public static void Print() { HardwareProvider provider = HardwareProvider.HwProvider; var cnt = provider.GetSerialPortsCount(); for (int i = 0; i < cnt; i++) { string comPort = Serial.COM1.Substring(0, 3) + (i + 1); Cpu.Pin rxPin, txPin, ctsPin, rtsPin; provider.GetSerialPins(comPort, out rxPin, out txPin, out ctsPin, out rtsPin); uint max, min; provider.GetBaudRateBoundary(i, out max, out min); Debug.Print(comPort + ": (rx, tx, cts, rts)=(" + Stm32F4Discovery.GetPinName(rxPin) + ", " + Stm32F4Discovery.GetPinName(txPin) + ", " + Stm32F4Discovery.GetPinName(ctsPin) + ", " + Stm32F4Discovery.GetPinName(rtsPin) + ")" + " baud=" + min + "..." + max); } }
public static void Main(string[] args) { HardwareProvider hwProvider = HardwareProvider.HwProvider; Debug.Print("Test GPIO Hardware provider functions "); while (true) { // GPIO int GpioCnt = hwProvider.GetPinsCount(); Cpu.PinUsage[] PinMap; int size; hwProvider.GetPinsMap(out PinMap, out size); Debug.Print("------------------------------"); Debug.Print("-------Pin Map ----------"); for (int i = 0; i < GpioCnt; i++) { Debug.Print("Pin Map - usage" + i + " : " + PinMap[i]); } Debug.Print("Pin count size " + size); Debug.Print("------------------------------"); Debug.Print("---Pin Usage -------"); Cpu.PinUsage OnePinUsage; for (int i = 0; i < GpioCnt; i++) { OnePinUsage = hwProvider.GetPinsUsage((Cpu.Pin)i); if (OnePinUsage != PinMap[i]) { Debug.Print("ERRORR **** "); } Debug.Print("cnt " + i + "usage" + OnePinUsage); } Debug.Print("------------------------------"); Cpu.PinValidResistorMode OnePinResistorMode = hwProvider.GetSupportedResistorModes((Cpu.Pin) 0); Debug.Print("Reistor Mode " + OnePinResistorMode); Debug.Print("------------------------------"); Cpu.PinValidInterruptMode OnePinIntMode = hwProvider.GetSupportedInterruptModes((Cpu.Pin) 0); Debug.Print("Interrupt Mode " + OnePinIntMode); Debug.Print("------------------------------"); // serial Cpu.Pin rxPin; Cpu.Pin txPin; Cpu.Pin ctsPin; Cpu.Pin rtsPin; hwProvider.GetSerialPins("COM1", out rxPin, out txPin, out ctsPin, out rtsPin); Debug.Print("Serial Port : "); Debug.Print("Rx- " + rxPin); Debug.Print("Tx- " + txPin); Debug.Print("cts- " + ctsPin); Debug.Print("Rts- " + rtsPin); int SerialNo = hwProvider.GetSerialPortsCount(); Debug.Print("Total Serial Port : " + SerialNo); System.IO.Ports.BaudRate[] StandardBR; hwProvider.GetSupportBaudRates(0, out StandardBR, out size); Debug.Print("#Standard Baudrate size" + size); for (int i = 0; i < size; i++) { Debug.Print("Baudrate " + StandardBR[i]); } Debug.Print("------------------------------"); bool SupportNonStandardBR = hwProvider.SupportsNonStandardBaudRate(0); Debug.Print("Support NonStandard Baudrate " + SupportNonStandardBR); uint br = 115200; Debug.Print(" support " + br); bool result; result = hwProvider.IsSupportedBaudRate(0, ref br); Debug.Print(" result " + result + "(" + br + ")"); uint maxbr, minbr; hwProvider.GetBaudRateBoundary(0, out maxbr, out minbr); Debug.Print("Com 0 max br" + maxbr + " minBr: " + minbr); br = maxbr + 1000; result = hwProvider.IsSupportedBaudRate(0, ref br); Debug.Print(" over max+100 result " + result + "(" + br + ")"); // SPI Cpu.Pin msk; Cpu.Pin miso; Cpu.Pin mosi; hwProvider.GetSpiPins(SPI.SPI_module.SPI1, out msk, out miso, out mosi); Debug.Print("SPI Port : "); Debug.Print("msk- " + msk); Debug.Print("miso- " + miso); Debug.Print("mosi- " + mosi); int SpiNo = hwProvider.GetSpiPortsCount(); Debug.Print("Total Spi Port : " + SpiNo); // I2C Cpu.Pin scl; Cpu.Pin sda; hwProvider.GetI2CPins(out scl, out sda); Debug.Print("I2C Port : "); Debug.Print("scl- " + scl); Debug.Print("sda- " + sda); // LCD int width, height, orientation, bpp; hwProvider.GetLCDMetrics(out width, out height, out bpp, out orientation); Debug.Print("width : " + height); Debug.Print("Length : " + height); Debug.Print("Bit Per Pixel : " + bpp); Debug.Print("orientatoin " + orientation); //get button - Debug.Print("Button Menu pin no " + hwProvider.GetButtonPins(Button.VK_MENU)); Debug.Print("Button Select pin no " + hwProvider.GetButtonPins(Button.VK_SELECT)); Debug.Print("Button Back pin no " + hwProvider.GetButtonPins(Button.VK_BACK)); Debug.Print("Button Up pin no " + hwProvider.GetButtonPins(Button.VK_UP)); Debug.Print("Button down pin no " + hwProvider.GetButtonPins(Button.VK_DOWN)); Debug.Print("Button Left pin no " + hwProvider.GetButtonPins(Button.VK_LEFT)); Debug.Print("Button right pin no " + hwProvider.GetButtonPins(Button.VK_RIGHT)); Debug.Print("Button home pin no " + hwProvider.GetButtonPins(Button.VK_HOME)); Debug.Print("Button appdef pin no " + hwProvider.GetButtonPins(Button.AppDefined1)); Debug.Print("Button VK convert pin no " + hwProvider.GetButtonPins(Button.VK_CONVERT)); Thread.Sleep(1000); } }
public static void Main() { Debug.Print("\n\n"); Debug.Print("Hello world - i'm trying to find what are hidden to this firmware "); Debug.Print("\n\n"); HardwareProvider provider = HardwareProvider.HwProvider; var cnt = provider.GetAnalogChannelsCount(); for (int i = 0; i < cnt; i++) { var channel = (Cpu.AnalogChannel)i; Cpu.Pin pin = provider.GetAnalogPinForChannel(channel); int[] precisions = provider.GetAvailablePrecisionInBitsForChannel(channel); Debug.Print("AnalogChannel" + channel + ": pin=" + pin.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(pin) + "): precisions=" + precisions[0].ToString() + " bit"); } Debug.Print("\n\n"); cnt = 0; cnt = provider.GetAnalogOutputChannelsCount(); for (int i = 0; i < cnt; i++) { var channel = (Cpu.AnalogOutputChannel)i; Cpu.Pin pin = provider.GetAnalogOutputPinForChannel(channel); int[] precisions = provider.GetAvailableAnalogOutputPrecisionInBitsForChannel(channel); Debug.Print("AnalogOutputChannel" + ": pin=" + pin.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(pin) + "): precisions=" + precisions[0].ToString() + " bit"); } Debug.Print("\n\n"); /* find pwm */ cnt = 0; cnt = provider.GetPWMChannelsCount(); for (int i = 0; i < cnt; i++) { var channel = (Cpu.PWMChannel)i; Cpu.Pin pin = provider.GetPwmPinForChannel(channel); Debug.Print("PWMChannel" + channel + ": pin=" + pin.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(pin) + ")"); } Debug.Print("\n\n"); /*find uart */ cnt = 0; cnt = provider.GetSerialPortsCount(); for (int i = 0; i < cnt; i++) { string comPort = Serial.COM1.Substring(0, 3) + (i + 1); Cpu.Pin rxPin, txPin, ctsPin, rtsPin; provider.GetSerialPins(comPort, out rxPin, out txPin, out ctsPin, out rtsPin); uint max, min; provider.GetBaudRateBoundary(i, out max, out min); Debug.Print(comPort + ": (rx, tx, cts, rts)=(" + STM32F411RE.Hardware.Pin.GetPinName(rxPin) + ", " + STM32F411RE.Hardware.Pin.GetPinName(txPin) + ", " + STM32F411RE.Hardware.Pin.GetPinName(ctsPin) + ", " + STM32F411RE.Hardware.Pin.GetPinName(rtsPin) + ")" + " baud=" + min + "..." + max); } Debug.Print("\n\n"); /* find i2c */ Cpu.Pin i2cscl, i2csda; provider.GetI2CPins(out i2cscl, out i2csda); Debug.Print("I2C module:(scl value=" + i2cscl.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(i2cscl) + "),sda=" + i2csda.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(i2csda) + "));"); Debug.Print("\n\n"); /* find SPI */ var spicnt = provider.GetSpiPortsCount(); for (int i = 0; i < spicnt; i++) { var module = (SPI.SPI_module)i; Cpu.Pin msk, miso, mosi; provider.GetSpiPins(module, out msk, out miso, out mosi); Debug.Print("SPI_module" + (i + 1) + ": (msk=" + msk.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(msk) + "), miso=" + miso.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(miso) + "), mosi=" + mosi.ToString() + "(" + STM32F411RE.Hardware.Pin.GetPinName(mosi) + "));"); } Debug.Print("\n\n"); UsbController[] controllers = UsbController.GetControllers(); for (int i = 0; i < controllers.Length; i++) { Debug.Print("USB" + i + ": " + Convert(controllers[i].Status)); Thread.Sleep(500); } Debug.Print("\n\n"); Debug.Print("Finished check of hardware "); }