#include "gpu.h" #include #include #include #include #include #include #include "nvctrl.h" #include "timing.hpp" #ifdef HAVE_NVML #include "nvidia_info.h" #endif #include "amdgpu.h" using namespace std::chrono_literals; struct gpuInfo gpu_info {}; amdgpu_files amdgpu {}; bool checkNvidia(const char *pci_dev){ bool nvSuccess = false; #ifdef HAVE_NVML nvSuccess = checkNVML(pci_dev) && getNVMLInfo({}); #endif #ifdef HAVE_XNVCTRL if (!nvSuccess) nvSuccess = checkXNVCtrl(); #endif #ifdef _WIN32 if (!nvSuccess) nvSuccess = checkNVAPI(); #endif return nvSuccess; } void getNvidiaGpuInfo(const struct overlay_params& params){ #ifdef HAVE_NVML if (nvmlSuccess){ getNVMLInfo(params); gpu_info.load = nvidiaUtilization.gpu; gpu_info.temp = nvidiaTemp; gpu_info.memoryUsed = nvidiaMemory.used / (1024.f * 1024.f * 1024.f); gpu_info.CoreClock = nvidiaCoreClock; gpu_info.MemClock = nvidiaMemClock; gpu_info.powerUsage = nvidiaPowerUsage / 1000; gpu_info.memoryTotal = nvidiaMemory.total / (1024.f * 1024.f * 1024.f); gpu_info.fan_speed = NvidiaFanSpeed; if (params.enabled[OVERLAY_PARAM_ENABLED_throttling_status]){ gpu_info.is_temp_throttled = (nvml_throttle_reasons & 0x0000000000000060LL) != 0; gpu_info.is_power_throttled = (nvml_throttle_reasons & 0x000000000000008CLL) != 0; gpu_info.is_other_throttled = (nvml_throttle_reasons & 0x0000000000000112LL) != 0; } return; } #endif #ifdef HAVE_XNVCTRL if (nvctrlSuccess) { getNvctrlInfo(); gpu_info.load = nvctrl_info.load; gpu_info.temp = nvctrl_info.temp; gpu_info.memoryUsed = nvctrl_info.memoryUsed / (1024.f); gpu_info.CoreClock = nvctrl_info.CoreClock; gpu_info.MemClock = nvctrl_info.MemClock; gpu_info.powerUsage = 0; gpu_info.memoryTotal = nvctrl_info.memoryTotal; gpu_info.fan_speed = nvctrl_info.fan_speed; return; } #endif #ifdef _WIN32 nvapi_util(); #endif } void getAmdGpuInfo(){ #ifdef __linux__ int64_t value = 0; if (metrics_path.empty()){ if (amdgpu.busy) { rewind(amdgpu.busy); fflush(amdgpu.busy); int value = 0; if (fscanf(amdgpu.busy, "%d", &value) != 1) value = 0; gpu_info.load = value; } if (amdgpu.core_clock) { rewind(amdgpu.core_clock); fflush(amdgpu.core_clock); if (fscanf(amdgpu.core_clock, "%" PRId64, &value) != 1) value = 0; gpu_info.CoreClock = value / 1000000; } if (amdgpu.memory_clock) { rewind(amdgpu.memory_clock); fflush(amdgpu.memory_clock); if (fscanf(amdgpu.memory_clock, "%" PRId64, &value) != 1) value = 0; gpu_info.MemClock = value / 1000000; } if (amdgpu.power_usage) { rewind(amdgpu.power_usage); fflush(amdgpu.power_usage); if (fscanf(amdgpu.power_usage, "%" PRId64, &value) != 1) value = 0; gpu_info.powerUsage = value / 1000000; } if (amdgpu.fan) { rewind(amdgpu.fan); fflush(amdgpu.fan); if (fscanf(amdgpu.fan, "%d" PRId64, &value) != 1) value = 0; gpu_info.fan_speed = value; } } if (amdgpu.vram_total) { rewind(amdgpu.vram_total); fflush(amdgpu.vram_total); if (fscanf(amdgpu.vram_total, "%" PRId64, &value) != 1) value = 0; gpu_info.memoryTotal = float(value) / (1024 * 1024 * 1024); } if (amdgpu.vram_used) { rewind(amdgpu.vram_used); fflush(amdgpu.vram_used); if (fscanf(amdgpu.vram_used, "%" PRId64, &value) != 1) value = 0; gpu_info.memoryUsed = float(value) / (1024 * 1024 * 1024); } // On some GPUs SMU can sometimes return the wrong temperature. // As HWMON is way more visible than the SMU metrics, let's always trust it as it is the most likely to work if (amdgpu.temp){ rewind(amdgpu.temp); fflush(amdgpu.temp); int value = 0; if (fscanf(amdgpu.temp, "%d", &value) != 1) value = 0; gpu_info.temp = value / 1000; } if (amdgpu.gtt_used) { rewind(amdgpu.gtt_used); fflush(amdgpu.gtt_used); if (fscanf(amdgpu.gtt_used, "%" PRId64, &value) != 1) value = 0; gpu_info.gtt_used = float(value) / (1024 * 1024 * 1024); } #endif }