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fune/dom/webgpu/ipc/WebGPUChild.cpp
Brad Werth 02b7d3567c Bug 1865921 Part 1: Make WebGPUParent supply a device lost callback. r=ErichDonGubler,webgpu-reviewers,nical 
This patch makes several changes:

1) It modifies WebGPUParent::RecvAdapterRequestDevice to additionally
send a device lost callback to wgpu. The user data for this callback is
stored within WebGPUParent as a hash of unique_ptr memory, which allows
for the possibility that wgpu will not call the callback (though it
should). When the callback is received, this memory is cleared. When the
WebGPUParent is destroyed, it asserts that there is no remaining held
memory for pending callbacks. These callbacks also check a WeakPtr to
the parent as additional safety.

2) It corrects some behavior in Device::ResolveLost where checking the
existence of the underlying JS object is moved earlier, since later
operations on the promise require the JS object to exist.

Differential Revision: https://phabricator.services.mozilla.com/D194310
2024-01-25 23:52:24 +00:00

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/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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 "WebGPUChild.h"
#include "js/RootingAPI.h"
#include "js/String.h"
#include "js/TypeDecls.h"
#include "js/Value.h"
#include "js/Warnings.h" // JS::WarnUTF8
#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/EnumTypeTraits.h"
#include "mozilla/dom/Promise.h"
#include "mozilla/dom/ScriptSettings.h"
#include "mozilla/dom/WebGPUBinding.h"
#include "mozilla/dom/GPUUncapturedErrorEvent.h"
#include "mozilla/webgpu/ValidationError.h"
#include "mozilla/webgpu/WebGPUTypes.h"
#include "mozilla/webgpu/ffi/wgpu.h"
#include "Adapter.h"
#include "DeviceLostInfo.h"
#include "PipelineLayout.h"
#include "Sampler.h"
#include "CompilationInfo.h"
#include "mozilla/ipc/RawShmem.h"
#include "Utility.h"
#include <utility>
namespace mozilla::webgpu {
NS_IMPL_CYCLE_COLLECTION(WebGPUChild)
void WebGPUChild::JsWarning(nsIGlobalObject* aGlobal,
const nsACString& aMessage) {
const auto& flatString = PromiseFlatCString(aMessage);
if (aGlobal) {
dom::AutoJSAPI api;
if (api.Init(aGlobal)) {
JS::WarnUTF8(api.cx(), "%s", flatString.get());
}
} else {
printf_stderr("Validation error without device target: %s\n",
flatString.get());
}
}
static UniquePtr<ffi::WGPUClient> initialize() {
ffi::WGPUInfrastructure infra = ffi::wgpu_client_new();
return UniquePtr<ffi::WGPUClient>{infra.client};
}
WebGPUChild::WebGPUChild() : mClient(initialize()) {}
WebGPUChild::~WebGPUChild() = default;
RefPtr<AdapterPromise> WebGPUChild::InstanceRequestAdapter(
const dom::GPURequestAdapterOptions& aOptions) {
const int max_ids = 10;
RawId ids[max_ids] = {0};
unsigned long count =
ffi::wgpu_client_make_adapter_ids(mClient.get(), ids, max_ids);
nsTArray<RawId> sharedIds(count);
for (unsigned long i = 0; i != count; ++i) {
sharedIds.AppendElement(ids[i]);
}
return SendInstanceRequestAdapter(aOptions, sharedIds)
->Then(
GetCurrentSerialEventTarget(), __func__,
[](ipc::ByteBuf&& aInfoBuf) {
// Ideally, we'd just send an empty ByteBuf, but the IPC code
// complains if the capacity is zero...
// So for the case where an adapter wasn't found, we just
// transfer a single 0u64 in this buffer.
return aInfoBuf.mLen > sizeof(uint64_t)
? AdapterPromise::CreateAndResolve(std::move(aInfoBuf),
__func__)
: AdapterPromise::CreateAndReject(Nothing(), __func__);
},
[](const ipc::ResponseRejectReason& aReason) {
return AdapterPromise::CreateAndReject(Some(aReason), __func__);
});
}
Maybe<DeviceRequest> WebGPUChild::AdapterRequestDevice(
RawId aSelfId, const ffi::WGPUDeviceDescriptor& aDesc) {
RawId id = ffi::wgpu_client_make_device_id(mClient.get(), aSelfId);
ByteBuf bb;
ffi::wgpu_client_serialize_device_descriptor(&aDesc, ToFFI(&bb));
DeviceRequest request;
request.mId = id;
request.mPromise = SendAdapterRequestDevice(aSelfId, std::move(bb), id);
return Some(std::move(request));
}
RawId WebGPUChild::RenderBundleEncoderFinish(
ffi::WGPURenderBundleEncoder& aEncoder, RawId aDeviceId,
const dom::GPURenderBundleDescriptor& aDesc) {
ffi::WGPURenderBundleDescriptor desc = {};
webgpu::StringHelper label(aDesc.mLabel);
desc.label = label.Get();
ipc::ByteBuf bb;
RawId id = ffi::wgpu_client_create_render_bundle(
mClient.get(), &aEncoder, aDeviceId, &desc, ToFFI(&bb));
if (!SendDeviceAction(aDeviceId, std::move(bb))) {
MOZ_CRASH("IPC failure");
}
return id;
}
RawId WebGPUChild::RenderBundleEncoderFinishError(RawId aDeviceId,
const nsString& aLabel) {
webgpu::StringHelper label(aLabel);
ipc::ByteBuf bb;
RawId id = ffi::wgpu_client_create_render_bundle_error(
mClient.get(), aDeviceId, label.Get(), ToFFI(&bb));
if (!SendDeviceAction(aDeviceId, std::move(bb))) {
MOZ_CRASH("IPC failure");
}
return id;
}
ipc::IPCResult WebGPUChild::RecvUncapturedError(const Maybe<RawId> aDeviceId,
const nsACString& aMessage) {
RefPtr<Device> device;
if (aDeviceId) {
const auto itr = mDeviceMap.find(*aDeviceId);
if (itr != mDeviceMap.end()) {
device = itr->second.get();
MOZ_ASSERT(device);
}
}
if (!device) {
JsWarning(nullptr, aMessage);
} else {
// We don't want to spam the errors to the console indefinitely
if (device->CheckNewWarning(aMessage)) {
JsWarning(device->GetOwnerGlobal(), aMessage);
dom::GPUUncapturedErrorEventInit init;
init.mError = new ValidationError(device->GetParentObject(), aMessage);
RefPtr<mozilla::dom::GPUUncapturedErrorEvent> event =
dom::GPUUncapturedErrorEvent::Constructor(
device, u"uncapturederror"_ns, init);
device->DispatchEvent(*event);
}
}
return IPC_OK();
}
ipc::IPCResult WebGPUChild::RecvDropAction(const ipc::ByteBuf& aByteBuf) {
const auto* byteBuf = ToFFI(&aByteBuf);
ffi::wgpu_client_drop_action(mClient.get(), byteBuf);
return IPC_OK();
}
ipc::IPCResult WebGPUChild::RecvDeviceLost(RawId aDeviceId,
Maybe<uint8_t> aReason,
const nsACString& aMessage) {
RefPtr<Device> device;
const auto itr = mDeviceMap.find(aDeviceId);
if (itr != mDeviceMap.end()) {
device = itr->second.get();
MOZ_ASSERT(device);
}
if (device) {
auto message = NS_ConvertUTF8toUTF16(aMessage);
if (aReason.isSome()) {
dom::GPUDeviceLostReason reason =
static_cast<dom::GPUDeviceLostReason>(*aReason);
device->ResolveLost(Some(reason), message);
} else {
device->ResolveLost(Nothing(), message);
}
}
return IPC_OK();
}
void WebGPUChild::DeviceCreateSwapChain(
RawId aSelfId, const RGBDescriptor& aRgbDesc, size_t maxBufferCount,
const layers::RemoteTextureOwnerId& aOwnerId,
bool aUseExternalTextureInSwapChain) {
RawId queueId = aSelfId; // TODO: multiple queues
nsTArray<RawId> bufferIds(maxBufferCount);
for (size_t i = 0; i < maxBufferCount; ++i) {
bufferIds.AppendElement(
ffi::wgpu_client_make_buffer_id(mClient.get(), aSelfId));
}
SendDeviceCreateSwapChain(aSelfId, queueId, aRgbDesc, bufferIds, aOwnerId,
aUseExternalTextureInSwapChain);
}
void WebGPUChild::QueueOnSubmittedWorkDone(
const RawId aSelfId, const RefPtr<dom::Promise>& aPromise) {
SendQueueOnSubmittedWorkDone(aSelfId)->Then(
GetCurrentSerialEventTarget(), __func__,
[aPromise]() { aPromise->MaybeResolveWithUndefined(); },
[aPromise](const ipc::ResponseRejectReason& aReason) {
aPromise->MaybeRejectWithNotSupportedError("IPC error");
});
}
void WebGPUChild::SwapChainPresent(RawId aTextureId,
const RemoteTextureId& aRemoteTextureId,
const RemoteTextureOwnerId& aOwnerId) {
// Hack: the function expects `DeviceId`, but it only uses it for `backend()`
// selection.
RawId encoderId = ffi::wgpu_client_make_encoder_id(mClient.get(), aTextureId);
SendSwapChainPresent(aTextureId, encoderId, aRemoteTextureId, aOwnerId);
}
void WebGPUChild::RegisterDevice(Device* const aDevice) {
mDeviceMap.insert({aDevice->mId, aDevice});
}
void WebGPUChild::UnregisterDevice(RawId aDeviceId) {
if (IsOpen()) {
SendDeviceDrop(aDeviceId);
}
mDeviceMap.erase(aDeviceId);
}
void WebGPUChild::FreeUnregisteredInParentDevice(RawId aId) {
ffi::wgpu_client_kill_device_id(mClient.get(), aId);
mDeviceMap.erase(aId);
}
void WebGPUChild::ActorDestroy(ActorDestroyReason) {
// Resolving the promise could cause us to update the original map if the
// callee frees the Device objects immediately. Since any remaining entries
// in the map are no longer valid, we can just move the map onto the stack.
const auto deviceMap = std::move(mDeviceMap);
mDeviceMap.clear();
for (const auto& targetIter : deviceMap) {
RefPtr<Device> device = targetIter.second.get();
if (!device) {
// The Device may have gotten freed when we resolved the Promise for
// another Device in the map.
continue;
}
device->ResolveLost(Nothing(), u"WebGPUChild destroyed"_ns);
}
}
void WebGPUChild::QueueSubmit(RawId aSelfId, RawId aDeviceId,
nsTArray<RawId>& aCommandBuffers) {
SendQueueSubmit(aSelfId, aDeviceId, aCommandBuffers,
mSwapChainTexturesWaitingForSubmit);
mSwapChainTexturesWaitingForSubmit.Clear();
}
void WebGPUChild::NotifyWaitForSubmit(RawId aTextureId) {
mSwapChainTexturesWaitingForSubmit.AppendElement(aTextureId);
}
} // namespace mozilla::webgpu
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