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/*
* Copyright (c) 2017, Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#include <cstdio>
#include <cstdlib>
#include "cm_include.h"
#include "cm_def.h"
#include "cm_device_base.h"
#include "cm_queue_base_hw.h"
#include "cm_debug.h"
//!
//! \brief Returns the corresponding CM_RETURN_CODE error string
//! \param [in] code
//! CM error code
//! \return Corresponding error string if valid code \n
//! "Internal Error" if invalid
//!
extern "C" CM_RT_API const char* GetCmErrorString(int code)
{
if (code == CM_SUCCESS)
return nullptr;
static const char *errorStrings[] = {
#define ENUM_STRING(e) #e
ENUM_STRING(CM_SUCCESS),
ENUM_STRING(CM_FAILURE),
ENUM_STRING(CM_NOT_IMPLEMENTED),
ENUM_STRING(CM_SURFACE_ALLOCATION_FAILURE),
ENUM_STRING(CM_OUT_OF_HOST_MEMORY),
ENUM_STRING(CM_SURFACE_FORMAT_NOT_SUPPORTED),
ENUM_STRING(CM_EXCEED_SURFACE_AMOUNT),
ENUM_STRING(CM_EXCEED_KERNEL_ARG_AMOUNT),
ENUM_STRING(CM_EXCEED_KERNEL_ARG_SIZE_IN_BYTE),
ENUM_STRING(CM_INVALID_ARG_INDEX),
ENUM_STRING(CM_INVALID_ARG_VALUE),
ENUM_STRING(CM_INVALID_ARG_SIZE),
ENUM_STRING(CM_INVALID_THREAD_INDEX),
ENUM_STRING(CM_INVALID_WIDTH),
ENUM_STRING(CM_INVALID_HEIGHT),
ENUM_STRING(CM_INVALID_DEPTH),
ENUM_STRING(CM_INVALID_COMMON_ISA),
ENUM_STRING(CM_OPEN_VIDEO_DEVICE_FAILURE),
ENUM_STRING(CM_VIDEO_DEVICE_LOCKED),
ENUM_STRING(CM_LOCK_VIDEO_DEVICE_FAILURE),
ENUM_STRING(CM_EXCEED_SAMPLER_AMOUNT),
ENUM_STRING(CM_EXCEED_MAX_KERNEL_PER_ENQUEUE),
ENUM_STRING(CM_EXCEED_MAX_KERNEL_SIZE_IN_BYTE),
ENUM_STRING(CM_EXCEED_MAX_THREAD_AMOUNT_PER_ENQUEUE),
ENUM_STRING(CM_EXCEED_VME_STATE_G6_AMOUNT),
ENUM_STRING(CM_INVALID_THREAD_SPACE),
ENUM_STRING(CM_EXCEED_MAX_TIMEOUT),
ENUM_STRING(CM_JITDLL_LOAD_FAILURE),
ENUM_STRING(CM_JIT_COMPILE_FAILURE),
ENUM_STRING(CM_JIT_COMPILESIM_FAILURE),
ENUM_STRING(CM_INVALID_THREAD_GROUP_SPACE),
ENUM_STRING(CM_THREAD_ARG_NOT_ALLOWED),
ENUM_STRING(CM_INVALID_GLOBAL_BUFFER_INDEX),
ENUM_STRING(CM_INVALID_BUFFER_HANDLER),
ENUM_STRING(CM_EXCEED_MAX_SLM_SIZE),
ENUM_STRING(CM_JITDLL_OLDER_THAN_ISA),
ENUM_STRING(CM_INVALID_HARDWARE_THREAD_NUMBER),
ENUM_STRING(CM_GTPIN_INVOKE_FAILURE),
ENUM_STRING(CM_INVALIDE_L3_CONFIGURATION),
ENUM_STRING(CM_INVALID_TEXTURE2D_USAGE),
ENUM_STRING(CM_INTEL_GFX_NOTFOUND),
ENUM_STRING(CM_GPUCOPY_INVALID_SYSMEM),
ENUM_STRING(CM_GPUCOPY_INVALID_WIDTH),
ENUM_STRING(CM_GPUCOPY_INVALID_STRIDE),
ENUM_STRING(CM_EVENT_DRIVEN_FAILURE),
ENUM_STRING(CM_LOCK_SURFACE_FAIL),
ENUM_STRING(CM_INVALID_GENX_BINARY),
ENUM_STRING(CM_FEATURE_NOT_SUPPORTED_IN_DRIVER),
ENUM_STRING(CM_QUERY_DLL_VERSION_FAILURE),
ENUM_STRING(CM_KERNELPAYLOAD_PERTHREADARG_MUTEX_FAIL),
ENUM_STRING(CM_KERNELPAYLOAD_PERKERNELARG_MUTEX_FAIL),
ENUM_STRING(CM_KERNELPAYLOAD_SETTING_FAILURE),
ENUM_STRING(CM_KERNELPAYLOAD_SURFACE_INVALID_BTINDEX),
ENUM_STRING(CM_NOT_SET_KERNEL_ARGUMENT),
ENUM_STRING(CM_GPUCOPY_INVALID_SURFACES),
ENUM_STRING(CM_GPUCOPY_INVALID_SIZE),
ENUM_STRING(CM_GPUCOPY_OUT_OF_RESOURCE),
ENUM_STRING(CM_DEVICE_INVALID_VIDEO_DEVICE),
ENUM_STRING(CM_SURFACE_DELAY_DESTROY),
ENUM_STRING(CM_INVALID_VEBOX_STATE),
ENUM_STRING(CM_INVALID_VEBOX_SURFACE),
ENUM_STRING(CM_FEATURE_NOT_SUPPORTED_BY_HARDWARE),
ENUM_STRING(CM_RESOURCE_USAGE_NOT_SUPPORT_READWRITE),
ENUM_STRING(CM_MULTIPLE_MIPLEVELS_NOT_SUPPORTED),
ENUM_STRING(CM_INVALID_UMD_CONTEXT),
ENUM_STRING(CM_INVALID_LIBVA_SURFACE),
ENUM_STRING(CM_INVALID_LIBVA_INITIALIZE),
ENUM_STRING(CM_KERNEL_THREADSPACE_NOT_SET),
ENUM_STRING(CM_INVALID_KERNEL_THREADSPACE),
ENUM_STRING(CM_KERNEL_THREADSPACE_THREADS_NOT_ASSOCIATED),
ENUM_STRING(CM_KERNEL_THREADSPACE_INTEGRITY_FAILED),
ENUM_STRING(CM_INVALID_USERPROVIDED_GENBINARY),
ENUM_STRING(CM_INVALID_PRIVATE_DATA),
ENUM_STRING(CM_INVALID_MOS_RESOURCE_HANDLE),
ENUM_STRING(CM_SURFACE_CACHED),
ENUM_STRING(CM_SURFACE_IN_USE),
ENUM_STRING(CM_INVALID_GPUCOPY_KERNEL),
ENUM_STRING(CM_INVALID_DEPENDENCY_WITH_WALKING_PATTERN),
ENUM_STRING(CM_INVALID_MEDIA_WALKING_PATTERN),
ENUM_STRING(CM_FAILED_TO_ALLOCATE_SVM_BUFFER),
ENUM_STRING(CM_EXCEED_MAX_POWER_OPTION_FOR_PLATFORM),
ENUM_STRING(CM_INVALID_KERNEL_THREADGROUPSPACE),
ENUM_STRING(CM_INVALID_KERNEL_SPILL_CODE),
ENUM_STRING(CM_UMD_DRIVER_NOT_SUPPORTED),
ENUM_STRING(CM_INVALID_GPU_FREQUENCY_VALUE),
ENUM_STRING(CM_SYSTEM_MEMORY_NOT_4KPAGE_ALIGNED),
ENUM_STRING(CM_KERNEL_ARG_SETTING_FAILED),
ENUM_STRING(CM_NO_AVAILABLE_SURFACE),
ENUM_STRING(CM_VA_SURFACE_NOT_SUPPORTED),
ENUM_STRING(CM_TOO_MUCH_THREADS),
ENUM_STRING(CM_NULL_POINTER),
ENUM_STRING(CM_EXCEED_MAX_NUM_2D_ALIASES),
ENUM_STRING(CM_INVALID_PARAM_SIZE),
ENUM_STRING(CM_GT_UNSUPPORTED),
ENUM_STRING(CM_GTPIN_FLAG_NO_LONGER_SUPPORTED),
ENUM_STRING(CM_PLATFORM_UNSUPPORTED_FOR_API),
ENUM_STRING(CM_TASK_MEDIA_RESET),
ENUM_STRING(CM_KERNELPAYLOAD_SAMPLER_INVALID_BTINDEX),
ENUM_STRING(CM_EXCEED_MAX_NUM_BUFFER_ALIASES),
ENUM_STRING(CM_SYSTEM_MEMORY_NOT_4PIXELS_ALIGNED),
ENUM_STRING(CM_FAILED_TO_CREATE_CURBE_SURFACE),
ENUM_STRING(CM_INVALID_CAP_NAME),
ENUM_STRING(CM_INVALID_PARAM_FOR_CREATE_QUEUE_EX),
ENUM_STRING(CM_INVALID_CREATE_OPTION_FOR_BUFFER_STATELESS),
ENUM_STRING(CM_INVALID_KERNEL_ARG_POINTER),
ENUM_STRING(CM_LOAD_LIBRARY_FAILED),
#undef ENUM_STRING
};
const char *errorString = "Internal Error";
if (code >= CM_LOAD_LIBRARY_FAILED && code <= CM_SUCCESS)
{
errorString = errorStrings[-code];
}
return errorString;
}
/// CreateCmDevice and DestroyCmDevice are implemented in other files.
/// CMRT_Enqueue is also implemented in another file.
/// program and kernel API
EXTERN_C CM_RT_API int CMRT_LoadProgram(CmDevice* pDevice, void* pCommonISACode, const uint32_t size, CmProgram*& pProgram, const char* options)
{
CHK_NULL_RETURN(pDevice);
return pDevice->LoadProgram(pCommonISACode, size, pProgram, options);
}
EXTERN_C CM_RT_API int CMRT_CreateKernel(CmDevice* pDevice, CmProgram* pProgram, const char* kernelName, CmKernel*& pKernel, const char* options)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateKernel(pProgram, kernelName, pKernel, options);
}
/// surface API
EXTERN_C CM_RT_API int CMRT_CreateBuffer(CmDevice* pDevice, uint32_t size, CmBuffer* & pSurface)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateBuffer(size, pSurface);
}
EXTERN_C CM_RT_API int CMRT_CreateSurface2D(CmDevice* pDevice, uint32_t width, uint32_t height, CM_SURFACE_FORMAT format, CmSurface2D*& pSurface)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateSurface2D(width, height, format, pSurface);
}
EXTERN_C CM_RT_API int CMRT_CreateSurface3D(CmDevice* pDevice, uint32_t width, uint32_t height, uint32_t depth, CM_SURFACE_FORMAT format, CmSurface3D*& pSurface)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateSurface3D(width, height, depth, format, pSurface);
}
EXTERN_C CM_RT_API int CMRT_DestroyBuffer(CmDevice* pDevice, CmBuffer*& pSurface)
{
CHK_NULL_RETURN(pDevice);
return pDevice->DestroySurface(pSurface);
}
EXTERN_C CM_RT_API int CMRT_DestroySurface2D(CmDevice* pDevice, CmSurface2D*& pSurface)
{
CHK_NULL_RETURN(pDevice);
return pDevice->DestroySurface(pSurface);
}
EXTERN_C CM_RT_API int CMRT_DestroySurface3D(CmDevice* pDevice, CmSurface3D*& pSurface)
{
CHK_NULL_RETURN(pDevice);
return pDevice->DestroySurface(pSurface);
}
// queue, task, threadspace, and event API
EXTERN_C CM_RT_API int CMRT_CreateQueue(CmDevice* pDevice, CmQueue*& pQueue)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateQueue(pQueue);
}
EXTERN_C CM_RT_API int CMRT_CreateTask(CmDevice* pDevice, CmTask*& pTask)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateTask(pTask);
}
EXTERN_C CM_RT_API int CMRT_CreateThreadSpace(CmDevice* pDevice, uint32_t width, uint32_t height, CmThreadSpace*& pTS)
{
CHK_NULL_RETURN(pDevice);
return pDevice->CreateThreadSpace(width, height, pTS);
}
EXTERN_C CM_RT_API int CMRT_DestroyProgram(CmDevice *pDevice, CmProgram*& pProgram)
{
CHK_NULL_RETURN(pDevice);
return pDevice->DestroyProgram(pProgram);
}
EXTERN_C CM_RT_API int CMRT_DestroyTask(CmDevice *pDevice, CmTask*& pTask)
{
CHK_NULL_RETURN(pDevice);
return pDevice->DestroyTask(pTask);
}
EXTERN_C CM_RT_API int CMRT_DestroyThreadSpace(CmDevice *pDevice, CmThreadSpace*& pTS)
{
CHK_NULL_RETURN(pDevice);
return pDevice->DestroyThreadSpace(pTS);
}
EXTERN_C CM_RT_API int CMRT_DestroyEvent(CmQueue *pQueue, CmEvent*& pEvent)
{
CHK_NULL_RETURN(pQueue);
return pQueue->DestroyEvent(pEvent);
}
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