public void Dispose() { if (!disposed) { try { ADL.ADL_Main_Control_Destroy(); } catch (Exception) { } disposed = true; } }
public static bool GetDisplayDitherState(ADLDisplayInfo display, ref ADLDitherState ditherState) { var del = ADL.GetDelegate <ADL.ADL_Display_DitherState_Get>(); if (display.DisplayID.DisplayPhysicalIndex >= 0 && del != null) { var ditherStateInt = 0; var ADLRet = del(display.DisplayID.DisplayLogicalAdapterIndex, display.DisplayID.DisplayLogicalIndex, ref ditherStateInt); ditherState = (ADLDitherState)ditherStateInt; return(CheckError(ADLRet, nameof(ADL.ADL_Display_DitherState_Get))); } return(false); }
public static bool GetDisplayColorDepth(ADLDisplayInfo display, ref ADLColorDepth colorDepth) { var del = ADL.GetDelegate <ADL.ADL_Display_ColorDepth_Get>(); if (display.DisplayID.DisplayPhysicalIndex >= 0 && del != null) { int colorDepthInt = 0; var ADLRet = del(display.DisplayID.DisplayLogicalAdapterIndex, display.DisplayID.DisplayLogicalIndex, ref colorDepthInt); colorDepth = (ADLColorDepth)colorDepthInt; return(CheckError(ADLRet, nameof(ADL.ADL_Display_ColorDepth_Get))); } return(false); }
public static bool GetDisplayPixelFormat(ADLDisplayInfo display, ref ADLPixelFormat pixelFormat) { var del = ADL.GetDelegate <ADL.ADL_Display_PixelFormat_Get>(); if (display.DisplayID.DisplayPhysicalIndex >= 0 && del != null) { int pixelFormatInt = 0; var ADLRet = del(display.DisplayID.DisplayLogicalAdapterIndex, display.DisplayID.DisplayLogicalIndex, ref pixelFormatInt); pixelFormat = (ADLPixelFormat)pixelFormatInt; return(CheckError(ADLRet, nameof(ADL.ADL_Display_PixelFormat_Get))); } return(false); }
public static bool GetDisplayResolution(string displayName, ref int horizontal, ref int vertical) { var displays = GetAllDisplays(); var display = displays.FirstOrDefault(d => d.DisplayName.Equals(displayName, StringComparison.OrdinalIgnoreCase)); if (display.DisplayID.DisplayPhysicalIndex >= 0 && ADL.ADL_Display_Size_Get != null) { int lpDefaultWidth, lpDefaultHeight, lpMinWidth, lpMinHeight, lpMaxWidth, lpMaxHeight, lpStepWidth, lpStepHeight; lpDefaultWidth = lpDefaultHeight = lpMinWidth = lpMinHeight = lpMaxWidth = lpMaxHeight = lpStepWidth = lpStepHeight = 0; var ADLRet = ADL.ADL_Display_Size_Get(display.DisplayID.DisplayPhysicalAdapterIndex, display.DisplayID.DisplayPhysicalIndex, ref horizontal, ref vertical, ref lpDefaultWidth, ref lpDefaultHeight, ref lpMinWidth, ref lpMinHeight, ref lpMaxWidth, ref lpMaxHeight, ref lpStepWidth, ref lpStepHeight); return(ADLRet == ADL.ADL_SUCCESS); } return(false); }
public static bool GetDisplayHDRState(ADLDisplayInfo display, ref bool supported, ref bool enabled) { var del = ADL.GetDelegate <ADL.ADL2_Display_HDRState_Get>(); if (display.DisplayID.DisplayPhysicalIndex >= 0 && del != null) { var supportedInt = 0; var enabledInt = 0; var ADLRet = del(context, display.DisplayID.DisplayLogicalAdapterIndex, display.DisplayID, ref supportedInt, ref enabledInt); supported = supportedInt != 0; enabled = enabledInt != 0; return(CheckError(ADLRet, nameof(ADL.ADL2_Display_HDRState_Get))); } return(false); }
public void Update() { if (Temperature == null) { return; } ADLTemperature adlt = new ADLTemperature(); for (int i = 0; i < Temperature.Length; ++i) { var res = ADL.ADL_Overdrive5_Temperature_Get(i, 0, ref adlt); if (res == ADL.ADL_OK) { Temperature[i] = 0.001f * adlt.Temperature; } } }
public AMDHardwareMonitor() { try { int status = OpenHardwareMonitor.Hardware.ATI.ADL.ADL_Main_Control_Create(1); if (status == ADL.ADL_OK) { int numberOfAdapters = 0; ADL.ADL_Adapter_NumberOfAdapters_Get(ref numberOfAdapters); if (numberOfAdapters > 0) { Temperature = new float[numberOfAdapters]; ADLAdapterInfo[] adapterInfo = new ADLAdapterInfo[numberOfAdapters]; if (ADL.ADL_Adapter_AdapterInfo_Get(adapterInfo) == ADL.ADL_OK) { for (int i = 0; i < numberOfAdapters; i++) { int isActive; int adapterID; ADL.ADL_Adapter_Active_Get(adapterInfo[i].AdapterIndex, out isActive); ADL.ADL_Adapter_ID_Get(adapterInfo[i].AdapterIndex, out adapterID); AdapterName = adapterInfo[i].AdapterName; UDID = adapterInfo[i].UDID; Present = adapterInfo[i].Present; VendorID = adapterInfo[i].VendorID; var busNumber = adapterInfo[i].BusNumber; var deviceNumber = adapterInfo[i].DeviceNumber; var functionNumber = adapterInfo[i].FunctionNumber; var adapterId = adapterID.ToString("X"); } } } } } catch (System.Exception) { Temperature = null; } }
public static void Uninitialze() { if (!ADL.ADLDelegates.Any()) { return; } var del = ADL.GetDelegate <ADL.ADL_Main_Control_Destroy>(); if (null != del) { del(); } var del2 = ADL.GetDelegate <ADL.ADL2_Main_Control_Destroy>(); if (null != del2 && context != IntPtr.Zero) { del2(context); } }
}; // Keep everything until the miner quits. public static bool InitializeADL(OpenCLDevice[] mDevices) { var ADLRet = -1; var NumberOfAdapters = 0; if (null != ADL.ADL_Main_Control_Create) { ADLRet = ADL.ADL_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 1); } if (ADL.ADL_SUCCESS == ADLRet) { MainForm.Logger("Successfully initialized AMD Display Library."); if (null != ADL.ADL_Adapter_NumberOfAdapters_Get) { ADL.ADL_Adapter_NumberOfAdapters_Get(ref NumberOfAdapters); } MainForm.Logger("Number of ADL Adapters: " + NumberOfAdapters.ToString()); if (0 < NumberOfAdapters) { ADLAdapterInfoArray OSAdapterInfoData; OSAdapterInfoData = new ADLAdapterInfoArray(); if (null == ADL.ADL_Adapter_AdapterInfo_Get) { MainForm.Logger("ADL.ADL_Adapter_AdapterInfo_Get() is not available."); } else { var AdapterBuffer = IntPtr.Zero; var size = Marshal.SizeOf(OSAdapterInfoData); AdapterBuffer = Marshal.AllocCoTaskMem((int)size); Marshal.StructureToPtr(OSAdapterInfoData, AdapterBuffer, false); ADLRet = ADL.ADL_Adapter_AdapterInfo_Get(AdapterBuffer, size); if (ADL.ADL_SUCCESS == ADLRet) { OSAdapterInfoData = (ADLAdapterInfoArray)Marshal.PtrToStructure(AdapterBuffer, OSAdapterInfoData.GetType()); bool adrenalineWorkaroundRequired = false; foreach (var device in mDevices) { var openclDevice = device.GetComputeDevice(); if (device.GetVendor() == "AMD" && openclDevice.PciBusIdAMD <= 0) { adrenalineWorkaroundRequired = true; } } if (adrenalineWorkaroundRequired) { // workaround for Adrenalin drivers as PciBusIdAMD does not work properly. MainForm.Logger("Manually matching OpenCL devices with ADL devices..."); List <int> taken = new List <int> { }; foreach (var device in mDevices) { var openclDevice = device.GetComputeDevice(); if (device.GetVendor() == "AMD") { string boardName = (new System.Text.RegularExpressions.Regex("[^a-zA-Z0-9]+$")).Replace(System.Text.Encoding.ASCII.GetString(openclDevice.BoardNameAMD), ""); // Drop '\0' int boardCounter = 0; for (var i = 0; i < NumberOfAdapters; ++i) { if (OSAdapterInfoData.ADLAdapterInfo[i].AdapterName == boardName && !taken.Contains(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber)) { boardCounter++; } while (i + 1 < NumberOfAdapters && OSAdapterInfoData.ADLAdapterInfo[i].BusNumber == OSAdapterInfoData.ADLAdapterInfo[i + 1].BusNumber) { ++i; } } if (boardCounter <= 1) { for (var i = 0; i < NumberOfAdapters; ++i) { if (OSAdapterInfoData.ADLAdapterInfo[i].AdapterName == boardName && !taken.Contains(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber)) { device.ADLAdapterIndex = i; taken.Add(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber); break; } while (i + 1 < NumberOfAdapters && OSAdapterInfoData.ADLAdapterInfo[i].BusNumber == OSAdapterInfoData.ADLAdapterInfo[i + 1].BusNumber) { ++i; } } } else { OpenCLDummyLbryMiner dummyMiner = new OpenCLDummyLbryMiner(device); dummyMinerList.Add(dummyMiner); dummyMiner.Start(); int[] activityTotalArray = new int[NumberOfAdapters]; for (var i = 0; i < NumberOfAdapters; ++i) { activityTotalArray[i] = 0; } for (var j = 0; j < 10; ++j) { for (var i = 0; i < NumberOfAdapters; ++i) { if (OSAdapterInfoData.ADLAdapterInfo[i].AdapterName == boardName && !taken.Contains(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber)) { ADLPMActivity OSADLPMActivityData; OSADLPMActivityData = new ADLPMActivity(); var activityBuffer = IntPtr.Zero; size = Marshal.SizeOf(OSADLPMActivityData); activityBuffer = Marshal.AllocCoTaskMem((int)size); Marshal.StructureToPtr(OSADLPMActivityData, activityBuffer, false); if (null != ADL.ADL_Overdrive5_CurrentActivity_Get) { ADLRet = ADL.ADL_Overdrive5_CurrentActivity_Get(i, activityBuffer); if (ADL.ADL_SUCCESS == ADLRet) { OSADLPMActivityData = (ADLPMActivity)Marshal.PtrToStructure(activityBuffer, OSADLPMActivityData.GetType()); activityTotalArray[i] += OSADLPMActivityData.iActivityPercent; } } } while (i + 1 < NumberOfAdapters && OSAdapterInfoData.ADLAdapterInfo[i].BusNumber == OSAdapterInfoData.ADLAdapterInfo[i + 1].BusNumber) { ++i; } } System.Threading.Thread.Sleep(100); } int candidate = -1; int candidateActivity = 0; for (var i = 0; i < NumberOfAdapters; ++i) { if (OSAdapterInfoData.ADLAdapterInfo[i].AdapterName == boardName && !taken.Contains(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber)) { if (candidate < 0 || activityTotalArray[i] > candidateActivity) { candidateActivity = activityTotalArray[i]; candidate = i; } } while (i + 1 < NumberOfAdapters && OSAdapterInfoData.ADLAdapterInfo[i].BusNumber == OSAdapterInfoData.ADLAdapterInfo[i + 1].BusNumber) { ++i; } } device.ADLAdapterIndex = candidate; taken.Add(OSAdapterInfoData.ADLAdapterInfo[candidate].BusNumber); dummyMiner.Stop(); for (int i = 0; i < 50; ++i) { if (dummyMiner.Stopped) { break; } System.Threading.Thread.Sleep(100); } if (!dummyMiner.Stopped) { MainForm.Logger("Failed at matching OpenCL devices with ADL devices. Restarting..."); System.Windows.Forms.Application.Exit(); } } } } } else { // Use openclDevice.PciBusIdAMD for matching. foreach (var device in mDevices) { var openclDevice = device.GetComputeDevice(); if (device.GetVendor() == "AMD") { for (var i = 0; i < NumberOfAdapters; i++) { var IsActive = 0; if (null != ADL.ADL_Adapter_Active_Get) { ADLRet = ADL.ADL_Adapter_Active_Get(OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex, ref IsActive); } if (OSAdapterInfoData.ADLAdapterInfo[i].BusNumber == openclDevice.PciBusIdAMD && (device.ADLAdapterIndex < 0 || IsActive != 0)) { device.ADLAdapterIndex = OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex; } } } } } } else { MainForm.Logger("ADL_Adapter_AdapterInfo_Get() returned error code " + ADLRet.ToString()); } // Release the memory for the AdapterInfo structure if (IntPtr.Zero != AdapterBuffer) { Marshal.FreeCoTaskMem(AdapterBuffer); } } } return(true); } else { MainForm.Logger("Failed to initialize AMD Display Library."); return(false); } }
public static bool InitializeADL(OpenCLDevice[] pDevices) { var ADLRet = -1; var NumberOfAdapters = 0; if (null == ADL.ADL2_Main_Control_Create || null == ADL.ADL_Main_Control_Create || null == ADL.ADL_Adapter_NumberOfAdapters_Get) { return(false); } if (ADL.ADL_SUCCESS == ADL.ADL2_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 1, ref ADL2Context) && ADL.ADL_SUCCESS == ADL.ADL_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 1)) { Messenger.Default.Send <MinerOutputMessage>(new MinerOutputMessage() { OutputText = "Successfully initialized AMD Display Library." }); ADL.ADL_Adapter_NumberOfAdapters_Get(ref NumberOfAdapters); if (0 < NumberOfAdapters) { ADLAdapterInfoArray OSAdapterInfoData; OSAdapterInfoData = new ADLAdapterInfoArray(); if (null == ADL.ADL_Adapter_AdapterInfo_Get) { Messenger.Default.Send <MinerOutputMessage>(new MinerOutputMessage() { OutputText = "ADL.ADL_Adapter_AdapterInfo_Get() is not available." }); } else { var AdapterBuffer = IntPtr.Zero; var size = Marshal.SizeOf(OSAdapterInfoData); AdapterBuffer = Marshal.AllocCoTaskMem((int)size); Marshal.StructureToPtr(OSAdapterInfoData, AdapterBuffer, false); ADLRet = ADL.ADL_Adapter_AdapterInfo_Get(AdapterBuffer, size); if (ADL.ADL_SUCCESS == ADLRet) { OSAdapterInfoData = (ADLAdapterInfoArray)Marshal.PtrToStructure(AdapterBuffer, OSAdapterInfoData.GetType()); if (pDevices.Any(x => x.ComputeDevice.Vendor.Equals(Consts.VendorAMD) && x.ComputeDevice.PciBusIdAMD <= 0)) { List <int> taken = new List <int>(); foreach (var device in pDevices.Where(x => x.ComputeDevice.Vendor.Equals(Consts.VendorAMD))) { string boardName = (new System.Text.RegularExpressions.Regex("[^a-zA-Z0-9]+$")).Replace(Encoding.ASCII.GetString(device.ComputeDevice.BoardNameAMD), ""); var adapter = OSAdapterInfoData.ADLAdapterInfo.Where(x => x.AdapterName == boardName && !taken.Contains(x.BusNumber)).FirstOrDefault(); device.ADLAdapterIndex = adapter.BusNumber; taken.Add(adapter.BusNumber); setADLVersion(device); } } else { foreach (var device in pDevices) { if (device.ComputeDevice.Vendor.Equals(Consts.VendorAMD)) { var adapterInfo = OSAdapterInfoData.ADLAdapterInfo.Where(x => x.BusNumber == device.ComputeDevice.PciBusIdAMD).FirstOrDefault(); device.ADLAdapterIndex = adapterInfo.AdapterIndex; } setADLVersion(device); } } } // Release the memory for the AdapterInfo structure if (IntPtr.Zero != AdapterBuffer) { Marshal.FreeCoTaskMem(AdapterBuffer); } } } return(true); } else { return(false); } }
private bool QueryAdl() { // ADL does not get devices in order map devices by bus number // bus id, <name, uuid> var isAdlInit = true; var adlRet = -1; var numberOfAdapters = 0; var adl2Control = IntPtr.Zero; if (null != ADL.ADL_Main_Control_Create) { // Second parameter is 1: Get only the present adapters adlRet = ADL.ADL_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 1); } if (ADL.ADL_SUCCESS == adlRet) { ADL.ADL_Adapter_NumberOfAdapters_Get?.Invoke(ref numberOfAdapters); Helpers.ConsolePrint(Tag, "Number Of Adapters: " + numberOfAdapters); if (0 < numberOfAdapters) { // Get OS adpater info from ADL var osAdapterInfoData = new ADLAdapterInfoArray(); if (null != ADL.ADL_Adapter_AdapterInfo_Get) { var size = Marshal.SizeOf(osAdapterInfoData); var adapterBuffer = Marshal.AllocCoTaskMem(size); Marshal.StructureToPtr(osAdapterInfoData, adapterBuffer, false); adlRet = ADL.ADL_Adapter_AdapterInfo_Get(adapterBuffer, size); var adl2Ret = -1; if (ADL.ADL2_Main_Control_Create != null) { adl2Ret = ADL.ADL2_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 0, ref adl2Control); } var adl2Info = new ADLAdapterInfoArray(); var size2 = Marshal.SizeOf(adl2Info); var buffer = Marshal.AllocCoTaskMem(size2); if (adl2Ret == ADL.ADL_SUCCESS && ADL.ADL2_Adapter_AdapterInfo_Get != null) { Marshal.StructureToPtr(adl2Info, buffer, false); adl2Ret = ADL.ADL2_Adapter_AdapterInfo_Get(adl2Control, buffer, Marshal.SizeOf(adl2Info)); } else { adl2Ret = -1; } if (adl2Ret == ADL.ADL_SUCCESS) { adl2Info = (ADLAdapterInfoArray)Marshal.PtrToStructure(buffer, adl2Info.GetType()); } if (ADL.ADL_SUCCESS == adlRet) { osAdapterInfoData = (ADLAdapterInfoArray)Marshal.PtrToStructure(adapterBuffer, osAdapterInfoData.GetType()); var isActive = 0; for (var i = 0; i < numberOfAdapters; i++) { // Check if the adapter is active if (null != ADL.ADL_Adapter_Active_Get) { adlRet = ADL.ADL_Adapter_Active_Get( osAdapterInfoData.ADLAdapterInfo[i].AdapterIndex, ref isActive); } if (ADL.ADL_SUCCESS != adlRet) { continue; } // we are looking for amd // TODO check discrete and integrated GPU separation var vendorID = osAdapterInfoData.ADLAdapterInfo[i].VendorID; var devName = osAdapterInfoData.ADLAdapterInfo[i].AdapterName; if (vendorID != AmdVendorID && !devName.ToLower().Contains("amd") && !devName.ToLower().Contains("radeon") && !devName.ToLower().Contains("firepro")) { continue; } var pnpStr = osAdapterInfoData.ADLAdapterInfo[i].PNPString; // find vi controller pnp var infSection = ""; foreach (var vCtrl in _availableControllers) { if (vCtrl.PnpDeviceID == pnpStr) { infSection = vCtrl.InfSection; } } var backSlashLast = pnpStr.LastIndexOf('\\'); var serial = pnpStr.Substring(backSlashLast, pnpStr.Length - backSlashLast); var end0 = serial.IndexOf('&'); var end1 = serial.IndexOf('&', end0 + 1); // get serial serial = serial.Substring(end0 + 1, end1 - end0 - 1); var udid = osAdapterInfoData.ADLAdapterInfo[i].UDID; const int pciVenIDStrSize = 21; // PCI_VEN_XXXX&DEV_XXXX var uuid = udid.Substring(0, pciVenIDStrSize) + "_" + serial; var budId = osAdapterInfoData.ADLAdapterInfo[i].BusNumber; var index = osAdapterInfoData.ADLAdapterInfo[i].AdapterIndex; if (_amdDeviceUuid.Contains(uuid)) { continue; } try { Helpers.ConsolePrint(Tag, $"ADL device added BusNumber:{budId} NAME:{devName} UUID:{uuid}"); } catch (Exception e) { Helpers.ConsolePrint(Tag, e.Message); } _amdDeviceUuid.Add(uuid); //_busIds.Add(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber); //_amdDeviceName.Add(devName); if (_busIdInfos.ContainsKey(budId)) { continue; } var adl2Index = -1; if (adl2Ret == ADL.ADL_SUCCESS) { adl2Index = adl2Info.ADLAdapterInfo .FirstOrDefault(a => a.UDID == osAdapterInfoData.ADLAdapterInfo[i].UDID) .AdapterIndex; } var info = new BusIdInfo { Name = devName, Uuid = uuid, InfSection = infSection, Adl1Index = index, Adl2Index = adl2Index }; _busIdInfos.Add(budId, info); } } else { Helpers.ConsolePrint(Tag, "ADL_Adapter_AdapterInfo_Get() returned error code " + adlRet); isAdlInit = false; } // Release the memory for the AdapterInfo structure if (IntPtr.Zero != adapterBuffer) { Marshal.FreeCoTaskMem(adapterBuffer); } if (buffer != IntPtr.Zero) { Marshal.FreeCoTaskMem(buffer); } } } if (null != ADL.ADL_Main_Control_Destroy && numberOfAdapters <= 0) { // Close ADL if it found no AMD devices ADL.ADL_Main_Control_Destroy(); } if (ADL.ADL2_Main_Control_Destroy != null && adl2Control != IntPtr.Zero) { ADL.ADL2_Main_Control_Destroy(adl2Control); } } else { // TODO Helpers.ConsolePrint(Tag, "ADL_Main_Control_Create() returned error code " + adlRet); Helpers.ConsolePrint(Tag, "Check if ADL is properly installed!"); isAdlInit = false; } return(isAdlInit); }
static void Main(string[] args) { int ADLRet = -1; int NumberOfAdapters = 0; int NumberOfDisplays = 0; if (null != ADL.ADL_Main_Control_Create) { // Second parameter is 1: Get only the present adapters ADLRet = ADL.ADL_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 1); } if (ADL.ADL_SUCCESS == ADLRet) { if (null != ADL.ADL_Adapter_NumberOfAdapters_Get) { ADL.ADL_Adapter_NumberOfAdapters_Get(ref NumberOfAdapters); } Console.WriteLine("Number Of Adapters: " + NumberOfAdapters.ToString() + "\n"); if (0 < NumberOfAdapters) { // Get OS adpater info from ADL ADLAdapterInfoArray OSAdapterInfoData; OSAdapterInfoData = new ADLAdapterInfoArray(); if (null != ADL.ADL_Adapter_AdapterInfo_Get) { IntPtr AdapterBuffer = IntPtr.Zero; int size = Marshal.SizeOf(OSAdapterInfoData); AdapterBuffer = Marshal.AllocCoTaskMem((int)size); Marshal.StructureToPtr(OSAdapterInfoData, AdapterBuffer, false); if (null != ADL.ADL_Adapter_AdapterInfo_Get) { ADLRet = ADL.ADL_Adapter_AdapterInfo_Get(AdapterBuffer, size); if (ADL.ADL_SUCCESS == ADLRet) { OSAdapterInfoData = (ADLAdapterInfoArray)Marshal.PtrToStructure(AdapterBuffer, OSAdapterInfoData.GetType()); int IsActive = 0; for (int i = 0; i < NumberOfAdapters; i++) { // Check if the adapter is active if (null != ADL.ADL_Adapter_Active_Get) { ADLRet = ADL.ADL_Adapter_Active_Get(OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex, ref IsActive); } if (ADL.ADL_SUCCESS == ADLRet) { Console.WriteLine("Adapter is : " + (0 == IsActive ? "DISABLED" : "ENABLED")); Console.WriteLine("Adapter Index: " + OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex.ToString()); Console.WriteLine("Adapter UDID : " + OSAdapterInfoData.ADLAdapterInfo[i].UDID); Console.WriteLine("Bus No : " + OSAdapterInfoData.ADLAdapterInfo[i].BusNumber.ToString()); Console.WriteLine("Driver No : " + OSAdapterInfoData.ADLAdapterInfo[i].DriverNumber.ToString()); Console.WriteLine("Function No : " + OSAdapterInfoData.ADLAdapterInfo[i].FunctionNumber.ToString()); Console.WriteLine("Vendor ID : " + OSAdapterInfoData.ADLAdapterInfo[i].VendorID.ToString()); Console.WriteLine("Adapter Name : " + OSAdapterInfoData.ADLAdapterInfo[i].AdapterName); Console.WriteLine("Display Name : " + OSAdapterInfoData.ADLAdapterInfo[i].DisplayName); Console.WriteLine("Present : " + (0 == OSAdapterInfoData.ADLAdapterInfo[i].Present ? "No" : "Yes")); Console.WriteLine("Exist : " + (0 == OSAdapterInfoData.ADLAdapterInfo[i].Exist ? "No" : "Yes")); Console.WriteLine("Driver Path : " + OSAdapterInfoData.ADLAdapterInfo[i].DriverPath); Console.WriteLine("Driver Path X: " + OSAdapterInfoData.ADLAdapterInfo[i].DriverPathExt); Console.WriteLine("PNP String : " + OSAdapterInfoData.ADLAdapterInfo[i].PNPString); // Obtain information about displays ADLDisplayInfo oneDisplayInfo = new ADLDisplayInfo(); if (null != ADL.ADL_Display_DisplayInfo_Get) { IntPtr DisplayBuffer = IntPtr.Zero; int j = 0; // Force the display detection and get the Display Info. Use 0 as last parameter to NOT force detection ADLRet = ADL.ADL_Display_DisplayInfo_Get(OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex, ref NumberOfDisplays, out DisplayBuffer, 1); if (ADL.ADL_SUCCESS == ADLRet) { List <ADLDisplayInfo> DisplayInfoData = new List <ADLDisplayInfo>(); for (j = 0; j < NumberOfDisplays; j++) { oneDisplayInfo = (ADLDisplayInfo)Marshal.PtrToStructure(new IntPtr(DisplayBuffer.ToInt32() + j * Marshal.SizeOf(oneDisplayInfo)), oneDisplayInfo.GetType()); DisplayInfoData.Add(oneDisplayInfo); } Console.WriteLine("\nTotal Number of Displays supported: " + NumberOfDisplays.ToString()); Console.WriteLine("\nDispID AdpID Type OutType CnctType Connected Mapped InfoValue DisplayName "); for (j = 0; j < NumberOfDisplays; j++) { int InfoValue = DisplayInfoData[j].DisplayInfoValue; string StrConnected = (1 == (InfoValue & 1)) ? "Yes" : "No "; string StrMapped = (2 == (InfoValue & 2)) ? "Yes" : "No "; int AdpID = DisplayInfoData[j].DisplayID.DisplayLogicalAdapterIndex; string StrAdpID = (AdpID < 0) ? "--" : AdpID.ToString("d2"); Console.WriteLine(DisplayInfoData[j].DisplayID.DisplayLogicalIndex.ToString() + " " + StrAdpID + " " + DisplayInfoData[j].DisplayType.ToString() + " " + DisplayInfoData[j].DisplayOutputType.ToString() + " " + DisplayInfoData[j].DisplayConnector.ToString() + " " + StrConnected + " " + StrMapped + " " + InfoValue.ToString("x4") + " " + DisplayInfoData[j].DisplayName.ToString()); } Console.WriteLine(); } else { Console.WriteLine("ADL_Display_DisplayInfo_Get() returned error code " + ADLRet.ToString()); } // Release the memory for the DisplayInfo structure if (IntPtr.Zero != DisplayBuffer) { Marshal.FreeCoTaskMem(DisplayBuffer); } } } } } else { Console.WriteLine("ADL_Adapter_AdapterInfo_Get() returned error code " + ADLRet.ToString()); } } // Release the memory for the AdapterInfo structure if (IntPtr.Zero != AdapterBuffer) { Marshal.FreeCoTaskMem(AdapterBuffer); } } } if (null != ADL.ADL_Main_Control_Destroy) { ADL.ADL_Main_Control_Destroy(); } } else { Console.WriteLine("ADL_Main_Control_Create() returned error code " + ADLRet.ToString()); Console.WriteLine("\nCheck if ADL is properly installed!\n"); } Console.WriteLine("Press ENTER to EXIT"); Console.ReadLine(); }
private void QueryAMD() { //showMessageAndStep(International.GetText("Form_Main_loadtext_AMD")); //var dump = new sgminer(true); if (ConfigManager.Instance.GeneralConfig.DeviceDetection.DisableDetectionAMD) { Helpers.ConsolePrint(TAG, "Skipping AMD device detection, settings set to disabled"); showMessageAndStep(International.GetText("Compute_Device_Query_Manager_AMD_Query_Skip")); return; } #region AMD driver check, ADL returns 0 // check the driver version bool EnableOptimizedVersion = true; Dictionary <string, bool> deviceDriverOld = new Dictionary <string, bool>(); string minerPath = MinerPaths.sgminer_5_5_0_general; bool ShowWarningDialog = false; foreach (var vidContrllr in AvaliableVideoControllers) { Helpers.ConsolePrint(TAG, String.Format("Checking AMD device (driver): {0} ({1})", vidContrllr.Name, vidContrllr.DriverVersion)); deviceDriverOld[vidContrllr.Name] = false; // TODO checking radeon drivers only? if ((vidContrllr.Name.Contains("AMD") || vidContrllr.Name.Contains("Radeon")) && ShowWarningDialog == false) { Version AMDDriverVersion = new Version(vidContrllr.DriverVersion); if (AMDDriverVersion.Major < 15) { ShowWarningDialog = true; deviceDriverOld[vidContrllr.Name] = true; Helpers.ConsolePrint(TAG, "WARNING!!! Old AMD GPU driver detected! All optimized versions disabled, mining " + "speed will not be optimal. Consider upgrading AMD GPU driver. Recommended AMD GPU driver version is 15.7.1."); } else if (AMDDriverVersion.Major == 16 && AMDDriverVersion.Minor >= 150) { if (MinersDownloadManager.Instance.IsMinerBinFolder()) { // TODO why this copy? string src = System.IO.Path.GetDirectoryName(Application.ExecutablePath) + "\\" + minerPath.Split('\\')[0] + "\\" + minerPath.Split('\\')[1] + "\\kernel"; foreach (var file in Directory.GetFiles(src)) { string dest = Environment.GetFolderPath(Environment.SpecialFolder.LocalApplicationData) + "\\Temp\\" + System.IO.Path.GetFileName(file); if (!File.Exists(dest)) { File.Copy(file, dest, false); } } } } } } if (ConfigManager.Instance.GeneralConfig.ShowDriverVersionWarning && ShowWarningDialog == true) { Form WarningDialog = new DriverVersionConfirmationDialog(); WarningDialog.ShowDialog(); WarningDialog = null; } #endregion // AMD driver check // get platform version showMessageAndStep(International.GetText("Compute_Device_Query_Manager_AMD_Query")); if (IsOpenCLQuerrySuccess) { bool amdPlatformNumFound = false; foreach (var kvp in OpenCLJSONData.OCLPlatforms) { if (kvp.Key.Contains("AMD") || kvp.Key.Contains("amd")) { amdPlatformNumFound = true; AMDOpenCLPlatformStringKey = kvp.Key; AMDOpenCLPlatformNum = kvp.Value; Helpers.ConsolePrint(TAG, String.Format("AMD platform found: Key: {0}, Num: {1}", AMDOpenCLPlatformStringKey, AMDOpenCLPlatformNum.ToString())); break; } } if (amdPlatformNumFound) { // get only AMD gpus { var amdOCLDevices = OpenCLJSONData.OCLPlatformDevices[AMDOpenCLPlatformStringKey]; foreach (var oclDev in amdOCLDevices) { if (oclDev._CL_DEVICE_TYPE.Contains("GPU")) { amdGpus.Add(oclDev); } } } if (amdGpus.Count == 0) { Helpers.ConsolePrint(TAG, "AMD GPUs count is 0"); } else { Helpers.ConsolePrint(TAG, "AMD GPUs count : " + amdGpus.Count.ToString()); Helpers.ConsolePrint(TAG, "AMD Getting device name and serial from ADL"); // ADL bool isAdlInit = true; // ADL does not get devices in order map devices by bus number // bus id, <name, uuid> Dictionary <int, Tuple <string, string> > _busIdsInfo = new Dictionary <int, Tuple <string, string> >(); List <string> _amdDeviceName = new List <string>(); List <string> _amdDeviceUUID = new List <string>(); try { int ADLRet = -1; int NumberOfAdapters = 0; if (null != ADL.ADL_Main_Control_Create) { // Second parameter is 1: Get only the present adapters ADLRet = ADL.ADL_Main_Control_Create(ADL.ADL_Main_Memory_Alloc, 1); } if (ADL.ADL_SUCCESS == ADLRet) { if (null != ADL.ADL_Adapter_NumberOfAdapters_Get) { ADL.ADL_Adapter_NumberOfAdapters_Get(ref NumberOfAdapters); } Helpers.ConsolePrint(TAG, "Number Of Adapters: " + NumberOfAdapters.ToString()); if (0 < NumberOfAdapters) { // Get OS adpater info from ADL ADLAdapterInfoArray OSAdapterInfoData; OSAdapterInfoData = new ADLAdapterInfoArray(); if (null != ADL.ADL_Adapter_AdapterInfo_Get) { IntPtr AdapterBuffer = IntPtr.Zero; int size = Marshal.SizeOf(OSAdapterInfoData); AdapterBuffer = Marshal.AllocCoTaskMem((int)size); Marshal.StructureToPtr(OSAdapterInfoData, AdapterBuffer, false); if (null != ADL.ADL_Adapter_AdapterInfo_Get) { ADLRet = ADL.ADL_Adapter_AdapterInfo_Get(AdapterBuffer, size); if (ADL.ADL_SUCCESS == ADLRet) { OSAdapterInfoData = (ADLAdapterInfoArray)Marshal.PtrToStructure(AdapterBuffer, OSAdapterInfoData.GetType()); int IsActive = 0; for (int i = 0; i < NumberOfAdapters; i++) { // Check if the adapter is active if (null != ADL.ADL_Adapter_Active_Get) { ADLRet = ADL.ADL_Adapter_Active_Get(OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex, ref IsActive); } if (ADL.ADL_SUCCESS == ADLRet) { // we are looking for amd // TODO check discrete and integrated GPU separation var vendorID = OSAdapterInfoData.ADLAdapterInfo[i].VendorID; var devName = OSAdapterInfoData.ADLAdapterInfo[i].AdapterName; if (vendorID == AMD_VENDOR_ID || devName.ToLower().Contains("amd") || devName.ToLower().Contains("radeon") || devName.ToLower().Contains("firepro")) { string PNPStr = OSAdapterInfoData.ADLAdapterInfo[i].PNPString; var backSlashLast = PNPStr.LastIndexOf('\\'); var serial = PNPStr.Substring(backSlashLast, PNPStr.Length - backSlashLast); var end_0 = serial.IndexOf('&'); var end_1 = serial.IndexOf('&', end_0 + 1); // get serial serial = serial.Substring(end_0 + 1, (end_1 - end_0) - 1); var udid = OSAdapterInfoData.ADLAdapterInfo[i].UDID; var pciVen_id_strSize = 21; // PCI_VEN_XXXX&DEV_XXXX var uuid = udid.Substring(0, pciVen_id_strSize) + "_" + serial; int budId = OSAdapterInfoData.ADLAdapterInfo[i].BusNumber; if (!_amdDeviceUUID.Contains(uuid)) { try { Helpers.ConsolePrint(TAG, String.Format("ADL device added BusNumber:{0} NAME:{1} UUID:{2}"), budId, devName, uuid); } catch { } _amdDeviceUUID.Add(uuid); //_busIds.Add(OSAdapterInfoData.ADLAdapterInfo[i].BusNumber); _amdDeviceName.Add(devName); if (!_busIdsInfo.ContainsKey(budId)) { var nameUuid = new Tuple <string, string>(devName, uuid); _busIdsInfo.Add(budId, nameUuid); } } } } } } else { Helpers.ConsolePrint(TAG, "ADL_Adapter_AdapterInfo_Get() returned error code " + ADLRet.ToString()); } } // Release the memory for the AdapterInfo structure if (IntPtr.Zero != AdapterBuffer) { Marshal.FreeCoTaskMem(AdapterBuffer); } } } if (null != ADL.ADL_Main_Control_Destroy) { ADL.ADL_Main_Control_Destroy(); } } else { // TODO Helpers.ConsolePrint(TAG, "ADL_Main_Control_Create() returned error code " + ADLRet.ToString()); Helpers.ConsolePrint(TAG, "Check if ADL is properly installed!"); } } catch (Exception ex) { Helpers.ConsolePrint(TAG, "AMD ADL exception: " + ex.Message); isAdlInit = false; } if (isAdlInit) { if (amdGpus.Count == _amdDeviceUUID.Count) { Helpers.ConsolePrint(TAG, "AMD OpenCL and ADL AMD query COUNTS GOOD/SAME"); } else { Helpers.ConsolePrint(TAG, "AMD OpenCL and ADL AMD query COUNTS DIFFERENT/BAD"); } StringBuilder stringBuilder = new StringBuilder(); stringBuilder.AppendLine(""); stringBuilder.AppendLine("QueryAMD devices: "); for (int i_id = 0; i_id < amdGpus.Count; ++i_id) { HasAMD = true; int busID = amdGpus[i_id].AMD_BUS_ID; if (busID != -1 && _busIdsInfo.ContainsKey(busID)) { var deviceName = _busIdsInfo[busID].Item1; var newAmdDev = new AmdGpuDevice(amdGpus[i_id], deviceDriverOld[deviceName]); newAmdDev.DeviceName = deviceName; newAmdDev.UUID = _busIdsInfo[busID].Item2; bool isDisabledGroup = ConfigManager.Instance.GeneralConfig.DeviceDetection.DisableDetectionAMD; string skipOrAdd = isDisabledGroup ? "SKIPED" : "ADDED"; string isDisabledGroupStr = isDisabledGroup ? " (AMD group disabled)" : ""; string etherumCapableStr = newAmdDev.IsEtherumCapable() ? "YES" : "NO"; new ComputeDevice(newAmdDev, true, true); // just in case try { stringBuilder.AppendLine(String.Format("\t{0} device{1}:", skipOrAdd, isDisabledGroupStr)); stringBuilder.AppendLine(String.Format("\t\tID: {0}", newAmdDev.DeviceID.ToString())); stringBuilder.AppendLine(String.Format("\t\tNAME: {0}", newAmdDev.DeviceName)); stringBuilder.AppendLine(String.Format("\t\tCODE_NAME: {0}", newAmdDev.Codename)); stringBuilder.AppendLine(String.Format("\t\tUUID: {0}", newAmdDev.UUID)); stringBuilder.AppendLine(String.Format("\t\tMEMORY: {0}", newAmdDev.DeviceGlobalMemory.ToString())); stringBuilder.AppendLine(String.Format("\t\tETHEREUM: {0}", etherumCapableStr)); } catch { } } else { stringBuilder.AppendLine(String.Format("\tDevice not added, Bus No. {0} not found:", busID)); } } Helpers.ConsolePrint(TAG, stringBuilder.ToString()); } } } } }
public static List <ADLDisplayInfo> GetAllDisplays(bool connected = true) { int ADLRet; int NumberOfDisplays = 0; var DisplayInfoData = new List <ADLDisplayInfo>(); var OSAdapterInfoData = GetAdapters(); if (OSAdapterInfoData == null || !OSAdapterInfoData.Value.ADLAdapterInfo.Any()) { return(DisplayInfoData); } var primaryAdapter = OSAdapterInfoData.Value.ADLAdapterInfo.First(); ADLDisplayInfo oneDisplayInfo = new ADLDisplayInfo(); var del = ADL.GetDelegate <ADL.ADL_Display_DisplayInfo_Get>(); if (null != del) { IntPtr DisplayBuffer = IntPtr.Zero; int j = 0; // Force the display detection and get the Display Info. Use 0 as last parameter to NOT force detection ADLRet = del(primaryAdapter.AdapterIndex, ref NumberOfDisplays, out DisplayBuffer, 1); if (ADL.ADL_SUCCESS == ADLRet) { for (j = 0; j < NumberOfDisplays; j++) { oneDisplayInfo = (ADLDisplayInfo)Marshal.PtrToStructure(new IntPtr(DisplayBuffer.ToInt64() + j * Marshal.SizeOf(oneDisplayInfo)), oneDisplayInfo.GetType()); if (!connected || (1 == (oneDisplayInfo.DisplayInfoValue & 1))) { DisplayInfoData.Add(oneDisplayInfo); } } Logger.Debug("Total Number of Displays supported: " + NumberOfDisplays.ToString()); Logger.Debug("DispID DispPhyId AdpID Type OutType CnctType Connected Mapped InfoValue DisplayName "); for (j = 0; j < DisplayInfoData.Count; j++) { int InfoValue = DisplayInfoData[j].DisplayInfoValue; string StrConnected = (1 == (InfoValue & 1)) ? "Yes" : "No "; string StrMapped = (2 == (InfoValue & 2)) ? "Yes" : "No "; int AdpID = DisplayInfoData[j].DisplayID.DisplayLogicalAdapterIndex; string StrAdpID = (AdpID < 0) ? "--" : AdpID.ToString("d2"); Logger.Debug(DisplayInfoData[j].DisplayID.DisplayLogicalIndex.ToString() + " " + DisplayInfoData[j].DisplayID.DisplayPhysicalIndex.ToString() + " " + StrAdpID + " " + DisplayInfoData[j].DisplayType.ToString() + " " + DisplayInfoData[j].DisplayOutputType.ToString() + " " + DisplayInfoData[j].DisplayConnector.ToString() + " " + StrConnected + " " + StrMapped + " " + InfoValue.ToString("x4") + " " + DisplayInfoData[j].DisplayName.ToString()); } } else { Logger.Debug("ADL_Display_DisplayInfo_Get() returned error code " + ADLRet.ToString()); } // Release the memory for the DisplayInfo structure if (IntPtr.Zero != DisplayBuffer) { Marshal.FreeCoTaskMem(DisplayBuffer); } } return(DisplayInfoData); }
public static ADLAdapterInfoArray?GetAdapters() { int ADLRet = -1; int NumberOfAdapters = 0; var delNumberOfAdapters = ADL.GetDelegate <ADL.ADL_Adapter_NumberOfAdapters_Get>(); if (null != delNumberOfAdapters) { delNumberOfAdapters(ref NumberOfAdapters); } Logger.Debug("Number Of Adapters: " + NumberOfAdapters.ToString() + "\n"); if (NumberOfAdapters > 0) { // Get OS adpater info from ADL ADLAdapterInfoArray OSAdapterInfoData; OSAdapterInfoData = new ADLAdapterInfoArray(); var delAdapterInfo = ADL.GetDelegate <ADL.ADL_Adapter_AdapterInfo_Get>(); if (null != delAdapterInfo) { IntPtr AdapterBuffer = IntPtr.Zero; int size = Marshal.SizeOf(OSAdapterInfoData); AdapterBuffer = Marshal.AllocCoTaskMem((int)size); Marshal.StructureToPtr(OSAdapterInfoData, AdapterBuffer, false); ADLRet = delAdapterInfo(AdapterBuffer, size); if (ADL.ADL_SUCCESS == ADLRet) { OSAdapterInfoData = (ADLAdapterInfoArray)Marshal.PtrToStructure(AdapterBuffer, OSAdapterInfoData.GetType()); int IsActive = 0; var delActive = ADL.GetDelegate <ADL.ADL_Adapter_Active_Get>(); for (int i = 0; i < NumberOfAdapters; i++) { // Check if the adapter is active if (null != delActive) { ADLRet = delActive(OSAdapterInfoData.ADLAdapterInfo[i].AdapterIndex, ref IsActive); } if (ADL.ADL_SUCCESS == ADLRet) { } } } else { Logger.Debug("ADL_Adapter_AdapterInfo_Get() returned error code " + ADLRet.ToString()); } // Release the memory for the AdapterInfo structure if (IntPtr.Zero != AdapterBuffer) { Marshal.FreeCoTaskMem(AdapterBuffer); } } return(OSAdapterInfoData); } return(null); }