Merge pull request #459 from GreyRook/add-timezone
refactor of time synchronization protocol
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commit
dd2dcf32cb
@ -7,12 +7,14 @@
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#include "timekeeper.h"
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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_TRIGGER 100 // threshold for time sync [milliseconds]
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#define TIME_SYNC_FRAME_LENGTH 0x05 // timeserver answer frame length [bytes]
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#define TIME_SYNC_FRAME_LENGTH 0x07 // timeserver answer frame length [bytes]
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#define TIME_SYNC_FIXUP 4 // calibration to fixup processing time [milliseconds]
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#define TIME_SYNC_FIXUP 4 // calibration to fixup processing time [milliseconds]
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void timesync_init(void);
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void timesync_init(void);
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void send_timesync_req(void);
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void send_timesync_req(void);
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int recv_timesync_ans(const uint8_t seq_no, const uint8_t buf[], const uint8_t buf_len);
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int recv_timesync_ans(const uint8_t buf[], uint8_t buf_len);
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void process_timesync_req(void *taskparameter);
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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 store_time_sync_req(uint32_t t_millisec);
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@ -187,7 +187,7 @@
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"type": "function",
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"type": "function",
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"z": "449c1517.e25f4c",
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"z": "449c1517.e25f4c",
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"name": "Timeserver Logic",
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"name": "Timeserver Logic",
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"func": "/* LoRaWAN Timeserver\n\nconstruct 5 byte timesync_answer from gateway timestamp and node's time_sync_req\n\nbyte meaning\n1..4 current second (from epoch time 1970)\n5 1/250ths fractions of current second\n\nFPort = sequence number (taken from node's time_sync_req)\n\n*/\n\nfunction timecompare(a, b) {\n \n const timeA = a.time;\n const timeB = b.time;\n\n let comparison = 0;\n if (timeA > timeB) {\n comparison = 1;\n } else if (timeA < timeB) {\n comparison = -1;\n }\n return comparison;\n}\n\nlet confidence = 2000; // max millisecond diff gateway time to server time\n\n// guess if we have received a valid time_sync_req command\nif (msg.payload.payload_raw.length != 1)\n return;\n\nvar deviceMsg = { payload: msg.payload.dev_id };\nvar seqNo = msg.payload.payload_raw[0];\nvar seqNoMsg = { payload: seqNo };\nvar gateway_list = msg.payload.metadata.gateways;\n\n// filter all gateway timestamps that have milliseconds part (which we assume have a \".\")\nvar gateways = gateway_list.filter(function (element) {\n return (element.time.includes(\".\"));\n});\n\nvar gateway_time = gateways.map(gw => {\n return {\n time: new Date(gw.time),\n eui: gw.gtw_id,\n }\n });\nvar server_time = new Date(msg.payload.metadata.time);\n\n// validate all gateway timestamps against lorawan server_time (which is assumed to be recent)\nvar gw_timestamps = gateway_time.filter(function (element) {\n return ((element.time > (server_time - confidence) && element.time <= server_time));\n});\n\n// if no timestamp left, we have no valid one and exit\nif (gw_timestamps.length === 0) {\n var notavailMsg = { payload: \"n/a\" };\n var notimeMsg = { payload: 0xff }; \n var buf2 = Buffer.alloc(1);\n msg.payload = new Buffer(buf2.fill(0xff));\n return [notavailMsg, notavailMsg, deviceMsg, seqNoMsg, msg];}\n\n// sort time array in ascending order to find most recent timestamp for time answer\ngw_timestamps.sort(timecompare);\n\nvar timestamp = gw_timestamps[0].time;\nvar eui = gw_timestamps[0].eui;\nvar offset = server_time - timestamp;\n\nvar seconds = Math.floor(timestamp/1000);\nvar fractions = (timestamp % 1000) / 4;\n\nlet buf = new ArrayBuffer(5);\nnew DataView(buf).setUint32(0, seconds);\nnew DataView(buf).setUint8(4, fractions);\n\nmsg.payload = new Buffer(new Uint8Array(buf));\nmsg.port = seqNo;\nvar euiMsg = { payload: eui };\nvar offsetMsg = { payload: offset };\n\nreturn [euiMsg, offsetMsg, deviceMsg, seqNoMsg, msg];",
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"func": "/* LoRaWAN Timeserver\n\nconstruct 5 byte timesync_answer from gateway timestamp and node's time_sync_req\n\nbyte meaning\n1..4 current second (from epoch time 1970)\n5 1/250ths fractions of current second\n\nFPort = sequence number (taken from node's time_sync_req)\n\n*/\n\nfunction timecompare(a, b) {\n \n const timeA = a.time;\n const timeB = b.time;\n\n let comparison = 0;\n if (timeA > timeB) {\n comparison = 1;\n } else if (timeA < timeB) {\n comparison = -1;\n }\n return comparison;\n}\n\nlet confidence = 2000; // max millisecond diff gateway time to server time\n\n// guess if we have received a valid time_sync_req command\nif (msg.payload.payload_raw.length != 1)\n return;\n\nvar deviceMsg = { payload: msg.payload.dev_id };\nvar seqNo = msg.payload[0];\nvar seqNoMsg = { payload: seqNo };\nvar gateway_list = msg.payload.metadata.gateways;\n\n// filter all gateway timestamps that have milliseconds part (which we assume have a \".\")\nvar gateways = gateway_list.filter(function (element) {\n return (element.time.includes(\".\"));\n});\n\nvar gateway_time = gateways.map(gw => {\n return {\n time: new Date(gw.time),\n eui: gw.gtw_id,\n }\n });\nvar server_time = new Date(msg.payload.metadata.time);\n\n// validate all gateway timestamps against lorawan server_time (which is assumed to be recent)\nvar gw_timestamps = gateway_time.filter(function (element) {\n return ((element.time > (server_time - confidence) && element.time <= server_time));\n});\n\n// if no timestamp left, we have no valid one and exit\nif (gw_timestamps.length === 0) {\n var notavailMsg = { payload: \"n/a\" };\n var notimeMsg = { payload: 0xff }; \n var buf2 = Buffer.alloc(1);\n msg.payload = new Buffer(buf2.fill(0xff));\n return [notavailMsg, notavailMsg, deviceMsg, seqNoMsg, msg];}\n\n// sort time array in ascending order to find most recent timestamp for time answer\ngw_timestamps.sort(timecompare);\n\nvar timestamp = gw_timestamps[0].time;\nvar eui = gw_timestamps[0].eui;\nvar offset = server_time - timestamp;\n\nvar seconds = Math.floor(timestamp/1000);\nvar fractions = (timestamp % 1000) / 4;\n\nlet buf = new ArrayBuffer(7);\nnew DataView(buf).setUint8(0, seqNo);\n// Timezone (in 15min steps)\nvar timezone = 8; // CET = UTC+2h\nnew DataView(buf).setUint8(1, timezone);\nnew DataView(buf).setUint32(2, seconds);\nnew DataView(buf).setUint8(6, fractions);\n\nmsg.payload = new Buffer(new Uint8Array(buf));\nmsg.port = 9;\nvar euiMsg = { payload: eui };\nvar offsetMsg = { payload: offset };\n\nreturn [euiMsg, offsetMsg, deviceMsg, seqNoMsg, msg];",
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"outputs": 5,
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"outputs": 5,
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"noerr": 0,
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"noerr": 0,
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"x": 350,
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"x": 350,
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@ -561,8 +561,8 @@ void myRxCallback(void *pUserData, uint8_t port, const uint8_t *pMsg,
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#if (TIME_SYNC_LORASERVER)
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#if (TIME_SYNC_LORASERVER)
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// valid timesync answer -> call timesync processor
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// valid timesync answer -> call timesync processor
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if ((port >= TIMEANSWERPORT_MIN) && (port <= TIMEANSWERPORT_MAX)) {
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if (port == TIMEPORT) {
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recv_timesync_ans(port, pMsg, nMsg);
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recv_timesync_ans(pMsg, nMsg);
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break;
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break;
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}
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}
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#endif
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#endif
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@ -97,9 +97,9 @@
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#define BEACONPORT 6 // beacon alarms
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#define BEACONPORT 6 // beacon alarms
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#define BMEPORT 7 // BME680 sensor
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#define BMEPORT 7 // BME680 sensor
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#define BATTPORT 8 // battery voltage
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#define BATTPORT 8 // battery voltage
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#define TIMEPORT 9 // time query
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#define TIMEPORT 9 // time query and response
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#define TIMEANSWERPORT_MIN 0xA0 // time answer, start of port range
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#define TIMEDIFFPORT 13 // time adjust diff
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#define TIMEANSWERPORT_MAX 0xDF // time answer, end of port range
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#define TIMEREQUEST_MAX_SEQNO 250 // time answer, start of port range
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#define SENSOR1PORT 10 // user sensor #1
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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 SENSOR2PORT 11 // user sensor #2
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#define SENSOR3PORT 12 // user sensor #3
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#define SENSOR3PORT 12 // user sensor #3
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@ -25,7 +25,7 @@ typedef std::chrono::duration<long long int, std::ratio<1, 1000>>
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TaskHandle_t timeSyncReqTask = NULL;
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TaskHandle_t timeSyncReqTask = NULL;
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static uint8_t time_sync_seqNo = random(TIMEANSWERPORT_MIN, TIMEANSWERPORT_MAX);
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static uint8_t time_sync_seqNo = 0;
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static bool timeSyncPending = false;
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static bool timeSyncPending = false;
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static myClock_timepoint time_sync_tx[TIME_SYNC_SAMPLES];
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static myClock_timepoint time_sync_tx[TIME_SYNC_SAMPLES];
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static myClock_timepoint time_sync_rx[TIME_SYNC_SAMPLES];
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static myClock_timepoint time_sync_rx[TIME_SYNC_SAMPLES];
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@ -93,9 +93,10 @@ void process_timesync_req(void *taskparameter) {
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time_point_cast<milliseconds>(time_sync_tx[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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// 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++;
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? time_sync_seqNo + 1
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if(time_sync_seqNo > TIMEREQUEST_MAX_SEQNO) {
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: TIMEANSWERPORT_MIN;
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time_sync_seqNo = 0;
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}
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if (i < TIME_SYNC_SAMPLES - 1) {
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if (i < TIME_SYNC_SAMPLES - 1) {
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// wait until next cycle
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// wait until next cycle
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@ -154,7 +155,9 @@ void store_time_sync_req(uint32_t timestamp) {
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}
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}
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// process timeserver timestamp answer, called from lorawan.cpp
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// process timeserver timestamp answer, called from lorawan.cpp
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int recv_timesync_ans(const uint8_t seq_no, const uint8_t buf[], const uint8_t buf_len) {
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int recv_timesync_ans(const uint8_t buf[], const uint8_t buf_len) {
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uint8_t seq_no = buf[0];
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buf++;
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// if no timesync handshake is pending then exit
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// if no timesync handshake is pending then exit
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if (!timeSyncPending)
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if (!timeSyncPending)
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@ -177,9 +180,14 @@ int recv_timesync_ans(const uint8_t seq_no, const uint8_t buf[], const uint8_t b
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// the 5th byte contains the fractional seconds in 2^-8 second steps
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// the 5th byte contains the fractional seconds in 2^-8 second steps
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// (= 1/250th sec), we convert this to ms
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// (= 1/250th sec), we convert this to ms
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uint16_t timestamp_msec = 4 * buf[4];
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uint16_t timestamp_msec = 4 * buf[6];
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// pointers to 4 bytes containing UTC seconds since unix epoch, msb
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// pointers to 4 bytes 4 bytes containing UTC seconds since unix epoch, msb
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uint32_t timestamp_sec, *timestamp_ptr;
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uint32_t timestamp_sec, *timestamp_ptr;
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uint32_t timezone_sec;
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// extract timezone from buffer (in 15min steps, one step being 15min * 60s = 900s)
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timezone_sec = buf[0]*900;
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buf++;
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// convert buffer to uint32_t, octet order is big endian
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// convert buffer to uint32_t, octet order is big endian
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timestamp_ptr = (uint32_t *)buf;
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timestamp_ptr = (uint32_t *)buf;
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@ -187,7 +195,7 @@ int recv_timesync_ans(const uint8_t seq_no, const uint8_t buf[], const uint8_t b
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timestamp_sec = __builtin_bswap32(*timestamp_ptr);
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timestamp_sec = __builtin_bswap32(*timestamp_ptr);
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// construct the timepoint when message was seen on gateway
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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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time_sync_rx[k] += seconds(timestamp_sec+timezone_sec) + milliseconds(timestamp_msec);
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// we guess timepoint is recent if it newer than code compile date
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// we guess timepoint is recent if it newer than code compile date
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if (timeIsValid(myClock::to_time_t(time_sync_rx[k]))) {
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if (timeIsValid(myClock::to_time_t(time_sync_rx[k]))) {
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