diff --git a/ge/graph/load/model_manager/task_info/kernel_task_info.cc b/ge/graph/load/model_manager/task_info/kernel_task_info.cc index e4826112..a8a85cb8 100755 --- a/ge/graph/load/model_manager/task_info/kernel_task_info.cc +++ b/ge/graph/load/model_manager/task_info/kernel_task_info.cc @@ -181,8 +181,8 @@ void KernelTaskInfo::UpdateSKTTaskId() { if (davinci_model_ != nullptr) { rtError_t rt_ret = rtModelGetTaskId(davinci_model_->GetRtModelHandle(), &task_id, &stream_id); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtModelGetTaskId fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtModelGetTaskId fail, ret:0x%X, when KernelTaskInfo %s", + rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return; } @@ -201,8 +201,8 @@ void KernelTaskInfo::UpdateTaskId() { if (davinci_model_ != nullptr) { rtError_t rt_ret = rtModelGetTaskId(davinci_model_->GetRtModelHandle(), &task_id, &stream_id); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtModelGetTaskId fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtModelGetTaskId fail, ret:0x%X, when KernelTaskInfo %s", + rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return; } @@ -258,8 +258,8 @@ Status KernelTaskInfo::SuperKernelLaunch() { static_cast(skt_info.last_sm_desc), skt_info.last_stream, skt_info.last_dump_flag); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtKernelLaunchWithFlag fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtKernelLaunchWithFlag fail, ret:0x%X, when KernelTaskInfo %s", + rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "SuperKernelLaunch: Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -272,8 +272,8 @@ Status KernelTaskInfo::SuperKernelLaunch() { // Init super kernel factory Status ge_ret = factory->Init(); if (ge_ret != SUCCESS) { - REPORT_CALL_ERROR("E19999", "Call SuperKernelFactory init fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), ge_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call SuperKernelFactory init fail, ret:0x%X, when KernelTaskInfo %s", + ge_ret, __FUNCTION__); GELOGE(ge_ret, "SuperKernelLaunch: SuperKernelFactory init failed"); return ge_ret; } @@ -281,9 +281,8 @@ Status KernelTaskInfo::SuperKernelLaunch() { std::unique_ptr superKernel = nullptr; ge_ret = factory->FuseKernels(skt_kernel_list, skt_arg_list, skt_info.last_block_dim, superKernel); if (ge_ret != SUCCESS) { - REPORT_CALL_ERROR("E19999", "Call SuperKernelFactory FuseKernels fail for op:%s(%s), ret:0x%X, " - "when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), ge_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call SuperKernelFactory FuseKernels fail, ret:0x%X, when KernelTaskInfo %s", + ge_ret, __FUNCTION__); GELOGE(ge_ret, "SuperKernelLaunch: fuse call failed"); return ge_ret; } @@ -291,8 +290,8 @@ Status KernelTaskInfo::SuperKernelLaunch() { skt_dump_flag_ = GetDumpFlag(); ge_ret = superKernel->Launch(skt_info.last_stream, skt_dump_flag_); if (ge_ret != SUCCESS) { - REPORT_CALL_ERROR("E19999", "Call SuperKernelFactory Launch fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), ge_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call SuperKernelFactory Launch fail, ret:0x%X, when KernelTaskInfo %s", + ge_ret, __FUNCTION__); GELOGE(ge_ret, "SuperKernelLaunch: launch failed"); return ge_ret; } @@ -397,8 +396,8 @@ Status KernelTaskInfo::SuperKernelDistribute() { rtError_t rt_ret = rtKernelLaunchWithFlag(stub_func_, block_dim_, args_, args_size_, static_cast(sm_desc_), stream_, dump_flag_); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtKernelLaunchWithFlag fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtKernelLaunchWithFlag fail, ret:0x%X, when KernelTaskInfo %s", + rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return rt_ret; } @@ -463,9 +462,8 @@ Status KernelTaskInfo::Distribute() { } } if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtKernelLaunchWithFlag or rtCpuKernelLaunchWithFlag fail for op:%s(%s), " - "ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtKernelLaunchWithFlag or rtCpuKernelLaunchWithFlag fail, " + "ret:0x%X, when KernelTaskInfo %s", rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -559,8 +557,7 @@ Status KernelTaskInfo::Release() { ret = (sm_desc_ != nullptr) ? rtMemFreeManaged(sm_desc_) : RT_ERROR_NONE; if (ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemFreeManaged fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMemFreeManaged fail, ret:0x%X, when KernelTaskInfo %s", ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", static_cast(ret)); return RT_ERROR_TO_GE_STATUS(ret); } @@ -591,16 +588,16 @@ Status KernelTaskInfo::UpdateL2Data(const domi::KernelDef &kernel_def) { rtError_t rt_ret = rtMemAllocManaged(&sm_desc_, sm_desc.size(), RT_MEMORY_SPM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemAllocManaged fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMemAllocManaged fail, ret:0x%X, when KernelTaskInfo %s", + rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } rt_ret = rtMemcpy(sm_desc_, sm_desc.size(), sm_desc.data(), sm_desc.size(), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), sm_desc.size(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", + sm_desc.size(), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -691,8 +688,8 @@ Status KernelTaskInfo::InitTVMTask(uint16_t offset, const domi::KernelDef &kerne // malloc args memory rt_ret = rtMalloc(&args_, args_size_, RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), args_size_, rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%u, ret:0x%X, when KernelTaskInfo %s", + args_size_, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -700,17 +697,17 @@ Status KernelTaskInfo::InitTVMTask(uint16_t offset, const domi::KernelDef &kerne // copy orign args rt_ret = rtMemcpy(args_, args_size_, kernel_def.args().data(), args_size_, RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), args_size_, rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%u, ret:0x%X, when KernelTaskInfo %s", + args_size_, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } if ((args_size_ <= offset) || (args_size_ - offset < kAddrLen * tensor_device_addrs.size())) { REPORT_INNER_ERROR("E19999", "offset:%u >= kernelInfo.argsSize:%u or copy content:%zu beyond applied memory:%u, " - "check invalid in op:%s(%s), when KernelTaskInfo %s", + "check invalid, when KernelTaskInfo %s", offset, args_size_, kAddrLen * tensor_device_addrs.size(), args_size_ - offset, - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + __FUNCTION__); GELOGE(FAILED, "offset >= kernelInfo.argsSize or copy content beyond applied memory."); return FAILED; } @@ -719,8 +716,7 @@ Status KernelTaskInfo::InitTVMTask(uint16_t offset, const domi::KernelDef &kerne rt_ret = rtMemcpy(static_cast(args_) + offset, args_size_ - offset, tensor_device_addrs.data(), kAddrLen * tensor_device_addrs.size(), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%u, ret:0x%X, when KernelTaskInfo %s", args_size_ - offset, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -787,7 +783,7 @@ Status KernelTaskInfo::InitAICPUCustomTask(uint32_t op_index, const domi::Kernel ctx_.argsOffset = new (std::nothrow) uint16_t[kCustomAicpuArgsLen](); if (ctx_.argsOffset == nullptr) { REPORT_INNER_ERROR("E19999", "New ctx_.argsOffset fail, size:%u, op:%s(%s), when KernelTaskInfo %s", - kCustomAicpuArgsLen, op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + kCustomAicpuArgsLen, op_desc->GetName().c_str(), op_desc->GetType().c_str(), __FUNCTION__); GELOGE(PARAM_INVALID, "ctx_.argsOffset is null!"); return PARAM_INVALID; } @@ -915,8 +911,8 @@ Status KernelTaskInfo::InitCceTask(const domi::KernelDef &kernel_def) { if (context.is_flowtable()) { if (flowtable.empty()) { - REPORT_INNER_ERROR("E19999", "kernel_def.flowtable is empty, op:%s(%s), check invalid when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + REPORT_INNER_ERROR("E19999", "kernel_def.flowtable is empty, check invalid when KernelTaskInfo %s", + __FUNCTION__); GELOGE(FAILED, "flowtable is null."); return FAILED; } @@ -951,8 +947,7 @@ Status KernelTaskInfo::InitCceTask(const domi::KernelDef &kernel_def) { // args rtError_t rt_ret = rtMalloc(&args_, kernel_def.args_size(), RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%u, ret:0x%X, when KernelTaskInfo %s", kernel_def.args_size(), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -962,8 +957,7 @@ Status KernelTaskInfo::InitCceTask(const domi::KernelDef &kernel_def) { rt_ret = rtMemcpy(args_, kernel_def.args_size(), kernel_def.args().data(), kernel_def.args_size(), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%u, ret:0x%X, when KernelTaskInfo %s", kernel_def.args_size(), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -973,16 +967,16 @@ Status KernelTaskInfo::InitCceTask(const domi::KernelDef &kernel_def) { if (!sm_desc.empty()) { rt_ret = rtMemAllocManaged(&sm_desc_, sm_desc.size(), RT_MEMORY_SPM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemAllocManaged fail for op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMemAllocManaged fail, ret:0x%X, when KernelTaskInfo %s", + rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } rt_ret = rtMemcpy(sm_desc_, sm_desc.size(), sm_desc.data(), sm_desc.size(), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), sm_desc.size(), rt_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", + sm_desc.size(), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -1063,7 +1057,7 @@ Status KernelTaskInfo::InitAicpuTask(uint32_t op_index, const domi::KernelDef &k rtError_t rt_ret = rtMalloc(static_cast(&args_), args_size_, RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), args_size_, rt_ret, __FUNCTION__); + op_desc->GetName().c_str(), op_desc->GetType().c_str(), args_size_, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api(rtMalloc) failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -1073,7 +1067,7 @@ Status KernelTaskInfo::InitAicpuTask(uint32_t op_index, const domi::KernelDef &k rt_ret = rtMemcpy(args_, args_size_, args_addr.get(), args_size_, RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%u, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), args_size_, rt_ret, __FUNCTION__); + op_desc->GetName().c_str(), op_desc->GetType().c_str(), args_size_, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api(rtMemcpy) failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); } @@ -1175,8 +1169,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d // inputDescs rtError_t rt_ret = rtMalloc(&custom_info_.input_descs, sizeof(opTensor_t) * input_size, RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", sizeof(opTensor_t) * input_size, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1186,8 +1179,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d rt_ret = rtMemcpy(static_cast(custom_info_.input_descs) + i, sizeof(opTensor_t), const_cast(&input_descs[i]), sizeof(opTensor_t), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", sizeof(opTensor_t), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1197,8 +1189,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d // inputAddrs rt_ret = rtMalloc(&custom_info_.input_addrs, sizeof(opTensor_t) * input_size, RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", sizeof(opTensor_t) * input_size, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1208,8 +1199,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d rt_ret = rtMemcpy(custom_info_.input_addrs, kAddrLen * input_size, &input_data_addrs[0], kAddrLen * input_size, RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", kAddrLen * input_size, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1219,8 +1209,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d // outputDescs rt_ret = rtMalloc(&custom_info_.output_descs, sizeof(opTensor_t) * output_size, RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", sizeof(opTensor_t) * output_size, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1229,8 +1218,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d rt_ret = rtMemcpy(static_cast(custom_info_.output_descs) + i, sizeof(opTensor_t), const_cast(&input_descs[i]), sizeof(opTensor_t), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", sizeof(opTensor_t), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1240,8 +1228,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d // outputAddrs rt_ret = rtMalloc(&custom_info_.output_addrs, sizeof(opTensor_t) * output_size, RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", sizeof(opTensor_t) * output_size, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1251,8 +1238,7 @@ Status KernelTaskInfo::StoreInputOutputTensor(const std::vector &input_d rt_ret = rtMemcpy(custom_info_.output_addrs, kAddrLen * output_size, &output_data_addrs[0], kAddrLen * output_size, RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail for op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", kAddrLen * output_size, rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1270,17 +1256,16 @@ Status KernelTaskInfo::SetContext(const domi::KernelDef &kernel_def) { ctx_.isFlowtable = context.is_flowtable(); ctx_.argsCount = context.args_count(); if (ctx_.argsCount == 0) { - REPORT_INNER_ERROR("E19999", "kernel_def.context.args_count is 0, op:%s(%s), check invalid when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + REPORT_INNER_ERROR("E19999", "kernel_def.context.args_count is 0, check invalid when KernelTaskInfo %s", + __FUNCTION__); GELOGE(INTERNAL_ERROR, "check argsCount fail:%u.", ctx_.argsCount); return INTERNAL_ERROR; } if (context.args_offset().size() / sizeof(uint16_t) < ctx_.argsCount) { REPORT_INNER_ERROR("E19999", "param [context.args_offset().size():%zu / sizeof(uint16_t)] " - "is less than [ctx_.argsCount:%u], op:%s(%s), check invalid when KernelTaskInfo %s", - context.args_offset().size(), ctx_.argsCount, - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + "is less than [ctx_.argsCount:%u], check invalid when KernelTaskInfo %s", + context.args_offset().size(), ctx_.argsCount, __FUNCTION__); GELOGE(PARAM_INVALID, "param [context.args_offset().size() / sizeof(uint16_t)] is less than [ctx_.argsCount]"); return PARAM_INVALID; } @@ -1288,8 +1273,8 @@ Status KernelTaskInfo::SetContext(const domi::KernelDef &kernel_def) { // ctx_.argsOffset stores the offset of the internal information of agrs_, equal to the ctx_.argsCount ctx_.argsOffset = new (std::nothrow) uint16_t[ctx_.argsCount](); if (ctx_.argsOffset == nullptr) { - REPORT_INNER_ERROR("E19999", "New ctx_.argsOffset fail, size:%u, op:%s(%s), when KernelTaskInfo %s", - ctx_.argsCount, op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + REPORT_INNER_ERROR("E19999", "New ctx_.argsOffset fail, size:%u, when KernelTaskInfo %s", + ctx_.argsCount, __FUNCTION__); GELOGE(PARAM_INVALID, "(param [ctx_.argsOffset] must not be null."); return PARAM_INVALID; } @@ -1355,9 +1340,8 @@ Status KernelTaskInfo::CceUpdateKernelArgs(const domi::KernelContext &context, u if (handle == nullptr) { error = mmDlerror(); GE_IF_BOOL_EXEC(error == nullptr, error = ""); - REPORT_INNER_ERROR("E19999", "Failed in dlopen:%s, dlerror:%s, op:%s(%s), when KernelTaskInfo %s", - canonicalPath.c_str(), error, - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + REPORT_INNER_ERROR("E19999", "Failed in dlopen:%s, dlerror:%s, when KernelTaskInfo %s", + canonicalPath.c_str(), error, __FUNCTION__); GELOGE(GE_PLGMGR_SO_NOT_EXIST, "Failed in dlopen %s! ", error); return FAILED; } @@ -1366,9 +1350,8 @@ Status KernelTaskInfo::CceUpdateKernelArgs(const domi::KernelContext &context, u auto cceUpdateKernelArgs = (ccStatus_t(*)(ccOpContext &, uint64_t, uint64_t, uint64_t, void *, uint64_t, void *))mmDlsym(handle, const_cast(update_kernel_args.c_str())); if (cceUpdateKernelArgs == nullptr) { - REPORT_INNER_ERROR("E19999", "No symbol:%s in %s, op:%s(%s), check invalid when KernelTaskInfo %s", - update_kernel_args.c_str(), canonicalPath.c_str(), - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + REPORT_INNER_ERROR("E19999", "No symbol:%s in %s, check invalid when KernelTaskInfo %s", + update_kernel_args.c_str(), canonicalPath.c_str(), __FUNCTION__); GELOGE(FAILED, "Failed to invoke function ccUpdateKernelArgs"); if (mmDlclose(handle) != 0) { error = mmDlerror(); @@ -1393,8 +1376,8 @@ Status KernelTaskInfo::CceUpdateKernelArgs(const domi::KernelContext &context, u return FAILED; } if (cc_ret != CC_STATUS_SUCCESS) { - REPORT_CALL_ERROR("E19999", "Call cceUpdateKernelArgs fail, op:%s(%s), ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), cc_ret, __FUNCTION__); + REPORT_CALL_ERROR("E19999", "Call cceUpdateKernelArgs fail, ret:0x%X, when KernelTaskInfo %s", + cc_ret, __FUNCTION__); GELOGE(CCE_FAILED, "Call cce api failed, ret: 0x%X", cc_ret); return CCE_FAILED; } @@ -1408,8 +1391,7 @@ Status KernelTaskInfo::SetFlowtable(std::string &flowtable, const domi::KernelDe if (context.is_flowtable()) { rtError_t rt_ret = rtMalloc(&flowtable_, flowtable.size(), RT_MEMORY_HBM); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMalloc fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", flowtable.size(), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1418,8 +1400,7 @@ Status KernelTaskInfo::SetFlowtable(std::string &flowtable, const domi::KernelDe rt_ret = rtMemcpy(flowtable_, flowtable.size(), flowtable.data(), flowtable.size(), RT_MEMCPY_HOST_TO_DEVICE); if (rt_ret != RT_ERROR_NONE) { - REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, op:%s(%s), size:%zu, ret:0x%X, when KernelTaskInfo %s", - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), + REPORT_CALL_ERROR("E19999", "Call rtMemcpy fail, size:%zu, ret:0x%X, when KernelTaskInfo %s", flowtable.size(), rt_ret, __FUNCTION__); GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret); return RT_ERROR_TO_GE_STATUS(rt_ret); @@ -1432,10 +1413,9 @@ Status KernelTaskInfo::SetFlowtable(std::string &flowtable, const domi::KernelDe ((reinterpret_cast(const_cast(context.args_offset().data())))[0] + sizeof(uint64_t))) { REPORT_INNER_ERROR( "E19999", "(context.args_offset().data()))[0]:%u + sizeof(uint64_t):%zu > " - "kernelDef.args().size():%zu, op:%s(%s), check invalid when %s", + "kernelDef.args().size():%zu, check invalid when %s", (uint32_t)((reinterpret_cast(const_cast(context.args_offset().data())))[0]), - sizeof(uint64_t), kernel_def.args().size(), - op_desc_->GetName().c_str(), op_desc_->GetType().c_str(), __FUNCTION__); + sizeof(uint64_t), kernel_def.args().size(), __FUNCTION__); GELOGE(FAILED, "(context.args_offset().data()))[0]:%u + sizeof(uint64_t):%zu > kernelDef.args().size():%zu", (uint32_t)((reinterpret_cast(const_cast(context.args_offset().data())))[0]), sizeof(uint64_t), kernel_def.args().size());