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1		-XWiki.Kilight
	1	+XWiki.Xiaoling

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127	127
128	128	= 3.  Gateway Registration for Basics Station =
129	129
	130	+
130	130	== 3.1  Introduction ==
131	131
132	132
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150	150	A gateway that can access the internet normally
151	151
152	152
	154	+
153	153	== 3.2  Add Gateway ==
154	154
155	155
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182	182	== 3.4  Start Station ==
183	183
184	184
185		-When the user has finished the configuration, Please click **Sace&Apply** to start station to connect ChirpStack.
	187	+When the user has finished the configuration, Please click Sace&Apply to start station to connect ChirpStack
186	186
187	187
188	188	== 3.5  Successful Connection ==
...	...	@@ -193,6 +193,7 @@
193	193	[[image:image-20220524164448-13.png]]
194	194
195	195
	198	+
196	196	== 3.6  Trouble Shooting ==
197	197
198	198
...	...	@@ -206,71 +206,31 @@
206	206	[[image:image-20220531172857-9.png]]
207	207
208	208
209		-= 4. How the gateway connects to Chirpstack v4 via gateway-bridge =
210	210
	213	+= 4.  Downlink =
211	211
212		-=== 4.1 Configure Packet Forwarder ===
	215	+== 4.1  Chirpstack Downlink Note ==
213	213
214		-In the Dragino gateway web interface, you need to configure the Packet Forwarder so that it forwards its data to the port. localhost:1700 or 127.0.0.1:1700
215	215
216		-* In the **LoRaWAN** menu, click on **LoRaWAN ~-~- Semtech UDP**
217		-* Make sure the following settings are set:
218		-** **Service Provider:** //~-~-Custom/Private LoRaWAN~-~-//
219		-** **LoRaWAN Server Address:** //localhost or 127.0.0.1//
220		-** **Server port for upstream:** //1700//
221		-** **Server port for downstream:** //1700//
222		-
223		- Click **Save & Apply**.
224		-
225		-[[image:image-20221222114220-2.png||height="748" width="931"]]
226		-
227		-
228		-4.2
229		-
230		-[[image:image-20221222113302-1.png]]
231		-
232		-= 5.  Downlink =
233		-
234		-== 5.1 Convert HEX to Base64 ==
235		-
236		-
237		-(% style="color:red" %)**Note: Chirpstack uses base64 to downlink, the end node user manual provides HEX format of the downlink commands. So user needs to convert the HEX to Base64.**
238		-
239		-**[[Online HEX to Base64 Converter>>https://base64.guru/converter/encode/hex]]:**
240		-
241		-[[image:image-20221010193350-1.png]]
242		-
243		-
244		-
245		-**[[Online Base64 to Hex converter>>https://base64.guru/converter/decode/hex]]**
246		-
247		-[[image:image-20221010193621-2.png]]
248		-
249		-
250		-== 5.2  Chirpstack Downlink Note ==
251		-
252		-
253	253	[[image:image-20220601102543-2.png]]
254	254
255		-**Convert the data to Base64**
	220	+Convert the data to Base64
256	256
257		-(% style="display:none" %) (%%)
258	258
	223	+[[image:image-20220531173236-10.png]]
259	259
260		-[[image:image-20220531173236-10.png||height="597" width="1215"]]
	225	+Check ChripStack downlink DataRate
261	261
262		-**Check ChripStack downlink DataRate**
263	263
264		-
265		-
266	266	[[image:image-20220525101326-11.png]]
267	267
268		-**Make sure the RX2DR is the same in the end node**
	230	+Make sure the RX2DR is the same in the end node
269	269
270	270
271		-== 5.3  Loraserver Downlink Note ==
272	272
	234	+== 4.2  Loraserver Downlink Note ==
273	273
	236	+
274	274	User can use MQTT to send downlink payload to ChirpStack to perform downstream to LoRaWAN End
275	275
276	276	(((
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288	288	[[image:image-20220531173419-11.png]]
289	289
290	290	(((
291		-**MQTT Connect to ChirpStack**
	254	+MQTT Connect to ChirpStack
292	292
293	293
294	294
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315	315
316	316	[[image:image-20220531173519-12.png]]
317	317
318		-**MQTT Connect to ChirpStack**
	281	+MQTT Connect to ChirpStack
319	319
320	320
321		-**If we want to send downstream hex 030101 to end node, the BASE64 payload is AwEB**
	284	+(((
	285	+(% style="color:red" %)**Note: Chirpstack use base64 to downlink, so need to convert the downlink payload from HEX to base64 [[https:~~/~~/base64.us/>>url:https://base64.us/]]**
	286	+)))
322	322
	288	+[[image:image-20220531173601-13.png]]
	289	+
	290	+Choose to Use Hex for Encode
	291	+
	292	+
	293	+
	294	+If we want send downstream hex 030101 to end node, the BASE64 payload is AwEB
	295	+
323	323	[[image:image-20220531173658-14.png]]
324	324
325	325
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340	340	{
341	341	if(sha1[n] >= 'A' && sha1[n] <= 'Z')
342	342	{
343		- ascv = sha1.charCodeAt( n ) - 55;
	316	+ ascv = sha1.charCodeAt(n) - 55;
344	344	}
345	345	else if(sha1[n] >= 'a' && sha1[n] <= 'z')
346	346	{
347		- ascv = sha1.charCodeAt( n ) - 87;
	320	+ ascv = sha1.charCodeAt(n) - 87;
348	348	}
349	349	else
350	350	{
351		- ascv = sha1.charCodeAt( n ) - 48;
	324	+ ascv = sha1.charCodeAt(n) - 48;
352	352	}
353	353	\\ bit_arr = (bit_arr << 4) | ascv;
354	354	bit_num += 4;
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391	391
392	392	User enters the payload code according to the steps.
393	393
394		-[[image:image-20220531173754-15.png||height="474" width="1334"]]
	367	+[[image:image-20220531173754-15.png]]
395	395
396	396
397	397	[[image:image-20220531173856-16.png]]
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402	402	[[image:image-20220531174046-19.png]]
403	403
404	404
405		-= 6.  Multiply Uplink in ChirpStack =
406	406
	379	+= 5.  Multiply Uplink in ChirpStack =
407	407
	381	+
408	408	(((
409	409	nbtrans field is the value to determine the re-transmission time for unconfirmed uplink data.
410	410	)))
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415	415
416	416	)))
417	417
418		-[[image:image-20220526091912-7.png||height="241" width="1336"]]
	392	+[[image:image-20220526091912-7.png]]
419	419
420	420
421	421	(((
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440	440
441	441
442	442
443		-**Duplicate transmission in short time**
	417	+Duplicate transmission in short time
444	444
445		-[[image:image-20220601102430-1.png||height="598" width="1319"]]
	419	+[[image:image-20220601102430-1.png]]
446	446
447	447
448	448
449		-== 6.1  Solution ==
	423	+== 5.1  Solution ==
450	450
451	451
452	452	This example uses the Windows version as a template, other versions can refer to this. Similiar reference: [[https:~~/~~/confluence.alitecs.de/plugins/servlet/mobile?contentId=79790102#content/view/79790102>>url:https://confluence.alitecs.de/plugins/servlet/mobile?contentId=79790102#content/view/79790102]]
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568	568	Finish.
569	569
570	570
571		-= 7.  How to store/get all data traffic for a specific sensor, including raw payload, and uplink/ downlink history. =
572	572
	546	+= 6.  Trouble Shooting =
573	573
574		-All data is published to the MQTT topics. if you want to store/get the data, you would have to create an MQTT handler and store the data yourself.
	548	+== 6.1  MIC Mismatch or MIC Failed ==
575	575
576		-This example will be shown how to store/get all the data in two ways:
577	577
578		-**//1). Chirpstack ~-~-> Node-red//**
579		-
580		-
581		-[[image:image-20221012184501-1.png]]
582		-
583		-
584		-Use MQTT in Nore-red to subscribe to topics published by the chirpstack-application and then continuously write to a file
585		-
586		-[[image:image-20221012174220-2.png]]
587		-
588		-
589		-[[image:image-20221012184655-3.png||height="395" width="1049"]]
590		-
591		-
592		-**Each message is continuously logged to a specified file**
593		-
594		-[[image:image-20221012174352-3.png]]
595		-
596		-
597		-**//2). MQTT  Sub//**
598		-
599		-If you don't want to store the information via node-red, you can get the output via the subscribe command.
600		-
601		-
602		-**If connecting from the same machine, you can use the following command to receive data:**
603		-
604		-(% class="box infomessage" %)
605	605	(((
606		-mosquitto_sub -h localhost -t "application/#" -v
607		-)))
608		-
609		-
610		-**Different host**
611		-
612		-(% class="box infomessage" %)
613		-(((
614		-mosquitto_sub -h IPADDRESS -p 8883 ~-~-insecure ~-~-cafile ca.pem ~-~-cert cert.pem ~-~-key key.pem -t "application/#" -v
615		-)))
616		-
617		-[[image:image-20221012173639-1.png]]
618		-
619		-
620		-= 8.  Trouble Shooting =
621		-
622		-== 8.1  MIC Mismatch or MIC Failed ==
623		-
624		-
625		-(((
626	626	When the device is registered or the device is working normally, the problem of MIC mismatch and MIC failed occurs.
627	627	)))
628	628

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