blob: 5ff2ad13c69bab14b3766e85063042719cdace0d [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "gpu/ipc/service/gpu_command_buffer_stub.h"
#include <utility>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/hash.h"
#include "base/json/json_writer.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "base/memory/shared_memory.h"
#include "base/time/time.h"
#include "base/trace_event/trace_event.h"
#include "build/build_config.h"
#include "gpu/command_buffer/common/constants.h"
#include "gpu/command_buffer/common/gpu_memory_buffer_support.h"
#include "gpu/command_buffer/common/mailbox.h"
#include "gpu/command_buffer/common/sync_token.h"
#include "gpu/command_buffer/service/gl_context_virtual.h"
#include "gpu/command_buffer/service/gl_state_restorer_impl.h"
#include "gpu/command_buffer/service/image_manager.h"
#include "gpu/command_buffer/service/logger.h"
#include "gpu/command_buffer/service/mailbox_manager.h"
#include "gpu/command_buffer/service/memory_tracking.h"
#include "gpu/command_buffer/service/query_manager.h"
#include "gpu/command_buffer/service/sync_point_manager.h"
#include "gpu/command_buffer/service/transfer_buffer_manager.h"
#include "gpu/ipc/common/gpu_messages.h"
#include "gpu/ipc/service/gpu_channel.h"
#include "gpu/ipc/service/gpu_channel_manager.h"
#include "gpu/ipc/service/gpu_channel_manager_delegate.h"
#include "gpu/ipc/service/gpu_memory_manager.h"
#include "gpu/ipc/service/gpu_memory_tracking.h"
#include "gpu/ipc/service/gpu_watchdog.h"
#include "gpu/ipc/service/image_transport_surface.h"
#include "ui/gl/gl_bindings.h"
#include "ui/gl/gl_image.h"
#include "ui/gl/gl_implementation.h"
#include "ui/gl/gl_switches.h"
#if defined(OS_WIN)
#include "base/win/win_util.h"
#endif
#if defined(OS_ANDROID)
#include "gpu/ipc/service/stream_texture_android.h"
#endif
namespace gpu {
struct WaitForCommandState {
WaitForCommandState(int32_t start, int32_t end, IPC::Message* reply)
: start(start), end(end), reply(reply) {}
int32_t start;
int32_t end;
std::unique_ptr<IPC::Message> reply;
};
namespace {
// The GpuCommandBufferMemoryTracker class provides a bridge between the
// ContextGroup's memory type managers and the GpuMemoryManager class.
class GpuCommandBufferMemoryTracker : public gles2::MemoryTracker {
public:
explicit GpuCommandBufferMemoryTracker(GpuChannel* channel,
uint64_t share_group_tracing_guid)
: tracking_group_(
channel->gpu_channel_manager()
->gpu_memory_manager()
->CreateTrackingGroup(channel->GetClientPID(), this)),
client_tracing_id_(channel->client_tracing_id()),
client_id_(channel->client_id()),
share_group_tracing_guid_(share_group_tracing_guid) {}
void TrackMemoryAllocatedChange(
size_t old_size, size_t new_size) override {
tracking_group_->TrackMemoryAllocatedChange(
old_size, new_size);
}
bool EnsureGPUMemoryAvailable(size_t size_needed) override {
return tracking_group_->EnsureGPUMemoryAvailable(size_needed);
};
uint64_t ClientTracingId() const override { return client_tracing_id_; }
int ClientId() const override { return client_id_; }
uint64_t ShareGroupTracingGUID() const override {
return share_group_tracing_guid_;
}
private:
~GpuCommandBufferMemoryTracker() override {}
std::unique_ptr<GpuMemoryTrackingGroup> tracking_group_;
const uint64_t client_tracing_id_;
const int client_id_;
const uint64_t share_group_tracing_guid_;
DISALLOW_COPY_AND_ASSIGN(GpuCommandBufferMemoryTracker);
};
// FastSetActiveURL will shortcut the expensive call to SetActiveURL when the
// url_hash matches.
void FastSetActiveURL(const GURL& url, size_t url_hash, GpuChannel* channel) {
// Leave the previously set URL in the empty case -- empty URLs are given by
// BlinkPlatformImpl::createOffscreenGraphicsContext3DProvider. Hopefully the
// onscreen context URL was set previously and will show up even when a crash
// occurs during offscreen command processing.
if (url.is_empty())
return;
static size_t g_last_url_hash = 0;
if (url_hash != g_last_url_hash) {
g_last_url_hash = url_hash;
DCHECK(channel && channel->gpu_channel_manager() &&
channel->gpu_channel_manager()->delegate());
channel->gpu_channel_manager()->delegate()->SetActiveURL(url);
}
}
// The first time polling a fence, delay some extra time to allow other
// stubs to process some work, or else the timing of the fences could
// allow a pattern of alternating fast and slow frames to occur.
const int64_t kHandleMoreWorkPeriodMs = 2;
const int64_t kHandleMoreWorkPeriodBusyMs = 1;
// Prevents idle work from being starved.
const int64_t kMaxTimeSinceIdleMs = 10;
class DevToolsChannelData : public base::trace_event::ConvertableToTraceFormat {
public:
static std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
CreateForChannel(GpuChannel* channel);
~DevToolsChannelData() override {}
void AppendAsTraceFormat(std::string* out) const override {
std::string tmp;
base::JSONWriter::Write(*value_, &tmp);
*out += tmp;
}
private:
explicit DevToolsChannelData(base::Value* value) : value_(value) {}
std::unique_ptr<base::Value> value_;
DISALLOW_COPY_AND_ASSIGN(DevToolsChannelData);
};
std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
DevToolsChannelData::CreateForChannel(GpuChannel* channel) {
std::unique_ptr<base::DictionaryValue> res(new base::DictionaryValue);
res->SetInteger("renderer_pid", channel->GetClientPID());
res->SetDouble("used_bytes", channel->GetMemoryUsage());
return base::WrapUnique(new DevToolsChannelData(res.release()));
}
CommandBufferId GetCommandBufferID(int channel_id, int32_t route_id) {
return CommandBufferId::FromUnsafeValue(
(static_cast<uint64_t>(channel_id) << 32) | route_id);
}
} // namespace
GpuCommandBufferStub::GpuCommandBufferStub(
GpuChannel* channel,
SyncPointManager* sync_point_manager,
base::SingleThreadTaskRunner* task_runner,
GpuCommandBufferStub* share_group,
SurfaceHandle surface_handle,
gles2::MailboxManager* mailbox_manager,
PreemptionFlag* preempt_by_flag,
const gfx::Size& size,
const gles2::DisallowedFeatures& disallowed_features,
const std::vector<int32_t>& attribs,
gfx::GpuPreference gpu_preference,
int32_t stream_id,
int32_t route_id,
GpuWatchdog* watchdog,
const GURL& active_url)
: channel_(channel),
sync_point_manager_(sync_point_manager),
task_runner_(task_runner),
initialized_(false),
surface_handle_(surface_handle),
initial_size_(size),
disallowed_features_(disallowed_features),
requested_attribs_(attribs),
gpu_preference_(gpu_preference),
use_virtualized_gl_context_(false),
command_buffer_id_(GetCommandBufferID(channel->client_id(), route_id)),
stream_id_(stream_id),
route_id_(route_id),
last_flush_count_(0),
surface_format_(gfx::GLSurface::SURFACE_DEFAULT),
watchdog_(watchdog),
waiting_for_sync_point_(false),
previous_processed_num_(0),
preemption_flag_(preempt_by_flag),
active_url_(active_url) {
active_url_hash_ = base::Hash(active_url.possibly_invalid_spec());
FastSetActiveURL(active_url_, active_url_hash_, channel_);
gles2::ContextCreationAttribHelper attrib_parser;
attrib_parser.Parse(requested_attribs_);
if (share_group) {
context_group_ = share_group->context_group_;
DCHECK(context_group_->bind_generates_resource() ==
attrib_parser.bind_generates_resource);
} else {
scoped_refptr<gles2::FeatureInfo> feature_info = new gles2::FeatureInfo(
channel_->gpu_channel_manager()->gpu_driver_bug_workarounds());
context_group_ = new gles2::ContextGroup(
channel_->gpu_channel_manager()->gpu_preferences(), mailbox_manager,
new GpuCommandBufferMemoryTracker(channel,
command_buffer_id_.GetUnsafeValue()),
channel_->gpu_channel_manager()->shader_translator_cache(),
channel_->gpu_channel_manager()->framebuffer_completeness_cache(),
feature_info, attrib_parser.bind_generates_resource);
}
// Virtualize PreferIntegratedGpu contexts by default on OS X to prevent
// performance regressions when enabling FCM.
// http://crbug.com/180463
#if defined(OS_MACOSX)
if (gpu_preference_ == gfx::PreferIntegratedGpu)
use_virtualized_gl_context_ = true;
#endif
use_virtualized_gl_context_ |=
context_group_->feature_info()->workarounds().use_virtualized_gl_contexts;
// MailboxManagerSync synchronization correctness currently depends on having
// only a single context. See crbug.com/510243 for details.
use_virtualized_gl_context_ |= mailbox_manager->UsesSync();
#if defined(OS_ANDROID)
if (attrib_parser.red_size <= 5 &&
attrib_parser.green_size <= 6 &&
attrib_parser.blue_size <= 5 &&
attrib_parser.alpha_size == 0)
surface_format_ = gfx::GLSurface::SURFACE_RGB565;
gfx::GLSurface* defaultOffscreenSurface =
channel_->gpu_channel_manager()->GetDefaultOffscreenSurface();
bool is_onscreen = (surface_handle_ != kNullSurfaceHandle);
if (surface_format_ != defaultOffscreenSurface->GetFormat() && is_onscreen)
use_virtualized_gl_context_ = false;
#endif
if ((surface_handle_ == kNullSurfaceHandle) && initial_size_.IsEmpty()) {
// If we're an offscreen surface with zero width and/or height, set to a
// non-zero size so that we have a complete framebuffer for operations like
// glClear.
initial_size_ = gfx::Size(1, 1);
}
}
GpuCommandBufferStub::~GpuCommandBufferStub() {
Destroy();
}
GpuMemoryManager* GpuCommandBufferStub::GetMemoryManager() const {
return channel()->gpu_channel_manager()->gpu_memory_manager();
}
bool GpuCommandBufferStub::OnMessageReceived(const IPC::Message& message) {
TRACE_EVENT1(TRACE_DISABLED_BY_DEFAULT("devtools.timeline"),
"GPUTask",
"data",
DevToolsChannelData::CreateForChannel(channel()));
FastSetActiveURL(active_url_, active_url_hash_, channel_);
bool have_context = false;
// Ensure the appropriate GL context is current before handling any IPC
// messages directed at the command buffer. This ensures that the message
// handler can assume that the context is current (not necessary for
// RetireSyncPoint or WaitSyncPoint).
if (decoder_.get() &&
message.type() != GpuCommandBufferMsg_SetGetBuffer::ID &&
message.type() != GpuCommandBufferMsg_WaitForTokenInRange::ID &&
message.type() != GpuCommandBufferMsg_WaitForGetOffsetInRange::ID &&
message.type() != GpuCommandBufferMsg_RegisterTransferBuffer::ID &&
message.type() != GpuCommandBufferMsg_DestroyTransferBuffer::ID) {
if (!MakeCurrent())
return false;
have_context = true;
}
// Always use IPC_MESSAGE_HANDLER_DELAY_REPLY for synchronous message handlers
// here. This is so the reply can be delayed if the scheduler is unscheduled.
bool handled = true;
IPC_BEGIN_MESSAGE_MAP(GpuCommandBufferStub, message)
IPC_MESSAGE_HANDLER_DELAY_REPLY(GpuCommandBufferMsg_Initialize,
OnInitialize);
IPC_MESSAGE_HANDLER_DELAY_REPLY(GpuCommandBufferMsg_SetGetBuffer,
OnSetGetBuffer);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_ProduceFrontBuffer,
OnProduceFrontBuffer);
IPC_MESSAGE_HANDLER_DELAY_REPLY(GpuCommandBufferMsg_WaitForTokenInRange,
OnWaitForTokenInRange);
IPC_MESSAGE_HANDLER_DELAY_REPLY(GpuCommandBufferMsg_WaitForGetOffsetInRange,
OnWaitForGetOffsetInRange);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_AsyncFlush, OnAsyncFlush);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_RegisterTransferBuffer,
OnRegisterTransferBuffer);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_DestroyTransferBuffer,
OnDestroyTransferBuffer);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_SignalSyncToken,
OnSignalSyncToken)
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_SignalQuery,
OnSignalQuery)
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_CreateImage, OnCreateImage);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_DestroyImage, OnDestroyImage);
IPC_MESSAGE_HANDLER(GpuCommandBufferMsg_CreateStreamTexture,
OnCreateStreamTexture)
IPC_MESSAGE_UNHANDLED(handled = false)
IPC_END_MESSAGE_MAP()
CheckCompleteWaits();
// Ensure that any delayed work that was created will be handled.
if (have_context) {
if (executor_)
executor_->ProcessPendingQueries();
ScheduleDelayedWork(
base::TimeDelta::FromMilliseconds(kHandleMoreWorkPeriodMs));
}
return handled;
}
bool GpuCommandBufferStub::Send(IPC::Message* message) {
return channel_->Send(message);
}
bool GpuCommandBufferStub::IsScheduled() {
return (!executor_.get() || executor_->scheduled());
}
void GpuCommandBufferStub::PollWork() {
// Post another delayed task if we have not yet reached the time at which
// we should process delayed work.
base::TimeTicks current_time = base::TimeTicks::Now();
DCHECK(!process_delayed_work_time_.is_null());
if (process_delayed_work_time_ > current_time) {
task_runner_->PostDelayedTask(
FROM_HERE, base::Bind(&GpuCommandBufferStub::PollWork, AsWeakPtr()),
process_delayed_work_time_ - current_time);
return;
}
process_delayed_work_time_ = base::TimeTicks();
PerformWork();
}
void GpuCommandBufferStub::PerformWork() {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::PerformWork");
FastSetActiveURL(active_url_, active_url_hash_, channel_);
if (decoder_.get() && !MakeCurrent())
return;
if (executor_) {
uint32_t current_unprocessed_num =
channel()->gpu_channel_manager()->GetUnprocessedOrderNum();
// We're idle when no messages were processed or scheduled.
bool is_idle = (previous_processed_num_ == current_unprocessed_num);
if (!is_idle && !last_idle_time_.is_null()) {
base::TimeDelta time_since_idle =
base::TimeTicks::Now() - last_idle_time_;
base::TimeDelta max_time_since_idle =
base::TimeDelta::FromMilliseconds(kMaxTimeSinceIdleMs);
// Force idle when it's been too long since last time we were idle.
if (time_since_idle > max_time_since_idle)
is_idle = true;
}
if (is_idle) {
last_idle_time_ = base::TimeTicks::Now();
executor_->PerformIdleWork();
}
executor_->ProcessPendingQueries();
}
ScheduleDelayedWork(
base::TimeDelta::FromMilliseconds(kHandleMoreWorkPeriodBusyMs));
}
bool GpuCommandBufferStub::HasUnprocessedCommands() {
if (command_buffer_) {
CommandBuffer::State state = command_buffer_->GetLastState();
return command_buffer_->GetPutOffset() != state.get_offset &&
!error::IsError(state.error);
}
return false;
}
void GpuCommandBufferStub::ScheduleDelayedWork(base::TimeDelta delay) {
bool has_more_work = executor_.get() && (executor_->HasPendingQueries() ||
executor_->HasMoreIdleWork());
if (!has_more_work) {
last_idle_time_ = base::TimeTicks();
return;
}
base::TimeTicks current_time = base::TimeTicks::Now();
// |process_delayed_work_time_| is set if processing of delayed work is
// already scheduled. Just update the time if already scheduled.
if (!process_delayed_work_time_.is_null()) {
process_delayed_work_time_ = current_time + delay;
return;
}
// Idle when no messages are processed between now and when
// PollWork is called.
previous_processed_num_ =
channel()->gpu_channel_manager()->GetProcessedOrderNum();
if (last_idle_time_.is_null())
last_idle_time_ = current_time;
// IsScheduled() returns true after passing all unschedule fences
// and this is when we can start performing idle work. Idle work
// is done synchronously so we can set delay to 0 and instead poll
// for more work at the rate idle work is performed. This also ensures
// that idle work is done as efficiently as possible without any
// unnecessary delays.
if (executor_.get() && executor_->scheduled() &&
executor_->HasMoreIdleWork()) {
delay = base::TimeDelta();
}
process_delayed_work_time_ = current_time + delay;
task_runner_->PostDelayedTask(
FROM_HERE, base::Bind(&GpuCommandBufferStub::PollWork, AsWeakPtr()),
delay);
}
bool GpuCommandBufferStub::MakeCurrent() {
if (decoder_->MakeCurrent())
return true;
DLOG(ERROR) << "Context lost because MakeCurrent failed.";
command_buffer_->SetContextLostReason(decoder_->GetContextLostReason());
command_buffer_->SetParseError(error::kLostContext);
CheckContextLost();
return false;
}
void GpuCommandBufferStub::Destroy() {
if (wait_for_token_) {
Send(wait_for_token_->reply.release());
wait_for_token_.reset();
}
if (wait_for_get_offset_) {
Send(wait_for_get_offset_->reply.release());
wait_for_get_offset_.reset();
}
if (initialized_) {
GpuChannelManager* gpu_channel_manager = channel_->gpu_channel_manager();
// If we are currently shutting down the GPU process to help with recovery
// (exit_on_context_lost workaround), then don't tell the browser about
// offscreen context destruction here since it's not client-invoked, and
// might bypass the 3D API blocking logic.
if ((surface_handle_ == gpu::kNullSurfaceHandle) && !active_url_.is_empty()
&& !gpu_channel_manager->is_exiting_for_lost_context()) {
gpu_channel_manager->delegate()->DidDestroyOffscreenContext(active_url_);
}
}
if (decoder_)
decoder_->set_engine(NULL);
// The scheduler has raw references to the decoder and the command buffer so
// destroy it before those.
executor_.reset();
sync_point_client_.reset();
bool have_context = false;
if (decoder_ && decoder_->GetGLContext()) {
// Try to make the context current regardless of whether it was lost, so we
// don't leak resources.
have_context = decoder_->GetGLContext()->MakeCurrent(surface_.get());
}
FOR_EACH_OBSERVER(DestructionObserver,
destruction_observers_,
OnWillDestroyStub());
if (decoder_) {
decoder_->Destroy(have_context);
decoder_.reset();
}
command_buffer_.reset();
// Remove this after crbug.com/248395 is sorted out.
surface_ = NULL;
}
void GpuCommandBufferStub::OnInitializeFailed(IPC::Message* reply_message) {
Destroy();
GpuCommandBufferMsg_Initialize::WriteReplyParams(
reply_message, false, Capabilities());
Send(reply_message);
}
scoped_refptr<gfx::GLSurface> GpuCommandBufferStub::CreateSurface() {
GpuChannelManager* manager = channel_->gpu_channel_manager();
scoped_refptr<gfx::GLSurface> surface;
if (surface_handle_ != kNullSurfaceHandle) {
surface = ImageTransportSurface::CreateNativeSurface(
manager, this, surface_handle_, surface_format_);
if (!surface || !surface->Initialize(surface_format_))
return nullptr;
} else {
surface = manager->GetDefaultOffscreenSurface();
}
return surface;
}
void GpuCommandBufferStub::OnInitialize(
base::SharedMemoryHandle shared_state_handle,
IPC::Message* reply_message) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnInitialize");
DCHECK(!command_buffer_.get());
std::unique_ptr<base::SharedMemory> shared_state_shm(
new base::SharedMemory(shared_state_handle, false));
command_buffer_.reset(new CommandBufferService(
context_group_->transfer_buffer_manager()));
GpuChannelManager* manager = channel_->gpu_channel_manager();
DCHECK(manager);
decoder_.reset(gles2::GLES2Decoder::Create(context_group_.get()));
executor_.reset(new CommandExecutor(command_buffer_.get(), decoder_.get(),
decoder_.get()));
sync_point_client_ = sync_point_manager_->CreateSyncPointClient(
channel_->GetSyncPointOrderData(stream_id_),
CommandBufferNamespace::GPU_IO, command_buffer_id_);
if (preemption_flag_.get())
executor_->SetPreemptByFlag(preemption_flag_);
decoder_->set_engine(executor_.get());
surface_ = CreateSurface();
if (!surface_.get()) {
DLOG(ERROR) << "Failed to create surface.";
OnInitializeFailed(reply_message);
return;
}
scoped_refptr<gfx::GLContext> context;
gfx::GLShareGroup* share_group = channel_->share_group();
if (use_virtualized_gl_context_ && share_group) {
context = share_group->GetSharedContext();
if (!context.get()) {
context = gfx::GLContext::CreateGLContext(
share_group,
channel_->gpu_channel_manager()->GetDefaultOffscreenSurface(),
gpu_preference_);
if (!context.get()) {
DLOG(ERROR) << "Failed to create shared context for virtualization.";
OnInitializeFailed(reply_message);
return;
}
// Ensure that context creation did not lose track of the intended
// share_group.
DCHECK(context->share_group() == share_group);
share_group->SetSharedContext(context.get());
}
// This should be either:
// (1) a non-virtual GL context, or
// (2) a mock context.
DCHECK(context->GetHandle() ||
gfx::GetGLImplementation() == gfx::kGLImplementationMockGL);
context = new GLContextVirtual(
share_group, context.get(), decoder_->AsWeakPtr());
if (!context->Initialize(surface_.get(), gpu_preference_)) {
// The real context created above for the default offscreen surface
// might not be compatible with this surface.
context = NULL;
DLOG(ERROR) << "Failed to initialize virtual GL context.";
OnInitializeFailed(reply_message);
return;
}
}
if (!context.get()) {
context = gfx::GLContext::CreateGLContext(
share_group, surface_.get(), gpu_preference_);
}
if (!context.get()) {
DLOG(ERROR) << "Failed to create context.";
OnInitializeFailed(reply_message);
return;
}
if (!context->MakeCurrent(surface_.get())) {
LOG(ERROR) << "Failed to make context current.";
OnInitializeFailed(reply_message);
return;
}
if (!context->GetGLStateRestorer()) {
context->SetGLStateRestorer(
new GLStateRestorerImpl(decoder_->AsWeakPtr()));
}
if (!context_group_->has_program_cache() &&
!context_group_->feature_info()->workarounds().disable_program_cache) {
context_group_->set_program_cache(
channel_->gpu_channel_manager()->program_cache());
}
// Initialize the decoder with either the view or pbuffer GLContext.
bool offscreen = (surface_handle_ == kNullSurfaceHandle);
if (!decoder_->Initialize(surface_, context, offscreen, initial_size_,
disallowed_features_, requested_attribs_)) {
DLOG(ERROR) << "Failed to initialize decoder.";
OnInitializeFailed(reply_message);
return;
}
if (channel_->gpu_channel_manager()->
gpu_preferences().enable_gpu_service_logging) {
decoder_->set_log_commands(true);
}
decoder_->GetLogger()->SetMsgCallback(
base::Bind(&GpuCommandBufferStub::SendConsoleMessage,
base::Unretained(this)));
decoder_->SetShaderCacheCallback(
base::Bind(&GpuCommandBufferStub::SendCachedShader,
base::Unretained(this)));
decoder_->SetFenceSyncReleaseCallback(base::Bind(
&GpuCommandBufferStub::OnFenceSyncRelease, base::Unretained(this)));
decoder_->SetWaitFenceSyncCallback(base::Bind(
&GpuCommandBufferStub::OnWaitFenceSync, base::Unretained(this)));
command_buffer_->SetPutOffsetChangeCallback(
base::Bind(&GpuCommandBufferStub::PutChanged, base::Unretained(this)));
command_buffer_->SetGetBufferChangeCallback(base::Bind(
&CommandExecutor::SetGetBuffer, base::Unretained(executor_.get())));
command_buffer_->SetParseErrorCallback(
base::Bind(&GpuCommandBufferStub::OnParseError, base::Unretained(this)));
if (watchdog_) {
executor_->SetCommandProcessedCallback(base::Bind(
&GpuCommandBufferStub::OnCommandProcessed, base::Unretained(this)));
}
const size_t kSharedStateSize = sizeof(CommandBufferSharedState);
if (!shared_state_shm->Map(kSharedStateSize)) {
DLOG(ERROR) << "Failed to map shared state buffer.";
OnInitializeFailed(reply_message);
return;
}
command_buffer_->SetSharedStateBuffer(MakeBackingFromSharedMemory(
std::move(shared_state_shm), kSharedStateSize));
Capabilities capabilities = decoder_->GetCapabilities();
GpuCommandBufferMsg_Initialize::WriteReplyParams(
reply_message, true, capabilities);
Send(reply_message);
if ((surface_handle_ == kNullSurfaceHandle) && !active_url_.is_empty())
manager->delegate()->DidCreateOffscreenContext(active_url_);
initialized_ = true;
}
void GpuCommandBufferStub::OnCreateStreamTexture(uint32_t texture_id,
int32_t stream_id,
bool* succeeded) {
#if defined(OS_ANDROID)
*succeeded = StreamTexture::Create(this, texture_id, stream_id);
#else
*succeeded = false;
#endif
}
void GpuCommandBufferStub::SetLatencyInfoCallback(
const LatencyInfoCallback& callback) {
latency_info_callback_ = callback;
}
int32_t GpuCommandBufferStub::GetRequestedAttribute(int attr) const {
// The command buffer is pairs of enum, value
// search for the requested attribute, return the value.
for (std::vector<int32_t>::const_iterator it = requested_attribs_.begin();
it != requested_attribs_.end(); ++it) {
if (*it++ == attr) {
return *it;
}
}
return -1;
}
void GpuCommandBufferStub::OnSetGetBuffer(int32_t shm_id,
IPC::Message* reply_message) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnSetGetBuffer");
if (command_buffer_)
command_buffer_->SetGetBuffer(shm_id);
Send(reply_message);
}
void GpuCommandBufferStub::OnProduceFrontBuffer(const Mailbox& mailbox) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnProduceFrontBuffer");
if (!decoder_) {
LOG(ERROR) << "Can't produce front buffer before initialization.";
return;
}
decoder_->ProduceFrontBuffer(mailbox);
}
void GpuCommandBufferStub::OnParseError() {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnParseError");
DCHECK(command_buffer_.get());
CommandBuffer::State state = command_buffer_->GetLastState();
IPC::Message* msg = new GpuCommandBufferMsg_Destroyed(
route_id_, state.context_lost_reason, state.error);
msg->set_unblock(true);
Send(msg);
// Tell the browser about this context loss as well, so it can
// determine whether client APIs like WebGL need to be immediately
// blocked from automatically running.
GpuChannelManager* gpu_channel_manager = channel_->gpu_channel_manager();
gpu_channel_manager->delegate()->DidLoseContext(
(surface_handle_ == kNullSurfaceHandle), state.context_lost_reason,
active_url_);
CheckContextLost();
}
void GpuCommandBufferStub::OnWaitForTokenInRange(int32_t start,
int32_t end,
IPC::Message* reply_message) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnWaitForTokenInRange");
DCHECK(command_buffer_.get());
CheckContextLost();
if (wait_for_token_)
LOG(ERROR) << "Got WaitForToken command while currently waiting for token.";
wait_for_token_ =
base::WrapUnique(new WaitForCommandState(start, end, reply_message));
CheckCompleteWaits();
}
void GpuCommandBufferStub::OnWaitForGetOffsetInRange(
int32_t start,
int32_t end,
IPC::Message* reply_message) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnWaitForGetOffsetInRange");
DCHECK(command_buffer_.get());
CheckContextLost();
if (wait_for_get_offset_) {
LOG(ERROR)
<< "Got WaitForGetOffset command while currently waiting for offset.";
}
wait_for_get_offset_ =
base::WrapUnique(new WaitForCommandState(start, end, reply_message));
CheckCompleteWaits();
}
void GpuCommandBufferStub::CheckCompleteWaits() {
if (wait_for_token_ || wait_for_get_offset_) {
CommandBuffer::State state = command_buffer_->GetLastState();
if (wait_for_token_ &&
(CommandBuffer::InRange(
wait_for_token_->start, wait_for_token_->end, state.token) ||
state.error != error::kNoError)) {
ReportState();
GpuCommandBufferMsg_WaitForTokenInRange::WriteReplyParams(
wait_for_token_->reply.get(), state);
Send(wait_for_token_->reply.release());
wait_for_token_.reset();
}
if (wait_for_get_offset_ &&
(CommandBuffer::InRange(wait_for_get_offset_->start,
wait_for_get_offset_->end,
state.get_offset) ||
state.error != error::kNoError)) {
ReportState();
GpuCommandBufferMsg_WaitForGetOffsetInRange::WriteReplyParams(
wait_for_get_offset_->reply.get(), state);
Send(wait_for_get_offset_->reply.release());
wait_for_get_offset_.reset();
}
}
}
void GpuCommandBufferStub::OnAsyncFlush(
int32_t put_offset,
uint32_t flush_count,
const std::vector<ui::LatencyInfo>& latency_info) {
TRACE_EVENT1(
"gpu", "GpuCommandBufferStub::OnAsyncFlush", "put_offset", put_offset);
DCHECK(command_buffer_);
// We received this message out-of-order. This should not happen but is here
// to catch regressions. Ignore the message.
DVLOG_IF(0, flush_count - last_flush_count_ >= 0x8000000U)
<< "Received a Flush message out-of-order";
if (flush_count > last_flush_count_ &&
ui::LatencyInfo::Verify(latency_info,
"GpuCommandBufferStub::OnAsyncFlush") &&
!latency_info_callback_.is_null()) {
latency_info_callback_.Run(latency_info);
}
last_flush_count_ = flush_count;
CommandBuffer::State pre_state = command_buffer_->GetLastState();
command_buffer_->Flush(put_offset);
CommandBuffer::State post_state = command_buffer_->GetLastState();
if (pre_state.get_offset != post_state.get_offset)
ReportState();
#if defined(OS_ANDROID)
GpuChannelManager* manager = channel_->gpu_channel_manager();
manager->DidAccessGpu();
#endif
}
void GpuCommandBufferStub::OnRegisterTransferBuffer(
int32_t id,
base::SharedMemoryHandle transfer_buffer,
uint32_t size) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnRegisterTransferBuffer");
// Take ownership of the memory and map it into this process.
// This validates the size.
std::unique_ptr<base::SharedMemory> shared_memory(
new base::SharedMemory(transfer_buffer, false));
if (!shared_memory->Map(size)) {
DVLOG(0) << "Failed to map shared memory.";
return;
}
if (command_buffer_) {
command_buffer_->RegisterTransferBuffer(
id, MakeBackingFromSharedMemory(std::move(shared_memory), size));
}
}
void GpuCommandBufferStub::OnDestroyTransferBuffer(int32_t id) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnDestroyTransferBuffer");
if (command_buffer_)
command_buffer_->DestroyTransferBuffer(id);
}
void GpuCommandBufferStub::OnCommandProcessed() {
if (watchdog_)
watchdog_->CheckArmed();
}
void GpuCommandBufferStub::ReportState() { command_buffer_->UpdateState(); }
void GpuCommandBufferStub::PutChanged() {
FastSetActiveURL(active_url_, active_url_hash_, channel_);
executor_->PutChanged();
}
void GpuCommandBufferStub::PullTextureUpdates(
CommandBufferNamespace namespace_id,
CommandBufferId command_buffer_id,
uint32_t release) {
gles2::MailboxManager* mailbox_manager =
context_group_->mailbox_manager();
if (mailbox_manager->UsesSync() && MakeCurrent()) {
SyncToken sync_token(namespace_id, 0, command_buffer_id, release);
mailbox_manager->PullTextureUpdates(sync_token);
}
}
void GpuCommandBufferStub::OnSignalSyncToken(const SyncToken& sync_token,
uint32_t id) {
scoped_refptr<SyncPointClientState> release_state =
sync_point_manager_->GetSyncPointClientState(
sync_token.namespace_id(), sync_token.command_buffer_id());
if (release_state) {
sync_point_client_->Wait(release_state.get(), sync_token.release_count(),
base::Bind(&GpuCommandBufferStub::OnSignalAck,
this->AsWeakPtr(), id));
} else {
OnSignalAck(id);
}
}
void GpuCommandBufferStub::OnSignalAck(uint32_t id) {
Send(new GpuCommandBufferMsg_SignalAck(route_id_, id));
}
void GpuCommandBufferStub::OnSignalQuery(uint32_t query_id, uint32_t id) {
if (decoder_) {
gles2::QueryManager* query_manager = decoder_->GetQueryManager();
if (query_manager) {
gles2::QueryManager::Query* query =
query_manager->GetQuery(query_id);
if (query) {
query->AddCallback(
base::Bind(&GpuCommandBufferStub::OnSignalAck,
this->AsWeakPtr(),
id));
return;
}
}
}
// Something went wrong, run callback immediately.
OnSignalAck(id);
}
void GpuCommandBufferStub::OnFenceSyncRelease(uint64_t release) {
if (sync_point_client_->client_state()->IsFenceSyncReleased(release)) {
DLOG(ERROR) << "Fence Sync has already been released.";
return;
}
gles2::MailboxManager* mailbox_manager =
context_group_->mailbox_manager();
if (mailbox_manager->UsesSync() && MakeCurrent()) {
SyncToken sync_token(CommandBufferNamespace::GPU_IO, 0,
command_buffer_id_, release);
mailbox_manager->PushTextureUpdates(sync_token);
}
sync_point_client_->ReleaseFenceSync(release);
}
bool GpuCommandBufferStub::OnWaitFenceSync(
CommandBufferNamespace namespace_id,
CommandBufferId command_buffer_id,
uint64_t release) {
DCHECK(!waiting_for_sync_point_);
DCHECK(executor_->scheduled());
scoped_refptr<SyncPointClientState> release_state =
sync_point_manager_->GetSyncPointClientState(namespace_id,
command_buffer_id);
if (!release_state)
return true;
if (release_state->IsFenceSyncReleased(release)) {
PullTextureUpdates(namespace_id, command_buffer_id, release);
return true;
}
TRACE_EVENT_ASYNC_BEGIN1("gpu", "WaitFenceSync", this, "GpuCommandBufferStub",
this);
waiting_for_sync_point_ = true;
sync_point_client_->WaitNonThreadSafe(
release_state.get(), release, task_runner_,
base::Bind(&GpuCommandBufferStub::OnWaitFenceSyncCompleted,
this->AsWeakPtr(), namespace_id, command_buffer_id, release));
if (!waiting_for_sync_point_)
return true;
executor_->SetScheduled(false);
channel_->OnStreamRescheduled(stream_id_, false);
return false;
}
void GpuCommandBufferStub::OnWaitFenceSyncCompleted(
CommandBufferNamespace namespace_id,
CommandBufferId command_buffer_id,
uint64_t release) {
DCHECK(waiting_for_sync_point_);
TRACE_EVENT_ASYNC_END1("gpu", "WaitFenceSync", this, "GpuCommandBufferStub",
this);
PullTextureUpdates(namespace_id, command_buffer_id, release);
waiting_for_sync_point_ = false;
executor_->SetScheduled(true);
channel_->OnStreamRescheduled(stream_id_, true);
}
void GpuCommandBufferStub::OnCreateImage(
const GpuCommandBufferMsg_CreateImage_Params& params) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnCreateImage");
const int32_t id = params.id;
const gfx::GpuMemoryBufferHandle& handle = params.gpu_memory_buffer;
const gfx::Size& size = params.size;
const gfx::BufferFormat& format = params.format;
const uint32_t internalformat = params.internal_format;
const uint64_t image_release_count = params.image_release_count;
if (!decoder_)
return;
gles2::ImageManager* image_manager = decoder_->GetImageManager();
DCHECK(image_manager);
if (image_manager->LookupImage(id)) {
LOG(ERROR) << "Image already exists with same ID.";
return;
}
if (!gpu::IsGpuMemoryBufferFormatSupported(format,
decoder_->GetCapabilities())) {
LOG(ERROR) << "Format is not supported.";
return;
}
if (!gpu::IsImageSizeValidForGpuMemoryBufferFormat(size, format)) {
LOG(ERROR) << "Invalid image size for format.";
return;
}
if (!gpu::IsImageFormatCompatibleWithGpuMemoryBufferFormat(internalformat,
format)) {
LOG(ERROR) << "Incompatible image format.";
return;
}
scoped_refptr<gl::GLImage> image = channel()->CreateImageForGpuMemoryBuffer(
handle, size, format, internalformat);
if (!image.get())
return;
image_manager->AddImage(image.get(), id);
if (image_release_count) {
DCHECK_EQ(image_release_count,
sync_point_client_->client_state()->fence_sync_release() + 1);
sync_point_client_->ReleaseFenceSync(image_release_count);
}
}
void GpuCommandBufferStub::OnDestroyImage(int32_t id) {
TRACE_EVENT0("gpu", "GpuCommandBufferStub::OnDestroyImage");
if (!decoder_)
return;
gles2::ImageManager* image_manager = decoder_->GetImageManager();
DCHECK(image_manager);
if (!image_manager->LookupImage(id)) {
LOG(ERROR) << "Image with ID doesn't exist.";
return;
}
image_manager->RemoveImage(id);
}
void GpuCommandBufferStub::SendConsoleMessage(int32_t id,
const std::string& message) {
GPUCommandBufferConsoleMessage console_message;
console_message.id = id;
console_message.message = message;
IPC::Message* msg = new GpuCommandBufferMsg_ConsoleMsg(
route_id_, console_message);
msg->set_unblock(true);
Send(msg);
}
void GpuCommandBufferStub::SendCachedShader(
const std::string& key, const std::string& shader) {
channel_->CacheShader(key, shader);
}
void GpuCommandBufferStub::AddDestructionObserver(
DestructionObserver* observer) {
destruction_observers_.AddObserver(observer);
}
void GpuCommandBufferStub::RemoveDestructionObserver(
DestructionObserver* observer) {
destruction_observers_.RemoveObserver(observer);
}
const gles2::FeatureInfo* GpuCommandBufferStub::GetFeatureInfo() const {
return context_group_->feature_info();
}
gles2::MemoryTracker* GpuCommandBufferStub::GetMemoryTracker() const {
return context_group_->memory_tracker();
}
bool GpuCommandBufferStub::CheckContextLost() {
DCHECK(command_buffer_);
CommandBuffer::State state = command_buffer_->GetLastState();
bool was_lost = state.error == error::kLostContext;
if (was_lost) {
bool was_lost_by_robustness =
decoder_ && decoder_->WasContextLostByRobustnessExtension();
// Work around issues with recovery by allowing a new GPU process to launch.
if ((was_lost_by_robustness ||
context_group_->feature_info()->workarounds().exit_on_context_lost)) {
channel_->gpu_channel_manager()->MaybeExitOnContextLost();
}
// Lose all other contexts if the reset was triggered by the robustness
// extension instead of being synthetic.
if (was_lost_by_robustness &&
(gfx::GLContext::LosesAllContextsOnContextLost() ||
use_virtualized_gl_context_)) {
channel_->LoseAllContexts();
}
}
CheckCompleteWaits();
return was_lost;
}
void GpuCommandBufferStub::MarkContextLost() {
if (!command_buffer_ ||
command_buffer_->GetLastState().error == error::kLostContext)
return;
command_buffer_->SetContextLostReason(error::kUnknown);
if (decoder_)
decoder_->MarkContextLost(error::kUnknown);
command_buffer_->SetParseError(error::kLostContext);
}
void GpuCommandBufferStub::SendSwapBuffersCompleted(
const GpuCommandBufferMsg_SwapBuffersCompleted_Params& params) {
Send(new GpuCommandBufferMsg_SwapBuffersCompleted(route_id_, params));
}
void GpuCommandBufferStub::SendUpdateVSyncParameters(base::TimeTicks timebase,
base::TimeDelta interval) {
Send(new GpuCommandBufferMsg_UpdateVSyncParameters(route_id_, timebase,
interval));
}
} // namespace gpu