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...	...	@@ -11,19 +11,20 @@
11	11	* User wants to get data forward in gateway and forward to their server base on MQTT/HTTP, etc. (Combine ABP communication method and [[MQTT forward together>>url:https://wiki.dragino.com/index.php/MQTT_Forward_Instruction]]).
12	12
13	13	(((
14		-The basic of this feature is the decoding of (% style="color:red" %)**LoRaWAN ABP End Node**(%%). Requirements:
	14	+
	15	+The basic of this feature is the decoding of **LoRaWAN ABP End Node**. Requirements:
15	15	)))
16	16
17	17	1. LoRaWAN End Node in ABP mode. Make sure your end node works in this mode. End node most are default set to OTAA mode
18	18	1. LoRaWAN Gateway model: [[LPS8>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/148-lps8.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]] ,[[LIG16>>url:http://www.dragino.com/products/lora-lorawan-gateway/item/171-lig16.html]]
19		-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/]](%%)**
	20	+1. Firmware version for below instruction:[[Since LG02_LG08~~-~~-build-v5.4.1593400722-20200629-1120>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/LPS8/Firmware/Release/]]
20	20
	22	+
21	21	= 2. How it works =
22	22
23	23
24		-(% style="color:#037691" %)**Video Instruction**(%%): **[[https:~~/~~/youtu.be/ZBjXwmp7rwM>>url:https://youtu.be/ZBjXwmp7rwM]]**
	26	+**Video Instruction**: [[https:~~/~~/youtu.be/ZBjXwmp7rwM>>url:https://youtu.be/ZBjXwmp7rwM]]
25	25
26		-
27	27	Assume we have the LoRaWAN tracker LGT92 which works in ABP mode and US915 band. It has below keys:
28	28
29	29	(% class="box infomessage" %)
...	...	@@ -39,7 +39,7 @@
39	39
40	40	We need to input above keys in LG308 and enable ABP decryption.
41	41
42		-[[image:image-20220527161119-1.png]]
	43	+[[image:https://wiki.dragino.com/images/thumb/5/55/LG308_MQTT_1.png/600px-LG308_MQTT_1.png||height="329" width="600"]]
43	43
44	44	Input the ABP keys in LG308
45	45
...	...	@@ -52,7 +52,7 @@
52	52	We can see the log of LG308 to know this packet arrive
53	53	)))
54	54
55		-[[image:image-20220527161149-2.png]]
	56	+[[image:https://wiki.dragino.com/images/thumb/1/16/ABP_DECODE_2.png/600px-ABP_DECODE_2.png||height="205" width="600"]]
56	56
57	57	LG308 log by "logread -f" command
58	58
...	...	@@ -62,8 +62,8 @@
62	62	(% class="box" %)
63	63	(((
64	64	root@dragino-1d25dc:~~# hexdump /var/iot/channels/2602111D
65		-0000000 (% style="color:#037691" %)**4646 4646 4646 3946 3030 3030 3030 3546**(%%)      ~-~-> Got RSSI and SNR
66		-0000010 (% style="color:#037691" %)**cc0c 0b63 0266 017f ff7f ff00 **(%%) ~-~-> Payload
	66	+0000000 (% class="mark" %)**4646 4646 4646 3946 3030 3030 3030 3546**(%%)      ~-~-> Got RSSI and SNR
	67	+0000010 (% class="mark" %)**cc0c 0b63 0266 017f ff7f ff00 **(%%) ~-~-> Payload
67	67	000001c
68	68	)))
69	69
...	...	@@ -73,8 +73,8 @@
73	73
74	74	(% class="box" %)
75	75	(((
76		-(% 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:
77		-in LGT92, use (% style="color:#037691" %)**AT+SEND=12:hello world** (%%)to send ASCII string
	77	+(% class="mark" %)**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:
	78	+in LGT92, use **AT+SEND=12**:hello world to send ASCII string
78	78	root@dragino-1d25dc:~~# hexdump /var/iot/channels/2602111D
79	79	0000000 4646 4646 4646 3946 3030 3030 3030 3546
80	80	0000010 6865 6c6c 6f20 776f 726c 6400      ~-~-> Got ASCII code "hello world"
...	...	@@ -83,13 +83,12 @@
83	83
84	84	(% class="box" %)
85	85	(((
86		-(% 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.
	87	+(% class="mark" %)**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.
87	87	)))
88	88
89		-
90	90	=== 2.2.1 Decode Method ===
91	91
92		-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.
	92	+The decode methods: **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.
93	93
94	94	For example we have a LHT65 , works in ABP mode and gateway successful get the data, which are:
95	95
...	...	@@ -107,7 +107,7 @@
107	107	(((
108	108	Sun Sep 27 04:33:16 2020 user.notice root: [IoT.MQTT]:pub_topic[-t]: dragino-1baf44/01826108/data
109	109	Sun Sep 27 04:33:16 2020 user.notice root: [IoT.MQTT]:decoder: ASCII
110		-Sun Sep 27 04:33:16 2020 user.notice root: [IoT.MQTT]:mqtt_data[-m]: (% style="color:#037691" %)**ffffffe700000048ccd17fff7fff017fff7fff00**
	110	+Sun Sep 27 04:33:16 2020 user.notice root: [IoT.MQTT]:mqtt_data[-m]: ffffffe700000048ccd17fff7fff017fff7fff00
111	111	)))
112	112
113	113	If we choose Decode_LHT65, the MQTT process will send out with mqtt-data
...	...	@@ -116,8 +116,8 @@
116	116	(((
117	117	Sun Sep 27 04:36:45 2020 user.notice root: [IoT.MQTT]:pub_topic[-t]: dragino-1baf44/01826108/data
118	118	Sun Sep 27 04:36:45 2020 user.notice root: [IoT.MQTT]:decoder: Dragino_LHT65
119		-Sun Sep 27 04:36:45 2020 user.notice root: [IoT.MQTT]:mqtt_data[-m]:** (% style="color:#037691" %){"Hum_SHT":32.7,"BatV":3.281,"TempC_DS":32.9,
120		-"EXT":"Temperature Sensor","RSSI":-24,"TempC_SHT":85.0,"SNR":8.2,"ext_sensor":0}(%%)**
	119	+Sun Sep 27 04:36:45 2020 user.notice root: [IoT.MQTT]:mqtt_data[-m]: {"Hum_SHT":32.7,"BatV":3.281,"TempC_DS":32.9,
	120	+"EXT":"Temperature Sensor","RSSI":-24,"TempC_SHT":85.0,"SNR":8.2,"ext_sensor":0}
121	121	)))
122	122
123	123	Above scripts are store in /etc/lora/decoder/. User can put their scripts here and select it in the UI.
...	...	@@ -145,8 +145,6 @@
145	145	* the last line return is what will be used for MQTT
146	146	* User can use other language ,not limited to Lua, just make sure the return is what you want to send.
147	147
148		-
149		-
150	150	== 2.2 Downstream ==
151	151
152	152	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
...	...	@@ -153,11 +153,12 @@
153	153
154	154	The file should use below format:
155	155
156		-(% style="color:#037691" %)**dev_addr,imme/time,txt/hex,payload**
157	157
	155	+dev_addr,imme/time,txt/hex,payload
	156	+
158	158	Since fimware > Dragino-v2 lgw-5.4.1608518541 . Support more option
159	159
160		-(% style="color:#037691" %)**dev_addr,imme/time,txt/hex,payload,txpw,txbw,SF,frequency,rxwindow**
	159	+dev_addr,imme/time,txt/hex,payload,txpw,txbw,SF,frequency,rxwindow
161	161
162	162	* dev_addr: Inptu the device address
163	163	* imme/time:
...	...	@@ -177,6 +177,7 @@
177	177	* Frequency: Transmit Frequency: example: 923300000
178	178	* rxwindow: transmit on Rx1Window or Rx2Window.
179	179
	179	+
180	180	Completely exmaple:
181	181
182	182	* Old version: echo 018193F4,imme,hex,0101 > /var/iot/push/test
...	...	@@ -183,7 +183,7 @@
183	183	* New version: echo 018193F4,imme,hex,0101,20,1,SF12,923300000,2 > /var/iot/push/test
184	184
185	185
186		-(% style="color:#037691" %)**Downstream Frequency**
	186	+Downstream Frequency
187	187
188	188	The LG308 will use the RX2 window info to send the downstream payload, use the default LoRaWAN settings, as below:
189	189
...	...	@@ -197,33 +197,22 @@
197	197	* RU864: 869.1Mhz, SF12 BW125
198	198
199	199
200		-(% style="color:#037691" %)**Examples:**
	200	+Examples:
201	201
202		-(% class="box" %)
203		-(((
204		-we can use echo command to create files in LG308 for downstream.
205		-root@dragino-1d25dc:~~# echo 2602111D,time,hex,12345678 > /var/iot/push/test
206		-)))
	202	+{{{we can use echo command to create files in LG308 for downstream.
	203	+root@dragino-1d25dc:~# echo 2602111D,time,hex,12345678 > /var/iot/push/test
207	207
208		-(% class="box" %)
209		-(((
210		-1) From logread -f of gateway, we can see it has been added as pedning.
211		-lora_pkt_fwd[4286]: INFO~~ [DNLK]Looking file : test
212		-lora_pkt_fwd[4286]: INFO~~ [DNLK]devaddr:2602111D, txmode:time, pdfm:hex, size:4, payload1:4Vx,payload_hex:77C1BB90
213		-lora_pkt_fwd[4286]: INFO~~ [DNLK] DNLINK PENDING!(1 elems).
214		-)))
	205	+1) From logread -f of gateway, we can see it has been added as pedning.
	206	+lora_pkt_fwd[4286]: INFO~ [DNLK]Looking file : test
	207	+lora_pkt_fwd[4286]: INFO~ [DNLK]devaddr:2602111D, txmode:time, pdfm:hex, size:4, payload1:4Vx,payload_hex:77C1BB90
	208	+lora_pkt_fwd[4286]: INFO~ [DNLK] DNLINK PENDING!(1 elems).
215	215
216		-(% class="box" %)
217		-(((
218		-2) When there is an upstrea from end node, this downstream will be sent and shows:
	210	+2) When there is an upstrea from end node, this downstream will be sent and shows:
219	219	lora_pkt_fwd[4286]: INFO: tx_start_delay=1497 (1497.000000) - (1497, bw_delay=0.000000, notch_delay=0.000000)
220	220	lora_pkt_fwd[4286]: [LGWSEND]lgw_send done: count_us=3537314420, freq=923300000, size=17
221		-)))
222	222
223		-(% class="box" %)
224		-(((
225		-3) and the end node will got:
226		-[5764825]~*~*~*~** UpLinkCounter= 98 ~*~*~*~**
	214	+3) and the end node will got:
	215	+[5764825]***** UpLinkCounter= 98 *****
227	227	[5764827]TX on freq 905300000 Hz at DR 0
228	228	Update Interval: 60000 ms
229	229	[5765202]txDone
...	...	@@ -233,13 +233,11 @@
233	233	[5767501]rxDone
234	234	Rssi= -41
235	235	Receive data
236		-(% style="color:#037691" %)**2:12345678**  (%%) ~-~-> Hex
237		-)))
	225	+2:12345678 --> Hex
	226	+}}}
238	238
239		-(% class="box" %)
240		-(((
241		-4) If we use the command "echo 2602111D,time,txt,12345678 > /var/iot/push/test" for downstream, the end node will got:
242		-[5955877]~*~*~*~** UpLinkCounter= 102 ~*~*~*~**
	228	+{{{4) If we use the command "echo 2602111D,time,txt,12345678 > /var/iot/push/test" for downstream, the end node will got:
	229	+[5955877]***** UpLinkCounter= 102 *****
243	243	[5955879]TX on freq 904100000 Hz at DR 0
244	244	Update Interval: 60000 ms
245	245	[5956254]txDone
...	...	@@ -249,68 +249,62 @@
249	249	[5958595]rxDone
250	250	Rssi= -37
251	251	Receive data
252		-(% style="color:#037691" %)**2:3132333435363738**(%%) ~-~-> ASCII string "12345678"
253		-)))
	239	+2:3132333435363738 --> ASCII string "12345678"
	240	+}}}
254	254
255		-
256	256	= 3. Example 1: Communicate with LT-22222-L =
257	257
258	258	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]]
259	259
260		-(% class="box" %)
261		-(((
262		-#!/bin/sh
	246	+{{{#!/bin/sh
263	263	# This scripts shows how to use LPS8/LG308/DLOS8 to communicate with two LoRaWAN End Nodes, without the use of internet or LoRaWAN server
264	264	#
265		-# Hardware Prepare:
266		-# 1. LT-22222-L x 2, both are configured to work in
267		-#   a) Class C ;
268		-# b) ABP Mode ;
	249	+# Hardware Prepare:
	250	+# 1. LT-22222-L x 2, both are configured to work in
	251	+# a) Class C ;
	252	+# b) ABP Mode ;
269	269	# c) AT+Mod=1
270		-# 2. LPS8,
271		-#   a) Firmware version >
272		-#   b) Input the LT-22222-L keys in LPS so LPS8 can talk with them.
273		-#   c) Lorawan server choose built-in
274		-#   d) in Custom page, select custom script to point to this script. (put this script in /etc/iot/scripts directory)
	254	+# 2. LPS8,
	255	+# a) Firmware version >
	256	+# b) Input the LT-22222-L keys in LPS so LPS8 can talk with them.
	257	+# c) Lorawan server choose built-in
	258	+# d) in Custom page, select custom script to point to this script. (put this script in /etc/iot/scripts directory)
	259	+#
	260	+# How it works?
	261	+# a) Devices 1 sends a uplink payload to LPS8. LPS8 will get the DI1 and DI2 info from the payload
	262	+# b) LPS8 will send a message to Device 2 to set the Device2 DO1 = Device1 DI1, and Device DO2 = Device DI2.
	263	+# c) Device2 will change DO1 and DO2 to according to the message from LPS8, and send back a message to LPS8 with the its DO1
	264	+# and DO2 value. LPS8 will ask Device1 to change its DO1 to same as Device 2, and change the DO2 to the same as Device 2.
	265	+# ( The purpose of this step is to show that the Device2 has already do the change there).
	266	+#
	267	+# For example: If current status of Device1 and Device2 leds shows:
	268	+# Device1: DI1: ON, DI2: ON , DO1: OFF, DO2: OFF
	269	+# Device2: DI1: OFF, DI2: OFF , DO1: OFF, DO2: OFF
275	275	#
276		-# How it works?
277		-#   a) Devices 1 sends a uplink payload to LPS8. LPS8 will get the DI1 and DI2 info from the payload
278		-#   b) LPS8 will send a message to Device 2 to set the Device2 DO1 = Device1 DI1, and Device DO2 = Device DI2.
279		-#   c) Device2 will change DO1 and DO2 to according to the message from LPS8, and send back a message to LPS8 with the its DO1
280		-#   and DO2 value. LPS8 will ask Device1 to change its DO1 to same as Device 2, and change the DO2 to the same as Device 2.
281		-#   ( The purpose of this step is to show that the Device2 has already do the change there).
282		-#
283		-#  For example: If current status of Device1 and Device2 leds shows:
284		-#  Device1: DI1: ON, DI2: ON , DO1: OFF,  DO2: OFF
285		-#  Device2: DI1: OFF, DI2: OFF , DO1: OFF,  DO2: OFF
286		-#
287		-#  Step2  will cause below change:
288		-#  Device1: DI1: ON, DI2: ON , DO1: OFF,  DO2: OFF
289		-#  Device2: DI1: OFF, DI2: OFF , DO1: ON,  DO2: ON
290		-#
291		-#  Step3 will cause below change:
292		-#  Device1: DI1: ON, DI2: ON , DO1: ON,  DO2: ON
293		-#  Device2: DI1: OFF, DI2: OFF , DO1: ON,  DO2: ON
294		-#  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
295		-#  whether the Device 2 has been changed.
296		-)))
	271	+# Step2 will cause below change:
	272	+# Device1: DI1: ON, DI2: ON , DO1: OFF, DO2: OFF
	273	+# Device2: DI1: OFF, DI2: OFF , DO1: ON, DO2: ON
	274	+#
	275	+# Step3 will cause below change:
	276	+# Device1: DI1: ON, DI2: ON , DO1: ON, DO2: ON
	277	+# Device2: DI1: OFF, DI2: OFF , DO1: ON, DO2: ON
	278	+# 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
	279	+# whether the Device 2 has been changed.}}}
297	297
298	298	~1. Input keys
299	299
300		-[[image:image-20220527162450-3.png]]
	283	+[[image:https://wiki.dragino.com/images/thumb/b/bf/LPS8_LT-22222_1.png/600px-LPS8_LT-22222_1.png||height="335" width="600"]]
301	301
302	302	Input Keys in LPS8
303	303
304		-
305	305	2. Make sure the LPS8 and LT use the same frequency bands, choose EU868 in this test.
306	306
307	307	3. Choose Built-in server
308	308
309		-[[image:image-20220527162518-4.png]]
	291	+[[image:https://wiki.dragino.com/images/thumb/d/d7/LPS8_LT-22222_2.png/600px-LPS8_LT-22222_2.png||height="264" width="600"]]
310	310
311	311	Choose Built-in server
312	312
313		-
314	314	4. Run the script.
315	315
316	316	[[image:https://wiki.dragino.com/images/thumb/3/39/LPS8_LT-22222_3.png/600px-LPS8_LT-22222_3.png||height="389" width="600"]]
...	...	@@ -334,10 +334,11 @@
334	334	Full instruction video inlcude how to write scripts to fit server needed is here:
335	335
336	336
337		-(% class="mark" %)**Video Instruction**: [[https:~~/~~/youtu.be/-nevW6U2TsE>>url:https://youtu.be/-nevW6U2TsE]]
	318	+Video Instruction: [[https:~~/~~/youtu.be/-nevW6U2TsE>>url:https://youtu.be/-nevW6U2TsE]]
338	338
339		-(% class="mark" %)**Note: Firmware version must be higher than lgw-5.4.1607519907**
340	340
	321	+Note: Firmware version must be higher than lgw-5.4.1607519907
	322	+
341	341	Assume we already set up ABP keys in the gateway:
342	342
343	343	[[image:https://wiki.dragino.com/images/thumb/b/bf/LPS8_LT-22222_1.png/600px-LPS8_LT-22222_1.png||height="335" width="600"]]

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