Tag: programming

Making an RSS feed of YOURLS shortlinks

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As you might know if you were paying close attention in Summer 2019, I run a “URL shortener” for my personal use. You may be familiar with public URL shorteners like TinyURL and Bit.ly: my personal URL shortener is basically the same thing, except that only I am able to make short-links with it. Compared to public ones, this means I’ve got a larger corpus of especially-short (e.g. 2/3 letter) codes available for my personal use. It also means that I’m not dependent on the goodwill of a free siloed service and I can add exactly the features I want to it.

Diagram showing the relationships of the DanQ.me ecosystem. Highlighted is the injection of links into the "S.2" link shortener and the export of these shortened links by RSS into FreshRSS.
Little wonder then that my link shortener sat so close to me on my ecosystem diagram the other year.

For the last nine years my link shortener has been S.2, a tool I threw together in Ruby. It stores URLs in a sequentially-numbered database table and then uses the Base62-encoding of the primary key as the “code” part of the short URL. Aside from the fact that when I create a short link it shows me a QR code to I can easily “push” a page to my phone, it doesn’t really have any “special” features. It replaced S.1, from which it primarily differed by putting the code at the end of the URL rather than as part of the domain name, e.g. s.danq.me/a0 rather than a0.s.danq.me: I made the switch because S.1 made HTTPS a real pain as well as only supporting Base36 (owing to the case-insensitivity of domain names).

But S.2’s gotten a little long in the tooth and as I’ve gotten busier/lazier, I’ve leant into using or adapting open source tools more-often than writing my own from scratch. So this week I switched my URL shortener from S.2 to YOURLS.

Screenshot of YOURLS interface showing Dan Q's list of shortened links. Six are shown of 1,939 total.
YOURLs isn’t the prettiest tool in the world, but then it doesn’t have to be: only I ever see the interface pictured above!

One of the things that attracted to me to YOURLS was that it had a ready-to-go Docker image. I’m not the biggest fan of Docker in general, but I do love the convenience of being able to deploy applications super-quickly to my household NAS. This makes installing and maintaining my personal URL shortener much easier than it used to be (and it was pretty easy before!).

Another thing I liked about YOURLS is that it, like S.2, uses Base62 encoding. This meant that migrating my links from S.2 into YOURLS could be done with a simple cross-database INSERT... SELECT statement:

INSERT INTO yourls.yourls_url(keyword, url, title, `timestamp`, clicks)
  SELECT shortcode, url, title, created_at, 0 FROM danq_short.links

But do you know what’s a bigger deal for my lifestack than my URL shortener? My RSS reader! I’ve written about it a lot, but I use RSS for just about everything and my feed reader is my first, last, and sometimes only point of contact with the Web! I’m so hooked-in to my RSS ecosystem that I’ll use my own middleware to add feeds to sites that don’t have them, or for which I’m not happy with the feed they provide, e.g. stripping sports out of BBC News, subscribing to webcomics that don’t provide such an option (sometimes accidentally hacking into sites on the way), and generating “complete” archives of series’ of posts so I can use my reader to track my progress.

One of S.1/S.2’s features was that it exposed an RSS feed at a secret URL for my reader to ingest. This was great, because it meant I could “push” something to my RSS reader to read or repost to my blog later. YOURLS doesn’t have such a feature, and I couldn’t find anything in the (extensive) list of plugins that would do it for me. I needed to write my own.

Partial list of Dan's RSS feed subscriptions, including Jeremy Keith, Jim Nielson, Natalie Lawhead, Bruce Schneier, Scott O'Hara, "Yahtzee", BBC News, and several podcasts, as well as (highlighted) "Dan's Short Links", which has 5 unread items.
In some ways, subscribing “to yourself” is a strange thing to do. In other ways… shut up, I’ll do what I like.

I could have written a YOURLS plugin. Or I could have written a stack of code in Ruby, PHP, Javascript or some other language to bridge these systems. But as I switched over my shortlink subdomain s.danq.me to its new home at danq.link, another idea came to me. I have direct database access to YOURLS (and the table schema is super simple) and the command-line MariaDB client can output XML… could I simply write an XML Transformation to convert database output directly into a valid RSS feed? Let’s give it a go!

I wrote a script like this and put it in my crontab:

mysql --xml yourls -e                                                                                                                     \
      "SELECT keyword, url, title, DATE_FORMAT(timestamp, '%a, %d %b %Y %T') AS pubdate FROM yourls_url ORDER BY timestamp DESC LIMIT 30" \
    | xsltproc template.xslt -                                                                                                            \
    | xmllint --format -                                                                                                                  \
    > output.rss.xml

The first part of that command connects to the yourls database, sets the output format to XML, and executes an SQL statement to extract the most-recent 30 shortlinks. The DATE_FORMAT function is used to mould the datetime into something approximating the RFC-822 standard for datetimes as required by RSS. The output produced looks something like this:

<?xml version="1.0"?>
<resultset statement="SELECT keyword, url, title, timestamp FROM yourls_url ORDER BY timestamp DESC LIMIT 30" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
  <row>
        <field name="keyword">VV</field>
        <field name="url">https://webdevbev.co.uk/blog/06-2021/perfect-is-the-enemy-of-good.html</field>
        <field name="title"> Perfect is the enemy of good || Web Dev Bev</field>
        <field name="timestamp">2021-09-26 17:38:32</field>
  </row>
  <row>
        <field name="keyword">VU</field>
        <field name="url">https://webdevlaw.uk/2021/01/30/why-generation-x-will-save-the-web/</field>
        <field name="title">Why Generation X will save the web  Hi, Im Heather Burns</field>
        <field name="timestamp">2021-09-26 17:38:26</field>
  </row>

  <!-- ... etc. ... -->
  
</resultset>

We don’t see this, though. It’s piped directly into the second part of the command, which  uses xsltproc to apply an XSLT to it. I was concerned that my XSLT experience would be super rusty as I haven’t actually written any since working for my former employer SmartData back in around 2005! Back then, my coworker Alex and I spent many hours doing XML backflips to implement a system that converted complex data outputs into PDF files via an XSL-FO intermediary.

I needn’t have worried, though. Firstly: it turns out I remember a lot more than I thought from that project a decade and a half ago! But secondly, this conversion from MySQL/MariaDB XML output to RSS turned out to be pretty painless. Here’s the template.xslt I ended up making:

<?xml version="1.0"?>
<xsl:stylesheet xmlns:xsl="http://www.w3.org/1999/XSL/Transform" version="1.0">
  <xsl:template match="resultset">
    <rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom">
      <channel>
        <title>Dan's Short Links</title>
        <description>Links shortened by Dan using danq.link</description>
        <link> [ MY RSS FEED URL ] </link>
        <atom:link href=" [ MY RSS FEED URL ] " rel="self" type="application/rss+xml" />
        <lastBuildDate><xsl:value-of select="row/field[@name='pubdate']" /> UTC</lastBuildDate>
        <pubDate><xsl:value-of select="row/field[@name='pubdate']" /> UTC</pubDate>
        <ttl>1800</ttl>
        <xsl:for-each select="row">
          <item>
            <title><xsl:value-of select="field[@name='title']" /></title>
            <link><xsl:value-of select="field[@name='url']" /></link>
            <guid>https://danq.link/<xsl:value-of select="field[@name='keyword']" /></guid>
            <pubDate><xsl:value-of select="field[@name='pubdate']" /> UTC</pubDate>
          </item>
        </xsl:for-each>
      </channel>
    </rss>
  </xsl:template>
</xsl:stylesheet>

That uses the first (i.e. most-recent) shortlink’s timestamp as the feed’s pubDate, which makes sense: unless you’re going back and modifying links there’s no more-recent changes than the creation date of the most-recent shortlink. Then it loops through the returned rows and creates an <item> for each; simple!

The final step in my command runs the output through xmllint to prettify it. That’s not strictly necessary, but it was useful while debugging and as the whole command takes milliseconds to run once every quarter hour or so I’m not concerned about the overhead. Using these native binaries (plus a little configuration), chained together with pipes, had already resulted in way faster performance (with less code) than if I’d implemented something using a scripting language, and the result is a reasonably elegant “scratch your own itch”-type solution to the only outstanding barrier that was keeping me on S.2.

All that remained for me to do was set up a symlink so that the resulting output.rss.xml was accessible, over the web, to my RSS reader. I hope that next time I’m tempted to write a script to solve a problem like this I’ll remember that sometimes a chain of piped *nix utilities can provide me a slicker, cleaner, and faster solution.

Update: Right as I finished writing this blog post I discovered that somebody had already solved this problem using PHP code added to YOURLS; it’s just not packaged as a plugin so I didn’t see it earlier! Whether or not I use this alternate approach or stick to what I’ve got, the process of implementing this YOURLS-database ➡ XML ➡  XSLTRSS chain was fun and informative.

Quickly Solving Jigidi Puzzles

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tl;dr? Just want instructions on how to solve Jigidi puzzles really fast with the help of your browser’s dev tools? Skip to that bit.

I don’t enjoy jigsaw puzzles

I enjoy geocaching. I don’t enjoy jigsaw puzzles. So mystery caches that require you to solve an online jigsaw puzzle in order to get the coordinates really don’t do it for me. When I’m geocaching I want to be outdoors exploring, not sitting at my computer gradually dragging pixels around!

A completed 1000-piece "Where's Wally?" jigsaw.
Don’t let anybody use my completion of this 1000-piece jigsaw puzzle over New Year as evidence that I’m lying and actually like jigsaws.

Many of these mystery caches use Jigidi to host these jigsaw puzzles. An earlier version of Jigidi was auto-solvable with a userscript, but the service has continued to be developed and evolve and the current version works quite hard to make it hard for simple scripts to solve. For example, it uses a WebSocket connection to telegraph back to the server how pieces are moved around and connected to one another and the server only releases the secret “you’ve solved it” message after it detects that the pieces have been arranged in the appropriate relative configuration.

A nine-piece jigsaw puzzle with the pieces numbered 1 through 9; only the ninth piece is detached.
I made a simple Jigidi puzzle for demonstration purposes. Do you think you can manage a nine-piece jigsaw?

If there’s one thing I enjoy more than jigsaw puzzles – and as previously established there are about a billion things I enjoy more than jigsaw puzzles – it’s reverse-engineering a computer system to exploit its weaknesses. So I took a dive into Jigidi’s client-side source code. Here’s what it does:

  1. Get from the server the completed image and the dimensions (number of pieces).
  2. Cut the image up into the appropriate number of pieces.
  3. Shuffle the pieces.
  4. Establish a WebSocket connection to keep the server up-to-date with the relative position of the pieces.
  5. Start the game: the player can drag-and-drop pieces and if two adjacent pieces can be connected they lock together. Both pieces have to be mostly-visible (not buried under other pieces), presumably to prevent players from just making a stack and then holding a piece against each edge of it to “fish” for its adjacent partners.
Javascirpt code where the truthiness of this.j affects whether or not the pieces are shuffled.
I spent some time tracing call stacks to find this line… only to discover that it’s one of only four lines to actually contain the word “shuffle” and I could have just searched for it…

Looking at that process, there’s an obvious weak point – the shuffling (point 3) happens client-side, and before the WebSocket sync begins. We could override the shuffling function to lay the pieces out in a grid, but we’d still have to click each of them in turn to trigger the connection. Or we could skip the shuffling entirely and just leave the pieces in their default positions.

An unshuffled stack of pieces from the nine-piece jigsaw. Piece number nine is on top of the stack.
An unshuffled jigsaw appears as a stack, as if each piece from left to right and then top to bottom were placed one at a time into a pile.

And what are the default positions? It’s a stack with the bottom-right jigsaw piece on the top, the piece to the left of it below it, then the piece to the left of that and son on through the first row… then the rightmost piece from the second-to-bottom row, then the piece to the left of that, and so on.

That’s… a pretty convenient order if you want to solve a jigsaw. All you have to do is drag the top piece to the right to join it to the piece below that. Then move those two to the right to join to the piece below them. And so on through the bottom row before moving back – like a typewriter’s carriage return – to collect the second-to-bottom row and so on.

How can I do this?

If you’d like to cheat at Jigidi jigsaws, this approach works as of the time of writing. I used Firefox, but the same basic approach should work with virtually any modern desktop web browser.

  1. Go to a Jigidi jigsaw in your web browser.
  2. Pop up your browser’s developer tools (F12, usually) and switch to the Debugger tab. Open the file game/js/release.js and uncompress it by pressing the {} button, if necessary.
  3. Find the line where the code considers shuffling; right now for me it’s like 3671 and looks like this:
    return this.j ? (V.info('board-data-bytes already exists, no need to send SHUFFLE'), Promise.resolve(this.j)) : new Promise(function (d, e) {

    Javascirpt code where the truthiness of this.j affects whether or not the pieces are shuffled.
    I spent some time tracing call stacks to find this line… only to discover that it’s one of only four lines to actually contain the word “shuffle” and I could have just searched for it…
  4. Set a breakpoint on that line by clicking its line number.
  5. Restart the puzzle by clicking the restart button to the right of the timer. The puzzle will reload but then stop with a “Paused on breakpoint” message. At this point the application is considering whether or not to shuffle the pieces, which normally depends on whether you’ve started the puzzle for the first time or you’re continuing a saved puzzle from where you left off.
    Paused on breakpoint dialog with play button.
  6. In the developer tools, switch to the Console tab.
  7. Type: this.j = true (this ensures that the ternary operation we set the breakpoint on will resolve to the true condition, i.e. not shuffle the pieces).
    this.j = true
  8. Press the play button to continue running the code from the breakpoint. You can now close the developer tools if you like.
  9. Solve the puzzle as described/shown above, by moving the top piece on the stack slightly to the right, repeatedly, and then down and left at the end of each full row.
    Jigsaw being solved by moving down-and-right.

Update 2021-09-22: Abraxas observes that Jigidi have changed their code, possibly in response to this shortcut. Unfortunately for them, while they continue to perform shuffling on the client-side they’ll always be vulnerable to this kind of simple exploit. Their new code seems to be named not release.js but given a version number; right now it’s 14.3.1977. You can still expand it in the same way, and find the shuffling code: right now for me this starts on line 1129:

Put a breakpoint on line 1129. This code gets called twice, so the first time the breakpoint gets hit just hit continue and play on until the second time. The second time it gets hit, move the breakpoint to line 1130 and press continue. Then use the console to enter the code d = a.G and continue. Only one piece of jigsaw will be shuffled; the rest will be arranged in a neat stack like before (I’m sure you can work out where the one piece goes when you get to it).

Higher/Lower Datepicker

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I’ve written before about the trend in web development to take what the web gives you for free, throw it away, and then rebuild it in Javascript. The rebuilt version is invariably worse in many ways – less-accessible, higher-bandwidth, reduced features, more fragile, etc. – but it’s more convenient for developers. Personally, I try not to value developer convenience at the expense of user experience, but that’s an unpopular opinion lately.

Screenshot showing a hovered hyperlink to "Digital Forest" on a list of green hosting providers in France.
Here’s a perfect example I bumped into earlier this week, courtesy of The Green Web Foundation. This looks like a hyperlink… but if you open it in a new tab/window, you see a page (not even a 404 page!) with the text “It looks like nothing was found at this location.”

In the site shown in the screenshot above, the developer took something the web gave them for free (a hyperlink), threw it away (by making it a link-to-nowhere), and rebuilt its functionality with Javascript (without thinking about the fact that you can do more with hyperlinks than click them: you can click-and-drag them, you can bookmark them, you can share them, you can open them in new tabs etc.). Ugh.

Date pickers

Particularly egregious are the date pickers. Entering your date of birth on a web form ought to be pretty simple: gov.uk pretty much solved it based on user testing they did in 2013.

Here’s the short of it:

  • Something you can clearly type a numeric day, month and year into is best.
  • Three dropdowns are slightly worse, but at least if you use native HTML <select> elements keyboard users can still “type” to filter.
  • Everything else – including things that look like <select>s but are really funky React <div>s, is pretty terrible.
Calendar datepicker with slider-based timepicker and no text-based fallback.
Calendars can be great for choosing your holiday date range. But pressing “Prev” ~480 times to get to my month of birth isn’t good. Also: what’s with the time “sliders”? (Yes, I know I’ve implemented these myself, in the past, and I’m sorry.)

My fellow Automattician Enfys recently tweeted:

People designing webforms that require me to enter my birthdate:

I am begging you: just let me type it in.

Typing it in is 6-8 quick keystrokes. Trying to navigate a little calendar or spinny wheels back to the 1970s is time-consuming, frustrating and unnecessary.

They’re right. Those little spinny wheels are a pain in the arse if you’ve got to use one to go back 40+ years.

Date "spinner" currently showing 20 December 2012.
These things are okay (I guess) on mobile/touchscreen devices, though I’d still prefer the option to type in my date of birth. But send one to my desktop and I will curse your name.

Can we do worse?

If there’s one thing we learned from making the worst volume control in the world, the other year, it’s that you can always find a worse UI metaphor. So here’s my attempt at making a date of birth field that’s somehow even worse than “date spinners”:

My datepicker implements a game of “higher/lower”. Starting from bounds specified in the HTML code and a random guess, it narrows-down its guess as to what your date of birth is as you click the up or down buttons. If you make a mistake you can start over with the restart button.

Amazingly, this isn’t actually the worst datepicker into which I’ve entered my date of birth! It’s cognitively challenging compared to most, but it’s relatively fast at narrowing down the options from any starting point. Plus, I accidentally implemented some good features that make it better than plenty of the datepickers out there:

  • It’s progressively enhanced – if the Javascript doesn’t load, you can still enter your date of birth in a sensible way.
  • Because it leans on a <input type="date"> control, your browser takes responsibility for localising, so if you’re from one of those weird countries that prefers mm-dd-yyyy then that’s what you should see.
  • It’s moderately accessible, all things considered, and it could easily be improved further.

It turns out that even when you try to make something terrible, so long as you’re building on top of the solid principles the web gives you for free, you can accidentally end up with something not-so-bad. Who knew?

Getting Twitter Avatars (without the Twitter API)

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Among Twitter’s growing list of faults over the years are various examples of its increasing divergence from open Web standards and developer-friendly endpoints. Do you remember when you used to be able to subscribe to somebody’s feed by RSS? When you could see who follows somebody without first logging in? When they were still committed to progressive enhancement and didn’t make your browser download ~5MB of Javascript or else not show any content whatsoever? Feels like a long time ago, now.

Lighthouse Performance score for Twitter's Twitter account page on mobile, scoring 50%.
For one of the most-popular 50 websites in the world, this score is frankly shameful.

But those complaints aside, the thing that bugged me most this week was how much harder they’ve made it to programatically get access to things that are publicly accessible via web pages. Like avatars, for example!

If you’re a human and you want to see the avatar image associated with a given username, you can go to twitter.com/that-username and – after you’ve waited a bit for all of the mandatory JavaScript to download and run (I hope you’re not on a metered connection!) – you’ll see a picture of the user, assuming they’ve uploaded one and not made their profile private. Easy.

If you’re a computer and you want to get the avatar image, it used to be just as easy; just go to twitter.com/api/users/profile_image/that-username and you’d get the image. This was great if you wanted to e.g. show a Facebook-style facepile of images of people who’d retweeted your content.

But then Twitter removed that endpoint and required that computers log in to Twitter, so a clever developer made a service that fetched avatars for you if you went to e.g. twivatar.glitch.com/that-username.

But then Twitter killed that, too. Because despite what they claimed 5½ years ago, Twitter still clearly hates developers.

Dan Q's Twitter profile header showing his avatar image.
You want to that image? Well you’ll need a Twitter account, a developer account, an OAuth token set, a stack of code…

Recently, I needed a one-off program to get the avatars associated with a few dozen Twitter usernames.

First, I tried the easy way: find a service that does the work for me. I’d used avatars.io before but it’s died, presumably because (as I soon discovered) Twitter had made things unnecessarily hard for them.

Second, I started looking at the Twitter API documentation but it took me in the region of 30-60 seconds before I said “fuck that noise” and decided that the set-up overhead in doing things the official way simply wasn’t justified for my simple use case.

So I decided to just screen-scrape around the problem. If a human can just go to the web page and see the image, a computer pretending to be a human can do exactly the same. Let’s do this:

/* Copyright (c) 2021 Dan Q; released under the MIT License. */

const Puppeteer = require('puppeteer');

getAvatar = async (twitterUsername) => {
  const browser = await Puppeteer.launch({args: ['--no-sandbox', '--disable-setuid-sandbox']});
  const page = await browser.newPage();
  await page.goto(`https://twitter.com/${twitterUsername}`);
  await page.waitForSelector('a[href$="/photo"] img[src]');
  const url = await page.evaluate(()=>document.querySelector('a[href$="/photo"] img').src);
  await browser.close();
  console.log(`${twitterUsername}: ${url}`);
};

process.argv.slice(2).forEach( twitterUsername => getAvatar( twitterUsername.toLowerCase() ) );
The code is ludicrously simple. It took less time, energy, and code to write this than to follow Twitter’s “approved” procedure. You can download the code via Gist.

Obviously, using this code would violate Twitter’s terms of use for automation, so… don’t, I guess?

Given that I only needed to run it once, on a finite list of accounts, I maintain that my approach was probably kinder on their servers than just manually going to every page and saving the avatar from it. But if you set up a service that uses this approach then you’ll certainly piss off somebody at Twitter and history shows that they’ll take their displeasure out on you without warning.

$ node get-twitter-avatar.js alexsdutton richove geohashing TailsteakAD LilFierce1 ninjanails
alexsdutton: https://pbs.twimg.com/profile_images/740505937039986688/F9gUV0eK_200x200.jpg
lilfierce1: https://pbs.twimg.com/profile_images/1189417235313561600/AZ2eLjAg_200x200.jpg
richove: https://pbs.twimg.com/profile_images/1576438972/2011_My_picture4_200x200.jpeg
geohashing: https://pbs.twimg.com/profile_images/877137707939581952/POzWWV2d_200x200.jpg
ninjanails: https://pbs.twimg.com/profile_images/1146364466801577985/TvCfb49a_200x200.jpg
tailsteakad: https://pbs.twimg.com/profile_images/1118738807019278337/y5WWkLbF_200x200.jpg
This output shows the avatar URLs of a half a dozen Twitter accounts. It took minutes to write the code and takes seconds to run, but if I’d have done it the “right” way I’d still be unnecessarily wading through Twitter’s sprawling documentation.

But it works. It was fast and easy and I got what I was looking for.

And the moral of the story is: if you make an API and it’s terrible, don’t be surprised if people screen-scape your service instead. (You can’t spell “scraping” without “API”, amirite?)

Ireland and the UK Aren’t In The Same Timezone!

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This weekend, while investigating a bug in some code that generates iCalendar (ICS) feeds, I learned about a weird quirk in the Republic of Ireland’s timezone. It’s such a strange thing (and has so little impact on everyday life) that I imagine that even most Irish people don’t even know about it, but it’s important enough that it can easily introduce bugs into the way that computer calendars communicate:

Most of Europe put their clocks forward in Summer, but the Republic of Ireland instead put their clocks backward in Winter.

If that sounds to you like the same thing said two different ways – or the set-up to a joke! – read on:

Map showing timezones of Europe. The UK and Ireland are grouped (along with Iceland) in a zone labelled as being UTC+0.
The timezones of Europe look pretty simple compared to some parts of the world, but the illustration of the British Isles hides an interesting eccentricity.

A Brief History of Time (in Ireland)

Poster titled "Time (Ireland) Act 1916", advising that "On and after Sunday 1st October 1916 Western European Time will be ovserved throughout Ireland" asking people to set their clocks and watches back 35 minutes.
Spring forward, fall back… just a little bit back, though. Not too much.

After high-speed (rail) travel made mean solar timekeeping problematic, Great Britain in 1880 standardised on Greenwich Mean Time (UTC+0) as the time throughout the island, and Ireland standardised on Dublin Mean Time (UTC-00:25:21). If you took a ferry from Liverpool to Dublin towards the end of the 19th century you’d have to put your watch back by about 25 minutes. With air travel not yet being a thing, countries didn’t yet feel the need to fixate on nice round offsets in the region of one-hour (today, only a handful of regions retain UTC-offsets of half or quarter hours).

That’s all fine in peacetime, but by the First World War and especially following the Easter Rising, the British government decided that it was getting too tricky for their telegraph operators (many of whom operated out of Ireland, which provided an important junction for transatlantic traffic) to be on a different time to London.

1885 GPO telegraph instrument from the Porthcurno Telegraph Museum, which Dan almost visited the other week but it was closed.
It’s widely believed that the world’s first “U UP? [STOP]” message never got a response as a direct result of Anglo-Irish timezone confusion.
So the Time (Ireland) Act 1916 was passed, putting Ireland on Greenwich Mean Time. Ireland put her clocks back by 35 minutes and synched-up with the rest of the British Isles. And from then on, everything was simple and because nothing ever went wrong in Ireland as a result of the way it was governed by by Britain, nobody ever had to think about the question of timezones on the island again.

Ah. Hmm.

December 1920 photograph showing St Patrick's Street, Cork, following the burning of the city by British forces.
“Those Irish people want to govern their own country, do they? After we so kindly shared our king with them? Right-ho: let’s set fire to their cities and see how they feel then.”

Following Irish independence, the keeping of time carried on in much the same way for a long while, which will doubtless have been convenient for families spread across the Northern Irish border. But then came the Second World War.

Summers in the 1940s saw Churchill introduce Double Summer Time which he believed would give the UK more daylight, saving energy that might otherwise be used for lighting and increasing production of war materiel.

Ireland considered using the emergency powers they’d put in place to do the same, as a fuel saving measure… but ultimately didn’t. This was possibly because aligning her time with Britain might be seen as undermining her neutrality, but was more likely because the government saw that such a measure wouldn’t actually have much impact on fuel use (it certainly didn’t in Britain). Whatever the reason, though, Britain and Northern Ireland were again out-of-sync with one another until the war ended.

Newspaper clipping advising that "Double Summer Time comes to an end on Saturday night, August 8-9, when all clocks and watches should be put back one hour, thus reverting to British Summer Time, which will probably be maintained throughout the winter."
I like to imagine that the development of powerful computers by the folks at Bletchley Park was a result of needing to keep track of timezones across the British Isles.

From 1968 to 1971 Britain experimented with “British Standard Time” – putting the clocks forward in Summer once, to UTC+1, and then leaving them there for three years. This worked pretty well except if you were Scottish in which case you’ll have found winter mornings to be even gloomier than you were used to, which was already pretty gloomy. Conveniently: during much of this period Ireland was also on UTC+1, but in their case it was part of a different experiment. Ireland were working on joining the European Economic Community, and aligning themselves with “Paris time” year-round was an unnecessary concession but an interesting idea.

But here’s where the quirk appears: the Standard Time Act 1968, which made UTC+1 the “standard” timezone for the Republic of Ireland, was not repealed and is still in effect. Ireland could have started over in 1971 with a new rule that made UTC+0 the standard and added a “Summer Time” alternative during which the clocks are put forward… but instead the Standard Time (Amendment) Act 1971 left UTC+1 as Ireland’s standard timezone and added a “Winter Time” alternative during which the clocks are put back.

Two clocks, both showing the same time. One has a sign reading "LONDON", the other "DUBLIN, I GUESS?"
It all seems so simple until you actually think about it.

(For a deeper look at the legal history of time in the UK and Ireland, see this timeline. Certainly don’t get all your history lessons from me.)

So what?

You might rightly be thinking: so what! Having a standard time of UTC+0 and going forward for the Summer (like the UK), is functionally-equivalent to having a standard time of UTC+1 and going backwards in the Winter, like Ireland, right? It’s certainly true that, at any given moment, a clock in London and a clock in Dublin should show the same time. So why would anybody care?

Perl Data::ICal::TimeZone implementation of Dublin timezone, incorrectly showing summer DST at +1 rather than winter DST of -1.
This code for Europe/Dublin, from the Perl module Data::ICal::TimeZone, is technically-incorrect because it states that the winter time is the standard and daylight savings of +1 hour apply in the summer, rather than the opposite.

But declaring which is “standard” is important when you’re dealing with computers. If, for example, you run a volunteer rota management system that supports a helpline charity that has branches in both the UK and Ireland, then it might really matter that the computer systems involved know what each other mean when they talk about specific times.

The author of an iCalendar file can choose to embed timezone information to explain what, in that file, a particular timezone means. That timezone information might say, for example, “When I say ‘Europe/Dublin’, I mean UTC+1, or UTC+0 in the winter.” Or it might say – like the code above! – “When I say ‘Europe/Dublin’, I mean UTC+0, or UTC+1 in the summer.” Both of these declarations would be technically-valid and could be made to work, although only the first one would be strictly correct in accordance with the law.

Stressed programmer hunched over a MacBook. Photo by Anna Shvets from Pexels.
Clients who need solid timezone support represent 50% of a programmer’s production of stress hormones. See also Falsehoods Programmers Believe About Time.

But if you don’t include timezone information in your iCalendar file, you’re relying  on the feed subscriber’s computer (e.g. their calendar software) to make a sensible interpretation.. And that’s where you run into trouble. Because in cases like Ireland, for which the standard is one thing but is commonly-understood to be something different, there’s a real risk that the way your system interprets and encodes time won’t necessarily be the same as the way somebody else’s does.

If I say I’ll meet you at 12:00 on 1 January, in Ireland, you rightly need to know whether I’m talking about 12:00 in Irish “standard” time (i.e. 11:00, because daylight savings are in effect) or 12:00 in local-time-at-the-time-of-the-meeting (i.e. 12:00). Humans usually mean the latter because we think in terms of local time, but when your international computer system needs to make sure that people are on a shift at the same time, but in different timezones, it needs to be very clear what exactly it means!

And when your daylight savings works “backwards” compared to everybody else’s… that’s sure to make a developer somewhere cry. And, possibly, blog about your weird legislation.

Big List of Naughty Strings

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# Reserved Strings
#
# Strings which may be used elsewhere in code
undefined
undef
null
NULL

then
constructor
\
\\

# Numeric Strings
#
# Strings which can be interpreted as numeric
0
1
1.00
$1.00
1/2
1E2

Max Woolf

Max has produced a list of “naughty strings”: things you might try injecting into your systems along with any fuzz testing you’re doing to check for common errors in escaping, processing, casting, interpreting, parsing, etc. The copy above is heavily truncated: the list is long!

It’s got a lot of the things in it that you’d expect to find: reserved keywords and filenames, unusual or invalid unicode codepoints, tests for the Scunthorpe Problem, and so on. But perhaps my favourite entry is this one, a test for “human injection”:

# Human injection
#
# Strings which may cause human to reinterpret worldview
If you're reading this, you've been in a coma for almost 20 years now. We're trying a new technique. We don't know where this message will end up in your dream, but we hope it works. Please wake up, we miss you.

Beautiful.

OpenAI-powered Linux shell uses AI to Do What You Mean

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It’s like Alexa/Siri/Cortana for your terminal!

This is a basic Python shell (really, it’s a fancy wrapper over the system shell) that takes a task and asks OpenAI for what Linux bash command to run based on your description. For safety reasons, you can look at the command and cancel before actually running it.

Of all the stupid uses of OpenAI’s GPT-3, this might be the most-amusing. It’s really interesting to see how close – sometimes spot-on – the algorithm comes to writing the right command when you “say what you mean”. Also, how terribly, terribly ill-advised it would be to actually use this for real.

The most important feature of Sublime Text

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The most important feature of Sublime Text is that it doesn’t change. In the modern world, everything changes at a crazy pace. We get new OSes and new phones every year, Google opens and closes its products monthly, many physical devices get announced, produced, and disappear in an interval shorter than the Sublime Text release cycle. I have two problems with that.

I love Sublime Text. It was the editor for which I finally broke my long, long emacs habit (another editor that “doesn’t change”). Like emacs, Sublime is simple but powerful. Unlike Atom, it doesn’t eat all the RAM in the universe. And unlike VS Code, I can rely on it being fundamentally the same today, tomorrow, and next year.

Break Into . Us (lock puzzle game)

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I’ve made a puzzle game about breaking open padlocks. If you just want to play the game, go play the game. Or read on for the how-and-why of its creation.

About three months ago, my friend Claire, in a WhatsApp group we both frequent, shared a brainteaser:

WhatsApp message from Claire, challenging people to solve her puzzle.
Was this way back at the beginning of April? Thank heavens for WhatsApp scrollback.

The puzzle was to be interpreted as follows: you have a three-digit combination lock with numbers 0-9; so 1,000 possible combinations in total. Bulls and Cows-style, a series of clues indicate how “close” each of several pre-established “guesses” are. In “bulls and cows” nomenclature, a “bull” is a correctly-guessed digit in the correct location and a “cow” is a correctly-guessed digit in the wrong location, so the puzzle’s clues are:

  • 682 – one bull
  • 614 – one cow
  • 206 – two cows
  • 738 – no bulls, no cows
  • 380 – one cow
"Can you open the lock using these clues?" puzzle
Feel free to stop scrolling at this point and solve it for yourself. Or carry on; there are no spoilers in this post.

By the time I’d solved her puzzle the conventional way I was already interested in the possibility of implementing a general-case computerised solver for this kind of puzzle, so I did. My solver uses a simple “brute force” technique, as follows:

  1. Put all possible combinations into a search space.
  2. For each clue, remove from the search space all invalid combinations.
  3. Whatever combination is left is the correct answer.
Animation showing how the first three clues alone are sufficient to derive a unique answer from the search space of Claire's puzzle.
The first three clues of Claire’s puzzle are sufficient alone to reduce the search space to a single answer, although a human is likely to need more.

Visualising the solver as a series of bisections of a search space got me thinking about something else: wouldn’t this be a perfectly reasonable way to programatically generate puzzles of this type, too? Something like this:

  1. Put all possible combinations into a search space.
  2. Randomly generate a clue such that the search space is bisected (within given parameters to ensure that neither too many nor too few clues are needed)
  3. Repeat until only one combination is left

Interestingly, this approach is almost the opposite of what a human would probably do. A human, tasked with creating a puzzle of this sort, would probably choose the answer first and then come up with clues that describe it. Instead, though, my solution would come up with clues, apply them, and then see what’s left-over at the end.

Sample output of the puzzle generator for an alphabet of 0-9 and a combination length of 3.
Sometimes it comes up with inelegant or unchallenging suggestions, but for the most part my generator produces adequate puzzles.

I expanded my generator to go beyond simple bulls-or-cows clues: it’s also capable of generating clues that make reference to the balance of odd and even digits (in a numeric lock), the number of different digits used in the combination, the sum of the digits of the combination, and whether or not the correct combination “ascends” or “descends”. I’ve ideas for other possible clue types too, which could be valuable to make even tougher combination locks: e.g. specifying how many numbers in the combination are adjacent to a consecutive number, specifying the types of number that the sum of the digits adds to (e.g. “the sum of the digits is a prime number”) and so on.

A single solution in a search space derived in multiple ways.
Like the original puzzle, puzzles produced by my generator might have redundancies. In the picture above, the black square can be defined by the light blue, dark blue, and green bisections only: the yellow bisection is rendered redundant by the light blue one. I’ve left this as a deliberate feature.

Next up, I wanted to make a based interface so that people could have a go at the puzzles in their web browser, track their progress through the levels, get a “score” based on the number and difficulty of the locks that they’d cracked (so they can compare it to their friends), and save their progress to carry on next time.

I implemented in pure vanilla HTML, CSS, SVG and JS, with no dependencies. Compressed, it delivers to your browser and is ready-to-play in a little under 10kB, most of which is the puzzles themselves (which are pregenerated and stored in a JSON file). Naturally, it lends itself well to running offline, so it’s PWA-enhanced with a service worker so it can be “installed” onto your device, too, and it’ll check for bonus puzzles and other updates periodically.

The original puzzle shown via BreakInto.Us.
Naturally, the original puzzle appears in the web-based game, too.

Honestly, the hardest bit of implementing the frontend was the “spinnable” digits: depending on your browser, these are an endless-scrolling <ul> implemented mostly in CSS and with snap points set, and then some JS to work out “what you meant” based on where you span to. Which feels like the right way to implement such a thing, but was a lot more work than putting together my own control, not least because of browser inconsistencies in the implementation of snap points.

Anyway: you should go and play the game, now, and let me know what you think. Is it worth expanding and improving? Should I leave it as it is? I’m open to ideas (and if you don’t like that I’m not implementing your suggestions, you can always fork a copy of the code and change it yourself)!

Or if you’d like to see some of the other JavaScript experiments I’ve done, you might enjoy my “cheating” hangman game, my recreation of the lunar lander game I wrote in college, or rediscover that time I was ill and came up the worst conceivable tool to calculate Pi.

Third-party libraries and security issues

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Earlier this week, I wrote about why you should still use vanilla JS when so many amazing third-party libraries exist.

A few folks wrote to me to mention something I missed: security.

When you use code you didn’t author, you’re taking a risk. You’re trusting that the third-party code does not have security issues, that the author has good intent.

Chris makes a very good point, especially for those developers of the npm install every-damn-thing persuasion: getting an enormous framework that you don’t completely understand just because you need  a small portion of its features is bad security practice. And the target is a juicy one: a bad actor who finds (or introduces) a vulnerability in a big and widely-used library has a whole lot of power. Security concerns are a major part of why I go vanilla/stdlib where possible.

But as always with security the answer isn’t so clear-cut and simple, and I’d argue that it’s dangerous to encourage people to write their own solutions as a matter of course, for security reasons. For a start, you should never roll your own cryptographic libraries because you’re almost certainly going to fuck it up: an undetectable and easy-to-make mistake in your crypto implementation can lead to a catastrophic cascade and completely undermine the value of your cryptography. If you’re smart enough about crypto to implement crypto properly, you should contribute towards one of the major libraries. And if you’re not smart enough about crypto (and if you’re not sure, then you’re not), you should use one of those libraries. And even then you should take care to integrate and use it properly: people have been tripped over before by badly initialised keys or the use of the wrong kind of cipher for their use-case. Crypto is hard enough that even experts fuck it up and important enough that you can’t afford to get it wrong.

The same rule applies to a much lesser extent to other parts of your application, and especially for beginner developers. Implementing an authentication/authorisation system isn’t hard, but it’s another thing where getting it wrong can have disastrous consequences. Beginner (and even intermediate) developers routinely make mistakes with this kind of feature: unhashed, reversibly-encrypted, or incorrectly-hashed (wrong algorithm, no salt, etc.) passwords, badly-thought-out password reset strategies, incompletely applied access controls, etc. I’m confident that Chris and I would be in agreement that the best approach is for a developer to learn to implement these things properly and then do so. But if having to learn to implement them properly is a barrier to getting started, I’d rather than a beginner developer instead use a tried-and-tested off-the-shelf like Devise/Warden.

Other examples of things that beginner/intermediate developers sometimes get wrong might be XSS protection and SQL parameter escaping. And again, for languages that don’t have safety features built in, a framework can fill the gap. Rolling your own DOM whitelisting code for a social application is possible, but using a solution like DOMPurify is almost-certainly going to be more-secure for most developers because, you guessed it, this is another area where it’s easy to make a mess of things.

My inclination is to adapt Chris’s advice on this issue, to instead say that for the best security:

  1. Ideally: understand what all your code does, for example because you wrote it yourself.
  2. However: if you’re not confident in your ability to implement something securely (and especially with cryptography), use an off-the-shelf library.
  3. If you use a library: use the usual rules (popularity, maintenance cycle, etc.) to filter the list, but be sure to use the library with the smallest possible footprint – the best library should (a) do only the one specific task you need done, and no more, and (b) be written in a way that lends itself to you learning from it, understanding it, and hopefully being able to maintain it yourself.

Just my tuppence worth.

The 7 Types Of StackOverflow Answers

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StackOverflow‘s one of the most-popular and widely-used resources for software developers. It dominates the search results when you’re looking for answers to techy questions. If you know how to read it, it can be invaluable.

But… I’m not sure what it is about the platform or the culture surrounding it that creates a certain… pattern to the answers that you can expect to receive on StackOverflow. To illustrate, let’s suppose we have a question:

SnackOverflow question: Let's say I'm camping and I need to make toast. I have a loaf of bread and a campfire. What's the best way to make toast?

Here are the answers you might see:

The Golden Hammer

The top answer is often somebody answering not the question you asked, but the question they’d like to think you asked.

Answer: Just plug a toaster in. You can do this with: npm install toaster

Never mind that you specifically said that you were using a campfire, the answer suggests that you use a toaster. Look back a few years and you’ll see countless examples of people asking for solutions using “vanilla” JavaScript and being told to use some heavyweight, everything-but-the-kitchen sink jQuery plugin. Now we’re in a more enlightened time, those same people are being told to use some heavyweight, everything-but-the-kitchen-sink npm module. How far we’ve come.

The Belligerent

Far often than you might expect, a perfectly reasonable “how do I do this?” question is met with an aggressive response of “why would you want to do that?”

Answer: Why would you want to make toast on a campfire? When you're camping you should be eating beans, soup, and spit-roasted meats and fish. Every time I've tried to toast bread over a campfire I've ended up unsatisfied. Uneven toasting, burnt bits, even the whole slice catching fire. I can't imagine why anybody would ever want toast like that! If you want toast you should stay at home. It's still pretty pointless, though: toast isn't a very good meal. It's basically empty calories with no protein, no vitamins, no minerals. I mean, it'd be okay as a snack but that's clearly not what you're asking about. There's a reason that the Chef's Guide To Camping doesn't include a recipe for toast. Just don't do it!

These are particularly infuriating to read when you come to a closed thread and you know that you do want to be doing the “forbidden” thing. You’ve considered the other options, you’ve assessed the situation… and now some arrogant bugger’s telling you that you’re wrong!

This kind of response is among the most annoying, second only to…

The Kindred Spirit

You’re getting a strange and inexplicable error message. You search for it and get exactly one result. Reading the thread, after hours of tearing your hair out, you suddenly feel a sense of relief: you’ve found another soul in this crazy world that’s suffering in precisely the same way as you are. Every word you read reconfirms for you that you and they have the same issue. At last, a solution is in reach!

Answer: I'm having almost exactly the same issue. I've brought bagels to my campfire, though. If anybody knows how to toast either bread or bagels on a campfire please let me know how! Edit: NM, I've worked it out.Nope.

Not only have you not got a solution, but the saviour you thought you’d found? They do have a solution, but they were thinking only about themselves when they got it, so they didn’t share it.

I get it: when you’re deep in focus on a problem you forget that the forum you’re on will receive search traffic indefinitely. But “NM, I’ve worked it out” is the most infuriating sentence on the Internet. When you solve a tough problem that you’d talked about online, for the love of God put the solution online too.

The Expert

There’s always somebody who answers the question but in a way you’d need a PhD to comprehend.

Answer: What you're looking to do is increase the ratio of 6-Acetyl-2,3,4,5-tetrahydropyridine on the surface of the bread, as described by Louis-Camille Maillard. Aim to maximise the surface area exposed to heat to accelerate the reaction of the carbonyls with the nucleophilic amino acids, without increasing the temperature enough to produce significant amounts of benzopyrene nor acrylamide.

StackOverflow is often used by beginners. Make your answer beginner-friendly if possible.

The Hero We Don’t Need

Like the Golden Hammer, the Hero We Don’t Need answers the question that they know the answer to rather than the question you actually asked. Unlike the Golden Hammer, the question they answer isn’t even remotely related to the question you asked.

Answer: Place the loaf down on a broad flat surface. Use a serrated blade in a moderately-rapid back-and-forth motion to cut through it. Now the bread will be sliced and ready to use. Don't cut any more than you need at once: sliced bread goes stale much faster.

Perhaps some future site visitor who chose their search terms badly might benefit from this out-of-the-box look at a completely different problem. But I wouldn’t count on it.

The Correct Answer

Eventually, if you’re lucky, somebody will provide the actual answer to the question. You’ll often have to scroll about this far down the page to find it.

Answer: There are two approaches. Both are equally valid - choose the one that's right for you. Method #1: place flat rocks near to your campfire and allow them to heat up. Slice your bread, and lay each slice on a hot rock, being careful not to touch the rock. Turn it over when it's done on one side. Method #2: use a long fork, skewer, or stick to impale a slice of bread lengthways (here's a diagram) and suspend it over the fire either by holding the utensil or by poking the other end into the ground. If holding it, be sure to keep your hand lower than the bread as heat will travel up metal implements. Happy camping!Still, at least there’s an answer. And it only took four hours between posting the question and it appearing. Sometimes that’s what it takes, and at least the answer will be there for the next person, assuming that they, too, scroll down far enough.

Unfortunately hundreds of novice developers will have no way to tell that this alone is the correct answer amongst the endless stream of bullshit in which it resides.

The Echo

And finally, there’s always some idiot who repeats one of the same (useless) answers from before. Just to keep the noise-to-signal ratio up, I guess.

Answer: Just install toaster from NPM. Comment 1: @KISS DRY already said this. This is the correct answer. Comment 2: Can toaster slice bread, too?

StackOverflow’s given me so many useful answers to so many questions, over the years. But it’s also been a great source of frustration for me at the hands of six of these seven archetypes. Did I miss any?

An app can be a home-cooked meal

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Have you heard about this new app called BoopSnoop?

It launched in the first week of 2020, and almost immediately, it was downloaded by four people in three different time zones. In the months since, it has remained steady at four daily active users, with zero churn: a resounding success, exceeding every one of its creator’s expectations.

:)

I made a messaging app for, and with, my family. It is ruthlessly simple; we love it; no one else will ever use it. I wanted to jot down some notes about how and why I made it, both to (a) offer a nudge to anyone else out there considering a similar project and (b) suggest something a little larger about software.

Robin Sloan (yes, this one) talks about an app that he wrote exclusively for his family. He likens the experience to a making a home-cooked meal. And I totally get it.

I do this kind of thing all the time. Our new home NAS device, Fox, performs a handful of functions (and I plan to expand it to many more) based on a mixture of open-source and homegrown code, just for my immediate family. Our “family wiki” does the same thing. And the spreadsheet we use for our finances. I’ve written apps for small groups of friends before, too (e.g. 1, 2, 3, 4, 5, 6, 7, 8…). And that’s not to mention the countless “meals for one” I’ve cooked: small applications written entirely for my own benefit – I’m using one right now to pull this article from the list of “things I’ve read and enjoyed recently” into my blog.

A home-cooked meal benefits from being tailored to its audience (if the recipe calls for mustard, I might use less or omit it because it makes my nose feel funny). It benefits from being tailored to its purpose. And it benefits from the love that goes into it. My only superstition – that I’m aware of – is that I believe that food tastes better if the chef smiled during its production… I’m beginning to think that the same might be true for software, too.

First among the reasons I think that learning the basics of programming should be in the school curriculum is that it teaches people how computers work and so, by proxy, what they are (and are not) capable of. The most digitally-literate non-programmers I know are people who have the strongest understanding about how and why computers do what they do. But a close second among my reasons is that those with an inclination can go a step further and, without even necessarily pushing their skills to a level at which they could or would want to work as software developers, build their own tools to “scratch their own itches”. Solving a problem for yourself is enormously empowering, and the versatility of software lends itself to solving a huge array of relatively-tiny problems: problems that affect individuals, families, or small communities but that aren’t big enough to warrant commercial attention.

(Sometimes these projects explode into something bigger, but usually they remain just as they are: a tool for the benefit of oneself and one’s immediate tribe. And that’s just great.)

Identifying Post Kinds in WordPress RSS Feeds

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I use the Post Kinds plugin to streamline the management of the different types of posts I make on my blog, based on the IndieWeb post types list: articles, like this one, are “conventional” blog posts, but I also publish notes (which are analogous to “tweets”), reposts (“shares” of things I’ve found online, sometimes with commentary), checkins (mostly chronicling my geocaching/geohashing), and others: I’ve extended Post Kinds to facilitate comics and reviews, for example.

But for people who subscribe (either directly or indirectly) to everything I post, I imagine it must be a little frustrating to sometimes be unable to identify the type of a post before clicking-through. So I’ve added the following code, which I’m sharing here and on GitHub in case it’s of any use to anybody else, to my theme’s functions.php:

// Make titles in RSS feed be prefixed by the Kind of the post.
function add_kind_to_rss_post_title(){
	$kinds = wp_get_post_terms( get_the_ID(), 'kind' );
	if( ! isset( $kinds ) || empty( $kinds ) ) return get_the_title(); // sanity-check.
	$kind = $kinds[0]->name;
	$title = get_the_title();
	return trim( "[{$kind}] {$title}" );
}
add_filter( 'the_title_rss', 'add_kind_to_rss_post_title', 4 ); // priority 4 to ensure it happens BEFORE default escaping filters.

This decorates the titles of my posts, but only in my feeds, so it’s easier for people to tell at-a-glance what’s going on:

Rendered RSS feed showing Post Kinds prefixes

Down the line I might expand this so that it doesn’t show if the subscriber is, for example, asking only for articles (e.g. via this feed); I’m coming up with a huge list of things I’d like to do at IndieWebCamp London! But for now, this feels like a nice simple improvement to a plugin I love that helps it to fit my specific needs.

Avoid rewriting a legacy system from scratch, by strangling it

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Sometimes, code is risky to change and expensive to refactor.

In such a situation, a seemingly good idea would be to rewrite it.

From scratch.

Here’s how it goes:

  1. You discuss with management about the strategy of stopping new features for some time, while you rewrite the existing app.
  2. You estimate the rewrite will take 6 months to cover what the existing app does.
  3. A few months in, a nasty bug is discovered and ABSOLUTELY needs to be fixed in the old code. So you patch the old code and the new one too.
  4. A few months later, a new feature has been sold to the client. It HAS TO BE implemented in the old code—the new version is not ready yet! You need to go back to the old code but also add a TODO to implement this in the new version.
  5. After 5 months, you realize the project will be late. The old app was doing way more things than expected. You start hustling more.
  6. After 7 months, you start testing the new version. QA raises up a lot of things that should be fixed.
  7. After 9 months, the business can’t stand “not developing features” anymore. Leadership is not happy with the situation, you are tired. You start making changes to the old, painful code while trying to keep up with the rewrite.
  8. Eventually, you end up with the 2 systems in production. The long-term goal is to get rid of the old one, but the new one is not ready yet. Every feature needs to be implemented twice.

Sounds fictional? Or familiar?

Don’t be shamed, it’s a very common mistake.

I’ve rewritten legacy systems from scratch before. Sometimes it’s all worked out, and sometimes it hasn’t, but either way: it’s always been a lot more work than I could have possibly estimated. I’ve learned now to try to avoid doing so: at least, to avoid replacing a single monolithic (living) system in a monolithic way. Nicholas gives an even-better description of the true horror of legacy reimplementation, and promotes progressive strangulation as a candidate solution.

CSS4 is here!

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I think that CSS would be greatly helped if we solemnly state that “CSS4 is here!” In this post I’ll try to convince you of my viewpoint.

I am proposing that we web developers, supported by the W3C CSS WG, start saying “CSS4 is here!” and excitedly chatter about how it will hit the market any moment now and transform the practice of CSS.

Of course “CSS4” has no technical meaning whatsoever. All current CSS specifications have their own specific versions ranging from 1 to 4, but CSS as a whole does not have a version, and it doesn’t need one, either.

Regardless of what we say or do, CSS 4 will not hit the market and will not transform anything. It also does not describe any technical reality.

Then why do it? For the marketing effect.

Hurrah! CSS4 is here!

I’m sure that, like me, you’re excited to start using the latest CSS technologies, like paged media, hyphen control, the zero-specificity :where() selector, and new accessibility selectors like the ‘prefers-reduced-motion’ @media query. The browser support might not be “there” yet, but so long as you’ve got a suitable commitment to progressive enhancement then you can be using all of these and many more today (I am!). Fantastic!

But if you’ve got more than a little web savvy you might still be surprised to hear me say that CSS4 is here, or even that it’s a “thing” at all. Welll… that’s because it isn’t. Not officially. Just like JavaScript’s versioning has gone all evergreen these last few years, CSS has gone the same way, with different “modules” each making their way through the standards and implementation processes independently. Which is great, in general, by the way – we’re seeing faster development of long-overdue features now than we have through most of the Web’s history – but it does make it hard to keep track of what’s “current” unless you follow along watching very closely. Who’s got time for that?

When CSS2 gained prominence at around the turn of the millennium it was revolutionary, and part of the reason for that – aside from the fact that it gave us all some features we’d wanted for a long time – was that it gave us a term to rally behind. This browser already supports it, that browser’s getting there, this other browser supports it but has a f**ked-up box model (you all know the one I’m talking about)… we at last had an overarching term to discuss what was supported, what was new, what was ready for people to write articles and books about. Nobody’s going to buy a book that promises to teach them “CSS3 Selectors Level 3, Fonts Level 3, Writing Modes Level 3, and Containment Level 1”: that title’s not even going to fit on the cover. But if we wrapped up a snapshot of what’s current and called it CSS4… now that’s going to sell.

Can we show the CSS WG that there’s mileage in this idea and make it happen? Oh, I hope so. Because while the modular approach to CSS is beautiful and elegant and progressive… I’m afraid that we can’t use it to inspire junior developers.

Also: I don’t want this joke to forever remain among the top results when searching for CSS4