gpu/command_buffer/service/common_decoder.cc - chromium/src - Git at Google

 // 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/command_buffer/service/common_decoder.h"

 #include <stddef.h>
 #include <stdint.h>

 #include <algorithm>

 #include "base/numerics/safe_math.h"
 #include "gpu/command_buffer/service/cmd_buffer_engine.h"

 namespace gpu {

 const CommonDecoder::CommandInfo CommonDecoder::command_info[] = {
 #define COMMON_COMMAND_BUFFER_CMD_OP(name)                       \
   {                                                              \
     &CommonDecoder::Handle##name, cmd::name::kArgFlags,          \
         cmd::name::cmd_flags,                                    \
         sizeof(cmd::name) / sizeof(CommandBufferEntry) - 1,      \
   }                                                              \
   ,  /* NOLINT */
   COMMON_COMMAND_BUFFER_CMDS(COMMON_COMMAND_BUFFER_CMD_OP)
   #undef COMMON_COMMAND_BUFFER_CMD_OP
 };


 CommonDecoder::Bucket::Bucket() : size_(0) {}

 CommonDecoder::Bucket::~Bucket() {}

 void* CommonDecoder::Bucket::GetData(size_t offset, size_t size) const {
   if (OffsetSizeValid(offset, size)) {
     return data_.get() + offset;
   }
   return NULL;
 }

 void CommonDecoder::Bucket::SetSize(size_t size) {
   if (size != size_) {
     data_.reset(size ? new int8_t[size] : NULL);
     size_ = size;
     memset(data_.get(), 0, size);
   }
 }

 bool CommonDecoder::Bucket::SetData(
     const void* src, size_t offset, size_t size) {
   if (OffsetSizeValid(offset, size)) {
     memcpy(data_.get() + offset, src, size);
     return true;
   }
   return false;
 }

 void CommonDecoder::Bucket::SetFromString(const char* str) {
   // Strings are passed NULL terminated to distinguish between empty string
   // and no string.
   if (!str) {
     SetSize(0);
   } else {
     size_t size = strlen(str) + 1;
     SetSize(size);
     SetData(str, 0, size);
   }
 }

 bool CommonDecoder::Bucket::GetAsString(std::string* str) {
   DCHECK(str);
   if (size_ == 0) {
     return false;
   }
   str->assign(GetDataAs<const char*>(0, size_ - 1), size_ - 1);
   return true;
 }

 bool CommonDecoder::Bucket::GetAsStrings(
     GLsizei* _count, std::vector<char*>* _string, std::vector<GLint>* _length) {
   const size_t kMinBucketSize = sizeof(GLint);
   // Each string has at least |length| in the header and a NUL character.
   const size_t kMinStringSize = sizeof(GLint) + 1;
   const size_t bucket_size = this->size();
   if (bucket_size < kMinBucketSize) {
     return false;
   }
   char* bucket_data = this->GetDataAs<char*>(0, bucket_size);
   GLint* header = reinterpret_cast<GLint*>(bucket_data);
   GLsizei count = static_cast<GLsizei>(header[0]);
   if (count < 0) {
     return false;
   }
   const size_t max_count = (bucket_size - kMinBucketSize) / kMinStringSize;
   if (max_count < static_cast<size_t>(count)) {
     return false;
   }
   GLint* length = header + 1;
   std::vector<char*> strs(count);
   base::CheckedNumeric<size_t> total_size = sizeof(GLint);
   total_size *= count + 1;  // Header size.
   if (!total_size.IsValid())
     return false;
   for (GLsizei ii = 0; ii < count; ++ii) {
     strs[ii] = bucket_data + total_size.ValueOrDefault(0);
     total_size += length[ii];
     total_size += 1;  // NUL char at the end of each char array.
     if (!total_size.IsValid() || total_size.ValueOrDefault(0) > bucket_size ||
         strs[ii][length[ii]] != 0) {
       return false;
     }
   }
   if (total_size.ValueOrDefault(0) != bucket_size) {
     return false;
   }
   DCHECK(_count && _string && _length);
   *_count = count;
   *_string = strs;
   _length->resize(count);
   for (GLsizei ii = 0; ii < count; ++ii) {
     (*_length)[ii] = length[ii];
   }
   return true;
 }

 CommonDecoder::CommonDecoder() : engine_(NULL) {}

 CommonDecoder::~CommonDecoder() {}

 void* CommonDecoder::GetAddressAndCheckSize(unsigned int shm_id,
                                             unsigned int data_offset,
                                             unsigned int data_size) {
   CHECK(engine_);
   scoped_refptr<gpu::Buffer> buffer = engine_->GetSharedMemoryBuffer(shm_id);
   if (!buffer.get())
     return NULL;
   return buffer->GetDataAddress(data_offset, data_size);
 }

 void* CommonDecoder::GetAddressAndSize(unsigned int shm_id,
                                        unsigned int data_offset,
                                        unsigned int* data_size) {
   CHECK(engine_);
   scoped_refptr<gpu::Buffer> buffer = engine_->GetSharedMemoryBuffer(shm_id);
   if (!buffer.get())
     return NULL;
   return buffer->GetDataAddressAndSize(data_offset, data_size);
 }

 unsigned int CommonDecoder::GetSharedMemorySize(unsigned int shm_id,
                                                 unsigned int offset) {
   CHECK(engine_);
   scoped_refptr<gpu::Buffer> buffer = engine_->GetSharedMemoryBuffer(shm_id);
   if (!buffer.get())
     return 0;
   return buffer->GetRemainingSize(offset);
 }

 scoped_refptr<gpu::Buffer> CommonDecoder::GetSharedMemoryBuffer(
     unsigned int shm_id) {
   return engine_->GetSharedMemoryBuffer(shm_id);
 }

 const char* CommonDecoder::GetCommonCommandName(
     cmd::CommandId command_id) const {
   return cmd::GetCommandName(command_id);
 }

 CommonDecoder::Bucket* CommonDecoder::GetBucket(uint32_t bucket_id) const {
   BucketMap::const_iterator iter(buckets_.find(bucket_id));
   return iter != buckets_.end() ? &(*iter->second) : NULL;
 }

 CommonDecoder::Bucket* CommonDecoder::CreateBucket(uint32_t bucket_id) {
   Bucket* bucket = GetBucket(bucket_id);
   if (!bucket) {
     bucket = new Bucket();
     buckets_[bucket_id] = linked_ptr<Bucket>(bucket);
   }
   return bucket;
 }

 namespace {

 // Returns the address of the first byte after a struct.
 template <typename T>
 const void* AddressAfterStruct(const T& pod) {
   return reinterpret_cast<const uint8_t*>(&pod) + sizeof(pod);
 }

 // Returns the address of the frst byte after the struct.
 template <typename RETURN_TYPE, typename COMMAND_TYPE>
 RETURN_TYPE GetImmediateDataAs(const COMMAND_TYPE& pod) {
   return static_cast<RETURN_TYPE>(const_cast<void*>(AddressAfterStruct(pod)));
 }

 }  // anonymous namespace.

 // Decode command with its arguments, and call the corresponding method.
 // Note: args is a pointer to the command buffer. As such, it could be changed
 // by a (malicious) client at any time, so if validation has to happen, it
 // should operate on a copy of them.
 error::Error CommonDecoder::DoCommonCommand(
     unsigned int command,
     unsigned int arg_count,
     const void* cmd_data) {
   if (command < arraysize(command_info)) {
     const CommandInfo& info = command_info[command];
     unsigned int info_arg_count = static_cast<unsigned int>(info.arg_count);
     if ((info.arg_flags == cmd::kFixed && arg_count == info_arg_count) ||
         (info.arg_flags == cmd::kAtLeastN && arg_count >= info_arg_count)) {
       uint32_t immediate_data_size =
           (arg_count - info_arg_count) * sizeof(CommandBufferEntry);  // NOLINT
       return (this->*info.cmd_handler)(immediate_data_size, cmd_data);
     } else {
       return error::kInvalidArguments;
     }
   }
   return error::kUnknownCommand;
 }

 error::Error CommonDecoder::HandleNoop(uint32_t immediate_data_size,
                                        const void* cmd_data) {
   return error::kNoError;
 }

 error::Error CommonDecoder::HandleSetToken(uint32_t immediate_data_size,
                                            const void* cmd_data) {
   const cmd::SetToken& args = *static_cast<const cmd::SetToken*>(cmd_data);
   engine_->set_token(args.token);
   return error::kNoError;
 }

 error::Error CommonDecoder::HandleSetBucketSize(uint32_t immediate_data_size,
                                                 const void* cmd_data) {
   const cmd::SetBucketSize& args =
       *static_cast<const cmd::SetBucketSize*>(cmd_data);
   uint32_t bucket_id = args.bucket_id;
   uint32_t size = args.size;

   Bucket* bucket = CreateBucket(bucket_id);
   bucket->SetSize(size);
   return error::kNoError;
 }

 error::Error CommonDecoder::HandleSetBucketData(uint32_t immediate_data_size,
                                                 const void* cmd_data) {
   const cmd::SetBucketData& args =
       *static_cast<const cmd::SetBucketData*>(cmd_data);
   uint32_t bucket_id = args.bucket_id;
   uint32_t offset = args.offset;
   uint32_t size = args.size;
   const void* data = GetSharedMemoryAs<const void*>(
       args.shared_memory_id, args.shared_memory_offset, size);
   if (!data) {
     return error::kInvalidArguments;
   }
   Bucket* bucket = GetBucket(bucket_id);
   if (!bucket) {
     return error::kInvalidArguments;
   }
   if (!bucket->SetData(data, offset, size)) {
     return error::kInvalidArguments;
   }

   return error::kNoError;
 }

 error::Error CommonDecoder::HandleSetBucketDataImmediate(
     uint32_t immediate_data_size,
     const void* cmd_data) {
   const cmd::SetBucketDataImmediate& args =
       *static_cast<const cmd::SetBucketDataImmediate*>(cmd_data);
   const void* data = GetImmediateDataAs<const void*>(args);
   uint32_t bucket_id = args.bucket_id;
   uint32_t offset = args.offset;
   uint32_t size = args.size;
   if (size > immediate_data_size) {
     return error::kInvalidArguments;
   }
   Bucket* bucket = GetBucket(bucket_id);
   if (!bucket) {
     return error::kInvalidArguments;
   }
   if (!bucket->SetData(data, offset, size)) {
     return error::kInvalidArguments;
   }
   return error::kNoError;
 }

 error::Error CommonDecoder::HandleGetBucketStart(uint32_t immediate_data_size,
                                                  const void* cmd_data) {
   const cmd::GetBucketStart& args =
       *static_cast<const cmd::GetBucketStart*>(cmd_data);
   uint32_t bucket_id = args.bucket_id;
   uint32_t* result = GetSharedMemoryAs<uint32_t*>(
       args.result_memory_id, args.result_memory_offset, sizeof(*result));
   int32_t data_memory_id = args.data_memory_id;
   uint32_t data_memory_offset = args.data_memory_offset;
   uint32_t data_memory_size = args.data_memory_size;
   uint8_t* data = NULL;
   if (data_memory_size != 0 || data_memory_id != 0 || data_memory_offset != 0) {
     data = GetSharedMemoryAs<uint8_t*>(data_memory_id, data_memory_offset,
                                        data_memory_size);
     if (!data) {
       return error::kInvalidArguments;
     }
   }
   if (!result) {
     return error::kInvalidArguments;
   }
   // Check that the client initialized the result.
   if (*result != 0) {
     return error::kInvalidArguments;
   }
   Bucket* bucket = GetBucket(bucket_id);
   if (!bucket) {
     return error::kInvalidArguments;
   }
   uint32_t bucket_size = bucket->size();
   *result = bucket_size;
   if (data) {
     uint32_t size = std::min(data_memory_size, bucket_size);
     memcpy(data, bucket->GetData(0, size), size);
   }
   return error::kNoError;
 }

 error::Error CommonDecoder::HandleGetBucketData(uint32_t immediate_data_size,
                                                 const void* cmd_data) {
   const cmd::GetBucketData& args =
       *static_cast<const cmd::GetBucketData*>(cmd_data);
   uint32_t bucket_id = args.bucket_id;
   uint32_t offset = args.offset;
   uint32_t size = args.size;
   void* data = GetSharedMemoryAs<void*>(
       args.shared_memory_id, args.shared_memory_offset, size);
   if (!data) {
     return error::kInvalidArguments;
   }
   Bucket* bucket = GetBucket(bucket_id);
   if (!bucket) {
     return error::kInvalidArguments;
   }
   const void* src = bucket->GetData(offset, size);
   if (!src) {
       return error::kInvalidArguments;
   }
   memcpy(data, src, size);
   return error::kNoError;
 }

 }  // namespace gpu
	// 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/command_buffer/service/common_decoder.h"

	#include <stddef.h>
	#include <stdint.h>

	#include <algorithm>

	#include "base/numerics/safe_math.h"
	#include "gpu/command_buffer/service/cmd_buffer_engine.h"

	namespace gpu {

	const CommonDecoder::CommandInfo CommonDecoder::command_info[] = {
	#define COMMON_COMMAND_BUFFER_CMD_OP(name) \
	{ \
	&CommonDecoder::Handle##name, cmd::name::kArgFlags, \
	cmd::name::cmd_flags, \
	sizeof(cmd::name) / sizeof(CommandBufferEntry) - 1, \
	} \
	, /* NOLINT */
	COMMON_COMMAND_BUFFER_CMDS(COMMON_COMMAND_BUFFER_CMD_OP)
	#undef COMMON_COMMAND_BUFFER_CMD_OP
	};


	CommonDecoder::Bucket::Bucket() : size_(0) {}

	CommonDecoder::Bucket::~Bucket() {}

	void* CommonDecoder::Bucket::GetData(size_t offset, size_t size) const {
	if (OffsetSizeValid(offset, size)) {
	return data_.get() + offset;
	}
	return NULL;
	}

	void CommonDecoder::Bucket::SetSize(size_t size) {
	if (size != size_) {
	data_.reset(size ? new int8_t[size] : NULL);
	size_ = size;
	memset(data_.get(), 0, size);
	}
	}

	bool CommonDecoder::Bucket::SetData(
	const void* src, size_t offset, size_t size) {
	if (OffsetSizeValid(offset, size)) {
	memcpy(data_.get() + offset, src, size);
	return true;
	}
	return false;
	}

	void CommonDecoder::Bucket::SetFromString(const char* str) {
	// Strings are passed NULL terminated to distinguish between empty string
	// and no string.
	if (!str) {
	SetSize(0);
	} else {
	size_t size = strlen(str) + 1;
	SetSize(size);
	SetData(str, 0, size);
	}
	}

	bool CommonDecoder::Bucket::GetAsString(std::string* str) {
	DCHECK(str);
	if (size_ == 0) {
	return false;
	}
	str->assign(GetDataAs<const char*>(0, size_ - 1), size_ - 1);
	return true;
	}

	bool CommonDecoder::Bucket::GetAsStrings(
	GLsizei* _count, std::vector<char> _string, std::vector<GLint>* _length) {
	const size_t kMinBucketSize = sizeof(GLint);
	// Each string has at least \|length\| in the header and a NUL character.
	const size_t kMinStringSize = sizeof(GLint) + 1;
	const size_t bucket_size = this->size();
	if (bucket_size < kMinBucketSize) {
	return false;
	}
	char* bucket_data = this->GetDataAs<char*>(0, bucket_size);
	GLint* header = reinterpret_cast<GLint*>(bucket_data);
	GLsizei count = static_cast<GLsizei>(header[0]);
	if (count < 0) {
	return false;
	}
	const size_t max_count = (bucket_size - kMinBucketSize) / kMinStringSize;
	if (max_count < static_cast<size_t>(count)) {
	return false;
	}
	GLint* length = header + 1;
	std::vector<char*> strs(count);
	base::CheckedNumeric<size_t> total_size = sizeof(GLint);
	total_size *= count + 1; // Header size.
	if (!total_size.IsValid())
	return false;
	for (GLsizei ii = 0; ii < count; ++ii) {
	strs[ii] = bucket_data + total_size.ValueOrDefault(0);
	total_size += length[ii];
	total_size += 1; // NUL char at the end of each char array.
	if (!total_size.IsValid() \|\| total_size.ValueOrDefault(0) > bucket_size \|\|
	strs[ii][length[ii]] != 0) {
	return false;
	}
	}
	if (total_size.ValueOrDefault(0) != bucket_size) {
	return false;
	}
	DCHECK(_count && _string && _length);
	*_count = count;
	*_string = strs;
	_length->resize(count);
	for (GLsizei ii = 0; ii < count; ++ii) {
	(*_length)[ii] = length[ii];
	}
	return true;
	}

	CommonDecoder::CommonDecoder() : engine_(NULL) {}

	CommonDecoder::~CommonDecoder() {}

	void* CommonDecoder::GetAddressAndCheckSize(unsigned int shm_id,
	unsigned int data_offset,
	unsigned int data_size) {
	CHECK(engine_);
	scoped_refptr<gpu::Buffer> buffer = engine_->GetSharedMemoryBuffer(shm_id);
	if (!buffer.get())
	return NULL;
	return buffer->GetDataAddress(data_offset, data_size);
	}

	void* CommonDecoder::GetAddressAndSize(unsigned int shm_id,
	unsigned int data_offset,
	unsigned int* data_size) {
	CHECK(engine_);
	scoped_refptr<gpu::Buffer> buffer = engine_->GetSharedMemoryBuffer(shm_id);
	if (!buffer.get())
	return NULL;
	return buffer->GetDataAddressAndSize(data_offset, data_size);
	}

	unsigned int CommonDecoder::GetSharedMemorySize(unsigned int shm_id,
	unsigned int offset) {
	CHECK(engine_);
	scoped_refptr<gpu::Buffer> buffer = engine_->GetSharedMemoryBuffer(shm_id);
	if (!buffer.get())
	return 0;
	return buffer->GetRemainingSize(offset);
	}

	scoped_refptr<gpu::Buffer> CommonDecoder::GetSharedMemoryBuffer(
	unsigned int shm_id) {
	return engine_->GetSharedMemoryBuffer(shm_id);
	}

	const char* CommonDecoder::GetCommonCommandName(
	cmd::CommandId command_id) const {
	return cmd::GetCommandName(command_id);
	}

	CommonDecoder::Bucket* CommonDecoder::GetBucket(uint32_t bucket_id) const {
	BucketMap::const_iterator iter(buckets_.find(bucket_id));
	return iter != buckets_.end() ? &(*iter->second) : NULL;
	}

	CommonDecoder::Bucket* CommonDecoder::CreateBucket(uint32_t bucket_id) {
	Bucket* bucket = GetBucket(bucket_id);
	if (!bucket) {
	bucket = new Bucket();
	buckets_[bucket_id] = linked_ptr<Bucket>(bucket);
	}
	return bucket;
	}

	namespace {

	// Returns the address of the first byte after a struct.
	template <typename T>
	const void* AddressAfterStruct(const T& pod) {
	return reinterpret_cast<const uint8_t*>(&pod) + sizeof(pod);
	}

	// Returns the address of the frst byte after the struct.
	template <typename RETURN_TYPE, typename COMMAND_TYPE>
	RETURN_TYPE GetImmediateDataAs(const COMMAND_TYPE& pod) {
	return static_cast<RETURN_TYPE>(const_cast<void*>(AddressAfterStruct(pod)));
	}

	} // anonymous namespace.

	// Decode command with its arguments, and call the corresponding method.
	// Note: args is a pointer to the command buffer. As such, it could be changed
	// by a (malicious) client at any time, so if validation has to happen, it
	// should operate on a copy of them.
	error::Error CommonDecoder::DoCommonCommand(
	unsigned int command,
	unsigned int arg_count,
	const void* cmd_data) {
	if (command < arraysize(command_info)) {
	const CommandInfo& info = command_info[command];
	unsigned int info_arg_count = static_cast<unsigned int>(info.arg_count);
	if ((info.arg_flags == cmd::kFixed && arg_count == info_arg_count) \|\|
	(info.arg_flags == cmd::kAtLeastN && arg_count >= info_arg_count)) {
	uint32_t immediate_data_size =
	(arg_count - info_arg_count) * sizeof(CommandBufferEntry); // NOLINT
	return (this->*info.cmd_handler)(immediate_data_size, cmd_data);
	} else {
	return error::kInvalidArguments;
	}
	}
	return error::kUnknownCommand;
	}

	error::Error CommonDecoder::HandleNoop(uint32_t immediate_data_size,
	const void* cmd_data) {
	return error::kNoError;
	}

	error::Error CommonDecoder::HandleSetToken(uint32_t immediate_data_size,
	const void* cmd_data) {
	const cmd::SetToken& args = static_cast<const cmd::SetToken>(cmd_data);
	engine_->set_token(args.token);
	return error::kNoError;
	}

	error::Error CommonDecoder::HandleSetBucketSize(uint32_t immediate_data_size,
	const void* cmd_data) {
	const cmd::SetBucketSize& args =
	static_cast<const cmd::SetBucketSize>(cmd_data);
	uint32_t bucket_id = args.bucket_id;
	uint32_t size = args.size;

	Bucket* bucket = CreateBucket(bucket_id);
	bucket->SetSize(size);
	return error::kNoError;
	}

	error::Error CommonDecoder::HandleSetBucketData(uint32_t immediate_data_size,
	const void* cmd_data) {
	const cmd::SetBucketData& args =
	static_cast<const cmd::SetBucketData>(cmd_data);
	uint32_t bucket_id = args.bucket_id;
	uint32_t offset = args.offset;
	uint32_t size = args.size;
	const void* data = GetSharedMemoryAs<const void*>(
	args.shared_memory_id, args.shared_memory_offset, size);
	if (!data) {
	return error::kInvalidArguments;
	}
	Bucket* bucket = GetBucket(bucket_id);
	if (!bucket) {
	return error::kInvalidArguments;
	}
	if (!bucket->SetData(data, offset, size)) {
	return error::kInvalidArguments;
	}

	return error::kNoError;
	}

	error::Error CommonDecoder::HandleSetBucketDataImmediate(
	uint32_t immediate_data_size,
	const void* cmd_data) {
	const cmd::SetBucketDataImmediate& args =
	static_cast<const cmd::SetBucketDataImmediate>(cmd_data);
	const void* data = GetImmediateDataAs<const void*>(args);
	uint32_t bucket_id = args.bucket_id;
	uint32_t offset = args.offset;
	uint32_t size = args.size;
	if (size > immediate_data_size) {
	return error::kInvalidArguments;
	}
	Bucket* bucket = GetBucket(bucket_id);
	if (!bucket) {
	return error::kInvalidArguments;
	}
	if (!bucket->SetData(data, offset, size)) {
	return error::kInvalidArguments;
	}
	return error::kNoError;
	}

	error::Error CommonDecoder::HandleGetBucketStart(uint32_t immediate_data_size,
	const void* cmd_data) {
	const cmd::GetBucketStart& args =
	static_cast<const cmd::GetBucketStart>(cmd_data);
	uint32_t bucket_id = args.bucket_id;
	uint32_t* result = GetSharedMemoryAs<uint32_t*>(
	args.result_memory_id, args.result_memory_offset, sizeof(*result));
	int32_t data_memory_id = args.data_memory_id;
	uint32_t data_memory_offset = args.data_memory_offset;
	uint32_t data_memory_size = args.data_memory_size;
	uint8_t* data = NULL;
	if (data_memory_size != 0 \|\| data_memory_id != 0 \|\| data_memory_offset != 0) {
	data = GetSharedMemoryAs<uint8_t*>(data_memory_id, data_memory_offset,
	data_memory_size);
	if (!data) {
	return error::kInvalidArguments;
	}
	}
	if (!result) {
	return error::kInvalidArguments;
	}
	// Check that the client initialized the result.
	if (*result != 0) {
	return error::kInvalidArguments;
	}
	Bucket* bucket = GetBucket(bucket_id);
	if (!bucket) {
	return error::kInvalidArguments;
	}
	uint32_t bucket_size = bucket->size();
	*result = bucket_size;
	if (data) {
	uint32_t size = std::min(data_memory_size, bucket_size);
	memcpy(data, bucket->GetData(0, size), size);
	}
	return error::kNoError;
	}

	error::Error CommonDecoder::HandleGetBucketData(uint32_t immediate_data_size,
	const void* cmd_data) {
	const cmd::GetBucketData& args =
	static_cast<const cmd::GetBucketData>(cmd_data);
	uint32_t bucket_id = args.bucket_id;
	uint32_t offset = args.offset;
	uint32_t size = args.size;
	void* data = GetSharedMemoryAs<void*>(
	args.shared_memory_id, args.shared_memory_offset, size);
	if (!data) {
	return error::kInvalidArguments;
	}
	Bucket* bucket = GetBucket(bucket_id);
	if (!bucket) {
	return error::kInvalidArguments;
	}
	const void* src = bucket->GetData(offset, size);
	if (!src) {
	return error::kInvalidArguments;
	}
	memcpy(data, src, size);
	return error::kNoError;
	}

	} // namespace gpu