#pragma once #include #include "GPIO_RPI_HAL.h" namespace Linux { /** * @brief Class for Raspberry PI GPIO control * * For more information: https://elinux.org/RPi_BCM2835_GPIOs * */ class GPIO_RPI_BCM : public GPIO_RPI_HAL { public: GPIO_RPI_BCM(); void init() override; void pinMode(uint8_t pin, uint8_t output) override; void pinMode(uint8_t pin, uint8_t output, uint8_t alt) override; uint8_t read(uint8_t pin) override; void write(uint8_t pin, uint8_t value) override; void toggle(uint8_t pin) override; /* Alternative interface: */ AP_HAL::DigitalSource* channel(uint16_t n); /* return true if USB cable is connected */ bool usb_connected(void); private: // Raspberry Pi BASE memory address enum class Address : uint32_t { BCM2708_PERIPHERAL_BASE = 0x20000000, // Raspberry Pi 0/1 BCM2709_PERIPHERAL_BASE = 0x3F000000, // Raspberry Pi 2/3 BCM2711_PERIPHERAL_BASE = 0xFE000000, // Raspberry Pi 4 }; // Offset between peripheral base address enum class PeripheralOffset : uint32_t { GPIO = 0x200000, }; /** * @brief Open memory device to allow gpio address access * Should be used before get_memory_pointer calls in the initialization * * @return true * @return false */ bool openMemoryDevice(); /** * @brief Close open memory device * */ void closeMemoryDevice(); /** * @brief Return pointer to memory location with specific range access * * @param address * @param range * @return volatile uint32_t* */ volatile uint32_t* get_memory_pointer(uint32_t address, uint32_t range) const; /** * @brief Get memory address based in base address and peripheral offset * * @param address * @param offset * @return uint32_t */ uint32_t get_address(GPIO_RPI_BCM::Address address, GPIO_RPI_BCM::PeripheralOffset offset) const; /** * @brief Change functionality of GPIO Function Select Registers (GPFSELn) to any alternative function. * Each GPIO pin is mapped to 3 bits inside a 32 bits register, E.g: * * 0b00...'010'101 * ││ │││ ││└── GPIO Pin N, 1st bit, LSBit * ││ │││ │└─── GPIO Pin N, 2nd bit * ││ │││ └──── GPIO Pin N, 3rd bit, MSBit * ││ ││└────── GPIO Pin N+1, 1st bit, LSBit * ││ │└─────── GPIO Pin N+1, 2nd bit, * ││ └──────── GPIO Pin N+1, 3rd bit, MSBit * ││ ... * │└───────────── Reserved * └────────────── Reserved * * And the value of this 3 bits selects the functionality of the GPIO pin, E.g: * 000 = GPIO Pin N is an input * 001 = GPIO Pin N is an output * 100 = GPIO Pin N takes alternate function 0 * 101 = GPIO Pin N takes alternate function 1 * 110 = GPIO Pin N takes alternate function 2 * 111 = GPIO Pin N takes alternate function 3 * 011 = GPIO Pin N takes alternate function 4 * 010 = GPIO Pin N takes alternate function 5 * * The alternative functions are defined in the BCM datasheet under "Alternative Function" * section for each pin. * * This information is also valid for: * - Linux::GPIO_RPI_BCM::set_gpio_mode_in * - Linux::GPIO_RPI_BCM::set_gpio_mode_out * * @param pin */ void set_gpio_mode_alt(int pin, int alternative); /** * @brief Set a specific GPIO as input * Check Linux::GPIO_RPI_BCM::set_gpio_mode_alt for more information. * * @param pin */ void set_gpio_mode_in(int pin); /** * @brief Set a specific GPIO as output * Check Linux::GPIO_RPI_BCM::set_gpio_mode_alt for more information. * * @param pin */ void set_gpio_mode_out(int pin); /** * @brief Modify GPSET0 (GPIO Pin Output Set 0) register to set pin as high * Writing zero to this register has no effect, please use Linux::GPIO_RPI_BCM::set_gpio_low * to set pin as low. * * GPSET0 is a 32bits register that each bit points to a respective GPIO pin: * 0b...101 * ││└── GPIO Pin 1, 1st bit, LSBit, defined as High * │└─── GPIO Pin 2, 2nd bit, No effect * └──── GPIO Pin 3, 3rd bit, defined as High * ... * * @param pin */ void set_gpio_high(int pin); /** * @brief Modify GPCLR0 (GPIO Pin Output Clear 0) register to set pin as low * Writing zero to this register has no effect, please use Linux::GPIO_RPI_BCM::set_gpio_high * to set pin as high. * * GPCLR0 is a 32bits register that each bit points to a respective GPIO pin: * 0b...101 * ││└── GPIO Pin 1, 1st bit, LSBit, defined as Low * │└─── GPIO Pin 2, 2nd bit, No effect * └──── GPIO Pin 3, 3rd bit, defined as Low * * @param pin */ void set_gpio_low(int pin); /** * @brief Read GPLEV0 (GPIO Pin Level 0) register check the logic state of a specific pin * * GPLEV0 is a 32bits register that each bit points to a respective GPIO pin: * 0b...101 * ││└── GPIO Pin 1, 1st bit, LSBit, Pin is in High state * │└─── GPIO Pin 2, 2nd bit, Pin is in Low state * └──── GPIO Pin 3, 3rd bit, Pin is in High state * * @param pin * @return true * @return false */ bool get_gpio_logic_state(int pin); // Memory pointer to gpio registers volatile uint32_t* _gpio; // Memory range for the gpio registers static const uint8_t _gpio_registers_memory_range; // Path to memory device (E.g: /dev/mem) static const char* _system_memory_device_path; // File descriptor for the memory device file // If it's negative, then there was an error opening the file. int _system_memory_device; // store GPIO output status. uint32_t _gpio_output_port_status = 0x00; }; }