/* * Copyright (C) 2019-2021 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "sysman/sysman.h" ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceGetProperties( zes_device_handle_t hDevice, zes_device_properties_t *pProperties) { return L0::SysmanDevice::fromHandle(hDevice)->deviceGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceGetState( zes_device_handle_t hDevice, zes_device_state_t *pState) { return L0::SysmanDevice::fromHandle(hDevice)->deviceGetState(pState); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumSchedulers( zes_device_handle_t hDevice, uint32_t *pCount, zes_sched_handle_t *phScheduler) { return L0::SysmanDevice::fromHandle(hDevice)->schedulerGet(pCount, phScheduler); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerGetProperties( zes_sched_handle_t hScheduler, zes_sched_properties_t *pProperties) { return L0::Scheduler::fromHandle(hScheduler)->schedulerGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerGetCurrentMode( zes_sched_handle_t hScheduler, zes_sched_mode_t *pMode) { return L0::Scheduler::fromHandle(hScheduler)->getCurrentMode(pMode); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerGetTimeoutModeProperties( zes_sched_handle_t hScheduler, ze_bool_t getDefaults, zes_sched_timeout_properties_t *pConfig) { return L0::Scheduler::fromHandle(hScheduler)->getTimeoutModeProperties(getDefaults, pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerGetTimesliceModeProperties( zes_sched_handle_t hScheduler, ze_bool_t getDefaults, zes_sched_timeslice_properties_t *pConfig) { return L0::Scheduler::fromHandle(hScheduler)->getTimesliceModeProperties(getDefaults, pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerSetTimeoutMode( zes_sched_handle_t hScheduler, zes_sched_timeout_properties_t *pProperties, ze_bool_t *pNeedReload) { return L0::Scheduler::fromHandle(hScheduler)->setTimeoutMode(pProperties, pNeedReload); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerSetTimesliceMode( zes_sched_handle_t hScheduler, zes_sched_timeslice_properties_t *pProperties, ze_bool_t *pNeedReload) { return L0::Scheduler::fromHandle(hScheduler)->setTimesliceMode(pProperties, pNeedReload); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerSetExclusiveMode( zes_sched_handle_t hScheduler, ze_bool_t *pNeedReload) { return L0::Scheduler::fromHandle(hScheduler)->setExclusiveMode(pNeedReload); } ZE_APIEXPORT ze_result_t ZE_APICALL zesSchedulerSetComputeUnitDebugMode( zes_sched_handle_t hScheduler, ze_bool_t *pNeedReload) { return L0::Scheduler::fromHandle(hScheduler)->setComputeUnitDebugMode(pNeedReload); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceProcessesGetState( zes_device_handle_t hDevice, uint32_t *pCount, zes_process_state_t *pProcesses) { return L0::SysmanDevice::fromHandle(hDevice)->processesGetState(pCount, pProcesses); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceReset( zes_device_handle_t hDevice, ze_bool_t force) { return L0::SysmanDevice::fromHandle(hDevice)->deviceReset(force); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDevicePciGetProperties( zes_device_handle_t hDevice, zes_pci_properties_t *pProperties) { return L0::SysmanDevice::fromHandle(hDevice)->pciGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDevicePciGetState( zes_device_handle_t hDevice, zes_pci_state_t *pState) { return L0::SysmanDevice::fromHandle(hDevice)->pciGetState(pState); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDevicePciGetBars( zes_device_handle_t hDevice, uint32_t *pCount, zes_pci_bar_properties_t *pProperties) { return L0::SysmanDevice::fromHandle(hDevice)->pciGetBars(pCount, pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDevicePciGetStats( zes_device_handle_t hDevice, zes_pci_stats_t *pStats) { return L0::SysmanDevice::fromHandle(hDevice)->pciGetStats(pStats); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumPowerDomains( zes_device_handle_t hDevice, uint32_t *pCount, zes_pwr_handle_t *phPower) { return L0::SysmanDevice::fromHandle(hDevice)->powerGet(pCount, phPower); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPowerGetProperties( zes_pwr_handle_t hPower, zes_power_properties_t *pProperties) { return L0::Power::fromHandle(hPower)->powerGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPowerGetEnergyCounter( zes_pwr_handle_t hPower, zes_power_energy_counter_t *pEnergy) { return L0::Power::fromHandle(hPower)->powerGetEnergyCounter(pEnergy); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPowerGetLimits( zes_pwr_handle_t hPower, zes_power_sustained_limit_t *pSustained, zes_power_burst_limit_t *pBurst, zes_power_peak_limit_t *pPeak) { return L0::Power::fromHandle(hPower)->powerGetLimits(pSustained, pBurst, pPeak); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPowerSetLimits( zes_pwr_handle_t hPower, const zes_power_sustained_limit_t *pSustained, const zes_power_burst_limit_t *pBurst, const zes_power_peak_limit_t *pPeak) { return L0::Power::fromHandle(hPower)->powerSetLimits(pSustained, pBurst, pPeak); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPowerGetEnergyThreshold( zes_pwr_handle_t hPower, zes_energy_threshold_t *pThreshold) { return L0::Power::fromHandle(hPower)->powerGetEnergyThreshold(pThreshold); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPowerSetEnergyThreshold( zes_pwr_handle_t hPower, double threshold) { return L0::Power::fromHandle(hPower)->powerSetEnergyThreshold(threshold); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumFrequencyDomains( zes_device_handle_t hDevice, uint32_t *pCount, zes_freq_handle_t *phFrequency) { return L0::SysmanDevice::fromHandle(hDevice)->frequencyGet(pCount, phFrequency); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyGetProperties( zes_freq_handle_t hFrequency, zes_freq_properties_t *pProperties) { return L0::Frequency::fromHandle(hFrequency)->frequencyGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyGetAvailableClocks( zes_freq_handle_t hFrequency, uint32_t *pCount, double *phFrequency) { return L0::Frequency::fromHandle(hFrequency)->frequencyGetAvailableClocks(pCount, phFrequency); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyGetRange( zes_freq_handle_t hFrequency, zes_freq_range_t *pLimits) { return L0::Frequency::fromHandle(hFrequency)->frequencyGetRange(pLimits); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencySetRange( zes_freq_handle_t hFrequency, const zes_freq_range_t *pLimits) { return L0::Frequency::fromHandle(hFrequency)->frequencySetRange(pLimits); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyGetState( zes_freq_handle_t hFrequency, zes_freq_state_t *pState) { return L0::Frequency::fromHandle(hFrequency)->frequencyGetState(pState); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyGetThrottleTime( zes_freq_handle_t hFrequency, zes_freq_throttle_time_t *pThrottleTime) { return L0::Frequency::fromHandle(hFrequency)->frequencyGetThrottleTime(pThrottleTime); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcGetFrequencyTarget( zes_freq_handle_t hFrequency, double *pCurrentOcFrequency) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcGetFrequencyTarget(pCurrentOcFrequency); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcSetFrequencyTarget( zes_freq_handle_t hFrequency, double currentOcFrequency) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcSetFrequencyTarget(currentOcFrequency); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcGetVoltageTarget( zes_freq_handle_t hFrequency, double *pCurrentVoltageTarget, double *pCurrentVoltageOffset) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcGetVoltageTarget(pCurrentVoltageTarget, pCurrentVoltageOffset); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcSetVoltageTarget( zes_freq_handle_t hFrequency, double currentVoltageTarget, double currentVoltageOffset) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcSetVoltageTarget(currentVoltageTarget, currentVoltageOffset); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcSetMode( zes_freq_handle_t hFrequency, zes_oc_mode_t currentOcMode) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcSetMode(currentOcMode); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcGetMode( zes_freq_handle_t hFrequency, zes_oc_mode_t *pCurrentOcMode) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcGetMode(pCurrentOcMode); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcGetCapabilities( zes_freq_handle_t hFrequency, zes_oc_capabilities_t *pOcCapabilities) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcGetCapabilities(pOcCapabilities); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcGetIccMax( zes_freq_handle_t hFrequency, double *pOcIccMax) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcGetIccMax(pOcIccMax); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcSetIccMax( zes_freq_handle_t hFrequency, double ocIccMax) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcSetIccMax(ocIccMax); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcGetTjMax( zes_freq_handle_t hFrequency, double *pOcTjMax) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcGeTjMax(pOcTjMax); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFrequencyOcSetTjMax( zes_freq_handle_t hFrequency, double ocTjMax) { return L0::Frequency::fromHandle(hFrequency)->frequencyOcSetTjMax(ocTjMax); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumEngineGroups( zes_device_handle_t hDevice, uint32_t *pCount, zes_engine_handle_t *phEngine) { return L0::SysmanDevice::fromHandle(hDevice)->engineGet(pCount, phEngine); } ZE_APIEXPORT ze_result_t ZE_APICALL zesEngineGetProperties( zes_engine_handle_t hEngine, zes_engine_properties_t *pProperties) { return L0::Engine::fromHandle(hEngine)->engineGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesEngineGetActivity( zes_engine_handle_t hEngine, zes_engine_stats_t *pStats) { return L0::Engine::fromHandle(hEngine)->engineGetActivity(pStats); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumStandbyDomains( zes_device_handle_t hDevice, uint32_t *pCount, zes_standby_handle_t *phStandby) { return L0::SysmanDevice::fromHandle(hDevice)->standbyGet(pCount, phStandby); } ZE_APIEXPORT ze_result_t ZE_APICALL zesStandbyGetProperties( zes_standby_handle_t hStandby, zes_standby_properties_t *pProperties) { return L0::Standby::fromHandle(hStandby)->standbyGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesStandbyGetMode( zes_standby_handle_t hStandby, zes_standby_promo_mode_t *pMode) { return L0::Standby::fromHandle(hStandby)->standbyGetMode(pMode); } ZE_APIEXPORT ze_result_t ZE_APICALL zesStandbySetMode( zes_standby_handle_t hStandby, zes_standby_promo_mode_t mode) { return L0::Standby::fromHandle(hStandby)->standbySetMode(mode); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumFirmwares( zes_device_handle_t hDevice, uint32_t *pCount, zes_firmware_handle_t *phFirmware) { return L0::SysmanDevice::fromHandle(hDevice)->firmwareGet(pCount, phFirmware); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFirmwareGetProperties( zes_firmware_handle_t hFirmware, zes_firmware_properties_t *pProperties) { return L0::Firmware::fromHandle(hFirmware)->firmwareGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFirmwareFlash( zes_firmware_handle_t hFirmware, void *pImage, uint32_t size) { return L0::Firmware::fromHandle(hFirmware)->firmwareFlash(pImage, size); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumMemoryModules( zes_device_handle_t hDevice, uint32_t *pCount, zes_mem_handle_t *phMemory) { return L0::SysmanDevice::fromHandle(hDevice)->memoryGet(pCount, phMemory); } ZE_APIEXPORT ze_result_t ZE_APICALL zesMemoryGetProperties( zes_mem_handle_t hMemory, zes_mem_properties_t *pProperties) { return L0::Memory::fromHandle(hMemory)->memoryGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesMemoryGetState( zes_mem_handle_t hMemory, zes_mem_state_t *pState) { return L0::Memory::fromHandle(hMemory)->memoryGetState(pState); } ZE_APIEXPORT ze_result_t ZE_APICALL zesMemoryGetBandwidth( zes_mem_handle_t hMemory, zes_mem_bandwidth_t *pBandwidth) { return L0::Memory::fromHandle(hMemory)->memoryGetBandwidth(pBandwidth); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumFabricPorts( zes_device_handle_t hDevice, uint32_t *pCount, zes_fabric_port_handle_t *phPort) { return L0::SysmanDevice::fromHandle(hDevice)->fabricPortGet(pCount, phPort); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFabricPortGetProperties( zes_fabric_port_handle_t hPort, zes_fabric_port_properties_t *pProperties) { return L0::FabricPort::fromHandle(hPort)->fabricPortGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFabricPortGetLinkType( zes_fabric_port_handle_t hPort, zes_fabric_link_type_t *pLinkType) { return L0::FabricPort::fromHandle(hPort)->fabricPortGetLinkType(pLinkType); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFabricPortGetConfig( zes_fabric_port_handle_t hPort, zes_fabric_port_config_t *pConfig) { return L0::FabricPort::fromHandle(hPort)->fabricPortGetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFabricPortSetConfig( zes_fabric_port_handle_t hPort, const zes_fabric_port_config_t *pConfig) { return L0::FabricPort::fromHandle(hPort)->fabricPortSetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFabricPortGetState( zes_fabric_port_handle_t hPort, zes_fabric_port_state_t *pState) { return L0::FabricPort::fromHandle(hPort)->fabricPortGetState(pState); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFabricPortGetThroughput( zes_fabric_port_handle_t hPort, zes_fabric_port_throughput_t *pThroughput) { return L0::FabricPort::fromHandle(hPort)->fabricPortGetThroughput(pThroughput); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumTemperatureSensors( zes_device_handle_t hDevice, uint32_t *pCount, zes_temp_handle_t *phTemperature) { return L0::SysmanDevice::fromHandle(hDevice)->temperatureGet(pCount, phTemperature); } ZE_APIEXPORT ze_result_t ZE_APICALL zesTemperatureGetProperties( zes_temp_handle_t hTemperature, zes_temp_properties_t *pProperties) { return L0::Temperature::fromHandle(hTemperature)->temperatureGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesTemperatureGetConfig( zes_temp_handle_t hTemperature, zes_temp_config_t *pConfig) { return L0::Temperature::fromHandle(hTemperature)->temperatureGetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesTemperatureSetConfig( zes_temp_handle_t hTemperature, const zes_temp_config_t *pConfig) { return L0::Temperature::fromHandle(hTemperature)->temperatureSetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesTemperatureGetState( zes_temp_handle_t hTemperature, double *pTemperature) { return L0::Temperature::fromHandle(hTemperature)->temperatureGetState(pTemperature); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumPsus( zes_device_handle_t hDevice, uint32_t *pCount, zes_psu_handle_t *phPsu) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesPsuGetProperties( zes_psu_handle_t hPsu, zes_psu_properties_t *pProperties) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesPsuGetState( zes_psu_handle_t hPsu, zes_psu_state_t *pState) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumFans( zes_device_handle_t hDevice, uint32_t *pCount, zes_fan_handle_t *phFan) { return L0::SysmanDevice::fromHandle(hDevice)->fanGet(pCount, phFan); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFanGetProperties( zes_fan_handle_t hFan, zes_fan_properties_t *pProperties) { return L0::Fan::fromHandle(hFan)->fanGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFanGetConfig( zes_fan_handle_t hFan, zes_fan_config_t *pConfig) { return L0::Fan::fromHandle(hFan)->fanGetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFanSetDefaultMode( zes_fan_handle_t hFan) { return L0::Fan::fromHandle(hFan)->fanSetDefaultMode(); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFanSetFixedSpeedMode( zes_fan_handle_t hFan, const zes_fan_speed_t *speed) { return L0::Fan::fromHandle(hFan)->fanSetFixedSpeedMode(speed); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFanSetSpeedTableMode( zes_fan_handle_t hFan, const zes_fan_speed_table_t *speedTable) { return L0::Fan::fromHandle(hFan)->fanSetSpeedTableMode(speedTable); } ZE_APIEXPORT ze_result_t ZE_APICALL zesFanGetState( zes_fan_handle_t hFan, zes_fan_speed_units_t units, int32_t *pSpeed) { return L0::Fan::fromHandle(hFan)->fanGetState(units, pSpeed); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumLeds( zes_device_handle_t hDevice, uint32_t *pCount, zes_led_handle_t *phLed) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesLedGetProperties( zes_led_handle_t hLed, zes_led_properties_t *pProperties) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesLedGetState( zes_led_handle_t hLed, zes_led_state_t *pState) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesLedSetState( zes_led_handle_t hLed, ze_bool_t enable) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesLedSetColor( zes_led_handle_t hLed, const zes_led_color_t *pColor) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumRasErrorSets( zes_device_handle_t hDevice, uint32_t *pCount, zes_ras_handle_t *phRas) { return L0::SysmanDevice::fromHandle(hDevice)->rasGet(pCount, phRas); } ZE_APIEXPORT ze_result_t ZE_APICALL zesRasGetProperties( zes_ras_handle_t hRas, zes_ras_properties_t *pProperties) { return L0::Ras::fromHandle(hRas)->rasGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesRasGetConfig( zes_ras_handle_t hRas, zes_ras_config_t *pConfig) { return L0::Ras::fromHandle(hRas)->rasGetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesRasSetConfig( zes_ras_handle_t hRas, const zes_ras_config_t *pConfig) { return L0::Ras::fromHandle(hRas)->rasSetConfig(pConfig); } ZE_APIEXPORT ze_result_t ZE_APICALL zesRasGetState( zes_ras_handle_t hRas, ze_bool_t clear, zes_ras_state_t *pState) { return L0::Ras::fromHandle(hRas)->rasGetState(pState, clear); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEventRegister( zes_device_handle_t hDevice, zes_event_type_flags_t events) { return L0::SysmanDevice::fromHandle(hDevice)->deviceEventRegister(events); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDriverEventListen( ze_driver_handle_t hDriver, uint32_t timeout, uint32_t count, zes_device_handle_t *phDevices, uint32_t *pNumDeviceEvents, zes_event_type_flags_t *pEvents) { return L0::DriverHandle::fromHandle(hDriver)->sysmanEventsListen(timeout, count, phDevices, pNumDeviceEvents, pEvents); } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumDiagnosticTestSuites( zes_device_handle_t hDevice, uint32_t *pCount, zes_diag_handle_t *phDiagnostics) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesDiagnosticsGetProperties( zes_diag_handle_t hDiagnostics, zes_diag_properties_t *pProperties) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesDiagnosticsGetTests( zes_diag_handle_t hDiagnostics, uint32_t *pCount, zes_diag_test_t *pTests) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesDiagnosticsRunTests( zes_diag_handle_t hDiagnostics, uint32_t start, uint32_t end, zes_diag_result_t *pResult) { return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE; } ZE_APIEXPORT ze_result_t ZE_APICALL zesDeviceEnumPerformanceFactorDomains( zes_device_handle_t hDevice, uint32_t *pCount, zes_perf_handle_t *phPerf) { return L0::SysmanDevice::fromHandle(hDevice)->performanceGet(pCount, phPerf); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPerformanceFactorGetProperties( zes_perf_handle_t hPerf, zes_perf_properties_t *pProperties) { return L0::Performance::fromHandle(hPerf)->performanceGetProperties(pProperties); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPerformanceFactorGetConfig( zes_perf_handle_t hPerf, double *pFactor) { return L0::Performance::fromHandle(hPerf)->performanceGetConfig(pFactor); } ZE_APIEXPORT ze_result_t ZE_APICALL zesPerformanceFactorSetConfig( zes_perf_handle_t hPerf, double factor) { return L0::Performance::fromHandle(hPerf)->performanceSetConfig(factor); }