#include #include #include #include #include #include "AnalogIn_Navio2.h" static const AP_HAL::HAL &hal = AP_HAL::get_HAL(); #define ADC_BASE_PATH "/sys/kernel/rcio/adc" void AnalogSource_Navio2::set_channel(uint8_t pin) { char *channel_path; if (pin == ANALOG_INPUT_NONE) { return; } if (asprintf(&channel_path, "%s/ch%d", ADC_BASE_PATH, pin) == -1) { AP_HAL::panic("asprintf failed\n"); } if (_fd >= 0) { ::close(_fd); } _fd = ::open(channel_path, O_RDONLY|O_CLOEXEC); if (_fd < 0) { hal.console->printf("%s not opened: %s\n", channel_path, strerror(errno)); } free(channel_path); } AnalogSource_Navio2::AnalogSource_Navio2(uint8_t pin) : _pin(pin) { set_channel(pin); } void AnalogSource_Navio2::set_pin(uint8_t pin) { if (_pin == pin) { return; } set_channel(pin); _pin = pin; } float AnalogSource_Navio2::read_average() { return read_latest(); } float AnalogSource_Navio2::read_latest() { return voltage_average(); } float AnalogSource_Navio2::voltage_average() { char buffer[12]; if (pread(_fd, buffer, sizeof(buffer) - 1, 0) <= 0) { /* Don't log fails since this could spam the console */ return -1.0f; } /* Avoid overriding NULL char at the end of the string */ buffer[sizeof(buffer) - 1] = '\0'; _value = atoi(buffer) / 1000.0f; return _value; } float AnalogSource_Navio2::voltage_latest() { read_latest(); return _value; } float AnalogSource_Navio2::voltage_average_ratiometric() { return voltage_average(); } AnalogIn_Navio2::AnalogIn_Navio2() { } float AnalogIn_Navio2::board_voltage(void) { return _board_voltage_pin->voltage_average(); } float AnalogIn_Navio2::servorail_voltage(void) { return _servorail_pin->voltage_average(); } AP_HAL::AnalogSource *AnalogIn_Navio2::channel(int16_t pin) { for (uint8_t j = 0; j < _channels_number; j++) { if (_channels[j] == nullptr) { _channels[j] = new AnalogSource_Navio2(pin); return _channels[j]; } } hal.console->printf("Out of analog channels\n"); return nullptr; } void AnalogIn_Navio2::init() { _board_voltage_pin = channel(0); _servorail_pin = channel(1); }