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// Copyright 2014 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 "mojo/gles2/command_buffer_client_impl.h"
#include <limits>
#include "base/logging.h"
#include "base/process/process_handle.h"
#include "mojo/public/cpp/bindings/sync_dispatcher.h"
#include "mojo/services/gles2/command_buffer_type_conversions.h"
#include "mojo/services/gles2/mojo_buffer_backing.h"
namespace mojo {
namespace gles2 {
namespace {
bool CreateMapAndDupSharedBuffer(size_t size,
void** memory,
mojo::ScopedSharedBufferHandle* handle,
mojo::ScopedSharedBufferHandle* duped) {
MojoResult result = mojo::CreateSharedBuffer(NULL, size, handle);
if (result != MOJO_RESULT_OK)
return false;
DCHECK(handle->is_valid());
result = mojo::DuplicateBuffer(handle->get(), NULL, duped);
if (result != MOJO_RESULT_OK)
return false;
DCHECK(duped->is_valid());
result = mojo::MapBuffer(
handle->get(), 0, size, memory, MOJO_MAP_BUFFER_FLAG_NONE);
if (result != MOJO_RESULT_OK)
return false;
DCHECK(*memory);
return true;
}
}
CommandBufferDelegate::~CommandBufferDelegate() {}
void CommandBufferDelegate::ContextLost() {}
void CommandBufferDelegate::DrawAnimationFrame() {}
CommandBufferClientImpl::CommandBufferClientImpl(
CommandBufferDelegate* delegate,
const MojoAsyncWaiter* async_waiter,
ScopedMessagePipeHandle command_buffer_handle)
: delegate_(delegate),
shared_state_(NULL),
last_put_offset_(-1),
next_transfer_buffer_id_(0),
initialize_result_(false),
async_waiter_(async_waiter) {
command_buffer_.Bind(command_buffer_handle.Pass(), async_waiter);
command_buffer_.set_error_handler(this);
command_buffer_.set_client(this);
}
CommandBufferClientImpl::~CommandBufferClientImpl() {}
bool CommandBufferClientImpl::Initialize() {
const size_t kSharedStateSize = sizeof(gpu::CommandBufferSharedState);
void* memory = NULL;
mojo::ScopedSharedBufferHandle duped;
bool result = CreateMapAndDupSharedBuffer(
kSharedStateSize, &memory, &shared_state_handle_, &duped);
if (!result)
return false;
shared_state_ = static_cast<gpu::CommandBufferSharedState*>(memory);
shared_state()->Initialize();
// TODO(darin): We need better sugar for sync calls.
MessagePipe sync_pipe;
sync_dispatcher_.reset(new SyncDispatcher<CommandBufferSyncClient>(
sync_pipe.handle0.Pass(), this));
CommandBufferSyncClientPtr sync_client =
MakeProxy<CommandBufferSyncClient>(sync_pipe.handle1.Pass(),
async_waiter_);
command_buffer_->Initialize(sync_client.Pass(), duped.Pass());
// Wait for DidInitialize to come on the sync client pipe.
if (!sync_dispatcher_->WaitAndDispatchOneMessage()) {
VLOG(1) << "Channel encountered error while creating command buffer";
return false;
}
return initialize_result_;
}
gpu::CommandBuffer::State CommandBufferClientImpl::GetLastState() {
return last_state_;
}
int32 CommandBufferClientImpl::GetLastToken() {
TryUpdateState();
return last_state_.token;
}
void CommandBufferClientImpl::Flush(int32 put_offset) {
if (last_put_offset_ == put_offset)
return;
last_put_offset_ = put_offset;
command_buffer_->Flush(put_offset);
}
void CommandBufferClientImpl::WaitForTokenInRange(int32 start, int32 end) {
TryUpdateState();
while (!InRange(start, end, last_state_.token) &&
last_state_.error == gpu::error::kNoError) {
MakeProgressAndUpdateState();
TryUpdateState();
}
}
void CommandBufferClientImpl::WaitForGetOffsetInRange(int32 start, int32 end) {
TryUpdateState();
while (!InRange(start, end, last_state_.get_offset) &&
last_state_.error == gpu::error::kNoError) {
MakeProgressAndUpdateState();
TryUpdateState();
}
}
void CommandBufferClientImpl::SetGetBuffer(int32 shm_id) {
command_buffer_->SetGetBuffer(shm_id);
last_put_offset_ = -1;
}
scoped_refptr<gpu::Buffer> CommandBufferClientImpl::CreateTransferBuffer(
size_t size,
int32* id) {
if (size >= std::numeric_limits<uint32_t>::max())
return NULL;
void* memory = NULL;
mojo::ScopedSharedBufferHandle handle;
mojo::ScopedSharedBufferHandle duped;
if (!CreateMapAndDupSharedBuffer(size, &memory, &handle, &duped))
return NULL;
*id = ++next_transfer_buffer_id_;
command_buffer_->RegisterTransferBuffer(
*id, duped.Pass(), static_cast<uint32_t>(size));
scoped_ptr<gpu::BufferBacking> backing(
new MojoBufferBacking(handle.Pass(), memory, size));
scoped_refptr<gpu::Buffer> buffer(new gpu::Buffer(backing.Pass()));
return buffer;
}
void CommandBufferClientImpl::DestroyTransferBuffer(int32 id) {
command_buffer_->DestroyTransferBuffer(id);
}
gpu::Capabilities CommandBufferClientImpl::GetCapabilities() {
// TODO(piman)
NOTIMPLEMENTED();
return gpu::Capabilities();
}
gfx::GpuMemoryBuffer* CommandBufferClientImpl::CreateGpuMemoryBuffer(
size_t width,
size_t height,
unsigned internalformat,
unsigned usage,
int32* id) {
// TODO(piman)
NOTIMPLEMENTED();
return NULL;
}
void CommandBufferClientImpl::DestroyGpuMemoryBuffer(int32 id) {
// TODO(piman)
NOTIMPLEMENTED();
}
uint32 CommandBufferClientImpl::InsertSyncPoint() {
// TODO(piman)
NOTIMPLEMENTED();
return 0;
}
void CommandBufferClientImpl::SignalSyncPoint(uint32 sync_point,
const base::Closure& callback) {
// TODO(piman)
NOTIMPLEMENTED();
}
void CommandBufferClientImpl::SignalQuery(uint32 query,
const base::Closure& callback) {
// TODO(piman)
NOTIMPLEMENTED();
}
void CommandBufferClientImpl::SetSurfaceVisible(bool visible) {
// TODO(piman)
NOTIMPLEMENTED();
}
void CommandBufferClientImpl::SendManagedMemoryStats(
const gpu::ManagedMemoryStats& stats) {
// TODO(piman)
NOTIMPLEMENTED();
}
void CommandBufferClientImpl::Echo(const base::Closure& callback) {
command_buffer_->Echo(callback);
}
uint32 CommandBufferClientImpl::CreateStreamTexture(uint32 texture_id) {
// TODO(piman)
NOTIMPLEMENTED();
return 0;
}
void CommandBufferClientImpl::RequestAnimationFrames() {
command_buffer_->RequestAnimationFrames();
}
void CommandBufferClientImpl::CancelAnimationFrames() {
command_buffer_->CancelAnimationFrames();
}
void CommandBufferClientImpl::DidInitialize(bool success) {
initialize_result_ = success;
}
void CommandBufferClientImpl::DidMakeProgress(CommandBufferStatePtr state) {
if (state->generation - last_state_.generation < 0x80000000U)
last_state_ = state.To<State>();
}
void CommandBufferClientImpl::DidDestroy() {
LostContext(gpu::error::kUnknown);
}
void CommandBufferClientImpl::LostContext(int32_t lost_reason) {
last_state_.error = gpu::error::kLostContext;
last_state_.context_lost_reason =
static_cast<gpu::error::ContextLostReason>(lost_reason);
delegate_->ContextLost();
}
void CommandBufferClientImpl::OnConnectionError() {
LostContext(gpu::error::kUnknown);
}
void CommandBufferClientImpl::TryUpdateState() {
if (last_state_.error == gpu::error::kNoError)
shared_state()->Read(&last_state_);
}
void CommandBufferClientImpl::MakeProgressAndUpdateState() {
command_buffer_->MakeProgress(last_state_.get_offset);
if (!sync_dispatcher_->WaitAndDispatchOneMessage()) {
VLOG(1) << "Channel encountered error while waiting for command buffer";
// TODO(piman): is it ok for this to re-enter?
DidDestroy();
return;
}
}
void CommandBufferClientImpl::DrawAnimationFrame() {
delegate_->DrawAnimationFrame();
}
} // namespace gles2
} // namespace mojo
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