Wiki source code of Notes for ChirpStack

Version 119.1 by Xiaoye on 2022/10/12 18:46
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1 **~ Table of Contents:**
2
3 {{toc/}}
4
5
6
7
8 = 1.  Introduction =
9
10
11 (% style="color:black" %)The ChirpStack open-source LoRaWAN Network Server stack provides open-source components for LoRaWAN networks And the Chirpstack supports the users in building a private LoRaWAN Server. For more info please refer to this [[link>>url:https://www.chirpstack.io/]]
12
13 (((
14 (% style="color:black" %)The dragino gateway can connect the ChirpStack server via Semtech UDP or Semtech Basic Station.
15
16
17 )))
18
19 (% style="color:blue" %)**Prerequisite:**
20
21 **1) Have a Chirstack Server.**
22
23 [[image:image-20220525100058-1.png]]
24
25 ChirpStack home page
26
27
28
29 **2) Gateway model support**
30
31 (% class="box" %)
32 (((
33 (((
34 Semtech UDP : **All Model**
35 Basic Station : [[LIG16>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/171-lig16.html]], [[LG308>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/140-lg308.html]], [[DLOS8>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/160-dlos8.html]] [[LPS8>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/148-lps8.html]]
36 (% style="color:red" %)**Note** (%%): the firmware needs >[[lgw~~-~~-build-v5.4.1640315898>>url:https://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/LPS8/Firmware/Release/]]  if use the Bais station
37 )))
38 )))
39
40
41
42 = 2.  Semtech UDP =
43
44 == 2.1  Step 1. Add the Network-servers ==
45
46
47 The network-Servers address varies depending on the ChirpStack server setup environment
48
49 (% class="box" %)
50 (((
51 Windows       ~-~->  Network-server server *  :  localhost:8000
52 Linux  ~-~->  Network-server server *  :  chirpstack-network-server:8000
53 )))
54
55
56 (% style="color:red" %)**If the user cannot add network-Servers, re-check the ChirpStack code or the server building process.**
57
58
59 [[image:image-20220531171609-1.png]]
60
61 Add the Network-servers
62
63
64
65 == 2.2  Step 2. Create Gateway-profiles ==
66
67
68 [[image:image-20220531171651-2.png]]
69
70 Create Gateway-profiles
71
72
73
74 == 2.3  Step 3. Create Service-profiles ==
75
76
77 [[image:image-20220531171809-3.png]]
78
79 Create Service-profiles
80
81
82 In Step 3. Create Service-profiles, the above parameters can be set. If necessary, you can set them by yourself. This is only an example.
83
84 (% style="color:red" %)**Note : Before add the gateway, the user needs to complete the preceding three steps.**
85
86 If the user has completed the preceding steps, proceed to the next step.(% style="display:none" %)
87
88
89
90 == 2.4  Step 4. Add the gateway ==
91
92
93 The example gateway id is: a840411e96744150
94
95 (((
96 (% style="color:red" %)**Note : The Gateway EUI and server addresses must match the ChirpStack configuration.**
97
98
99 )))
100
101 [[image:image-20220531171923-4.png]](% style="display:none" %)
102
103 Add the gateway
104
105
106
107 [[image:image-20220531172031-5.png]]
108
109 Configure the gateway
110
111
112
113 == 2.5  Step 5. Checking gateway Status ==
114
115
116 [[image:image-20220531172158-6.png]](% style="display:none" %)
117
118
119
120 gateway Status
121
122 [[image:image-20220531172304-7.png]]
123
124 gateway Status
125
126
127
128 = 3.  Gateway Registration for Basics Station =
129
130
131 == 3.1  Introduction ==
132
133
134 The [[Semtech Basic Station>>url:https://doc.sm.tc/station/]] backend implements the [[LNS protocol>>url:https://doc.sm.tc/station/tcproto.html]]. It exposes a WebSocket handler to which Basic Station powered gateways can connect.
135
136 ChirpStack Open-Source LoRaWAN® Network Server needs to set up a configuration that can use Semtech BasicStation.
137
138
139 (% style="color:blue" %)**Below list the support products and Requirements:**
140
141 1. LoRaWAN Gateway model: [[LIG16>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/171-lig16.html]], [[LG308>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/140-lg308.html]], [[DLOS8>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/160-dlos8.html]] ,[[LPS8>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/148-lps8.html]]
142 1. Firmware version since :[[lgw~~-~~-build-v5.4.1651822913>>url:https://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/LPS8/Firmware/Test_Firmware/lgw--build-v5.4.1651822913-20220506-1543/]]
143
144 (% style="color:blue" %)**How to set up chirpStack Basic Station**
145
146 Users can check out the ChirpStack Basic Station [[link>>https://www.chirpstack.io/gateway-bridge/backends/basic-station/]] and [[forum>>https://forum.chirpstack.io/search?q=basic%20station]]
147
148
149 (% style="color:blue" %)**What do you need to prepare**
150
151 A gateway that can access the internet normally
152
153
154
155 == 3.2  Add Gateway ==
156
157
158 [[image:image-20220524164205-10.png]]
159
160
161 == 3.3  Access the gateway GUI ==
162
163
164 Access the gateway GUI interface of LoRaWAN~-~->LoRaWAN ~-~- Basic Station
165
166 [[image:image-20220524164319-11.png]]
167
168
169 User need to Choose the ChirpStack/Senet ~-~- Basic Station , input Server URI and Upload the TLS Certificate
170
171 (% class="box" %)
172 (((
173 Service Provider  ~-~->  Choose the ChirpStack/Senet ~-~- Basic Station
174
175 LNS URI  ~-~->  Enter the LNS URI address, For example : wss:~/~/xxxx.chirpstack.com:433 or ws:~/~/xxxx.chirpstack.com:3001
176
177 LNS TLS trust  ~-~->  Upload the TLS Certificate
178 )))
179
180 (% class="wikigeneratedid" %)
181 [[image:image-20220524164341-12.png]]
182
183
184 == 3.4  Start Station ==
185
186
187 When the user has finished the configuration, Please click **Sace&Apply** to start station to connect ChirpStack.
188
189
190 == 3.5  Successful Connection ==
191
192
193 If user completes the above steps, which will see live date in the ChirpStack.
194
195 [[image:image-20220524164448-13.png]]
196
197
198
199 == 3.6  Trouble Shooting ==
200
201
202 User can check the station log in the logread/system log page.
203
204 [[image:image-20220531172837-8.png]]
205
206
207 and recode the station log in the system/Recode log page.
208
209 [[image:image-20220531172857-9.png]]
210
211
212
213 = 4.  Downlink =
214
215 == 4.1 Convert HEX to Base64 ==
216
217 (% 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.**
218
219 [[Online HEX to Base64 Converter>>https://base64.guru/converter/encode/hex]]:
220
221 [[image:image-20221010193350-1.png]]
222
223
224 [[Online Base64 to Hex converter>>https://base64.guru/converter/decode/hex]]
225
226 [[image:image-20221010193621-2.png]]
227
228
229
230 == 4.2  Chirpstack Downlink Note ==
231
232
233 [[image:image-20220601102543-2.png]]
234
235 Convert the data to Base64
236
237
238 [[image:image-20220531173236-10.png]]
239
240 Check ChripStack downlink DataRate
241
242
243 [[image:image-20220525101326-11.png]]
244
245 Make sure the RX2DR is the same in the end node
246
247
248
249 == 4.3  Loraserver Downlink Note ==
250
251
252 User can use MQTT to send downlink payload to ChirpStack to perform downstream to LoRaWAN End
253
254 (((
255 **Below is examples:**
256 )))
257
258 (% class="box" %)
259 (((
260 Connect to your server via MQTT:
261 MQTT Client ID: Any   
262 Protocol:mqtt/tcp   Server IP:loraserver_ip:1883
263 User name: User name Password: password
264 )))
265
266 [[image:image-20220531173419-11.png]]
267
268 (((
269 MQTT Connect to ChirpStack
270
271
272
273 )))
274
275 (((
276 **After connect**
277 )))
278
279 (% class="box" %)
280 (((
281 Subscribe : Format:application/ID/device/ Device EUI/rx
282 Example: application/7/device/00aedb3da649cb23/rx
283 )))
284
285 (% class="box" %)
286 (((
287 Publish:
288 Format: Top: application/ID/device/ Device EUI/tx
289 Payload: {"confirmed":true or false,"fPort":XX,"data":"xxxx"}
290 Example: Top: application/7/device/00aedb3da649cb23/tx
291 Payload: {"confirmed":true,"fPort":2,"data":"AwEB"}
292 )))
293
294 [[image:image-20220531173519-12.png]]
295
296 MQTT Connect to ChirpStack
297
298
299 If we want to send downstream hex 030101 to end node, the BASE64 payload is AwEB
300
301 [[image:image-20220531173658-14.png]]
302
303
304 (((
305 Downlink payload encode javescript code: 可以在网站上运行以下Javsscript代码:
306 )))
307
308 (% class="box" %)
309 (((
310 function sha1_to_base64(sha1)
311 {
312 var digits="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
313 var base64_rep = "";
314 var cnt = 0;
315 var bit_arr = 0;
316 var bit_num = 0;
317 \\ for(var n = 0; n < sha1.length; ++n)
318 {
319 if(sha1[n] >= 'A' && sha1[n] <= 'Z')
320 {
321 ascv = sha1.charCodeAt(n) - 55;
322 }
323 else if(sha1[n] >= 'a' && sha1[n] <= 'z')
324 {
325 ascv = sha1.charCodeAt(n) - 87;
326 }
327 else
328 {
329 ascv = sha1.charCodeAt(n) - 48;
330 }
331 \\ bit_arr = (bit_arr << 4) | ascv;
332 bit_num += 4;
333 if(bit_num >= 6)
334 {
335 bit_num -= 6;        
336 base64_rep += digits[bit_arr >>> bit_num];
337 bit_arr &= ~~(-1 << bit_num);
338 }
339 }
340 \\ if(bit_num > 0)
341 {
342 bit_arr <<= 6 - bit_num;
343 base64_rep += digits[bit_arr];
344 }
345 \\ var padding = base64_rep.length % 4;   
346 \\ if(padding > 0)
347 {
348 for(var n = 0; n < 4 - padding; ++n)
349 {
350 base64_rep += "=";
351 }
352 }
353 return base64_rep;
354 }
355 \\console.log(sha1_to_base64("data"));
356 \\data is downlink payload required by end node.
357 e.g console.log(sha1_to_base64("030101"));
358 ​result: AwEB     
359 AwEB is the 0x030101's base 64 Encode.
360 \\​e.g console.log(sha1_to_base64("030000"));
361 ​result: AwAA     
362 AwAA is 0x030000's base 64 Encode.
363 )))
364
365
366
367 == 4.3  Add the decode function in Chirpstack for the payload ==
368
369
370 User enters the payload code according to the steps.
371
372 [[image:image-20220531173754-15.png]]
373
374
375 [[image:image-20220531173856-16.png]]
376
377
378 [[image:image-20220531174120-20.png]]
379
380 [[image:image-20220531174046-19.png]]
381
382
383
384 = 5.  Multiply Uplink in ChirpStack =
385
386
387 (((
388 nbtrans field is the value to determine the re-transmission time for unconfirmed uplink data.
389 )))
390
391 (((
392 ChirpStack will auto adjust nbtrans according to uplink rssi. [[link to source>>url:https://github.com/brocaar/chirpstack-network-server/blob/master/internal/adr/adr.go]]
393
394
395 )))
396
397 [[image:image-20220526091912-7.png]]
398
399
400 (((
401 nbtrans is a field of ADR message, in unconfirm mode, it tells end node how many time it needs to transmit for every frame.
402
403
404 )))
405
406 [[image:image-20220525104359-21.png]]
407
408 (((
409 Above behaviour will cause the platform shows below two cases of error:
410
411
412 )))
413
414 (((
415 Error of duplicate Frame Counter
416 )))
417
418 [[image:image-20220525104437-22.png]]
419
420
421
422 Duplicate transmission in short time
423
424 [[image:image-20220601102430-1.png]]
425
426
427
428 == 5.1  Solution ==
429
430
431 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]]
432
433
434 (((
435 (% style="color:blue" %)**1.  Install the GO compilation environment: Download the corresponding version of the Go compiler at [[https:~~/~~/go.dev/dl/>>url:https://go.dev/dl/]] and install it.**
436
437
438 )))
439
440 [[image:image-20220525104532-24.png]]
441
442
443 **installation path:**
444
445 [[image:image-20220525104554-25.png]]
446
447
448
449 (((
450 (% style="color:blue" %)**2.  Environment variable settings:**
451 )))
452
453 (((
454 1) Open Computer -> Properties -> Advanced System Settings -> Environment Variables and add a "new" system variable:
455 )))
456
457 (((
458 2) Set the variable name GOROOT and the variable value C:\Go\ (installation directory)
459 )))
460
461 [[image:image-20220524165433-33.png]]
462
463
464 3) Modify the system variable Path and add C:\Go\bin\:
465
466 [[image:image-20220524165452-34.png]]
467
468
469 User variable setting file generation directory: D:\go:
470
471 [[image:image-20220524165517-35.png]]
472
473
474
475 (% style="color:blue" %)**3.  Modify the ADR configuration file according to your own needs, adr.setting.go is an example of the ADR configuration file.**
476
477 The name of the plugin: Example ADR plugin:
478
479 [[image:image-20220524165540-36.png]]
480
481 Set Nbtrans: Nbtrans=1 (Nbtrans is the number of retransmissions, if it is 1, no retransmission, it is recommended to be 1). To enable it, you need to uncomment.
482
483 [[image:image-20220524165557-37.png]]
484
485
486
487 (% style="color:blue" %)**4.  Compile the ADR configuration file and generate the exe file.**
488
489 1) Create a folder named adr-setting
490
491 2) Open the adr-setting folder
492
493 3) Put adr.setting.go in this folder.
494
495 4) Open the computer cmd and run the following commands in sequencecd adr-setting
496
497 go mod init adr-setting
498
499 go get github.com/brocaar/chirpstack-network-server/v3/adr
500
501 go get github.com/hashicorp/go-plugin
502
503 go get adr-setting
504
505 go build
506
507 5) Finally generate this file:
508
509 [[image:image-20220524165623-38.png]]
510
511
512
513 (% style="color:blue" %)**5.  Add the plugin and run the plugin.**
514
515 (((
516 The exe file generated in the previous step is placed in the same root directory as chirpstack-network-server.toml, and the ADR plugin is added to the toml file. The location of the addition is as follows:
517 )))
518
519 [[image:image-20220524165641-39.png]]
520
521 (((
522 (((
523 For example: adr_plugins=[“adr-setting”]
524 )))
525 )))
526
527 * (((
528 (((
529 Adding a single plugin format is adr_plugins=["filename"]
530 )))
531 )))
532
533 * (((
534 (((
535 Adding multiple plugins The format is adr_plugins=["file name 1", "file name 2",...]
536 )))
537 )))
538
539 (((
540 (((
541 Finally, re-run chirpstack-network-server.exe, and then select the plugin you just compiled in Device-profiles,
542 )))
543 )))
544
545 [[image:image-20220525104647-26.png]]
546
547 Finish.
548
549
550 = **6. How to store/get all data traffic for a specific sensor, including raw payload, and uplink/ downlink history. ** =
551
552
553 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.
554
555 This example will be shown how to store/get all the data in two ways:
556
557 **//1). Chirpstack ~-~-> Node-red//**
558
559
560 [[image:image-20221012184501-1.png]]
561
562 Use MQTT in Nore-red to subscribe to topics published by chirpstack-application and then continuously write to a file
563
564 [[image:image-20221012174220-2.png]]
565
566
567 Each message is continuously logged to a specified file
568
569 [[image:image-20221012174352-3.png]]
570
571
572 **//2). MQTT  Sub//**
573
574 If you don't want to store the information via node-red, you can get the output via the subscribe command.
575
576
577 **If connecting from the same machine, you can use the following command to receive data:**
578
579 (% class="box infomessage" %)
580 (((
581 mosquitto_sub -h localhost -t "application/#" -v
582 )))
583
584
585 **Different host**
586
587 (% class="box infomessage" %)
588 (((
589 mosquitto_sub -h IPADDRESS -p 8883 ~-~-insecure ~-~-cafile ca.pem ~-~-cert cert.pem ~-~-key key.pem -t "application/#" -v
590 )))
591
592 [[image:image-20221012173639-1.png]]
593
594
595 = 7.  Trouble Shooting =
596
597 == 7.1  MIC Mismatch or MIC Failed ==
598
599
600 (((
601 When the device is registered or the device is working normally, the problem of MIC mismatch and MIC failed occurs.
602 )))
603
604 (((
605 Under normal circumstances, users need to change the APPKEY to solve this problem.
606 )))

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