Basic configuration of rule chains

1

**Table of Contents:**

2

= 1.About rule chains =

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9

The system provides a rule chain library for developers to configure message transformation, filtering, computation, and transmission on their own.

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= 2.Rule chain creation =

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The system provides a default root rule chain that supports user use. No changes are made on the root rule chain, but the root rule chain is exported and re imported, and then modified and configured in the newly imported rule chain.

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Firstly, follow the steps below to export the root rule chain. After clicking on export, the system will automatically download it, and the exported file will be in JSON format.

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[[image:1730343544790-113.png||height="711" width="1364"]]

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Re import the exported configuration into the system. After clicking on import, the system will directly jump to the configuration page of the newly imported rule chain. Simply click on the "Apply Change" button in the bottom right corner.

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Re exit to the rule chain library menu to see the newly imported rule chain library configuration.

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[[image:1730344152898-509.png||height="711" width="1363"]]4

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[[image:1730344348542-260.png||height="701" width="1361"]]

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= 3.Rule chain modification =

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Follow the steps below to modify the basic information of the rule chain. You can rename the rule chain imported in the previous section.

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[[image:1730344632740-435.png||height="702" width="1362"]]

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[[image:1730345137320-999.png||height="705" width="1366"]]

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[[image:1730345353615-959.png||height="706" width="1369"]]

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= 4.Rule chain deletion =

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You can delete a newly created rule chain by following the following steps.

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note: the default root rule chain provided by the system cannot be deleted.

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[[image:1730346321550-495.png||height="705" width="1371"]]

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= 5.Rule chain configuration =

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If you need to configure the rule chain, you need to follow the following steps to enter the configuration page of the rule chain.

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[[image:1730346571913-889.png||height="714" width="1373"]]

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[[image:1730346890962-926.png||height="711" width="1376"]]

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[[image:1730347084731-765.png||height="717" width="1377"]]

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[[image:1730347231071-931.png||height="712" width="1377"]]

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58

Next, we will explain the configuration of rule nodes that may be commonly used in different classes to manipulate data. As the default device configuration was applied in the creation of the previous device ,

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the rule chain used in the default device configuration is the Root Rule Chain. Therefore, the following demonstrations are all configurations made in the Root Rule Chain.

= 6.About Nodes =

== 6.1 filter ==

=== 6.1.1 check fidles presence ===

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68

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(% id="cke_bm_11489S" style="display:none" %) (%%)This rule node is used to verify the existence of certain attributes in the message body or metadata, and distribute the message based on the verification results. The configuration content of this node includes:

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* **Name:** required field, indicating the name of the node;

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* **Message field names:** The name of the attribute to be verified in the message body, which is the content of the message actively sent by the device. Multiple attributes can be configured here, and after entering each attribute, press' Enter 'to enter;

73

* **Metadata field names:** The attribute names that need to be validated in the message metadata. The metadata is the data attached to the system and generally includes three metadata attributes: DeviceType, DeviceName, and ts. Multiple attributes can be configured here, and after entering each attribute, press' Enter 'to enter;

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* **Check that all specified fields are present: **Select the box, and when performing the above attribute verification, connect each verification condition with "and"; When not selected, during the above attribute verification, each verification condition is connected by "or";

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* **Explanation: **Non mandatory field, additional explanation;

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77

According to the judgment result, there are two types of exits for this rule node: true and false.

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A simple usage example is as follows:

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[[image:1730353965218-437.png||height="724" width="1374"]]

=== 6.1.2 script ===

(% id="cke_bm_12553S" style="display:none" %) (%%)This rule node allows developers to implement data filtering through programming, that is, to distribute messages using custom filtering rules. The configuration content of this node includes:

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* **Name:** required field, indicating the name of the node;

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* **Function Filter:** Code (customizing filtering rules through code), the function parameters include msg (message), metadata (metadata), msgType (message type pushed by the previous node), and the return value should be a Boolean value;

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* **Explanation:** Non mandatory field, additional explanation;

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According to the code logic, there are two types of exits for this rule node: true and false.

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A simple usage example is as follows:

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[[image:1730354366308-318.png||height="708" width="1374"]]

=== 6.1.3 switch ===

This rule node allows developers to implement data grouping filtering through programming, that is, to distribute data using custom distribution rules. The configuration content of this node includes:

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* **Name:** required field, indicating the name of the node;

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* **Function Switch: **Code (customizing grouping rules through code), function parameters include msg (message), metadata (metadata), msgType (message type pushed by the previous node), return value should be a string array, indicating the path to be distributed;

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* **Explanation: **Non mandatory field, additional explanation;

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According to the code logic, the exit of this rule node is defined by the coding personnel, as shown in the example.

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A simple usage example is as follows

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if (msg.temperature > 25) {

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return ['High temperature'];

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} else if (msg.temperature < 18) {

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return ['Low temperature'];

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} else {

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return ['Normal temperature'];

}

(% class="wikigeneratedid" %)

127

(((

128

The above code defines three exits, namely High temperature, Low temperature, and Normal temperature. Therefore, when connecting to the next node, we need to customize the connection according to our defined exit path, as shown in the following figure. After completing the input, press "Enter" to create a link label, and then click "Add".

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(% class="wikigeneratedid" %)

(((

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(% class="wikigeneratedid" %)

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(((

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[[image:1730355203367-790.png||height="715" width="1392"]]

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(% class="wikigeneratedid" %)

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(((

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[[image:1730355288161-463.png||height="725" width="1390"]]

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== 6.2 properties ==

=== 6.2.1 calculate delta ===

This rule node is used to calculate the difference between the data in this message and the corresponding data in the previous message, and to refine and distribute the message content based on the calculation results. The configuration content of this node includes:

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* **Name:** required field, indicating the name of the node;

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* **Input value Key:** required field, the name of the attribute to be incrementally calculated;

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* **Output value Key:** required field, the attribute name of the incremental value calculated and added to the message body;

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* **Decimals: **Accuracy of incremental computation;

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* **Use cache:** Select option to store the value of the previous data in memory, checked by default;

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* **Tell Failure if delta is negative:** Select option. If the increment value is negative, it is considered a message processing failure and is checked by default;

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* **Add period between messages: **Select option to add the time difference from the previous message in the message body, not checked by default. After selecting, you need to fill in the Period value key as the attribute name added to the message body as the calculated time difference;

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* **Exclude zero deltas from outbound message:**Only output data with delta difference non-zero.

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* **Explanation:** Non mandatory field, additional explanation;

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According to the running results, there are three types of exits for this rule node:** Success**, **Failure**, and **Other**:

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* **Success:** The data export for successful incremental calculation;

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* **Failure:** The data exit for message processing failure. If Tell Failure if delta is negative is checked, the data with a negative increment will be calculated and output from this exit;

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* **Other:** The data export for the attribute value to be incrementally calculated is missing from the message;

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A simple usage example is as follows:

[[image:1730356036784-417.png||height="734" width="1378"]]

=== 6.2.2 customer attributes ===

This rule node is used to add some attributes configured for users to the metadata of messages and distribute data based on the processing results. The configuration content of this node includes:

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* **Name:** required field, indicating the name of the node;

191

* **Latest telemetry:** a selection option that will retrieve the latest attribute values reported remotely by the client based on the configured key. Unchecking it will query the server attributes of the client to which the device belongs, and it will be unchecked by default;

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* **Source telemetry key:** input item, the name of the customer attribute to be added to the message metadata;

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* **Target attribute: **Input item, the attribute name to be added to the message metadata, which appears in conjunction with the Source telemetry key and can add multiple pairs of attributes;

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* **Explanation: **Non mandatory field, additional explanation;

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According to the running results, there are two types of exits for this rule node: Success and Failure. When the customer to which the device belongs is not configured, data is output from the Failure exit.

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This involves setting user attributes, which can be configured as follows.

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[[image:1730357095598-358.png||height="717" width="1377"]]

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A simple example of using this rule node is as follows:

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[[image:1730357340823-311.png||height="613" width="1372"]]

=== 6.2.3 customer details ===

This rule node is used to add some detailed information configured for users to the message and distribute data based on the processing results. The configuration content of this node includes:

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* **Name:** required field, indicating the name of the node;

220

* **Select entity details: **Multiple options, select the detailed information of the customer to be added to the message (the information configured when creating the customer, including country, city, address, email, etc.), and the attribute name format of the added information is "customer-specific content name";

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* **Add selected details to message metadata:** If checked, the corresponding information will be added to the metadata and passed to downstream nodes; If not checked, the corresponding information will be added to the data and passed to downstream nodes. Not selected by default;

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* **Explanation: **Non mandatory field, additional explanation;

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According to the running results, there are two types of exits for this rule node: Success and Failure. When the customer to which the device belongs is not configured, data is output from the Failure exit.

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A simple usage example is as follows:

[[image:1730357528275-219.png||height="711" width="1387"]]

=== 6.2.4 tenant attributes ===

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=== 6.2.5 tenant details ===

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=== 6.2.6 fetch device credentials ===

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== 6.3 transformation ==

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=== 6.3.1 copy keys ===

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=== 6.3.2 delete keys ===

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=== 6.3.3 rename keys ===

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=== 6.3.4 deduplication ===

=== 6.3.5 script ===

== 6.4 action ==

=== 6.4.1 math function ===

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=== 6.4.2 create alarm && clear alarm ===

=== 6.4.3 delay ===

=== 6.4.4 generator ===

=== 6.4.5 log ===

== 6.5 external ==

=== 6.5.1 kafka ===

=== 6.5.2 mqtt ===

=== 6.5.3 rest api call ===

Wiki source code of Basic configuration of rule chains

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Navigation

author	version	line-number	content
		1	Table of Contents:
		2
		3	{{toc/}}
		4
		5
		6
		7	= 1.About rule chains =
		8
		9	The system provides a rule chain library for developers to configure message transformation, filtering, computation, and transmission on their own.
		10
		11	= 2.Rule chain creation =
		12
		13	The system provides a default root rule chain that supports user use. No changes are made on the root rule chain, but the root rule chain is exported and re imported, and then modified and configured in the newly imported rule chain.
		14
		15	Firstly, follow the steps below to export the root rule chain. After clicking on export, the system will automatically download it, and the exported file will be in JSON format.
		16
		17	[[image:1730343544790-113.png\|\|height="711" width="1364"]]
		18
		19	Re import the exported configuration into the system. After clicking on import, the system will directly jump to the configuration page of the newly imported rule chain. Simply click on the "Apply Change" button in the bottom right corner.
		20
		21	Re exit to the rule chain library menu to see the newly imported rule chain library configuration.
		22
		23	[[image:1730344152898-509.png\|\|height="711" width="1363"]]4
		24
		25
		26	[[image:1730344348542-260.png\|\|height="701" width="1361"]]
		27
		28	= 3.Rule chain modification =
		29
		30	Follow the steps below to modify the basic information of the rule chain. You can rename the rule chain imported in the previous section.
		31
		32	[[image:1730344632740-435.png\|\|height="702" width="1362"]]
		33
		34	[[image:1730345137320-999.png\|\|height="705" width="1366"]]
		35
		36	[[image:1730345353615-959.png\|\|height="706" width="1369"]]
		37
		38	= 4.Rule chain deletion =
		39
		40	You can delete a newly created rule chain by following the following steps.
		41
		42	note: the default root rule chain provided by the system cannot be deleted.
		43
		44	[[image:1730346321550-495.png\|\|height="705" width="1371"]]
		45
		46	= 5.Rule chain configuration =
		47
		48	If you need to configure the rule chain, you need to follow the following steps to enter the configuration page of the rule chain.
		49
		50	[[image:1730346571913-889.png\|\|height="714" width="1373"]]
		51
		52	[[image:1730346890962-926.png\|\|height="711" width="1376"]]
		53
		54	[[image:1730347084731-765.png\|\|height="717" width="1377"]]
		55
		56	[[image:1730347231071-931.png\|\|height="712" width="1377"]]
		57
		58	Next, we will explain the configuration of rule nodes that may be commonly used in different classes to manipulate data. As the default device configuration was applied in the creation of the previous device ,
		59
		60	the rule chain used in the default device configuration is the Root Rule Chain. Therefore, the following demonstrations are all configurations made in the Root Rule Chain.
		61
		62	= 6.About Nodes =
		63
		64	== 6.1 filter ==
		65
		66	=== 6.1.1 check fidles presence ===
		67
		68
		69	(% id="cke_bm_11489S" style="display:none" %) (%%)This rule node is used to verify the existence of certain attributes in the message body or metadata, and distribute the message based on the verification results. The configuration content of this node includes:
		70
		71	* Name: required field, indicating the name of the node;
		72	* Message field names: The name of the attribute to be verified in the message body, which is the content of the message actively sent by the device. Multiple attributes can be configured here, and after entering each attribute, press' Enter 'to enter;
		73	* Metadata field names: The attribute names that need to be validated in the message metadata. The metadata is the data attached to the system and generally includes three metadata attributes: DeviceType, DeviceName, and ts. Multiple attributes can be configured here, and after entering each attribute, press' Enter 'to enter;
		74	* Check that all specified fields are present: Select the box, and when performing the above attribute verification, connect each verification condition with "and"; When not selected, during the above attribute verification, each verification condition is connected by "or";
		75	* Explanation: Non mandatory field, additional explanation;
		76
		77	According to the judgment result, there are two types of exits for this rule node: true and false.
		78
		79	A simple usage example is as follows:
		80
		81
		82	[[image:1730353965218-437.png\|\|height="724" width="1374"]]
		83
		84	=== 6.1.2 script ===
		85
		86
		87
		88	(% id="cke_bm_12553S" style="display:none" %) (%%)This rule node allows developers to implement data filtering through programming, that is, to distribute messages using custom filtering rules. The configuration content of this node includes:
		89
		90	* Name: required field, indicating the name of the node;
		91	* Function Filter: Code (customizing filtering rules through code), the function parameters include msg (message), metadata (metadata), msgType (message type pushed by the previous node), and the return value should be a Boolean value;
		92	* Explanation: Non mandatory field, additional explanation;
		93
		94	According to the code logic, there are two types of exits for this rule node: true and false.
		95
		96	A simple usage example is as follows:
		97
		98
		99	[[image:1730354366308-318.png\|\|height="708" width="1374"]]
		100
		101	=== 6.1.3 switch ===
		102
		103
		104
		105	This rule node allows developers to implement data grouping filtering through programming, that is, to distribute data using custom distribution rules. The configuration content of this node includes:
		106
		107	* Name: required field, indicating the name of the node;
		108	* Function Switch: Code (customizing grouping rules through code), function parameters include msg (message), metadata (metadata), msgType (message type pushed by the previous node), return value should be a string array, indicating the path to be distributed;
		109	* Explanation: Non mandatory field, additional explanation;
		110
		111	According to the code logic, the exit of this rule node is defined by the coding personnel, as shown in the example.
		112
		113	A simple usage example is as follows
		114
		115	{{code language="none"}}
		116	if (msg.temperature > 25) {
		117	return ['High temperature'];
		118	} else if (msg.temperature < 18) {
		119	return ['Low temperature'];
		120	} else {
		121	return ['Normal temperature'];
		122	}
		123
		124	{{/code}}
		125
		126	(% class="wikigeneratedid" %)
		127	(((
		128	The above code defines three exits, namely High temperature, Low temperature, and Normal temperature. Therefore, when connecting to the next node, we need to customize the connection according to our defined exit path, as shown in the following figure. After completing the input, press "Enter" to create a link label, and then click "Add".
		129	)))
		130
		131	(% class="wikigeneratedid" %)
		132	(((
		133
		134	)))
		135
		136	(% class="wikigeneratedid" %)
		137	(((
		138	[[image:1730355203367-790.png\|\|height="715" width="1392"]]
		139	)))
		140
		141	(% class="wikigeneratedid" %)
		142	(((
		143	[[image:1730355288161-463.png\|\|height="725" width="1390"]]
		144	)))
		145
		146	== 6.2 properties ==
		147
		148	=== 6.2.1 calculate delta ===
		149
		150
		151
		152
		153
		154	This rule node is used to calculate the difference between the data in this message and the corresponding data in the previous message, and to refine and distribute the message content based on the calculation results. The configuration content of this node includes:
		155
		156	* Name: required field, indicating the name of the node;
		157	* Input value Key: required field, the name of the attribute to be incrementally calculated;
		158	* Output value Key: required field, the attribute name of the incremental value calculated and added to the message body;
		159	* Decimals: Accuracy of incremental computation;
		160	* Use cache: Select option to store the value of the previous data in memory, checked by default;
		161	* Tell Failure if delta is negative: Select option. If the increment value is negative, it is considered a message processing failure and is checked by default;
		162	* Add period between messages: Select option to add the time difference from the previous message in the message body, not checked by default. After selecting, you need to fill in the Period value key as the attribute name added to the message body as the calculated time difference;
		163	* Exclude zero deltas from outbound message:Only output data with delta difference non-zero.
		164	* Explanation: Non mandatory field, additional explanation;
		165
		166	According to the running results, there are three types of exits for this rule node: Success, Failure, and Other:
		167
		168	* Success: The data export for successful incremental calculation;
		169	* Failure: The data exit for message processing failure. If Tell Failure if delta is negative is checked, the data with a negative increment will be calculated and output from this exit;
		170	* Other: The data export for the attribute value to be incrementally calculated is missing from the message;
		171
		172	A simple usage example is as follows:
		173
		174
		175
		176	[[image:1730356036784-417.png\|\|height="734" width="1378"]]
		177
		178
		179
		180
		181
		182	=== 6.2.2 customer attributes ===
		183
		184
		185
		186
		187
		188	This rule node is used to add some attributes configured for users to the metadata of messages and distribute data based on the processing results. The configuration content of this node includes:
		189
		190	* Name: required field, indicating the name of the node;
		191	* Latest telemetry: a selection option that will retrieve the latest attribute values reported remotely by the client based on the configured key. Unchecking it will query the server attributes of the client to which the device belongs, and it will be unchecked by default;
		192	* Source telemetry key: input item, the name of the customer attribute to be added to the message metadata;
		193	* Target attribute: Input item, the attribute name to be added to the message metadata, which appears in conjunction with the Source telemetry key and can add multiple pairs of attributes;
		194	* Explanation: Non mandatory field, additional explanation;
		195
		196	According to the running results, there are two types of exits for this rule node: Success and Failure. When the customer to which the device belongs is not configured, data is output from the Failure exit.
		197
		198	This involves setting user attributes, which can be configured as follows.
		199
		200
		201	[[image:1730357095598-358.png\|\|height="717" width="1377"]]
		202
		203
		204	A simple example of using this rule node is as follows:
		205
		206
		207	[[image:1730357340823-311.png\|\|height="613" width="1372"]]
		208
		209
		210
		211	=== 6.2.3 customer details ===
		212
		213
		214
		215
		216
		217	This rule node is used to add some detailed information configured for users to the message and distribute data based on the processing results. The configuration content of this node includes:
		218
		219	* Name: required field, indicating the name of the node;
		220	* Select entity details: Multiple options, select the detailed information of the customer to be added to the message (the information configured when creating the customer, including country, city, address, email, etc.), and the attribute name format of the added information is "customer-specific content name";
		221	* Add selected details to message metadata: If checked, the corresponding information will be added to the metadata and passed to downstream nodes; If not checked, the corresponding information will be added to the data and passed to downstream nodes. Not selected by default;
		222	* Explanation: Non mandatory field, additional explanation;
		223
		224	According to the running results, there are two types of exits for this rule node: Success and Failure. When the customer to which the device belongs is not configured, data is output from the Failure exit.
		225
		226	A simple usage example is as follows:
		227
		228
		229
		230	[[image:1730357528275-219.png\|\|height="711" width="1387"]]
		231
		232
		233
		234	=== 6.2.4 tenant attributes ===
		235
		236	=== 6.2.5 tenant details ===
		237
		238	=== 6.2.6 fetch device credentials ===
		239
		240	== 6.3 transformation ==
		241
		242	=== 6.3.1 copy keys ===
		243
		244	=== 6.3.2 delete keys ===
		245
		246	=== 6.3.3 rename keys ===
		247
		248	=== 6.3.4 deduplication ===
		249
		250	=== 6.3.5 script ===
		251
		252	== 6.4 action ==
		253
		254	=== 6.4.1 math function ===
		255
		256	=== 6.4.2 create alarm && clear alarm ===
		257
		258	=== 6.4.3 delay ===
		259
		260	=== 6.4.4 generator ===
		261
		262	=== 6.4.5 log ===
		263
		264	== 6.5 external ==
		265
		266	=== 6.5.1 kafka ===
		267
		268	=== 6.5.2 mqtt ===
		269
		270	=== 6.5.3 rest api call ===