From 74944af8744ec68f28fffa919c50a55d7f2a8c50 Mon Sep 17 00:00:00 2001 From: liudingyan Date: Thu, 18 Mar 2021 19:35:48 +0800 Subject: [PATCH] update geloge and report errormessage --- ge/host_cpu_engine/engine/host_cpu_engine.cc | 4 +- .../host_cpu_ops_kernel_builder.cc | 24 ++- ge/init/gelib.cc | 56 ++++--- ge/ir_build/atc_ir_common.cc | 154 ++++++++++-------- ge/ir_build/ge_ir_build.cc | 82 +++++----- ge/omm/csa_interact.cc | 29 +++- .../ops_kernel_builder_manager.cc | 36 ++-- ge/opskernel_manager/ops_kernel_manager.cc | 77 ++++++--- ge/plugin/engine/engine_manage.cc | 31 ++-- 9 files changed, 294 insertions(+), 199 deletions(-) diff --git a/ge/host_cpu_engine/engine/host_cpu_engine.cc b/ge/host_cpu_engine/engine/host_cpu_engine.cc index cdbad1ed..5e8394f0 100644 --- a/ge/host_cpu_engine/engine/host_cpu_engine.cc +++ b/ge/host_cpu_engine/engine/host_cpu_engine.cc @@ -18,6 +18,7 @@ #include #include #include +#include #include "framework/common/debug/ge_log.h" #include "common/ge/ge_util.h" #include "host_cpu_engine/common/constant/constant.h" @@ -34,7 +35,8 @@ Status HostCpuEngine::Initialize(const std::map &options) { if (ops_kernel_store_ == nullptr) { ops_kernel_store_ = MakeShared(); if (ops_kernel_store_ == nullptr) { - GELOGE(FAILED, "Make HostCpuOpsKernelInfoStore failed."); + GELOGE(FAILED, "[Create][HostCpuEngine]Make HostCpuOpsKernelInfoStore failed."); + REPORT_INNER_ERROR("E19999", "HostCpuEngine::Initialize failed for new HostCpuEngine."); return FAILED; } } diff --git a/ge/host_cpu_engine/ops_kernel_store/host_cpu_ops_kernel_builder.cc b/ge/host_cpu_engine/ops_kernel_store/host_cpu_ops_kernel_builder.cc index adb252bc..47809ae1 100644 --- a/ge/host_cpu_engine/ops_kernel_store/host_cpu_ops_kernel_builder.cc +++ b/ge/host_cpu_engine/ops_kernel_store/host_cpu_ops_kernel_builder.cc @@ -21,6 +21,7 @@ #include "graph/utils/node_utils.h" #include "graph/utils/tensor_utils.h" #include "graph/utils/type_utils.h" +#include #include "framework/common/debug/ge_log.h" #include "host_cpu_engine/common/constant/constant.h" #include "register/ops_kernel_builder_registry.h" @@ -39,7 +40,8 @@ Status HostCpuOpsKernelBuilder::Initialize(const map & Status HostCpuOpsKernelBuilder::CalcOpRunningParam(Node &ge_node) { OpDescPtr op_desc = ge_node.GetOpDesc(); if (op_desc == nullptr) { - GELOGE(FAILED, "CalcOpRunningParam failed, as op desc is null"); + GELOGE(FAILED, "[Get][OpDesc]CalcOpRunningParam failed, as op desc is null"); + REPORT_INNER_ERROR("E19999", "GetOpDesc failed."); return FAILED; } @@ -73,9 +75,14 @@ Status HostCpuOpsKernelBuilder::CalcOpRunningParam(Node &ge_node) { GeShape output_shape = output_tensor.GetShape(); if ((TensorUtils::CalcTensorMemSize(output_shape, format, data_type, output_mem_size) != GRAPH_SUCCESS) || (output_mem_size < 0)) { - GELOGE(FAILED, "Calc op[%s:%s] out[%zu] mem size failed, mem_size=%ld, format=%s, data_type=%s.", - name.c_str(), type.c_str(), i, output_mem_size, TypeUtils::FormatToSerialString(format).c_str(), - TypeUtils::DataTypeToSerialString(data_type).c_str()); + GELOGE(FAILED, + "[Calc][TensorMemSize] fail for op[%s:%s] out[%zu] mem size, mem_size=%ld, format=%s, data_type=%s.", + name.c_str(), type.c_str(), i, output_mem_size, TypeUtils::FormatToSerialString(format).c_str(), + TypeUtils::DataTypeToSerialString(data_type).c_str()); + REPORT_CALL_ERROR("E19999", + "CalcTensorMemSize failed for op[%s:%s] out[%zu] mem size, mem_size=%ld, format=%s, data_type=%s.", + name.c_str(), type.c_str(), i, output_mem_size, TypeUtils::FormatToSerialString(format).c_str(), + TypeUtils::DataTypeToSerialString(data_type).c_str()); return FAILED; } GELOGI("Calc op[%s:%s] out[%zu] mem size is %ld, format=%s, data_type=%s.", @@ -84,8 +91,13 @@ Status HostCpuOpsKernelBuilder::CalcOpRunningParam(Node &ge_node) { TensorUtils::SetSize(output_tensor, output_mem_size); if (op_desc->UpdateOutputDesc(static_cast(i), output_tensor) != GRAPH_SUCCESS) { - GELOGE(FAILED, "Update op[%s:%s] out[%zu] desc failed, format=%s, data_type=%s.", name.c_str(), type.c_str(), i, - TypeUtils::FormatToSerialString(format).c_str(), TypeUtils::DataTypeToSerialString(data_type).c_str()); + GELOGE(FAILED, + "[Update][OutputDesc] fail for op[%s:%s] out[%zu] desc , format=%s, data_type=%s.", + name.c_str(), type.c_str(), i, + TypeUtils::FormatToSerialString(format).c_str(), TypeUtils::DataTypeToSerialString(data_type).c_str()); + REPORT_CALL_ERROR("E19999", "UpdateOutputDesc failed for op[%s:%s] out[%zu] desc , format=%s, data_type=%s.", + name.c_str(), type.c_str(), i, + TypeUtils::FormatToSerialString(format).c_str(), TypeUtils::DataTypeToSerialString(data_type).c_str()); return FAILED; } } diff --git a/ge/init/gelib.cc b/ge/init/gelib.cc index 17e257c0..ab7fbb29 100644 --- a/ge/init/gelib.cc +++ b/ge/init/gelib.cc @@ -68,7 +68,8 @@ Status GELib::Initialize(const map &options) { // Multiple initializations are not allowed instancePtr_ = MakeShared(); if (instancePtr_ == nullptr) { - GELOGE(GE_CLI_INIT_FAILED, "GeLib initialize failed, malloc shared_ptr failed."); + GELOGE(GE_CLI_INIT_FAILED, "[Create][GELib]GeLib initialize failed, malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "GELib Init failed for new GeLib failed."); return GE_CLI_INIT_FAILED; } @@ -76,13 +77,15 @@ Status GELib::Initialize(const map &options) { map new_options; Status ret = instancePtr_->SetRTSocVersion(options, new_options); if (ret != SUCCESS) { - GELOGE(ret, "GeLib initial failed."); + GELOGE(ret, "[Set][RTSocVersion]GeLib initial: SetRTSocVersion failed."); + REPORT_CALL_ERROR("E19999", "SetRTSocVersion failed."); return ret; } ret = instancePtr_->SetAiCoreNum(new_options); if (ret != SUCCESS) { - GELOGE(ret, "GeLib initial: SetAiCoreNum failed."); + GELOGE(ret, "[Set][AiCoreNum]GeLib initial: SetAiCoreNum failed."); + REPORT_CALL_ERROR("E19999", "SetAiCoreNum failed."); return ret; } @@ -97,7 +100,8 @@ Status GELib::Initialize(const map &options) { GE_TIMESTAMP_START(Init); ret = instancePtr_->InnerInitialize(new_options); if (ret != SUCCESS) { - GELOGE(ret, "GeLib initial failed."); + GELOGE(ret, "[Init][GeLib]GeLib initial failed."); + REPORT_CALL_ERROR("E19999", "GELib::InnerInitialize failed."); instancePtr_ = nullptr; return ret; } @@ -118,7 +122,7 @@ Status GELib::InnerInitialize(const map &options) { Status initSystemStatus = SystemInitialize(options); GE_TIMESTAMP_END(SystemInitialize, "InnerInitialize::SystemInitialize"); if (initSystemStatus != SUCCESS) { - GELOGE(initSystemStatus, "GE system initial failed."); + GELOGE(initSystemStatus, "[Init][GESystem]GE system initial failed."); RollbackInit(); return initSystemStatus; } @@ -129,7 +133,8 @@ Status GELib::InnerInitialize(const map &options) { Status initEmStatus = engineManager_.Initialize(options); GE_TIMESTAMP_END(EngineInitialize, "InnerInitialize::EngineInitialize"); if (initEmStatus != SUCCESS) { - GELOGE(initEmStatus, "GE engine manager initial failed."); + GELOGE(initEmStatus, "[Init][EngineManager]GE engine manager initial failed."); + REPORT_CALL_ERROR("E19999", "EngineManager initialize failed."); RollbackInit(); return initEmStatus; } @@ -140,7 +145,8 @@ Status GELib::InnerInitialize(const map &options) { Status initOpsStatus = opsManager_.Initialize(options); GE_TIMESTAMP_END(OpsManagerInitialize, "InnerInitialize::OpsManagerInitialize"); if (initOpsStatus != SUCCESS) { - GELOGE(initOpsStatus, "GE ops manager initial failed."); + GELOGE(initOpsStatus, "[Init][OpsManager]GE ops manager initial failed."); + REPORT_CALL_ERROR("E19999", "OpsManager initialize failed."); RollbackInit(); return initOpsStatus; } @@ -151,7 +157,8 @@ Status GELib::InnerInitialize(const map &options) { Status initOpsBuilderStatus = OpsKernelBuilderManager::Instance().Initialize(options); GE_TIMESTAMP_END(OpsKernelBuilderManagerInitialize, "InnerInitialize::OpsKernelBuilderManager"); if (initOpsBuilderStatus != SUCCESS) { - GELOGE(initOpsBuilderStatus, "GE ops builder manager initial failed."); + GELOGE(initOpsBuilderStatus, "[Init][OpsKernelBuilderManager]GE ops builder manager initial failed."); + REPORT_CALL_ERROR("E19999", "OpsBuilderManager initialize failed."); RollbackInit(); return initOpsBuilderStatus; } @@ -162,7 +169,8 @@ Status GELib::InnerInitialize(const map &options) { Status initSmStatus = sessionManager_.Initialize(options); GE_TIMESTAMP_END(SessionManagerInitialize, "InnerInitialize::SessionManagerInitialize"); if (initSmStatus != SUCCESS) { - GELOGE(initSmStatus, "GE session manager initial failed."); + GELOGE(initSmStatus, "[Init][SessionManager] GE session manager initial failed."); + REPORT_CALL_ERROR("E19999", "SessionManager initialize failed."); RollbackInit(); return initSmStatus; } @@ -172,7 +180,8 @@ Status GELib::InnerInitialize(const map &options) { Status initHostCpuEngineStatus = HostCpuEngine::GetInstance().Initialize(); GE_TIMESTAMP_END(HostCpuEngineInitialize, "InnerInitialize::HostCpuEngineInitialize"); if (initHostCpuEngineStatus != SUCCESS) { - GELOGE(initHostCpuEngineStatus, "Failed to initialize HostCpuEngine"); + GELOGE(initHostCpuEngineStatus, "[Init][HostCpuEngine]Failed to initialize HostCpuEngine."); + REPORT_CALL_ERROR("E19999", "HostCpuEngine initialize failed."); RollbackInit(); return initHostCpuEngineStatus; } @@ -180,7 +189,8 @@ Status GELib::InnerInitialize(const map &options) { GELOGI("Start to init Analyzer!"); Status init_analyzer_status = ge::Analyzer::GetInstance()->Initialize(); if (init_analyzer_status != SUCCESS) { - GELOGE(init_analyzer_status, "Failed to initialize HostCpuEngine"); + GELOGE(init_analyzer_status, "[Init][Analyzer]Failed to initialize Analyzer."); + REPORT_CALL_ERROR("E19999", "ge::Analyzer initialize failed."); RollbackInit(); return init_analyzer_status; } @@ -205,7 +215,8 @@ Status GELib::SystemInitialize(const map &options) { auto model_manager = ModelManager::GetInstance(); GE_CHECK_NOTNULL(model_manager); GE_IF_BOOL_EXEC(model_manager->EnableExceptionDump(options) != SUCCESS, - GELOGE(FAILED, "Enable exception dump failed"); + REPORT_CALL_ERROR("E19999", "ModelManager EnableExceptionDump failed."); + GELOGE(FAILED, "[Enable][ExceptionDump] failed."); return FAILED); // 1.`is_train_mode_` means case: train // 2.`(!is_train_mode_) && (options_.device_id != kDefaultDeviceIdForInfer)` means case: online infer @@ -259,7 +270,10 @@ Status GELib::SetRTSocVersion(const map &options, map &options) { options.emplace(std::make_pair(AICORE_NUM, std::to_string(aicore_num))); return SUCCESS; } - GELOGE(FAILED, "rtGetAiCoreCount failed."); + GELOGE(FAILED, "[Get][AiCoreCount]rtGetAiCoreCount failed."); + REPORT_CALL_ERROR("E19999", "rtGetAiCoreCount failed."); return FAILED; } @@ -355,7 +370,8 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status GELib::InitSystemWithOpt mem_type.push_back(RT_MEMORY_P2P_DDR); Status initMmStatus = MemManager::Instance().Initialize(mem_type); if (initMmStatus != SUCCESS) { - GELOGE(initMmStatus, "[Initialize] MemoryAllocatorManager initialize failed."); + GELOGE(initMmStatus, "[Init][MemManager] MemoryAllocatorManager initialize failed."); + REPORT_CALL_ERROR("E19999", "MemManager initialize failed."); return initMmStatus; } @@ -363,7 +379,7 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status GELib::InitSystemWithOpt // Update CSA file CsaInteract::GetInstance().Init(options.device_id, GetContext().TraceId()); Status ret = CsaInteract::GetInstance().WriteJobState(JOBSTATE_RUNNING, JOBSUBSTATE_ENV_INIT); - GE_LOGE_IF(ret != SUCCESS, "write job state failed, ret:%u", ret); + GE_LOGE_IF(ret != SUCCESS, "[Write][JobState] failed, ret:%u ", ret); // set device id GELOGI("set logical device id:%u", options.device_id); @@ -394,7 +410,7 @@ Status GELib::SystemShutdownWithOptions(const Options &options) { // Update CSA file Status ret = CsaInteract::GetInstance().WriteJobState(JOBSTATE_SUCCEED); - GE_LOGE_IF(ret != SUCCESS, "write job state failed, ret:%u", ret); + GE_LOGE_IF(ret != SUCCESS, "[Write][JobState] failed, ret:%u ", ret); is_system_inited = false; is_shutdown = true; @@ -410,7 +426,8 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status GELib::InitSystemWithout mem_type.push_back(RT_MEMORY_P2P_DDR); Status initMmStatus = MemManager::Instance().Initialize(mem_type); if (initMmStatus != SUCCESS) { - GELOGE(initMmStatus, "[Initialize] MemoryAllocatorManager initialize failed."); + GELOGE(initMmStatus, "[Init][MemoryManager] initialize failed."); + REPORT_CALL_ERROR("E19999", "MemManager initialize failed."); return initMmStatus; } GE_CHK_STATUS_RET(HostMemManager::Instance().Initialize()); @@ -506,7 +523,8 @@ Status GELib::Finalize() { instancePtr_ = nullptr; init_flag_ = false; if (final_state != SUCCESS) { - GELOGE(FAILED, "finalization failed."); + GELOGE(FAILED, "[Check][State]finalization failed."); + REPORT_INNER_ERROR("E19999", "GELib::Finalize failed."); return final_state; } GELOGI("finalization success."); diff --git a/ge/ir_build/atc_ir_common.cc b/ge/ir_build/atc_ir_common.cc index 667f06e6..0fe027df 100755 --- a/ge/ir_build/atc_ir_common.cc +++ b/ge/ir_build/atc_ir_common.cc @@ -80,7 +80,7 @@ Status CheckInputFormat(const string &input_format) { if (!ge::TypeUtils::IsFormatValid(input_format.c_str())) { ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--input_format", input_format, "input format is invalid!"}); - GELOGE(ge::PARAM_INVALID, "input format [%s] is invalid!", input_format.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][InputFormat] --input_format[%s] is invalid!", input_format.c_str()); return ge::PARAM_INVALID; } return ge::SUCCESS; @@ -93,7 +93,8 @@ bool CheckDynamicBatchSizeInputShapeValid(map> shape_map vector shape = iter->second; if (shape.empty()) { ErrorManager::GetInstance().ATCReportErrMessage("E10012"); - GELOGE(ge::PARAM_INVALID, "--input_shape's shape size can not be less than 1 when set --dynamic_batch_size."); + GELOGE(ge::PARAM_INVALID, + "[Check][DynamicBatchSizeInputShape] shape size can not be less than 1 when set --dynamic_batch_size."); return false; } @@ -109,7 +110,8 @@ bool CheckDynamicBatchSizeInputShapeValid(map> shape_map if (size == 0) { ErrorManager::GetInstance().ATCReportErrMessage("E10031"); - GELOGE(ge::PARAM_INVALID, "At least one batch n must be equal to -1 when set --dynamic_batch_size."); + GELOGE(ge::PARAM_INVALID, + "[Check][DynamicBatchSizeInputShape]At least one batch n must be equal to -1 when set dynamic_batch_size."); return false; } @@ -117,8 +119,8 @@ bool CheckDynamicBatchSizeInputShapeValid(map> shape_map if (!isdigit(c) && (c != ',') && (c != ' ')) { ErrorManager::GetInstance().ATCReportErrMessage( "E10033", {"value", "reason"}, {dynamic_batch_size, kDynamicBatchSizeError}); - GELOGE(ge::PARAM_INVALID, "Input parameter[--dynamic_batch_size]'s value[%s] is invalid. reason: %s", - dynamic_batch_size.c_str(), kDynamicBatchSizeError); + GELOGE(ge::PARAM_INVALID, "[Check][DynamicBatchSizeInputShape] --dynamic_batch_size:%s is invalid. reason: %s", + dynamic_batch_size.c_str(), kDynamicBatchSizeError); return false; } } @@ -131,7 +133,8 @@ bool CheckDynamicBatchSizeInputShapeValid(map> shape_map bool CheckDynamicImagesizeInputShapeValid(map> shape_map, const std::string input_format, std::string &dynamic_image_size) { if (!input_format.empty() && !ge::TypeUtils::IsFormatValid(input_format.c_str())) { - GELOGE(ge::PARAM_INVALID, "user input format [%s] is not found!", input_format.c_str()); + GELOGE(ge::PARAM_INVALID, + "[Check][DynamicImagesizeInputShape] input_format [%s] invalid, can not support now.", input_format.c_str()); return false; } int32_t size = 0; @@ -141,8 +144,9 @@ bool CheckDynamicImagesizeInputShapeValid(map> shape_map if (shape.size() != DIM_DEFAULT_SIZE) { if (std::count(shape.begin(), shape.end(), kDynamicInputDim) > 0) { ErrorManager::GetInstance().ATCReportErrMessage("E10019"); - GELOGE(ge::PARAM_INVALID, - "--input_shape's shape is invalid, only height and width can be -1 when set --dynamic_image_size."); + GELOGE(ge::PARAM_INVALID, + "[Check][DynamicImagesizeInputShape] --input_shape invalid," + " only height and width can be -1 when set --dynamic_image_size."); return false; } continue; @@ -161,7 +165,8 @@ bool CheckDynamicImagesizeInputShapeValid(map> shape_map if (size == 0) { ErrorManager::GetInstance().ATCReportErrMessage("E10019"); GELOGE(ge::PARAM_INVALID, - "--input_shape's shape is invalid, only height and width can be -1 when set --dynamic_image_size."); + "[Check][DynamicImagesizeInputShape]--input shape invalid, " + "only height and width can be -1 when set --dynamic_image_size."); return false; } @@ -176,9 +181,8 @@ bool CheckDynamicImagesizeInputShapeValid(map> shape_map ErrorManager::GetInstance().ATCReportErrMessage("E10020", {"DynamicImageSizeNum"}, {std::to_string(kDynamicImageSizeNum)}); GELOGE(ge::PARAM_INVALID, - "--dynamic_image_size's number of dimensions of each " - "group must be %ld.", - kDynamicImageSizeNum); + "[Check][DynamicImagesizeInputShape] invalid value:%s number of dimensions of each group must be %ld.", + dynamic_image_size.c_str(), kDynamicImageSizeNum); return false; } } @@ -192,7 +196,7 @@ bool CheckDynamicDimsInputShapeValid(const map> &shape_m ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--input_format", input_format.c_str(), "input_format must be ND when set dynamic_dims"}); - GELOGE(ge::PARAM_INVALID, "input_format must be ND when set dynamic_dims."); + GELOGE(ge::PARAM_INVALID, "[Check][DynamicDimsInputShape]--input_format must be ND when set dynamic_dims."); return false; } @@ -203,7 +207,8 @@ bool CheckDynamicDimsInputShapeValid(const map> &shape_m ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--input_shape's dim", std::to_string(shapes.size()), "Dim num must within [1, 4] when set dynamic_dims"}); - GELOGE(ge::PARAM_INVALID, "Dim num must within [%zu, %zu] when set dynamic_dims.", kMinNDDimNum, kMaxNDDimNum); + GELOGE(ge::PARAM_INVALID, "[Check][DynamicDimsInputShape]Dim num must within [%zu, %zu] when set dynamic_dims.", + kMinNDDimNum, kMaxNDDimNum); return false; } dynamic_dim += std::count(shapes.begin(), shapes.end(), kDynamicInputDim); @@ -212,12 +217,13 @@ bool CheckDynamicDimsInputShapeValid(const map> &shape_m ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--input_shape's dynamic dim num", "0", "at least one dim should be -1 when set dynamic_dims"}); - GELOGE(ge::PARAM_INVALID, "input_shape's shape is invalid, at least one dim should be -1 when set dynamic_dims."); + GELOGE(ge::PARAM_INVALID, + "[Check][DynamicDimsInputShape]--input_shape invalid, at least one dim should be -1 when set dynamic_dims."); return false; } if (!CheckAndParseDynamicDims(dynamic_dim, dynamic_dims)) { - GELOGE(ge::PARAM_INVALID, "Check and parse dynamic dims: %s failed.", dynamic_dims.c_str()); + GELOGE(ge::PARAM_INVALID, "[CheckAndParse][DynamicDims]: %s failed.", dynamic_dims.c_str()); return false; } @@ -230,7 +236,7 @@ bool CheckAndParseDynamicDims(int32_t dynamic_dim_num, std::string &dynamic_dims ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--dynamic_dims", dynamic_dims.c_str(), "dynamic_dims can not be empty"}); - GELOGE(ge::PARAM_INVALID, "dynamic_dims can not be empty."); + GELOGE(ge::PARAM_INVALID, "[CheckAndParse][DynamicDims]--dynamic_dims can not be empty."); return false; } // Different parameter sets are split by ';' @@ -238,7 +244,8 @@ bool CheckAndParseDynamicDims(int32_t dynamic_dim_num, std::string &dynamic_dims if (split_set.size() > kMaxDynamicDimNum) { ErrorManager::GetInstance().ATCReportErrMessage( "E10042", {"parameter", "reason"}, {"dynamic_dims", "dynamic_dims's num of parameter set can not exceed 100"}); - GELOGE(ge::PARAM_INVALID, "dynamic_dims's num of parameter set can not exceed %zu.", kMaxDynamicDimNum); + GELOGE(ge::PARAM_INVALID, + "[CheckAndParse][DynamicDims]dynamic_dims's num of parameter set can not exceed %zu.", kMaxDynamicDimNum); return false; } for (auto split_dim : split_set) { @@ -247,8 +254,9 @@ bool CheckAndParseDynamicDims(int32_t dynamic_dim_num, std::string &dynamic_dims ErrorManager::GetInstance().ATCReportErrMessage( "E10042", {"parameter", "reason"}, {"dynamic_dims", "Each gear setting needs to be consistent with the number of -1 in the inputshape"}); - GELOGE(ge::PARAM_INVALID, "Input parameter --dynamic_dims parse failed, " - "reason: Each gear setting needs to be consistent with the number of -1 in the inputshape."); + GELOGE(ge::PARAM_INVALID, "[CheckAndParse][DynamicDims] --dynamic_dims:%s invalid. " + "reason: Each gear setting needs to be consistent with the number of -1 in the inputshape.", + dynamic_dims.c_str()); return false; } for (auto dim : one_set) { @@ -257,7 +265,9 @@ bool CheckAndParseDynamicDims(int32_t dynamic_dim_num, std::string &dynamic_dims ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--dynamic_dims's parameter", dim.c_str(), "must be positive integer"}); - GELOGE(ge::PARAM_INVALID, "dynamic_dims's parameter must be positive integer."); + GELOGE(ge::PARAM_INVALID, + "[CheckAndParse][DynamicDims]--dynamic_dims:%s parameter must be positive integer.", + dynamic_dims.c_str()); return false; } } @@ -273,15 +283,13 @@ bool StringToLongNoThrow(const string &str, long &val) { } catch (const std::invalid_argument) { ErrorManager::GetInstance().ATCReportErrMessage("E10048", {"shape_range", "reason", "sample"}, {str, kShapeRangeValueConvertError, kInputShapeRangeSample3}); - GELOGE(PARAM_INVALID, - "Parse input parameter [--input_shape_range]'s shape range[%s] failed, reason: %s, correct sample is %s.", - str.c_str(), kShapeRangeValueConvertError, kInputShapeRangeSample3); + GELOGE(PARAM_INVALID, "[Parse][Parameter] str:%s invalid, reason: %s, correct sample is %s.", + str.c_str(), kShapeRangeValueConvertError, kInputShapeRangeSample3); } catch (const std::out_of_range) { ErrorManager::GetInstance().ATCReportErrMessage("E10048", {"shape_range", "reason", "sample"}, {str, kShapeRangeValueConvertError, kInputShapeRangeSample3}); - GELOGE(PARAM_INVALID, - "Parse input parameter [--input_shape_range]'s shape range[%s] failed, reason: %s, correct sample is %s.", - str.c_str(), kShapeRangeValueConvertError, kInputShapeRangeSample3); + GELOGE(PARAM_INVALID, "[Parse][Parameter] str:%s invalid, reason: %s, correct sample is %s.", + str.c_str(), kShapeRangeValueConvertError, kInputShapeRangeSample3); } return false; } @@ -299,9 +307,8 @@ bool ParseSingleShapeRange(std::string &shape_range, vector> shape_range_val; if (!ParseSingleShapeRange(shape_range_str, shape_range_val)) { - GELOGE(PARAM_INVALID, "Parse single shape range %s error.", shape_range_str.c_str()); + GELOGE(PARAM_INVALID, "[Parse][Param] shape_range_str: %s invalid.", shape_range_str.c_str()); return false; } shape_range_map.emplace(make_pair(StringUtils::Trim(shape_range_pair_vec[0]), shape_range_val)); @@ -392,14 +398,14 @@ bool ParseInputShapeRange(const std::string &shape_range, } Status CheckDynamicInputParamValid(string &dynamic_batch_size, string &dynamic_image_size, string &dynamic_dims, - const string input_shape, const string input_shape_range, const string input_format, - bool &is_dynamic_input) { + const string input_shape, const string input_shape_range, const string input_format,bool &is_dynamic_input){ int32_t param_size = static_cast(!dynamic_batch_size.empty()) + - static_cast(!dynamic_image_size.empty()) + static_cast(!dynamic_dims.empty()); + static_cast(!dynamic_image_size.empty()) + static_cast(!dynamic_dims.empty()); if (param_size > 1) { ErrorManager::GetInstance().ATCReportErrMessage("E10009", {"parameter0", "parameter1", "parameter2"}, {"dynamic_batch_size", "dynamic_image_size", "dynamic_dims"}); - GELOGE(ge::PARAM_INVALID, "dynamic_batch_size, dynamic_image_size and dynamic_dims can only be set one"); + GELOGE(ge::PARAM_INVALID, + "[Parse][Param]dynamic_batch_size, dynamic_image_size and dynamic_dims can only be set one"); return ge::PARAM_INVALID; } @@ -419,33 +425,34 @@ Status CheckDynamicInputParamValid(string &dynamic_batch_size, string &dynamic_i is_dynamic_input = true; if (input_shape.empty()) { ErrorManager::GetInstance().ATCReportErrMessage("E10004", {"parameter"}, {"input_shape"}); - GELOGE(ge::PARAM_INVALID, "The input_shape can not be empty in dynamic input size scenario."); + GELOGE(ge::PARAM_INVALID, "[Check][Param]The input_shape can not be empty in dynamic input size scenario."); return ge::PARAM_INVALID; } if (!ParseInputShape(input_shape, shape_map, user_shape_map, is_dynamic_input)) { - GELOGE(ge::PARAM_INVALID, "Failed to parse input shape: %s", input_shape.c_str()); + GELOGE(ge::PARAM_INVALID, "[Parse][InputShape]input_shape: %s invalid.", input_shape.c_str()); return ge::PARAM_INVALID; } if (!dynamic_batch_size.empty()) { if (!CheckDynamicBatchSizeInputShapeValid(shape_map, dynamic_batch_size)) { - GELOGE(ge::PARAM_INVALID, "Check dynamic batch size input shape failed: %s", input_shape.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][DynamicBatchSizeInputShape] input_shape: %s invalid.", input_shape.c_str()); return ge::PARAM_INVALID; } } if (!dynamic_image_size.empty()) { if (!CheckDynamicImagesizeInputShapeValid(shape_map, input_format, dynamic_image_size)) { - GELOGE(ge::PARAM_INVALID, "Check dynamic image size input shape failed: %s", input_shape.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][DynamicImagesizeInputShape] %s invalid. dynamic_image_size:%s ", + input_shape.c_str(), dynamic_image_size.c_str()); return ge::PARAM_INVALID; } } if (!dynamic_dims.empty()) { if (!CheckDynamicDimsInputShapeValid(shape_map, input_format, dynamic_dims)) { - GELOGE(ge::PARAM_INVALID, "Check dynamic dims: %s of input shape: %s failed.", dynamic_dims.c_str(), - input_shape.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][DynamicDimsInputShape]: %s of input shape: %s failed.", dynamic_dims.c_str(), + input_shape.c_str()); return ge::PARAM_INVALID; } } @@ -496,7 +503,8 @@ bool ParseInputShape(const string &input_shape, map> &sh if (!isdigit(c)) { ErrorManager::GetInstance().ATCReportErrMessage("E10002", {"shape", "reason", "sample"}, {shape, kDigitError, kInputShapeSample2}); - GELOGE(PARAM_INVALID, "--input_shape's shape value[%s] is not digit", shape_value_str.c_str()); + GELOGE(PARAM_INVALID, "[Check][Param]--input_shape's shape value[%s] is not digit", + shape_value_str.c_str()); return false; } } @@ -519,7 +527,8 @@ bool ParseInputShape(const string &input_shape, map> &sh int64_t result = left_result; // - 1 is not currently supported if (!is_dynamic_input && result <= 0) { - ErrorManager::GetInstance().ATCReportErrMessage("E10011", {"shape", "result"}, {shape, std::to_string(result)}); + ErrorManager::GetInstance().ATCReportErrMessage("E10011", {"shape", "result"}, + {shape, std::to_string(result)}); GELOGW( "Input parameter[--input_shape]’s shape value[%s] is invalid, " "expect positive integer, but value is %ld.", @@ -541,7 +550,7 @@ Status CheckOutputTypeParamValid(const std::string output_type) { ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--output_type", output_type, kOutputTypeSupport}); GELOGE(ge::PARAM_INVALID, - "Invalid value for --output_type[%s], %s.", output_type.c_str(), kOutputTypeSupport); + "[Check][Param]Invalid value for --output_type[%s], %s.", output_type.c_str(), kOutputTypeSupport); return ge::PARAM_INVALID; } return ge::SUCCESS; @@ -553,30 +562,34 @@ Status CheckBufferOptimizeParamValid(const std::string buffer_optimize) { ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--buffer_optimize", buffer_optimize, kBufferOptimizeSupport}); GELOGE(ge::PARAM_INVALID, - "Invalid value for --buffer_optimize[%s], %s.", buffer_optimize.c_str(), kBufferOptimizeSupport); + "[Check][BufferOptimize]Invalid value for [%s], %s.", buffer_optimize.c_str(), kBufferOptimizeSupport); return ge::PARAM_INVALID; } return ge::SUCCESS; } -Status CheckCompressWeightParamValid(const std::string enable_compress_weight, const std::string compress_weight_conf) { +Status CheckCompressWeightParamValid(const std::string enable_compress_weight, + const std::string compress_weight_conf) { if ((!compress_weight_conf.empty()) && (!CheckInputPathValid(compress_weight_conf, "--compress_weight_conf"))) { - GELOGE(ge::PARAM_INVALID, "compress weight config file not found, file_name:%s", compress_weight_conf.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][CompressWeight]compress weight config file not found, file_name:%s", + compress_weight_conf.c_str()); return ge::PARAM_INVALID; } if ((enable_compress_weight != "") && (enable_compress_weight != "true") && (enable_compress_weight != "false")) { ErrorManager::GetInstance().ATCReportErrMessage( "E10005", {"parameter", "value"}, {"enable_compress_weight", enable_compress_weight}); GELOGE(ge::PARAM_INVALID, - "Input parameter[--enable_compress_weight]'s value[%s] must be true or false.", enable_compress_weight.c_str()); + "[Check][CompressWeight]Input parameter[--enable_compress_weight]'s value[%s] must be true or false.", + enable_compress_weight.c_str()); return ge::PARAM_INVALID; } if ((enable_compress_weight == "true") && (!compress_weight_conf.empty())) { ErrorManager::GetInstance().ATCReportErrMessage("E10047", {"parameter0", "parameter1"}, {"enable_compress_weight", "compress_weight_conf"}); - GELOGE(ge::PARAM_INVALID, "enable_compress_weight and compress_weight_conf can not both exist!!"); + GELOGE(ge::PARAM_INVALID, + "[Check][CompressWeight]enable_compress_weight and compress_weight_conf can not both exist!!"); return ge::PARAM_INVALID; } return ge::SUCCESS; @@ -586,7 +599,7 @@ Status CheckKeepTypeParamValid(const std::string &keep_dtype) { if ((!keep_dtype.empty()) && (!CheckInputPathValid(keep_dtype, "--keep_dtype"))) { ErrorManager::GetInstance().ATCReportErrMessage( "E10001", {"parameter", "value", "reason"}, {"--keep_dtype", keep_dtype, kKeepDtypeError}); - GELOGE(ge::PARAM_INVALID, "keep dtype config file not found, file_name:%s", keep_dtype.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][InputPath::--keep_dtype] file not found, file_name:%s", keep_dtype.c_str()); return ge::PARAM_INVALID; } @@ -608,11 +621,12 @@ int CheckLogParamValidAndSetLogLevel(const std::string log) { } else if (log == "error") { ret = dlog_setlevel(-1, DLOG_ERROR, 1); } else { - GELOGE(ge::PARAM_INVALID, "invalid value for log:%s, only support debug, info, warning, error, null", log.c_str()); + GELOGE(ge::PARAM_INVALID, + "[Check][LogParam]log:%s invalid, only support debug, info, warning, error, null", log.c_str()); return ret; } if (ret != 0) { - GELOGE(ge::PARAM_INVALID, "Log setlevel fail !"); + GELOGE(ge::PARAM_INVALID, "[Set][LogLevel] fail, level:%s.",log.c_str()); } return ret; } @@ -620,7 +634,7 @@ int CheckLogParamValidAndSetLogLevel(const std::string log) { Status CheckInsertOpConfParamValid(const std::string insert_op_conf) { if ((!insert_op_conf.empty()) && (!CheckInputPathValid(insert_op_conf, "--insert_op_conf"))) { - GELOGE(ge::PARAM_INVALID, "insert op config file not found: %s", insert_op_conf.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][InputPath]file not found: %s", insert_op_conf.c_str()); return ge::PARAM_INVALID; } return ge::SUCCESS; @@ -629,7 +643,7 @@ Status CheckInsertOpConfParamValid(const std::string insert_op_conf) { Status CheckDisableReuseMemoryParamValid(const std::string disable_reuse_memory) { if ((disable_reuse_memory != "") && (disable_reuse_memory != "0") && (disable_reuse_memory != "1")) { ErrorManager::GetInstance().ATCReportErrMessage("E10006", {"parameter"}, {"disable_reuse_memory"}); - GELOGE(ge::PARAM_INVALID, "Input parameter[--disable_reuse_memory]'s value must be 1 or 0."); + GELOGE(ge::PARAM_INVALID, "[Check][DisableReuseMemory]disable_reuse_memory must be 1 or 0."); return ge::PARAM_INVALID; } return ge::SUCCESS; @@ -639,8 +653,8 @@ Status CheckEnableSingleStreamParamValid(const std::string enable_single_stream) if ((enable_single_stream != "") && (enable_single_stream != "true") && (enable_single_stream != "false")) { ErrorManager::GetInstance().ATCReportErrMessage( "E10005", {"parameter", "value"}, {"enable_single_stream", enable_single_stream}); - GELOGE(ge::PARAM_INVALID, "Input parameter[--enable_single_stream]'s value[%s] must be true or false.", - enable_single_stream.c_str()); + GELOGE(ge::PARAM_INVALID, "[Check][Param:--enable_single_stream] value:%s must be true or false.", + enable_single_stream.c_str()); return ge::PARAM_INVALID; } return ge::SUCCESS; @@ -651,8 +665,8 @@ Status CheckImplmodeParamValid(const std::string &optypelist_for_implmode, std:: if (optypelist_for_implmode != "" && op_select_implmode == "") { ErrorManager::GetInstance().ATCReportErrMessage("E10001", {"parameter", "value", "reason"}, {"--op_select_implmode", op_select_implmode.c_str(), kCompressWeightError}); - GELOGE(ge::PARAM_INVALID, "Invalid value for --op_select_implmode[%s], %s.", - op_select_implmode.c_str(), kCompressWeightError); + GELOGE(ge::PARAM_INVALID, "[Check][Param:--op_select_implmode]value:%s invalid, %s.", + op_select_implmode.c_str(),kCompressWeightError); return ge::PARAM_INVALID; } // op_select_implmode default value is high_performance @@ -663,7 +677,7 @@ Status CheckImplmodeParamValid(const std::string &optypelist_for_implmode, std:: op_select_implmode != IR_OPTION_OP_SELECT_IMPLMODE_PRECISON) { ErrorManager::GetInstance().ATCReportErrMessage("E10001", {"parameter", "value", "reason"}, {"--op_select_implmode", op_select_implmode.c_str(), kSelectImplmodeError}); - GELOGE(ge::PARAM_INVALID, "Invalid value for --op_select_implmode[%s], %s.", + GELOGE(ge::PARAM_INVALID, "[Check][Implmode]Invalid value for --op_select_implmode[%s], %s.", op_select_implmode.c_str(), kSelectImplmodeError); return ge::PARAM_INVALID; } @@ -729,7 +743,7 @@ Status UpdateDataOpShapeRange(const OpDescPtr &op, if (iter != shape_range_map.end()) { auto cur_shape_range = iter->second; if (TensorUtils::CheckShapeByShapeRange(origin_shape, cur_shape_range) != SUCCESS) { - GELOGE(PARAM_INVALID, "[%s] Check shape by shape range failed.", op->GetName().c_str()); + GELOGE(PARAM_INVALID, "[Check][OpDescPtr] Check shape by shape range failed for op:%s.", data_op_name.c_str()); return PARAM_INVALID; } for (size_t idx = 0; idx < cur_shape_range.size(); idx++) { @@ -757,7 +771,7 @@ Status UpdateDynamicInputShapeRange(const ge::ComputeGraphPtr &compute_graph, co map>> shape_range_map; if (!ParseInputShapeRange(input_shape_range, shape_range_map)) { - GELOGE(PARAM_INVALID, "Parse input shape range failed."); + GELOGE(PARAM_INVALID, "[Parse][InputShapeRange] input_shape_range:%s invalid.", input_shape_range.c_str()); return PARAM_INVALID; } @@ -767,7 +781,7 @@ Status UpdateDynamicInputShapeRange(const ge::ComputeGraphPtr &compute_graph, co GE_CHECK_NOTNULL(op); if (op->GetType() == DATA) { if (UpdateDataOpShapeRange(op, shape_range_map) != SUCCESS) { - GELOGE(FAILED, "Update data op [%s] input shape range failed.", op->GetName().c_str()); + GELOGE(FAILED, "[Update][InputShapeRange] fail for op:%s.", op->GetName().c_str()); return FAILED; } } diff --git a/ge/ir_build/ge_ir_build.cc b/ge/ir_build/ge_ir_build.cc index bd1be318..2465b5bc 100644 --- a/ge/ir_build/ge_ir_build.cc +++ b/ge/ir_build/ge_ir_build.cc @@ -85,21 +85,21 @@ static graphStatus CheckGlobalOptions(std::map &global ? IR_OPTION_DISABLE_REUSE_MEMORY_DEFAULT : global_options[ge::ir_option::EXEC_DISABLE_REUSED_MEMORY]; GE_CHK_BOOL_EXEC(ge::CheckDisableReuseMemoryParamValid(disable_reuse_memory) == ge::SUCCESS, - return ge::GRAPH_PARAM_INVALID, "check disable_reuse_memory failed!"); + return ge::GRAPH_PARAM_INVALID, "[Check][DisableReuseMemory] failed!"); global_options[ge::ir_option::EXEC_DISABLE_REUSED_MEMORY] = disable_reuse_memory; // check buffer_optimize std::string buffer_optimize = global_options.find(ge::ir_option::BUFFER_OPTIMIZE) == global_options.end() ? IR_OPTION_BUFFER_OPTIMIZE_DEFAULT : global_options[ge::ir_option::BUFFER_OPTIMIZE]; GE_CHK_BOOL_EXEC(ge::CheckBufferOptimizeParamValid(buffer_optimize) == ge::SUCCESS, - return ge::GRAPH_PARAM_INVALID, "check buffer optimize failed!"); + return ge::GRAPH_PARAM_INVALID, "[Check][BufferOptimize] failed!"); global_options[ge::ir_option::BUFFER_OPTIMIZE] = buffer_optimize; // check enable_single_stream std::string enable_single_stream = global_options.find(ge::ir_option::ENABLE_SINGLE_STREAM) == global_options.end() ? "" : global_options[ge::ir_option::ENABLE_SINGLE_STREAM]; GE_CHK_BOOL_EXEC(ge::CheckEnableSingleStreamParamValid(enable_single_stream) == ge::SUCCESS, - return ge::GRAPH_PARAM_INVALID, "check enable single stream failed!"); + return ge::GRAPH_PARAM_INVALID, "[Check][EnableSingleStream] failed!"); // check compress_weight std::string enable_compress_weight = global_options.find(ge::ir_option::ENABLE_COMPRESS_WEIGHT) == global_options.end() @@ -109,7 +109,7 @@ static graphStatus CheckGlobalOptions(std::map &global ? "" : global_options[ge::ir_option::COMPRESS_WEIGHT_CONF]; GE_CHK_BOOL_EXEC(ge::CheckCompressWeightParamValid(enable_compress_weight, compress_weight_conf) == ge::SUCCESS, - return ge::GRAPH_PARAM_INVALID, "check compress weight failed!"); + return ge::GRAPH_PARAM_INVALID, "[Check][CompressWeight] failed!"); global_options[ge::ir_option::ENABLE_COMPRESS_WEIGHT] = (enable_compress_weight == "true") ? ge::kEnableCompressWeightTrue : ge::kEnableCompressWeightFalse; @@ -124,7 +124,7 @@ static graphStatus CheckGlobalOptions(std::map &global : global_options[ge::ir_option::OP_SELECT_IMPL_MODE]; GE_CHK_BOOL_EXEC( ge::CheckImplmodeParamValid(optypelist_for_implmode, op_select_implmode) == ge::SUCCESS, - return ge::GRAPH_PARAM_INVALID, "check optypelist_for_implmode and op_select_implmode failed!"); + return ge::GRAPH_PARAM_INVALID, "[Check][Implmode] failed!"); global_options[ge::ir_option::OP_SELECT_IMPL_MODE] = op_select_implmode; // set precision mode default value @@ -144,7 +144,7 @@ static void GetOpsProtoPath(string &opsproto_path) { string path = path_env; string file_path = RealPath(path.c_str()); if (file_path.empty()) { - GELOGE(FAILED, "File path %s is invalid.", path.c_str()); + GELOGE(FAILED, "[Check][Path] %s is invalid.", path.c_str()); return; } opsproto_path = (path + "/op_proto/custom/" + ":") + (path + "/op_proto/built-in/"); @@ -172,7 +172,7 @@ graphStatus aclgrphBuildInitializeImpl(std::map &globa GELOGD("Enter aclgrphInitialize start!"); // check global options if (CheckGlobalOptions(global_options) != GRAPH_SUCCESS) { - GELOGE(GRAPH_PARAM_INVALID, "Check global options falied!"); + GELOGE(GRAPH_PARAM_INVALID, "[Check][Global Options] falied!"); return GRAPH_PARAM_INVALID; } @@ -186,7 +186,7 @@ graphStatus aclgrphBuildInitializeImpl(std::map &globa GELOGI("aclgrphInitialize start!"); auto ret = ge::GELib::Initialize(global_options); if (ret != ge::SUCCESS) { - GELOGE(ret, "GE initialize failed!"); + GELOGE(ret, "[Init][GELib] failed!"); return GRAPH_FAILED; } } @@ -211,7 +211,7 @@ graphStatus aclgrphBuildInitialize(std::map &global_ std::map tmp_global_options; for (auto &option : global_options) { if (option.first.GetString() == nullptr || option.second.GetString() == nullptr) { - GELOGE(GRAPH_FAILED, "AclgrphBuildInitialize option is nullptr."); + GELOGE(GRAPH_FAILED, "[Check][Options]AclgrphBuildInitialize option is nullptr."); return GRAPH_FAILED; } std::string key = option.first.GetString(); @@ -281,7 +281,7 @@ graphStatus Impl::InferShapePrepare(const ComputeGraphPtr &compute_graph) { auto ret = prepare_infershape.Run(compute_graph); if ((ret != SUCCESS) && (ret != NOT_CHANGED)) { - GELOGE(ret, "Prepair for infershape failed, ret:%d", ret); + GELOGE(ret, "[Prepair][InferShape] failed, ret:%d", ret); return ret; } GELOGD("Prepair for infershape success!"); @@ -297,12 +297,12 @@ graphStatus Impl::UpdateDataOpAttr(const Graph &graph) { vector>> user_shape_map; if (!input_shape.empty()) { GE_CHK_BOOL_EXEC(ParseInputShape(input_shape, shape_map, user_shape_map, true), - return GRAPH_PARAM_INVALID, "Parse input shape failed!"); + return GRAPH_PARAM_INVALID, "[Parse][InputShape] failed!"); } std::map>> shape_range_map; if (!input_shape_range.empty()) { GE_CHK_BOOL_EXEC(ParseInputShapeRange(input_shape_range, shape_range_map), - return GRAPH_PARAM_INVALID, "Parse input shape range failed."); + return GRAPH_PARAM_INVALID, "[Parse][InputShapeRange] failed."); } auto compute_graph = ge::GraphUtils::GetComputeGraph(graph); GE_CHECK_NOTNULL(compute_graph); @@ -312,13 +312,13 @@ graphStatus Impl::UpdateDataOpAttr(const Graph &graph) { GE_CHECK_NOTNULL(op); if (op->GetType() == DATA) { if (UpdateDataOpShape(op, shape_map) != SUCCESS) { - GELOGE(GRAPH_FAILED, "Update data op [%s] shape failed.", op->GetName().c_str()); + GELOGE(GRAPH_FAILED, "[Update][DataOpShape] fail for op:%s.", op->GetName().c_str()); return GRAPH_FAILED; } if (UpdateDataOpShapeRange(op, shape_range_map) != SUCCESS) { - GELOGE(GRAPH_FAILED, "Update data op [%s] shape range failed.", op->GetName().c_str()); + GELOGE(GRAPH_FAILED, "[Update][DataOpShapeRange] fail for op:%s.", op->GetName().c_str()); return GRAPH_FAILED; - } + } } } @@ -331,8 +331,8 @@ graphStatus Impl::CheckOptions(const std::map &options if (it == ge::ir_option::ir_builder_suppported_options.end()) { auto it_lx_fusion = ir_builder_supported_options_for_lx_fusion.find(ele.first); if (it_lx_fusion == ir_builder_supported_options_for_lx_fusion.end()) { - GELOGE(GRAPH_PARAM_INVALID, "input options include unsupported option(%s).Please check!", - ele.first.c_str()); + GELOGE(GRAPH_PARAM_INVALID, "[Check][Options] unsupported option(%s), Please check!", + ele.first.c_str()); return GRAPH_PARAM_INVALID; } } @@ -343,7 +343,7 @@ graphStatus Impl::CheckOptions(const std::map &options auto it = options_.find(BUILD_MODE); if (it != options_.end() && !(it->second.empty())) { if (build_mode_options.find(it->second) == build_mode_options.end()) { - GELOGE(GRAPH_PARAM_INVALID, "Build mode:%s is unsupported. Please check!", it->second.c_str()); + GELOGE(GRAPH_PARAM_INVALID, "[Check][BuildMode]:%s is unsupported. Please check!", it->second.c_str()); return GRAPH_PARAM_INVALID; } build_mode = it->second; @@ -351,12 +351,12 @@ graphStatus Impl::CheckOptions(const std::map &options it = options_.find(BUILD_STEP); if (it != options_.end() && !(it->second.empty())) { if (build_step_options.find(it->second) == build_step_options.end()) { - GELOGE(GRAPH_PARAM_INVALID, "Build step:%s is unsupported. Please check!", it->second.c_str()); + GELOGE(GRAPH_PARAM_INVALID, "[Check][BuildStep]:%s is unsupported. Please check!", it->second.c_str()); return GRAPH_PARAM_INVALID; } } else { if (build_mode == BUILD_MODE_TUNING) { - GELOGE(GRAPH_PARAM_INVALID, "Build mode tuning must specify build step. Please check!"); + GELOGE(GRAPH_PARAM_INVALID, "[Check][BuildMode] tuning must specify build step. Please check!"); return GRAPH_PARAM_INVALID; } } @@ -376,7 +376,7 @@ graphStatus Impl::Init(const Graph &graph, const std::map(string(IR_OPTION_MODE), to_string(0))); @@ -448,7 +448,7 @@ graphStatus Impl::Init(const Graph &graph, const std::mapsecond; } else { - GELOGE(GRAPH_PARAM_INVALID, "Input format %s not support , expect ND/NCHW/NHWC/CHWN/NC1HWC0/NHWC1C0.", + GELOGE(GRAPH_PARAM_INVALID, "[Check][Param:InputForamt] %s not support , expect ND/NCHW/NHWC/CHWN/NC1HWC0/NHWC1C0.", input_format.c_str()); return GRAPH_PARAM_INVALID; } @@ -564,7 +564,7 @@ graphStatus Impl::InitDomiOmgContext(const string &input_shape, const string &in } if (!ParseInputShape(input_shape, omg_context_.input_dims, omg_context_.user_input_dims, is_dynamic_input)) { - GELOGE(GRAPH_PARAM_INVALID, "Failed to parse input shape: %s", input_shape.c_str()); + GELOGE(GRAPH_PARAM_INVALID, "[Parse][InputShape:ImputShape] Failed, shape: %s", input_shape.c_str()); return GRAPH_PARAM_INVALID; } return GRAPH_SUCCESS; @@ -585,7 +585,7 @@ graphStatus aclgrphBuildModel(const ge::Graph &graph, const std::map tmp_build_options; for (auto &option : build_options) { if (option.first.GetString() == nullptr || option.second.GetString() == nullptr) { - GELOGE(GRAPH_FAILED, "AclgrphBuildInitialize option is nullptr."); + GELOGE(GRAPH_FAILED, "[Check][Options]AclgrphBuildInitialize option is nullptr."); return GRAPH_FAILED; } std::string key = option.first.GetString(); @@ -601,7 +601,7 @@ graphStatus aclgrphSaveModel(const string &output_file, const ModelBufferData &m ErrorManager::GetInstance().SetStage(ErrorMessage::kModelCompile, ErrorMessage::kOther); GELOGD("Enter aclmdlSaveModel process!"); if (model.data.get() == nullptr || model.length == 0) { - GELOGE(GRAPH_PARAM_INVALID, "input model is illegal"); + GELOGE(GRAPH_PARAM_INVALID, "[Check][ModelBufferData] model is illegal"); return GRAPH_PARAM_INVALID; } return FileSaver::SaveToFile((output_file + ".om"), reinterpret_cast(model.data.get()), @@ -612,11 +612,11 @@ graphStatus aclgrphSaveModel(const char *output_file, const ModelBufferData &mod ErrorManager::GetInstance().SetStage(ErrorMessage::kModelCompile, ErrorMessage::kOther); GELOGD("Enter aclmdlSaveModel process!"); if (model.data.get() == nullptr || model.length == 0) { - GELOGE(GRAPH_PARAM_INVALID, "Input model is illegal"); + GELOGE(GRAPH_PARAM_INVALID, "[Check][ModelBufferData]model is illegal"); return GRAPH_PARAM_INVALID; } if (output_file == nullptr) { - GELOGE(GRAPH_PARAM_INVALID, "Output file is nullptr."); + GELOGE(GRAPH_PARAM_INVALID, "[Check][OutputFile]file is nullptr."); return GRAPH_PARAM_INVALID; } std::string str_output_file = output_file; @@ -641,7 +641,7 @@ graphStatus aclgrphDumpGraph(const ge::Graph &graph, const char *file, const siz GE_CHECK_NOTNULL(file); if (len > PATH_MAX || len != strlen(file) || strlen(file) == 0) { - GELOGE(GRAPH_PARAM_INVALID, "File path invalid."); + GELOGE(GRAPH_PARAM_INVALID, "[Check][FilePath]file invalid."); return GRAPH_PARAM_INVALID; } @@ -675,7 +675,7 @@ graphStatus aclgrphDumpGraph(const ge::Graph &graph, const char *file, const siz char path[PATH_MAX] = {0}; if (realpath(file_path.c_str(), path) == nullptr) { - GELOGE(GRAPH_PARAM_INVALID, "Dump file path:%s is invalid.", file); + GELOGE(GRAPH_PARAM_INVALID, "[Check][DumpFile] path:%s is invalid.", file); return GRAPH_PARAM_INVALID; } @@ -710,7 +710,7 @@ graphStatus aclgrphGenerateForOp(const AscendString &op_type, const vectorAddInputDesc(tensor_desc) != ge::GRAPH_SUCCESS) { - GELOGE(ge::FAILED, "AddInputDesc fail."); + GELOGE(ge::FAILED, "[Add][InputDesc] fail."); return ge::FAILED; } input_tensors.emplace_back(tensor_desc); @@ -734,7 +734,7 @@ graphStatus aclgrphGenerateForOp(const AscendString &op_type, const vector(const_cast(content.c_str())), content.length()); if (ret == EN_ERROR) { - GELOGE(INTERNAL_ERROR, "write file fail, errno is %d", errno); + GELOGE(INTERNAL_ERROR, "[Write][File] errno is %d", errno); + REPORT_CALL_ERROR("E19999", "mmWrite failed. errno is %d", errno); ret = mmClose(fd); if (ret == EN_ERROR) { - GELOGE(INTERNAL_ERROR, "close file fail, error is %d", errno); + GELOGE(INTERNAL_ERROR, "[Close][File] error is %d", errno); + REPORT_CALL_ERROR("E19999", "mmClose failed. error is %d", errno); } return INTERNAL_ERROR; } ret = mmClose(fd); if (ret == EN_ERROR) { - GELOGE(INTERNAL_ERROR, "close file fail, error is %d", errno); + GELOGE(INTERNAL_ERROR, "[Close][File] error is %d", errno); + REPORT_CALL_ERROR("E19999", "mmClose failed. error is %d", errno); return INTERNAL_ERROR; } @@ -242,7 +252,8 @@ Status CsaInteract::MakePath(const std::string &file_name) { std::string pre_path = file_path.substr(0, found + 1); if (mmAccess(pre_path.c_str()) != EN_OK) { if (mmMkdir(pre_path.c_str(), M_IRWXU) != EN_OK) { - GELOGE(INTERNAL_ERROR, "csainteract mkdir fail, errno is %d", errno); + GELOGE(INTERNAL_ERROR, "[Create][FileDir] fail, errno is %d, pre_path:%s", errno, pre_path.c_str()); + REPORT_CALL_ERROR("E19999", "mmMkdir failed. errno is %d pre_path:%s", errno, pre_path.c_str()); return INTERNAL_ERROR; } } diff --git a/ge/opskernel_manager/ops_kernel_builder_manager.cc b/ge/opskernel_manager/ops_kernel_builder_manager.cc index 37bdcf7a..0a24d6a9 100644 --- a/ge/opskernel_manager/ops_kernel_builder_manager.cc +++ b/ge/opskernel_manager/ops_kernel_builder_manager.cc @@ -50,7 +50,8 @@ Status OpsKernelBuilderManager::Initialize(const map & GE_CHK_STATUS_RET_NOLOG(GetLibPaths(options, lib_paths)); plugin_manager_.reset(new (std::nothrow)PluginManager()); GE_CHECK_NOTNULL(plugin_manager_); - GE_CHK_STATUS_RET(plugin_manager_->LoadSo(lib_paths), "Failed to load libs"); + GE_CHK_STATUS_RET(plugin_manager_->LoadSo(lib_paths), + "[Load][Libs]Failed, lib_paths=%s.", lib_paths.c_str()); } auto &kernel_builders = OpsKernelBuilderRegistry::GetInstance().GetAll(); @@ -61,8 +62,7 @@ Status OpsKernelBuilderManager::Initialize(const map & GELOGI("Initialize ops kernel util for %s", kernel_lib_name.c_str()); GE_CHECK_NOTNULL(it.second); GE_CHK_STATUS_RET(it.second->Initialize(options), - "Failed to invoke Initialize, kernel lib name = %s", - kernel_lib_name.c_str()); + "[Invoke][Initialize]failed, kernel lib name = %s", kernel_lib_name.c_str()); ops_kernel_builders_.emplace(kernel_lib_name, it.second); } @@ -100,7 +100,8 @@ OpsKernelBuilderPtr OpsKernelBuilderManager::GetOpsKernelBuilder(const string &n return nullptr; } -Status OpsKernelBuilderManager::GetLibPaths(const std::map &options, std::string &lib_paths) { +Status OpsKernelBuilderManager::GetLibPaths(const std::map &options, std::string &lib_paths) { GELOGD("Start to execute GetLibPaths"); std::string path_base = PluginManager::GetPath(); std::string so_path = "plugin/opskernel/"; @@ -128,18 +129,17 @@ Status OpsKernelBuilderManager::CalcOpRunningParam(Node &node) const { const std::string &lib_name = op_desc->GetOpKernelLibName(); auto it = ops_kernel_builders_.find(lib_name); if (it == ops_kernel_builders_.end()) { - GELOGE(INTERNAL_ERROR, - "Failed to get OpKernelStore. libName = %s, node = %s", - lib_name.c_str(), - op_desc->GetName().c_str()); + GELOGE(INTERNAL_ERROR,"[Find][LibName] fail for libName = %s, node = %s.", + lib_name.c_str(), op_desc->GetName().c_str()); + REPORT_INNER_ERROR("E19999", + "find LibName for CalcOpRunningParam failed, libName = %s, node = %s not exist.", + lib_name.c_str(), op_desc->GetName().c_str()); return INTERNAL_ERROR; } GELOGD("To invoke CalcOpRunningParam, node = %s, lib name = %s", op_desc->GetName().c_str(), lib_name.c_str()); GE_CHK_STATUS_RET(it->second->CalcOpRunningParam(node), - "Failed to invoke CalcOpRunningParam, libName = %s, node = %s", - lib_name.c_str(), - op_desc->GetName().c_str()); + "[Invoke][CalcOpRunningParam]failed, libName = %s, node = %s", lib_name.c_str(), op_desc->GetName().c_str()); GELOGD("Done invoking CalcOpRunningParam successfully"); return SUCCESS; } @@ -152,20 +152,16 @@ Status OpsKernelBuilderManager::GenerateTask(const Node &node, const std::string &lib_name = op_desc->GetOpKernelLibName(); auto it = ops_kernel_builders_.find(lib_name); if (it == ops_kernel_builders_.end()) { - GELOGE(INTERNAL_ERROR, - "Failed to get OpKernelStore. libName = %s, node = %s", - lib_name.c_str(), - op_desc->GetName().c_str()); + GELOGE(INTERNAL_ERROR, "[Find][LibName]fail for libName = %s, node:%s", lib_name.c_str(), op_desc->GetName().c_str()); + REPORT_INNER_ERROR("E19999", "find LibName for GenerateTask failed, libName = %s, node = %s not exist", + lib_name.c_str(), op_desc->GetName().c_str()); return INTERNAL_ERROR; } GELOGD("To invoke GenerateTask, node = %s, lib name = %s", op_desc->GetName().c_str(), lib_name.c_str()); GE_CHK_STATUS_RET(it->second->GenerateTask(node, context, tasks), - "Failed to invoke GenerateTask, libName = %s, node = %s", - lib_name.c_str(), - op_desc->GetName().c_str()); + "[Invoke][GenerateTask]failed, libName = %s, node = %s", lib_name.c_str(), op_desc->GetName().c_str()); GELOGD("Done invoking GenerateTask successfully"); return SUCCESS; } - -} // namespace ge +} // namespace ge \ No newline at end of file diff --git a/ge/opskernel_manager/ops_kernel_manager.cc b/ge/opskernel_manager/ops_kernel_manager.cc index 30f39c0d..ae71fc92 100644 --- a/ge/opskernel_manager/ops_kernel_manager.cc +++ b/ge/opskernel_manager/ops_kernel_manager.cc @@ -56,7 +56,8 @@ Status OpsKernelManager::Initialize(const map &options_const) { std::map options(options_const); Status ret = InitPluginOptions(options); if (ret != SUCCESS) { - GELOGE(ret, "[OpsKernelManager] [Initialize] parse pluginFlag from ge options failed."); + GELOGE(ret, "[Init][PluginOptions] parse pluginFlag from ge options failed."); + REPORT_CALL_ERROR("E19999", "InitPluginOptions failed."); return ret; } @@ -85,7 +86,8 @@ Status OpsKernelManager::Initialize(const map &options_const) { initialize_ = options; Status rst0 = plugin_manager_.InvokeAll &, Status>(kInitialize, initialize_); if (rst0 == FAILED) { - GELOGE(GE_OPS_GET_NO_VALID_SO, "There is invalid so about OpsKernelInfoStore."); + GELOGE(GE_OPS_GET_NO_VALID_SO, "[Invoke][OpsKernelInfo]PluginManager InvokeAll failed."); + REPORT_INNER_ERROR("E19999", "PluginManager InvokeAll failed.") return GE_OPS_GET_NO_VALID_SO; } Status rst1 = @@ -114,18 +116,21 @@ Status OpsKernelManager::Initialize(const map &options_const) { } ret = InitGraphOptimizerPriority(); if ((ret != SUCCESS)) { - GELOGE(ret, "Init graph optimizer priority failed."); + GELOGE(ret, "[Init][GraphOptimizerPriority] failed."); + REPORT_CALL_ERROR("E19999", "InitGraphOptimizerPriority failed."); return ret; } init_flag_ = true; return SUCCESS; } else { - GELOGE(ret, "Failed to find any valid so file."); + GELOGE(ret, "[Check][SoFile] not find any valid so file."); + REPORT_INNER_ERROR("E19999", "OpsKernelManager::Initialize failed for not find any valid so file."); return ret; } } -void OpsKernelManager::GetExternalEnginePath(std::string &extern_engine_path, const std::map& options) { +void OpsKernelManager::GetExternalEnginePath(std::string &extern_engine_path, + const std::map& options) { GELOGI("Enter get external engine so path schedule"); const char *path_env = std::getenv("ASCEND_ENGINE_PATH"); if (path_env != nullptr) { @@ -175,21 +180,35 @@ Status OpsKernelManager::ParsePluginOptions(const map &options, } else if (flag == 1) { enable_flag = true; } else { - GELOGE(GE_GRAPH_OPTIONS_INVALID, "option_key:%s, its value %s is invalid, it must be 0 or 1.", - plugin_name.c_str(), iter->second.c_str()); + GELOGE(GE_GRAPH_OPTIONS_INVALID, + "[Parse][PluginOptions]option_key:%s, its value %s is invalid, it must be 0 or 1.", + plugin_name.c_str(), iter->second.c_str()); + REPORT_INNER_ERROR("E19999", "ParsePluginOptions failed, option_key:%s, " + "its value %s is invalid, it must be 0 or 1.", plugin_name.c_str(), iter->second.c_str()); return GE_GRAPH_OPTIONS_INVALID; } } catch (std::invalid_argument &) { - GELOGE(GE_GRAPH_OPTIONS_INVALID, "option_key:ge.feFlag, its value %s is invalid_argument, it must be 0 or 1.", - iter->second.c_str()); + GELOGE(GE_GRAPH_OPTIONS_INVALID, + "[Parse][PluginOptions] failed, option_key:ge.feFlag, its value %s is invalid_argument, it must be 0 or 1.", + iter->second.c_str()); + REPORT_INNER_ERROR("E19999", + "ParsePluginOptions failed, option_key:ge.feFlag, its value %s is invalid_argument, it must be 0 or 1.", + iter->second.c_str()); return GE_GRAPH_OPTIONS_INVALID; } catch (std::out_of_range &) { - GELOGE(GE_GRAPH_OPTIONS_INVALID, "option_key:ge.feFlag, its value %s is out of range, it must be 0 or 1.", - iter->second.c_str()); + GELOGE(GE_GRAPH_OPTIONS_INVALID, + "[Parse][PluginOptions]failed, option_key:ge.feFlag, its value %s is out of range, it must be 0 or 1.", + iter->second.c_str()); + REPORT_INNER_ERROR("E19999", + "ParsePluginOptions failed, option_key:ge.feFlag, its value %s is out of range, it must be 0 or 1.", + iter->second.c_str()); return GE_GRAPH_OPTIONS_INVALID; } catch (...) { - GELOGE(GE_GRAPH_OPTIONS_INVALID, "option_key:%s, its value %s is invalid, it must be 0 or 1.", - plugin_name.c_str(), iter->second.c_str()); + GELOGE(GE_GRAPH_OPTIONS_INVALID, + "[Parse][PluginOptions]option_key:%s, its value %s is invalid, it must be 0 or 1.", + plugin_name.c_str(), iter->second.c_str()); + REPORT_INNER_ERROR("E19999", "ParsePluginOptions failed, option_key:%s, " + "its value %s is invalid, it must be 0 or 1.", plugin_name.c_str(), iter->second.c_str()); return GE_GRAPH_OPTIONS_INVALID; } } else { @@ -203,13 +222,15 @@ Status OpsKernelManager::ParsePluginOptions(const map &options, Status OpsKernelManager::CheckPluginPtr() const { for (auto iter = ops_kernel_store_.begin(); iter != ops_kernel_store_.end(); ++iter) { if (iter->second == nullptr) { - GELOGE(INTERNAL_ERROR, "CheckPluginPtr OpsKernelInfoStorePtr is null"); + GELOGE(INTERNAL_ERROR, "[Check][PluginPtr] OpsKernelInfoStorePtr key=%s is null", iter->first.c_str()); + REPORT_INNER_ERROR("E19999", "CheckPluginPtr OpsKernelInfoStorePtr key=%s is null", iter->first.c_str()); return FAILED; } } for (auto iter1 = graph_optimizers_.begin(); iter1 != graph_optimizers_.end(); ++iter1) { if (iter1->second == nullptr) { - GELOGE(INTERNAL_ERROR, "CheckPluginPtr GraphOptimizerPtr is null"); + GELOGE(INTERNAL_ERROR, "[Check][PluginPtr] GraphOptimizerPtr key=%s is null", iter1->first.c_str()); + REPORT_INNER_ERROR("E19999", "GraphOptimizerPtr key=%s is null", iter1->first.c_str()); return FAILED; } } @@ -222,7 +243,9 @@ Status OpsKernelManager::InitOpKernelInfoStores(const map &optio GELOGI("OpKernelInfoStore name: %s.", (it.first).c_str()); Status ret = it.second->Initialize(options); if (ret != SUCCESS) { - GELOGE(GE_OPS_KERNEL_STORE_INIT_FAILED, "OpKernelInfoStore: %s initialize failed.", (it.first).c_str()); + GELOGE(GE_OPS_KERNEL_STORE_INIT_FAILED, + "[Init][OpKernelLib]OpKernelInfoStore: %s initialize failed.", (it.first).c_str()); + REPORT_CALL_ERROR("E19999", "OpKernelInfoStore: %s initialize failed.", (it.first).c_str()); return GE_OPS_KERNEL_STORE_INIT_FAILED; } } @@ -247,7 +270,8 @@ void OpsKernelManager::InitOpsKernelInfo() { } std::shared_ptr instance_ptr = ge::GELib::GetInstance(); if (instance_ptr == nullptr) { - GELOGE(GE_CLI_GE_NOT_INITIALIZED, "InitOpsKernelInfo failed."); + GELOGE(GE_CLI_GE_NOT_INITIALIZED, "[Get][GELib]malloc instance_ptr failed."); + REPORT_INNER_ERROR("E19999", "InitOpsKernelInfo failed for new GELib."); return; } // sort opinfo of ops_kernel_info_ @@ -291,7 +315,8 @@ Status OpsKernelManager::InitGraphOptimzers(const map &options) GE_CHK_STATUS_RET(it.second->GetAttributes(attrs)) std::shared_ptr instance_ptr = ge::GELib::GetInstance(); if (instance_ptr == nullptr) { - GELOGE(GE_CLI_GE_NOT_INITIALIZED, "InitGraphOptimzers failed."); + GELOGE(GE_CLI_GE_NOT_INITIALIZED, "[Get][GELib]malloc instance_ptr failed."); + REPORT_INNER_ERROR("E19999", "InitGraphOptimzers failed for new GELib."); return GE_CLI_GE_NOT_INITIALIZED; } if (!instance_ptr->DNNEngineManagerObj().IsEngineRegistered(attrs.engineName)) { @@ -300,7 +325,9 @@ Status OpsKernelManager::InitGraphOptimzers(const map &options) } Status ret = it.second->Initialize(options); if (ret != SUCCESS) { - GELOGE(GE_OPS_GRAPH_OPTIMIZER_INIT_FAILED, "GraphOptimzer: %s initialize failed.", (it.first).c_str()); + GELOGE(GE_OPS_GRAPH_OPTIMIZER_INIT_FAILED, + "[Init][GraphOptimzer]GraphOptimzer: %s initialize failed.", (it.first).c_str()); + REPORT_CALL_ERROR("E19999", "InitGraphOptimzers failed. %s initialize failed.", (it.first).c_str()); return GE_OPS_GRAPH_OPTIMIZER_INIT_FAILED; } } @@ -317,7 +344,8 @@ Status OpsKernelManager::Finalize() { GELOGI("OpsKernelStore finalize, name: %s.", (iter->first).c_str()); Status status = iter->second->Finalize(); if (SUCCESS != status) { - GELOGE(status, "OpsKernelStore finalize failed, name: %s.", (iter->first).c_str()); + GELOGE(status, "[Check][Status]OpsKernelStore finalize failed, name: %s.", (iter->first).c_str()); + REPORT_CALL_ERROR("E19999", "OpsKernelStore finalize failed, name: %s.", (iter->first).c_str()); return status; } } @@ -325,14 +353,16 @@ Status OpsKernelManager::Finalize() { GELOGI("GraphOptimzers finalize, name: %s.", (iter->first).c_str()); Status status = iter->second->Finalize(); if (status != SUCCESS) { - GELOGE(status, "GraphOptimzers finalize failed, name: %s.", (iter->first).c_str()); + GELOGE(status, "[Check][Status]GraphOptimzers finalize failed, name: %s.", (iter->first).c_str()); + REPORT_CALL_ERROR("E19999", "GraphOptimzers finalize failed, name: %s.", (iter->first).c_str()); return status; } } Status ret = FinalizeOpsKernel(); if (ret != SUCCESS) { - GELOGE(ret, "free ops kernel resource failed."); + GELOGE(ret, "[Free][Ops Kernel Resource] failed."); + REPORT_CALL_ERROR("E19999", "FinalizeOpsKernel failed, Free Ops kernel resource failed."); return ret; } @@ -443,7 +473,8 @@ Status OpsKernelManager::FinalizeOpsKernel() { GELOGI("ge invoke ops kernal finalize."); Status ret = plugin_manager_.InvokeAll(kFinalize); if (ret != SUCCESS) { - GELOGE(ret, "[Finalize] invoke Fe finalize failed."); + GELOGE(ret, "[Finalize][Check][Status] invoke Fe finalize failed."); + REPORT_INNER_ERROR("E19999", "PluginManager InvokeAll failed."); return ret; } diff --git a/ge/plugin/engine/engine_manage.cc b/ge/plugin/engine/engine_manage.cc index a14c92ea..9615672f 100644 --- a/ge/plugin/engine/engine_manage.cc +++ b/ge/plugin/engine/engine_manage.cc @@ -21,6 +21,7 @@ #include #include "common/ge/ge_util.h" +#include "securec.h" #include "framework/common/debug/ge_log.h" #include "plugin/engine/dnnengines.h" @@ -29,7 +30,8 @@ std::unique_ptr> EngineManager::engine_map_; Status EngineManager::RegisterEngine(const std::string &engine_name, DNNEnginePtr engine_ptr) { if (engine_ptr == nullptr) { - GELOGE(FAILED, "enginePtr is nullptr"); + GELOGE(FAILED, "[Register][Engine] failed, as input engine_ptr is nullptr"); + REPORT_INNER_ERROR("E19999", "RegisterEngine failed for input engine_ptr is nullptr."); return FAILED; } @@ -64,7 +66,8 @@ void RegisterAiCoreEngine() { DNNEngineAttribute attr_aicore = {ai_core, mem_type_aicore, COST_0, DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr aicore_engine_ptr = MakeShared(attr_aicore); if (aicore_engine_ptr == nullptr) { - GELOGE(ge::FAILED, "make aiCoreEnginePtr failed"); + GELOGE(ge::FAILED, "[Register][AiCoreEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterAiCoreEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(ai_core, aicore_engine_ptr) != SUCCESS) { @@ -80,7 +83,8 @@ void RegisterVectorEngine() { DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr vectorcore_engine_ptr = MakeShared(attr_vector_core); if (vectorcore_engine_ptr == nullptr) { - GELOGE(ge::FAILED, "make vectorCoreEnginePtr failed"); + GELOGE(ge::FAILED, "[Register][VectorEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterVectorEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(vector_core, vectorcore_engine_ptr) != SUCCESS) { @@ -95,7 +99,8 @@ void RegisterAiCpuEngine() { DNNEngineAttribute attr_aicpu = {vm_aicpu, mem_type_aicpu, COST_3, DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr vm_engine_ptr = MakeShared(attr_aicpu); if (vm_engine_ptr == nullptr) { - GELOGE(ge::FAILED, "make vm_engine_ptr failed"); + GELOGE(ge::FAILED, "[Register][AiCpuEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterAiCpuEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(vm_aicpu, vm_engine_ptr) != SUCCESS) { @@ -110,7 +115,8 @@ void RegisterAiCpuTFEngine() { DNNEngineAttribute attr_aicpu_tf = {vm_aicpu_tf, mem_type_aicpu_tf, COST_2, DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr vm_engine_ptr = MakeShared(attr_aicpu_tf); if (vm_engine_ptr == nullptr) { - GELOGE(ge::FAILED, "make vm_engine_ptr failed"); + GELOGE(ge::FAILED, "[Register][AiCpuTFEngine]make vm_engine_ptr failed"); + REPORT_INNER_ERROR("E19999", "RegisterAiCpuTFEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(vm_aicpu_tf, vm_engine_ptr) != SUCCESS) { @@ -126,7 +132,8 @@ void RegisterGeLocalEngine() { DNNEngineAttribute attr_ge_local = {vm_ge_local, mem_type_ge_local, COST_9, DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr ge_local_engine = MakeShared(attr_ge_local); if (ge_local_engine == nullptr) { - GELOGE(ge::FAILED, "make ge_local_engine failed"); + GELOGE(ge::FAILED, "[Register][GeLocalEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterGeLocalEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(vm_ge_local, ge_local_engine) != SUCCESS) { @@ -139,10 +146,12 @@ void RegisterHostCpuEngine() { std::vector mem_type_host_cpu; mem_type_host_cpu.emplace_back(GE_ENGINE_ATTR_MEM_TYPE_HBM); // HostCpu use minimum priority, set it as 10 - DNNEngineAttribute attr_host_cpu = {vm_host_cpu, mem_type_host_cpu, COST_10, HOST, FORMAT_RESERVED, FORMAT_RESERVED}; + DNNEngineAttribute attr_host_cpu = {vm_host_cpu, mem_type_host_cpu, COST_10, + HOST, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr host_cpu_engine = MakeShared(attr_host_cpu); if (host_cpu_engine == nullptr) { - GELOGE(ge::FAILED, "make host_cpu_engine failed"); + GELOGE(ge::FAILED, "[Register][HostCpuEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterHostCpuEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(vm_host_cpu, host_cpu_engine) != SUCCESS) { @@ -157,7 +166,8 @@ void RegisterRtsEngine() { DNNEngineAttribute attr_rts = {vm_rts, mem_type_rts, COST_1, DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr rts_engine = MakeShared(attr_rts); if (rts_engine == nullptr) { - GELOGE(ge::FAILED, "make rts_engine failed"); + GELOGE(ge::FAILED, "[Register][RtsEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterRtsEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(vm_rts, rts_engine) != SUCCESS) { @@ -172,7 +182,8 @@ void RegisterHcclEngine() { DNNEngineAttribute attr_hccl = {dnn_hccl, mem_type_hccl, COST_1, DEVICE, FORMAT_RESERVED, FORMAT_RESERVED}; DNNEnginePtr hccl_engine = MakeShared(attr_hccl); if (hccl_engine == nullptr) { - GELOGE(ge::FAILED, "make hccl_engine failed"); + GELOGE(ge::FAILED, "[Register][HcclEngine] failed, as malloc shared_ptr failed."); + REPORT_INNER_ERROR("E19999", "RegisterHcclEngine failed for new DNNEnginePtr failed."); return; } if (EngineManager::RegisterEngine(dnn_hccl, hccl_engine) != SUCCESS) {