serverless

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Serverless Framework - Build web, mobile and IoT applications with serverless architectures using AWS Lambda, Azure Functions, Google CloudFunctions & more

serverless.com/framework/docs/

serverless/serverless

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### [Read this on the main serverless docs site](https://www.serverless.com/framework/docs/providers/openwhisk/guide/variables)  # OpenWhisk - Variables The Serverless framework provides a powerful variable system which allows you to add dynamic data into your `serverless.yml`. With Serverless Variables, you'll be able to do the following: - Reference & load variables from environment variables - Reference & load variables from CLI options - Recursively reference properties of any type from the same `serverless.yml` file - Recursively reference properties of any type from other YAML/JSON files - Recursively nest variable references within each other for ultimate flexibility - Combine multiple variable references to overwrite each other **Note:** You can only use variables in `serverless.yml` property **values**, not property keys. So you can't use variables to generate dynamic logical IDs in the custom resources section for example. ## Reference Properties In serverless.yml To self-reference properties in `serverless.yml`, use the `${self:someProperty}` syntax in your `serverless.yml`. This functionality is recursive, so you can go as deep in the object tree as you want. ```yml service: new-service provider: openwhisk custom: globalSchedule: cron(0 * * * *) functions: hello: handler: handler.hello events: - schedule: ${self:custom.globalSchedule} world: handler: handler.world events: - schedule: ${self:custom.globalSchedule} ``` In the above example you're setting a global schedule for all functions by referencing the `globalSchedule` property in the same `serverless.yml` file. This way, you can easily change the schedule for all functions whenever you like. ## Referencing Environment Variables To reference environment variables, use the `${env:SOME_VAR}` syntax in your `serverless.yml` configuration file. ```yml service: new-service provider: openwhisk functions: hello: name: ${env:FUNC_PREFIX}-hello handler: handler.hello world: name: ${env:FUNC_PREFIX}-world handler: handler.world ``` In the above example you're dynamically adding a prefix to the function names by referencing the `FUNC_PREFIX` env var. So you can easily change that prefix for all functions by changing the `FUNC_PREFIX` env var. ## Referencing CLI Options To reference CLI options that you passed, use the `${opt:some_option}` syntax in your `serverless.yml` configuration file. ```yml service: new-service provider: openwhisk functions: hello: name: ${opt:stage}-hello handler: handler.hello world: name: ${opt:stage}-world handler: handler.world ``` In the above example, you're dynamically adding a prefix to the function names by referencing the `stage` option that you pass in the CLI when you run `serverless deploy --stage dev`. So when you deploy, the function name will always include the stage you're deploying to. ## Reference Variables in other Files To reference variables in other YAML or JSON files, use the `${file(./myFile.yml):someProperty}` syntax in your `serverless.yml` configuration file. Here's an example: ```yml # myCustomFile.yml globalSchedule: cron(0 * * * *) ``` ```yml # serverless.yml service: new-service provider: openwhisk custom: ${file(./myCustomFile.yml)} # You can reference the entire file functions: hello: handler: handler.hello events: - schedule: ${file(./myCustomFile.yml):globalSchedule} # Or you can reference a specific property world: handler: handler.world events: - schedule: ${self:custom.globalSchedule} # This would also work in this case ``` In the above example, you're referencing the entire `myCustomFile.yml` file in the `custom` property. You need to pass the path relative to your service directory. You can also request specific properties in that file as shown in the `schedule` property. It's completely recursive and you can go as deep as you want. Additionally you can request properties that contain arrays from either YAML or JSON reference files. Here's a YAML example for an events array: ```yml myevents: - schedule: cron(0 * * * *) ``` and for JSON: ```json { "myevents": [ { "schedule": "cron(0 * * * *)" } ] } ``` In your serverless.yml, depending on the type of your source file, either have the following syntax for YAML ```yml functions: hello: handler: handler.hello events: ${file(./myCustomFile.yml):myevents ``` or for a JSON reference file use this syntax: ```yml functions: hello: handler: handler.hello events: ${file(./myCustomFile.json):myevents ``` **Note:** If the referenced file is a symlink, the targeted file will be read. ## Reference Variables in Javascript Files You can reference JavaScript files to add dynamic data into your variables. References can be either named or unnamed exports. To use the exported `someModule` in `myFile.js` you'd use the following code `${file(./myFile.js):someModule}`. For an unnamed export you'd write `${file(./myFile.js)}`. ```js // scheduleConfig.js module.exports.cron = () => { // Code that generates dynamic data return 'cron(0 * * * *)'; }; ``` ```js // config.js module.exports = () => { return { property1: 'some value', property2: 'some other value', }; }; ``` ```yml # serverless.yml service: new-service provider: openwhisk custom: ${file(./config.js)} functions: hello: handler: handler.hello events: - schedule: ${file(./scheduleConfig.js):cron} # Reference a specific module ``` You can also return an object and reference a specific property. Just make sure you are returning a valid object and referencing a valid property: ```yml # serverless.yml service: new-service provider: openwhisk functions: scheduledFunction: handler: handler.scheduledFunction events: - schedule: ${file(./myCustomFile.js):schedule.hour} ``` ```js // myCustomFile.js module.exports.schedule = () => { // Code that generates dynamic data return { hour: 'cron(0 * * * *)', }; }; ``` ## Multiple Configuration Files Adding many custom resources to your `serverless.yml` file could bloat the whole file, so you can use the Serverless Variable syntax to split this up. ```yml resources: Resources: ${file(openwhisk-resources.json)} ``` The corresponding resources which are defined inside the `openwhisk-resources.json` file will be resolved and loaded into the `Resources` section. ## Nesting Variable References The Serverless variable system allows you to nest variable references within each other for ultimate flexibility. So you can reference certain variables based on other variables. Here's an example: ```yml service: new-service provider: openwhisk custom: myFlexibleArn: ${env:${opt:stage}_arn} functions: hello: handler: handler.hello ``` In the above example, if you pass `dev` as a stage option, the framework will look for the `dev_arn` environment variable. If you pass `production`, the framework will look for `production_arn`, and so on. This allows you to creatively use multiple variables by using a certain naming pattern without having to update the values of these variables constantly. You can go as deep as you want in your nesting, and can reference variables at any level of nesting from any source (env, opt, self or file). ## Overwriting Variables The Serverless framework gives you an intuitive way to reference multiple variables as a fallback strategy in case one of the variables is missing. This way you'll be able to use a default value from a certain source, if the variable from another source is missing. For example, if you want to reference the stage you're deploying to, but you don't want to keep on providing the `stage` option in the CLI. What you can do in `serverless.yml` is: ```yml service: new-service provider: name: openwhisk stage: dev custom: myStage: ${opt:stage, self:provider.stage} functions: hello: handler: handler.hello ``` What this says is to use the `stage` CLI option if it exists, if not, use the default stage (which lives in `provider.stage`). So during development you can safely deploy with `serverless deploy`, but during production you can do `serverless deploy --stage production` and the stage will be picked up for you without having to make any changes to `serverless.yml`. You can have as many variable references as you want, from any source you want, and each of them can be of different type and different name. ## Migrating serverless.env.yml Previously we used the `serverless.env.yml` file to track Serverless Variables. It was a completely different system with different concepts. To migrate your variables from `serverless.env.yml`, you'll need to decide where you want to store your variables. **Using a config file:** You can still use `serverless.env.yml`, but the difference now is that you can structure the file however you want, and you'll need to reference each variable/property correctly in `serverless.yml`. For more info, you can check the file reference section above. **Using the same `serverless.yml` file:** You can store your variables in `serverless.yml` if they don't contain sensitive data, and then reference them elsewhere in the file using `self:someProperty`. For more info, you can check the self reference section above. **Using environment variables:** You can instead store your variables in environment variables and reference them with `env.someEnvVar`. For more info, you can check the environment variable reference section above. Now you don't need `serverless.env.yml` at all, but you can still use it if you want. It's just not required anymore. Migrating to the new variable system is easy and you just need to know how the new system works and make small adjustments to how you store & reference your variables.