Saturday, 8 August 2020

New bbsfdx Plug-In Cleanup Commands

New bbsfdx Plug-In Cleanup Commands


bbsfdx is my Salesforce CLI utilities plug-in. It receives infrequent updates, typically when I find myself doing the same thing repeatedly via workbench or the like. It doesn't have many functions as I try to keep it to utilities - anything new goes into it's own dedicated plug-in (e.g mentz, bbdoc, bbpdf). This week I found the need to add a couple of functions and published V1.3 of the plug-in.

New Commands


When the developer console won't load, up until now I've googled for the help article and followed the instructions to remove the IDEWorkspace record for my user via the workbench. 

This happened a couple of times in the last week, so I decided I needed a quicker way. 


Since the Summer 19 release, we can store up to 1,000Mb of debug logs, so I don't often fill up the storage. That said, some of the areas I work in generate logs close to the 20Mb per log limit, and it doesn't take too many of those to start causing a problem. 

Up until now I'd query and delete via the developer console, but a CLI command is a little more efficient. This command also takes a -a flag to delete all logs in the org, rather than just those for my user.


Regardless of which plug-in you need to upgrade, you run the same command:

sfdx plugins:update

this checks for newer versions of all of your installed plug-ins and, if it finds any, installs them.

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Saturday, 1 August 2020

Visual Studio Codespaces - the tech behind Code Builder

Visual Studio Codespaces - the tech behind Code Builder

Salesforce launched Code Builder in June 2020, just before the 2020 TrailheaDX virtual conference, and it's fair to say there was some excitement around this. Those expecting a Developer Console Mk 2 must have been delighted to see a full-featured IDE that can run in the browser.  Even better, we confirmed with the product team that as the IDE is effectively running in a virtual machine, any required extensions and Salesforce CLI plug-ins can be installed, so you can recreate your local environment with all your favourite features.

I was certainly excited about this and reached out in a number of directions to try to get on the pilot, all of which sadly failed - I needed to be nominated by an Account Executive, and experience has taught me that at our number of licenses our AE typically doesn't even know that pilots are available, much less how to nominate me for one.

Undaunted, I took a different approach and started looking at the technology that powers Code Builder - Visual Studio Codespaces.  

Visual Studio Codespaces

Formerly known as Visual Studio Online, the description from official Microsoft site sums it up very well:

Cloud-hosted dev environments accessible from anywhere

There's some signup and setup required to start using Codespaces, as detailed below.

Sign up for Azure

A Microsoft account and Azure subscription are needed, as Azure hosts the virtual environments (machines). I chose the free subscription, which gives me 12 months free Linux virtual machine access. Compute hours are limited, but in all likelihood I'll use this rarely and then assuming it doesn't require me to spend a bunch of money, little or never once Code Builder is available.

VS Code Extensions

I then had to install a couple of extensions :
  • Azure Account, which gives VS Code access to my Azure subscription that I've just created. Signing in to this took ages, and was eventually tracked down to some kind of conflict with my Skype account that I was logged in to at the same time. The Skype account is linked to my Microsoft account in the same was as Azure is, but VS Code wasn't having it. In the end I logged out of Skype and I was able to login to Azure. Since then I've been able to login to Skype and Azure in any order, so it may have been a glitch with one of the connections at that point in time. If in doubt, sign out of everything!]
  • Visual Studio Codespaces, this allows VS Code to manage and connect to remote dev environments - you don't have to use the browser as a front-end with Codespaces and I can't see any reason you wouldn't be able to do this with Code Builder also, but time will tell.  
You also have to sign in to Codespaces, which you can do via the button on the left of VS Code:

Once you've signed in, choosing to create a new Codespace will take you through a process of creating a new plan - the key questions are the Azure region - make sure to choose one close to you, and the default instance type - I went for Linux.

Putting it Together

Once the accounts and extensions are in place, VS Code gains a new icon at the bottom left:

Clicking this opens the Codespaces menu: 

Choosing 'Create New Codespace' generates a new remote environment, after capturing some information from me. First, what type of environment I want - I've only used the Default settings and had no problems to date.

I then have a choice of creating an empty Codespace, or populating it with the contents of a repository - I'm using my Curated repo (currently private, but the contents of the repo aren't really important for this post - if you are curious what it is, it's my toolbox):

Then an easy question to answer - the Codespace name.

Once all the questions are answered, the extension gets to work on a new Codespace:

As well as the progress bar, a new panel opens on the right of VS Code to show the steps being completed (assuming all goes well - I've had one or two failures, but most of the time it's a breeze);

Once the setup is complete, clicking the Connect button opens the remote workspace through my local VS Code installation, which looks pretty much the same as a local workspace, bar a larger green element on the bottom left of the window:

and the fact that any changes I make here are not reflected in my local workspace unless I round trip them to the version control system. 

This is all well and good, and if I don't have a particularly powerful machine it's a nice way to be able to work on multiple projects at the same time and push a lot of the computing requirement to the cloud. The more interesting environment, however, is the browser.

Codespaces in the Browser

To access my Codespace from a browser, I have to login to the Visual Studio Codespaces web site at :, using my Microsoft account that I attached my Azure subscription to. As an aside, I only seem to be able to login via a regular Chrome window, not an incognito one. I've no idea whether that is intentional, but it's been consistently the case since I started playing with Codespaces.

Once I've logged in I can see all of my current Codespaces, and I have the option to create more directly from the web site:

Clicking on my new CuratedBlog Codespace opens the IDE in the browser:

And as this is a virtual machine, the terminal works in the browser too!

That's all there is to it?

Not quite - while this gives me a Visual Studio Codespace primed with my Salesforce application metadata and running in the cloud, it doesn't know much about Salesforce, so I have to do a little more setup - note you can configure your Codespace environment via a devcontainer.json file in your project directory, so you wouldn't have to do this every time if you were spinning up multiple codespaces. I haven't looked at this in detail.

Once this is done, you now have the tools to interact with Salesforce orgs, but you still need to authenticate against them. This is the slightly long-winded part as, while it is technically possible to run a browser in a docker container, it doesn't look straightforward, so you'll likely end up using the JWT flow. This isn't particularly difficult, as long as you are familiar with the command line and open SSH commands, but it is a little long-winded as anyone who has set up a CI machine will testify, with the connected apps, keys and certs that you have to set up.

A similar problem presents itself once you have authenticated against your dev hub and created a scratch org - clicking the icon to open the org can't open a browser, so doesn't really do anything. The upside here is that it will typically tell you the URL that it is attempting to open which includes a session id, so you can copy/paste that into your local browser to access the scratch org, even though you haven't got any oauth for this org set up. The URL will appear in the Output tab:

This is where I expect Salesforce to add the Code Builder value - generating a Codespace that has the extensions and CLI pre-configured and already authorised against the org, as well as some other items that I haven't stumbled across yet.

Wrapping Up

While Codespaces require a bit of effort, until Code Builder is more widely available they are a really good way to be able to develop from any device that has a supported browser and internet connection.  In fact I was able to use Chrome on my iPhone XS to push changes to a scratch org. The UI was terrible so I wouldn't recommend it, but as an intellectual exercise it was fun.

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Sunday, 5 July 2020

Passing the Salesforce JavaScript Developer 1 Certification

This week (2nd July 2020) I passed the new (at the time of writing) JavaScript Developer 1 Salesforce certification. This was somewhat different to other certs and will definitely get you out of your comfort zone - if you are a JavaScript dev, the you'll have your work cut out with the Superbadge, while if you are a Salesforce dev, the exam will make you realise how much there is to JavaScript!


Like Platform Developer 2, this certification requires the completion of an exam and Trailhead badges. I took the beta exam - 150 questions over 3 hours and you don't get the section breakdown, just a pass or fail. An added challenge was I took my exam a few days before the UK went into complete lockdown, so I wasn't exactly at my most relaxed travelling to the testing centre. Luckily when I arrived at Stratford, instead of the usual huge crowds of commuters and shoppers at 9am, I pretty much had the place to myself!

The other downside to a beta is that nothing is known about the cert in advance - in this case I didn't know the exam would be pure JavaScript and not cover any Salesforce features. Once I received my beta results it was clear why this was the case - a new Lightning Web Components Specialist superbadge was now part of the certification requirements - a lovely surprise!


Like a number of certs that I've taken in the past, a lot of the preparation had actually taken place in the previous months and years in my regular work and side projects.  Aura Components, Lightning Web Components, Salesforce CLI plug-ins, node scripts to orchestrate operations and Electron apps all had an element of JavaScript and some, like Electron, were nothing but. So for me it wasn't so much learning JavaScript,  but more about brushing up on the areas that I hadn't used for a while and making sure I was up on the latest best practice.

Useful sites for preparation:

The most useful preparation was doing - building command line tools in node or GUI applications in Electron (node again) proved invaluable. I learned about modules to reuse code, asynchronous techniques to interact with the filesystem and other system commands, and context (aka this) because it is fundamental to the language and without understanding how it works you are in a world of pain!

My advice would be to read a book / take a course on Electron - it's a really enjoyable framework to develop against which makes it easy to stay focused.

Focus Areas

Looking back over my study notes, these are the areas that I focused on for the exam - as I took the beta exam and it was several months ago, your mileage may vary if you just cover these!

  • Variable naming rules and differences in strict mode
  • Data types - primitives, composites and specials
  • Operators and the effect of null/undefined/NaN
  • Scope, execution context, and the principal of least access - this is incredibly important in JavaScript, so spend time on it!
  • Context (and the fact that execution context is different!)
  • Explicit and implicit type conversion and what happens when the conversion fails
  • Strings - worth spending some time on this as there are a number of methods that do similar things (and sometimes have similar names!) with subtle differences
  • Functions - another area to spend time on - functions are first class citizens in JavaScript so can be used in different ways to a language like Apex. Make sure you understand higher order functions, function expressions and don't forget ES6 arrow functions!
  • Objects, arrays, maps and how to iterate/enumerate properties and values
  • DOM - worth spending a lot of time on this as it will stand you in good stead when writing LWC
  • Modules - import and export, importing individual items or as an object, re-exporting from submodules and dynamic module loading
  • Events - again, worth spending time on as you'll need this when developing JavaScript
  • Error handling
  • Asynchronous techniques - callbacks, Promises and async/await. Read up on Promises as they have more methods than .then() and .catch()!
  • Debugging
  • Testing JavaScript - I've done a lot of work with Jasmine and Mocha in the past, so my study here was around the limitations of testing in JavaScript and the boundaries between stubs/spies/mocks.
  • Decorators, iterators, generators - I found generators the hardest to wrap my head around.
  • Changing default context with apply/call/bind
  • Double bang (!!) - something I hadn't come across before
  • Array methods - map/reduce/filter/some/every/find
  • Transpilers
  • How a newline doesn't always equal a semi-colon
  • Switch statements and equality
Other Tips

The usual tips for certs apply here - don't panic if you don't know the right answer - see if you can eliminate some wrong answers to narrow things down, and make sure to mark any that you are unsure about so you can check back later. You won't know everything, so don't get despondent if you get a few wrong in a row.

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Wednesday, 10 June 2020

Generating PDFs with a Salesforce CLI Plug-In


Yeah, I know, another week another plug-in. Unfortunately this is likely to continue for some time, as my  plug-ins are only really limited by my imagination. I think this one is pretty cool though and I hope, dear reader, you agree.

At Dreamforce 2019, Salesforce debuted Evergreen - a technology to allow Heroku microservices to be invoked from Apex (and other places) seamlessly. One of the Evergreen use cases is creating a PDF from Salesforce data, and one of the strap lines around this is that with Evergreen you have access to the entire Node package ecosystem. Every time I heard this I'd think that's true, but CLI plug-ins have the same access, as they are built on node, and like Evergreen there is no additional authentication required.

Essentially this is the opposite of Evergreen - rather than invoking something that lives on another server that returns a PDF file, I invoke a local command that writes a file to the local file system. I toyed with the idea of calling this plug-in Deciduous, but decided that was but of a lengthy name to type, and I'd have to explain it a lot! (and yes I know that Evergreen is a lot more than creating a PDF, but I liked the image so decided to go with it).

The plug-in is available on NPM - you can install it by executing : sfdx plugins:install bbpdf

EJS Templates

There are a couple of ways to create PDFs with node - using something like PDFKit to add the individual elements to the document, or my preferred route - generating the document from an HTML page. And if I'm generating HTML from Salesforce data or metadata, I'm going to be using EJS templates.

I'm not going to go into too much detail in this post about the creation of the HTML via EJS, but if you want more information check out my blog post on how I used it in my bbdoc plug-in to create HTML documents from Salesforce metadata.  

My plug-in requires two flags to specify the template. The name of the template itself, specified via the --template/-t flag, and the templates directory, specified via the --template-dir/-d flag. The reason I need the directory is that any css or images required by the template will be specified relative to the template's location. You can see this working by cloning the samples repo and trying it out.

Salesforce Data

My plug-in provides two mechanisms to retrieve data from Salesforce.

Query Parameter

This is for the simple use case where the template requires a single record. The query to retrieve the record is supplied via the --query/-q flag.

Querying Salesforce data from a plug-in is quite straightforward, I specify that I need a username which guarantees me access to an org:

protected static requiresUsername = true;

then I create a connection:

const conn =;

and finally I run the query, based on the supplied parameter,  and check the results:

const result = await conn.query<object>(this.flags.query);

if (!result.records || result.records.length <= 0) {

Once I have the record I need to pass in the Salesforce data in an object to the template, with the property name expected by the template, and this is provided by the user through the --sobject/-s flag.

This is a bit clunky though, so here's the preferred route.

Query File

A query file is specified via the --query-file/-f flag.  This is a JSON format file containing an object with a property per query:

    "contact": {
        "single": true,
        "query": "select Title, FirstName, LastName from Contact where id='00380000023TUDeAAO'"
    "account": {
        "single": true,
        "query": "select id, Name from Account where id='0018000000eqTV7AAM'"

The property name is the name that will be supplied to the EJS template - in this example there will be two properties passed to the template - contact and account.  The single property specifies whether the query will result in a single record or an array, and the query property specifies the actual SOQL query that will be executed. Using this mechanism, any number of records or arrays of records can be passed through to the template.

Generating the PDF

In a recurring theme in this post, there are a couple of ways to generate the PDF from the HTML. The simplest in terms of setup and code is to use the html-pdf package, which is a wrapper around PhantomJS. While simple, this is sub-optimal - the package hasn't been updated for a while, development on Phantom is suspended and when I added this to my plug-in, npm reported a critical vulnerability, so clearly another way would be required.

The favoured mechanism on the interwebs was to use Puppeteer (headless chromium node api), so I set about this. After some hoop jumping around creating temporary directories and copying the templates and associated files around, it wasn't actually too bad. I loaded the HTML from the file that I'd created and then asked for a PDF version of it:

const page = await browser.newPage();

await page.goto('file:///' + htmlFile, {waitUntil: 'networkidle0'});
const pdf = await page.pdf({ format: 'A4' });

One area I did go off-piste slightly was not using chromium bundled with puppeteer, instead I rely on the user defining an environment variable for their local installation of chrome and I use that. Mainly because I didn't want my plug-in to have to download 2-300 Mb before it could be used. This may cause problems down the line, so caveat emptor.

The environment variable in question is PUPPETEER_EXECUTABLE_PATH. Here are the definitions from my Macbook Pro running MacOS Catalina:

export PUPPETEER_EXECUTABLE_PATH="/Applications/Google Chrome"

and my Surface Pro running Windows 10:

setx PUPPETEER_EXECUTABLE_PATH "C:\Program Files (x86)\Google\Chrome\Application\chrome.exe"

The PDF is then written to the location specified by the --output/-o flag.

The next hoop to jump through came up when I installed the plug-in - Puppeteer is currently at 3.3.0 which requires Node 10.18.1 but the Salesforce CLI node version is 10.15.3. Luckily I was able to switch to Puppeteer version 2.1.1 without introducing any further issues.

Samples Repo

There's a lot of information in this post and a number of flags to wrap your head around - if you'd like to jump straight in with working examples, check out the samples repo. This has a couple of example commands to try out - just make sure you've set your chrome location correctly - and the PDFs that were generated when I ran the plug-in against my dev orgs.

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Saturday, 30 May 2020

Documentor Plugin - Triggers (and Bootstrap)


In previous posts about documenting my org with a Salesforce CLI plugin the focus has been on extracting and processing the object metadata. Now that area has been well and truly covered, it's time to move on. The next target in my sights is triggers - not for any particular reason, just that the real projects that I use this on have triggers that I want to show in my docs!

Trigger Metadata

Trigger metadata is split across two files - the .trigger file, which contains the actual Apex trigger code, and the .trigger-meta.xml file, which contains the supporting information - whether it is active, it's API version. The .trigger file itself contains the object that it is acting on and the action(s) that will cause it to fire:

trigger Book_ai on Book__c (before insert) {

Luckily the syntax is rigid - the object comes after the on keyword and the actions appear in brackets after that, so just using standard JavaScript string methods I can locate the boundaries and pull out the information that I want, but not just to display it.

Checking for Duplicates

As we all know, when there is more than one trigger for an object and action, the order they will fire in is not guaranteed. If you are a gambling aficionado then you may find this enjoyable, but most of us prefer a dull, predictable life when it comes to our business automation.

Once I've processed the trigger bodies and extracted the object names and actions, one of the really nice side-effects is that I can easily figure out if there are any duplicates and I can call these out on the triggers page (I've updated the sample metadata to add duplicate triggers - they don't actually do anything so wouldn't really be an issue anyway!) :


Those that have been following this series of posts may notice that the styling looks a little better now than in earlier versions - this is because I've moved over to the Bootstrap library, pulled in via the CDN so I don't need to worry about including it in my plug-in. 

I've also updated the main page to use cards with badges to make it clear if there are any problems with the processed metadata :

Which I think we can all agree looks a lot better. You can see the latest version of the HTML generated from the sample metadata at

I've also moved some duplicated markup out to an EJS include, which is as easy as I hoped it would be. The markup goes into a file with a .ejs suffix like any other - here's the footer from my pages:

<div class="pt-3"></div>
<footer class="footer">
    <div class="container">
        <div class="row justify-content-between">
            <div class="col-6">
                <p class="text-left"><small class="text-muted">Generated <%=footer.generatedDate%></small>
            <div class="col-6">
                <p class="text-right"><small class="text-muted">Bob Buzzard's Org Documentor
And I can include this just by specifying the path:
<%- include ('../common/footer') %>
Note that I've put the footer in a common subdirectory that is a sibling of where the template is stored.
Note also that I've used the <%- tag which says to include the raw html output from the include. Finally, note that I don't pass anything to the footer - it has access to exactly the same properties as the page that includes it. 

As usual, I've tested the plug-in against the sample metadata repo on MacOS and Windows 10. You can find the latest version (3.3.1) on NPMJS at the link shown below.

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Saturday, 23 May 2020

Going GUI over the Salesforce CLI Part 3


In part 1 of this series I introduced my Salesforce CLI GUI with some basic commands.
In part 2 I covered some of the Electron specifics and added a couple of commands around listing and retrieving log files.
In this instalment I'll look at how a command is constructed - the configuration of the parameters and how these are specified by the user.

Command Configuration

As mentioned in part 1, the commands are configured via the app/shared/commands.js file. This defines the groupings and the commands that belong in those groupings, which are used to generate the tabs and tiles that allow the user to execute commands. For example, the debug commands added in the last update have the following configuration (detail reduced otherwise this post will be huge!) :

    name : 'debug',
    label: 'Debugging',
    commands : [
            name: 'listlogs',
            label: 'List Logs',
            icon: 'file',
              ///////// detail removed //////////
            name: 'getlog',
            label: 'Get Log File',
            icon: 'file',
              ///////// detail removed //////////       

which equates to a tab labelled Debugging and two command tiles - List Logs and Get Log File :

clicking on a command tile opens up a new window to allow the command to be defined, and here is where the rest of the configuration detail comes into play :

the screenshot above is from the List Logs command, which has the following configuration (in it's entirety) :

    name: 'listlogs',
    label: 'List Logs',
    icon: 'file',
    startMessage: 'Retrieving log file list',
    completeMessage: 'Log file list retrieved',
    command: 'sfdx',
    subcommand: 'force:apex:log:list',
    instructions: 'Choose the org that you wish to extract the log file details for and click the \'List\' button',
    executelabel: 'List',
    refreshConfig: false,
    refreshOrgs: false,
    json: true,
    type: 'brand',
    resultprocessor: 'loglist',
    polling: {
        supported: false
    overview : 'Lists all the available log files for a specific org.',
    params : [
            name : 'username',
            label: 'Username',
            type: 'org',
            default: false,
            variant: 'all',
            flag: '-u'

the attributes are used in the GUI as follows:

  • name - unique name for the command, used internally to generate ids and as a map key
  • label - the user friendly label displayed in the tile
  • icon - the SLDS icon displayed at the top left of the command page
  • startMessage - the message displayed in the log modal when the command starts
  • completeMessage - the message displayed in the log modal when the command successfully completes
  • command - the system command to be run to execute the command - all of the examples thus far use sfdx 
  • subcommand - the subcommand of the executable
  • instructions - the text displayed in the instructions panel below the header. This is specific to defining the command rather than providing help about the underlying sfdx command
  • executeLabel - the user friendly label on the button that executes the command
  • refreshConfig - should the cached configuration (default user, default dev hub user) be refreshed after running this command - this is set to true if the command changes configuration
  • refreshOrgs - should the cached organisations be updated after running this command - set to true if the command adds an org (create scratch org, login to org) or removes one (delete scratch org, logout of org)
  • json - does the command support JSON output
  • type - the type of styling to use on the command tile
  • resultProcessor - for commands that produce specific output that must be post-processed before displaying to the user, this defines the type of processor
  • polling - is there a mechanism for polling the status of the command while it is running
  • overview - text displayed in the overview panel of the help page for this command
  • params - the parameters supported by the command.


In this case there is only one parameter, but it's a really important one - the username that will define which org to retrieve the list of logs from. This was a really important feature for me - I tend to work in multiple orgs on a daily (hourly!) basis, so I didn't want to have to keep running commands to switch between them. This parameter allows me to choose from my cached list of orgs to connect to, and has the following attributes:

  • name - unique name for the parameter
  • label  - the label for the input field that will capture the choice
  • type - the type of the parameter - in this case the username for the org connection
  • variant - which variant of orgs should be shown :
    •  hub - dev hubs only
    • scratch - scratch orgs only
    • all - all orgs
  • default - should the default username or devhubusername be selected by default
  • flag - the flag that will be passed to the sfdx command with the selected value

Constructing the Parameter Input

As I work across a large number of orgs, and typically a number of personas within those orgs, the username input is implemented as a datalist - a dropdown that I can also type in to reduce the available options - here's what happens if I limit to my logins :

as the page is constructed, the parameter is converted to an input by generating the datalist entry and then adding the scratch/hub org options as required:

const datalist=document.createElement('datalist');'-list';

for (let org of orgs.nonScratchOrgs) {
    if ( (('hub'!=param.variant) || (org.isDevHub)) && ('scratch' != param.variant) ) {
        addOrgOption(datalist, org, false);

if ('hub' != param.variant) {
    for (let org of orgs.scratchOrgs) {
         addOrgOption(datalist, org, true);


The code that generates the option pulls the appropriate information from the cached org details to generate a label that will be useful:

let label;
if (org.alias) {
    label=org.alias + ' (' + org.username + ')';
else {

if (scratch) {
    label += ' [SCRATCH]';

and this feels like a reasonable place to end this post - in the next part I'll show how the command gets executed and the results processed.

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Friday, 15 May 2020

Documenting from the metadata source with a Salesforce CLI Plug-In - Part 5


In Part 1 of this series, I explained how to generate a plugin and clone the example command.
In Part 2 I covered finding and loading the package.json manifest and my custom configuration file.
In Part 3, I explained how to load and process source format metadata files.
In Part 4, I showed how to enrich fields by pulling in information stored outside of the field definition file.

In this week's exciting episode, I'll put it all together and generate the HTML output. This has been through several iterations :

  • When I first came up with the idea, I did what I usually do which is hardcode some very basic HTML in the source code, as at this point I'm rarely sure things are going to work.
  • Prior to my first presentation of the plug-in, I decided to move the HTML out to files that were easily changed, but still as fragments. This made showing the code easier, but meant I had to write a fair bit of boilerplate code, but was all I really had time for.
  • Once I'd done the first round of talks, I had the time to revisit and move over to a template framework, which was always going to be the correct solution. This was the major update to the plug-in I referred to in the last post.
Template Framework

I'd been using EJS in YASP (Yet Another Side Project) and liked how easy it was to integrate. EJS stands for Easy JavaScript templates, and it's well named. You embed plain old JavaScript into HTML markup and call a function passing the template and the data that needs to be processed by the JavaScript. If you've written Visualforce pages or email templates in the past, this pattern is very familiar (although you have to set up all of the data that you need prior to passing it to the generator function - it won't figure out what is needed based on what you've used like Visualforce will!).

A snippet from my HTML page that lists the groups of objects:

<% content.groups.forEach(function(group){ %>
        <td><%= group.title %></td>
        <td><a href="<%= %>">Click to View</a></td>
<% }); %>

and as long as I pass the function that generates the HTML an object with a property of content, that matches the expected structure, I'm golden.

To use EJS in my plug-in, I install the node module,  :

npm install --save ejs

(Note that I'm using the --save option, as otherwise this won't be identified as a dependency and thus won't be added to the plug-in. Exactly what happened when I created the initial version and installed it on my Windows machine!)

I add the following line to my Typescript file to import the function that renders the HTML from the template:

import { renderFile } from 'ejs';

and I can then call renderFile(template, data) to asynchronously generate the HTML.

Preparing the Data

As Salesforce CLI plug-ins are written in Typescript by default, it's straightforward to keep track of the structure of your objects as you can strongly type them. Continuing with the example of my groups, the data for these is stored in an object with the following structure:

interface ObjectsContent {
    counter: number;
    groups: Array<ObjectGroupContent>;
    footer?: object;

Rather than pass this directly, I store this as the content of a more generic object that includes some standard information, like the plug-in version and the date the pages were generated:
let data={
             content: content,
                 generatedDate : this.generatedDate,
                 version : this.config.version

Rendering the HTML

Once I have the data in the format I need, I execute the rendering function passing the template filename - note that as this is asynchronous I have to return a promise to my calling function:

return new Promise((resolve, reject) => {
    renderFile(templateFile, data, (err, html) => {
        if (err) {
        else {

and my calling function loops through the groups and gets the rendered HTML when the promise resolves, which it writes to the report directory:
this.generator.generateHTML(join('objects', 'objects.ejs'), this.content)
.then(html => {
    writeFileSync(this.indexFile, html);    

Moar Metadata

The latest version of the plugin generates HTML markup for an object's Validation Rules and Record types - the example repo of Salesforce metadata has been updated to include these and the newly generated HTML is available on Heroku at :

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