#include #if CONFIG_HAL_BOARD == HAL_BOARD_LINUX #include #include #include "SPIUARTDriver.h" #include extern const AP_HAL::HAL& hal; #define SPIUART_DEBUG 0 #include #if SPIUART_DEBUG #define debug(fmt, args ...) do {hal.console->printf("[SPIUARTDriver]: %s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); } while(0) #define error(fmt, args ...) do {fprintf(stderr,"%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); } while(0) #else #define debug(fmt, args ...) #define error(fmt, args ...) #endif using namespace Linux; SPIUARTDriver::SPIUARTDriver() : UARTDriver(false), _spi(NULL), _spi_sem(NULL), _last_update_timestamp(0), _buffer(NULL), _external(false) { _readbuf = NULL; _writebuf = NULL; } bool SPIUARTDriver::sem_take_nonblocking() { return _spi_sem->take_nonblocking(); } void SPIUARTDriver::sem_give() { _spi_sem->give(); } void SPIUARTDriver::begin(uint32_t b, uint16_t rxS, uint16_t txS) { if (device_path != NULL) { UARTDriver::begin(b,rxS,txS); if ( is_initialized()) { _external = true; return; } } if (rxS < 1024) { rxS = 2048; } if (txS < 1024) { txS = 2048; } /* allocate the read buffer */ if (rxS != 0 && rxS != _readbuf_size) { _readbuf_size = rxS; if (_readbuf != NULL) { free(_readbuf); } _readbuf = (uint8_t *)malloc(_readbuf_size); _readbuf_head = 0; _readbuf_tail = 0; } /* allocate the write buffer */ if (txS != 0 && txS != _writebuf_size) { _writebuf_size = txS; if (_writebuf != NULL) { free(_writebuf); } _writebuf = (uint8_t *)malloc(_writebuf_size); _writebuf_head = 0; _writebuf_tail = 0; } if (_buffer == NULL) { /* Do not allocate new buffer, if we're just changing speed */ _buffer = new uint8_t[rxS]; if (_buffer == NULL) { hal.console->printf("Not enough memory\n"); hal.scheduler->panic("Not enough memory\n"); } } _spi = hal.spi->device(AP_HAL::SPIDevice_Ublox); if (_spi == NULL) { hal.scheduler->panic("Cannot get SPIDevice_Ublox"); } _spi_sem = _spi->get_semaphore(); switch (b) { case 4000000U: if (is_initialized()) { /* Do not allow speed changes before device is initialized, because * it can lead to misconfiguraration. Once the device is initialized, * it's sage to update speed */ _spi->set_bus_speed(AP_HAL::SPIDeviceDriver::SPI_SPEED_HIGH); debug("Set higher SPI-frequency"); } else { _spi->set_bus_speed(AP_HAL::SPIDeviceDriver::SPI_SPEED_LOW); debug("Set lower SPI-frequency"); } break; default: _spi->set_bus_speed(AP_HAL::SPIDeviceDriver::SPI_SPEED_LOW); debug("Set lower SPI-frequency"); debug("%s: wrong baudrate (%u) for SPI-driven device. setting default speed", __func__, b); break; } _initialised = true; } int SPIUARTDriver::_write_fd(const uint8_t *buf, uint16_t size) { if (_external) { return UARTDriver::_write_fd(buf,size); } if (!sem_take_nonblocking()) { return 0; } _spi->transaction(buf, _buffer, size); sem_give(); BUF_ADVANCEHEAD(_writebuf, size); uint16_t ret = size; /* Since all SPI-transactions are transfers we need update * the _readbuf. I do believe there is a way to encapsulate * this operation since it's the same as in the * UARTDriver::write(). */ uint8_t *buffer = _buffer; uint16_t _head, space; space = BUF_SPACE(_readbuf); if (space == 0) { return ret; } if (size > space) { size = space; } if (_readbuf_tail < _head) { // perform as single memcpy assert(_readbuf_tail+size <= _readbuf_size); memcpy(&_readbuf[_readbuf_tail], buffer, size); BUF_ADVANCETAIL(_readbuf, size); return ret; } // perform as two memcpy calls uint16_t n = _readbuf_size - _readbuf_tail; if (n > size) n = size; assert(_readbuf_tail+n <= _readbuf_size); memcpy(&_readbuf[_readbuf_tail], buffer, n); BUF_ADVANCETAIL(_readbuf, n); buffer += n; n = size - n; if (n > 0) { assert(_readbuf_tail+n <= _readbuf_size); memcpy(&_readbuf[_readbuf_tail], buffer, n); BUF_ADVANCETAIL(_readbuf, n); } return ret; } static const uint8_t ff_stub[300] = {0xff}; int SPIUARTDriver::_read_fd(uint8_t *buf, uint16_t n) { if (_external) { return UARTDriver::_read_fd(buf, n); } if (!sem_take_nonblocking()) { return 0; } /* Make SPI transactions shorter. It can save SPI bus from keeping too * long. It's essential for NavIO as MPU9250 is on the same bus and * doesn't like to be waiting. Making transactions more frequent but shorter * is a win. */ if (n > 100) { n = 100; } _spi->transaction(ff_stub, buf, n); sem_give(); BUF_ADVANCETAIL(_readbuf, n); return n; } void SPIUARTDriver::_timer_tick(void) { if (_external) { UARTDriver::_timer_tick(); return; } /* lower the update rate */ if (hal.scheduler->micros() - _last_update_timestamp < 10000) { return; } UARTDriver::_timer_tick(); _last_update_timestamp = hal.scheduler->micros(); } #endif