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Creating and invoking OpenWhisk actions

Actions are stateless code snippets that run on the OpenWhisk platform. For example, an action can be used to detect the faces in an image, respond to a database change, aggregate a set of API calls, or post a Tweet. An action can be written as a JavaScript, Swift, Python or PHP function, a Java method, any binary-compatible executable including Go programs and custom executables packaged as Docker containers.

Actions can be explicitly invoked, or run in response to an event. In either case, each run of an action results in an activation record that is identified by a unique activation ID. The input to an action and the result of an action are a dictionary of key-value pairs, where the key is a string and the value a valid JSON value. Actions can also be composed of calls to other actions or a defined sequence of actions.

Prerequisites

You will need to use OpenWhisk CLI. Read how to use it when running OpenWhisk from a VM here. Or download binaries for your platform here. You can also download the CLI directly from your local installation at the https://<IP_ADDRESS>/cli/go/download/ path.

Learn how to create, invoke, and debug actions in your preferred development environment:

In addition, learn about:

Creating and invoking JavaScript actions

The following sections guide you through working with actions in JavaScript. You begin with the creation and invocation of a simple action. Then, you move on to adding parameters to an action and invoking that action with parameters. Then, you create asynchronous actions and, finally, work with action sequences.

Creating and invoking a simple JavaScript action

Review the following steps and examples to create your first JavaScript action.

  1. Create a JavaScript file with the following content. For this example, the file name is 'hello.js'.
function main() {
    return {payload: 'Hello world'};
}

The JavaScript file might contain additional functions. However, by convention, a function called main must exist to provide the entry point for the action.

  1. Create an action from the following JavaScript function. For this example, the action is called 'hello'.
wsk action create hello hello.js
ok: created action hello

The CLI automatically infers the type of the action by using the source file extension. For .js source files, the action runs by using a Node.js 6 runtime. You can also create an action that runs with Node.js 8 by explicitly specifying the parameter --kind nodejs:8. For more information, see the Node.js 6 vs 8 reference.

  1. List the actions that you have created:
wsk action list
actions
hello       private

You can see the hello action you just created.

  1. After you create your action, you can run it in the cloud in OpenWhisk with the 'invoke' command. You can invoke actions with a blocking invocation (i.e., request/response style) or a non-blocking invocation by specifying a flag in the command. A blocking invocation request will wait for the activation result to be available. The wait period is the lesser of 60 seconds or the action's configured time limit. The result of the activation is returned if it is available within the wait period. Otherwise, the activation continues processing in the system and an activation ID is returned so that one may check for the result later, as with non-blocking requests (see here for tips on monitoring activations).

This example uses the blocking parameter, --blocking:

wsk action invoke --blocking hello
ok: invoked hello with id 44794bd6aab74415b4e42a308d880e5b
{
    "result": {
        "payload": "Hello world"
    },
    "status": "success",
    "success": true
}

The command outputs two important pieces of information:

  • The activation ID (44794bd6aab74415b4e42a308d880e5b)
  • The invocation result if it is available within the expected wait period

The result in this case is the string Hello world returned by the JavaScript function. The activation ID can be used to retrieve the logs or result of the invocation at a future time.

  1. If you don't need the action result right away, you can omit the --blocking flag to make a non-blocking invocation. You can get the result later by using the activation ID. See the following example:
wsk action invoke hello
ok: invoked hello with id 6bf1f670ee614a7eb5af3c9fde813043
wsk activation result 6bf1f670ee614a7eb5af3c9fde813043
{
    "payload": "Hello world"
}
  1. To access the most recent activation record, activation results or activation logs, use the --last or -l flag. Run the following command to get your last activation result.
wsk activation result --last
{
    "payload": "Hello world"
}

Note that you should not use an activation ID with the flag --last.

  1. If you forget to record the activation ID, you can get a list of activations ordered from the most recent to the oldest. Run the following command to get a list of your activations:
wsk activation list
activations
44794bd6aab74415b4e42a308d880e5b         hello
6bf1f670ee614a7eb5af3c9fde813043         hello

Getting an action URL

An action can be invoked through the REST interface via an HTTPS request. To get an action URL, execute the following command:

wsk action get actionName --url
ok: got action actionName
https://${APIHOST}/api/v1/namespaces/${NAMESPACE}/actions/actionName

Note: Authentication must be provided when invoking an action via an HTTPS request. For more information regarding action invocations using the REST interface, see Using REST APIs with OpenWhisk.

Saving action code

Code associated with an existing action is fetched and saved locally. Saving is performed on all actions except sequences and docker actions. When saving action code to a file, the code is saved in the current working directory, and the saved file path is displayed.

  1. Save action code to a filename that corresponds with an existing action name. A file extension that corresponds to the action kind is used, or an extension of .zip will be used for action code that is a zip file.
wsk action get actionName --save
ok: saved action code to /absolutePath/currentDirectory/actionName.js
  1. Instead of allowing the CLI to determine the filename and extension of the saved code, a custom filename and extension can be provided by using the --save-as flag.
wsk action get actionName --save-as codeFile.js
ok: saved action code to /absolutePath/currentDirectory/codeFile.js

Creating asynchronous actions

JavaScript functions that run asynchronously may need to return the activation result after the main function has returned. You can accomplish this by returning a Promise in your action.

  1. Save the following content in a file called asyncAction.js.
function main(args) {
     return new Promise(function(resolve, reject) {
       setTimeout(function() {
         resolve({ done: true });
       }, 2000);
    })
 }

Notice that the main function returns a Promise, which indicates that the activation hasn't completed yet, but is expected to in the future.

The setTimeout() JavaScript function in this case waits for two seconds before calling the callback function. This represents the asynchronous code and goes inside the Promise's callback function.

The Promise's callback takes two arguments, resolve and reject, which are both functions. The call to resolve() fulfills the Promise and indicates that the activation has completed normally.

A call to reject() can be used to reject the Promise and signal that the activation has completed abnormally.

  1. Run the following commands to create the action and invoke it:
wsk action create asyncAction asyncAction.js
wsk action invoke --result asyncAction
{
    "done": true
}

Notice that you performed a blocking invocation of an asynchronous action.

  1. Fetch the activation log to see how long the activation took to complete:
wsk activation list --limit 1 asyncAction
activations
b066ca51e68c4d3382df2d8033265db0             asyncAction
wsk activation get b066ca51e68c4d3382df2d8033265db0
 {
     "start": 1455881628103,
     "end":   1455881648126,
     ...
 }

Comparing the start and end time stamps in the activation record, you can see that this activation took slightly over two seconds to complete.

Using actions to call an external API

The examples so far have been self-contained JavaScript functions. You can also create an action that calls an external API.

This example invokes a Yahoo Weather service to get the current conditions at a specific location.

  1. Save the following content in a file called weather.js.
var request = require('request');

function main(params) {
    var location = params.location || 'Vermont';
    var url = 'https://query.yahooapis.com/v1/public/yql?q=select item.condition from weather.forecast where woeid in (select woeid from geo.places(1) where text="' + location + '")&format=json';

    return new Promise(function(resolve, reject) {
        request.get(url, function(error, response, body) {
            if (error) {
                reject(error);
            }
            else {
                var condition = JSON.parse(body).query.results.channel.item.condition;
                var text = condition.text;
                var temperature = condition.temp;
                var output = 'It is ' + temperature + ' degrees in ' + location + ' and ' + text;
                resolve({msg: output});
            }
        });
    });
}

Note that the action in the example uses the JavaScript request library to make an HTTP request to the Yahoo Weather API, and extracts fields from the JSON result. The References detail the Node.js packages that you can use in your actions.

This example also shows the need for asynchronous actions. The action returns a Promise to indicate that the result of this action is not available yet when the function returns. Instead, the result is available in the request callback after the HTTP call completes, and is passed as an argument to the resolve() function.

  1. Create an action from the weather.js file:
wsk action create weather weather.js
  1. Use the following command to run the action, and observe the output:
wsk action invoke --result weather --param location "Brooklyn, NY"

Using the --result flag means that the value returned from the action is shown as output on the commandline:

{
    "msg": "It is 28 degrees in Brooklyn, NY and Cloudy"
}

This example also passed a parameter to the action by using the --param flag and a value that can be changed each time the action is invoked. Find out more about parameters in the Working with parameters section.

Packaging an action as a Node.js module

As an alternative to writing all your action code in a single JavaScript source file, you can write an action as a npm package. Consider as an example a directory with the following files:

First, package.json:

{
  "name": "my-action",
  "main": "index.js",
  "dependencies" : {
    "left-pad" : "1.1.3"
  }
}

Then, index.js:

function myAction(args) {
    const leftPad = require("left-pad")
    const lines = args.lines || [];
    return { padded: lines.map(l => leftPad(l, 30, ".")) }
}

exports.main = myAction;

Note that the action is exposed through exports.main; the action handler itself can have any name, as long as it conforms to the usual signature of accepting an object and returning an object (or a Promise of an object). Per Node.js convention, you must either name this file index.js or specify the file name you prefer as the main property in package.json.

To create an OpenWhisk action from this package:

  1. Install first all dependencies locally
$ npm install
  1. Create a .zip archive containing all files (including all dependencies):
$ zip -r action.zip *

Please note: Using the Windows Explorer action for creating the zip file will result in an incorrect structure. OpenWhisk zip actions must have package.json at the root of the zip, while Windows Explorer will put it inside a nested folder. The safest option is to use the command line zip command as shown above.

  1. Create the action:
wsk action create packageAction --kind nodejs:6 action.zip

When creating an action from a .zip archive with the CLI tool, you must explicitly provide a value for the --kind flag by using nodejs:6 or nodejs:8.

  1. You can invoke the action like any other:
wsk action invoke --result packageAction --param lines "[\"and now\", \"for something completely\", \"different\" ]"
{
    "padded": [
        ".......................and now",
        "......for something completely",
        ".....................different"
    ]
}

Finally, note that while most npm packages install JavaScript sources on npm install, some also install and compile binary artifacts. The archive file upload currently does not support binary dependencies but rather only JavaScript dependencies. Action invocations may fail if the archive includes binary dependencies.

Package an action as a single bundle

It is convenient to only include the minimal code into a single .js file that includes dependencies. This approach allows for faster deployments, and in some circumstances where packaging the action as a zip might be too large because it includes unnecessary files.

You can use a JavaScript module bundler such as webpack. When webpack processes your code, it recursively builds a dependency graph that includes every module that your action needs.

Here is a quick example using webpack:

Taking the previous example package.json add webpack as a development depency and add some npm script commands.

{
  "name": "my-action",
  "main": "dist/bundle.js",
  "scripts": {
    "build": "webpack --config webpack.config.js",
    "deploy": "wsk action update my-action dist/bundle.js --kind nodejs:8"
  },
  "dependencies": {
    "left-pad": "1.1.3"
  },
  "devDependencies": {
    "webpack": "^3.8.1"
  }
}

Create the webpack configuration file webpack.config.js.

var path = require('path');
module.exports = {
  entry: './index.js',
  output: {
    path: path.resolve(__dirname, 'dist'),
    filename: 'bundle.js'
  },
  target: 'node'
};

Set the variable global.main to the main function of the action. From the previous example:

function myAction(args) {
    const leftPad = require("left-pad")
    const lines = args.lines || [];
    return { padded: lines.map(l => leftPad(l, 30, ".")) }
}
global.main = myAction;

If your function name is main, use this syntax instead:

global.main = main;

To build and deploy an OpenWhisk Action using npm and webpack:

  1. First, install dependencies locally:
npm install
  1. Build the webpack bundle:
npm run build

The file dist/bundle.js is created, and is used to deploy as the Action source code.

  1. Create the Action using the npm script or the CLI. Using npm script:
npm run deploy

{: pre} Using the CLI:

wsk action update my-action dist/bundle.js

Finally, the bundle file that is built by webpack doesn't support binary dependencies but rather JavaScript dependencies. So Action invocations will fail if the bundle depends on binary dependencies, because this is not included with the file bundle.js.

Creating action sequences

You can create an action that chains together a sequence of actions.

Several utility actions are provided in a package called /whisk.system/utils that you can use to create your first sequence. You can learn more about packages in the Packages section.

  1. Display the actions in the /whisk.system/utils package.
wsk package get --summary /whisk.system/utils
package /whisk.system/utils: Building blocks that format and assemble data
 (parameters: none defined)
   action /whisk.system/utils/namespace: Returns namespace for the authorization key used to invoke this action
     (parameters: none defined)
   action /whisk.system/utils/date: Current date and time
     (parameters: none defined)
   action /whisk.system/utils/sort: Sorts an array
     (parameters: lines)
   action /whisk.system/utils/split: Split a string into an array
     (parameters: payload, separator)
   action /whisk.system/utils/hosturl: Returns the URL to activation an action or trigger
     (parameters: ext, path, trigger, web)
   ...

You will be using the split and sort actions in this example.

  1. Create an action sequence so that the result of one action is passed as an argument to the next action.
wsk action create sequenceAction --sequence /whisk.system/utils/split,/whisk.system/utils/sort

This action sequence converts some lines of text to an array, and sorts the lines.

  1. Invoke the action:
wsk action invoke --result sequenceAction --param payload "Over-ripe sushi,\nThe Master\nIs full of regret."
{
    "length": 3,
    "lines": [
        "Is full of regret.",
        "Over-ripe sushi,",
        "The Master"
    ]
}

In the result, you see that the lines are sorted.

Note: Parameters passed between actions in the sequence are explicit, except for default parameters. Therefore parameters that are passed to the action sequence are only available to the first action in the sequence. The result of the first action in the sequence becomes the input JSON object to the second action in the sequence (and so on). This object does not include any of the parameters originally passed to the sequence unless the first action explicitly includes them in its result. Input parameters to an action are merged with the action's default parameters, with the former taking precedence and overriding any matching default parameters. For more information about invoking action sequences with multiple named parameters, see Setting default parameters.

Creating Python actions

The process of creating Python actions is similar to that of JavaScript actions. The following sections guide you through creating and invoking a single Python action, and packaging your actions in zip files.

Creating and invoking a Python action

An action is simply a top-level Python function. For example, create a file called hello.py with the following source code:

def main(args):
    name = args.get("name", "stranger")
    greeting = "Hello " + name + "!"
    print(greeting)
    return {"greeting": greeting}

Python actions always consume a dictionary and produce a dictionary. The entry method for the action is main by default but may be specified explicitly when creating the action with the wsk CLI using --main, as with any other action type.

You can create an OpenWhisk action called helloPython from this function as follows:

wsk action create helloPython hello.py

The CLI automatically infers the type of the action from the source file extension. For .py source files, the action runs using a Python 2.7 runtime. You can also create an action that runs with Python 3.6 by explicitly specifying the parameter --kind python:3. See the Python reference for more information about Python 2.7 vs. 3.6.

Action invocation is the same for Python actions as it is for JavaScript actions:

wsk action invoke --result helloPython --param name World
  {
      "greeting": "Hello World!"
  }

Find out more about parameters in the Working with parameters section.

Packaging Python actions in zip files

You can package a Python action and dependent modules in a zip file. The filename of the source file containing the entry point (e.g., main) must be __main__.py. For example, to create an action with a helper module called helper.py, first create an archive containing your source files:

zip -r helloPython.zip __main__.py helper.py

and then create the action:

wsk action create helloPython --kind python:3 helloPython.zip

Packaging Python actions with a virtual environment in zip files

Another way of packaging Python dependencies is using a virtual environment (virtualenv). This allows you to link additional packages that may be installed via pip for example. To ensure compatibility with the OpenWhisk container, package installations inside a virtualenv must be done in the target environment. So the docker image openwhisk/python2action or openwhisk/python3action should be used to create a virtualenv directory for your action.

As with basic zip file support, the name of the source file containing the main entry point must be __main__.py. In addition, the virtualenv directory must be named virtualenv. Below is an example scenario for installing dependencies, packaging them in a virtualenv, and creating a compatible OpenWhisk action.

  1. Given a requirements.txt file that contains the pip modules and versions to install, run the following to install the dependencies and create a virtualenv using a compatible Docker image:
docker run --rm -v "$PWD:/tmp" openwhisk/python3action bash \
  -c "cd tmp && virtualenv virtualenv && source virtualenv/bin/activate && pip install -r requirements.txt"
  1. Archive the virtualenv directory and any additional Python files:
zip -r helloPython.zip virtualenv __main__.py
  1. Create the action:
wsk action create helloPython --kind python:3 helloPython.zip

While the steps above are shown for Python 3.6, you can do the same for Python 2.7 as well.

Creating PHP actions

The process of creating PHP actions is similar to that of JavaScript actions. The following sections guide you through creating and invoking a single PHP action, and demonstrate how to zip your PHP actions.

Creating and invoking a PHP action

An action is simply a top-level PHP function. For example, create a file called hello.php with the following source code:

<?php
function main(array $args) : array
{
    $name = $args["name"] ?? "stranger";
    $greeting = "Hello $name!";
    echo $greeting;
    return ["greeting" => $greeting];
}

PHP actions always consume an associative array and return an associative array. The entry method for the action is main by default but may be specified explicitly when creating the action with the wsk CLI using --main, as with any other action type.

You can create an OpenWhisk action called helloPHP from this function as follows:

wsk action create helloPHP hello.php

The CLI automatically infers the type of the action from the source file extension. For .php source files, the action runs using a PHP 7.1 runtime. See the PHP reference for more information.

Action invocation is the same for PHP actions as it is for JavaScript actions:

wsk action invoke --result helloPHP --param name World
  {
      "greeting": "Hello World!"
  }

Find out more about parameters in the Working with parameters section.

Packaging PHP actions in zip files

You can package a PHP action along with other files and dependent packages in a zip file. The filename of the source file containing the entry point (e.g., main) must be index.php. For example, to create an action that includes a second file called helper.php, first create an archive containing your source files:

zip -r helloPHP.zip index.php helper.php

and then create the action:

wsk action create helloPHP --kind php:7.1 helloPHP.zip

Creating Swift actions

The process of creating Swift actions is similar to that of JavaScript actions. The following sections guide you through creating and invoking a single swift action, and packaging an action in a zip file.

You can also use the online Swift Sandbox to test your Swift code without having to install Xcode on your machine.

Attention: Swift actions run in a Linux environment. Swift on Linux is still in development, and OpenWhisk usually uses the latest available release, which is not necessarily stable. In addition, the version of Swift that is used with OpenWhisk might be inconsistent with versions of Swift from stable releases of Xcode on MacOS.

Creating and invoking an action

An action is simply a top-level Swift function. For example, create a file called hello.swift with the following content:

func main(args: [String:Any]) -> [String:Any] {
    if let name = args["name"] as? String {
        return [ "greeting" : "Hello \(name)!" ]
    } else {
        return [ "greeting" : "Hello stranger!" ]
    }
}

Swift actions always consume a dictionary and produce a dictionary.

You can create a OpenWhisk action called helloSwift from this function as follows:

wsk action create helloSwift hello.swift

The CLI automatically infers the type of the action from the source file extension. For .swift source files, the action runs using a Swift 3.1.1 runtime. See the Swift reference for more information about the Swift runtime.

Action invocation is the same for Swift actions as it is for JavaScript actions:

wsk action invoke --result helloSwift --param name World
  {
      "greeting": "Hello World!"
  }

Find out more about parameters in the Working with parameters section.

Packaging an action as a Swift executable

When you create an OpenWhisk Swift action with a Swift source file, it has to be compiled into a binary before the action is run. Once done, subsequent calls to the action are much faster until the container holding your action is purged. This delay is known as the cold-start delay.

To avoid the cold-start delay, you can compile your Swift file into a binary and then upload to OpenWhisk in a zip file. As you need the OpenWhisk scaffolding, the easiest way to create the binary is to build it within the same environment as it will be run in. These are the steps:

  • Run an interactive Swift action container.

    docker run --rm -it -v "$(pwd):/owexec" openwhisk/action-swift-v3.1.1 bash
    

    This puts you in a bash shell within the Docker container.

  • Copy the source code and prepare to build it.

    cp /owexec/hello.swift /swift3Action/spm-build/main.swift
    
    cat /swift3Action/epilogue.swift >> /swift3Action/spm-build/main.swift
    
    echo '_run_main(mainFunction:main)' >> /swift3Action/spm-build/main.swift
    

    Copy any additional source files to /swift3Action/spm-build/

  • (Optional) Create the Package.swift file to add dependencies.

    import PackageDescription
    
    let package = Package(
      name: "Action",
          dependencies: [
              .Package(url: "https://github.com/apple/example-package-deckofplayingcards.git", majorVersion: 3),
              .Package(url: "https://github.com/IBM-Swift/CCurl.git", "0.2.3"),
              .Package(url: "https://github.com/IBM-Swift/Kitura-net.git", "1.7.10"),
              .Package(url: "https://github.com/IBM-Swift/SwiftyJSON.git", "15.0.1"),
              .Package(url: "https://github.com/watson-developer-cloud/swift-sdk.git", "0.16.0")
          ]
    )

    As you can see this example adds swift-watson-sdk and example-package-deckofplayingcards dependencies. Notice that CCurl, Kitura-net and SwiftyJSON are provided in the standard Swift action and so you should include them in your own Package.swift.

  • Copy Package.swift to spm-build directory

    cp /owexec/Package.swift /swift3Action/spm-build/Package.swift
    
  • Change to the spm-build directory.

    cd /swift3Action/spm-build
    
  • Compile your Swift Action.

    swift build -c release
    
  • Create the zip archive.

    zip /owexec/hello.zip .build/release/Action
    
  • Exit the Docker container.

    exit
    

    This has created hello.zip in the same directory as hello.swift.

  • Upload it to OpenWhisk with the action name helloSwifty:

    wsk action update helloSwiftly hello.zip --kind swift:3.1.1
    
  • To check how much faster it is, run

    wsk action invoke helloSwiftly --blocking
    

The time it took for the action to run is in the "duration" property and compare to the time it takes to run with a compilation step in the hello action.

Creating Java actions

The process of creating Java actions is similar to that of JavaScript and Swift actions. The following sections guide you through creating and invoking a single Java action, and adding parameters to that action.

In order to compile, test and archive Java files, you must have a JDK 8 installed locally.

Creating and invoking an action

A Java action is a Java program with a method called main that has the exact signature as follows:

public static com.google.gson.JsonObject main(com.google.gson.JsonObject);

For example, create a Java file called Hello.java with the following content:

import com.google.gson.JsonObject;

public class Hello {
    public static JsonObject main(JsonObject args) {
        String name = "stranger";
        if (args.has("name"))
            name = args.getAsJsonPrimitive("name").getAsString();
        JsonObject response = new JsonObject();
        response.addProperty("greeting", "Hello " + name + "!");
        return response;
    }
}

Then, compile Hello.java into a JAR file hello.jar as follows:

javac Hello.java
jar cvf hello.jar Hello.class

Note: google-gson must exist in your Java CLASSPATH when compiling the Java file.

You can create a OpenWhisk action called helloJava from this JAR file as follows:

wsk action create helloJava hello.jar --main Hello

When you use the command line and a .jar source file, you do not need to specify that you are creating a Java action; the tool determines that from the file extension.

You need to specify the name of the main class using --main. An eligible main class is one that implements a static main method as described above. If the class is not in the default package, use the Java fully-qualified class name, e.g., --main com.example.MyMain.

If needed you can also customize the method name of your Java action. This can be done by specifying the Java fully-qualified method name of your action, e.q., --main com.example.MyMain#methodName

Action invocation is the same for Java actions as it is for Swift and JavaScript actions:

wsk action invoke --result helloJava --param name World
  {
      "greeting": "Hello World!"
  }

Find out more about parameters in the Working with parameters section.

Creating Docker actions

With OpenWhisk Docker actions, you can write your actions in any language.

Your code is compiled into an executable binary and embedded into a Docker image. The binary program interacts with the system by taking input from stdin and replying through stdout.

As a prerequisite, you must have a Docker Hub account. To set up a free Docker ID and account, go to Docker Hub.

For the instructions that follow, assume that the Docker user ID is janesmith and the password is janes_password. Assuming that the CLI is already set up, three steps are required to set up a custom binary for use by OpenWhisk. After that, the uploaded Docker image can be used as an action.

  1. Download the Docker skeleton. You can download it by using the CLI as follows:
wsk sdk install docker
The Docker skeleton is now installed at the current directory.
$ ls dockerSkeleton/
Dockerfile      README.md       buildAndPush.sh example.c

The skeleton is a Docker container template where you can inject your code in the form of custom binaries.

  1. Set up your custom binary in the blackbox skeleton. The skeleton already includes a C program that you can use.
cat dockerSkeleton/example.c
#include <stdio.h>
int main(int argc, char *argv[]) {
    printf("This is an example log message from an arbitrary C program!\n");
    printf("{ \"msg\": \"Hello from arbitrary C program!\", \"args\": %s }",
           (argc == 1) ? "undefined" : argv[1]);
}

You can modify this file as needed, or, add additional code and dependencies to the Docker image. In case of the latter, you may need to tweak the Dockerfile as necessary to build your executable. The binary must be located inside the container at /action/exec.

The executable receives a single argument from the command line. It is a string serialization of the JSON object representing the arguments to the action. The program may log to stdout or stderr. By convention, the last line of output must be a stringified JSON object which represents the result of the action.

  1. Build the Docker image and upload it using a supplied script. You must first run docker login to authenticate, and then run the script with a chosen image name.
docker login -u janesmith -p janes_password
cd dockerSkeleton
./buildAndPush.sh janesmith/blackboxdemo

Notice that part of the example.c file is compiled as part of the Docker image build process, so you do not need C compiled on your machine. In fact, unless you are compiling the binary on a compatible host machine, it may not run inside the container since formats will not match.

Your Docker container may now be used as an OpenWhisk action.

wsk action create example --docker janesmith/blackboxdemo

Notice the use of --docker when creating an action. Currently all Docker images are assumed to be hosted on Docker Hub. The action may be invoked as any other OpenWhisk action.

wsk action invoke --result example --param payload Rey
{
    "args": {
        "payload": "Rey"
    },
    "msg": "Hello from arbitrary C program!"
}

To update the Docker action, run buildAndPush.sh to upload the latest image to Docker Hub. This will allow the system to pull your new Docker image the next time it runs the code for your action. If there are no warm containers any new invocations will use the new Docker image. However, if there is a warm container using a previous version of your Docker image, any new invocations will continue to use that image unless you run wsk action update. This will indicate to the system that for new invocations it should execute a docker pull to get your new Docker image.

./buildAndPush.sh janesmith/blackboxdemo
wsk action update example --docker janesmith/blackboxdemo

You can find more information about creating Docker actions in the References section.

Note: Previous version of the CLI supported --docker without a parameter and the image name was a positional argument. In order to allow Docker actions to accept initialization data via a (zip) file, similar to other actions kinds, we have normalized the user experience for Docker actions so that a positional argument if present must be a file (e.g., a zip file) instead. The image name must be specified following the --docker option. Furthermore, due to user feedback, we have added --native as shorthand for --docker openwhisk/dockerskeleton so that executables that run inside the standard Docker action SDK are more convenient to create and deploy.

For example, the tutorial above created a binary executable inside the container locate at /action/exec. If you copy this file to your local file system and zip it into exec.zip then you can use the following commands to create a docker action which receives the executable as initialization data.

wsk action create example exec.zip --native

which is equivalent to the following command.

wsk action create example exec.zip --docker openwhisk/dockerskeleton

Creating Go actions

The --native option allows for packaging of any executable as an action. This works for Go as an example. As with Docker actions, the Go executable receives a single argument from the command line. It is a string serialization of the JSON object representing the arguments to the action. The program may log to stdout or stderr. By convention, the last line of output must be a stringified JSON object which represents the result of the action.

Here is an example Go action.

package main

import "encoding/json"
import "fmt"
import "os"

func main() {
    //program receives one argument: the JSON object as a string
    arg := os.Args[1]
   
    // unmarshal the string to a JSON object
    var obj map[string]interface{}
    json.Unmarshal([]byte(arg), &obj)

    // can optionally log to stdout (or stderr)
    fmt.Println("hello Go action")

    name, ok := obj["name"].(string)
    if !ok { name = "Stranger" }

    // last line of stdout is the result JSON object as a string
    msg := map[string]string{"msg": ("Hello, " + name + "!")}
    res, _ := json.Marshal(msg)
    fmt.Println(string(res))
}

Save the code above to a file sample.go and cross compile it for OpenWhisk. The executable must be called exec.

GOOS=linux GOARCH=amd64 go build -o exec
zip exec.zip exec
wsk action create helloGo --native exec.zip

The action may be run as any other action.

wsk action invoke helloGo -r -p name gopher
{
    "msg": "Hello, gopher!"
}

Find out more about parameters in the Working with parameters section.

Logs are retrieved in a similar way as well.

wsk activation logs --last --strip
my first Go action.

Creating native actions

Using --native, you can see that any executable may be run as an OpenWhisk action. This includes bash scripts, or cross compiled binaries. For the latter, the constraint is that the binary must be compatible with the openwhisk/dockerskeleton image.

Watching action output

OpenWhisk actions might be invoked by other users, in response to various events, or as part of an action sequence. In such cases it can be useful to monitor the invocations.

You can use the OpenWhisk CLI to watch the output of actions as they are invoked.

  1. Issue the following command from a shell:
wsk activation poll

This command starts a polling loop that continuously checks for logs from activations.

  1. Switch to another window and invoke an action:
wsk action invoke /whisk.system/samples/helloWorld --param payload Bob
ok: invoked /whisk.system/samples/helloWorld with id 7331f9b9e2044d85afd219b12c0f1491
  1. Observe the activation log in the polling window:
Activation: helloWorld (7331f9b9e2044d85afd219b12c0f1491)
  2016-02-11T16:46:56.842065025Z stdout: hello bob!

Similarly, whenever you run the poll utility, you see in real time the logs for any actions running on your behalf in OpenWhisk.

Listing actions

You can list all the actions that you have created using wsk action list:

wsk action list
actions
/guest/packageB/A                  private nodejs:6
/guest/C                           private nodejs:6
/guest/A                           private nodejs:6
/guest/packageA/B                  private nodejs:6
/guest/packageA/A                  private nodejs:6
/guest/B                           private nodejs:6

Here, we see actions listed in order from most to least recently updated. For easier browsing, you can use the flag --name-sort or -n to sort the list alphabetically:

wsk action list --name-sort
actions
/guest/A                           private nodejs:6
/guest/B                           private nodejs:6
/guest/C                           private nodejs:6
/guest/packageA/A                  private nodejs:6
/guest/packageA/B                  private nodejs:6
/guest/packageB/A                  private nodejs:6

Notice that the list is now sorted alphabetically by namespace, then package name, and finally action name, with the default package (no specified package) listed at the top.

Note: The printed list is sorted alphabetically after it is received from the server. Other list flags such as --limit and --skip will be applied to the block of actions before they are received for sorting. To list actions in order by creation time, use the flag --time.

As you write more actions, this list gets longer and it can be helpful to group related actions into packages. To filter your list of actions to just those within a specific package, you can use:

wsk action list [PACKAGE NAME]

Deleting actions

You can clean up by deleting actions that you do not want to use.

  1. Run the following command to delete an action:
wsk action delete hello
ok: deleted hello
  1. Verify that the action no longer appears in the list of actions.
wsk action list
actions

Accessing action metadata within the action body

The action environment contains several properties that are specific to the running action. These allow the action to programmatically work with OpenWhisk assets via the REST API, or set an internal alarm when the action is about to use up its allotted time budget. The properties are accessible via the system environment for all supported runtimes: Node.js, Python, Swift, Java and Docker actions when using the OpenWhisk Docker skeleton.

  • __OW_API_HOST the API host for the OpenWhisk deployment running this action
  • __OW_API_KEY the API key for the subject invoking the action, this key may be a restricted API key
  • __OW_NAMESPACE the namespace for the activation (this may not be the same as the namespace for the action)
  • __OW_ACTION_NAME the fully qualified name of the running action
  • __OW_ACTIVATION_ID the activation id for this running action instance
  • __OW_DEADLINE the approximate time when this action will have consumed its entire duration quota (measured in epoch milliseconds)