message& msg__) -> PIdleSchedulerChild::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 PIdleScheduler::Msg_IdleTime__ID:
{
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Received ",
(&(msg__))->type(),
mozilla::ipc::MessageDirection::eReceiving);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_IdleTime", OTHER);
IPC::MessageReader reader__{
msg__,
this};
auto maybe__id = IPC::ReadParam<uint64_t>((&(reader__)));
if (!maybe__id) {
FatalError("Error deserializing 'uint64_t'");
return MsgValueError;
}
auto& id = *maybe__id;
// Sentinel = 'id'
if ((!(((&(reader__)))->ReadSentinel(20447438)))) {
mozilla::ipc::SentinelReadError("Error deserializing 'uint64_t'");
return MsgValueError;
}
auto maybe__budget = IPC::ReadParam<TimeDuration>((&(reader__)));
if (!maybe__budget) {
FatalError("Error deserializing 'TimeDuration'");
return MsgValueError;
}
auto& budget = *maybe__budget;
// Sentinel = 'budget'
if ((!(((&(reader__)))->ReadSentinel(144573052)))) {
mozilla::ipc::SentinelReadError("Error deserializing 'TimeDuration'");
return MsgValueError;
}
reader__.EndRead();
mozilla::ipc::IPCResult __ok = (static_cast<IdleSchedulerChild*>(this))->RecvIdleTime(std::move(id), std::move(budget));
if ((!(__ok))) {
mozilla::ipc::ProtocolErrorBreakpoint("Handler returned error code!");
// Error handled in mozilla::ipc::IPCResult
return MsgProcessingError;
}
return MsgProcessed;
}
case PIdleScheduler::Reply_InitForIdleUse__ID:
{
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Received ",
(&(msg__))->type(),
mozilla::ipc::MessageDirection::eReceiving);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_InitForIdleUse", OTHER);
return mAsyncCallbacks.GotReply(this, msg__);
}
case PIdleScheduler::Reply_RequestGC__ID:
{
if (mozilla::ipc::LoggingEnabledFor("PIdleScheduler", mozilla::ipc::ChildSide)) {
mozilla::ipc::LogMessageForProtocol(
"PIdleSchedulerChild",
this->ToplevelProtocol()->OtherPidMaybeInvalid(),
"Received ",
(&(msg__))->type(),
mozilla::ipc::MessageDirection::eReceiving);
}
AUTO_PROFILER_LABEL("PIdleScheduler::Msg_RequestGC", OTHER);
return mAsyncCallbacks.GotReply(this, msg__);
}
case PIdleScheduler::Reply___delete____ID:
{
return MsgProcessed;
}
default:
return MsgNotKnown;
}
}
auto PIdleSchedulerChild::OnMessageReceived(
const Message& msg__,
UniquePtr<Message>& reply__) -> PIdleSchedulerChild::Result
{
return MsgNotKnown;
}
} // namespace ipc
} // namespace mozilla
namespace IPC {
auto ParamTraits<::mozilla::ipc::PIdleSchedulerChild*>::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::ipc::PIdleSchedulerChild*>::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, "PIdleScheduler", PIdleSchedulerMsgStart);
if (actor.isSome()) {
return static_cast<::mozilla::ipc::PIdleSchedulerChild*>(actor.ref());
}
return {};
}
} // namespace IPC