// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*- // // Interrupt-driven serial transmit/receive library. // // Copyright (c) 2010 Michael Smith. All rights reserved. // // Receive and baudrate calculations derived from the Arduino // HardwareSerial driver: // // Copyright (c) 2006 Nicholas Zambetti. All right reserved. // // Transmit algorithm inspired by work: // // Code Jose Julio and Jordi Munoz. DIYDrones.com // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA // //#include "../AP_Common/AP_Common.h" #include "FastSerial.h" #if defined(ARDUINO) && ARDUINO >= 100 #include "Arduino.h" #else #include "WProgram.h" #endif #if defined(UDR3) # define FS_MAX_PORTS 4 #elif defined(UDR2) # define FS_MAX_PORTS 3 #elif defined(UDR1) # define FS_MAX_PORTS 2 #else # define FS_MAX_PORTS 1 #endif FastSerial::Buffer __FastSerial__rxBuffer[FS_MAX_PORTS]; FastSerial::Buffer __FastSerial__txBuffer[FS_MAX_PORTS]; uint8_t FastSerial::_serialInitialized = 0; // Constructor ///////////////////////////////////////////////////////////////// FastSerial::FastSerial(const uint8_t portNumber, volatile uint8_t *ubrrh, volatile uint8_t *ubrrl, volatile uint8_t *ucsra, volatile uint8_t *ucsrb, const uint8_t u2x, const uint8_t portEnableBits, const uint8_t portTxBits) : _ubrrh(ubrrh), _ubrrl(ubrrl), _ucsra(ucsra), _ucsrb(ucsrb), _u2x(u2x), _portEnableBits(portEnableBits), _portTxBits(portTxBits), _rxBuffer(&__FastSerial__rxBuffer[portNumber]), _txBuffer(&__FastSerial__txBuffer[portNumber]) { setInitialized(portNumber); begin(57600); } // Public Methods ////////////////////////////////////////////////////////////// void FastSerial::begin(long baud) { begin(baud, 0, 0); } void FastSerial::begin(long baud, unsigned int rxSpace, unsigned int txSpace) { uint16_t ubrr; bool use_u2x = true; // if we are currently open... if (_open) { // If the caller wants to preserve the buffer sizing, work out what // it currently is... if (0 == rxSpace) rxSpace = _rxBuffer->mask + 1; if (0 == txSpace) txSpace = _txBuffer->mask + 1; // close the port in its current configuration, clears _open end(); } // allocate buffers if (!_allocBuffer(_rxBuffer, rxSpace ? : _default_rx_buffer_size) || !_allocBuffer(_txBuffer, txSpace ? : _default_tx_buffer_size)) { end(); return; // couldn't allocate buffers - fatal } // reset buffer pointers _txBuffer->head = _txBuffer->tail = 0; _rxBuffer->head = _rxBuffer->tail = 0; // mark the port as open _open = true; // If the user has supplied a new baud rate, compute the new UBRR value. if (baud > 0) { #if F_CPU == 16000000UL // hardcoded exception for compatibility with the bootloader shipped // with the Duemilanove and previous boards and the firmware on the 8U2 // on the Uno and Mega 2560. if (baud == 57600) use_u2x = false; #endif if (use_u2x) { *_ucsra = 1 << _u2x; ubrr = (F_CPU / 4 / baud - 1) / 2; } else { *_ucsra = 0; ubrr = (F_CPU / 8 / baud - 1) / 2; } *_ubrrh = ubrr >> 8; *_ubrrl = ubrr; } *_ucsrb |= _portEnableBits; } void FastSerial::end() { *_ucsrb &= ~(_portEnableBits | _portTxBits); _freeBuffer(_rxBuffer); _freeBuffer(_txBuffer); _open = false; } int FastSerial::available(void) { if (!_open) return (-1); return ((_rxBuffer->head - _rxBuffer->tail) & _rxBuffer->mask); } int FastSerial::txspace(void) { if (!_open) return (-1); return ((_txBuffer->mask+1) - ((_txBuffer->head - _txBuffer->tail) & _txBuffer->mask)); } int FastSerial::read(void) { uint8_t c; // if the head and tail are equal, the buffer is empty if (!_open || (_rxBuffer->head == _rxBuffer->tail)) return (-1); // pull character from tail c = _rxBuffer->bytes[_rxBuffer->tail]; _rxBuffer->tail = (_rxBuffer->tail + 1) & _rxBuffer->mask; return (c); } int FastSerial::peek(void) { // if the head and tail are equal, the buffer is empty if (!_open || (_rxBuffer->head == _rxBuffer->tail)) return (-1); // pull character from tail return (_rxBuffer->bytes[_rxBuffer->tail]); } void FastSerial::flush(void) { // don't reverse this or there may be problems if the RX interrupt // occurs after reading the value of _rxBuffer->head but before writing // the value to _rxBuffer->tail; the previous value of head // may be written to tail, making it appear as if the buffer // don't reverse this or there may be problems if the RX interrupt // occurs after reading the value of head but before writing // the value to tail; the previous value of rx_buffer_head // may be written to tail, making it appear as if the buffer // were full, not empty. _rxBuffer->head = _rxBuffer->tail; // don't reverse this or there may be problems if the TX interrupt // occurs after reading the value of _txBuffer->tail but before writing // the value to _txBuffer->head. _txBuffer->tail = _txBuffer->head; } #if defined(ARDUINO) && ARDUINO >= 100 size_t FastSerial::write(uint8_t c) { uint16_t i; if (!_open) // drop bytes if not open return 0; // wait for room in the tx buffer i = (_txBuffer->head + 1) & _txBuffer->mask; // if the port is set into non-blocking mode, then drop the byte // if there isn't enough room for it in the transmit buffer if (_nonblocking_writes && i == _txBuffer->tail) { return 0; } while (i == _txBuffer->tail) ; // add byte to the buffer _txBuffer->bytes[_txBuffer->head] = c; _txBuffer->head = i; // enable the data-ready interrupt, as it may be off if the buffer is empty *_ucsrb |= _portTxBits; // return number of bytes written (always 1) return 1; } #else void FastSerial::write(uint8_t c) { uint16_t i; if (!_open) // drop bytes if not open return; // wait for room in the tx buffer i = (_txBuffer->head + 1) & _txBuffer->mask; while (i == _txBuffer->tail) ; // add byte to the buffer _txBuffer->bytes[_txBuffer->head] = c; _txBuffer->head = i; // enable the data-ready interrupt, as it may be off if the buffer is empty *_ucsrb |= _portTxBits; } #endif // Buffer management /////////////////////////////////////////////////////////// bool FastSerial::_allocBuffer(Buffer *buffer, unsigned int size) { uint16_t mask; uint8_t shift; // init buffer state buffer->head = buffer->tail = 0; // Compute the power of 2 greater or equal to the requested buffer size // and then a mask to simplify wrapping operations. Using __builtin_clz // would seem to make sense, but it uses a 256(!) byte table. // Note that we ignore requests for more than BUFFER_MAX space. for (shift = 1; (1U << shift) < min(_max_buffer_size, size); shift++) ; mask = (1 << shift) - 1; // If the descriptor already has a buffer allocated we need to take // care of it. if (buffer->bytes) { // If the allocated buffer is already the correct size then // we have nothing to do if (buffer->mask == mask) return true; // Dispose of the old buffer. free(buffer->bytes); } buffer->mask = mask; // allocate memory for the buffer - if this fails, we fail. buffer->bytes = (uint8_t *) malloc(buffer->mask + 1); return (buffer->bytes != NULL); } void FastSerial::_freeBuffer(Buffer *buffer) { buffer->head = buffer->tail = 0; buffer->mask = 0; if (NULL != buffer->bytes) { free(buffer->bytes); buffer->bytes = NULL; } }