#include "RS232Bridge.h" #include #include #ifdef WITH_RS232_BRIDGE // Static Fletcher-16 checksum calculation // Based on: https://en.wikipedia.org/wiki/Fletcher%27s_checksum // Used to verify data integrity of received packets inline static uint16_t fletcher16(const uint8_t *bytes, const size_t len) { uint8_t sum1 = 0, sum2 = 0; for (size_t i = 0; i < len; i++) { sum1 = (sum1 + bytes[i]) % 255; sum2 = (sum2 + sum1) % 255; } return (sum2 << 8) | sum1; }; const char* RS232Bridge::getLogDateTime() { static char tmp[32]; uint32_t now = _rtc->getCurrentTime(); DateTime dt = DateTime(now); sprintf(tmp, "%02d:%02d:%02d - %d/%d/%d U", dt.hour(), dt.minute(), dt.second(), dt.day(), dt.month(), dt.year()); return tmp; } RS232Bridge::RS232Bridge(Stream& serial, mesh::PacketManager* mgr, mesh::RTCClock* rtc) : _serial(&serial), _mgr(mgr), _rtc(rtc) {} void RS232Bridge::begin() { #if !defined(WITH_RS232_BRIDGE_RX) || !defined(WITH_RS232_BRIDGE_TX) #error "WITH_RS232_BRIDGE_RX and WITH_RS232_BRIDGE_TX must be defined" #endif #if defined(ESP32) ((HardwareSerial *)_serial)->setPins(WITH_RS232_BRIDGE_RX, WITH_RS232_BRIDGE_TX); #elif defined(NRF52_PLATFORM) ((HardwareSerial *)_serial)->setPins(WITH_RS232_BRIDGE_RX, WITH_RS232_BRIDGE_TX); #elif defined(RP2040_PLATFORM) ((SerialUART *)_serial)->setRX(WITH_RS232_BRIDGE_RX); ((SerialUART *)_serial)->setTX(WITH_RS232_BRIDGE_TX); #elif defined(STM32_PLATFORM) ((HardwareSerial *)_serial)->setRx(WITH_RS232_BRIDGE_RX); ((HardwareSerial *)_serial)->setTx(WITH_RS232_BRIDGE_TX); #else #error RS232Bridge was not tested on the current platform #endif ((HardwareSerial*)_serial)->begin(115200); } void RS232Bridge::onPacketTransmitted(mesh::Packet* packet) { if (!_seen_packets.hasSeen(packet)) { uint8_t buffer[MAX_SERIAL_PACKET_SIZE]; uint16_t len = packet->writeTo(buffer + 4); buffer[0] = (SERIAL_PKT_MAGIC >> 8) & 0xFF; buffer[1] = SERIAL_PKT_MAGIC & 0xFF; buffer[2] = (len >> 8) & 0xFF; buffer[3] = len & 0xFF; uint16_t checksum = fletcher16(buffer + 4, len); buffer[4 + len] = (checksum >> 8) & 0xFF; buffer[5 + len] = checksum & 0xFF; _serial->write(buffer, len + SERIAL_OVERHEAD); #if MESH_PACKET_LOGGING Serial.printf("%s: BRIDGE: TX, len=%d crc=0x%04x\n", getLogDateTime(), len, checksum); #endif } } void RS232Bridge::loop() { while (_serial->available()) { uint8_t b = _serial->read(); if (_rx_buffer_pos < 2) { // Waiting for magic word if ((_rx_buffer_pos == 0 && b == ((SERIAL_PKT_MAGIC >> 8) & 0xFF)) || (_rx_buffer_pos == 1 && b == (SERIAL_PKT_MAGIC & 0xFF))) { _rx_buffer[_rx_buffer_pos++] = b; } else { _rx_buffer_pos = 0; } } else { // Reading length, payload, and checksum _rx_buffer[_rx_buffer_pos++] = b; if (_rx_buffer_pos >= 4) { uint16_t len = (_rx_buffer[2] << 8) | _rx_buffer[3]; if (len > (MAX_TRANS_UNIT + 1)) { _rx_buffer_pos = 0; // Invalid length, reset return; } if (_rx_buffer_pos == len + SERIAL_OVERHEAD) { // Full packet received uint16_t checksum = (_rx_buffer[4 + len] << 8) | _rx_buffer[5 + len]; if (checksum == fletcher16(_rx_buffer + 4, len)) { #if MESH_PACKET_LOGGING Serial.printf("%s: BRIDGE: RX, len=%d crc=0x%04x\n", getLogDateTime(), len, checksum); #endif mesh::Packet* pkt = _mgr->allocNew(); if (pkt) { pkt->readFrom(_rx_buffer + 4, len); onPacketReceived(pkt); } } _rx_buffer_pos = 0; // Reset for next packet } } } } } void RS232Bridge::onPacketReceived(mesh::Packet* packet) { if (!_seen_packets.hasSeen(packet)) { _mgr->queueInbound(packet, 0); } else { _mgr->free(packet); } } #endif