Implemented adaptive CSMA scheme

This commit is contained in:
Mark Qvist 2023-09-14 22:32:26 +02:00
parent 9fd379486d
commit b61bead60a
4 changed files with 60 additions and 30 deletions

View File

@ -290,7 +290,10 @@
// MCU independent configuration parameters // MCU independent configuration parameters
const long serial_baudrate = 115200; const long serial_baudrate = 115200;
const int lora_rx_turnaround_ms = 50; const int lora_rx_turnaround_ms = 50;
const int csma_slot_ms = lora_rx_turnaround_ms; uint8_t csma_p = 0;
float csma_p_min = 0.1;
float csma_p_max = 0.8;
int csma_slot_ms = lora_rx_turnaround_ms;
// SX1276 RSSI offset to get dBm value from // SX1276 RSSI offset to get dBm value from
// packet RSSI register // packet RSSI register
@ -311,11 +314,11 @@
// Operational variables // Operational variables
bool radio_locked = true; bool radio_locked = true;
bool radio_online = false; bool radio_online = false;
bool community_fw = true; bool community_fw = true;
bool hw_ready = false; bool hw_ready = false;
bool radio_error = false; bool radio_error = false;
bool disp_ready = false; bool disp_ready = false;
bool pmu_ready = false; bool pmu_ready = false;
bool promisc = false; bool promisc = false;
bool implicit = false; bool implicit = false;
uint8_t implicit_l = 0; uint8_t implicit_l = 0;
@ -370,11 +373,12 @@
bool stat_signal_detected = false; bool stat_signal_detected = false;
bool stat_signal_synced = false; bool stat_signal_synced = false;
bool stat_rx_ongoing = false; bool stat_rx_ongoing = false;
bool dcd = false; bool dcd = false;
bool dcd_led = false; bool dcd_led = false;
bool dcd_waiting = false; bool dcd_waiting = false;
long dcd_wait_until = 0;
uint16_t dcd_count = 0; uint16_t dcd_count = 0;
uint16_t dcd_threshold = 15; uint16_t dcd_threshold = 6;
uint32_t status_interval_ms = STATUS_INTERVAL_MS; uint32_t status_interval_ms = STATUS_INTERVAL_MS;
uint32_t last_status_update = 0; uint32_t last_status_update = 0;
@ -396,7 +400,7 @@
float battery_percent = 0.0; float battery_percent = 0.0;
uint8_t battery_state = 0x00; uint8_t battery_state = 0x00;
uint8_t display_intensity = 0xFF; uint8_t display_intensity = 0xFF;
bool display_diagnostics = true; bool display_diagnostics = true;
bool device_init_done = false; bool device_init_done = false;
bool eeprom_ok = false; bool eeprom_ok = false;
bool firmware_update_mode = false; bool firmware_update_mode = false;

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@ -99,11 +99,11 @@ upload-mega2560:
arduino-cli upload -p /dev/ttyACM0 --fqbn arduino:avr:mega arduino-cli upload -p /dev/ttyACM0 --fqbn arduino:avr:mega
upload-tbeam: upload-tbeam:
arduino-cli upload -p /dev/ttyUSB1 --fqbn esp32:esp32:t-beam arduino-cli upload -p /dev/ttyACM0 --fqbn esp32:esp32:t-beam
@sleep 1 @sleep 1
rnodeconf /dev/ttyUSB1 --firmware-hash $$(./partition_hashes ./build/esp32.esp32.t-beam/RNode_Firmware.ino.bin) rnodeconf /dev/ttyACM0 --firmware-hash $$(./partition_hashes ./build/esp32.esp32.t-beam/RNode_Firmware.ino.bin)
@sleep 3 @sleep 3
python ./Release/esptool/esptool.py --chip esp32 --port /dev/ttyUSB1 --baud 921600 --before default_reset --after hard_reset write_flash -z --flash_mode dio --flash_freq 80m --flash_size 4MB 0x210000 ./Release/console_image.bin python ./Release/esptool/esptool.py --chip esp32 --port /dev/ttyACM0 --baud 921600 --before default_reset --after hard_reset write_flash -z --flash_mode dio --flash_freq 80m --flash_size 4MB 0x210000 ./Release/console_image.bin
upload-lora32_v10: upload-lora32_v10:
arduino-cli upload -p /dev/ttyUSB0 --fqbn esp32:esp32:ttgo-lora32 arduino-cli upload -p /dev/ttyUSB0 --fqbn esp32:esp32:ttgo-lora32

View File

@ -373,6 +373,7 @@ void flushQueue(void) {
if (!queue_flushing) { if (!queue_flushing) {
queue_flushing = true; queue_flushing = true;
led_tx_on();
uint16_t processed = 0; uint16_t processed = 0;
#if MCU_VARIANT == MCU_ESP32 #if MCU_VARIANT == MCU_ESP32
@ -394,6 +395,9 @@ void flushQueue(void) {
processed++; processed++;
} }
} }
lora_receive();
led_tx_off();
} }
queue_height = 0; queue_height = 0;
@ -439,6 +443,7 @@ void update_airtime() {
} }
longterm_channel_util = (float)longterm_channel_util_sum/(float)AIRTIME_BINS; longterm_channel_util = (float)longterm_channel_util_sum/(float)AIRTIME_BINS;
update_csma_p();
kiss_indicate_channel_stats(); kiss_indicate_channel_stats();
#endif #endif
} }
@ -446,7 +451,6 @@ void update_airtime() {
void transmit(uint16_t size) { void transmit(uint16_t size) {
if (radio_online) { if (radio_online) {
if (!promisc) { if (!promisc) {
led_tx_on();
uint16_t written = 0; uint16_t written = 0;
uint8_t header = random(256) & 0xF0; uint8_t header = random(256) & 0xF0;
@ -471,9 +475,6 @@ void transmit(uint16_t size) {
} }
LoRa.endPacket(); add_airtime(written); LoRa.endPacket(); add_airtime(written);
led_tx_off();
lora_receive();
} else { } else {
// In promiscuous mode, we only send out // In promiscuous mode, we only send out
// plain raw LoRa packets with a maximum // plain raw LoRa packets with a maximum
@ -500,9 +501,6 @@ void transmit(uint16_t size) {
written++; written++;
} }
LoRa.endPacket(); add_airtime(written); LoRa.endPacket(); add_airtime(written);
led_tx_off();
lora_receive();
} }
} else { } else {
kiss_indicate_error(ERROR_TXFAILED); kiss_indicate_error(ERROR_TXFAILED);
@ -934,7 +932,7 @@ void updateModemStatus() {
} }
} else { } else {
if (dcd_count > 0) { if (dcd_count > 0) {
dcd_count--; dcd_count = 0;
} else { } else {
dcd_led = false; dcd_led = false;
} }
@ -1099,6 +1097,13 @@ void validate_status() {
} }
} }
#define _e 2.71828183
#define _S 10.0
float csma_slope(float u) { return (pow(_e,_S*u-_S/2.0))/(pow(_e,_S*u-_S/2.0)+1.0); }
void update_csma_p() {
csma_p = (uint8_t)((1.0-(csma_p_min+(csma_p_max-csma_p_min)*csma_slope(airtime)))*255.0);
}
void loop() { void loop() {
if (radio_online) { if (radio_online) {
checkModemStatus(); checkModemStatus();
@ -1121,21 +1126,41 @@ void loop() {
if (!airtime_lock) { if (!airtime_lock) {
if (queue_height > 0) { if (queue_height > 0) {
if (!dcd_waiting) updateModemStatus(); #if MCU_VARIANT == MCU_ESP32
if (!dcd && !dcd_led) { if (dcd_waiting && (millis() >= dcd_wait_until)) { dcd_waiting = false; }
if (dcd_waiting) delay(lora_rx_turnaround_ms); if (!dcd_waiting) {
updateModemStatus();
long check_time = millis();
updateModemStatus(); if (!dcd) {
uint8_t csma_r = (uint8_t)random(256);
if (!dcd) { if (csma_p >= csma_r) {
dcd_waiting = false; flushQueue();
flushQueue(); } else {
dcd_waiting = true;
dcd_wait_until = check_time+csma_slot_ms;
}
}
} }
#else
if (!dcd_waiting) updateModemStatus();
} else { if (!dcd && !dcd_led) {
dcd_waiting = true; if (dcd_waiting) delay(lora_rx_turnaround_ms);
}
updateModemStatus();
if (!dcd) {
dcd_waiting = false;
flushQueue();
}
} else {
dcd_waiting = true;
}
#endif
} }
} }

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@ -912,6 +912,7 @@ void updateBitrate() {
lora_symbol_time_ms = (1.0/lora_symbol_rate)*1000.0; lora_symbol_time_ms = (1.0/lora_symbol_rate)*1000.0;
lora_bitrate = (uint32_t)(lora_sf * ( (4.0/(float)lora_cr) / ((float)(pow(2, lora_sf))/((float)lora_bw/1000.0)) ) * 1000.0); lora_bitrate = (uint32_t)(lora_sf * ( (4.0/(float)lora_cr) / ((float)(pow(2, lora_sf))/((float)lora_bw/1000.0)) ) * 1000.0);
lora_us_per_byte = 1000000.0/((float)lora_bitrate/8.0); lora_us_per_byte = 1000000.0/((float)lora_bitrate/8.0);
csma_slot_ms = lora_symbol_time_ms*10;
} else { } else {
lora_bitrate = 0; lora_bitrate = 0;
} }