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1		-**Table of Contents:**
	1	+ **Contents:**
2	2
3	3	{{toc/}}
4	4
5	5
6		-
7	7	= 1. Introduction =
8	8
9		-
10	10	The Dragino LoRaWAN gateway can commuicate with LoRaWAN ABP End Node without the need of LoRaWAN server. It can be used in some cases such as:
11	11
12	12	* No internet connection.
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21	21	1. Firmware version for below instruction:**[[(% style="color:purple" %)Since LG02_LG08~~-~~-build-v5.4.1593400722-20200629-1120>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/LPS8/Firmware/Release/]](%%)**
22	22
23	23
	22	+
24	24	= 2. How it works =
25	25
26	26
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31	31
32	32	(% class="box infomessage" %)
33	33	(((
34		-**AT+NWKSKEY=72 32 63 95 dd 8f e2 b2 13 66 e4 35 93 8f 55 df
	33	+AT+NWKSKEY=72 32 63 95 dd 8f e2 b2 13 66 e4 35 93 8f 55 df
35	35	AT+APPSKEY=b3 17 f8 14 7a 43 27 8a 6a 31 c4 47 3d 55 5d 33
36		-AT+DADDR=2602111D**
	35	+AT+DADDR=2602111D
37	37	)))
38	38
39	39	(((
40	40	and we have the LG308 works and US915 band and support ABP decryption. User can input these keys in LG308 so the LG308 can communicate with LGT92.
41		-
42		-
43	43	)))
44	44
45	45	We need to input above keys in LG308 and enable ABP decryption.
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51	51
52	52	== 2.1 Upstream ==
53	53
54		-
55	55	Now when this End Node (Dev Addr=2602111D) send a uplink packet. When this packet arrive LG308, LG308 will decode it and put the decode data on the file /var/iot/channels/2602111D . So we have this data for further process with other applications in LG308.
56	56
57	57	(((
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60	60
61	61	[[image:image-20220527161149-2.png]]
62	62
63		-LG308 log by "(% style="color:red" %)**logread -f**" (%%)command
	59	+LG308 log by "logread -f" command
64	64
65	65
66	66	The data of End Node is stored in the file /var/iot/channels/2602111D. We can use hexdump command to check it.
...	...	@@ -73,11 +73,10 @@
73	73	000001c
74	74	)))
75	75
76		-* **RSSI**: 4646 4646 4646 3946 = 0xFFFF FF9F : So RSSI = (0xFFFF FF9F - 0x100000000) = -97
77		-* **SNR**: 3030 3030 3030 3546 = 0x0000 005F = 95, need to divide 10 so SNR is 9.5
78		-* **Payload**: 0xcc0c 0b63 0266 017f ff7f ff00
	72	+* RSSI: 4646 4646 4646 3946 = 0xFFFF FF9F : So RSSI = (0xFFFF FF9F - 0x100000000) = -97
	73	+* SNR: 3030 3030 3030 3546 = 0x0000 005F = 95, need to divide 10 so SNR is 9.5
	74	+* Payload: 0xcc0c 0b63 0266 017f ff7f ff00
79	79
80		-
81	81	(% class="box" %)
82	82	(((
83	83	(% style="color:red" %)**Notice 1**(%%): The data file stored in LG308 for the end node is bin file. If the end node sends ASCII string to gateway, the output will as below:
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90	90
91	91	(% class="box" %)
92	92	(((
93		-(% style="color:red" %)**Notice 2**(%%): The upstream payload length should match the LoRaWAN length requirement (max length depends on Frequency and DR), otherwise the gateway can't decode the payload.
	88	+(% style="color:#037691" %)**Notice 2**(%%): The upstream payload length should match the LoRaWAN length requirement (max length depends on Frequency and DR), otherwise the gateway can't decode the payload.
94	94	)))
95	95
96	96
97	97	=== 2.2.1 Decode Method ===
98	98
99		-
100	100	The decode methods: (% style="color:#037691" %)**ASCII String, Decode_LHT65**(%%) doesn't affect how the sensor data is stored, they are to define how should the sensor data to be sent.
101	101
102	102	For example we have a LHT65 , works in ABP mode and gateway successful get the data, which are:
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109	109	000001c
110	110	)))
111	111
112		-
113	113	If we choose ASCII decoder, the MQTT process will send out with mqtt-data:
114	114
115	115	(% class="box" %)
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119	119	Sun Sep 27 04:33:16 2020 user.notice root: [IoT.MQTT]:mqtt_data[-m]: (% style="color:#037691" %)**ffffffe700000048ccd17fff7fff017fff7fff00**
120	120	)))
121	121
122		-
123	123	If we choose Decode_LHT65, the MQTT process will send out with mqtt-data
124	124
125	125	(% class="box" %)
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133	133	Above scripts are store in /etc/lora/decoder/. User can put their scripts here and select it in the UI.
134	134
135	135
136		-
137	137	=== 2.2.2 How to Decode My End Node ===
138	138
	130	+1/ Configure the ABP keys for your end node in the gateway. enable ABP decode in Web UI
139	139
140		-**1.** Configure the ABP keys for your end node in the gateway. enable ABP decode in Web UI
	132	+2/ Don't choose MQTT service, use LoRaWAN.
141	141
142		-**2. **Don't choose MQTT service, use LoRaWAN.
	134	+3/ When your end node send a message to the gateway, there will be a file store in /var/iot/channels. full path should be /var/iot/channels/END_NODE_DEV_ADDR
143	143
144		-**3.** When your end node send a message to the gateway, there will be a file store in /var/iot/channels. full path should be /var/iot/channels/END_NODE_DEV_ADDR
	136	+4/ Use the /etc/lora/decoder/Dragino_LHT65 as template to decode your payload. This script is written in Lua language. User can manually call this script when you see the data file in /var/iot/channels by running:
145	145
146		-**4.** Use the /etc/lora/decoder/Dragino_LHT65 as template to decode your payload. This script is written in Lua language. User can manually call this script when you see the data file in /var/iot/channels by running:
147		-
148	148	{{{/etc/lora/decoder/Dragino_LHT65 END_NODE_DEV_ADDR
149	149	}}}
150	150
151		-**5.** What you see as output is the MQTT data device will upload, user's end node has different payload compare with LHT65, most properly this file will report with error. User need to modify to match the actual payload.
	141	+5/ What you see as output is the MQTT data device will upload, user's end node has different payload compare with LHT65, most properly this file will report with error. User need to modify to match the actual payload. Some notice:
152	152
153		-
154		-(% style="color:red" %)
155		-**Some notice:**
156		-
157	157	* RSSI and SNR are added when gateway receive the packet, so there is always this field.
158	158	* If you rename the file, please make it executable.
159	159	* See this link for lua.bit module: [[http:~~/~~/luaforge.net/projects/bit/>>url:http://luaforge.net/projects/bit/]]
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162	162	* User can use other language ,not limited to Lua, just make sure the return is what you want to send.
163	163
164	164
165		-
166	166	== 2.2 Downstream ==
167	167
168		-
169	169	In LG308, we can create a file in the directory /var/iot/push for downstream purpose. We recommend using each command to generate this file. This file will be used for transmission and auto-deleted after used
170	170
171	171	The file should use below format:
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176	176
177	177	(% style="color:#037691" %)**dev_addr,imme/time,txt/hex,payload,txpw,txbw,SF,frequency,rxwindow**
178	178
179		-* **dev_addr:** Inptu the device address
180		-* **imme/time:**
	163	+* dev_addr: Inptu the device address
	164	+* imme/time:
181	181	** imme: send downstream immediately,For Class C end node.
182	182	** time: send downstream after receive device's uplink. For Class A end node
183		-* **txt/hex:**
	167	+* txt/hex:
184	184	** txt: send payload in ASCII
185	185	** hex: send payload in HEX
186		-* **payload: **payload to be sent, payload lenght should match the LoRaWAN protocol requirement.
187		-* **txpw:** Transmit Power. example: 20
188		-* **txbw:** bandwidth:
	170	+* payload: payload to be sent, payload lenght should match the LoRaWAN protocol requirement.
	171	+* txpw: Transmit Power. example: 20
	172	+* txbw: bandwidth:
189	189	** 1: 500 kHz
190	190	** 2: 250 kHz
191	191	** 3: 125 kHz
192	192	** 4: 62.5 kHz
193		-* **SF:** Spreading Factor : SF7/SF8/SF9/SF10/SF11/SF12
194		-* **Frequency:** Transmit Frequency: example: 923300000
195		-* **rxwindow:** transmit on Rx1Window or Rx2Window.
	177	+* SF: Spreading Factor : SF7/SF8/SF9/SF10/SF11/SF12
	178	+* Frequency: Transmit Frequency: example: 923300000
	179	+* rxwindow: transmit on Rx1Window or Rx2Window.
196	196
	181	+Completely exmaple:
197	197
	183	+* Old version: echo 018193F4,imme,hex,0101 > /var/iot/push/test
	184	+* New version: echo 018193F4,imme,hex,0101,20,1,SF12,923300000,2 > /var/iot/push/test
198	198
199		-(% style="color:blue" %)**Completely exmaple:**
200	200
201		-* **Old version:** echo 018193F4,imme,hex,0101 > /var/iot/push/test
202		-* **New version:** echo 018193F4,imme,hex,0101,20,1,SF12,923300000,2 > /var/iot/push/test
203		-
204		-
205		-
206	206	(% style="color:#037691" %)**Downstream Frequency**
207	207
208	208	The LG308 will use the RX2 window info to send the downstream payload, use the default LoRaWAN settings, as below:
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217	217	* RU864: 869.1Mhz, SF12 BW125
218	218
219	219
220		-
221	221	(% style="color:#037691" %)**Examples:**
222	222
223	223	(% class="box" %)
...	...	@@ -224,20 +224,26 @@
224	224	(((
225	225	we can use echo command to create files in LG308 for downstream.
226	226	root@dragino-1d25dc:~~# echo 2602111D,time,hex,12345678 > /var/iot/push/test
	207	+)))
227	227
228		-
229		-**1)** From logread -f of gateway, we can see it has been added as pedning.
	209	+(% class="box" %)
	210	+(((
	211	+1) From logread -f of gateway, we can see it has been added as pedning.
230	230	lora_pkt_fwd[4286]: INFO~~ [DNLK]Looking file : test
231	231	lora_pkt_fwd[4286]: INFO~~ [DNLK]devaddr:2602111D, txmode:time, pdfm:hex, size:4, payload1:4Vx,payload_hex:77C1BB90
232	232	lora_pkt_fwd[4286]: INFO~~ [DNLK] DNLINK PENDING!(1 elems).
	215	+)))
233	233
234		-
235		-**2)** When there is an upstrea from end node, this downstream will be sent and shows:
	217	+(% class="box" %)
	218	+(((
	219	+2) When there is an upstrea from end node, this downstream will be sent and shows:
236	236	lora_pkt_fwd[4286]: INFO: tx_start_delay=1497 (1497.000000) - (1497, bw_delay=0.000000, notch_delay=0.000000)
237	237	lora_pkt_fwd[4286]: [LGWSEND]lgw_send done: count_us=3537314420, freq=923300000, size=17
	222	+)))
238	238
239		-
240		-**3)** and the end node will got:
	224	+(% class="box" %)
	225	+(((
	226	+3) and the end node will got:
241	241	[5764825]~*~*~*~** UpLinkCounter= 98 ~*~*~*~**
242	242	[5764827]TX on freq 905300000 Hz at DR 0
243	243	Update Interval: 60000 ms
...	...	@@ -249,9 +249,11 @@
249	249	Rssi= -41
250	250	Receive data
251	251	(% style="color:#037691" %)**2:12345678**  (%%) ~-~-> Hex
	238	+)))
252	252
253		-
254		-**4) **If we use the command "echo 2602111D,time,txt,12345678 > /var/iot/push/test" for downstream, the end node will got:
	240	+(% class="box" %)
	241	+(((
	242	+4) If we use the command "echo 2602111D,time,txt,12345678 > /var/iot/push/test" for downstream, the end node will got:
255	255	[5955877]~*~*~*~** UpLinkCounter= 102 ~*~*~*~**
256	256	[5955879]TX on freq 904100000 Hz at DR 0
257	257	Update Interval: 60000 ms
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268	268
269	269	= 3. Example 1: Communicate with LT-22222-L =
270	270
271		-
272	272	Script can be download from: [[Example Script 1>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/LPS8/Firmware/customized_script/&file=talk_to_lt-22222-l_v0.1.sh]]
273	273
274	274	(% class="box" %)
275	275	(((
276		-//#!/bin/sh
	263	+#!/bin/sh
277	277	# This scripts shows how to use LPS8/LG308/DLOS8 to communicate with two LoRaWAN End Nodes, without the use of internet or LoRaWAN server
278	278	#
279	279	# Hardware Prepare:
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306	306	#  Device1: DI1: ON, DI2: ON , DO1: ON,  DO2: ON
307	307	#  Device2: DI1: OFF, DI2: OFF , DO1: ON,  DO2: ON
308	308	#  So if a person is in the Device 1 location, he can check if the DO LED match DI LEDs on Device 1 to confirm
309		-#  whether the Device 2 has been changed.//
	296	+#  whether the Device 2 has been changed.
310	310	)))
311	311
	299	+~1. Input keys
312	312
313		-**~1. Input keys**
314		-
315	315	[[image:image-20220527162450-3.png]]
316	316
317	317	Input Keys in LPS8
318	318
319	319
320		-**2. Make sure the LPS8 and LT use the same frequency bands, choose EU868 in this test.**
	306	+2. Make sure the LPS8 and LT use the same frequency bands, choose EU868 in this test.
321	321
	308	+3. Choose Built-in server
322	322
323		-**3. Choose Built-in server**
324		-
325	325	[[image:image-20220527162518-4.png]]
326	326
327	327	Choose Built-in server
328	328
329	329
330		-**4. Run the script.**
	315	+4. Run the script.
331	331
332		-[[image:image-20220722115213-2.png]]
	317	+[[image:image-20220527162552-5.png]]
333	333
334	334	Run the script
335	335
336	336
337		-**5. Output:**
	322	+5. Output:
338	338
339		-[[image:image-20220722115133-1.png]]
	324	+[[image:image-20220527162619-6.png]]
340	340
341	341	Output from LPS8
342	342
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343	343
344	344	= 4. Example 2: Communicate to TCP Server =
345	345
346		-
347	347	[[image:image-20220527162648-7.png]]
348	348
349	349	Network Structure
...	...	@@ -357,7 +357,6 @@
357	357
358	358	(% style="color:red" %)**Note: Firmware version must be higher than lgw-5.4.1607519907**
359	359
360		-
361	361	Assume we already set up ABP keys in the gateway:
362	362
363	363	[[image:image-20220527162852-8.png]]
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365	365	Input Keys in LPS8
366	366
367	367
	351	+run socket tool in PC
368	368
369		-**run socket tool in PC**
370		-
371	371	[[image:image-20220527163028-9.png]]
372	372
373	373
...	...	@@ -374,20 +374,17 @@
374	374	Socket tool
375	375
376	376
	359	+Input Server address and port
377	377
378		-**Input Server address and port**
379		-
380	380	[[image:image-20220527163106-10.png]]
381	381
382	382	Input Server address and port
383	383
384	384
	366	+See value receive in socket tool. :
385	385
386		-**See value receive in socket tool:**
387		-
388	388	[[image:image-20220527163144-11.png]]
389	389
390	390	value receive in socket tool
391	391
392		-
393	393	If user want to modify the TCP connection method. He can refer: [[https:~~/~~/github.com/dragino/dragino-packages/blob/lg02/haserl-ui/root/usr/bin/tcp_process.sh>>url:https://github.com/dragino/dragino-packages/blob/lg02/haserl-ui/root/usr/bin/tcp_process.sh]]. Same script is on /usr/bin of gateway.

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