gpu/ipc/service/gpu_channel_unittest.cc - chromium/src.git - Git at Google

 // Copyright (c) 2015 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 <stdint.h>

 #include "base/test/test_simple_task_runner.h"
 #include "gpu/ipc/common/command_buffer_id.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_test_common.h"

 namespace gpu {

 class GpuChannelTest : public GpuChannelTestCommon {
  public:
   GpuChannelTest() : GpuChannelTestCommon(true /* use_stub_bindings */) {}
   ~GpuChannelTest() override = default;
 };

 #if defined(OS_WIN)
 const SurfaceHandle kFakeSurfaceHandle = reinterpret_cast<SurfaceHandle>(1);
 #else
 const SurfaceHandle kFakeSurfaceHandle = 1;
 #endif

 TEST_F(GpuChannelTest, CreateViewCommandBufferAllowed) {
   int32_t kClientId = 1;
   bool is_gpu_host = true;
   GpuChannel* channel = CreateChannel(kClientId, is_gpu_host);
   ASSERT_TRUE(channel);

   SurfaceHandle surface_handle = kFakeSurfaceHandle;
   DCHECK_NE(surface_handle, kNullSurfaceHandle);

   int32_t kRouteId =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   GPUCreateCommandBufferConfig init_params;
   init_params.surface_handle = surface_handle;
   init_params.share_group_id = MSG_ROUTING_NONE;
   init_params.stream_id = 0;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   gpu::ContextResult result = gpu::ContextResult::kSuccess;
   gpu::Capabilities capabilities;
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kSuccess);

   CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId);
   ASSERT_TRUE(stub);
 }

 TEST_F(GpuChannelTest, CreateViewCommandBufferDisallowed) {
   int32_t kClientId = 1;
   bool is_gpu_host = false;
   GpuChannel* channel = CreateChannel(kClientId, is_gpu_host);
   ASSERT_TRUE(channel);

   SurfaceHandle surface_handle = kFakeSurfaceHandle;
   DCHECK_NE(surface_handle, kNullSurfaceHandle);

   int32_t kRouteId =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   GPUCreateCommandBufferConfig init_params;
   init_params.surface_handle = surface_handle;
   init_params.share_group_id = MSG_ROUTING_NONE;
   init_params.stream_id = 0;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   gpu::ContextResult result = gpu::ContextResult::kSuccess;
   gpu::Capabilities capabilities;
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kFatalFailure);

   CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId);
   EXPECT_FALSE(stub);
 }

 TEST_F(GpuChannelTest, CreateOffscreenCommandBuffer) {
   int32_t kClientId = 1;
   GpuChannel* channel = CreateChannel(kClientId, true);
   ASSERT_TRUE(channel);

   int32_t kRouteId =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   GPUCreateCommandBufferConfig init_params;
   init_params.surface_handle = kNullSurfaceHandle;
   init_params.share_group_id = MSG_ROUTING_NONE;
   init_params.stream_id = 0;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   gpu::ContextResult result = gpu::ContextResult::kSuccess;
   gpu::Capabilities capabilities;
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kSuccess);

   CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId);
   EXPECT_TRUE(stub);
 }

 TEST_F(GpuChannelTest, IncompatibleStreamIds) {
   int32_t kClientId = 1;
   GpuChannel* channel = CreateChannel(kClientId, true);
   ASSERT_TRUE(channel);

   // Create first context.
   int32_t kRouteId1 =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   int32_t kStreamId1 = 1;
   GPUCreateCommandBufferConfig init_params;
   init_params.surface_handle = kNullSurfaceHandle;
   init_params.share_group_id = MSG_ROUTING_NONE;
   init_params.stream_id = kStreamId1;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   gpu::ContextResult result = gpu::ContextResult::kSuccess;
   gpu::Capabilities capabilities;
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId1, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kSuccess);

   CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId1);
   EXPECT_TRUE(stub);

   // Create second context in same share group but different stream.
   int32_t kRouteId2 = kRouteId1 + 1;
   int32_t kStreamId2 = 2;

   init_params.share_group_id = kRouteId1;
   init_params.stream_id = kStreamId2;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId2, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kFatalFailure);

   stub = channel->LookupCommandBuffer(kRouteId2);
   EXPECT_FALSE(stub);
 }

 TEST_F(GpuChannelTest, CreateFailsIfSharedContextIsLost) {
   int32_t kClientId = 1;
   GpuChannel* channel = CreateChannel(kClientId, false);
   ASSERT_TRUE(channel);

   // Create first context, we will share this one.
   int32_t kSharedRouteId =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   {
     SCOPED_TRACE("kSharedRouteId");
     GPUCreateCommandBufferConfig init_params;
     init_params.surface_handle = kNullSurfaceHandle;
     init_params.share_group_id = MSG_ROUTING_NONE;
     init_params.stream_id = 0;
     init_params.stream_priority = SchedulingPriority::kNormal;
     init_params.attribs = ContextCreationAttribs();
     init_params.active_url = GURL();
     gpu::ContextResult result = gpu::ContextResult::kSuccess;
     gpu::Capabilities capabilities;
     HandleMessage(channel,
                   new GpuChannelMsg_CreateCommandBuffer(
                       init_params, kSharedRouteId, GetSharedMemoryRegion(),
                       &result, &capabilities));
     EXPECT_EQ(result, gpu::ContextResult::kSuccess);
   }
   EXPECT_TRUE(channel->LookupCommandBuffer(kSharedRouteId));

   // This context shares with the first one, this should be possible.
   int32_t kFriendlyRouteId = kSharedRouteId + 1;
   {
     SCOPED_TRACE("kFriendlyRouteId");
     GPUCreateCommandBufferConfig init_params;
     init_params.surface_handle = kNullSurfaceHandle;
     init_params.share_group_id = kSharedRouteId;
     init_params.stream_id = 0;
     init_params.stream_priority = SchedulingPriority::kNormal;
     init_params.attribs = ContextCreationAttribs();
     init_params.active_url = GURL();
     gpu::ContextResult result = gpu::ContextResult::kSuccess;
     gpu::Capabilities capabilities;
     HandleMessage(channel,
                   new GpuChannelMsg_CreateCommandBuffer(
                       init_params, kFriendlyRouteId, GetSharedMemoryRegion(),
                       &result, &capabilities));
     EXPECT_EQ(result, gpu::ContextResult::kSuccess);
   }
   EXPECT_TRUE(channel->LookupCommandBuffer(kFriendlyRouteId));

   // The shared context is lost.
   channel->LookupCommandBuffer(kSharedRouteId)->MarkContextLost();

   // Meanwhile another context is being made pointing to the shared one. This
   // should fail.
   int32_t kAnotherRouteId = kFriendlyRouteId + 1;
   {
     SCOPED_TRACE("kAnotherRouteId");
     GPUCreateCommandBufferConfig init_params;
     init_params.surface_handle = kNullSurfaceHandle;
     init_params.share_group_id = kSharedRouteId;
     init_params.stream_id = 0;
     init_params.stream_priority = SchedulingPriority::kNormal;
     init_params.attribs = ContextCreationAttribs();
     init_params.active_url = GURL();
     gpu::ContextResult result = gpu::ContextResult::kSuccess;
     gpu::Capabilities capabilities;
     HandleMessage(channel,
                   new GpuChannelMsg_CreateCommandBuffer(
                       init_params, kAnotherRouteId, GetSharedMemoryRegion(),
                       &result, &capabilities));
     EXPECT_EQ(result, gpu::ContextResult::kTransientFailure);
   }
   EXPECT_FALSE(channel->LookupCommandBuffer(kAnotherRouteId));

   // The lost context is still around though (to verify the failure happened due
   // to the shared context being lost, not due to it being deleted).
   EXPECT_TRUE(channel->LookupCommandBuffer(kSharedRouteId));

   // Destroy the command buffers we initialized before destoying GL.
   HandleMessage(channel,
                 new GpuChannelMsg_DestroyCommandBuffer(kFriendlyRouteId));
   HandleMessage(channel,
                 new GpuChannelMsg_DestroyCommandBuffer(kSharedRouteId));
 }

 class GpuChannelExitForContextLostTest : public GpuChannelTestCommon {
  public:
   GpuChannelExitForContextLostTest()
       : GpuChannelTestCommon({EXIT_ON_CONTEXT_LOST} /* enabled_workarounds */,
                              true /* use_stub_bindings */) {}
 };

 TEST_F(GpuChannelExitForContextLostTest,
        CreateFailsDuringLostContextShutdown_1) {
   int32_t kClientId = 1;
   GpuChannel* channel = CreateChannel(kClientId, false);
   ASSERT_TRUE(channel);

   // Put channel manager into shutdown state.
   channel_manager()->OnContextLost(false /* synthetic_loss */);

   // Calling OnContextLost() above may destroy the gpu channel via post task.
   // Ensure that post task has happened.
   task_runner()->RunPendingTasks();

   // If the channel is destroyed, then skip the test.
   if (!channel_manager()->LookupChannel(kClientId))
     return;

   // Try to create a context.
   int32_t kRouteId =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   GPUCreateCommandBufferConfig init_params;
   init_params.surface_handle = kNullSurfaceHandle;
   init_params.share_group_id = MSG_ROUTING_NONE;
   init_params.stream_id = 0;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   gpu::ContextResult result = gpu::ContextResult::kSuccess;
   gpu::Capabilities capabilities;
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kTransientFailure);
   EXPECT_FALSE(channel->LookupCommandBuffer(kRouteId));
 }

 TEST_F(GpuChannelExitForContextLostTest,
        CreateFailsDuringLostContextShutdown_2) {
   // Put channel manager into shutdown state. Do this before creating a channel,
   // as doing this may destroy any active channels.
   channel_manager()->OnContextLost(false /* synthetic_loss */);

   int32_t kClientId = 1;
   GpuChannel* channel = CreateChannel(kClientId, false);
   ASSERT_TRUE(channel);

   // Try to create a context.
   int32_t kRouteId =
       static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
   GPUCreateCommandBufferConfig init_params;
   init_params.surface_handle = kNullSurfaceHandle;
   init_params.share_group_id = MSG_ROUTING_NONE;
   init_params.stream_id = 0;
   init_params.stream_priority = SchedulingPriority::kNormal;
   init_params.attribs = ContextCreationAttribs();
   init_params.active_url = GURL();
   gpu::ContextResult result = gpu::ContextResult::kSuccess;
   gpu::Capabilities capabilities;
   HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
                              init_params, kRouteId, GetSharedMemoryRegion(),
                              &result, &capabilities));
   EXPECT_EQ(result, gpu::ContextResult::kTransientFailure);
   EXPECT_FALSE(channel->LookupCommandBuffer(kRouteId));
 }

 }  // namespace gpu
	// Copyright (c) 2015 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 <stdint.h>

	#include "base/test/test_simple_task_runner.h"
	#include "gpu/ipc/common/command_buffer_id.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_test_common.h"

	namespace gpu {

	class GpuChannelTest : public GpuChannelTestCommon {
	public:
	GpuChannelTest() : GpuChannelTestCommon(true /* use_stub_bindings */) {}
	~GpuChannelTest() override = default;
	};

	#if defined(OS_WIN)
	const SurfaceHandle kFakeSurfaceHandle = reinterpret_cast<SurfaceHandle>(1);
	#else
	const SurfaceHandle kFakeSurfaceHandle = 1;
	#endif

	TEST_F(GpuChannelTest, CreateViewCommandBufferAllowed) {
	int32_t kClientId = 1;
	bool is_gpu_host = true;
	GpuChannel* channel = CreateChannel(kClientId, is_gpu_host);
	ASSERT_TRUE(channel);

	SurfaceHandle surface_handle = kFakeSurfaceHandle;
	DCHECK_NE(surface_handle, kNullSurfaceHandle);

	int32_t kRouteId =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = surface_handle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kSuccess);

	CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId);
	ASSERT_TRUE(stub);
	}

	TEST_F(GpuChannelTest, CreateViewCommandBufferDisallowed) {
	int32_t kClientId = 1;
	bool is_gpu_host = false;
	GpuChannel* channel = CreateChannel(kClientId, is_gpu_host);
	ASSERT_TRUE(channel);

	SurfaceHandle surface_handle = kFakeSurfaceHandle;
	DCHECK_NE(surface_handle, kNullSurfaceHandle);

	int32_t kRouteId =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = surface_handle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kFatalFailure);

	CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId);
	EXPECT_FALSE(stub);
	}

	TEST_F(GpuChannelTest, CreateOffscreenCommandBuffer) {
	int32_t kClientId = 1;
	GpuChannel* channel = CreateChannel(kClientId, true);
	ASSERT_TRUE(channel);

	int32_t kRouteId =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kSuccess);

	CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId);
	EXPECT_TRUE(stub);
	}

	TEST_F(GpuChannelTest, IncompatibleStreamIds) {
	int32_t kClientId = 1;
	GpuChannel* channel = CreateChannel(kClientId, true);
	ASSERT_TRUE(channel);

	// Create first context.
	int32_t kRouteId1 =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	int32_t kStreamId1 = 1;
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = kStreamId1;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId1, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kSuccess);

	CommandBufferStub* stub = channel->LookupCommandBuffer(kRouteId1);
	EXPECT_TRUE(stub);

	// Create second context in same share group but different stream.
	int32_t kRouteId2 = kRouteId1 + 1;
	int32_t kStreamId2 = 2;

	init_params.share_group_id = kRouteId1;
	init_params.stream_id = kStreamId2;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId2, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kFatalFailure);

	stub = channel->LookupCommandBuffer(kRouteId2);
	EXPECT_FALSE(stub);
	}

	TEST_F(GpuChannelTest, CreateFailsIfSharedContextIsLost) {
	int32_t kClientId = 1;
	GpuChannel* channel = CreateChannel(kClientId, false);
	ASSERT_TRUE(channel);

	// Create first context, we will share this one.
	int32_t kSharedRouteId =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	{
	SCOPED_TRACE("kSharedRouteId");
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel,
	new GpuChannelMsg_CreateCommandBuffer(
	init_params, kSharedRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kSuccess);
	}
	EXPECT_TRUE(channel->LookupCommandBuffer(kSharedRouteId));

	// This context shares with the first one, this should be possible.
	int32_t kFriendlyRouteId = kSharedRouteId + 1;
	{
	SCOPED_TRACE("kFriendlyRouteId");
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = kSharedRouteId;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel,
	new GpuChannelMsg_CreateCommandBuffer(
	init_params, kFriendlyRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kSuccess);
	}
	EXPECT_TRUE(channel->LookupCommandBuffer(kFriendlyRouteId));

	// The shared context is lost.
	channel->LookupCommandBuffer(kSharedRouteId)->MarkContextLost();

	// Meanwhile another context is being made pointing to the shared one. This
	// should fail.
	int32_t kAnotherRouteId = kFriendlyRouteId + 1;
	{
	SCOPED_TRACE("kAnotherRouteId");
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = kSharedRouteId;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel,
	new GpuChannelMsg_CreateCommandBuffer(
	init_params, kAnotherRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kTransientFailure);
	}
	EXPECT_FALSE(channel->LookupCommandBuffer(kAnotherRouteId));

	// The lost context is still around though (to verify the failure happened due
	// to the shared context being lost, not due to it being deleted).
	EXPECT_TRUE(channel->LookupCommandBuffer(kSharedRouteId));

	// Destroy the command buffers we initialized before destoying GL.
	HandleMessage(channel,
	new GpuChannelMsg_DestroyCommandBuffer(kFriendlyRouteId));
	HandleMessage(channel,
	new GpuChannelMsg_DestroyCommandBuffer(kSharedRouteId));
	}

	class GpuChannelExitForContextLostTest : public GpuChannelTestCommon {
	public:
	GpuChannelExitForContextLostTest()
	: GpuChannelTestCommon({EXIT_ON_CONTEXT_LOST} /* enabled_workarounds */,
	true /* use_stub_bindings */) {}
	};

	TEST_F(GpuChannelExitForContextLostTest,
	CreateFailsDuringLostContextShutdown_1) {
	int32_t kClientId = 1;
	GpuChannel* channel = CreateChannel(kClientId, false);
	ASSERT_TRUE(channel);

	// Put channel manager into shutdown state.
	channel_manager()->OnContextLost(false /* synthetic_loss */);

	// Calling OnContextLost() above may destroy the gpu channel via post task.
	// Ensure that post task has happened.
	task_runner()->RunPendingTasks();

	// If the channel is destroyed, then skip the test.
	if (!channel_manager()->LookupChannel(kClientId))
	return;

	// Try to create a context.
	int32_t kRouteId =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kTransientFailure);
	EXPECT_FALSE(channel->LookupCommandBuffer(kRouteId));
	}

	TEST_F(GpuChannelExitForContextLostTest,
	CreateFailsDuringLostContextShutdown_2) {
	// Put channel manager into shutdown state. Do this before creating a channel,
	// as doing this may destroy any active channels.
	channel_manager()->OnContextLost(false /* synthetic_loss */);

	int32_t kClientId = 1;
	GpuChannel* channel = CreateChannel(kClientId, false);
	ASSERT_TRUE(channel);

	// Try to create a context.
	int32_t kRouteId =
	static_cast<int32_t>(GpuChannelReservedRoutes::kMaxValue) + 1;
	GPUCreateCommandBufferConfig init_params;
	init_params.surface_handle = kNullSurfaceHandle;
	init_params.share_group_id = MSG_ROUTING_NONE;
	init_params.stream_id = 0;
	init_params.stream_priority = SchedulingPriority::kNormal;
	init_params.attribs = ContextCreationAttribs();
	init_params.active_url = GURL();
	gpu::ContextResult result = gpu::ContextResult::kSuccess;
	gpu::Capabilities capabilities;
	HandleMessage(channel, new GpuChannelMsg_CreateCommandBuffer(
	init_params, kRouteId, GetSharedMemoryRegion(),
	&result, &capabilities));
	EXPECT_EQ(result, gpu::ContextResult::kTransientFailure);
	EXPECT_FALSE(channel->LookupCommandBuffer(kRouteId));
	}

	} // namespace gpu