* circumlocuting
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:ONE: wfot-default-home-list-pages
:CUSTOM_ID: /
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Hello,

Here's what I've been thinking about

* HTTPS @ Homelab
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:ONE: wfot-default
:CUSTOM_ID: /large-companies/
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I run a lot of services at home.

This includes, but isn't limited to

- [[https://archivebox.io/][ArchiveBox]]
- [[https://github.com/dani-garcia/vaultwarden][VaultWarden]]
- [[https://github.com/navidrome/navidrome][Navidrome]]
- [[https://plex.tv][Plex]]
- [[https://github.com/LibrePhotos/librephotos][LibrePhotos]]
- This blog

and a lot more.

Pretty much anything that's served up over HTTP is always nice if not
necessary to have behind TLS.

[[https://letsencrypt.org/][LetsEncrypt]] long ago brought free certs to
the masses and there are a lot of tools for automating that nowadays.

My preferred approach for getting all the unnecessary nonsense I
self-host at home behind TLS is [[https://caddyserver.com][Caddy]].

I have a super straight forward setup, generally:

- Run Caddy in a docker container
- Create a wildcard CNAME record in my DNS pointing at my home's
  (effectively) static IP
- Add an entry in my Caddyfile for each services I'm running at home on
  its own subdomain
- If it's a service then I add it with a =reverse_proxy= block
- If it's a static site (like this) then there's a block for
- If it's something I want only accessible on my home network then I put
  a block like

#+BEGIN_EXAMPLE
      @local_network {
        path *
        remote_ip 
      }
#+END_EXAMPLE

in the directive. And voila.

Then tell Caddy to reload the config and I'm done.
* Multi-room audio setup
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I've put my home audio solution together out of the following
components.

- [[https://github.com/badaix/snapcast][Snapcast]]

- [[https://www.musicpd.org/][MPD]]

- [[https://github.com/librespot-org/librespot][Librespot]]

- [[https://github.com/mikebrady/shairport-sync][Shairport-sync]]

- A mini-PC in my closet running the above software

- Two Raspberry Pi 4s

- Four Raspberry Pi Zero Ws

- Some desktop speakers and some Bluetooth speakers (wired to the Pis)

Each of the Raspberry Pis is in a room or porch attached to a speaker.

Snapcast lets me take an audio source and synchronize it across multiple
clients. Each of the Raspberry Pis are running a =snapclient= instance
and play whatever the =snapserver= instance tells them to.

Snapcast is setup to send whichever of the streams (MPD, Spotify,
Shairport-sync/AirPlay) is playing audio to each of the clients that are
connected to it.

This lets me or anyone else on my WiFi network play directly on one or
more of the speakers - each named for the room that they're in using
either Spotify, AirPlay, picking from my own music collection or by
pointing at a URL (like to a podcast episode).

This works out great and we've used it at home for the past year.

I'd like to get the podcast experience to a more seamless place but it's
pretty OK right now using AirMusic on my phone to play audio to the
speakers over AirPlay.

* vi-editing everywhere
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For my sake, I prefer to have Vim bindings in as many places as
possible.

Most shells can be configured to use Vim bindings by putting =set -o vi=
somewhere in your shell startup script.

If you're using ZSH then you'll probably want an additional binding to
restore CTRL-R reverse history search.

=bindkey '^R' history-incremental-search-backward=

For CLI tools that use the =readline= library then you can configure its
input mode using a =.inputrc= file in your =$HOME= directory.

This affects REPLs like =ghci= and tools like =psql=.

#+begin_src txt
set editing-mode vi
$if mode=vi

set keymap vi-command
# these are for vi-command mode
Control-l: clear-screen

set keymap vi-insert
# these are for vi-insert mode
Control-l: clear-screen
$endif
#+end_src
* AWS Cloudwatch Metric Filters
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** Structed and passively collected metrics via AWS CloudWatch

AWS is a vast and sprawling set of services. It can be hard to find the
hidden gems like this one so I wanted to point this one out.

Structured metrics are very helpful to monitoring the health and
function of an software system.

- Do you want to know how long a particular transaction typically takes?
- How fast your database queries are?
- How long external APIs take to respond?
- Fire an alert when a particular function on the site happens too many
  times? Or too few times?

...plus a million other things specific to whatever system you're
working on.

There are a lot of great tools for doing this and one that you might not
know about is AWS CloudWatch Metric Filters. If you're already on AWS
then you should consider these because it requires only that your
application logs to CloudWatch.

If you're on ECS then the [[https://docs.aws.amazon.com/AmazonECS/latest/developerguide/using_awslogs.html][awslogs]] log driver for Docker gets you that
nearly for free. By "free" I mean that your application itself can
have /zero/ dependencies on AWS services and not require any AWS
credentials or libraries to start pumping out metrics that you can
visualize, alert on and record over time.

The [[https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/MonitoringLogData.html][AWS docs]] themselves offer the canonical reference for configuring
these so I won't go into detail here.

However, the gist is that for a log filter you define the following
properties

- A filter pattern for extracting a discrete metric value out of a log
  entry
- A metric name to store the value in
- An optional dimension for sub-classifying the value
- And finally a log group to extract the metric values from

After that you just run the application and as the logs roll in the
metric values get pumped out. Then you can [[https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/Create-alarm-on-metric-math-expression.html][define alarms for alerting]]
on them, [[https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Dashboards.html][graph them]], [[https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-scaling-simple-step.html#policy-creating-alarm-console][define autoscaling rules]] from them and more.

To conclude - AWS is big and hairy. While there are benefits to staying
platform agnostic, some AWS services don't require much or any coupling
of your application code to take advantage of. Cloudwatch Metrics is one
of those services and you can get a lot of value out of it with not much
effort.

* Simple CSS frameworks - 2024-09-30
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I really like simple drop-in CSS resets like the one I use for this site.

At the time of writing, I'm using [[https://picocss.com/][Pico]] but I also considered [[https://yegor256.github.io/tacit/][tacit]] 

The idea is that they provide nice default styling of HTML elements out of the box without the need to reference any specific classes.

The idea works well for sites that are much more content than layout - like this one.

Using tacit is a matter of incluing this link tag in the page's HEAD element:

#+BEGIN_SRC html
  <link rel="stylesheet" href="https://cdn.jsdelivr.net/npm/@picocss/pico@2/css/pico.min.css">
#+END_SRC
* Let people fail - 2024-09-25
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Warning: This, like most things, will involve a fair bit of projection.

Effective and enjoyable collaboration with other people requires mutual trust.

I believe that for someone to feel trusted by another person then they need the space to fail.

I _think_ this is obvious when considering what not having the space to fail looks like.

Not having the space to fail means your collaborator is doing one of two things:

1. Directing every action you take a.k.a. micromanaging
2. Coming behind you and redoing all of your work

Both of these are attempts by the other person to minimize risk (or simply cases where they're failing to manage their own anxieties).

These actions are counter productive to fostering trust and should be avoided unless failure is too costly.

I'm _not_ saying all collaboration _requires_ building trust. There are times when you simply can't afford failure or mistakes.

What I am saying is that people frequently misjudge the value in deliberately giving others the space to fail for the sake of fostering trust.

Building trust is important and we should do it deliberately.
* The problem with large companies
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Organizing people is a difficult problem which only gets more difficult as youmore people need to be organized.

The larger a company is the more of its internal structures, rules, policies, history, etc are devoted _just_ to organizing people.

For me, realizing this was like the first time you hear a flourescent light buzzing in an otherwise quiet room.

Reasonable people can differ on this point, but for my own sake I'd much rather avoid all the people-organizing baggage that comes with large companies.

I don't have a hard-and-fast rule about the size of a place I want to work but the larger a place is then generally the more reason I need to want to be there.

Of course, this is all kind of theoretical at this point, as [[https://flipstone.com][Flipstone]] is my forever home.

#+BEGIN_SRC haskell

doThings :: String -> T.Text -> NEL.NonEmpty Char -> BS.ByteString -> IO ()
doThings = error "WTF is this"

#+END_SRC

* TODO Just what is it you do here?
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I've never liked working at [[#/large-companies/][large companies]]. Mostly because I think
they complicate things, but some things are more complicated at small
companies.

* TODO Managing Expectations
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I'll figure this out one day. Until then I'll just keep saying yes and burning myself out making everyone happy.