Notes for AWS-IoT-Core

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]]//

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1. //Firmware version since:[[lgw~~-~~-build-v5.4.1614945073>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/LIG16/Firmware/Release/lgw--build-v5.4.1614945073-20210305-1953/]]//

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**//What you'll learn in this tutorial//**

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//1. How to register a gateway with AWS//

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//2. How to register an end node with AWS//

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//3. How to accept payload date with AWS//

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= **2. Gateway Setup Instruction** =

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== **2.1 sign up for [[an AWS >>url:https://portal.aws.amazon.com/]]account and select the area** ==

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//Sign up for an AWS account//

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[[image:image-20220524141920-1.png]]

//Select area//

[[image:image-20220524142008-2.png]]

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//**Note:** Currently, AWS IoT Core for LoRaWAN is available today in US East (N. Virginia) and Europe (Ireland) Regions. if you are not in either of these areas, their options will not affect your usage.//

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== 2.2 Step 2: [[Add an IAM role>>url:https://console.aws.amazon.com/iam/home#/roles]] ==

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**//To add the IAM role to allow the Configuration and Update Server (CUPS) to manage gateway credentials:、//**

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//**1.** Open the Roles hub of the IAM console and choose Create role.//

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//**2.** If you think that you might have already added the IoTWirelessGatewayCertManagerRole role, in the search bar, enter IoTWirelessGatewayCertManagerRole.//

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//If you see an IoTWirelessGatewayCertManagerRole role in the search results, you have the necessary IAM role. You can leave the procedure now.//

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//If the search results are empty, you don't have the necessary IAM role. Continue the procedure to add it.//

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//**3. **In Select type of trusted entity, choose Another AWS account.//

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//**4.** In Account ID, enter your AWS account ID and then choose Next: Permissions.//

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//**5.** In the search box, enter AWSIoTWirelessGatewayCertManager.//

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//**6.** In the list of search results, select the policy named AWSIoTWirelessGatewayCertManager.//

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//**7.** Choose Next: Tags, and then choose Next: Review.//

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//**8.** In Role name, enter IoTWirelessGatewayCertManagerRole, and then choose to Create role.//

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//**9.** To edit the new role, in the confirmation message, choose IoTWirelessGatewayCertManagerRole.//

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//**10.** In Summary, choose the Trust relationships tab and then choose Edit trust relationship.//

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//**11.** In the Policy Document, change the Principal property to look like this example.//

(% class="box" %)

(((

"Principal": {

"Service": "iotwireless.amazonaws.com"

},

)))

(% class="box" %)

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After you change the Principal property, the complete policy document should look like this example.

)))

(% class="box" %)

(((

{

"Version": "2012-10-17",

"Statement": [

{

"Effect": "Allow",

"Principal": {

"Service": "iotwireless.amazonaws.com"

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},

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"Action": "sts:AssumeRole",

"Condition": {}

}

]

}

)))

**12.** To save your changes and exit, choose Update Trust Policy. Note: You’ve now created the IoTWirelessGatewayCertManagerRole. You won’t need to do this again.

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[[image:image-20220525172556-1.png]]

tart create role

[[image:image-20220525172629-2.png]]

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Choose Another AWS account

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[[image:image-20220525172718-3.png]]

start Create policy

[[image:image-20220525172756-4.png]]

Choose Next review

[[image:image-20220525173033-7.png]]

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In role name,enter AWSIoTWirelessGatewayCertManagerRole,and then choose Create role.

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[[image:image-20220525172948-6.png]]

To edit the_new role

[[image:image-20220525173155-8.png]]

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Choose Edit trust relationship.

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[[image:image-20220525173226-9.png]]

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Change policy Document

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== 2.3 Step 3: Add gateway ==

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Locate IoT Core in the AWS Service Control Panel, and locate the Wireless Connection in the IoT Core Control Panel to start adding the Gateway

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[[image:image-20220525173308-10.png]]

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Locate IoT Core in the AWS Service Control Panel

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[[image:image-20220525173340-11.png]]

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locate the Wireless Connection in the IoT Core Control Panel

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== 2.4 Step 4: Get a unique Gateway ID in the gateway ==

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Every gateway has a Gateway ID, the ID can be found at Amazon AWS IoT.

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[[image:image-20220525173425-12.png]]

Gateway ID

**Note**:User must use the Gateway ID of the Amazon AWS IoT page as the EUI

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**Notice**: In latest firmware. the AWS-IoT configured page is under LoRaWAN Basic Station page.

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[[image:image-20220525173456-13.png]]

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LoRaWAN Basic Station

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== 2.5 Step 5: Configure the gateway and Creation gateway certificates ==

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Configure the gateway and Creation gateway certificates

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[[image:image-20220525173537-14.png]]

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Configure the gateway

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[[image:image-20220525173615-15.png]]

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Creation gateway certificates

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**Note: **User Make sure the name of the downloaded file remains the same

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== 2.6 Step 6: Add gateway file ==

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user returns to your gateway, and start adding the three file they got to the gateway.

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[[image:image-20220525173647-16.png]]

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Configure the gateway

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if the user Upload successfully you will see:

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[[image:image-20220525173710-17.png]]

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Uploaded successfully

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(% style="color:red" %)**Notice: **(% style="color:black" %)User must select the correct Upload on the suffix name, otherwise the upload fails.

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== 2.7 Step 7: Add CUPS URI ==

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Users enter the CUPS endpoint copied in the previous step into the CUPS URI and click **"Save&Apply"**

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[[image:image-20220525173735-18.png]]

CUPS URI

[[image:image-20220525173759-19.png]]

CUPS URI Setting

**Notice:** After the user hits "Save&Apply", the gateway will start Station mode on its own

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== 2.8 Step 8:Last upLink received ==

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After the above settings, the gateway should be able to connect, the figure below shows the data of the Last upLink received

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[[image:image-20220525174247-20.png]]

UpLink received

= 3. Add wireless device =

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== 3.1 step 1:Add device profile ==

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=== 3.1.1 CREATE DEVICE PROFILE ===

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select profile in the Control Panel and add configuration adn service files.the device's configuration paranmeters depend on the LoRaWAN specification it uses.The configuration parameters are found in the device's documentation or on the device itself.

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[[image:image-20220525174325-21.png]]

Add device profile

**Provide device data**

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**Device profile name** : a descriptive name of your choice for this profile, e.g. “Workshop device profile of ”

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**Frequency band (RFRegion)** : please select a frequency band your device and gateway will be using. For most European countries EU868 is a right choice. For USA US915 is a right choice. If in doubt, you can review a regional parameters document, section “1.2 Quick cross reference table”.

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**MAC version** : this parameter should specify the most recent version of LoRaWAN specification supported by your device. Unless device documentation states otherwise, please select 1.0.3.

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**Regional parameters version**: please select RP002-1.0.1, unless specified otherwise in your device documentation

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**MaxEIRP** : please enter the default value 15

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**Supports class **: please select class A, unless you are aware of specific requirements to use classes B and C and your device supports it

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)))

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[[image:image-20220525174354-22.png]]

device profile

**Notice** **: **See the documentation for more information: [[https:~~/~~/docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html>>url:https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html]]

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=== 3.1.2 CREATE SERVICE PROFILE ===

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Select “Profiles” view and click on “Add service profile”

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[[image:image-20220525174516-23.png]]

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Add a service profile

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Choose a service profile name (e.g. “Default service profile”)

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Ensure that AddGWMetaData parameter is enabled. By enabling this parameter you will receive additional metadata with each device payload, for example RSSI and SNR for the data transmission.

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This metadata could be used for network coverage optimization.

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Finally, scroll down and click on “Add service profile”.

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)))

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[[image:image-20220525174610-24.png]]

Add service profile2

== 3.2 Step 2:Create an IAM roles for destinations ==

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AWS IoT Core for LoRaWAN destinations require IAM roles that give AWS IoT Core for LoRaWAN the permissions necessary to send data to the AWS IoT rule. If such a role is not already defined, you'll need to define it so that it will appear in the list of roles.

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**To create an IAM policy for your AWS IoT Core for LoRaWAN destination role**

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**1.** Open the Policies hub of the IAM console.

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**2. **Choose Create policy, and choose the JSON tab.

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**3. **In the editor, delete any content from the editor and paste this policy document.

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(((

{

"Version": "2012-10-17",

"Statement": [

{

"Effect": "Allow",

"Action": [

"iot:DescribeEndpoint",

"iot:Publish"

],

"Resource": "*"

}

]

}

)))

**4.** Choose Review policy, and in Name, enter a name for this policy. You'll need this name to use in the next procedure. You can also describe this policy in Description, if you want.

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**5.** Choose Create policy.

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**To create an IAM role for an AWS IoT Core for LoRaWAN destination:**

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**1.** Open the Roles hub of the IAM console and choose Create role.

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**2.** In Select type of trusted entity, choose Another AWS account.

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**3. **In Account ID, enter your AWS account ID, and then choose Next: Permissions.

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**4.** In the search box, enter the name of the IAM policy that you created in the previous procedure.

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**5.** In the search results, check the IAM policy that you created in the previous procedure.

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**6.** Choose Next: Tags, and then choose Next: Review.

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**7. **In Role name, enter the name of this role, and then choose Create role.

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**8.** In the confirmation message, choose the name of the role you created to edit the new role.

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**9. **In Summary, choose the Trust relationships tab, and then choose Edit trust relationship.

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**10.** In Policy Document, change the Principal property to look like this example.

(% class="box" %)

(((

"Principal": {

"Service": "iotwireless.amazonaws.com"

},

)))

After you change the Principal property, the complete policy document should look like this example.

(% class="box" %)

(((

{

"Version": "2012-10-17",

"Statement": [

{

"Effect": "Allow",

"Principal": {

"Service": "iotwireless.amazonaws.com"

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},

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"Action": "sts:AssumeRole",

"Condition": {}

}

]

}

)))

**~11. **To save your changes and exit, choose Update Trust Policy.

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With this role defined, you can find it in the list of roles when you configure your AWS IoT Core for LoRaWAN destinations.

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=== 3.2.1 CREATE DESTINATION ===

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**Select Destinations view**

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Please click on “Destinations” menu and afterwards please click on “Add destination”.

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[[image:image-20220525174704-25.png]]

Select destinations

**Provide input**

Please provide the following input:

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Please choose an IAM role that shall be used for the invocation of AWS IoT Rule.

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Please select the destination name (e.g. “WorkshopDestination<Your name without spaces>”)

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Please select the AWS IoT Rule name (e.g. “MyWorkshopLoRaWANRule<Your name without spaces>”)

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)))

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click on “Add destination”

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[[image:image-20220525174729-26.png]]

provide input

=== 3.2.2 CREATE IOT RULE ===

**Create Rule**

user navigating to AWS IoT , Act, Rules and clicking on “Create” button.

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[[image:image-20220525174808-27.png]]

Rule create

//Provide a rule name'//

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Please input the same IoT Rule name you used in a previous step when creating a new AWS IoT Core for the LoRaWAN destination (e.g. “test_example”).

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)))

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[[image:image-20220524201202-2.png||height="351" width="611"]]

Enter Rule name

**Provide IoT SQL query statement**

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Please put the following text into the rule query statement: **SELECT *, timestamp() as timestamp**

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[[image:image-20220524201532-4.png||height="387" width="615"]]

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Enter SQL query statement

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**Select action “Republish to an AWS IoT Topic”**

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[[image:image-20220524203543-8.png||height="637" width="601"]]

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== 3.3 Step 3: Create a destination for end node payloadDate ==

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The PayloadDate of the node will be sent to this destination

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**a.** In the [[destinatons>>url:https://console.aws.amazon.com/iot/home?region=us-east-1#/wireless/destinations]],choose add destination.

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**b.** In IMA Role, select the Role you created in the last step

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**c.** In Destination name, give this destination a destination name.

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**d.** In Rule name, give this rule a new name and remember it.

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**e.** choose Add Destination.

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[[image:image-20220524204934-9.png||height="663" width="627"]]

Add destination

**Note:**The destination rule configuration sent by the end node payloadDate will be in the next step

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== 3.4 Step 4: CREATE WIRELESS DEVICE ==

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Users can register end nodes with AWS

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=== 3.4.1 Open Add wireless device ===

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**a.** In Device,choose Add wireless device.

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**b.** In Wireless device specification，select OTTA 1.0.x

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**c. **In OTTA 1.0.x

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**d.** In Profiles,select profilees,and choose Next

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[[image:image-20220525175201-28.png]]

Add device

[[image:image-20220525175256-29.png]]

Enter device keys

**Select device and service profile**

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Scroll down and endure that “Associate a thing with your wireless device” option is enabled. AWS will create a thing in AWS IoT for you and associate it with this device. Things in AWS IoT can make it easier to search for and manage your devices.

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[[image:image-20220525175338-30.png]]

Seleck profile

=== 3.4.2 Select a destination ===

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**Plese select a destination you have created in one of the previous steps and choose add device**

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[[image:image-20220525175408-31.png]]

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Add device_choose destition

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**REVIEW THE CREATED DEVICER**

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[[image:image-20220525175438-32.png]]

Uplink Received

**VERIFY DEVICE CONNECTIVITY**

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Verify device connectivity

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=== 3.4.3 Verify date ingestion ===

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**Open MQTT Test Client**

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[[image:image-20220524145328-31.png]]

Open MQTT Client

**Subscribe to topic**

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Please input the topic name **workshop_lorawanmessages** in “Subscription topic” field and click on “Subscribe to topic”.

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Users can choose to subscribe to "**#**" ,"#" indicates to subscribe to all.

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[[image:image-20220524145404-32.png]]

Subscription Topic

**Trigger your device to send telemetry**

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User can start the registered device

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**Review the incoming message from uesr's device**

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Please find below an explanation for some of the attributes:

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**PayloadData ** : Base64-encoded payload from the device

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**~ WirelessMetadata.FPort** : FPort used by the device

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**~ WirelessMetadata.LoRaWAN.DevEui** : EUI of the device sending the data

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**~ WirelessMetadata.LoRaWAN.Gateways**: Information on RSSI and SNR per gateway

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)))

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[[image:image-20220524145507-33.png]]

Review message

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{

"WirelessDeviceId": "3ff07678-0c3d-4ed7-a01a-4e2cc927e315",

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"PayloadData": "AAAAAAAAAAAPo2I=",

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"WirelessMetadata": {

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"LoRaWAN": {

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"DataRate": "5",

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"DevEui": "a840410801818749",

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"FCnt": 579,

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"FPort": 2,

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"Frequency": "867500000",

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"Gateways": [

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{

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"GatewayEui": "a84041ffff1ec39f",

"Rssi": -79,

"Snr": 7.25

},

{

"GatewayEui": "a84041ffff1ee2a0",

"Rssi": -129,

"Snr": -4

}

],

"Timestamp": "2021-04-10T08:16:06Z"

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}

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},

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"timestamp": 1618042566345

}

)))

**How to decode Base64 data into hexadecimal representation**

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You can run the following command in your shell to decode Base64 payload data into their hexadecimal representation.

MacOS

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$ echo -n "<Value of PayloadData>" | base64 -D | hexdump -v -e '/1 "%02x"'

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Linux

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$ echo -n "<Value of PayloadData>" | base64 -d | hexdump -v -e '/1 "%02x"'

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Example

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$ echo -n "7WkoOEfwfTTioxG6CatHBw==" | base64 -D | hexdump -v -e '/1 "%02x"'

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ed69283847f07d34e2a311ba09ab4707

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)))

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= 4. Format a notification by using an AWS Lambda function =

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== 4.1 Introduction ==

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This tutorial demonstrates how to send MQTT message data to an AWS Lambda action for formatting and sending to another AWS service. In this tutorial, the AWS Lambda action uses the AWS SDK to send the formatted message to the Amazon SNS topic

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=== 4.1.1 What you'll learn in this tutorial ===

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How to create and test an AWS Lambda function

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How to use the AWS SDK in an AWS Lambda function to publish an Amazon SNS notification

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How to use simple SQL queries and functions in a rule query statement

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How to use the MQTT client to test an AWS IoT rule

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=== 4.1.2 In this tutorial, you'll: ===

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(((

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Create an AWS Lambda function that sends a text message

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Create an AWS IoT rule with an AWS Lambda rule action

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Test the AWS IoT rule and AWS Lambda rule action

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)))

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== 4.2 Approach A: DECODING BINARY PAYLOADS ==

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=== 4.2.1 Step 1 :Start deployment of a severless application with AWS Lambda function and AWS ioT Rule ===

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**1:Open AWS Lambda console by clicking on [[link>>url:https://console.aws.amazon.com/lambda/home?region=us-east-1#/create/app?applicationId=arn:aws:serverlessrepo:us-east-1:614797420359:applications/aws-iot-corelorawan-sampledecoder]]**

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[[image:image-20220524145607-34.png]]

Deployment Lambda

**2:Select a decoder**

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Please scroll down to the bottom of the page. Please provide the parameter decoder name based on the following table.

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Device Decoder name

LHT65 dragino_lht65

LBT1 dragino_lbt1

LSE01 dragino_lse01

LGT92 dragino_lgt92

LDS01 dragino_lds01

After that please check the box **“I acknowledge that this app creates resource policies.”** and click on **“Deploy”**.

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[[image:image-20220525093033-1.png||height="292" width="615"]]

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Seleck a decoder name

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**3:Review deployment**

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Please wait few seconds for a successful deployment. After that please click on the name of the Lambda function “TransformLoRaWANBinaryPayloadFunction”.

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)))

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[[image:image-20220524145715-36.png]]

Review deployment

**4. Create the test event**

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Please click on “Configure the test event”

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[[image:image-20220524145752-37.png]]

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Create the test event

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In the window that opens, please provide the event name e.g. IoTCoreForLoRaWANEvent. After that please paste the following JSON content:

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(% class="box" %)

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{

"PayloadData": "<Sample PayloadData>",

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"WirelessDeviceId": "57728ff8-5d1d-4130-9de2-f004d8722bc2",

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"WirelessMetadata": {

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"LoRaWAN": {

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"DataRate": 0,

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"DevEui": "a84041d55182720b",

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"FPort": 2,

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"Frequency": 867900000,

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"Gateways": [

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{

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"GatewayEui": "dca632fffe45b3c0",

"Rssi": -76,

"Snr": 9.75

}

],

"Timestamp": "2020-12-07T14:41:48Z"

}

}

}

)))

[[image:image-20220524145826-38.png]]

Create a new event

**5. Provide PayloadData sample**

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Please replace the string <Sample PayloadData> in the JSON document with a sample payload for the device you selected in step 2 according to this table. After that please click on “Create”.

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(% class="box" %)

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Device name Sample “PayloadData”

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LHT65 ~-~- y6QHxgG4AQhmf/8=

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LSE01 ~-~- AuHtlACmawQPVGM=

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LGT92 ~-~- DSEAAAEVCMUGpAA=

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LBT1 ~-~- DxwAAAIDQUJCQ0NEREVFRkYwMjcxMjFGNkFDMy0wNTk=

)))

)))

~[~[File:replace <Sample PayloadDate>.png|600px|none|thumb|replace <Sample PayloadDate>]]

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**6.Edit project Files**

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The project file needs to be modified when the user needs to test or add a new decoder, feel invited to switch to the “Code” section of the AWS Lambda function and inspect the Python source code. You will find the decoders for the individual devices in the directory decoders. The AWS Lambda function handler is in file **app.py**

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Users can find the required decoder in this **[[link>>url:https://github.com/aws-samples/aws-iot-core-lorawan/tree/main/transform_binary_payload]], **then added to the project.

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How to modify see the figure below:

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1) Add a decoder in app.py ~-~--> For example, add code: import dragino_lht52

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2) Add the decoder name to "VALID_PAYLOAD_DECODER_NAMES" ~-~--> add dragino_lht52

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3) Add the statement ~-~--> DECODER_NAME = "dragino_lht52"

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**(The user can input the decoding project that needs to be tested)**

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4)Comment out "DECODER_NAME = os.environ.get("DECODER_NAME")"

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**(Comment out it in order to use other project files)**

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)))

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[[image:image-20220525094832-3.png||height="276" width="627"]]

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After the user finishes editing, Click on the **"Deploy"**

**7. Run a test**

Please click on **“Test”**.

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[[image:image-20220524145910-39.png]]

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**8. Check whether the decoding succeeds **

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The following example is the successful decoding of LHT52,

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[[image:image-20220525100532-4.png||height="488" width="612"]]

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**7. Note the AWS Lamdbda function ARN**

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As a preparation for the next step, please note the ARN of the deployed AWS Lambda function. We will need this ARN later to review the created AWS IoT Rule.

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[[image:image-20220524150010-40.png]]

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=== 4.2.2 Step 2:Update the Destination rule and get the device's payload ===

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In this step, you update the IoT rule that forwards the device payload to your application. This rule is associated with the destination created earlier in Set up a Destination for device traffic.

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~1. Find the IoT Rule

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2. Create a Destination with IoT Rule (MyWorkshopLoRaWANRuleWithDecoder_dragino_lht65)

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3. Update the destination to the device

4. Check the payload

5. Approach A with MQTT

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6. Approach B with Lambda

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)))

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==== 4.2.2.1 1. Find the IoT Rule MyWorkshopLoRaWANRuleWithDecoder_… ====

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Please put the IoT Rule name prefix **MyWorkshopLoRaWANRuleWithDecoder_** into the search field and click on the search symbol. The rule named **MyWorkshopLoRaWANRuleWithDecoder_<Decoder name>** should appear:

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[[image:image-20220524150134-42.png]]

Find the IoT rule

==== 4.2.2.2 2. Create a Destination with IoT Rule ====

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(MyWorkshopLoRaWANRuleWithDecoder_dragino_lht65)

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[[image:image-20220524150209-43.png]]

Create a Destnation

==== 4.2.2.3 3. Update the destination to the device ====

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[[image:image-20220524150412-44.png]]

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Update the destination to the device

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==== 4.2.2.4 4.Check the payload ====

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**Approach A with MQTT**

click the rule

[[image:image-20220524150459-45.png]]

click the rule

Copy the Topic name

[[image:image-20220524150604-46.png]]

copy the rule name

Open MQTT client and subscrlibe Topic

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[[image:image-20220524150650-47.png]]

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Open MQTT client and subscrlibe Topic

Get the payload

[[image:image-20220524150737-48.png]]

Get the payload

**Approach B with Lamdbda**

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open lamdbda console and click the application

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[[image:image-20220524150822-49.png]]

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open lamdbda console and click the application

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[[image:image-20220524150915-50.png]]

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open lamdbda console and click the application

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View logs in CloudWatch

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[[image:image-20220524151006-51.png]]

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View logs in CloudWatch

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[[image:image-20220524151040-52.png]]

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View logs in CloudWatch

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== 4.3 Approach B Create an AWS Lambda function that sends a text message ==

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The AWS Lambda function in this tutorial receives the result of the rule query statement, inserts the elements into a text string, and sends the resulting string to Amazon SNS as the message in a notification.

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=== 4.3.1 Step.1: To create an AWS Lambda function that sends a text message ===

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==== 4.3.1.1 1.Create a new AWS Lambda function. ====

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**a.** In the [[AWS Lambda console>>url:https://console.aws.amazon.com/lambda/home]], choose Create function.

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[[image:image-20220524151158-53.png]]

Create function

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**b.** In Create function, select Use a blueprint. Search for and select the hello-world-python blueprint, and then choose **Configure**.

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[[image:image-20220524151409-54.png]]

blueprint

**c. **In Basic information:

(% class="box" %)

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1). In Function name, enter the name of this function, format-high-temp-notification.

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2). In Execution role, choose Create a new role from AWS policy templates.

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3). In Role name, enter the name of the new role, format-high-temp-notification-role.

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4). In Policy templates - optional, search for and select Amazon SNS publish policy.

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5). Choose Create function.

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[[image:image-20220524151459-55.png]]

blueprint

==== 4.3.1.2 2.Modify the blueprint code to format and send an Amazon SNS notification. ====

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**a.** After you created your function, you should see the format-high-temp-notification details page. If you don't, open it from the Lambda Functions page.

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**b.** In the format-high-temp-notification details page, choose the Configuration tab and scroll to the Function code panel.

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**c. **In the Function code window, in the Environment pane, choose the Python file, lambda_function.py.

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**d.** In the Function code window, delete all of the original program code from the blueprint and replace it with this code.

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from ~_~_future~_~_ import print_function

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import json

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import boto3

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print('Loading function')

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def lambda_handler(event, context):

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# Parse the JSON message

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eventText = json.dumps(event)

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# Print the parsed JSON message to the console. You can view this text in the Monitoring tab in the AWS Lambda console or in the Amazon CloudWatch Logs console.

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print('Received event: ', eventText)

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# Create an SNS client

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sns = boto3.client('sns')

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# Publish a message to the specified topic

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response = sns.publish (

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TopicArn = 'arn:aws:iam::123456789012:My_IoT_SNS_Topic',

Message = eventText

)

print(response)

)))

**e.** Choose Deploy.

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**Note: **Replace the value of **TopicArn** with the ARN of the Amazon SNS topic that you created SNS topic in which [[SNS>>url:https://console.aws.amazon.com/sns/home?region=us-east-1]]

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**Note: **If you don't have SNS topic it does't affect the use of Lambda.About how to Create SNS topic will be show next chapter

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==== 4.3.1.3 3.In a new window, look up the Amazon Resource Name (ARN) of your Amazon SNS topic from the tutorial about how to Send an Amazon SNS notification. ====

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**a. **In a new window, open the Topics page of the Amazon SNS console

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**b.** In the Topics page, find the high_temp_notice notification topic in the list of Amazon SNS topics.

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**c.** Find the ARN of the high_temp_notice notification topic to use in the next step.

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==== 4.3.1.4 4.Create a test case for your Lambda function. ====

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**a.** In the Lambda Functionspage of the console,from **Select a test event**to select Configure test events

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[[image:image-20220524151730-56.png]]

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Configure test events

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**b. **On Configure test event, enter a name for your test event and replace the message JSON with the following:

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{

"message" : "Hello, world"

}

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**c.** choose Create

[[image:image-20220524152032-57.png]]

event create

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**d. **In the upper right of the Lambda function details page, choose Test to test your Lambda function with the message you specified in the test event.

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[[image:image-20220524152057-58.png]]

event test

**e.** Under your Lambda function code, on the Execution result tab, you see the output from the Lambda function.

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[[image:image-20220524152131-59.png]]

event output

Now The Lambda function table is created

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=== 4.3.2 Step.2: Create Rule with Lambda function ===

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**~1. **Browse to the AWS IoT console, and in the navigation pane, select **Act**

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[[File:Console Act.png>>url:https://wiki.dragino.com/index.php?title=Special:Upload&wpDestFile=Console_Act.png]]

(% class="box" %)

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console_Act

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**2. **Choose Create to create an AWS IoT rule.

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[[image:image-20220524152224-61.png]]

create Rule

**3.** On the Create a rule page, enter a name for your rule.

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[[image:image-20220524152356-62.png]]

enter a Rule name

**4.** In Rule query statement, enter the following query:

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SELECT * FROM "my/lambda/topic"

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[[image:image-20220524152441-63.png]]

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enter the following query

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**5.** In Set one or more actions, select Add action.

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[[image:image-20220524152520-64.png]]

Add action

**6.** Under the select operation, select Send a Message to a Lambda Function and then select the configuration operation.

select operation

= 5. For End Node =

== 5.1 AWS Downlink Note ==

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Prerequisites: The node must be online in real-time before downlink.

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[[image:image-20220525113243-2.png||height="346" width="623"]]

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Convert the data to Base64

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[[image:image-20220525113612-3.png||height="377" width="622"]]

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When the serial port logs of downlink are received, the Receive date is displayed

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[[image:image-20220525115046-4.png]]

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In addition to the above methods, there is also a downlink,This method requires a certain amount of manipulation,

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Users can view this [[Downlink method 2>>url:https://github.com/aws-samples/aws-iot-core-lorawan/tree/main/send_downlink_payload]]

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== 5.2 Node decoder ==

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[[Decode LHT65>>url:https://github.com/aws-samples/aws-iot-core-lorawan/tree/main/transform_binary_payload]]

= 6. Reference =

* [[Video Introduction for how to use LoRaWAN AWS-IoT Core>>url:https://www.youtube.com/watch?v=eKK0M8iC6l4]]

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* [[AWS LoRaWAN Workshop>>url:https://iotwireless.workshop.aws/]]

Wiki source code of Notes for AWS-IoT-Core

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