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/*
* Copyright (C) 2020-2025 Intel Corporation
*
* SPDX-License-Identifier: MIT
*
*/
#include "level_zero/tools/source/sysman/sysman_imp.h"
#include "shared/source/device/sub_device.h"
#include "shared/source/helpers/basic_math.h"
#include "shared/source/helpers/gfx_core_helper.h"
#include "shared/source/helpers/hw_info.h"
#include "level_zero/tools/source/sysman/ecc/ecc_imp.h"
#include "level_zero/tools/source/sysman/events/events_imp.h"
#include "level_zero/tools/source/sysman/global_operations/global_operations_imp.h"
#include "level_zero/tools/source/sysman/pci/pci_imp.h"
#include "level_zero/tools/source/sysman/vf_management/vf_management.h"
#include <vector>
namespace L0 {
SysmanDeviceImp::SysmanDeviceImp(ze_device_handle_t hDevice) {
hCoreDevice = hDevice;
pOsSysman = OsSysman::create(this);
UNRECOVERABLE_IF(nullptr == pOsSysman);
pPci = new PciImp(pOsSysman);
pPowerHandleContext = new PowerHandleContext(pOsSysman);
pFrequencyHandleContext = new FrequencyHandleContext(pOsSysman);
pFabricPortHandleContext = new FabricPortHandleContext(pOsSysman);
pTempHandleContext = new TemperatureHandleContext(pOsSysman);
pStandbyHandleContext = new StandbyHandleContext(pOsSysman);
pEngineHandleContext = new EngineHandleContext(pOsSysman);
pSchedulerHandleContext = new SchedulerHandleContext(pOsSysman);
pRasHandleContext = new RasHandleContext(pOsSysman);
pMemoryHandleContext = new MemoryHandleContext(pOsSysman);
pGlobalOperations = new GlobalOperationsImp(pOsSysman);
pEvents = new EventsImp(pOsSysman);
pFanHandleContext = new FanHandleContext(pOsSysman);
pFirmwareHandleContext = new FirmwareHandleContext(pOsSysman);
pDiagnosticsHandleContext = new DiagnosticsHandleContext(pOsSysman);
pPerformanceHandleContext = new PerformanceHandleContext(pOsSysman);
pEcc = new EccImp(pOsSysman);
pVfManagementHandleContext = new VfManagementHandleContext(pOsSysman);
}
SysmanDeviceImp::~SysmanDeviceImp() {
freeResource(pPerformanceHandleContext);
freeResource(pDiagnosticsHandleContext);
freeResource(pFirmwareHandleContext);
freeResource(pFanHandleContext);
freeResource(pEvents);
freeResource(pGlobalOperations);
freeResource(pMemoryHandleContext);
freeResource(pRasHandleContext);
freeResource(pSchedulerHandleContext);
freeResource(pEngineHandleContext);
freeResource(pStandbyHandleContext);
freeResource(pTempHandleContext);
freeResource(pFabricPortHandleContext);
freeResource(pPci);
freeResource(pFrequencyHandleContext);
freeResource(pPowerHandleContext);
freeResource(pEcc);
freeResource(pVfManagementHandleContext);
freeResource(pOsSysman);
}
void SysmanDeviceImp::updateSubDeviceHandlesLocally() {
uint32_t subDeviceCount = 0;
deviceHandles.clear();
Device::fromHandle(hCoreDevice)->getSubDevices(&subDeviceCount, nullptr);
if (subDeviceCount == 0) {
deviceHandles.resize(1, hCoreDevice);
} else {
deviceHandles.resize(subDeviceCount, nullptr);
Device::fromHandle(hCoreDevice)->getSubDevices(&subDeviceCount, deviceHandles.data());
}
}
void SysmanDeviceImp::getSysmanDeviceInfo(zes_device_handle_t hDevice, uint32_t &subdeviceId, ze_bool_t &onSubdevice, ze_bool_t useMultiArchEnabled) {
NEO::Device *neoDevice = Device::fromHandle(hDevice)->getNEODevice();
onSubdevice = false;
// Check for root device with 1 sub-device case
if (!neoDevice->isSubDevice() && neoDevice->getDeviceBitfield().count() == 1) {
subdeviceId = Math::log2(static_cast<uint32_t>(neoDevice->getDeviceBitfield().to_ulong()));
if ((NEO::GfxCoreHelper::getSubDevicesCount(&neoDevice->getHardwareInfo()) > 1) && useMultiArchEnabled) {
onSubdevice = true;
}
} else if (neoDevice->isSubDevice()) {
subdeviceId = static_cast<NEO::SubDevice *>(neoDevice)->getSubDeviceIndex();
onSubdevice = true;
}
}
PRODUCT_FAMILY SysmanDeviceImp::getProductFamily(Device *pDevice) {
return pDevice->getNEODevice()->getHardwareInfo().platform.eProductFamily;
}
ze_result_t SysmanDeviceImp::init() {
// We received a device handle. Check for subdevices in this device
updateSubDeviceHandlesLocally();
auto result = pOsSysman->init();
if (result == ZE_RESULT_SUCCESS) {
ze_bool_t driverModelSupported = pOsSysman->isDriverModelSupported();
if (!driverModelSupported) {
return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE;
}
}
return result;
}
ze_result_t SysmanDeviceImp::frequencyGet(uint32_t *pCount, zes_freq_handle_t *phFrequency) {
return pFrequencyHandleContext->frequencyGet(pCount, phFrequency);
}
ze_result_t SysmanDeviceImp::deviceGetProperties(zes_device_properties_t *pProperties) {
return pGlobalOperations->deviceGetProperties(pProperties);
}
ze_result_t SysmanDeviceImp::processesGetState(uint32_t *pCount, zes_process_state_t *pProcesses) {
return pGlobalOperations->processesGetState(pCount, pProcesses);
}
ze_result_t SysmanDeviceImp::deviceReset(ze_bool_t force) {
return pGlobalOperations->reset(force);
}
ze_result_t SysmanDeviceImp::deviceEventRegister(zes_event_type_flags_t events) {
return pEvents->eventRegister(events);
}
OsSysman *SysmanDeviceImp::deviceGetOsInterface() {
return pOsSysman;
}
bool SysmanDeviceImp::deviceEventListen(zes_event_type_flags_t &pEvent, uint64_t timeout) {
return pEvents->eventListen(pEvent, timeout);
}
ze_result_t SysmanDeviceImp::deviceResetExt(zes_reset_properties_t *pProperties) {
return pGlobalOperations->resetExt(pProperties);
}
ze_result_t SysmanDeviceImp::deviceGetState(zes_device_state_t *pState) {
return pGlobalOperations->deviceGetState(pState);
}
ze_result_t SysmanDeviceImp::pciGetProperties(zes_pci_properties_t *pProperties) {
return pPci->pciStaticProperties(pProperties);
}
ze_result_t SysmanDeviceImp::pciGetState(zes_pci_state_t *pState) {
return pPci->pciGetState(pState);
}
ze_result_t SysmanDeviceImp::pciGetBars(uint32_t *pCount, zes_pci_bar_properties_t *pProperties) {
return pPci->pciGetInitializedBars(pCount, pProperties);
}
ze_result_t SysmanDeviceImp::pciGetStats(zes_pci_stats_t *pStats) {
return ZE_RESULT_ERROR_UNSUPPORTED_FEATURE;
}
ze_result_t SysmanDeviceImp::powerGetCardDomain(zes_pwr_handle_t *phPower) {
return pPowerHandleContext->powerGetCardDomain(phPower);
}
ze_result_t SysmanDeviceImp::powerGet(uint32_t *pCount, zes_pwr_handle_t *phPower) {
return pPowerHandleContext->powerGet(pCount, phPower);
}
ze_result_t SysmanDeviceImp::engineGet(uint32_t *pCount, zes_engine_handle_t *phEngine) {
return pEngineHandleContext->engineGet(pCount, phEngine);
}
ze_result_t SysmanDeviceImp::standbyGet(uint32_t *pCount, zes_standby_handle_t *phStandby) {
return pStandbyHandleContext->standbyGet(pCount, phStandby);
}
ze_result_t SysmanDeviceImp::fabricPortGet(uint32_t *pCount, zes_fabric_port_handle_t *phPort) {
return pFabricPortHandleContext->fabricPortGet(pCount, phPort);
}
ze_result_t SysmanDeviceImp::fabricPortGetMultiPortThroughput(uint32_t numPorts, zes_fabric_port_handle_t *phPort, zes_fabric_port_throughput_t **pThroughput) {
return pFabricPortHandleContext->fabricPortGetMultiPortThroughput(numPorts, phPort, pThroughput);
}
ze_result_t SysmanDeviceImp::temperatureGet(uint32_t *pCount, zes_temp_handle_t *phTemperature) {
return pTempHandleContext->temperatureGet(pCount, phTemperature);
}
ze_result_t SysmanDeviceImp::schedulerGet(uint32_t *pCount, zes_sched_handle_t *phScheduler) {
return pSchedulerHandleContext->schedulerGet(pCount, phScheduler);
}
ze_result_t SysmanDeviceImp::rasGet(uint32_t *pCount, zes_ras_handle_t *phRas) {
return pRasHandleContext->rasGet(pCount, phRas);
}
ze_result_t SysmanDeviceImp::firmwareGet(uint32_t *pCount, zes_firmware_handle_t *phFirmware) {
return pFirmwareHandleContext->firmwareGet(pCount, phFirmware);
}
ze_result_t SysmanDeviceImp::diagnosticsGet(uint32_t *pCount, zes_diag_handle_t *phDiagnostics) {
return pDiagnosticsHandleContext->diagnosticsGet(pCount, phDiagnostics);
}
ze_result_t SysmanDeviceImp::memoryGet(uint32_t *pCount, zes_mem_handle_t *phMemory) {
return pMemoryHandleContext->memoryGet(pCount, phMemory);
}
ze_result_t SysmanDeviceImp::fanGet(uint32_t *pCount, zes_fan_handle_t *phFan) {
return pFanHandleContext->fanGet(pCount, phFan);
}
ze_result_t SysmanDeviceImp::performanceGet(uint32_t *pCount, zes_perf_handle_t *phPerformance) {
return pPerformanceHandleContext->performanceGet(pCount, phPerformance);
}
ze_result_t SysmanDeviceImp::deviceEccAvailable(ze_bool_t *pAvailable) {
return pEcc->deviceEccAvailable(pAvailable);
}
ze_result_t SysmanDeviceImp::deviceEccConfigurable(ze_bool_t *pConfigurable) {
return pEcc->deviceEccConfigurable(pConfigurable);
}
ze_result_t SysmanDeviceImp::deviceGetEccState(zes_device_ecc_properties_t *pState) {
return pEcc->getEccState(pState);
}
ze_result_t SysmanDeviceImp::deviceSetEccState(const zes_device_ecc_desc_t *newState, zes_device_ecc_properties_t *pState) {
return pEcc->setEccState(newState, pState);
}
ze_result_t SysmanDeviceImp::deviceEnumEnabledVF(uint32_t *pCount, zes_vf_handle_t *phVFhandle) {
return pVfManagementHandleContext->vfManagementGet(pCount, phVFhandle);
}
} // namespace L0
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