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Version: v0.13

Plugin Implementation

If your favorite DevOps tool is not yet supported by DevLake, don't worry. It's not difficult to implement a DevLake plugin. In this post, we'll go through the basics of DevLake plugins and build an example plugin from scratch together.

What is a plugin?

A DevLake plugin is a shared library built with Go's plugin package that hooks up to DevLake core at run-time.

A plugin may extend DevLake's capability in three ways:

  1. Integrating with new data sources
  2. Transforming/enriching existing data
  3. Exporting DevLake data to other data systems

How do plugins work?

A plugin mainly consists of a collection of subtasks that can be executed by DevLake core. For data source plugins, a subtask may be collecting a single entity from the data source (e.g., issues from Jira). Besides the subtasks, there're hooks that a plugin can implement to customize its initialization, migration, and more. See below for a list of the most important interfaces:

  1. PluginMeta contains the minimal interface that a plugin should implement, with only two functions
    • Description() returns the description of a plugin
    • RootPkgPath() returns the root package path of a plugin
  2. PluginInit allows a plugin to customize its initialization
  3. PluginTask enables a plugin to prepare data prior to subtask execution
  4. PluginApi lets a plugin exposes some self-defined APIs
  5. Migratable is where a plugin manages its database migrations
  6. PluginModel allows other plugins to get the model information of all database tables of the current plugin through the GetTablesInfo() method.If you need to access Domain Layer Models,please visit DomainLayerSchema

The diagram below shows the control flow of executing a plugin:

flowchart TD; subgraph S4[Step4 sub-task extractor running process]; direction LR; D4[DevLake]; D4 -- "Step4.1 create a new\n ApiExtractor\n and execute it" --> E["ExtractXXXMeta.\nEntryPoint"]; E <-- "Step4.2 read from\n raw table" --> E2["RawDataSubTaskArgs\n.Table"]; E -- "Step4.3 call with RawData" --> ApiExtractor.Extract; ApiExtractor.Extract -- "decode and return gorm models" --> E end subgraph S3[Step3 sub-task collector running process] direction LR D3[DevLake] D3 -- "Step3.1 create a new\n ApiCollector\n and execute it" --> C["CollectXXXMeta.\nEntryPoint"]; C <-- "Step3.2 create\n raw table" --> C2["RawDataSubTaskArgs\n.RAW_BBB_TABLE"]; C <-- "Step3.3 build query\n before sending requests" --> ApiCollectorArgs.\nQuery/UrlTemplate; C <-. "Step3.4 send requests by ApiClient \n and return HTTP response" .-> A1["HTTP APIs"]; C <-- "Step3.5 call and \nreturn decoded data \nfrom HTTP response" --> ResponseParser; end subgraph S2[Step2 DevLake register custom plugin] direction LR D2[DevLake] D2 <-- "Step2.1 function \`Init\` \nneed to do init jobs" --> plugin.Init; D2 <-- "Step2.2 (Optional) call \nand return migration scripts" --> plugin.MigrationScripts; D2 <-- "Step2.3 (Optional) call \nand return taskCtx" --> plugin.PrepareTaskData; D2 <-- "Step2.4 call and \nreturn subTasks for execting" --> plugin.SubTaskContext; end subgraph S1[Step1 Run DevLake] direction LR main -- "Transfer of control \nby \`runner.DirectRun\`" --> D1[DevLake]; end S1-->S2-->S3-->S4

There's a lot of information in the diagram but we don't expect you to digest it right away, simply use it as a reference when you go through the example below.

A step-by-step guide towards your first plugin

In this section, we will describe how to create a data collection plugin from scratch. The data to be collected is the information about all Committers and Contributors of the Apache project, in order to check whether they have signed the CLA. We are going to

  • request to get the Committers' information
  • request the mailing list to get the Contributors' information

We will focus on demonstrating how to request and cache information about all Committers through the Apache API and extract structured data from it. The collection of Contributors will only be briefly described.

Step 1: Bootstrap the new plugin

Note: Please make sure you have DevLake up and running before proceeding.

More info about plugin: Generally, we need these folders in plugin folders: api, models and tasks api interacts with config-ui for test/get/save connection of data source

  - connection [example](
- connection model [example](

models stores all data entities and data migration scripts.

  - entity 
- data migrations [template](

tasks contains all of our sub tasks for a plugin

  - task data [template](
- api client [template](

Don't worry if you cannot figure out what these concepts mean immediately. We'll explain them one by one later.

DevLake provides a generator to create a plugin conveniently. Let's scaffold our new plugin by running go run generator/main.go create-plugin icla, which would ask for with_api_client and Endpoint.

  • with_api_client is used for choosing if we need to request HTTP APIs by api_client.
  • Endpoint use in which site we will request, in our case, it should be

Now we have three files in our plugin. api_client.go and task_data.go are in subfolder tasks/. plugin files

Have a try to run this plugin by function main in plugin_main.go. When you see result like this:

$go run plugins/icla/plugin_main.go
[2022-06-02 18:07:30] INFO failed to create dir logs: mkdir logs: file exists
press `c` to send cancel signal
[2022-06-02 18:07:30] INFO [icla] start plugin
invalid ICLA_TOKEN, but ignore this error now
[2022-06-02 18:07:30] INFO [icla] scheduler for api worker: 25, request: 18000, duration: 1h0m0s
[2022-06-02 18:07:30] INFO [icla] total step: 0

How exciting. It works! The plugin defined and initiated in plugin_main.go use some options in task_data.go. They are made up as the most straightforward plugin in Apache DevLake, and api_client.go will be used in the next step to request HTTP APIs.

Step 2: Create a sub-task for data collection

Before we start, it is helpful to know how collection task is executed:

  1. First, Apache DevLake would call plugin_main.PrepareTaskData() to prepare needed data before any sub-tasks. We need to create an API client here.
  2. Then Apache DevLake will call the sub-tasks returned by plugin_main.SubTaskMetas(). Sub-task is an independent task to do some job, like requesting API, processing data, etc.

Each sub-task must be defined as a SubTaskMeta, and implement SubTaskEntryPoint of SubTaskMeta. SubTaskEntryPoint is defined as

type SubTaskEntryPoint func(c SubTaskContext) error

More info at:

Step 2.1: Create a sub-task(Collector) for data collection

Let's run go run generator/main.go create-collector icla committer and confirm it. This sub-task is activated by registering in plugin_main.go/SubTaskMetas automatically.

  • Collector will collect data from HTTP or other data sources, and save the data into the raw layer.
  • Inside the func SubTaskEntryPoint of Collector, we use helper.NewApiCollector to create an object of ApiCollector, then call execute() to do the job.

Now you can notice data.ApiClient is initiated in plugin_main.go/PrepareTaskData.ApiClient. PrepareTaskData create a new ApiClient, which is a tool Apache DevLake suggests to request data from HTTP Apis. This tool support some valuable features for HttpApi, like rateLimit, proxy and retry. Of course, if you like, you may use the lib http instead, but it will be more tedious.

Let's move forward to use it.

  1. To collect data from, we have filled into tasks/api_client.go/ENDPOINT in Step 1.

  1. Fill public/icla-info.json into UrlTemplate, delete the unnecessary iterator and add println("receive data:", res) in ResponseParser to see if collection was successful.

Ok, now the collector sub-task has been added to the plugin, and we can kick it off by running main again. If everything goes smoothly, the output should look like this:

[2022-06-06 12:24:52]  INFO  [icla] start plugin
invalid ICLA_TOKEN, but ignore this error now
[2022-06-06 12:24:52] INFO [icla] scheduler for api worker: 25, request: 18000, duration: 1h0m0s
[2022-06-06 12:24:52] INFO [icla] total step: 1
[2022-06-06 12:24:52] INFO [icla] executing subtask CollectCommitter
[2022-06-06 12:24:52] INFO [icla] [CollectCommitter] start api collection
receive data: 0x140005763f0
[2022-06-06 12:24:55] INFO [icla] [CollectCommitter] finished records: 1
[2022-06-06 12:24:55] INFO [icla] [CollectCommitter] end api collection
[2022-06-06 12:24:55] INFO [icla] finished step: 1 / 1

Great! Now we can see data pulled from the server without any problem. The last step is to decode the response body in ResponseParser and return it to the framework, so it can be stored in the database.

ResponseParser: func(res *http.Response) ([]json.RawMessage, error) {
body := &struct {
LastUpdated string `json:"last_updated"`
Committers json.RawMessage `json:"committers"`
err := helper.UnmarshalResponse(res, body)
if err != nil {
return nil, err
println("receive data:", len(body.Committers))
return []json.RawMessage{body.Committers}, nil

Ok, run the function main once again, then it turned out like this, and we should be able see some records show up in the table _raw_icla_committer.

receive data: 272956 /* <- the number means 272956 models received */
[2022-06-06 13:46:57] INFO [icla] [CollectCommitter] finished records: 1
[2022-06-06 13:46:57] INFO [icla] [CollectCommitter] end api collection
[2022-06-06 13:46:57] INFO [icla] finished step: 1 / 1

Step 2.2: Create a sub-task(Extractor) to extract data from the raw layer

  • Extractor will extract data from raw layer and save it into tool db table.
  • Except for some pre-processing, the main flow is similar to the collector.

We have already collected data from HTTP API and saved them into the DB table _raw_XXXX. In this step, we will extract the names of committers from the raw data. As you may infer from the name, raw tables are temporary and not easy to use directly.

Now Apache DevLake suggests to save data by gorm, so we will create a model by gorm and add it into plugin_main.go/AutoMigrate().


package models

import (

type IclaCommitter struct {
UserName string `gorm:"primaryKey;type:varchar(255)"`
Name string `gorm:"primaryKey;type:varchar(255)"`

func (IclaCommitter) TableName() string {
return "_tool_icla_committer"


Ok, run the plugin, and table _tool_icla_committer will be created automatically just like the snapshot below:

Next, let's run go run generator/main.go create-extractor icla committer and type in what the command prompt asks for to create a new sub-task.

Let's look at the function extract in committer_extractor.go created just now, and the code that needs to be written here. It's obvious that is the raw data, so we could json-decode each row add a new IclaCommitter for each and save them.

Extract: func(resData *helper.RawData) ([]interface{}, error) {
names := &map[string]string{}
err := json.Unmarshal(resData.Data, names)
if err != nil {
return nil, err
extractedModels := make([]interface{}, 0)
for userName, name := range *names {
extractedModels = append(extractedModels, &models.IclaCommitter{
UserName: userName,
Name: name,
return extractedModels, nil

Ok, run it then we get:

[2022-06-06 15:39:40]  INFO  [icla] start plugin
invalid ICLA_TOKEN, but ignore this error now
[2022-06-06 15:39:40] INFO [icla] scheduler for api worker: 25, request: 18000, duration: 1h0m0s
[2022-06-06 15:39:40] INFO [icla] total step: 2
[2022-06-06 15:39:40] INFO [icla] executing subtask CollectCommitter
[2022-06-06 15:39:40] INFO [icla] [CollectCommitter] start api collection
receive data: 272956
[2022-06-06 15:39:44] INFO [icla] [CollectCommitter] finished records: 1
[2022-06-06 15:39:44] INFO [icla] [CollectCommitter] end api collection
[2022-06-06 15:39:44] INFO [icla] finished step: 1 / 2
[2022-06-06 15:39:44] INFO [icla] executing subtask ExtractCommitter
[2022-06-06 15:39:46] INFO [icla] [ExtractCommitter] finished records: 1
[2022-06-06 15:39:46] INFO [icla] finished step: 2 / 2

Now committer data have been saved in _tool_icla_committer.

Step 2.3: Convertor

Notes: The goal of Converters is to create a vendor-agnostic model out of the vendor-dependent ones created by the Extractors. They are not necessary to have per se, but we encourage it because converters and the domain layer will significantly help with building dashboards. More info about the domain layer here.

In short:

  • Convertor will convert data from the tool layer and save it into the domain layer.
  • We use helper.NewDataConverter to create an object of DataConvertor, then call execute().

Step 2.4: Let's try it

Sometimes OpenApi will be protected by token or other auth types, and we need to log in to gain a token to visit it. For example, only after logging in could we gather the data about contributors signing ICLA. Here we briefly introduce how to authorize DevLake to collect data.

Let's look at api_client.go. NewIclaApiClient load config ICLA_TOKEN by .env, so we can add ICLA_TOKEN=XXXXXX in .env and use it in apiClient.SetHeaders() to mock the login status. Code as below:

Of course, we can use username/password to get a token after login mockery. Just try and adjust according to the actual situation.

Look for more related details at

Step 2.5: Implement the GetTablesInfo() method of the PluginModel interface

As shown in the following gitlab plugin example, add all models that need to be accessed by external plugins to the return value.

var _ core.PluginModel = (*Gitlab)(nil)

func (plugin Gitlab) GetTablesInfo() []core.Tabler {
return []core.Tabler{

You can use it as follows:

if pm, ok := plugin.(core.PluginModel); ok {
tables := pm.GetTablesInfo()
for _, table := range tables {
// do something

Final step: Submit the code as open source code

We encourage ideas and contributions ~ Let's use migration scripts, domain layers and other discussed concepts to write normative and platform-neutral code. More info at here or contact us for ebullient help.


Congratulations! The first plugin has been created! 🎖