Action Destinations are the new way to build streaming destinations on Segment.
Action Destinations were launched in December 2021 to enable customers with a customizable framework to map Segment event sources to their favorite 3rd party tools like Google Analytics.
This repository contains the Action Destination Definitions as well as a CLI to generate the scaffolding for new destinations and run unit tests. If you'd like to contribute, please review the Contributing Guide.
To begin, follow the instructions in Get Started below.
For more detailed instruction, see the following READMEs:
- Contributing Document
- Create a Destination Action
- Build & Test Cloud Destinations
- Troubleshooting
- Authentication
- Mapping Kit
- Destination Kit
- Get Started
- Actions CLI
- Example Destination
- Input Fields
- Default Values
- perform function
- Batching Requests
- HTTP Requests
This is a monorepo with multiple packages leveraging lerna
with Yarn Workspaces:
packages/ajv-human-errors
- a wrapper around AJV errors to produce more friendly validation messagespackages/browser-destinations
- destination definitions that run on device via Analytics 2.0packages/cli
- a set of command line tools for interacting with the repopackages/core
- the core runtime engine for actions, including mapping-kit transformspackages/destinations-actions
- destination definitions and their actionspackages/destinations-subscriptions
- validates events against an action's subscription AST
You'll need to have some tools installed locally to build and test action destinations.
- Yarn 1.x
- Node 14.17 (latest LTS, we recommand using
nvm
for managing Node versions)
If you are a Segment employee you can directly git clone
the repository locally. Otherwise you'll want to fork this repository for your organization to submit Pull Requests against the main Segment repository. Once you've got a fork, you can git clone
that locally.
# Clone the repo locally
git clone <your fork or https://github.com/segmentio/action-destinations.git>
cd action-destinations
npm login
yarn login
# Requires node 14.17, optionally: nvm use 14.17
yarn --ignore-optional
yarn bootstrap
yarn build
yarn install
# Run unit tests to ensure things are working! All tests should pass :)
yarn test
In order to run the CLI (./bin/run
), your current working directory needs to be the root of the action-destinations
repository.
# see what's supported by the CLI
./bin/run --help
# scaffold a new destination
./bin/run init
# scaffold a new action within a destination
./bin/run generate:action <ACTION_NAME> <browser|server>
# generates TypeScript definitions for an integration
./bin/run generate:types
# start local development server
./bin/run serve
For specific information about each CLI command, please refer to this README.
For instructions on how to create a new integration, see the Create a new Destination Action docs.
If a CLI command fails to work properly, run the command with DEBUG=*
at the beginning (e.g. DEBUG=* ./bin/run serve
). This will produce a verbose debugging output, providing hints as to why something isn't working as expected. All of the CLI commands are also in the ./packages/cli/src/commands
directory if you need to inspect them further.
Refer here for more information about testing your destination actions.
Pass the Node flag --inspect
when you run the local server, and then you can attach a debugger from your IDE. The serve
command will pass any extra args/flags to the underlying Node process.
Action destinations are configured using a single Destination setting (subscriptions
) that should contain a JSON blob of all subscriptions for the destination. The format should look like this:
[
{
"subscribe": "<fql query>",
"partnerAction": "<actionSlug>",
// See ./packages/core/src/mapping-kit/README.md for documentation. The keys in this object should match the `action.fields`
"mapping": { ... }
}
]
Here's a full example:
[
{
"subscribe": "type = 'track'",
"partnerAction": "postToChannel",
"mapping": {
"text": {
"@template": "Tracked! event={{event}}, {{properties.text}}"
},
"url": "https://hooks.slack.com/services/0HL7TC62R/0T276CRHL/8WvI6gEiE9ZqD47kWqYbfIhZ",
"channel": "test-channel"
}
},
{
"subscribe": "type = 'identify'",
"partnerAction": "postToChannel",
"mapping": {
"text": {
"@template": "User identified! email={{email}}"
},
"url": "https://hooks.slack.com/services/0HL7TC62R/0T276CRHL/8WvI6gEiE9ZqD47kWqYbfIhZ",
"channel": "test-channel"
}
}
]
In your destination’s folder, you should see this general structure. The index.ts
file (with the asterisk) is the entry point to your destination - the CLI expects you to export a destination definition there.
$ tree packages/destination-actions/src/destinations/slack
packages/destination-actions/src/destinations/slack
├── generated-types.ts
├── index.ts (*)
└── postToChannel
├── generated-types.ts
└── index.ts
The main definition of your Destination will look something like this, and is what your index.ts should export as the default export:
const destination = {
name: 'Example Destination',
// a human-friendly description that gets displayed to users. supports markdown
description: '',
// see "Authentication" section below
authentication: {},
// see "HTTP Requests" section below
extendRequest: () => {}
// see "Actions" section below
actions: {}
}
export default destination
For each action or authentication scheme you can define a collection of inputs as fields. Input fields are what users see in the Action Editor to configure how data gets sent to the destination or what data is needed for authentication. These fields (for the action only) are able to accept input from the Segment event.
Input fields have various properties that help define how they are rendered, how their values are parsed and more. Here’s an example:
const destination = {
// ...other properties
actions: {
postToChannel: {
// ...
fields: {
webhookUrl: {
label: 'Webhook URL',
description: 'Slack webhook URL.',
type: 'string',
required: true
},
text: {
label: 'Message',
description: 'The text message to post to Slack',
type: 'string',
required: true
}
}
}
}
}
Here's the full interface that input fields allow:
interface InputField {
/** A short, human-friendly label for the field */
label: string
/** A human-friendly description of the field */
description: string
/** The data type for the field */
type: 'string' | 'text' | 'number' | 'integer' | 'datetime' | 'boolean' | 'password' | 'object'
/** Whether null is allowed or not */
allowNull?: boolean
/** Whether or not the field accepts multiple values (an array of `type`) */
multiple?: boolean
/** An optional default value for the field */
default?: string | number | boolean | object | Directive
/** A placeholder display value that suggests what to input */
placeholder?: string
/** Whether or not the field supports dynamically fetching options */
dynamic?: boolean
/** Whether or not the field is required */
required?: boolean
/**
* Optional definition for the properties of `type: 'object'` fields
* (also arrays of objects when using `multiple: true`)
* Note: this part of the schema is not persisted outside the code
* but is used for validation and typedefs
*/
properties?: Record<string, InputField>
/**
* Format option to specify more nuanced 'string' types
* @see {@link https://github.com/ajv-validator/ajv/tree/v6#formats}
*/
format?:
| 'date' // full-date according to RFC3339.
| 'time' // time with optional time-zone.
| 'date-time' // date-time from the same source (time-zone is mandatory). date, time and date-time validate ranges in full mode and only regexp in fast mode (see options).
| 'uri' // full URI.
| 'uri-reference' // URI reference, including full and relative URIs.
| 'uri-template' // URI template according to RFC6570
| 'email' // email address.
| 'hostname' // host name according to RFC1034.
| 'ipv4' // IP address v4.
| 'ipv6' // IP address v6.
| 'regex' // tests whether a string is a valid regular expression by passing it to RegExp constructor.
| 'uuid' // Universally Unique IDentifier according to RFC4122.
| 'password' // hint to the UI to hide/obfuscate input strings (applied automatically when using `type: 'password'`
| 'text' // longer strings (applied automatically when using `type: 'text'`
}
You can set default values for fields. These defaults are not used at run-time, however. These defaults pre-populate the initial value of the field when users first set up an action.
Default values can be literal values that match the type
of the field (e.g. a literal string: "``hello``"
) or they can be mapping-kit directives just like the values from Segment’s rich input in the app. It’s likely that you’ll want to use directives to the default value. Here are some examples:
const destination = {
// ...other properties
actions: {
doSomething: {
// ...
fields: {
name: {
label: 'Name',
description: "The person's name",
type: 'string',
default: { '@path': '$.traits.name' },
required: true
},
email: {
label: 'Email',
description: "The person's email address",
type: 'string',
default: { '@path': '$.properties.email_address' }
}
}
}
}
}
In addition to default values for input fields, you can also specify the defaultSubscription for a given action – this is the FQL query that will be automatically populated when a customer configures a new subscription triggering a given action.
You can setup a field which dynamically fetches inputs from your destination. These dynamic fields can be used to populate a dropdown menu of options for your users to select.
const destination = {
// ...other properties
actions: {
doSomething: {
// ...
fields: {
objectName: {
label: 'Name',
description: "The name of the object to update.",
type: 'string',
required: true,
dynamic: true
}
},
dynamicFields: {
objectName = async (): Promise<DynamicFieldResponse> => {
try {
const result = await this.request<ObjectsResponseData>(`http://<destination>/objects`,
{
method: 'get',
skipResponseCloning: true // This is useful if you expect a large response.
})
const fields = result.data.objects.filter((field) => {
return field.createable === true
})
const choices = fields.map((field) => {
return { value: field.name, label: field.label }
})
return {
choices: choices,
nextPage: '2'
}
} catch (err) {
return {
choices: [],
nextPage: '',
error: {
message: (err as ResponseError).response?.data[0]?.message ?? 'Unknown error',
code: (err as ResponseError).response?.data[0]?.errorCode ?? 'Unknown error'
}
}
}
}
}
}
}
}
The perform
function defines what the action actually does. All logic and request handling happens here. Every action MUST have a perform
function defined.
By the time the actions runtime invokes your action’s perform, payloads have already been resolved based on the customer’s configuration, validated against the schema, and can be expected to match the types provided in your perform
function.
The perform
method accepts two arguments, (1) the request client instance (extended with your destination's extendRequest
, and (2) the data bundle. The data bundle includes the following fields:
payload
- The transformed input data, based onmapping
+event
(orevents
if batched). You’ll get compile-time type-safety for how you access anything in thedata.payload
.settings
- The global destination settings.auth
- The data needed in OAuth requests. This is useful if fetching an updated OAuthaccess_token
using arefresh_token
. Therefresh_token
is available inauth.refreshToken
.features
- The features available in the request based on the customer's sourceID. Features can only be enabled and/or used by internal Twilio/Segment employees. Features cannot be used for Partner builds.statsContext
- An object, containing astatsClient
andtags
. Stats can only be used by internal Twilio/Segment employees. Stats cannot be used for Partner builds.logger
- Logger can only be used by internal Twilio/Segment employees. Logger cannot be used for Partner builds.transactionContext
- An object, containing transaction variables and a method to update transaction variables which are required for few segment developed actions. Transaction Context cannot be used for Partner builds.
A basic example:
const destination = {
actions: {
someAction: {
// ...
fields: {
greeting: {
label: 'Greeting',
description: 'The text message to send',
type: 'string',
required: true
}
},
// `perform` takes two arguments:
// 1. the request client instance (extended with your destination's `extendRequest`
// 2. the data bundle (destructured below)
perform: (request, { payload, settings, auth, features, statsContext }) => {
return request('https://example.com', {
headers: { Authorization: `Bearer ${data.settings.api_key}` },
json: data.payload
})
}
}
}
}
The perform method will be invoked once for every event subscription that triggers the action. If you need to support batching, we’ve begun rolling out experimental support for defining a performBatch
function. Continue reading to learn about how that works.
Sometimes your customers have a lot of events, and your API supports a more efficient way to receive and process those large sets of data. We have early, experimental support for batching.
You can implement an additional perform method named performBatch
in the action definition, alongside the perform
method. The method signature looks like identical to perform
except the payload
is an array of data, where each item is an object matching your action’s field schema:
function performBatch(request, { settings, payload }) {
return request('https://example.com/batch', {
// `payload` is an array of objects, each matching your action's field definition
json: payload
})
}
All actions where a performBatch
method is defined will automatically include an enable_batching
input field for users. This field is a boolean switch that allows users to toggle batching functionality. Builders can override the automatically included field by explicitly defining a field named enable_batching
with type boolean in the fields
section of the ActionDefinition
. This may be useful if the builder wants to specify custom labels or descriptions or set a default value.
const action: ActionDefinition<Settings, Payload> = {
title: 'Account',
description: 'Represents an individual account, which is an organization or person involved with your business.',
defaultSubscription: 'type = "group"',
fields: {
enable_batching: {
type: 'boolean',
label: 'Use Salesforce Bulk API',
description:
'When enabled, the action will use the Salesforce Bulk API to perform the operation. Not compatible with the insert operation.',
required: true,
default: false
}
},
performBatch: async (request, { settings, payload }) => { ... }
}
This will give customers the ability to opt-in to batching (there may be trade-offs they need to consider before opting in). Each customer subscription will be given the ability to Enable Batching.
Keep in mind a few important things about how batching works:
- Batching can add latency while Segment accumulates events in batches internally. This can be up to a minute, currently, but this is subject to change at any time. Latency is lower when you send a higher volume of events.
- Batches may have to up 1,000 events, currently. This, too, is subject to change.
- Batch sizes are not guaranteed. Due to the way that batches are accumulated internally, you may see smaller batch sizes than you expect when sending low rates of events.
Additionally, you’ll need to coordinate with Segment’s R&D team for the time being. Please reach out to us in your dedicated Slack channel!
Today, there is only one way to make HTTP requests in a destination: Manual HTTP Requests.
You can use the request
object to make requests and curate responses. This request
is injected as the first argument in all operation functions in the definition (for example, in an action’s perform
function).
In addition to making manual HTTP requests, you can use the extendRequest
helper to reduce boilerplate across actions and authentication operations in the definition:
const destination = {
// ...other properties
extendRequest: (request, { settings }) => {
return {
headers: { Authorization: `Bearer ${settings.apiKey}` }
}
},
actions: {
doAThing: {
// ...other properties
perform: (request, data) => {
// this request will have the Authorization header
return request('https://example.com/api/me.json', {
method: 'post',
json: data
})
}
}
}
}
The request client is a thin wrapper around the Fetch API, made available both in Node (via node-fetch
) and in the browser (with the whatwg-fetch
ponyfill as needed).
Both the request(url, options)
function and the extendRequest
return value also support all of the Fetch API and some additional options
:
method
: HTTP method, default isGET
.headers
: HTTP request headers object as a plain object{ foo: 1, bar: true }
.json
: shortcut to automatically JSON.stringify into the request body and set thecontent-type
header toapplication/json
.password
: Basic authentication password field. Will automatically get base64 encoded with the username and added to the request headers:Authorization: Basic <username:password>
searchParams
: URLSearchParams or a plain object that you want included in request url’s query string.throwHttpErrors
: whether or not the request should throw an HTTPError for non-2xx responses. Default istrue
.timeout
: Time in milliseconds when a request should be aborted. Default is10000
.username
: Basic authentication username field. Will automatically get base64 encoded with the password and added to the request headers:Authorization: Basic <username:password>
const response = await request('https://example.com', {
method: 'post',
headers: { 'content-type': 'application/json' },
json: { hello: 'world' },
searchParams: { foo: 1, bar: true },
username: 'my',
password: 'secret',
timeout: 10000,
throwHttpErrors: true
})
There are a few subtle differences from the Fetch API which are meant to limit the interface to be a bit more predictable. We may consider loosening this to match the complete spec.
- the
url
argument can only be a string instead of also accepting aRequest
object or aURL
object. headers
can only be a plain object instead of also accepting aHeaders
object.- some options and behaviors are not applicable to Node.js and will be ignored by
node-fetch
. See this list of known differences. method
will automatically get upcased for consistency.
MIT License
Copyright (c) 2022 Segment
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
All third party contributors acknowledge that any contributions they provide will be made under the same open source license that the open source project is provided under.