Updated on 2024-11-12 GMT+08:00

Flow Overview

Flows are available only in CN East-Shanghai1 and AP-Singapore.

Flows are distributed serverless applications. Visually orchestrate multiple independent serverless functions into an application in sequential, branch, or parallel mode using Low Code technology. In addition, diagnose and debug your applications through a monitoring and management platform.

This section describes flow components, component orchestration rules, expression operators, and configuration examples.

Components

There are multiple types of components. Drag, drop, configure, and connect components to visually orchestrate flows. Before using flows, understand the components described in Table 1.

Table 1 Components

Category

Name

Description

Components

Function

FunctionGraph functions. For details, see Creating a Function.

EG

EventGrid (EG) publishes events to a specified channel. For details about how to create resources, see the EG documentation.

Processors

Callback

Similar to manual review, this node blocks a function flow by conditions until the callback API is called to resume the flow.

Subflow

A flow can be incorporated into another one as its subflow.

Parallel branch

A flow can have multiple parallel branches, which will be executed at the same time. You can determine the next step of each branch.

Start

Start of a flow. A start node only has triggers, and each flow has one start node.

Error handling

Determines the next step in case of an execution failure.

Loop

Cyclically processes each element in an array. All subflows in a loop are executed each time.

Wait

Determines when the next step will be executed after the previous step is finished.

Service

Abstracts complex operations involving multiple functions and combines these functions into an atomic node for easy management.

Conditional branch

Determines whether to execute the next branch based on specified conditions.

Stop

Indicates the end of a flow.

Orchestration Rules

  • A flow must be a directed acyclic graph (DAG). It has a start node followed only by one node (except the error handling and stop nodes) and ends after another node. You can end a flow in the following ways:
    1. Do not connect any conditional, parallel, or start node to the last node of the flow.
    2. Add a stop node as the last node of the flow.
  • Component design rules
    Table 2 Trigger, function, and EG

    Type

    Description

    Mandatory

    Trigger

    • A flow can have a maximum of 10 triggers.
    • Triggers must be included in the start node.
    • Triggers cannot be connected to any other node.

    No

    Function

    • A flow can have a maximum of 99 functions.
    • A function connected to an error handling node can be connected to another node that is not start or error handling.
    • A function that is not connected to an error handling node can be connected to only one non-start node.

    No

    EG

    • A flow can have a maximum of 10 EG nodes.
    • An EG node connected to an error handling node can only be connected to another node that is not start or error handling.
    • An EG node that is not connected to an error handling node can be connected to only one non-start node.

    No

    Table 3 Processors

    Type

    Description

    Mandatory

    Callback

    For details about the constraints of callback nodes, see the function parameter in Table 2. Callback nodes cannot be subnodes of a service node.

    No

    Subflow

    A flow.

    No

    Parallel branch

    • Indicates that the connected branches will be executed concurrently.
    • A parallel branch connects 1 to 20 nodes that are not error handling, start, or stop.

    No

    Start

    • Indicates the start of a flow. Each flow has only one start node.
    • The start node must be followed by a node that is not stop or error handling.

    Yes

    Error handling

    Can be connected to a maximum of 10 nodes that are not start, stop, or error handling.

    No

    Loop

    Cyclically processes each element in an array. All subflows in a loop are executed each time.

    The subflows in a loop must satisfy the following rules:

    1. Start with a function or wait node.
    2. Only include function, wait, and error handling nodes.

    No

    Wait

    Can be connected to zero or one node that is not start or error handling.

    No

    Service

    Consists of multiple functions and can be connected to a stop node or an error handling node.

    No

    Conditional branch

    Connects 2 to 20 nodes that are not start, stop, or error handling.

    No

    Stop

    Not followed by any other node.

    No

Expression Operators

The expression for an error handling or conditional branch node is in the format "[JsonPath] + [logical operator] + [value]". For example, $.age >= 20.

JsonPath Description

Operator

Supported

Description

$

Y

The root element to query. This starts all regular expressions.

@

Y

The current node being processed.

.

Y

Subnode.

[ (, )]

Y

Array indexes.

[start:end]

Y

Array slice operator.

[?()]

Y

Filter expression, which must be evaluated to a Boolean value.

Examples

  • Simple values: JSON data example
    {  
         "fruits": [ "apple", "orange", "pear" ],  
         "vegetables": [{      
         "veggieName": "potato",
         "veggieLike": true    
          },     
          {       
              "veggieName": "broccoli",      
              "veggieLike": false    
          }] 
    }

    The $.fruits expression obtains all values under fruits.

    The result of $.fruits is ["apple","orange","pear"].

  • Simple filtering: JSON data example
    {   
           "fruits": [ "apple", "orange", "pear" ],
           "vegetables": [{ 
           "veggieName": "potato",
           "veggieLike": true
           },     
          { 
              "veggieName": "broccoli",
              "veggieLike": false     
          }] 
    }

    Expression: $.vegetables[?(@.veggieLike == true)].veggieName

    Meaning: Obtains all values of the key vegetables and outputs the value of veggieName whose veggieLike is True.

    Result: [potato]

Logical Operators

The following data is used as input parameters in the examples:

{
  "name" : "apple",
  "weight": 13.4,
  "type": [3,4,6,8],
  "obj": {
        "a" : 1
   }
}

These are the supported operators.

Operator

Description

Example

Return Value

Remarks

==

Equal to

$.name == 'apple'

true

Supported data types: int, float, string, bool, and nil

!=

Not equal to

$.name != 'apple'

false

Supported data types: int, float, string, bool, and nil

<

Less than

$.weight < 12

false

Only numbers supported

>

Greater than

$.weight > 12

true

Only numbers supported

<=

Less than or equal to

$.weight <= 13.4

true

Only numbers supported

>=

Greater than or equal to

$.weight >= 13.4

true

Only numbers supported

'*'

Wildcard

$.weight == '*'

true

Must be used together with ==.

||

Or

$.name == 'apple' || $.weight < 12

true

Used together with () for complex AND/OR logic.

&&

And

$.name == 'apple' && $.weight < 12

false

Used together with () for complex AND/OR logic.

  • A string constant must be enclosed with quotation marks (''). For example, 'apple'.
  • JsonPath expressions cannot contain =, !=, <, >, |, or &.

Configuration Examples

Example 1: Parallel branch

  1. Create three Python 3.9 functions with the following code:
    • Function 1: Returning the value of the event input
      import json
      def handler (event, context):
          input = event.get('input',0)
          return {
              "result": input
              }
    • Function 2: Returning the value of the event input plus 2
      import json
      def handler (event, context):
          input = event.get('input',0)
          return {
              "result": input+2
              }
    • Function 3: Returning the square value of the event input
      import json
      def handler (event, context):
          input = event.get('input',0)
          return {
              "result": input*input
              }
  1. Add components to a flow by drag and drop and configure a parallel branch node according to the following figure.
    Figure 1 Configuring a parallel branch node
  2. Configure three function nodes by referring to Table 2.
    Figure 2 Configuring a function node
  3. Save the flow. Then start execution with the following input:
    {
      "input":3
    }
  4. Click the flow to view the execution result.
    Figure 3 Execution result

Example 2: Service node in serial mode

  1. Orchestrate components by drag and drop, and set the execution mode of the service node to Serial.
    Figure 4 Configuring a service node
  2. Add function 2 and function 3 to the service node and configure them according to the following figures.
    Figure 5 Configuring function node 2
    Figure 6 Configuring function node 3
  3. Save the flow. Then start execution with the following input:
    {
      "input":3
    }
  4. Click the flow to view the execution result.
    Figure 7 Execution result
Example 3: Service node in parallel mode
  1. Create two Python 3.9 functions with the following code:
    import json
    def handler (event, context):
        print(event)
        return {"result":"success"}
  2. Add components to a flow by drag and drop and configure a service node according to the following figure.
    Figure 8 Configuring a service node
  3. Configure function node 1.
    Figure 9 Configuring function node 1
  4. Configure function node 2.
    Figure 10 Configuring function node 2
  5. Save the flow. Then start execution with the following input:
    {
      "test":123
    }
  6. Click the flow to view the execution result. Results of the two functions have been combined.
    Figure 11 Execution result

    If the result structures of the two functions are the same, only one result will be returned.

Example 4: Error handling

An error handling node determines whether to retry when the function it follows fails. There are two types of function failures: execution error and internal service error with an error code (200: success; 500 and 404: failure).
  1. Add components to a flow by drag and drop and configure the following nodes:
    • Function-Input: Obtains the value of input from event and outputs it for status.
    • ErrorHandling: Retries the function when its status is 500 or 404. This node retries for a maximum of eight times at an interval of 1s.
    • Function-ErrorRecord: Records an error if the status of the previous function is still 500 or 404 after eight retries.
    • Function-NormalOutput: Executed if the status of Function-Input is not 500 or 404.

  2. Configure the Error Handling node with retry condition $.status==500||$.status==404.
    Figure 12 Configuring exception handling
  3. Configure the Function-ErrorRecord node to be executed when all retries fail.

  4. Enter 200. The execution is successful.

  5. Enter 500. The input function retries and an error is recorded.

    Example 5: Conditional branch

    • Use the conditional branch to implement the following logic:

      Input value < 2: result is the input value plus 2.

      Input value > 2: result is 2 times the input value.

      Input value = 2: result is 2.

      The flow design is as follows:

      Input 3 to output the square of 3.

    • Input 2 to output 2.

    Input 1 to output 1 plus 2.

    Example 6: Wait node

    • Use the wait node to delay function invocation. The flow design is shown in the following figure.

    • Set Latency (s) to 60.

    • View the execution result.

    Example 7: Subflow

    Multiple function flows can be combined as a new flow and reused to avoid repeated development.

  • Design a function flow. input < 2: Execute the subflows in serial mode to output the input value plus 2 and then squared; input = 2: Execute the default branch to output the input value; input > 2: Execute the subflows in parallel mode to output the input value, the input value plus 2, and the square of the input value.

  • Input 3 to execute the subflows in parallel mode and output the following result.

  • Input 1 to execute the subflows in serial mode and output the following result.

  • Input 2 to execute the default branch and output the input value, that is, 2.

Example 8: Loop node

Use the loop node to cyclically process each element in an input array. All subflows in a loop are executed each time.

  • Design a function flow with a loop node. The node cyclically adds 2 to each element in an integer array and then squares the sum. The flow is shown in the following figure.

  • Set Array Path to $.inputs and Iteration Variable to $.item.

  • Configure function math_2 to output a result that is the input value plus 2. Ensure that the parameter value in Function Parameters is the same as the iteration variable in the loop node.