ESP32-PaxCounter/src/timesync.cpp
2020-12-09 11:01:54 +01:00

281 lines
9.0 KiB
C++

/*
///--> IMPORTANT LICENSE NOTE for timesync option 1 in this file <--///
PLEASE NOTE: There is a patent filed for the time sync algorithm used in the
code of this file for timesync option TIME_SYNC_LORASERVER. The shown
implementation example is covered by the repository's licencse, but you may not
be eligible to deploy the applied algorithm in applications without granted
license by the patent holder.
You may use timesync option TIME_SYNC_LORAWAN if you do not want or cannot
accept this.
*/
#if (TIME_SYNC_LORASERVER) && (TIME_SYNC_LORAWAN)
#error Duplicate timesync method selected. You must select either LORASERVER or LORAWAN timesync.
#endif
#include "timesync.h"
// Local logging tag
static const char TAG[] = __FILE__;
static bool timeSyncPending = false;
static uint8_t time_sync_seqNo = (uint8_t)random(TIME_SYNC_MAX_SEQNO),
sample_idx;
static uint32_t timesync_timestamp[TIME_SYNC_SAMPLES][no_of_timestamps];
static TaskHandle_t timeSyncProcTask;
// create task for timeserver handshake processing, called from main.cpp
void timesync_init(void) {
xTaskCreatePinnedToCore(timesync_processReq, // task function
"timesync_proc", // name of task
4096, // stack size of task
(void *)1, // task parameter
3, // priority of the task
&timeSyncProcTask, // task handle
1); // CPU core
}
// kickoff asnychronous timesync handshake
void timesync_request(void) {
// exit if a timesync handshake is already running
if (timeSyncPending)
return;
// start timesync handshake
else {
ESP_LOGI(TAG, "[%0.3f] Timeserver sync request started, seqNo#%d",
_seconds(), time_sync_seqNo);
xTaskNotifyGive(timeSyncProcTask); // unblock timesync task
}
}
// task for processing time sync request
void IRAM_ATTR timesync_processReq(void *taskparameter) {
uint32_t rcv_seqNo = TIME_SYNC_END_FLAG;
uint32_t time_offset_sec = 0, time_offset_ms = 0;
// this task is an endless loop, waiting in blocked mode, until it is
// unblocked by timesync_request(). It then waits to be notified from
// timesync_serverAnswer(), which is called from LMIC each time a timestamp
// from the timesource via LORAWAN arrived.
// --- asnychronous part: generate and collect timestamps from gateway ---
while (1) {
// wait for kickoff
ulTaskNotifyTake(pdFALSE, portMAX_DELAY);
// initialize flag and counters
timeSyncPending = true;
time_offset_ms = sample_idx = 0;
if (++time_sync_seqNo > TIME_SYNC_MAX_SEQNO)
time_sync_seqNo = 0;
// wait until we are joined if we are not
while (!LMIC.devaddr) {
vTaskDelay(pdMS_TO_TICKS(3000));
}
// collect timestamp samples in timestamp array
for (uint8_t i = 0; i < TIME_SYNC_SAMPLES; i++) {
// send timesync request
#if (TIME_SYNC_LORASERVER) // ask user's timeserver (for LoRAWAN < 1.0.3)
payload.reset();
payload.addByte(time_sync_seqNo);
SendPayload(TIMEPORT);
#elif (TIME_SYNC_LORAWAN) // ask network (requires LoRAWAN >= 1.0.3)
LMIC_requestNetworkTime(timesync_serverAnswer, &time_sync_seqNo);
// trigger to immediately get DevTimeAns from class A device
LMIC_sendAlive();
#endif
// wait until a timestamp was received
if (xTaskNotifyWait(0x00, ULONG_MAX, &rcv_seqNo,
pdMS_TO_TICKS(TIME_SYNC_TIMEOUT * 1000)) == pdFALSE) {
ESP_LOGW(TAG, "[d%0.3f] Timesync aborted: timed out",
_seconds());
goto Fail; // no timestamp received before timeout
}
// check if we are in handshake with server
if (rcv_seqNo != time_sync_seqNo) {
ESP_LOGW(TAG, "[%0.3f] Timesync aborted: handshake out of sync",
_seconds());
goto Fail;
}
#if (TIME_SYNC_LORASERVER)
// calculate time diff with received timestamp
time_offset_ms += timesync_timestamp[sample_idx][timesync_rx] -
timesync_timestamp[sample_idx][timesync_tx];
#endif
// increment sample index
sample_idx++;
// if we are not in last cycle, pause until next cycle
if (i < TIME_SYNC_SAMPLES - 1)
vTaskDelay(pdMS_TO_TICKS(TIME_SYNC_CYCLE * 1000));
} // for i
// --- time critial part: evaluate timestamps and calculate time ---
// mask application irq to ensure accurate timing
mask_user_IRQ();
// calculate average time offset over the summed up difference
time_offset_ms /= TIME_SYNC_SAMPLES;
// take latest timestamp received from gateway
// and add time difference rounded to whole seconds
time_offset_sec = timesync_timestamp[sample_idx - 1][gwtime_sec];
time_offset_sec += time_offset_ms / 1000;
// add milliseconds from latest gateway time, and apply a compensation
// constant for processing times on node and gateway, strip full seconds
time_offset_ms += timesync_timestamp[sample_idx - 1][gwtime_msec];
time_offset_ms += TIME_SYNC_FIXUP;
time_offset_ms %= 1000;
setMyTime(time_offset_sec, time_offset_ms, _lora);
// send timesync end char to show timesync was successful
payload.reset();
payload.addByte(TIME_SYNC_END_FLAG);
SendPayload(TIMEPORT);
goto Finish;
Fail:
// set retry timer
timesyncer.attach(TIME_SYNC_INTERVAL_RETRY * 60, setTimeSyncIRQ);
// intentionally fallthrough to Finish here
Finish:
// end of time critical section: release app irq lock
timeSyncPending = false;
unmask_user_IRQ();
} // infinite while(1)
}
// store incoming timestamps
void timesync_store(uint32_t timestamp, timesync_t timestamp_type) {
ESP_LOGD(TAG, "[%0.3f] seq#%d[%d]: t%d=%d", _seconds(),
time_sync_seqNo, sample_idx, timestamp_type, timestamp);
timesync_timestamp[sample_idx][timestamp_type] = timestamp;
}
// callback function to receive time answer from network or answer
void IRAM_ATTR timesync_serverAnswer(void *pUserData, int flag) {
#if (TIME_SYNC_LORASERVER) || (TIME_SYNC_LORAWAN)
// if no timesync handshake is pending then exit
if (!timeSyncPending)
return;
// mask application irq to ensure accurate timing
mask_user_IRQ();
// return code: 0 = failed / 1 = success
int rc = 0;
// cast back void parameter to a pointer
uint8_t *p = (uint8_t *)pUserData, rcv_seqNo = *p;
uint16_t timestamp_msec = 0;
uint32_t timestamp_sec = 0;
#if (TIME_SYNC_LORASERVER)
// pUserData: contains pointer (32bit) to payload buffer
// flag: length of buffer
// Store the instant the time request of the node was received on the gateway
timesync_store(osticks2ms(os_getTime()), timesync_rx);
// parse pUserData:
// p type meaning
// +0 uint8_t sequence number (taken from node's time_sync_req)
// +1 uint32_t current second (from UTC epoch)
// +4 uint8_t 1/250ths fractions of current second
// swap byte order from msb to lsb, note: this is a platform dependent hack
timestamp_sec = __builtin_bswap32(*(uint32_t *)(++p));
// one step being 1/250th sec * 1000 = 4msec
timestamp_msec = *(p += 4) * 4;
// if no time is available or spurious buffer then exit
if (flag != TIME_SYNC_FRAME_LENGTH) {
if (rcv_seqNo == TIME_SYNC_END_FLAG)
ESP_LOGI(TAG, "[%0.3f] Timeserver error: no confident time available",
_seconds());
else
ESP_LOGW(TAG, "[%0.3f] Timeserver error: spurious data received",
_seconds());
goto Exit; // failure
}
goto Finish;
#elif (TIME_SYNC_LORAWAN)
// pUserData: contains pointer to SeqNo (not needed here)
// flag: indicates if we got a recent time from the network
uint32_t delay_msec;
lmic_time_reference_t lmicTime;
if (flag != 1) {
ESP_LOGW(TAG, "[%0.3f] Network did not answer time request",
_seconds());
goto Exit;
}
// Populate lmic_time_reference
if ((LMIC_getNetworkTimeReference(&lmicTime)) != 1) {
ESP_LOGW(TAG, "[%0.3f] Network time request failed", _seconds());
goto Exit;
}
// Calculate UTCTime, considering the difference between GPS and UTC time
// epoch, and the leap seconds
timestamp_sec = lmicTime.tNetwork + GPS_UTC_DIFF;
// Add the delay between the instant the time was transmitted and
// the current time
delay_msec = osticks2ms(os_getTime() - lmicTime.tLocal);
timestamp_sec += delay_msec / 1000;
timestamp_msec += delay_msec % 1000;
goto Finish;
#endif // (TIME_SYNC_LORAWAN)
Finish:
// check if calculated time is recent
if (timeIsValid(timestamp_sec)) {
// store time received from gateway
timesync_store(timestamp_sec, gwtime_sec);
timesync_store(timestamp_msec, gwtime_msec);
// success
rc = 1;
} else {
ESP_LOGW(TAG, "[%0.3f] Timeserver error: outdated time received",
_seconds());
}
Exit:
// end of time critical section: release app irq lock
unmask_user_IRQ();
// inform processing task
xTaskNotify(timeSyncProcTask, (rc ? rcv_seqNo : TIME_SYNC_END_FLAG),
eSetBits);
#endif // (TIME_SYNC_LORASERVER) || (TIME_SYNC_LORAWAN)
}