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mojo / mojo-tools / 36627ffa51c64341abff07f0945da6a478514176 / . / gpu / command_buffer / service / gpu_tracer_unittest.cc
blob: 8aed1c67ce63470fa36e1fc5311be06feff9ac6c [file] [log] [blame]
// 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 <map>
#include <set>
#include "base/bind.h"
#include "gpu/command_buffer/service/gles2_cmd_decoder_mock.h"
#include "gpu/command_buffer/service/gpu_service_test.h"
#include "gpu/command_buffer/service/gpu_tracer.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/gl/gl_mock.h"
#include "ui/gl/gpu_timing.h"
namespace gpu {
namespace gles2 {
namespace {
using ::testing::_;
using ::testing::AtLeast;
using ::testing::AtMost;
using ::testing::Exactly;
using ::testing::Invoke;
using ::testing::NotNull;
using ::testing::Return;
int64 g_fakeCPUTime = 0;
int64 FakeCpuTime() {
return g_fakeCPUTime;
}
class MockOutputter : public Outputter {
public:
MockOutputter() {}
MOCK_METHOD4(TraceDevice,
void(const std::string& category, const std::string& name,
int64 start_time, int64 end_time));
MOCK_METHOD2(TraceServiceBegin,
void(const std::string& category, const std::string& name));
MOCK_METHOD2(TraceServiceEnd,
void(const std::string& category, const std::string& name));
protected:
~MockOutputter() {}
};
class GlFakeQueries {
public:
GlFakeQueries() {}
void Reset() {
current_time_ = 0;
next_query_id_ = 23;
alloced_queries_.clear();
query_timestamp_.clear();
}
void SetCurrentGLTime(GLint64 current_time) { current_time_ = current_time; }
void SetDisjoint() { disjointed_ = true; }
void GenQueries(GLsizei n, GLuint* ids) {
for (GLsizei i = 0; i < n; i++) {
ids[i] = next_query_id_++;
alloced_queries_.insert(ids[i]);
}
}
void DeleteQueries(GLsizei n, const GLuint* ids) {
for (GLsizei i = 0; i < n; i++) {
alloced_queries_.erase(ids[i]);
query_timestamp_.erase(ids[i]);
}
}
void GetQueryObjectiv(GLuint id, GLenum pname, GLint* params) {
switch (pname) {
case GL_QUERY_RESULT_AVAILABLE: {
std::map<GLuint, GLint64>::iterator it = query_timestamp_.find(id);
if (it != query_timestamp_.end() && it->second <= current_time_)
*params = 1;
else
*params = 0;
break;
}
default:
FAIL() << "Invalid variable passed to GetQueryObjectiv: " << pname;
}
}
void QueryCounter(GLuint id, GLenum target) {
switch (target) {
case GL_TIMESTAMP:
ASSERT_TRUE(alloced_queries_.find(id) != alloced_queries_.end());
query_timestamp_[id] = current_time_;
break;
default:
FAIL() << "Invalid variable passed to QueryCounter: " << target;
}
}
void GetInteger64v(GLenum pname, GLint64 * data) {
switch (pname) {
case GL_TIMESTAMP:
*data = current_time_;
break;
default:
FAIL() << "Invalid variable passed to GetInteger64v: " << pname;
}
}
void GetQueryObjectui64v(GLuint id, GLenum pname, GLuint64* params) {
switch (pname) {
case GL_QUERY_RESULT:
ASSERT_TRUE(query_timestamp_.find(id) != query_timestamp_.end());
*params = query_timestamp_.find(id)->second;
break;
default:
FAIL() << "Invalid variable passed to GetQueryObjectui64v: " << pname;
}
}
void GetIntegerv(GLenum pname, GLint* params) {
switch (pname) {
case GL_GPU_DISJOINT_EXT:
*params = static_cast<GLint>(disjointed_);
disjointed_ = false;
break;
default:
FAIL() << "Invalid variable passed to GetIntegerv: " << pname;
}
}
void Finish() {
}
GLenum GetError() {
return GL_NO_ERROR;
}
protected:
bool disjointed_ = false;
GLint64 current_time_ = 0;
GLuint next_query_id_ = 0;
std::set<GLuint> alloced_queries_;
std::map<GLuint, GLint64> query_timestamp_;
};
class GPUTracerTester : public GPUTracer {
public:
explicit GPUTracerTester(gles2::GLES2Decoder* decoder)
: GPUTracer(decoder), tracing_enabled_(0) {
gpu_timing_client_->SetCpuTimeForTesting(base::Bind(&FakeCpuTime));
// Force tracing to be dependent on our mock variable here.
gpu_trace_srv_category = &tracing_enabled_;
gpu_trace_dev_category = &tracing_enabled_;
}
~GPUTracerTester() override {}
void SetTracingEnabled(bool enabled) {
tracing_enabled_ = enabled ? 1 : 0;
}
void SetOutputter(scoped_refptr<Outputter> outputter) {
set_outputter_ = outputter;
}
protected:
scoped_refptr<Outputter> CreateOutputter(const std::string& name) override {
if (set_outputter_.get()) {
return set_outputter_;
}
return new MockOutputter();
}
void PostTask() override {
// Process synchronously.
Process();
}
unsigned char tracing_enabled_;
scoped_refptr<Outputter> set_outputter_;
};
class BaseGpuTest : public GpuServiceTest {
public:
explicit BaseGpuTest(gfx::GPUTiming::TimerType test_timer_type)
: test_timer_type_(test_timer_type) {
}
protected:
void SetUp() override {
g_fakeCPUTime = 0;
const char* gl_version = "3.2";
const char* extensions = "";
if (GetTimerType() == gfx::GPUTiming::kTimerTypeEXT) {
gl_version = "opengl 2.1";
extensions = "GL_EXT_timer_query";
} else if (GetTimerType() == gfx::GPUTiming::kTimerTypeDisjoint) {
gl_version = "opengl es 3.0";
extensions = "GL_EXT_disjoint_timer_query";
} else if (GetTimerType() == gfx::GPUTiming::kTimerTypeARB) {
// TODO(sievers): The tracer should not depend on ARB_occlusion_query.
// Try merge Query APIs (core, ARB, EXT) into a single binding each.
extensions = "GL_ARB_timer_query GL_ARB_occlusion_query";
}
GpuServiceTest::SetUpWithGLVersion(gl_version, extensions);
// Disjoint check should only be called by kTracerTypeDisjointTimer type.
if (GetTimerType() == gfx::GPUTiming::kTimerTypeDisjoint) {
EXPECT_CALL(*gl_, GetIntegerv(GL_GPU_DISJOINT_EXT, _)).Times(AtLeast(1))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GetIntegerv));
} else {
EXPECT_CALL(*gl_, GetIntegerv(GL_GPU_DISJOINT_EXT, _)).Times(Exactly(0));
}
gpu_timing_client_ = GetGLContext()->CreateGPUTimingClient();
gpu_timing_client_->SetCpuTimeForTesting(base::Bind(&FakeCpuTime));
gl_fake_queries_.Reset();
outputter_ref_ = new MockOutputter();
}
void TearDown() override {
outputter_ref_ = NULL;
gl_fake_queries_.Reset();
GpuServiceTest::TearDown();
}
void ExpectTraceQueryMocks() {
if (gpu_timing_client_->IsAvailable() &&
gpu_timing_client_->IsTimerOffsetAvailable()) {
// Delegate query APIs used by GPUTrace to a GlFakeQueries
EXPECT_CALL(*gl_, GenQueries(2, NotNull())).Times(AtLeast(1))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GenQueries));
EXPECT_CALL(*gl_, GetQueryObjectiv(_, GL_QUERY_RESULT_AVAILABLE,
NotNull()))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GetQueryObjectiv));
EXPECT_CALL(*gl_, GetInteger64v(GL_TIMESTAMP, _))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GetInteger64v));
EXPECT_CALL(*gl_, QueryCounter(_, GL_TIMESTAMP)).Times(AtLeast(2))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::QueryCounter));
EXPECT_CALL(*gl_, GetQueryObjectui64v(_, GL_QUERY_RESULT, NotNull()))
.WillRepeatedly(
Invoke(&gl_fake_queries_,
&GlFakeQueries::GetQueryObjectui64v));
EXPECT_CALL(*gl_, DeleteQueries(2, NotNull())).Times(AtLeast(1))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::DeleteQueries));
}
}
void ExpectOutputterBeginMocks(MockOutputter* outputter,
const std::string& category,
const std::string& name) {
EXPECT_CALL(*outputter,
TraceServiceBegin(category, name));
}
void ExpectOutputterEndMocks(MockOutputter* outputter,
const std::string& category,
const std::string& name, int64 expect_start_time,
int64 expect_end_time,
bool trace_device) {
EXPECT_CALL(*outputter,
TraceServiceEnd(category, name));
if (trace_device) {
EXPECT_CALL(*outputter,
TraceDevice(category, name,
expect_start_time, expect_end_time))
.Times(Exactly(1));
} else {
EXPECT_CALL(*outputter, TraceDevice(category, name,
expect_start_time, expect_end_time))
.Times(Exactly(0));
}
}
void ExpectOutputterMocks(MockOutputter* outputter,
const std::string& category,
const std::string& name, int64 expect_start_time,
int64 expect_end_time) {
ExpectOutputterBeginMocks(outputter, category, name);
bool valid_timer = gpu_timing_client_->IsAvailable() &&
gpu_timing_client_->IsTimerOffsetAvailable();
ExpectOutputterEndMocks(outputter, category, name, expect_start_time,
expect_end_time, valid_timer);
}
void ExpectTracerOffsetQueryMocks() {
if (GetTimerType() != gfx::GPUTiming::kTimerTypeARB) {
EXPECT_CALL(*gl_, GetInteger64v(GL_TIMESTAMP, NotNull()))
.Times(Exactly(0));
} else {
EXPECT_CALL(*gl_, GetInteger64v(GL_TIMESTAMP, NotNull()))
.Times(AtMost(1))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GetInteger64v));
}
}
gfx::GPUTiming::TimerType GetTimerType() { return test_timer_type_; }
gfx::GPUTiming::TimerType test_timer_type_;
GlFakeQueries gl_fake_queries_;
scoped_refptr<gfx::GPUTimingClient> gpu_timing_client_;
scoped_refptr<MockOutputter> outputter_ref_;
};
// Test GPUTrace calls all the correct gl calls.
class BaseGpuTraceTest : public BaseGpuTest {
public:
explicit BaseGpuTraceTest(gfx::GPUTiming::TimerType test_timer_type)
: BaseGpuTest(test_timer_type) {}
void DoTraceTest() {
// Expected results
const std::string category_name("trace_category");
const std::string trace_name("trace_test");
const int64 offset_time = 3231;
const GLint64 start_timestamp = 7 * base::Time::kNanosecondsPerMicrosecond;
const GLint64 end_timestamp = 32 * base::Time::kNanosecondsPerMicrosecond;
const int64 expect_start_time =
(start_timestamp / base::Time::kNanosecondsPerMicrosecond) +
offset_time;
const int64 expect_end_time =
(end_timestamp / base::Time::kNanosecondsPerMicrosecond) + offset_time;
ExpectTraceQueryMocks();
ExpectOutputterMocks(outputter_ref_.get(), category_name, trace_name,
expect_start_time, expect_end_time);
scoped_refptr<GPUTrace> trace = new GPUTrace(
outputter_ref_, gpu_timing_client_.get(),
category_name, trace_name, true);
gl_fake_queries_.SetCurrentGLTime(start_timestamp);
g_fakeCPUTime = expect_start_time;
trace->Start(true);
// Shouldn't be available before End() call
gl_fake_queries_.SetCurrentGLTime(end_timestamp);
g_fakeCPUTime = expect_end_time;
EXPECT_FALSE(trace->IsAvailable());
trace->End(true);
// Shouldn't be available until the queries complete
gl_fake_queries_.SetCurrentGLTime(end_timestamp -
base::Time::kNanosecondsPerMicrosecond);
EXPECT_FALSE(trace->IsAvailable());
// Now it should be available
gl_fake_queries_.SetCurrentGLTime(end_timestamp);
EXPECT_TRUE(trace->IsAvailable());
// Proces should output expected Trace results to MockOutputter
trace->Process();
outputter_ref_ = NULL;
}
};
class GpuARBTimerTraceTest : public BaseGpuTraceTest {
public:
GpuARBTimerTraceTest() : BaseGpuTraceTest(gfx::GPUTiming::kTimerTypeARB) {}
};
class GpuDisjointTimerTraceTest : public BaseGpuTraceTest {
public:
GpuDisjointTimerTraceTest()
: BaseGpuTraceTest(gfx::GPUTiming::kTimerTypeDisjoint) {}
};
TEST_F(GpuARBTimerTraceTest, ARBTimerTraceTest) {
DoTraceTest();
}
TEST_F(GpuDisjointTimerTraceTest, DisjointTimerTraceTest) {
DoTraceTest();
}
// Test GPUTracer calls all the correct gl calls.
class BaseGpuTracerTest : public BaseGpuTest {
public:
explicit BaseGpuTracerTest(gfx::GPUTiming::TimerType test_timer_type)
: BaseGpuTest(test_timer_type) {}
void DoBasicTracerTest() {
ExpectTracerOffsetQueryMocks();
MockGLES2Decoder decoder;
EXPECT_CALL(decoder, GetGLContext()).WillOnce(Return(GetGLContext()));
GPUTracerTester tracer(&decoder);
tracer.SetTracingEnabled(true);
tracer.SetOutputter(outputter_ref_);
ASSERT_TRUE(tracer.BeginDecoding());
ASSERT_TRUE(tracer.EndDecoding());
outputter_ref_ = NULL;
}
void DoTracerMarkersTest() {
ExpectTracerOffsetQueryMocks();
EXPECT_CALL(*gl_, GetError()).Times(AtLeast(0))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GetError));
const std::string category_name("trace_category");
const std::string trace_name("trace_test");
const int64 offset_time = 3231;
const GLint64 start_timestamp = 7 * base::Time::kNanosecondsPerMicrosecond;
const GLint64 end_timestamp = 32 * base::Time::kNanosecondsPerMicrosecond;
const int64 expect_start_time =
(start_timestamp / base::Time::kNanosecondsPerMicrosecond) +
offset_time;
const int64 expect_end_time =
(end_timestamp / base::Time::kNanosecondsPerMicrosecond) + offset_time;
MockGLES2Decoder decoder;
EXPECT_CALL(decoder, GetGLContext()).WillOnce(Return(GetGLContext()));
GPUTracerTester tracer(&decoder);
tracer.SetTracingEnabled(true);
tracer.SetOutputter(outputter_ref_);
gl_fake_queries_.SetCurrentGLTime(start_timestamp);
g_fakeCPUTime = expect_start_time;
ASSERT_TRUE(tracer.BeginDecoding());
ExpectTraceQueryMocks();
// This will test multiple marker sources which overlap one another.
for (int i = 0; i < NUM_TRACER_SOURCES; ++i) {
// Set times so each source has a different time.
gl_fake_queries_.SetCurrentGLTime(
start_timestamp +
(i * base::Time::kNanosecondsPerMicrosecond));
g_fakeCPUTime = expect_start_time + i;
// Each trace name should be different to differentiate.
const char num_char = static_cast<char>('0' + i);
std::string source_category = category_name + num_char;
std::string source_trace_name = trace_name + num_char;
ExpectOutputterBeginMocks(outputter_ref_.get(),
source_category, source_trace_name);
const GpuTracerSource source = static_cast<GpuTracerSource>(i);
ASSERT_TRUE(tracer.Begin(source_category, source_trace_name, source));
}
for (int i = 0; i < NUM_TRACER_SOURCES; ++i) {
// Set times so each source has a different time.
gl_fake_queries_.SetCurrentGLTime(
end_timestamp +
(i * base::Time::kNanosecondsPerMicrosecond));
g_fakeCPUTime = expect_end_time + i;
// Each trace name should be different to differentiate.
const char num_char = static_cast<char>('0' + i);
std::string source_category = category_name + num_char;
std::string source_trace_name = trace_name + num_char;
bool valid_timer = gpu_timing_client_->IsAvailable() &&
gpu_timing_client_->IsTimerOffsetAvailable();
ExpectOutputterEndMocks(outputter_ref_.get(), source_category,
source_trace_name, expect_start_time + i,
expect_end_time + i, valid_timer);
const GpuTracerSource source = static_cast<GpuTracerSource>(i);
// Check if the current category/name are correct for this source.
ASSERT_EQ(source_category, tracer.CurrentCategory(source));
ASSERT_EQ(source_trace_name, tracer.CurrentName(source));
ASSERT_TRUE(tracer.End(source));
}
ASSERT_TRUE(tracer.EndDecoding());
outputter_ref_ = NULL;
}
void DoDisjointTest() {
// Cause a disjoint in a middle of a trace and expect no output calls.
ExpectTracerOffsetQueryMocks();
EXPECT_CALL(*gl_, GetError()).Times(AtLeast(0))
.WillRepeatedly(
Invoke(&gl_fake_queries_, &GlFakeQueries::GetError));
const std::string category_name("trace_category");
const std::string trace_name("trace_test");
const GpuTracerSource source = static_cast<GpuTracerSource>(0);
const int64 offset_time = 3231;
const GLint64 start_timestamp = 7 * base::Time::kNanosecondsPerMicrosecond;
const GLint64 end_timestamp = 32 * base::Time::kNanosecondsPerMicrosecond;
const int64 expect_start_time =
(start_timestamp / base::Time::kNanosecondsPerMicrosecond) +
offset_time;
const int64 expect_end_time =
(end_timestamp / base::Time::kNanosecondsPerMicrosecond) + offset_time;
MockGLES2Decoder decoder;
EXPECT_CALL(decoder, GetGLContext()).WillOnce(Return(GetGLContext()));
GPUTracerTester tracer(&decoder);
tracer.SetTracingEnabled(true);
tracer.SetOutputter(outputter_ref_);
gl_fake_queries_.SetCurrentGLTime(start_timestamp);
g_fakeCPUTime = expect_start_time;
ASSERT_TRUE(tracer.BeginDecoding());
ExpectTraceQueryMocks();
ExpectOutputterBeginMocks(outputter_ref_.get(),
category_name, trace_name);
ASSERT_TRUE(tracer.Begin(category_name, trace_name, source));
gl_fake_queries_.SetCurrentGLTime(end_timestamp);
g_fakeCPUTime = expect_end_time;
// Create GPUTimingClient to make sure disjoint value is correct. This
// should not interfere with the tracer's disjoint value.
scoped_refptr<gfx::GPUTimingClient> disjoint_client =
GetGLContext()->CreateGPUTimingClient();
// We assert here based on the disjoint_client because if disjoints are not
// working properly there is no point testing the tracer output.
ASSERT_FALSE(disjoint_client->CheckAndResetTimerErrors());
gl_fake_queries_.SetDisjoint();
ASSERT_TRUE(disjoint_client->CheckAndResetTimerErrors());
ExpectOutputterEndMocks(outputter_ref_.get(), category_name, trace_name,
expect_start_time, expect_end_time, false);
ASSERT_TRUE(tracer.End(source));
ASSERT_TRUE(tracer.EndDecoding());
outputter_ref_ = NULL;
}
};
class InvalidTimerTracerTest : public BaseGpuTracerTest {
public:
InvalidTimerTracerTest()
: BaseGpuTracerTest(gfx::GPUTiming::kTimerTypeInvalid) {}
};
class GpuEXTTimerTracerTest : public BaseGpuTracerTest {
public:
GpuEXTTimerTracerTest() : BaseGpuTracerTest(gfx::GPUTiming::kTimerTypeEXT) {}
};
class GpuARBTimerTracerTest : public BaseGpuTracerTest {
public:
GpuARBTimerTracerTest()
: BaseGpuTracerTest(gfx::GPUTiming::kTimerTypeARB) {}
};
class GpuDisjointTimerTracerTest : public BaseGpuTracerTest {
public:
GpuDisjointTimerTracerTest()
: BaseGpuTracerTest(gfx::GPUTiming::kTimerTypeDisjoint) {}
};
TEST_F(InvalidTimerTracerTest, InvalidTimerBasicTracerTest) {
DoBasicTracerTest();
}
TEST_F(GpuEXTTimerTracerTest, EXTTimerBasicTracerTest) {
DoBasicTracerTest();
}
TEST_F(GpuARBTimerTracerTest, ARBTimerBasicTracerTest) {
DoBasicTracerTest();
}
TEST_F(GpuDisjointTimerTracerTest, DisjointTimerBasicTracerTest) {
DoBasicTracerTest();
}
TEST_F(InvalidTimerTracerTest, InvalidTimerTracerMarkersTest) {
DoTracerMarkersTest();
}
TEST_F(GpuEXTTimerTracerTest, EXTTimerTracerMarkersTest) {
DoTracerMarkersTest();
}
TEST_F(GpuARBTimerTracerTest, ARBTimerBasicTracerMarkersTest) {
DoTracerMarkersTest();
}
TEST_F(GpuDisjointTimerTracerTest, DisjointTimerBasicTracerMarkersTest) {
DoTracerMarkersTest();
}
TEST_F(GpuDisjointTimerTracerTest, DisjointTimerDisjointTraceTest) {
DoDisjointTest();
}
class GPUTracerTest : public GpuServiceTest {
protected:
void SetUp() override {
g_fakeCPUTime = 0;
GpuServiceTest::SetUpWithGLVersion("3.2", "");
decoder_.reset(new MockGLES2Decoder());
EXPECT_CALL(*decoder_, GetGLContext())
.Times(AtMost(1))
.WillRepeatedly(Return(GetGLContext()));
tracer_tester_.reset(new GPUTracerTester(decoder_.get()));
}
void TearDown() override {
tracer_tester_ = nullptr;
decoder_ = nullptr;
GpuServiceTest::TearDown();
}
scoped_ptr<MockGLES2Decoder> decoder_;
scoped_ptr<GPUTracerTester> tracer_tester_;
};
TEST_F(GPUTracerTest, IsTracingTest) {
EXPECT_FALSE(tracer_tester_->IsTracing());
tracer_tester_->SetTracingEnabled(true);
EXPECT_TRUE(tracer_tester_->IsTracing());
}
// Test basic functionality of the GPUTracerTester.
TEST_F(GPUTracerTest, DecodeTest) {
ASSERT_TRUE(tracer_tester_->BeginDecoding());
EXPECT_FALSE(tracer_tester_->BeginDecoding());
ASSERT_TRUE(tracer_tester_->EndDecoding());
EXPECT_FALSE(tracer_tester_->EndDecoding());
}
TEST_F(GPUTracerTest, TraceDuringDecodeTest) {
const std::string category_name("trace_category");
const std::string trace_name("trace_test");
EXPECT_FALSE(
tracer_tester_->Begin(category_name, trace_name, kTraceGroupMarker));
ASSERT_TRUE(tracer_tester_->BeginDecoding());
EXPECT_TRUE(
tracer_tester_->Begin(category_name, trace_name, kTraceGroupMarker));
ASSERT_TRUE(tracer_tester_->EndDecoding());
}
TEST_F(GpuDisjointTimerTracerTest, MultipleClientsDisjointTest) {
scoped_refptr<gfx::GPUTimingClient> client1 =
GetGLContext()->CreateGPUTimingClient();
scoped_refptr<gfx::GPUTimingClient> client2 =
GetGLContext()->CreateGPUTimingClient();
// Test both clients are initialized as no errors.
ASSERT_FALSE(client1->CheckAndResetTimerErrors());
ASSERT_FALSE(client2->CheckAndResetTimerErrors());
// Issue a disjoint.
gl_fake_queries_.SetDisjoint();
ASSERT_TRUE(client1->CheckAndResetTimerErrors());
ASSERT_TRUE(client2->CheckAndResetTimerErrors());
// Test both are now reset.
ASSERT_FALSE(client1->CheckAndResetTimerErrors());
ASSERT_FALSE(client2->CheckAndResetTimerErrors());
// Issue a disjoint.
gl_fake_queries_.SetDisjoint();
// Test new client disjoint value is cleared.
scoped_refptr<gfx::GPUTimingClient> client3 =
GetGLContext()->CreateGPUTimingClient();
ASSERT_TRUE(client1->CheckAndResetTimerErrors());
ASSERT_TRUE(client2->CheckAndResetTimerErrors());
ASSERT_FALSE(client3->CheckAndResetTimerErrors());
}
} // namespace
} // namespace gles2
} // namespace gpu