In order to configure a remote MythTV server, I had to run mythtv-setup remotely over an ssh connection with X forwarding:

ssh -X mythtv@machine

For most config options, I can either use the configuration menus inside of of mythfrontend (over a vnc connection) or the Settings section of MythWeb, but some of the backend and tuner settings are only available through the main setup program.

Unfortunately, mythtv-setup won't work over an ssh connection by default and prints the following error in the terminal:

$ mythtv-setup
...
W  OpenGL: Could not determine whether Sync to VBlank is enabled.
Handling Segmentation fault
Segmentation fault (core dumped)

The fix for this was to specify a different theme engine:

mythtv-setup -O ThemePainter=qt

Here is how I managed to get my Kenwood TH-D72A radio working with Pat on Linux using the built-in TNC and the AX.25 mode

Installing Pat

First of all, download and install the latest Pat package from the GitHub project page.

dpkg -i pat_x.y.z_amd64.deb

Then, follow the installation instructions for the AX.25 mode and install the necessary packages:

apt install ax25-tools ax25-apps

along with the systemd script that comes with Pat:

/usr/share/pat/ax25/install-systemd-ax25-unit.bash

Configuration

Once the packages are installed, it's time to configure everything correctly:

Power cycle the radio.
Enable TNC in packet12 mode (band A*).
Tune band A to VECTOR channel 420 (or 421 if you can't reach VA7EOC on simplex).
Put the following in /etc/ax25/axports (replacing CALLSIGN with your own callsign):
```
 wl2k    CALLSIGN    9600    128    4    Winlink
```
Set HBAUD to 1200 in /etc/default/ax25.
Download and compile the tmd710_tncsetup script mentioned in a comment in /etc/default/ax25:
```
 gcc -o tmd710_tncsetup tmd710_tncsetup.c
```
Add the tmd710_tncsetup script in /etc/default/ax25 and use these command line parameters (-B 0 specifies band A, use -B 1 for band B):
```
 tmd710_tncsetup -B 0 -S $DEV -b $HBAUD -s
```
Start ax25 driver:
```
 systemctl start ax25.service
```

Connecting to a winlink gateway

To monitor what is being received and transmitted:

axlisten -cart

Then create aliases like these in ~/.wl2k/config.json:

{
  "connect_aliases": {
    "ax25-VA7EOC": "ax25://wl2k/VA7EOC-10",
    "ax25-VE7LAN": "ax25://wl2k/VE7LAN-10"
  },
}

and use them to connect to your preferred Winlink gateways.

Troubleshooting

If it doesn't look like ax25 can talk to the radio (i.e. the TX light doesn't turn ON), then it's possible that the tmd710_tncsetup script isn't being run at all, in which case the TNC isn't initialized correctly.

On the other hand, if you can see the radio transmitting but are not seeing any incoming packets in axlisten then double check that the speed is set correctly:

HBAUD in /etc/default/ax25 should be set to 1200
line speed in /etc/ax25/axports should be set to 9600
SERIAL_SPEED in tmd710_tncsetup should be set to 9600
radio displays packet12 in the top-left corner, not packet96

If you can establish a connection, but it's very unreliable, make sure that you have enabled software flow control (the -s option in tmd710_tncsetup).

If you can't connect to VA7EOC-10 on UHF, you could also try the VHF BCFM repeater on Mt Seymour, VE7LAN (VECTOR channel 65).

As noted on the official Libravatar blog, I will be shutting the service down on 2018-09-01.

It has been an incredible journey but Libravatar has been more-or-less in maintenance mode for 5 years, so it's somewhat outdated in its technological stack and I no longer have much interest in doing the work that's required every two years when migrating to a new version of Debian/Django. The free software community prides itself on transparency and so while it is a difficult decision to make, it's time to be upfront with the users who depend on the project and admit that the project is not sustainable in its current form.

Many things worked well

The most motivating aspect of running Libravatar has been the steady organic growth within the FOSS community. Both in terms of traffic (in March 2018, we served a total of 5 GB of images and 12 GB of 302 redirects to Gravatar), integration with other sites and projects (Fedora, Debian, Mozilla, Linux kernel, Gitlab, Liberapay and many others), but also in terms of users:

In addition, I wanted to validate that it is possible to run a FOSS service without having to pay for anything out-of-pocket, so that it would be financially sustainable. Hosting and domain registrations have been entirely funded by the community, thanks to the generosity of sponsors and donors. Most of the donations came through Gittip/Gratipay and Liberapay. While Gratipay has now shut down, I encourage you to support Liberapay.

Finally, I made an effort to host Libravatar on FOSS infrastructure. That meant shying away from popular proprietary services in order to make a point that these convenient and well-known services aren't actually needed to run a successful project.

A few things didn't pan out

On the other hand, there were also a few disappointments.

A lot of the libraries and plugins never implemented DNS federation. That was the key part of the protocol that made Libravatar a decentralized service but unfortunately the rest of the protocol was must easier to implement and therefore many clients stopped there.

In addition, it turns out that while the DNS system is essentially a federated caching system for IP addresses, many DNS resolvers aren't doing a good job caching records and that created unnecessary latency for clients that chose to support DNS federation.

The main disappointment was that very few people stepped up to run mirrors. I designed the service so that it could scale easily in the same way that Linux distributions have coped with increasing user bases: "ftp" mirrors. By making the actual serving of images only require Apache and mod_rewrite, I had hoped that anybody running Apache would be able to add an extra vhost to their setup and start serving our static files. A few people did sign up for this over the years, but it mostly didn't work. Right now, there are no third-party mirrors online.

The other aspect that was a little disappointing was the lack of code contributions. There were a handful from friends in the first couple of months, but it's otherwise been a one-man project. I suppose that when a service works well for what people use it for, there are less opportunities for contributions (or less desire for it). The fact dev environment setup was not the easiest could definitely be a contributing factor, but I've only ever had a single person ask about it so it's not clear that this was the limiting factor. Also, while our source code repository was hosted on Github and open for pull requests, we never even received a single drive-by contribution, hinting at the fact that Github is not the magic bullet for community contributions that many people think it is.

Finally, it turns out that it is harder to delegate sysadmin work (you need root, for one thing) which consumes the majority of the time in a mature project. The general administration and maintenance of Libravatar has never moved on beyond its core team of one. I don't have a lot of ideas here, but I do want to join others who have flagged this as an area for "future work" in terms of project sustainability.

Personal goals

While I was originally inspired by Evan Prodromou's vision of a suite of FOSS services to replace the proprietary stack that everybody relies on, starting a free software project is an inherently personal endeavour: the shape of the project will be influenced by the personal goals of the founder.

When I started the project in 2011, I had a few goals:

I wanted to get experience with Python, Django, and Bazaar.
I wanted to speak at a Kiwi PyCon which I did, twice, but my Libravatar experience also led to speak at DebConf twice, linux.conf.au and OSCON.
Career-wise, I wanted to move beyond PHP development, which I successfully achieved by working for a new client while I was at Catalyst and then getting hired by Mozilla to work on Persona until it was de-staffed following a Mozilla reorg.

This project personally taught me a lot of different technologies and allowed me to try out various web development techniques I wanted to explore at the time. That was intentional: I chose my technologies so that even if the project was a complete failure, I would still have gotten something out of it.

A few things I've learned

I learned many things along the way, but here are a few that might be useful to other people starting a new free software project:

Speak about your new project at every user group you can. It's important to validate that you can get other people excited about your project. User groups are a great (and cheap) way to kickstart your word of mouth marketing.
When speaking about your project, ask simple things of the attendees (e.g. create an account today, join the IRC channel). Often people want to support you but they can't commit to big tasks. Make sure to take advantage of all of the support you can get, especially early on.
Having your friends join (or lurk on!) an IRC channel means it's vibrant, instead of empty, and there are people around to field simple questions or tell people to wait until you're around. Nobody wants to be alone in a channel with a stranger.

Thank you

I do want to sincerely thank all of the people who contributed to the project over the years:

Jonathan Harker and Brett Wilkins for productive hack sessions in the Catalyst office.
Lars Wirzenius, Andy Chilton and Jesse Noller for graciously hosting the service.
Christian Weiske, Melissa Draper, Thomas Goirand and Kai Hendry for running mirrors on their servers.
Chris Forbes, fr33domlover, Kang-min Liu and strk for writing and maintaining client libraries.
The Wellington Perl Mongers for their invaluable feedback on an early prototype.
The #equifoss group for their ongoing suppport and numerous ideas.
Nigel Babu and Melissa Draper for producing the first (and only) project stikers, as well as Chris Cormack for spreading so effectively.
Adolfo Jayme, Alfredo Hernández, Anthony Harrington, Asier Iturralde Sarasola, Besnik, Beto1917, Daniel Neis, Eduardo Battaglia, Fernando P Silveira, Gabriele Castagneti, Heimen Stoffels, Iñaki Arenaza, Jakob Kramer, Jorge Luis Gomez, Kristina Hoeppner, Laura Arjona Reina, Léo POUGHON, Marc Coll Carrillo, Mehmet Keçeci, Milan Horák, Mitsuhiro Yoshida, Oleg Koptev, Rodrigo Díaz, Simone G, Stanislas Michalak, Volkan Gezer, VPablo, Xuacu Saturio, Yuri Chornoivan, yurchor and zapman for making Libravatar speak so many languages.

I'm sure I have forgotten people who have helped over the years. If your name belongs in here and it's not, please email me or leave a comment.

I recently moved my dynamic DNS hostnames from dyndns.org (now owned by Oracle) to No-IP. In the process, I moved all of my hostnames under a sub-domain that I control in case I ever want to self-host the authoritative DNS server for it.

Creating an account

In order to use my own existing domain, I registered for the Plus Managed DNS service and provided my top-level domain (fmarier.org).

Then I created a support ticket to ask for the sub-domain feature. Without that, No-IP expects you to delegate your entire domain to them, whereas I only wanted to delegate *.dyn.fmarier.org.

Once that got enabled, I was able to create hostnames like machine.dyn in the No-IP control panel. Without the sub-domain feature, you can't have dots in hostnames.

I used a bogus IP address (e.g. 1.2.3.4) for all of the hostnames I created in order to easily confirm that the client software is working.

DNS setup

On my registrar's side, here are the DNS records I had to add to delegate anything under dyn.fmarier.org to No-IP:

dyn NS ns1.no-ip.com.
dyn NS ns2.no-ip.com.
dyn NS ns3.no-ip.com.
dyn NS ns4.no-ip.com.
dyn NS ns5.no-ip.com.

Client setup

In order to update its IP address whenever it changes, I installed ddclient on each of my machines:

apt install ddclient

While the ddclient package won't help you configure your No-IP service during installation or enable the web IP lookup method, this can all be done by editing the configuration after the fact.

I put the following in /etc/ddclient.conf:

ssl=yes
protocol=noip
use=web, web=checkip.dyndns.com, web-skip='IP Address'
server=dynupdate.no-ip.com
login=myusername
password='Password1!'
machinename.dyn.fmarier.org

and the following in /etc/default/ddclient:

run_dhclient="false"
run_ipup="false"
run_daemon="true"
daemon_interval="3600"

Then restart the service:

systemctl restart ddclient.service

Note that you do need to change the default update interval or the checkip.dyndns.com server will ban your IP address.

Testing

To test that the client software is working, wait 6 minutes (there is an internal check which cancels any client invocations within 5 minutes of another), then run it manually:

ddclient --verbose --debug

The IP for that machine should now be visible on the No-IP control panel and in DNS lookups:

dig +short machinename.dyn.fmarier.org

In order to be able to use the webroot plugin for certbot and automatically renew the Let's Encrypt certificate for libravatar.org, I had to put together an Apache config that would do the following on port 80:

Let /.well-known/acme-challenge/* through on the bare domain (http://libravatar.org/).
Redirect anything else to https://www.libravatar.org/.

The reason for this is that the main Libravatar service listens on www.libravatar.org and not libravatar.org, but that cerbot needs to ascertain control of the bare domain.

This is the configuration I ended up with:

<VirtualHost *:80>
    DocumentRoot /var/www/acme
    <Directory /var/www/acme>
        Options -Indexes
    </Directory>

    RewriteEngine on
    RewriteCond "/var/www/acme%{REQUEST_URI}" !-f
    RewriteRule ^(.*)$ https://www.libravatar.org/ [last,redirect=301]
</VirtualHost>

The trick I used here is to make the redirection RewriteRule conditional on the requested file (%{REQUEST_URI}) not existing in the /var/www/acme directory, the one where I tell certbot to drop its temporary files.

Here are the relevant portions of /etc/letsencrypt/renewal/www.libravatar.org.conf:

[renewalparams]
authenticator = webroot
account = 

<span class="createlink"><a href="/ikiwiki.cgi?do=create&amp;from=posts%2Fredirecting-entire-site-except-certbot-webroot&amp;page=webroot_map" rel="nofollow">?</a>webroot map</span>
libravatar.org = /var/www/acme
www.libravatar.org = /var/www/acme

Here's how to setup LXC-based "chroots" on Debian stretch. While I wrote about this on Debian jessie, I had to make some networking changes for stretch and so here are the full steps that should work on stretch.

Start by installing (as root) the necessary packages:

apt install lxc libvirt-clients debootstrap

Network setup

I decided to use the default /etc/lxc/default.conf configuration (no change needed here):

lxc.network.type = veth
lxc.network.link = lxcbr0
lxc.network.flags = up
lxc.network.hwaddr = 00:FF:AA:xx:xx:xx

and enable networking by putting the following in a new /etc/default/lxc-net file:

USE_LXC_BRIDGE="true"

That configuration requires that the veth kernel module be loaded. If you have any kinds of module-loading restrictions enabled, you probably need to add the following to /etc/modules and reboot:

veth

Next, I had to make sure that the "guests" could connect to the outside world through the "host":

Enable IPv4 forwarding by putting this in /etc/sysctl.conf:
```
net.ipv4.ip_forward=1
```
and then applying it using:
```
sysctl -p
```
Restart the network bridge:
```
systemctl restart lxc-net.service
```

and ensure that it's not blocked by the host firewall, by putting this in /etc/network/iptables.up.rules:

-A FORWARD -d 10.0.3.0/24 -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
-A FORWARD -s 10.0.3.0/24 -j ACCEPT
-A INPUT -d 224.0.0.251 -s 10.0.3.1 -j ACCEPT
-A INPUT -d 239.255.255.250 -s 10.0.3.1 -j ACCEPT
-A INPUT -d 10.0.3.255 -s 10.0.3.1 -j ACCEPT
-A INPUT -d 10.0.3.1 -s 10.0.3.0/24 -j ACCEPT

and applying the rules using:
```
iptables-apply
```

Creating a container

Creating a new container (in /var/lib/lxc/) is simple:

sudo MIRROR=http://httpredir.debian.org/debian lxc-create -n sid64 -t debian -- -r sid -a amd64

You can start or stop it like this:

sudo lxc-start -n sid64
sudo lxc-stop -n sid64

Connecting to a guest using ssh

The ssh server is configured to require pubkey-based authentication for root logins, so you'll need to log into the console:

sudo lxc-stop -n sid64
sudo lxc-start -n sid64 -F

Since the root password is randomly generated, you'll need to reset it before you can login as root:

sudo lxc-attach -n sid64 passwd

Then login as root and install a text editor inside the container because the root image doesn't have one by default:

apt install vim

then paste your public key in /root/.ssh/authorized_keys.

Then you can exit the console (using Ctrl+a q) and ssh into the container. You can find out what IP address the container received from DHCP by typing this command:

sudo lxc-ls --fancy

Mounting your home directory inside a container

In order to have my home directory available within the container, I created a user account for myself inside the container and then added the following to the container config file (/var/lib/lxc/sid64/config):

lxc.mount.entry=/home/francois home/francois none bind 0 0

before restarting the container:

lxc-stop -n sid64
lxc-start -n sid64

Fixing locale errors

If you see a bunch of errors like these when you start your container:

perl: warning: Setting locale failed.
perl: warning: Please check that your locale settings:
LANGUAGE = (unset),
LC_ALL = (unset),
LANG = "fr_CA.utf8"
    are supported and installed on your system.
perl: warning: Falling back to the standard locale ("C").

then log into the container as root and use:

dpkg-reconfigure locales

to enable the same locales as the ones you have configured in the host.

If you see these errors while reconfiguring the locales package:

Generating locales (this might take a while)...
  en_US.UTF-8...cannot change mode of new locale archive: No such file or directory
 done
  fr_CA.UTF-8...cannot change mode of new locale archive: No such file or directory
 done
Generation complete.

and see the following dmesg output on the host:

[235350.947808] audit: type=1400 audit(1441664940.224:225): apparmor="DENIED" operation="chmod" info="Failed name lookup - deleted entry" error=-2 profile="/usr/bin/lxc-start" name="/usr/lib/locale/locale-archive.WVNevc" pid=21651 comm="localedef" requested_mask="w" denied_mask="w" fsuid=0 ouid=0

then AppArmor is interfering with the locale-gen binary and the work-around I found is to temporarily shutdown AppArmor on the host:

lxc-stop -n sid64
systemctl stop apparmor
lxc-start -n sid64

and then start up it later once the locales have been updated:

lxc-stop -n sid64
systemctl start apparmor
lxc-start -n sid64

AppArmor support

If you are running AppArmor, your container probably won't start until you add the following to the container config (/var/lib/lxc/sid64/config):

lxc.aa_allow_incomplete = 1

WiFi in the 2.4 GHz range is usually fairly congested in urban environments. The 5 GHz band used to be better, but an increasing number of routers now support it and so it has become fairly busy as well. It turns out that there are a number of channels on that band that nobody appears to be using despite being legal in my region.

Why are the middle channels unused?

I'm not entirely sure why these channels are completely empty in my area, but I would speculate that access point manufacturers don't want to deal with the extra complexity of the middle channels. Indeed these channels are not entirely unlicensed. They are also used by weather radars, for example. If you look at the regulatory rules that ship with your OS:

$ iw reg get
global
country CA: DFS-FCC
    (2402 - 2472 @ 40), (N/A, 30), (N/A)
    (5170 - 5250 @ 80), (N/A, 17), (N/A), AUTO-BW
    (5250 - 5330 @ 80), (N/A, 24), (0 ms), DFS, AUTO-BW
    (5490 - 5600 @ 80), (N/A, 24), (0 ms), DFS
    (5650 - 5730 @ 80), (N/A, 24), (0 ms), DFS
    (5735 - 5835 @ 80), (N/A, 30), (N/A)

you will see that these channels are flagged with "DFS". That stands for Dynamic Frequency Selection and it means that WiFi equipment needs to be able to detect when the frequency is used by radars (by detecting their pulses) and automaticaly switch to a different channel for a few minutes.

So an access point needs extra hardware and extra code to avoid interfering with priority users. Additionally, different channels have different bandwidth limits so that's something else to consider if you want to use 40/80 MHz at once.

Using all legal channels in Gargoyle

The first time I tried setting my access point channel to one of the middle 5 GHz channels, the SSID wouldn't show up in scans and the channel was still empty in WiFi Analyzer.

I tried changing the channel again, but this time, I ssh'd into my router and looked at the errors messages using this command:

logread -f

I found a number of errors claiming that these channels were not authorized for the "world" regulatory authority.

Because Gargoyle is based on OpenWRT, there are a lot more wireless configuration options available than what's exposed in the Web UI.

In this case, the solution was to explicitly set my country in the wireless options (where CA is the country code for Canada, where my router is physically located).

Then I rebooted and I was able to set the channel successfully via the Web UI.

If you are interested, there is a lot more information about how all of this works in the kernel documentation for the wireless stack.

The Libravatar mirrors are setup using DNS round-robin which makes it a little challenging to automatically provision Let's Encrypt certificates.

In order to be able to use Certbot's webroot plugin, I need to be able to simultaneously host a randomly-named file into the webroot of each mirror. The reason is that the verifier will connect to seccdn.libravatar.org, but there's no way to know which of the DNS entries it will hit. I could copy the file over to all of the mirrors, but that would be annoying since some of the mirrors are run by volunteers and I don't have direct access to them.

Thankfully, Scott Helme has shared his elegant solution: proxy the .well-known/acme-challenge/ directory from all of the mirrors to a single validation host. Here's the exact configuration I ended up with.

DNS Configuration

In order to serve the certbot validation files separately from the main service, I created a new hostname, acme.libravatar.org, pointing to the main Libravatar server:

CNAME acme libravatar.org.

Mirror Configuration

On each mirror, I created a new Apache vhost on port 80 to proxy the acme challenge files by putting the following in the existing port 443 vhost config (/etc/apache2/sites-available/libravatar-seccdn.conf):

<VirtualHost *:80>
    ServerName __SECCDNSERVERNAME__
    ServerAdmin __WEBMASTEREMAIL__

    ProxyPass /.well-known/acme-challenge/ http://acme.libravatar.org/.well-known/acme-challenge/
    ProxyPassReverse /.well-known/acme-challenge/ http://acme.libravatar.org/.well-known/acme-challenge/
</VirtualHost>

Then I enabled the right modules and restarted Apache:

a2enmod proxy
a2enmod proxy_http
systemctl restart apache2.service

Finally, I added a cronjob in /etc/cron.daily/commit-new-seccdn-cert to commit the new cert to etckeeper automatically:

#!/bin/sh
cd /etc/libravatar
/usr/bin/git commit --quiet -m "New seccdn cert" seccdn.crt seccdn.pem seccdn-chain.pem > /dev/null || true

Main Configuration

On the main server, I created a new webroot:

mkdir -p /var/www/acme/.well-known

and a new vhost in /etc/apache2/sites-available/acme.conf:

<VirtualHost *:80>
    ServerName acme.libravatar.org
    ServerAdmin webmaster@libravatar.org
    DocumentRoot /var/www/acme
    <Directory /var/www/acme>
        Options -Indexes
    </Directory>
</VirtualHost>

before enabling it and restarting Apache:

a2ensite acme
systemctl restart apache2.service

Registering a new TLS certificate

With all of this in place, I was able to register the cert easily using the webroot plugin on the main server:

certbot certonly --webroot -w /var/www/acme -d seccdn.libravatar.org

The resulting certificate will then be automatically renewed before it expires.

I wanted to setup a mail service on a staging server that would send all outgoing emails to a local mailbox. This avoids sending emails out to real users when running the staging server using production data.

First, install the postfix mail server:

apt install postfix

and choose the "Local only" mail server configuration type.

Then change the following in /etc/postfix/main.cf:

default_transport = error

to:

default_transport = local:root

and restart postfix:

systemctl restart postfix.service

Once that's done, you can find all of the emails in /var/mail/root.

So you can install mutt:

apt install mutt

and then view the mailbox like this:

mutt -f /var/mail/root

Two months ago, Troy Hunt, the security professional behind Have I been pwned?, released an incredibly comprehensive password list in the hope that it would allow web developers to steer their users away from passwords that have been compromised in past breaches.

While the list released by HIBP is hashed, the plaintext passwords are out there and one should assume that password crackers have access to them. So if you use a password on that list, you can be fairly confident that it's very easy to guess or crack your password.

I wanted to check my active passwords against that list to check whether or not any of them are compromised and should be changed immediately. This meant that I needed to download the list and do these lookups locally since it's not a good idea to send your current passwords to this third-party service.

I put my tool up on Launchpad / PyPI and you are more than welcome to give it a go. Install Postgres and Psycopg2 and then follow the README instructions to setup your database.