* Copyright (c) 2025 Huawei Technologies Co., Ltd.
* This program is free software, you can redistribute it and/or modify it under the terms and conditions of
* CANN Open Software License Agreement Version 2.0 (the "License").
* Please refer to the License for details. You may not use this file except in compliance with the License.
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, EITHER EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE.
* See LICENSE in the root of the software repository for the full text of the License.
*/
#ifdef SEPARATE_PKG_ARCH
#include "runtime/rt.h"
#else
#include "experiment/runtime/runtime/rt.h"
#endif
extern "C" {
* @ingroup dvrt_dev
* @brief get chipType
* @return RT_ERROR_NONE for ok
*/
RTS_API rtError_t GetSocVersionWrapper(char_t* ver, const uint32_t maxLen) { return rtGetSocVersion(ver, maxLen); }
* @ingroup dvrt_dev
* @brief get total device number.
* @param [in|out] cnt the device number
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t GetDeviceCountWrapper(int32_t* cnt) { return rtGetDeviceCount(cnt); }
* @ingroup dvrt_dev
* @brief get device infomation.
* @param [in] device the device id
* @param [in] moduleType module type
typedef enum {
MODULE_TYPE_SYSTEM = 0, system info
MODULE_TYPE_AICPU, aicpu info
MODULE_TYPE_CCPU, ccpu_info
MODULE_TYPE_DCPU, dcpu info
MODULE_TYPE_AICORE, AI CORE info
MODULE_TYPE_TSCPU, tscpu info
MODULE_TYPE_PCIE, PCIE info
} DEV_MODULE_TYPE;
* @param [in] infoType info type
typedef enum {
INFO_TYPE_ENV = 0,
INFO_TYPE_VERSION,
INFO_TYPE_MASTERID,
INFO_TYPE_CORE_NUM,
INFO_TYPE_OS_SCHED,
INFO_TYPE_IN_USED,
INFO_TYPE_ERROR_MAP,
INFO_TYPE_OCCUPY,
INFO_TYPE_ID,
INFO_TYPE_IP,
INFO_TYPE_ENDIAN,
} DEV_INFO_TYPE;
* @param [out] val the device info
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_DRV_ERR for error
*/
RTS_API rtError_t GetDeviceInfoWrapper(uint32_t deviceId, int32_t moduleType, int32_t infoType, int64_t* val)
{
return rtGetDeviceInfo(deviceId, moduleType, infoType, val);
}
* @ingroup dvrt_dev
* @brief reset all opened device
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t DeviceResetWrapper(int32_t devId) { return rtDeviceReset(devId); }
* @ingroup dvrt_dev
* @brief set target device for current thread
* @param [int] devId the device id
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t SetDeviceWrapper(int32_t devId) { return rtSetDevice(devId); }
* @ingroup dvrt_stream
* @brief create stream instance
* @param [in|out] stm created stream
* @param [in] priority stream priority
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t StreamCreateWrapper(rtStream_t* stm, int32_t priority) { return rtStreamCreate(stm, priority); }
* @ingroup dvrt_stream
* @brief destroy stream instance.
* @param [in] stm the stream to destroy
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t StreamDestroyWrapper(rtStream_t stm) { return rtStreamDestroy(stm); }
* @ingroup rt_kernel
* @brief register device binary
* @param [in] bin device binary description
* @param [out] hdl device binary handle
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t DevBinaryRegisterWrapper(const rtDevBinary_t* bin, void** hdl)
{
return rtDevBinaryRegister(bin, hdl);
}
* @ingroup rt_kernel
* @brief unregister device binary
* @param [in] hdl device binary handle
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t DevBinaryUnRegisterWrapper(void* hdl) { return rtDevBinaryUnRegister(hdl); }
* @ingroup rt_kernel
* @brief register device function
* @param [in] binHandle device binary handle
* @param [in] stubFunc stub function
* @param [in] stubName stub function name
* @param [in] kernelInfoExt kernel Info extension. device function description or tiling key,
* depending static shape or dynmaic shape.
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t FunctionRegisterWrapper(
void* binHandle, const void* stubFunc, const char_t* stubName, const void* kernelInfoExt, uint32_t funcMode)
{
return rtFunctionRegister(binHandle, stubFunc, stubName, kernelInfoExt, funcMode);
}
* @ingroup dvrt_mem
* @brief alloc device memory
* @param [in|out] devPtr memory pointer
* @param [in] size memory size
* @param [in] type memory type
* @param [in] moduleid alloc memory module id
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t MallocWrapper(void** devPtr, uint64_t size, rtMemType_t type, const uint16_t moduleId)
{
return rtMalloc(devPtr, size, type, moduleId);
}
* @ingroup dvrt_mem
* @brief synchronized memcpy
* @param [in] dst destination address pointer
* @param [in] destMax length of destination address memory
* @param [in] src source address pointer
* @param [in] cnt the number of byte to copy
* @param [in] kind memcpy type
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t MemcpyWrapper(void* dst, uint64_t destMax, const void* src, uint64_t cnt, rtMemcpyKind_t kind)
{
return rtMemcpy(dst, destMax, src, cnt, kind);
}
* @ingroup rt_kernel
* @brief launch kernel to device
* @param [in] stubFunc stub function
* @param [in] blockNum block dimentions
* @param [in] args argments address for kernel function
* @param [in] argsSize argements size
* @param [in] smDesc shared memory description
* @param [in] stm associated stream
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t KernelLaunchWrapper(
const void* stubFunc, uint32_t blockNum, void* args, uint32_t argsSize, rtSmDesc_t* smDesc, rtStream_t stm)
{
return rtKernelLaunch(stubFunc, blockNum, args, argsSize, smDesc, stm);
}
* @ingroup dvrt_stream
* @brief wait stream to be complete and set timeout
* @param [in] stm stream to wait
* @param [in] timeout timeout value,the unit is milliseconds
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t StreamSynchronizeWithTimeoutWrapper(rtStream_t stm, int32_t timeout)
{
return rtStreamSynchronizeWithTimeout(stm, timeout);
}
* @ingroup dvrt_stream
* @brief wait stream to be complete
* @param [in] stm stream to wait
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t StreamSynchronizeWrapper(rtStream_t stm) { return rtStreamSynchronize(stm); }
* @ingroup dvrt_mem
* @brief free device memory
* @param [in|out] devPtr memory pointer
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t FreeWrapper(void* devPtr) { return rtFree(devPtr); }
* @ingroup dvrt_dev
* @brief Wait for compute device to finish
* @return RT_ERROR_NONE for ok
* @return RT_ERROR_INVALID_VALUE for error input
*/
RTS_API rtError_t DeviceSynchronizeWrapper(void) { return rtDeviceSynchronize(); }
RTS_API rtError_t GetC2cCtrlAddrWrapper(uint64_t* addr, uint32_t* len) { return rtGetC2cCtrlAddr(addr, len); }
* @ingroup profiling_base
* @brief set profling switch, called by profiling
* @param [in] data rtProfCommandHandle
* @param [out] len length of data
* @return RT_ERROR_NONE for ok
* @return ACL_ERROR_RT_PARAM_INVALID for error input
*/
RTS_API rtError_t ProfSetProSwitchWrapper(void* data, uint32_t len) { return rtProfSetProSwitch(data, len); }
}
