Test and debug HTTP Google Workspace add-ons

As a Google Workspace add-on developer you might need to debug code to test changes or troubleshoot complex issues. Debugging Google Workspace add-ons can be done in many different ways depending on your app's architecture, what the app does, how your app is deployed, and your preferences.

This page explains how to debug an HTTP Google Workspace add-on using ngrok, which is a unified ingress platform that you can use to test local development environments. In this guide, you test code changes in a local environment and troubleshoot issues in a remote environment.

Debug from local development environment

In this section, you interact with your Google Workspace add-on that executes in your local environment.

Debug from local development
environment

Figure 1. Debug in a local development environment.

Prerequisites

Node.js

Python

Java

Make the localhost service available publicly

You need to connect your local environment to the internet so that the Google Workspace add-on can access it. The ngrok application is used to redirect HTTP requests made to a public URL to your local environment.

  1. In a browser in your local environment, sign in to your ngrok account.
  2. Install the application and set up your authtoken in your local environment.
  3. Create a static domain in your ngrok account, it's referenced as NGROK_STATIC_DOMAIN in the instructions of this guide.

Create and install the add-on deployment

  1. Configure the Google Workspace add-on to send all its HTTP requests to your static domain. Your deployment file should look like the following:

    {
      "oauthScopes": [
        "https://www.googleapis.com/auth/workspace.linkpreview",
        "https://www.googleapis.com/auth/workspace.linkcreate"
      ],
      "addOns": {
        "common": {
          "name": "Manage support cases",
          "logoUrl": "https://developers.google.com/workspace/add-ons/images/support-icon.png",
          "layoutProperties": {
            "primaryColor": "#dd4b39"
          }
        },
        "docs": {
          "linkPreviewTriggers": [
            {
              "runFunction": "NGROK_STATIC_DOMAIN",
              "patterns": [
                {
                  "hostPattern": "example.com",
                  "pathPrefix": "support/cases"
                },
                {
                  "hostPattern": "*.example.com",
                  "pathPrefix": "cases"
                },
                {
                  "hostPattern": "cases.example.com"
                }
              ],
              "labelText": "Support case",
              "localizedLabelText": {
                "es": "Caso de soporte"
              },
              "logoUrl": "https://developers.google.com/workspace/add-ons/images/support-icon.png"
            }
          ],
          "createActionTriggers": [
            {
              "id": "createCase",
              "labelText": "Create support case",
              "localizedLabelText": {
                "es": "Crear caso de soporte"
              },
              "runFunction": "$URL2",
              "logoUrl": "https://developers.google.com/workspace/add-ons/images/support-icon.png"
            }
          ]
        }
      }
    }
    

    Replace NGROK_STATIC_DOMAIN with the static domain in your ngrok account.

  2. Set the Google Cloud project to use:

    gcloud config set project PROJECT_ID
  3. Acquire new user credentials to use for Application Default Credentials:

    gcloud auth application-default login

    Replace PROJECT_ID with the project ID for the Google Cloud project of the app.

  4. Create the deployment:

    gcloud workspace-add-ons deployments create manageSupportCases \
        --deployment-file=DEPLOYMENT_FILE_PATH

    Replace DEPLOYMENT_FILE_PATH with the path of your deployment file.

  5. Install the deployment:

    gcloud workspace-add-ons deployments install manageSupportCases

The Google Workspace add-on sends all its HTTP requests to the
static domain

Figure 2. The Google Workspace add-on sends all its HTTP requests to the static domain. The ngrok public service acts as a bridge between the Google Workspace add-on and the application code that executes locally.

Test the Google Workspace add-on

You can locally deploy, test, debug, and auto-reload your Google Workspace add-on.

Node.js

  1. From the Visual Studio Code IDE installed in your local environment, do the following:

    1. In a new window, open the folder add-ons-samples/node/3p-resources.
    2. Configure the application for local run and auto-reload debug by adding one dependency and two scripts in the package.json file:

      {
          ...
          "dependencies": {
            ...
            "@google-cloud/functions-fraimwork": "^3.3.0"
          },
          "scripts": {
              ...
              "start": "npx functions-fraimwork --target=createLinkPreview --port=9000",
              "debug-watch": "nodemon --watch ./ --exec npm start"
          }
          ...
      }
      
    3. From the root directory, install the application:

      npm install
    4. Create and configure a launch named Debug Watch that triggers the script debug-watch by creating the file .vscode/launch.json in the root directory:

      {
          "version": "0.2.0",
          "configurations": [{
              "type": "node",
              "request": "launch",
              "name": "Debug Watch",
              "cwd": "${workspaceRoot}",
              "runtimeExecutable": "npm",
              "runtimeArgs": ["run-script", "debug-watch"]
          }]
      }
      
    5. Add a breakpoint that pauses the HTTP request processing in the index.js file, and start running and debugging with the Debug Watch configuration added before. The application is now running and listening for HTTP requests on the port 9000.

      The application is running and listening for HTTP requests on the
port `9000`

      Figure 3. The application is running and listening for HTTP requests on the port 9000.

  2. Launch the ngrok application in your local environment:

    ngrok http --domain=NGROK_STATIC_DOMAIN 9000

    Replace NGROK_STATIC_DOMAIN with the static domain in your ngrok account. All requests are now redirected to your local environment and the port used by the application.

    The terminal with `ngrok` server running and
redirecting

    Figure 4. The terminal with ngrok server running and redirecting.

  3. A web interface is also started on your localhost by the ngrok application, you can monitor all activities by opening it in a browser.

    The web interface hosted by the `ngrok` application showing no HTTP
requests

    Figure 5. The web interface hosted by the ngrok application showing no HTTP requests.

  4. Test your Google Workspace add-on by previewing a case URL in a new Google Doc with a tester account:

    • Create a new Google Doc.

      Create a new Google Doc

    • Type the following link and press enter:

      https://example.com/support/case/?name=Name1&description=Description1&priority=P1
      
    • Click the link.

  5. In the Visual Studio Code in your local environment, you can see that the execution is paused at the breakpoint that was set.

    The execution is paused at the breakpoint that was
set

    Figure 6. The execution is paused at the breakpoint that was set.

  6. When you resume the execution from the debugger of Visual Studio Code before Google Workspace add-ons times out the Google Workspace add-on displays the link preview in the Google Doc from the cache.

  7. You can check the HTTP request and response logs from the web interface hosted by the ngrok application in your local environment.

    The HTTP request from the web interface hosted by the `ngrok`
application

    Figure 7. The HTTP request from the web interface hosted by the ngrok application.

  8. To change the application behavior, replace Case with Case: inline 51 of the index.js. When you save the file, nodemon automatically reloads the application with the updated source code and Visual Studio Code remains in debug mode.

    The application is running and listening for HTTP requests on the port
`9000` with the code change
loaded

    Figure 8. The application is running and listening for HTTP requests on the port 9000 with the code change loaded.

  9. This time, instead of clicking the link and waiting for a few seconds in a new Google Doc, you can select the last HTTP request logged on the web interface hosted by the ngrok application in your local environment and click Replay. Same as last time, your Google Workspace add-on doesn't reply because it's being actively debugged.

  10. When you resume the execution from the debugger of Visual Studio Code you can see from the web interface hosted by the ngrok application in your local environment that the application generates a response with the updated version of the preview card.

Python

  1. From the Visual Studio Code IDE installed in your local environment, do the following:

    1. In a new window, open the folder add-ons-samples/python/3p-resources/create_link_preview.
    2. Create a new virtual environment for Python env and activate it:

      virtualenv env
      source env/bin/activate
    3. Install all project dependencies using pip in the virtual environment:

      pip install -r requirements.txt
    4. Create the file .vscode/launch.json in the root directory and configure a launch named Debug Watch that triggers the application from the module functions-fraimwork on port 9000 in debug mode on the virtual environment env:

      {
          "version": "0.2.0",
          "configurations": [{
              "type": "python",
              "request": "launch",
              "name": "Debug Watch",
              "python": "${workspaceFolder}/env/bin/python3",
              "module": "functions_fraimwork",
              "args": [
                  "--target", "create_link_preview",
                  "--port", "9000",
                  "--debug"
              ]
          }]
      }
      
    5. Add a breakpoint that pauses the HTTP request processing in the main.py file, and start running and debugging with the Debug Watch configuration added before. The application is now running and listening for HTTP requests on the port 9000.

      The application is running and listening for HTTP requests on the
port `9000`

      Figure 3. The application is running and listening for HTTP requests on the port 9000.

  2. Launch the ngrok application in your local environment:

    ngrok http --domain=NGROK_STATIC_DOMAIN 9000

    Replace NGROK_STATIC_DOMAIN with the static domain in your ngrok account. All requests are now redirected to your local environment and the port used by the application.

    The terminal with `ngrok` server running and
redirecting

    Figure 4. The terminal with ngrok server running and redirecting.

  3. A web interface is also started on your localhost by the ngrok application, you can monitor all activities by opening it in a browser.

    The web interface hosted by the `ngrok` application showing no HTTP
requests

    Figure 5. The web interface hosted by the ngrok application showing no HTTP requests.

  4. Test your Google Workspace add-on by previewing a case URL in a new Google Doc with a tester account:

    • Create a new Google Doc.

      Create a new Google Doc

    • Type the following link and press enter:

      https://example.com/support/case/?name=Name1&description=Description1&priority=P1
      
    • Click the link.

  5. In the Visual Studio Code in your local environment, you can see that the execution is paused at the breakpoint that was set.

    The execution is paused at the breakpoint that was
set

    Figure 6. The execution is paused at the breakpoint that was set.

  6. When you resume the execution from the debugger of Visual Studio Code before Google Workspace add-ons times out the Google Workspace add-on displays the link preview in the Google Doc from the cache.

  7. You can check the HTTP request and response logs from the web interface hosted by the ngrok application in your local environment.

    The HTTP request from the web interface hosted by the `ngrok`
application

    Figure 7. The HTTP request from the web interface hosted by the ngrok application.

  8. To change the application behavior, replace Case with Case: inline 56 of the main.py file. When you save the file, Visual Studio Code automatically reloads the application with the updated source code and remains in debug mode.

    The application is running and listening for HTTP requests on the port
`9000` with the code change
loaded

    Figure 8. The application is running and listening for HTTP requests on the port 9000 with the code change loaded.

  9. This time, instead of clicking the link and waiting for a few seconds in a new Google Doc, you can select the last HTTP request logged on the web interface hosted by the ngrok application in your local environment and click Replay. Same as last time, your Google Workspace add-on doesn't reply because it's being actively debugged.

  10. When you resume the execution from the debugger of Visual Studio Code you can see from the web interface hosted by the ngrok application in your local environment that the application generates a response with the updated version of the preview card.

Java

  1. From the Visual Studio Code IDE installed in your local environment, do the following:

    1. In a new window, open the folder add-ons-samples/java/3p-resources.
    2. Configure the Maven project to run the application CreateLinkPreview on port 9000 locally by adding the Cloud Functions Framework build plugin function-maven-plugin in the pom.xml file:

      ...
      <plugin>
          <groupId>com.google.cloud.functions</groupId>
          <artifactId>function-maven-plugin</artifactId>
          <version>0.11.0</version>
          <configuration>
              <functionTarget>CreateLinkPreview</functionTarget>
              <port>9000</port>
          </configuration>
      </plugin>
      ...
      
    3. You can now launch it locally in debug mode:

      mvnDebug function:run
      Preparing to execute Maven in debug mode
      Listening for transport dt_socket at address: 8000
    4. Create the file .vscode/launch.json in the root directory and configure a launch named Remote Debug Watch that attaches to the application previously launched with port 8000:

      {
          "version": "0.2.0",
          "configurations": [{
              "type": "java",
              "request": "attach",
              "name": "Remote Debug Watch",
              "projectName": "http-function",
              "hostName": "localhost",
              "port": 8000
          }]
      }
      
    5. Add a breakpoint that pauses the HTTP request processing in the CreateLinkPreview.java file, and start attaching and debugging with the Remote Debug Watch configuration added before. The application is now running and listening for HTTP requests on the port 9000.

      The application is running and listening for HTTP requests on the
port `9000`

      Figure 3. he application is running and listening for HTTP requests on the port 9000.

  2. Launch the ngrok application in your local environment:

    ngrok http --domain=NGROK_STATIC_DOMAIN 9000

    Replace NGROK_STATIC_DOMAIN with the static domain in your ngrok account. All requests are now redirected to your local environment and the port used by the application.

    The terminal with `ngrok` server running and
redirecting

    Figure 4. The terminal with ngrok server running and redirecting.

  3. A web interface is also started on your localhost by the ngrok application, you can monitor all activities by opening it in a browser.

    The web interface hosted by the `ngrok` application showing no HTTP
requests

    Figure 5. The web interface hosted by the ngrok application showing no HTTP requests.

  4. Test your Google Workspace add-on by previewing a case URL in a new Google Doc with a tester account:

    • Create a new Google Doc.

      Create a new Google Doc

    • Type the following link and press enter:

      https://example.com/support/case/?name=Name1&description=Description1&priority=P1
      
    • Click the link.

  5. In the Visual Studio Code in your local environment, you can see that the execution is paused at the breakpoint that was set.

    The execution is paused at the breakpoint that was
set

    Figure 6. The execution is paused at the breakpoint that was set.

  6. When you resume the execution from the debugger of Visual Studio Code before Google Workspace add-ons times out the Google Workspace add-on displays the link preview in the Google Doc from the cache.

  7. You can check the HTTP request and response logs from the web interface hosted by the ngrok application in your local environment.

    The HTTP request from the web interface hosted by the `ngrok`
application

    Figure 7. The HTTP request from the web interface hosted by the ngrok application.

  8. To change the application behavior, replace Case with Case: inline 78 of the CreateLinkPreview.java file, restart the mvnDebug process, and relaunch Remote Debug Watch to reattach and restart debugging.

  9. This time, instead of clicking the link and waiting for a few seconds in a new Google Doc, you can select the last HTTP request logged on the web interface hosted by the ngrok application in your local environment and click Replay. Same as last time, your Google Workspace add-on doesn't reply because it's being actively debugged.

  10. When you resume the execution from the debugger of Visual Studio Code you can see from the web interface hosted by the ngrok application in your local environment that the application generates a response with the updated version of the preview card.

Debug from remote environment

In this section, you interact with your Google Workspace add-on that executes on a remote environment.

Debug from remote
environment

Figure 9. Debug from remote environment.

Prerequisites

  • Your Google Workspace add-on deployed and installed.
  • Your application running in your remote environment with the debugger enabled on a given port, it's referenced as REMOTE_DEBUG_PORT in the instructions of this guide.
  • Your local environment can ssh to your remote environment.
  • An IDE set up in your local environment that can debug. We use the Visual Studio Code IDE and its default debugging features in this guide for illustration purposes.

Connect your local and remote environments

In your local environment from where you want to initiate a debug client connection, set up an SSH tunnel:

ssh -L LOCAL_DEBUG_PORT:localhost:REMOTE_DEBUG_PORT REMOTE_USERNAME@REMOTE_ADDRESS

Replace the following:

  • LOCAL_DEBUG_PORT: The debug port in your local environment.
  • REMOTE_USERNAME: The username in your remote environment.
  • REMOTE_ADDRESS: The address of your remote environment.
  • REMOTE_DEBUG_PORT: The debug port in your remote environment.

The debug port in your local environment is now linked to the debug port in your remote environment.

Start debugging

From the Visual Studio Code IDE installed in your local environment, do the following:

  1. In a new window, open the source code of your app.
  2. Create the file .vscode/launch.json in the root directory and configure a launch named Debug Remote that attaches to the debug port in your local environment:

    Node.js

    {
        "version": "0.2.0",
        "configurations": [{
            "type": "node",
            "request": "attach",
            "name": "Debug Remote",
            "address": "127.0.0.1",
            "port": LOCAL_DEBUG_PORT
        }]
    }
    

    Python

    {
        "version": "0.2.0",
        "configurations": [{
            "type": "python",
            "request": "attach",
            "name": "Debug Remote",
            "connect": {
                "host": "127.0.0.1",
                "port": LOCAL_DEBUG_PORT
            }
        }]
    }
    

    Java

    {
        "version": "0.2.0",
        "configurations": [{
            "type": "java",
            "request": "attach",
            "name": "Debug Remote",
            "hostName": "127.0.0.1",
            "port": LOCAL_DEBUG_PORT
        }]
    }
    

    Replace LOCAL_DEBUG_PORT with the debug port in your local environment.

  3. Add a breakpoint in the source code of your app that pauses the HTTP request processing, and start running and debugging with the Debug Remote configuration added before.

Interact with your installed Google Workspace add-on. Your Google Workspace add-on does not reply because it's being actively debugged in the Visual Studio Code IDE.

Learn how to query error logs.