#include "GPIO_Sysfs.h" #include #include #include #include #include #include "Util.h" #define LOW 0 #define HIGH 1 #define assert_vpin(v_, max_, ...) do { \ if (v_ >= max_) { \ hal.console->printf("warning (%s): vpin %u out of range [0, %u)\n",\ __PRETTY_FUNCTION__, v_, max_); \ return __VA_ARGS__; \ } \ } while (0) using namespace Linux; extern const AP_HAL::HAL& hal; #define UINT32_MAX_STR "4294967295" /* Trick to use minimum stack space for each of the params */ union gpio_params { char export_gpio[sizeof("export")]; char direction[sizeof("gpio" UINT32_MAX_STR "/direction")]; char value[sizeof("gpio" UINT32_MAX_STR "/value")]; }; #define GPIO_BASE_PATH "/sys/class/gpio/" #define GPIO_PATH_MAX (sizeof(GPIO_BASE_PATH) + sizeof(gpio_params) - 1) DigitalSource_Sysfs::DigitalSource_Sysfs(unsigned pin, int value_fd) : _pin(pin) , _value_fd(value_fd) { } DigitalSource_Sysfs::~DigitalSource_Sysfs() { if (_value_fd >= 0) { ::close(_value_fd); } } uint8_t DigitalSource_Sysfs::read() { char char_value; if (::pread(_value_fd, &char_value, 1, 0) < 0) { hal.console->printf("DigitalSource_Sysfs: Unable to read pin %u value.\n", _pin); return LOW; } return char_value - '0'; } void DigitalSource_Sysfs::write(uint8_t value) { if (::pwrite(_value_fd, value == HIGH ? "1" : "0", 1, 0) < 0) { hal.console->printf("DigitalSource_Sysfs: Unable to write pin %u value.\n", _pin); } } void DigitalSource_Sysfs::mode(uint8_t output) { auto gpio_sysfs = GPIO_Sysfs::from(hal.gpio); gpio_sysfs->_pinMode(_pin, output); } void DigitalSource_Sysfs::toggle() { write(!read()); } void GPIO_Sysfs::init() { #ifdef HAL_GPIO_SCRIPT if (!_script.thread_created) { _script.thread_created = true; if (!hal.scheduler->thread_create(FUNCTOR_BIND_MEMBER(&GPIO_Sysfs::_gpio_script_thread, void), "GPIO_Script", 4096, AP_HAL::Scheduler::PRIORITY_IO, -1)) { AP_HAL::panic("Unable to create GPIO_Script thread"); } } #endif } void GPIO_Sysfs::pinMode(uint8_t vpin, uint8_t output) { #ifdef HAL_GPIO_SCRIPT if (vpin >= n_pins && output) { return; } #endif assert_vpin(vpin, n_pins); _export_pin(vpin); _pinMode(pin_table[vpin], output); } void GPIO_Sysfs::_pinMode(unsigned int pin, uint8_t output) { const char *dir = output ? "out" : "in"; char path[GPIO_PATH_MAX]; int r = snprintf(path, GPIO_PATH_MAX, GPIO_BASE_PATH "gpio%u/direction", pin); if (r < 0 || r >= (int)GPIO_PATH_MAX || Util::from(hal.util)->write_file(path, "%s", dir) < 0) { hal.console->printf("GPIO_Sysfs: Unable to set pin %u mode.\n", pin); } } int GPIO_Sysfs::_open_pin_value(unsigned int pin, int flags) { char path[GPIO_PATH_MAX]; int fd; int r = snprintf(path, GPIO_PATH_MAX, GPIO_BASE_PATH "gpio%u/value", pin); if (r < 0 || r >= (int)GPIO_PATH_MAX || (fd = open(path, flags | O_CLOEXEC)) < 0) { hal.console->printf("GPIO_Sysfs: Unable to get value file descriptor for pin %u.\n", pin); return -1; } return fd; } uint8_t GPIO_Sysfs::read(uint8_t vpin) { assert_vpin(vpin, n_pins, LOW); const unsigned pin = pin_table[vpin]; int fd = _open_pin_value(pin, O_RDONLY); if (fd < 0) { goto error; } char char_value; if (::pread(fd, &char_value, 1, 0) < 0) { goto error; } close(fd); return char_value - '0'; error: hal.console->printf("GPIO_Sysfs: Unable to read pin %u value.\n", vpin); return LOW; } void GPIO_Sysfs::write(uint8_t vpin, uint8_t value) { #ifdef HAL_GPIO_SCRIPT if (vpin >= n_pins) { _gpio_script_write(vpin, value); return; } #endif assert_vpin(vpin, n_pins); const unsigned pin = pin_table[vpin]; int fd = _open_pin_value(pin, O_WRONLY); if (fd < 0) { goto error; } if (::pwrite(fd, value == HIGH ? "1" : "0", 1, 0) < 0) { goto error; } close(fd); return; error: hal.console->printf("GPIO_Sysfs: Unable to write pin %u value.\n", vpin); } void GPIO_Sysfs::toggle(uint8_t vpin) { write(vpin, !read(vpin)); } AP_HAL::DigitalSource* GPIO_Sysfs::channel(uint16_t vpin) { assert_vpin(vpin, n_pins, nullptr); const unsigned pin = pin_table[vpin]; int value_fd = -1; if (_export_pin(vpin)) { value_fd = _open_pin_value(pin, O_RDWR); } /* Even if we couldn't open the fd, return a new DigitalSource and let * reads and writes fail later due to invalid. Otherwise we * could crash in undesired places */ return NEW_NOTHROW DigitalSource_Sysfs(pin, value_fd); } bool GPIO_Sysfs::usb_connected(void) { return false; } bool GPIO_Sysfs::_export_pin(uint8_t vpin) { #ifdef HAL_GPIO_SCRIPT if (vpin >= n_pins) { return false; } #endif assert_vpin(vpin, n_pins, false); const unsigned int pin = pin_table[vpin]; char gpio_path[GPIO_PATH_MAX]; int fd; int r = snprintf(gpio_path, GPIO_PATH_MAX, GPIO_BASE_PATH "gpio%u", pin); if (r < 0 || r >= (int) GPIO_PATH_MAX) { goto fail_snprintf; } if (access(gpio_path, F_OK) == 0) { // Already exported return true; } fd = open(GPIO_BASE_PATH "export", O_WRONLY | O_CLOEXEC); if (fd < 0) { goto fail_open; } // Try to export if (dprintf(fd, "%u", pin) < 0) { goto fail_export; } close(fd); return true; fail_export: close(fd); fail_open: fail_snprintf: hal.console->printf("GPIO_Sysfs: Unable to export pin %u.\n", pin); return false; } #ifdef HAL_GPIO_SCRIPT /* support using an external script triggered by a write to a GPIO value. This is called whenever a GPIO request is made that is for an unknown pin value. The script is called by a separate thread, and only one script can be run at a time. This prevents the scripts using too many resources */ void GPIO_Sysfs::_gpio_script_write(uint8_t vpin, uint8_t value) { pin_value_t pv; pv.pin = vpin; pv.value = value; _script.pending.push(pv); } /* thread for running GPIO scripts */ void GPIO_Sysfs::_gpio_script_thread(void) { while (true) { // don't run more than 20/sec hal.scheduler->delay(50); pin_value_t pv; if (_script.pending.pop(pv)) { char cmd[100]; snprintf(cmd, sizeof(cmd)-1, "/bin/sh %s %u %u", HAL_GPIO_SCRIPT, pv.pin, pv.value); hal.console->printf("Running: %s\n", cmd); const int system_ret = system(cmd); if (system_ret != 0) { hal.console->printf("Unexpected return value (%d)\n", system_ret); } } } } #endif // HAL_GPIO_SCRIPT