test_conformance/mem_host_flags/checker_mem_host_no_access.hpp - external/github.com/KhronosGroup/OpenCL-CTS - Git at Google

 //
 // Copyright (c) 2017 The Khronos Group Inc.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 //
 #ifndef test_conformance_check_mem_host_no_access_h
 #define test_conformance_check_mem_host_no_access_h


 #include "checker_mem_host_write_only.hpp"

 template < class T> class cBuffer_check_mem_host_no_access : public cBuffer_check_mem_host_write_only< T >
 {
 public:
   cBuffer_check_mem_host_no_access(cl_device_id deviceID, cl_context context, cl_command_queue queue)
   : cBuffer_check_mem_host_write_only < T > (deviceID, context, queue)
   {
   };

   cBuffer_check_mem_host_no_access()
   {
   };

   virtual cl_int SetupBuffer();
   virtual cl_int SetupASSubBuffer(cl_mem_flags parent_buffer_flag);
   virtual cl_int Setup_Test_Environment();

   cl_int verify_RW_Buffer();
   cl_int verify_RW_Buffer_rect();
   cl_int verify_RW_Buffer_mapping();
 };

 template < class T >
 cl_int cBuffer_check_mem_host_no_access< T >::SetupBuffer()
 {
   this->m_nNumber_elements = 1000;
   T vv1 = TEST_VALUE;
   this->host_m_1.Init( this->m_nNumber_elements, vv1);

   T vv2 = 0;
   this->host_m_2.Init( this->m_nNumber_elements, vv2);

   cl_int err;
   int block_size_in_byte = this->get_block_size_bytes();
   this->m_buffer = clCreateBuffer(this->m_context, this->buffer_mem_flag,
                                   block_size_in_byte, this->host_m_1.pData, &err);
   test_error(err, "clCreateBuffer error");
   err = this->Check_GetMemObjectInfo(this->buffer_mem_flag);

   if (this->buffer_mem_flag | CL_MEM_USE_HOST_PTR)
   {
     this->pHost_ptr = (void *)this->host_m_1.pData;
   }

   return err;
 }

 template < class T >
 cl_int cBuffer_check_mem_host_no_access< T >::SetupASSubBuffer(cl_mem_flags parent_buffer_flag)
 {
   return cBuffer_checker<T>::SetupASSubBuffer(parent_buffer_flag);
 }

 template < class T >
 cl_int cBuffer_check_mem_host_no_access< T >::Setup_Test_Environment()
 {
   cBuffer_check_mem_host_write_only<T>::Setup_Test_Environment();

   return CL_SUCCESS;
 }

 template < class T>
 cl_int cBuffer_check_mem_host_no_access< T >::verify_RW_Buffer()
 {
   cl_event event;
   cl_int err = clEnqueueReadBuffer(this->m_queue, this->m_buffer, this->m_blocking, 0,
                                    this->get_block_size_bytes(), this->host_m_1.pData,
                                    0, NULL, &event);

   if (err == CL_SUCCESS) {
     log_error("Calling clEnqueueWriteBuffer on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
     err = FAILURE;
     return FAILURE;

   } else {
     log_info("Test succeeded\n\n");
     err = CL_SUCCESS;
   }

   err = clEnqueueWriteBuffer(this->m_queue, this->m_buffer, this->m_blocking, 0,
                              this->get_block_size_bytes(), this->host_m_1.pData,
                              0, NULL, &event);

   if (err == CL_SUCCESS) {
     log_error("Calling clEnqueueWriteBuffer on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
     err = FAILURE;
     return FAILURE;

   } else {
     log_info("Test succeeded\n\n");
     err = CL_SUCCESS;
   }

   return err;
 }

 template < class T >
 cl_int cBuffer_check_mem_host_no_access< T >::verify_RW_Buffer_rect()
 {
   this->Init_rect();
   cl_event event;
   cl_int err = CL_SUCCESS;
   err = clEnqueueReadBufferRect(this->m_queue, this->m_buffer, this->m_blocking,
                                 this->buffer_origin_bytes,
                                 this->host_origin_bytes,
                                 this->region_bytes,
                                 this->buffer_row_pitch_bytes,
                                 this->buffer_slice_pitch_bytes,
                                 this->host_row_pitch_bytes,
                                 this->host_slice_pitch_bytes,
                                 this->host_m_2.pData,
                                 0, NULL, &event);

   if (err == CL_SUCCESS) {
     log_error("Calling clEnqueueReadBufferRect on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
     err = FAILURE;
     return FAILURE;

   } else {
     log_info("Test succeeded\n\n");
     err = CL_SUCCESS;
   }

   err = clEnqueueWriteBufferRect(this->m_queue, this->m_buffer, this->m_blocking,
                                  this->buffer_origin_bytes ,
                                  this->host_origin_bytes,
                                  this->region_bytes,
                                  this->buffer_row_pitch_bytes,
                                  this->buffer_slice_pitch_bytes,
                                  this->host_row_pitch_bytes,
                                  this->host_slice_pitch_bytes,
                                  this->host_m_2.pData,
                                  0, NULL, &event);

   if (err == CL_SUCCESS) {
     log_error("Calling clEnqueueWriteBufferRect on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
     err = FAILURE;
     return FAILURE;

   } else {
     log_info("Test succeeded\n\n");
     err = CL_SUCCESS;
   }

   return err;
 }

 template < class T >
 cl_int cBuffer_check_mem_host_no_access< T >::verify_RW_Buffer_mapping()
 {
   cl_event event;
   cl_int err;

   void *dataPtr;
   dataPtr = clEnqueueMapBuffer(this->m_queue, this->m_buffer, this->m_blocking, CL_MAP_READ,
                                0, this->get_block_size_bytes(), 0, NULL, &event, &err);
   if (err == CL_SUCCESS) {
     log_error("Calling clEnqueueMapBuffer (CL_MAP_READ) on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
     err = FAILURE;
     return FAILURE;

   } else {
     log_info("Test succeeded\n\n");
     err = CL_SUCCESS;
   }

   dataPtr = clEnqueueMapBuffer(this->m_queue, this->m_buffer, this->m_blocking, CL_MAP_WRITE,
                                0, this->get_block_size_bytes(), 0, NULL, &event, &err);
   if (err == CL_SUCCESS) {
     log_error("Calling clEnqueueMapBuffer (CL_MAP_WRITE) on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
     err = FAILURE;
     return FAILURE;

   } else {
     log_info("Test succeeded\n\n");
     err = CL_SUCCESS;
   }

   return err;
 }

 #endif
	//
	// Copyright (c) 2017 The Khronos Group Inc.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	//
	#ifndef test_conformance_check_mem_host_no_access_h
	#define test_conformance_check_mem_host_no_access_h


	#include "checker_mem_host_write_only.hpp"

	template < class T> class cBuffer_check_mem_host_no_access : public cBuffer_check_mem_host_write_only< T >
	{
	public:
	cBuffer_check_mem_host_no_access(cl_device_id deviceID, cl_context context, cl_command_queue queue)
	: cBuffer_check_mem_host_write_only < T > (deviceID, context, queue)
	{
	};

	cBuffer_check_mem_host_no_access()
	{
	};

	virtual cl_int SetupBuffer();
	virtual cl_int SetupASSubBuffer(cl_mem_flags parent_buffer_flag);
	virtual cl_int Setup_Test_Environment();

	cl_int verify_RW_Buffer();
	cl_int verify_RW_Buffer_rect();
	cl_int verify_RW_Buffer_mapping();
	};

	template < class T >
	cl_int cBuffer_check_mem_host_no_access< T >::SetupBuffer()
	{
	this->m_nNumber_elements = 1000;
	T vv1 = TEST_VALUE;
	this->host_m_1.Init( this->m_nNumber_elements, vv1);

	T vv2 = 0;
	this->host_m_2.Init( this->m_nNumber_elements, vv2);

	cl_int err;
	int block_size_in_byte = this->get_block_size_bytes();
	this->m_buffer = clCreateBuffer(this->m_context, this->buffer_mem_flag,
	block_size_in_byte, this->host_m_1.pData, &err);
	test_error(err, "clCreateBuffer error");
	err = this->Check_GetMemObjectInfo(this->buffer_mem_flag);

	if (this->buffer_mem_flag \| CL_MEM_USE_HOST_PTR)
	{
	this->pHost_ptr = (void *)this->host_m_1.pData;
	}

	return err;
	}

	template < class T >
	cl_int cBuffer_check_mem_host_no_access< T >::SetupASSubBuffer(cl_mem_flags parent_buffer_flag)
	{
	return cBuffer_checker<T>::SetupASSubBuffer(parent_buffer_flag);
	}

	template < class T >
	cl_int cBuffer_check_mem_host_no_access< T >::Setup_Test_Environment()
	{
	cBuffer_check_mem_host_write_only<T>::Setup_Test_Environment();

	return CL_SUCCESS;
	}

	template < class T>
	cl_int cBuffer_check_mem_host_no_access< T >::verify_RW_Buffer()
	{
	cl_event event;
	cl_int err = clEnqueueReadBuffer(this->m_queue, this->m_buffer, this->m_blocking, 0,
	this->get_block_size_bytes(), this->host_m_1.pData,
	0, NULL, &event);

	if (err == CL_SUCCESS) {
	log_error("Calling clEnqueueWriteBuffer on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
	err = FAILURE;
	return FAILURE;

	} else {
	log_info("Test succeeded\n\n");
	err = CL_SUCCESS;
	}

	err = clEnqueueWriteBuffer(this->m_queue, this->m_buffer, this->m_blocking, 0,
	this->get_block_size_bytes(), this->host_m_1.pData,
	0, NULL, &event);

	if (err == CL_SUCCESS) {
	log_error("Calling clEnqueueWriteBuffer on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
	err = FAILURE;
	return FAILURE;

	} else {
	log_info("Test succeeded\n\n");
	err = CL_SUCCESS;
	}

	return err;
	}

	template < class T >
	cl_int cBuffer_check_mem_host_no_access< T >::verify_RW_Buffer_rect()
	{
	this->Init_rect();
	cl_event event;
	cl_int err = CL_SUCCESS;
	err = clEnqueueReadBufferRect(this->m_queue, this->m_buffer, this->m_blocking,
	this->buffer_origin_bytes,
	this->host_origin_bytes,
	this->region_bytes,
	this->buffer_row_pitch_bytes,
	this->buffer_slice_pitch_bytes,
	this->host_row_pitch_bytes,
	this->host_slice_pitch_bytes,
	this->host_m_2.pData,
	0, NULL, &event);

	if (err == CL_SUCCESS) {
	log_error("Calling clEnqueueReadBufferRect on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
	err = FAILURE;
	return FAILURE;

	} else {
	log_info("Test succeeded\n\n");
	err = CL_SUCCESS;
	}

	err = clEnqueueWriteBufferRect(this->m_queue, this->m_buffer, this->m_blocking,
	this->buffer_origin_bytes ,
	this->host_origin_bytes,
	this->region_bytes,
	this->buffer_row_pitch_bytes,
	this->buffer_slice_pitch_bytes,
	this->host_row_pitch_bytes,
	this->host_slice_pitch_bytes,
	this->host_m_2.pData,
	0, NULL, &event);

	if (err == CL_SUCCESS) {
	log_error("Calling clEnqueueWriteBufferRect on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
	err = FAILURE;
	return FAILURE;

	} else {
	log_info("Test succeeded\n\n");
	err = CL_SUCCESS;
	}

	return err;
	}

	template < class T >
	cl_int cBuffer_check_mem_host_no_access< T >::verify_RW_Buffer_mapping()
	{
	cl_event event;
	cl_int err;

	void *dataPtr;
	dataPtr = clEnqueueMapBuffer(this->m_queue, this->m_buffer, this->m_blocking, CL_MAP_READ,
	0, this->get_block_size_bytes(), 0, NULL, &event, &err);
	if (err == CL_SUCCESS) {
	log_error("Calling clEnqueueMapBuffer (CL_MAP_READ) on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
	err = FAILURE;
	return FAILURE;

	} else {
	log_info("Test succeeded\n\n");
	err = CL_SUCCESS;
	}

	dataPtr = clEnqueueMapBuffer(this->m_queue, this->m_buffer, this->m_blocking, CL_MAP_WRITE,
	0, this->get_block_size_bytes(), 0, NULL, &event, &err);
	if (err == CL_SUCCESS) {
	log_error("Calling clEnqueueMapBuffer (CL_MAP_WRITE) on a memory object created with the CL_MEM_HOST_NO_ACCESS flag should not return CL_SUCCESS\n");
	err = FAILURE;
	return FAILURE;

	} else {
	log_info("Test succeeded\n\n");
	err = CL_SUCCESS;
	}

	return err;
	}

	#endif