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Added cable/bluetooth multiplexing

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This commit is contained in:
Mark Qvist 2022-10-30 18:35:53 +01:00
parent cf4ad22086
commit bea14dcf05
3 changed files with 148 additions and 119 deletions
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227
Utilities.h
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@ -456,220 +456,233 @@ int8_t led_standby_direction = 0;
#endif
#endif
void serial_write(uint8_t byte) {
#if HAS_BLUETOOTH
if (bt_state != BT_STATE_CONNECTED) {
Serial.write(byte);
} else {
Serial.printf("BT Echo: %02X\n", byte);
SerialBT.write(byte);
}
#else
Serial.write(byte);
#endif
}
void escapedSerialWrite(uint8_t byte) {
if (byte == FEND) { Serial.write(FESC); byte = TFEND; }
if (byte == FESC) { Serial.write(FESC); byte = TFESC; }
Serial.write(byte);
if (byte == FEND) { serial_write(FESC); byte = TFEND; }
if (byte == FESC) { serial_write(FESC); byte = TFESC; }
serial_write(byte);
}
void kiss_indicate_reset() {
Serial.write(FEND);
Serial.write(CMD_RESET);
Serial.write(CMD_RESET_BYTE);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_RESET);
serial_write(CMD_RESET_BYTE);
serial_write(FEND);
}
void kiss_indicate_error(uint8_t error_code) {
Serial.write(FEND);
Serial.write(CMD_ERROR);
Serial.write(error_code);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_ERROR);
serial_write(error_code);
serial_write(FEND);
}
void kiss_indicate_radiostate() {
Serial.write(FEND);
Serial.write(CMD_RADIO_STATE);
Serial.write(radio_online);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_RADIO_STATE);
serial_write(radio_online);
serial_write(FEND);
}
void kiss_indicate_stat_rx() {
Serial.write(FEND);
Serial.write(CMD_STAT_RX);
serial_write(FEND);
serial_write(CMD_STAT_RX);
escapedSerialWrite(stat_rx>>24);
escapedSerialWrite(stat_rx>>16);
escapedSerialWrite(stat_rx>>8);
escapedSerialWrite(stat_rx);
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_stat_tx() {
Serial.write(FEND);
Serial.write(CMD_STAT_TX);
serial_write(FEND);
serial_write(CMD_STAT_TX);
escapedSerialWrite(stat_tx>>24);
escapedSerialWrite(stat_tx>>16);
escapedSerialWrite(stat_tx>>8);
escapedSerialWrite(stat_tx);
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_stat_rssi() {
uint8_t packet_rssi_val = (uint8_t)(last_rssi+rssi_offset);
Serial.write(FEND);
Serial.write(CMD_STAT_RSSI);
serial_write(FEND);
serial_write(CMD_STAT_RSSI);
escapedSerialWrite(packet_rssi_val);
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_stat_snr() {
Serial.write(FEND);
Serial.write(CMD_STAT_SNR);
serial_write(FEND);
serial_write(CMD_STAT_SNR);
escapedSerialWrite(last_snr_raw);
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_radio_lock() {
Serial.write(FEND);
Serial.write(CMD_RADIO_LOCK);
Serial.write(radio_locked);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_RADIO_LOCK);
serial_write(radio_locked);
serial_write(FEND);
}
void kiss_indicate_spreadingfactor() {
Serial.write(FEND);
Serial.write(CMD_SF);
Serial.write((uint8_t)lora_sf);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_SF);
serial_write((uint8_t)lora_sf);
serial_write(FEND);
}
void kiss_indicate_codingrate() {
Serial.write(FEND);
Serial.write(CMD_CR);
Serial.write((uint8_t)lora_cr);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_CR);
serial_write((uint8_t)lora_cr);
serial_write(FEND);
}
void kiss_indicate_implicit_length() {
Serial.write(FEND);
Serial.write(CMD_IMPLICIT);
Serial.write(implicit_l);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_IMPLICIT);
serial_write(implicit_l);
serial_write(FEND);
}
void kiss_indicate_txpower() {
Serial.write(FEND);
Serial.write(CMD_TXPOWER);
Serial.write((uint8_t)lora_txp);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_TXPOWER);
serial_write((uint8_t)lora_txp);
serial_write(FEND);
}
void kiss_indicate_bandwidth() {
Serial.write(FEND);
Serial.write(CMD_BANDWIDTH);
serial_write(FEND);
serial_write(CMD_BANDWIDTH);
escapedSerialWrite(lora_bw>>24);
escapedSerialWrite(lora_bw>>16);
escapedSerialWrite(lora_bw>>8);
escapedSerialWrite(lora_bw);
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_frequency() {
Serial.write(FEND);
Serial.write(CMD_FREQUENCY);
serial_write(FEND);
serial_write(CMD_FREQUENCY);
escapedSerialWrite(lora_freq>>24);
escapedSerialWrite(lora_freq>>16);
escapedSerialWrite(lora_freq>>8);
escapedSerialWrite(lora_freq);
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_random(uint8_t byte) {
Serial.write(FEND);
Serial.write(CMD_RANDOM);
Serial.write(byte);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_RANDOM);
serial_write(byte);
serial_write(FEND);
}
void kiss_indicate_fbstate() {
Serial.write(FEND);
Serial.write(CMD_FB_EXT);
serial_write(FEND);
serial_write(CMD_FB_EXT);
#if HAS_DISPLAY
if (disp_ext_fb) {
Serial.write(0x01);
serial_write(0x01);
} else {
Serial.write(0x00);
serial_write(0x00);
}
#else
Serial.write(0xFF)
serial_write(0xFF)
#endif
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_fb() {
Serial.write(FEND);
Serial.write(CMD_FB_READ);
serial_write(FEND);
serial_write(CMD_FB_READ);
#if HAS_DISPLAY
for (int i = 0; i < 512; i++) {
uint8_t byte = fb[i];
if (byte == FEND) { Serial.write(FESC); byte = TFEND; }
if (byte == FESC) { Serial.write(FESC); byte = TFESC; }
Serial.write(byte);
if (byte == FEND) { serial_write(FESC); byte = TFEND; }
if (byte == FESC) { serial_write(FESC); byte = TFESC; }
serial_write(byte);
}
#else
Serial.write(0xFF)
serial_write(0xFF)
#endif
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_ready() {
Serial.write(FEND);
Serial.write(CMD_READY);
Serial.write(0x01);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_READY);
serial_write(0x01);
serial_write(FEND);
}
void kiss_indicate_not_ready() {
Serial.write(FEND);
Serial.write(CMD_READY);
Serial.write(0x00);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_READY);
serial_write(0x00);
serial_write(FEND);
}
void kiss_indicate_promisc() {
Serial.write(FEND);
Serial.write(CMD_PROMISC);
serial_write(FEND);
serial_write(CMD_PROMISC);
if (promisc) {
Serial.write(0x01);
serial_write(0x01);
} else {
Serial.write(0x00);
serial_write(0x00);
}
Serial.write(FEND);
serial_write(FEND);
}
void kiss_indicate_detect() {
Serial.write(FEND);
Serial.write(CMD_DETECT);
Serial.write(DETECT_RESP);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_DETECT);
serial_write(DETECT_RESP);
serial_write(FEND);
}
void kiss_indicate_version() {
Serial.write(FEND);
Serial.write(CMD_FW_VERSION);
Serial.write(MAJ_VERS);
Serial.write(MIN_VERS);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_FW_VERSION);
serial_write(MAJ_VERS);
serial_write(MIN_VERS);
serial_write(FEND);
}
void kiss_indicate_platform() {
Serial.write(FEND);
Serial.write(CMD_PLATFORM);
Serial.write(PLATFORM);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_PLATFORM);
serial_write(PLATFORM);
serial_write(FEND);
}
void kiss_indicate_board() {
Serial.write(FEND);
Serial.write(CMD_BOARD);
Serial.write(BOARD_MODEL);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_BOARD);
serial_write(BOARD_MODEL);
serial_write(FEND);
}
void kiss_indicate_mcu() {
Serial.write(FEND);
Serial.write(CMD_MCU);
Serial.write(MCU_VARIANT);
Serial.write(FEND);
serial_write(FEND);
serial_write(CMD_MCU);
serial_write(MCU_VARIANT);
serial_write(FEND);
}
inline bool isSplitPacket(uint8_t header) {
@ -796,10 +809,10 @@ void eeprom_dump_all() {
}
void kiss_dump_eeprom() {
Serial.write(FEND);
Serial.write(CMD_ROM_READ);
serial_write(FEND);
serial_write(CMD_ROM_READ);
eeprom_dump_all();
Serial.write(FEND);
serial_write(FEND);
}
void eeprom_update(int mapped_addr, uint8_t byte) {