/** * @file io_pins.cpp * @brief It could be that the main purpose of this file is the status LED blinking * * @date Jan 24, 2013 * @author Andrey Belomutskiy, (c) 2012-2017 */ #include #include "main.h" #include "io_pins.h" #include "efiGpio.h" #include "pin_repository.h" #include "gpio_helper.h" #include "status_loop.h" #include "engine_configuration.h" #include "console_io.h" #if EFI_ENGINE_CONTROL || defined(__DOXYGEN__) #include "main_trigger_callback.h" #endif /* EFI_ENGINE_CONTROL */ extern board_configuration_s *boardConfiguration; static LoggingWithStorage logger("io_pins"); extern EnginePins enginePins; #if defined(STM32F4XX) static ioportid_t PORTS[] = { GPIOA, GPIOB, GPIOC, GPIOD, GPIOE, GPIOF, GPIOG, GPIOH }; #else static ioportid_t PORTS[] = { GPIOA, GPIOB, GPIOC, GPIOD, GPIOF}; #endif pin_output_mode_e DEFAULT_OUTPUT = OM_DEFAULT; pin_output_mode_e OPENDRAIN_OUTPUT = OM_OPENDRAIN; /** * This method is used for digital GPIO pins only, for peripheral pins see mySetPadMode */ static void outputPinRegisterExt(const char *msg, OutputPin *output, ioportid_t port, uint32_t pin, pin_output_mode_e *outputMode) { #if EFI_GPIO if (port == GPIO_NULL) { // that's for GRIO_NONE output->port = port; return; } assertOMode(*outputMode); iomode_t mode = (*outputMode == OM_DEFAULT || *outputMode == OM_INVERTED) ? PAL_MODE_OUTPUT_PUSHPULL : PAL_MODE_OUTPUT_OPENDRAIN; initOutputPinExt(msg, output, port, pin, mode); output->setDefaultPinState(outputMode); #endif } ioportid_t getHwPort(brain_pin_e brainPin) { if (brainPin == GPIO_UNASSIGNED) return GPIO_NULL; if (brainPin > GPIO_UNASSIGNED || brainPin < 0) { firmwareError(CUSTOM_ERR_INVALID_PIN, "Invalid brain_pin_e: %d", brainPin); return GPIO_NULL; } return PORTS[brainPin / PORT_SIZE]; } ioportmask_t getHwPin(brain_pin_e brainPin) { if (brainPin == GPIO_UNASSIGNED) return EFI_ERROR_CODE; if (brainPin > GPIO_UNASSIGNED || brainPin < 0) { firmwareError(CUSTOM_ERR_INVALID_PIN, "Invalid brain_pin_e: %d", brainPin); return EFI_ERROR_CODE; } return brainPin % PORT_SIZE; } void outputPinRegisterExt2(const char *msg, OutputPin *output, brain_pin_e brainPin, pin_output_mode_e *outputMode) { if (brainPin == GPIO_UNASSIGNED) return; ioportid_t hwPort = getHwPort(brainPin); int hwPin = getHwPin(brainPin); outputPinRegisterExt(msg, output, hwPort, hwPin, outputMode); } void outputPinRegister(const char *msg, OutputPin *output, ioportid_t port, uint32_t pin) { outputPinRegisterExt(msg, output, port, pin, &DEFAULT_OUTPUT); } extern OutputPin checkEnginePin; void initPrimaryPins(void) { outputPinRegister("led: ERROR status", &enginePins.errorLedPin, LED_ERROR_PORT, LED_ERROR_PIN); } void initOutputPins(void) { /** * want to make sure it's all zeros so that we can compare in initOutputPinExt() method */ // todo: it's too late to clear now? this breaks default status LEDs // todo: fix this? // memset(&outputs, 0, sizeof(outputs)); // outputPinRegister("ext led 1", LED_EXT_1, EXTRA_LED_1_PORT, EXTRA_LED_1_PIN); // outputPinRegister("ext led 2", LED_EXT_2, EXTRA_LED_2_PORT, EXTRA_LED_2_PIN); // outputPinRegister("ext led 3", LED_EXT_3, EXTRA_LED_2_PORT, EXTRA_LED_3_PIN); // outputPinRegister("alive1", LED_DEBUG, GPIOD, 6); // todo: are these needed here? todo: make configurable // outputPinRegister("spi CS1", SPI_CS_1, SPI_CS1_PORT, SPI_CS1_PIN); // outputPinRegister("spi CS2", SPI_CS_2, SPI_CS2_PORT, SPI_CS2_PIN); // outputPinRegister("spi CS3", SPI_CS_3, SPI_CS3_PORT, SPI_CS3_PIN); // outputPinRegister("spi CS4", SPI_CS_4, SPI_CS4_PORT, SPI_CS4_PIN); #if HAL_USE_SPI || defined(__DOXYGEN__) outputPinRegisterExt2("spi CS5", &enginePins.sdCsPin, boardConfiguration->sdCardCsPin, &DEFAULT_OUTPUT); #endif // todo: should we move this code closer to the fuel pump logic? outputPinRegisterExt2("fuel pump relay", &enginePins.fuelPumpRelay, boardConfiguration->fuelPumpPin, &DEFAULT_OUTPUT); outputPinRegisterExt2("main relay", &enginePins.mainRelay, boardConfiguration->mainRelayPin, &boardConfiguration->mainRelayPinMode); outputPinRegisterExt2("fan relay", &enginePins.fanRelay, boardConfiguration->fanPin, &DEFAULT_OUTPUT); outputPinRegisterExt2("o2 heater", &enginePins.o2heater, boardConfiguration->o2heaterPin, &DEFAULT_OUTPUT); outputPinRegisterExt2("A/C relay", &enginePins.acRelay, boardConfiguration->acRelayPin, &boardConfiguration->acRelayPinMode); // digit 1 /* ledRegister(LED_HUGE_0, GPIOB, 2); ledRegister(LED_HUGE_1, GPIOE, 7); ledRegister(LED_HUGE_2, GPIOE, 8); ledRegister(LED_HUGE_3, GPIOE, 9); ledRegister(LED_HUGE_4, GPIOE, 10); ledRegister(LED_HUGE_5, GPIOE, 11); ledRegister(LED_HUGE_6, GPIOE, 12); // digit 2 ledRegister(LED_HUGE_7, GPIOE, 13); ledRegister(LED_HUGE_8, GPIOE, 14); ledRegister(LED_HUGE_9, GPIOE, 15); ledRegister(LED_HUGE_10, GPIOB, 10); ledRegister(LED_HUGE_11, GPIOB, 11); ledRegister(LED_HUGE_12, GPIOB, 12); ledRegister(LED_HUGE_13, GPIOB, 13); // digit 3 ledRegister(LED_HUGE_14, GPIOE, 0); ledRegister(LED_HUGE_15, GPIOE, 2); ledRegister(LED_HUGE_16, GPIOE, 4); ledRegister(LED_HUGE_17, GPIOE, 6); ledRegister(LED_HUGE_18, GPIOE, 5); ledRegister(LED_HUGE_19, GPIOE, 3); ledRegister(LED_HUGE_20, GPIOE, 1); */ } #if EFI_GPIO /** * This method is part of fatal error handling. * Please note that worst case scenario the pins might get re-enabled by some other code :( * The whole method is pretty naive, but that's at least something. */ void turnAllPinsOff(void) { for (int i = 0; i < INJECTION_PIN_COUNT; i++) { enginePins.injectors[i].setValue(false); } for (int i = 0; i < IGNITION_PIN_COUNT; i++) { enginePins.coils[i].setValue(false); } } #endif