// Copyright (C) 2023, Mark Qvist // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // This program 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 General Public License for more details. // You should have received a copy of the GNU General Public License // along with this program. If not, see . #include "ROM.h" #include "Boards.h" #ifndef CONFIG_H #define CONFIG_H #define MAJ_VERS 0x01 #define MIN_VERS 0x4b #define MODE_HOST 0x11 #define MODE_TNC 0x12 #define CABLE_STATE_DISCONNECTED 0x00 #define CABLE_STATE_CONNECTED 0x01 uint8_t cable_state = CABLE_STATE_DISCONNECTED; #define BT_STATE_NA 0xff #define BT_STATE_OFF 0x00 #define BT_STATE_ON 0x01 #define BT_STATE_PAIRING 0x02 #define BT_STATE_CONNECTED 0x03 uint8_t bt_state = BT_STATE_NA; uint32_t bt_ssp_pin = 0; bool bt_ready = false; bool bt_enabled = false; bool bt_allow_pairing = false; #define M_FRQ_S 27388122 #define M_FRQ_R 27388061 bool console_active = false; bool modem_installed = false; #define MTU 508 #define SINGLE_MTU 255 #define HEADER_L 1 #define MIN_L 1 #define CMD_L 64 bool mw_radio_online = false; #define eeprom_addr(a) (a+EEPROM_OFFSET) #if (MODEM == SX1262 || MODEM == SX1280) && defined(NRF52840_XXAA) SPIClass spiModem(NRF_SPIM2, pin_miso, pin_sclk, pin_mosi); #endif // MCU independent configuration parameters const long serial_baudrate = 115200; // SX1276 RSSI offset to get dBm value from // packet RSSI register const int rssi_offset = 157; // Default LoRa settings const int lora_rx_turnaround_ms = 66; const int lora_post_tx_yield_slots = 6; uint32_t post_tx_yield_timeout = 0; #define LORA_PREAMBLE_SYMBOLS_HW 4 #define LORA_PREAMBLE_SYMBOLS_MIN 18 #define LORA_PREAMBLE_TARGET_MS 15 #define LORA_CAD_SYMBOLS 3 int csma_slot_ms = 50; float csma_p_min = 0.1; float csma_p_max = 0.8; uint8_t csma_p = 0; int lora_sf = 0; int lora_cr = 5; int lora_txp = 0xFF; uint32_t lora_bw = 0; uint32_t lora_freq = 0; uint32_t lora_bitrate = 0; long lora_preamble_symbols = 6; float lora_symbol_time_ms = 0.0; float lora_symbol_rate = 0.0; float lora_us_per_byte = 0.0; // Operational variables bool radio_locked = true; bool radio_online = false; bool community_fw = true; bool hw_ready = false; bool radio_error = false; bool disp_ready = false; bool pmu_ready = false; bool promisc = false; bool implicit = false; uint8_t implicit_l = 0; uint8_t op_mode = MODE_HOST; uint8_t model = 0x00; uint8_t hwrev = 0x00; int current_rssi = -292; int last_rssi = -292; uint8_t last_rssi_raw = 0x00; uint8_t last_snr_raw = 0x80; uint8_t seq = 0xFF; uint16_t read_len = 0; // Incoming packet buffer uint8_t pbuf[MTU]; // KISS command buffer uint8_t cmdbuf[CMD_L]; // LoRa transmit buffer uint8_t tbuf[MTU]; uint32_t stat_rx = 0; uint32_t stat_tx = 0; #define STATUS_INTERVAL_MS 3 #if MCU_VARIANT == MCU_ESP32 || MCU_VARIANT == MCU_NRF52 #define DCD_SAMPLES 2500 #define UTIL_UPDATE_INTERVAL_MS 1000 #define UTIL_UPDATE_INTERVAL (UTIL_UPDATE_INTERVAL_MS/STATUS_INTERVAL_MS) #define AIRTIME_LONGTERM 3600 #define AIRTIME_LONGTERM_MS (AIRTIME_LONGTERM*1000) #define AIRTIME_BINLEN_MS (STATUS_INTERVAL_MS*DCD_SAMPLES) #define AIRTIME_BINS ((AIRTIME_LONGTERM*1000)/AIRTIME_BINLEN_MS) bool util_samples[DCD_SAMPLES]; uint16_t airtime_bins[AIRTIME_BINS]; float longterm_bins[AIRTIME_BINS]; int dcd_sample = 0; float local_channel_util = 0.0; float total_channel_util = 0.0; float longterm_channel_util = 0.0; float airtime = 0.0; float longterm_airtime = 0.0; #define current_airtime_bin(void) (millis()%AIRTIME_LONGTERM_MS)/AIRTIME_BINLEN_MS #endif float st_airtime_limit = 0.0; float lt_airtime_limit = 0.0; bool airtime_lock = false; bool stat_signal_detected = false; bool stat_signal_synced = false; bool stat_rx_ongoing = false; bool dcd = false; bool dcd_led = false; bool dcd_waiting = false; long dcd_wait_until = 0; uint16_t dcd_count = 0; uint16_t dcd_threshold = 2; uint32_t status_interval_ms = STATUS_INTERVAL_MS; uint32_t last_status_update = 0; uint32_t last_dcd = 0; // Status flags const uint8_t SIG_DETECT = 0x01; const uint8_t SIG_SYNCED = 0x02; const uint8_t RX_ONGOING = 0x04; // Power management #define BATTERY_STATE_UNKNOWN 0x00 #define BATTERY_STATE_DISCHARGING 0x01 #define BATTERY_STATE_CHARGING 0x02 #define BATTERY_STATE_CHARGED 0x03 bool battery_installed = false; bool battery_indeterminate = false; bool external_power = false; bool battery_ready = false; float battery_voltage = 0.0; float battery_percent = 0.0; uint8_t battery_state = 0x00; uint8_t display_intensity = 0xFF; uint8_t display_addr = 0xFF; bool display_blanking_enabled = false; bool display_diagnostics = true; bool device_init_done = false; bool eeprom_ok = false; bool firmware_update_mode = false; // Boot flags #define START_FROM_BOOTLOADER 0x01 #define START_FROM_POWERON 0x02 #define START_FROM_BROWNOUT 0x03 #define START_FROM_JTAG 0x04 #endif