File: test_shared_image_interface.cc

package info (click to toggle)
chromium 144.0.7559.109-2
links: PTS, VCS
area: main
in suites: forky
size: 5,915,868 kB
sloc: cpp: 35,866,215; ansic: 7,599,035; javascript: 3,623,761; python: 1,639,407; xml: 833,084; asm: 716,173; pascal: 185,323; sh: 88,763; perl: 88,699; objc: 79,984; sql: 58,217; cs: 42,430; fortran: 24,101; makefile: 20,747; tcl: 15,277; php: 14,022; yacc: 9,059; ruby: 7,553; awk: 3,720; lisp: 3,233; lex: 1,330; ada: 727; jsp: 228; sed: 36
file content (479 lines) | stat: -rw-r--r-- 17,103 bytes
parent folder | download | duplicates (5)
// Copyright 2024 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "gpu/command_buffer/client/test_shared_image_interface.h"

#include <GLES2/gl2.h>
#include <GLES2/gl2extchromium.h>

#include <utility>

#if BUILDFLAG(IS_FUCHSIA)
#include <fuchsia/sysmem2/cpp/fidl.h>
#include <lib/sys/cpp/component_context.h>
#endif

#include "base/check.h"
#include "base/notreached.h"
#include "build/build_config.h"
#include "components/viz/common/resources/shared_image_format_utils.h"
#include "gpu/command_buffer/client/client_shared_image.h"
#include "gpu/command_buffer/common/shared_image_capabilities.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/gfx/gpu_fence.h"
#include "ui/gfx/gpu_memory_buffer_handle.h"

#if BUILDFLAG(IS_LINUX) || BUILDFLAG(IS_CHROMEOS)
#include <fcntl.h>
#endif

#if BUILDFLAG(IS_FUCHSIA)
#include "base/fuchsia/fuchsia_logging.h"
#include "base/fuchsia/koid.h"
#include "base/fuchsia/process_context.h"
#endif

namespace gpu {

namespace {

gfx::GpuMemoryBufferType GetNativeBufferType() {
#if BUILDFLAG(IS_APPLE)
  return gfx::IO_SURFACE_BUFFER;
#elif BUILDFLAG(IS_ANDROID)
  return gfx::ANDROID_HARDWARE_BUFFER;
#elif BUILDFLAG(IS_WIN)
  return gfx::DXGI_SHARED_HANDLE;
#else
  // Ozone
  return gfx::NATIVE_PIXMAP;
#endif
}

}  // namespace

#if BUILDFLAG(IS_FUCHSIA)
class TestBufferCollection {
 public:
  TestBufferCollection(zx::eventpair handle, zx::channel collection_token)
      : handle_(std::move(handle)) {
    sysmem_allocator_ = base::ComponentContextForProcess()
                            ->svc()
                            ->Connect<fuchsia::sysmem2::Allocator>();
    sysmem_allocator_.set_error_handler([](zx_status_t status) {
      ZX_LOG(FATAL, status)
          << "The fuchsia.sysmem.Allocator channel was terminated.";
    });
    fuchsia::sysmem2::AllocatorSetDebugClientInfoRequest set_debug_request;
    set_debug_request.set_name("CrTestBufferCollection");
    set_debug_request.set_id(base::GetCurrentProcId());
    sysmem_allocator_->SetDebugClientInfo(std::move(set_debug_request));

    fuchsia::sysmem2::AllocatorBindSharedCollectionRequest bind_shared_request;
    bind_shared_request.set_token(fidl::InterfaceHandle<fuchsia::sysmem2::BufferCollectionToken>(
            std::move(collection_token)));
    bind_shared_request.set_buffer_collection_request(buffers_collection_.NewRequest());
    sysmem_allocator_->BindSharedCollection(std::move(bind_shared_request));

    fuchsia::sysmem2::BufferCollectionSetConstraintsRequest set_constraints_request;
    auto& buffer_constraints = *set_constraints_request.mutable_constraints();
    buffer_constraints.mutable_usage()->set_cpu(fuchsia::sysmem2::CPU_USAGE_READ);
    zx_status_t status = buffers_collection_->SetConstraints(std::move(set_constraints_request));
    ZX_CHECK(status == ZX_OK, status) << "BufferCollection::SetConstraints()";
  }

  TestBufferCollection(const TestBufferCollection&) = delete;
  TestBufferCollection& operator=(const TestBufferCollection&) = delete;

  ~TestBufferCollection() { buffers_collection_->Release(); }

  size_t GetNumBuffers() {
    if (!buffer_collection_info_) {
      fuchsia::sysmem2::BufferCollection_WaitForAllBuffersAllocated_Result wait_result;
      zx_status_t status =
          buffers_collection_->WaitForAllBuffersAllocated(&wait_result);
      if (status != ZX_OK) {
        ZX_LOG(FATAL, status) <<
            "BufferCollection::WaitForAllBuffersAllocated() (status)";
      } else if (wait_result.is_framework_err()) {
        LOG(FATAL) <<
            "BufferCollection::WaitForAllBuffersAllocated (framework_err): " <<
            fidl::ToUnderlying(wait_result.framework_err());
      } else if (!wait_result.is_response()) {
        LOG(FATAL) << "BufferCollection::WaitForAllBuffersAllocated (err)" <<
            static_cast<uint32_t>(wait_result.err());
      }
      auto info = std::move(*wait_result.response().mutable_buffer_collection_info());
      buffer_collection_info_ = std::move(info);
    }
    return buffer_collection_info_->buffers().size();
  }

 private:
  zx::eventpair handle_;

  fuchsia::sysmem2::AllocatorPtr sysmem_allocator_;
  fuchsia::sysmem2::BufferCollectionSyncPtr buffers_collection_;

  std::optional<fuchsia::sysmem2::BufferCollectionInfo>
      buffer_collection_info_;
};
#endif

TestSharedImageInterface::TestSharedImageInterface() {
  InitializeSharedImageCapabilities();
}

TestSharedImageInterface::~TestSharedImageInterface() = default;

// static
gfx::GpuMemoryBufferHandle TestSharedImageInterface::CreateGMBHandle(
    const viz::SharedImageFormat& format,
    const gfx::Size& size) {
  size_t buffer_size =
      viz::SharedMemorySizeForSharedImageFormat(format, size).value();
  CHECK(buffer_size);
  auto shared_memory_region =
      base::UnsafeSharedMemoryRegion::Create(buffer_size);
  CHECK(shared_memory_region.IsValid());

  gfx::GpuMemoryBufferHandle handle(std::move(shared_memory_region));
  handle.offset = 0;
  handle.stride =
      static_cast<uint32_t>(viz::SharedMemoryRowSizeForSharedImageFormat(
                                format, /*plane*/ 0, size.width())
                                .value());

  return handle;
}

scoped_refptr<ClientSharedImage> TestSharedImageInterface::CreateSharedImage(
    const SharedImageInfo& si_info,
    SurfaceHandle surface_handle,
    std::optional<SharedImagePoolId> pool_id) {
  SyncToken sync_token = GenUnverifiedSyncToken();
  base::AutoLock locked(lock_);
  auto mailbox = Mailbox::Generate();
  shared_images_.insert(mailbox);
  most_recent_size_ = si_info.meta.size;
  auto gmb_handle_type = emulate_client_provided_native_buffer_
                             ? GetNativeBufferType()
                             : gfx::EMPTY_BUFFER;
  return base::MakeRefCounted<ClientSharedImage>(mailbox, si_info, sync_token,
                                                 holder_, gmb_handle_type);
}

scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateSharedImage(
    const SharedImageInfo& si_info,
    base::span<const uint8_t> pixel_data) {
  SyncToken sync_token = GenUnverifiedSyncToken();
  base::AutoLock locked(lock_);
  auto mailbox = Mailbox::Generate();
  shared_images_.insert(mailbox);
  return base::MakeRefCounted<ClientSharedImage>(mailbox, si_info, sync_token,
                                                 holder_, gfx::EMPTY_BUFFER);
}

scoped_refptr<ClientSharedImage> TestSharedImageInterface::CreateSharedImage(
    const SharedImageInfo& si_info,
    SurfaceHandle surface_handle,
    gfx::BufferUsage buffer_usage,
    std::optional<SharedImagePoolId> pool_id) {
  DoCreateSharedImage(si_info.meta.size, si_info.meta.format, surface_handle,
                      buffer_usage);
  if (fail_shared_image_creation_with_buffer_usage_) {
    return nullptr;
  }
  SyncToken sync_token = GenUnverifiedSyncToken();

  // Create a ClientSharedImage with a GMB.
  base::AutoLock locked(lock_);
  auto mailbox = Mailbox::Generate();
  shared_images_.insert(mailbox);
  most_recent_size_ = si_info.meta.size;

  // Copy which can be modified.
  SharedImageInfo si_info_copy = si_info;
  // Set CPU read/write usage based on buffer usage.
  si_info_copy.meta.usage |= GetCpuSIUsage(buffer_usage);

  // Since the GMB handle that we create here is always shared memory, clear
  // the external sampler prefs to avoid a CHECK within ClientSI that external
  // sampling is set only with a native GMB handle.
  if (si_info_copy.meta.format.PrefersExternalSampler()) {
    si_info_copy.meta.format.ClearPrefersExternalSampler();
  }

  auto gmb_handle =
      CreateGMBHandle(si_info.meta.format, si_info_copy.meta.size);

  auto client_si = base::MakeRefCounted<ClientSharedImage>(
      mailbox, si_info_copy, sync_token,
      GpuMemoryBufferHandleInfo(std::move(gmb_handle), buffer_usage), holder_);
  most_recent_mappable_shared_image_ = client_si.get();
  return client_si;
}

scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateSharedImage(
    const SharedImageInfo& si_info,
    SurfaceHandle surface_handle,
    gfx::BufferUsage buffer_usage,
    gfx::GpuMemoryBufferHandle buffer_handle) {
  SyncToken sync_token = GenUnverifiedSyncToken();
  base::AutoLock locked(lock_);
  auto mailbox = Mailbox::Generate();
  shared_images_.insert(mailbox);
  most_recent_size_ = si_info.meta.size;

  // Copy which can be modified.
  SharedImageInfo si_info_copy = si_info;
  // Set CPU read/write usage based on buffer usage.
  si_info_copy.meta.usage |= GetCpuSIUsage(buffer_usage);

  // If the GMB handle passed here is shared memory (e.g. because it was created
  // by a unittest that is simulating a production flow with native handles),
  // clear the external sampler prefs to avoid a CHECK within ClientSI that
  // external sampling is set only with a native GMB handle.
  if (buffer_handle.type == gfx::SHARED_MEMORY_BUFFER &&
      si_info_copy.meta.format.PrefersExternalSampler()) {
    si_info_copy.meta.format.ClearPrefersExternalSampler();
  }

  return base::MakeRefCounted<ClientSharedImage>(
      mailbox, si_info_copy, sync_token,
      GpuMemoryBufferHandleInfo(std::move(buffer_handle), buffer_usage),
      holder_);
}

scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateSharedImage(
    const SharedImageInfo& si_info,
    gfx::GpuMemoryBufferHandle buffer_handle) {
  SyncToken sync_token = GenUnverifiedSyncToken();
  base::AutoLock locked(lock_);
#if BUILDFLAG(IS_FUCHSIA)
  if (buffer_handle.type == gfx::GpuMemoryBufferType::NATIVE_PIXMAP) {
    zx_koid_t id =
        base::GetRelatedKoid(
            buffer_handle.native_pixmap_handle().buffer_collection_handle)
            .value();
    auto collection_it = sysmem_buffer_collections_.find(id);

    // NOTE: Not all unittests invoke RegisterSysmemBufferCollection(), but
    // the below CHECK should hold for those that do.
    if (collection_it != sysmem_buffer_collections_.end()) {
      CHECK_LT(buffer_handle.native_pixmap_handle().buffer_index,
               collection_it->second->GetNumBuffers());
    }
  }
#endif
  auto mailbox = Mailbox::Generate();
  shared_images_.insert(mailbox);
  most_recent_size_ = si_info.meta.size;
  return base::MakeRefCounted<ClientSharedImage>(mailbox, si_info, sync_token,
                                                 holder_, buffer_handle.type);
}

scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateSharedImageForSoftwareCompositor(
    const SharedImageInfo& si_info) {
  base::WritableSharedMemoryMapping mapping;
  gfx::GpuMemoryBufferHandle handle;
  CreateSharedMemoryRegionFromSIInfo(si_info, mapping, handle);

  auto mailbox = Mailbox::Generate();
  shared_images_.insert(mailbox);
  most_recent_size_ = si_info.meta.size;

  return base::MakeRefCounted<ClientSharedImage>(
      mailbox, si_info, GenUnverifiedSyncToken(), holder_, std::move(mapping));
}

scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateSharedImageForMLTensor(
    std::string debug_label,
    viz::SharedImageFormat format,
    const gfx::Size& size,
    gpu::SharedImageUsageSet usage) {
  NOTREACHED();
}

void TestSharedImageInterface::UpdateSharedImage(
    const SyncToken& sync_token,
    const Mailbox& mailbox) {
  base::AutoLock locked(lock_);
  DCHECK(shared_images_.find(mailbox) != shared_images_.end());
  num_update_shared_image_no_fence_calls_++;
}

void TestSharedImageInterface::UpdateSharedImage(
    const SyncToken& sync_token,
    std::unique_ptr<gfx::GpuFence> acquire_fence,
    const Mailbox& mailbox) {
  base::AutoLock locked(lock_);
  DCHECK(shared_images_.find(mailbox) != shared_images_.end());
}

scoped_refptr<ClientSharedImage> TestSharedImageInterface::ImportSharedImage(
    ExportedSharedImage exported_shared_image) {
  shared_images_.insert(exported_shared_image.mailbox_);

  return base::WrapRefCounted<ClientSharedImage>(
      new ClientSharedImage(std::move(exported_shared_image), holder_));
}

void TestSharedImageInterface::DestroySharedImage(
    const SyncToken& sync_token,
    const Mailbox& mailbox) {
  base::AutoLock locked(lock_);
  if (most_recent_mappable_shared_image_ &&
      mailbox == most_recent_mappable_shared_image_->mailbox()) {
    most_recent_mappable_shared_image_ = nullptr;
  }

  shared_images_.erase(mailbox);
  most_recent_destroy_token_ = sync_token;

  if (test_client_) {
    test_client_->DidDestroySharedImage();
  }
}

void TestSharedImageInterface::DestroySharedImage(
    const SyncToken& sync_token,
    scoped_refptr<ClientSharedImage> client_shared_image) {
  CHECK(client_shared_image->HasOneRef());
  client_shared_image->UpdateDestructionSyncToken(sync_token);
}

#if BUILDFLAG(IS_FUCHSIA)
void TestSharedImageInterface::RegisterSysmemBufferCollection(
    zx::eventpair service_handle,
    zx::channel sysmem_token,
    const viz::SharedImageFormat& format,
    gfx::BufferUsage usage,
    bool register_with_image_pipe) {
  EXPECT_EQ(format, viz::MultiPlaneFormat::kNV12);
  EXPECT_EQ(usage, gfx::BufferUsage::GPU_READ);
  zx_koid_t id = base::GetKoid(service_handle).value();
  std::unique_ptr<TestBufferCollection>& collection =
      sysmem_buffer_collections_[id];
  EXPECT_FALSE(collection);
  collection = std::make_unique<TestBufferCollection>(std::move(service_handle),
                                                      std::move(sysmem_token));
}
#endif  // BUILDFLAG(IS_FUCHSIA)

SyncToken TestSharedImageInterface::GenVerifiedSyncToken() {
  base::AutoLock locked(lock_);
  most_recent_generated_token_ =
      SyncToken(CommandBufferNamespace::GPU_IO,
                     CommandBufferId(), ++release_id_);
  VerifySyncToken(most_recent_generated_token_);
  return most_recent_generated_token_;
}

SyncToken TestSharedImageInterface::GenUnverifiedSyncToken() {
  base::AutoLock locked(lock_);
  most_recent_generated_token_ =
      SyncToken(CommandBufferNamespace::GPU_IO,
                     CommandBufferId(), ++release_id_);
  return most_recent_generated_token_;
}

void TestSharedImageInterface::VerifySyncToken(SyncToken& sync_token) {
  sync_token.SetVerifyFlush();
}

void TestSharedImageInterface::WaitSyncToken(const SyncToken& sync_token) {
  NOTREACHED();
}

bool TestSharedImageInterface::CanVerifySyncToken(
    const gpu::SyncToken& sync_token) {
  return true;
}

void TestSharedImageInterface::VerifyFlush() {}

scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateSharedImageWithAsyncMapControl(
    const SharedImageInfo& si_info,
    gfx::BufferUsage buffer_usage,
    bool premapped,
    const ClientSharedImage::AsyncMapInvokedCallback& callback) {
  Mailbox mailbox;
  {
    base::AutoLock locked(lock_);
    mailbox = Mailbox::Generate();
    shared_images_.insert(mailbox);
  }

  auto image = ClientSharedImage::CreateForTesting(
      mailbox, si_info.meta, GenUnverifiedSyncToken(), premapped, callback,
      buffer_usage, holder_);
  return image;
}

#if BUILDFLAG(IS_LINUX) || BUILDFLAG(IS_CHROMEOS)
scoped_refptr<ClientSharedImage>
TestSharedImageInterface::CreateNativePixmapBackedSharedImage(
    const SharedImageInfo& si_info,
    SurfaceHandle surface_handle,
    gfx::BufferUsage buffer_usage) {
  const auto& format = si_info.meta.format;
  const auto& size = si_info.meta.size;

  gfx::NativePixmapHandle native_pixmap_handle;
  for (int i = 0; i < format.NumberOfPlanes(); i++) {
    size_t height_in_pixels = format.GetPlaneSize(i, size).height();
    CHECK(height_in_pixels);
    size_t stride =
        viz::SharedMemoryRowSizeForSharedImageFormat(format, i, size.width())
            .value();
    native_pixmap_handle.planes.emplace_back(
        stride, 0, height_in_pixels * stride,
        base::ScopedFD(open("/dev/zero", O_RDWR)));
  }

  return CreateSharedImage(
      si_info, surface_handle, buffer_usage,
      gfx::GpuMemoryBufferHandle(std::move(native_pixmap_handle)));
}
#endif  // BUILDFLAG(IS_LINUX) || BUILDFLAG(IS_CHROMEOS)

bool TestSharedImageInterface::CheckSharedImageExists(
    const Mailbox& mailbox) const {
  base::AutoLock locked(lock_);
  return shared_images_.contains(mailbox);
}

const SharedImageCapabilities&
TestSharedImageInterface::GetCapabilities() {
  return shared_image_capabilities_;
}

void TestSharedImageInterface::SetCapabilities(
    const SharedImageCapabilities& caps) {
  shared_image_capabilities_ = caps;
  InitializeSharedImageCapabilities();
}

void TestSharedImageInterface::InitializeSharedImageCapabilities() {
#if BUILDFLAG(IS_MAC)
  // Initialize `texture_target_for_io_surfaces` to a value that is valid for
  // ClientSharedImage to use, as unittests broadly create and use
  // SharedImageCapabilities instances without initializing this field. The
  // specific value is chosen to match the historical default value that was
  // used when this state was accessed via a global variable.
  if (!shared_image_capabilities_.texture_target_for_io_surfaces) {
    shared_image_capabilities_.texture_target_for_io_surfaces =
        GL_TEXTURE_RECTANGLE_ARB;
  }
#endif
}

}  // namespace gpu