New 5-byte time sync protocol
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@ -7,11 +7,11 @@
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#include "timekeeper.h"
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//#define TIME_SYNC_TRIGGER 100 // threshold for time sync [milliseconds]
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#define TIME_SYNC_FRAME_LENGTH 0x06 // timeserver answer frame length [bytes]
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#define TIME_SYNC_FRAME_LENGTH 0x05 // timeserver answer frame length [bytes]
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#define TIME_SYNC_FIXUP 6 // calibration to fixup processing time [milliseconds]
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void send_timesync_req(void);
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int recv_timesync_ans(uint8_t buf[], uint8_t buf_len);
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int recv_timesync_ans(uint8_t seq_no, uint8_t buf[], uint8_t buf_len);
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void process_timesync_req(void *taskparameter);
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void store_time_sync_req(uint32_t t_millisec);
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void IRAM_ATTR setMyTime(uint32_t t_sec, uint16_t t_msec);
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File diff suppressed because one or more lines are too long
@ -256,16 +256,24 @@ void onEvent(ev_t ev) {
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sprintf(display_line6, "RSSI %d SNR %d", LMIC.rssi, LMIC.snr / 4);
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if (LMIC.txrxFlags & TXRX_PORT) { // FPort -> use to switch
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switch (LMIC.frame[LMIC.dataBeg - 1]) {
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#if (TIME_SYNC_LORASERVER)
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case TIMEPORT: // timesync answer -> call timesync processor
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recv_timesync_ans(LMIC.frame + LMIC.dataBeg, LMIC.dataLen);
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break;
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#endif
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case RCMDPORT: // opcode -> call rcommand interpreter
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rcommand(LMIC.frame + LMIC.dataBeg, LMIC.dataLen);
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break;
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default: // unknown port -> display info
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#if (TIME_SYNC_LORASERVER)
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// timesync answer -> call timesync processor
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if ((LMIC.frame[LMIC.dataBeg - 1] >= TIMEANSWERPORT_MIN) &&
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(LMIC.frame[LMIC.dataBeg - 1] <= TIMEANSWERPORT_MAX)) {
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recv_timesync_ans(LMIC.frame[LMIC.dataBeg - 1],
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LMIC.frame + LMIC.dataBeg, LMIC.dataLen);
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break;
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}
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#endif
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ESP_LOGI(TAG, "Received data on unsupported port #%d",
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LMIC.frame[LMIC.dataBeg - 1]);
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break;
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@ -91,7 +91,9 @@
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#define BEACONPORT 6 // beacon alarms
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#define BMEPORT 7 // BME680 sensor
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#define BATTPORT 8 // battery voltage
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#define TIMEPORT 9 // time
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#define TIMEPORT 9 // time query
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#define TIMEANSWERPORT_MIN 0xA0 // time answer, start of port range
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#define TIMEANSWERPORT_MAX 0xDF // time answer, end of port range
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#define SENSOR1PORT 10 // user sensor #1
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#define SENSOR2PORT 11 // user sensor #2
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#define SENSOR3PORT 12 // user sensor #3
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@ -20,7 +20,7 @@ static const char TAG[] = __FILE__;
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TaskHandle_t timeSyncReqTask;
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static uint8_t time_sync_seqNo = 0;
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static uint8_t time_sync_seqNo = TIMEANSWERPORT_MIN;
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static bool lora_time_sync_pending = false;
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typedef std::chrono::system_clock myClock;
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@ -75,9 +75,6 @@ void process_timesync_req(void *taskparameter) {
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// enqueue timestamp samples in lora sendqueue
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for (uint8_t i = 0; i < TIME_SYNC_SAMPLES; i++) {
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// wrap around seqNo 0 .. 254
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time_sync_seqNo = (time_sync_seqNo < 255) ? time_sync_seqNo + 1 : 0;
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// send sync request to server
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payload.reset();
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payload.addByte(time_sync_seqNo);
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@ -96,6 +93,11 @@ void process_timesync_req(void *taskparameter) {
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time_offset_ms += time_point_cast<milliseconds>(time_sync_rx[k]) -
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time_point_cast<milliseconds>(time_sync_tx[k]);
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// wrap around seqNo keeping it in time port range
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time_sync_seqNo = (time_sync_seqNo < TIMEANSWERPORT_MAX)
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? time_sync_seqNo + 1
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: TIMEANSWERPORT_MIN;
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if (i < TIME_SYNC_SAMPLES - 1) {
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// wait until next cycle
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vTaskDelay(pdMS_TO_TICKS(TIME_SYNC_CYCLE * 1000));
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@ -149,19 +151,21 @@ error:
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// called from lorawan.cpp after time_sync_req was sent
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void store_time_sync_req(uint32_t timestamp) {
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uint8_t k = time_sync_seqNo % TIME_SYNC_SAMPLES;
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if (lora_time_sync_pending) {
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time_sync_tx[k] += milliseconds(timestamp);
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uint8_t k = time_sync_seqNo % TIME_SYNC_SAMPLES;
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time_sync_tx[k] += milliseconds(timestamp);
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ESP_LOGD(TAG, "[%0.3f] Timesync request #%d sent at %d.%03d",
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millis() / 1000.0, time_sync_seqNo, timestamp / 1000,
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timestamp % 1000);
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ESP_LOGD(TAG, "[%0.3f] Timesync request #%d sent at %d.%03d",
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millis() / 1000.0, time_sync_seqNo, timestamp / 1000,
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timestamp % 1000);
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}
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}
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// process timeserver timestamp answer, called from lorawan.cpp
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int recv_timesync_ans(uint8_t buf[], uint8_t buf_len) {
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int recv_timesync_ans(uint8_t seq_no, uint8_t buf[], uint8_t buf_len) {
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// if no timesync handshake is pending or spurious buffer then exit
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// if no timesync handshake is pending then exit
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if (!lora_time_sync_pending)
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return 0; // failure
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@ -178,18 +182,18 @@ int recv_timesync_ans(uint8_t buf[], uint8_t buf_len) {
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else { // we received a probably valid time frame
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uint8_t seq_no = buf[0], k = seq_no % TIME_SYNC_SAMPLES;
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uint8_t k = seq_no % TIME_SYNC_SAMPLES;
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uint16_t timestamp_msec; // convert 1/250th sec fractions to ms
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uint32_t timestamp_sec;
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// fetch timeserver time from 4 bytes containing the UTC seconds since
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// unix epoch. Octet order is big endian. Casts are necessary, because buf
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// is an array of single byte values, and they might overflow when shifted
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timestamp_sec = ((uint32_t)buf[4]) | (((uint32_t)buf[3]) << 8) |
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(((uint32_t)buf[2]) << 16) | (((uint32_t)buf[1]) << 24);
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timestamp_sec = ((uint32_t)buf[3]) | (((uint32_t)buf[2]) << 8) |
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(((uint32_t)buf[1]) << 16) | (((uint32_t)buf[0]) << 24);
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// the 5th byte contains the fractional seconds in 2^-8 second steps
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timestamp_msec = 4 * buf[5];
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timestamp_msec = 4 * buf[4];
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// construct the timepoint when message was seen on gateway
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time_sync_rx[k] += seconds(timestamp_sec) + milliseconds(timestamp_msec);
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