I’ve recently signed up for Internode NBN while using the Arris CM8200 device supplied by Optus (previously used for a regular phone service). I took the configuration mostly from Dean’s great blog post on the topic [1]. One thing I changed was the /etc/networ/interfaces configuration, I used the following:

# VLAN ID 2 for Internode's NBN HFC.
auto eth1.2
iface eth1.2 inet manual
  vlan-raw-device eth1

auto nbn
iface nbn inet ppp
    pre-up /bin/ip link set eth1.2 up
    provider nbn

There is no need to have a section for eth1 when you have a section for eth1.2.

IPv6

IPv6 for only one system

With a line in /etc/ppp/options containing only “ipv6 ,” you get an IPv6 address automatically for the ppp0 interface after starting pppd.

IPv6 for your lan

Internode has documented how to configure the WIDE DHCPv6 client to get an IPv6 “prefix” (subnet) [2]. Just install the wide-dhcpv6-client package and put your interface names in a copy of the Internode example config and that works. That gets you a /64 assigned to your local Ethernet. Here’s an example of /etc/wide-dhcpv6/dhcp6c.conf:

interface ppp0 {
    send ia-pd 0;
    script "/etc/wide-dhcpv6/dhcp6c-script";
};

id-assoc pd {
    prefix-interface br0 {
        sla-id 0;
        sla-len 8;
    };
};

For providing addresses to other systems on your LAN they recommend radvd version 1.1 or greater, Debian/Bullseye will ship with version 2.18. Here is an example /etc/radvd.conf that will work with it. It seems that you have to manually (or with a script) set the value to use in place of “xxxx:xxxx:xxxx:xxxx” from the value that is assigned to eth0 (or whichever interface you are using) by the wide-dhcpv6-client.

interface eth0 { 
        AdvSendAdvert on;
        MinRtrAdvInterval 3; 
        MaxRtrAdvInterval 10;
        prefix xxxx:xxxx:xxxx:xxxx::/64 { 
                AdvOnLink on; 
                AdvAutonomous on; 
                AdvRouterAddr on; 
        };
};

Either the configuration of the wide dhcp client or radvd removes the default route from ppp0, so you need to run a command like
“ip -6 route add default dev ppp0” to put it back. Probably having “ipv6 ,” is the wrong thing to do when using wide-dhcp-client and radvd.

On a client machine with bridging I needed to have “net.ipv6.conf.br0.accept_ra=2” in /etc/sysctl.conf to allow it to accept route advisory messages on the interface (in this case eth0), for machines without bridging I didn’t need that.

Firewalling

The default model for firewalling nowadays seems to be using NAT and only configuring specific ports to be forwarded to machines on the LAN. With IPv6 on the LAN every system can directly communicate with the rest of the world which may be a bad thing. The following lines in a firewall script will drop all inbound packets that aren’t in response to packets that are sent out. This will give an equivalent result to the NAT firewall people are used to and you can always add more rules to allow specific ports in.

ip6tables -A FORWARD -i ppp+ -m state --state ESTABLISHED,RELATED -j ACCEPT
ip6tables -A FORWARD -i ppp+ -i DROP

• [1] https://scarff.id.au/blog/2019/nbn-hfc-with-a-linux-router/
• [2] https://www.internode.on.net/support/guides/internet_access/ipv6/linux_bsd/

Focus

This month I didn't have any particular focus. I just worked on issues in my info bubble.

Changes

• libpst: header validity check improvement
• iotop: fix getting syscall numbers
• purple-discord: fix line endings
• ptp-gadget: fix typo, https
• wayback-machine-downloader: fix typos, https, JSON output, gitignore, URL creation, API parsing
• duck: indicator phrases
• check-all-the-things: verbosity variation for yamllint, chktex, rubocop, podchecker
• Debian package uploads: purple-discord, sptag
• Debian wiki pages: AdditionalDebianMailingLists, BSP/2021/05/online, DebianHosting, DebianInstaller/Qemu, DebianKeyring, DebianLocations, DebianSpamAssassin, DebianWiki (EditorGuide, MaintenanceTools, ObsoleteText), Derivatives/Guidelines, DeveloperNews, Dovecot, GraphicsCard, Hardware/Wanted, HowToIdentifyADevice/PCI, initramfs, IRC, LoongArch, LunaJernberg, MemberBenefits, PaulWise, PipeWire, Ports, (ia64, loongarch64), PortsDocs/New, PortTemplate, Redmine, RISC-V, sbuild, Seamonkey, systemd, Teams (DebianMaintainerKeyringTeam, Outreach)
• FOSSjobs wiki pages: Resources
• Wikipedia: Asahi (1 2), Message-ID

Issues

• Crash in purple-discord
• Missing source in Open-Sauce-Fonts
• Building at install time in purple-discord
• Memory leak in purple-discord
• AppArmor denials in clamav-freshclam
• Features in diffoscope, trash-cli
• New versions of ddccontrol
• Build failures when using ognibuild: iotop cmake-hello-world
• Broken watch file for hexedit
• Packaging intended for esprima-python
• Unused deps in sptag
• Incorrect build dir in sptag
• Incorrect docs in sptag
• Large git-lfs data in sptag
• Test problems in sptag (1 2), hexedit

Review

• Spam: reported 1 LWN comment, 26 Debian bug reports and 124 Debian mailing list posts
• Debian wiki: RecentChanges for the month
• Debian BTS usertags: changes for the month
• Debian screenshots:
  • approved e2fsprogs sane util-linux wlogout esekeyd ext4magic lxqt xfce4-clipman
  • rejected netselect (random Android app)

Administration

• Debian wiki: unblock IP addresses, approve accounts

Communication

• Joined the great IRC migration
• Respond to queries from Debian users and contributors on the mailing lists and IRC

Sponsors

The purple-discord, sptag and esprima-python work was sponsored by my employer. All other work was done on a volunteer basis.

Hard Drive Brands

When people ask for advice about what storage to use they often get answers like “use brand X, it works well for me and brand Y had a heap of returns a few years ago”. I’m not convinced there is any difference between the small number of manufacturers that are still in business.

One problem we face with reliability of computer systems is that the rate of change is significant, so every year there will be new technological developments to improve things and every company will take advantage of them. Storage devices are unique among computer parts for their requirement for long-term reliability. For most other parts in a computer system a fault that involves total failure is usually easy to fix and even a fault that causes unreliable operation usually won’t spread it’s damage too far before being noticed (except in corner cases like RAM corruption causing corrupted data on disk).

Every year each manufacturer will bring out newer disks that are bigger, cheaper, faster, or all three. Those disks will be expected to remain in service for 3 years in most cases, and for consumer disks often 5 years or more. The manufacturers can’t test the new storage technology for even 3 years before releasing it so their ability to prove the reliability is limited. Maybe you could buy some 8TB disks now that were manufactured to the same design as used 3 years ago, but if you buy 12TB consumer grade disks, the 20TB+ data center disks, or any other device that is pushing the limits of new technology then you know that the manufacturer never tested it running for as long as you plan to run it. Generally the engineering is done well and they don’t have many problems in the field. Sometimes a new range of disks has a significant number of defects, but that doesn’t mean the next series of disks from the same manufacturer will have problems.

The issues with SSDs are similar to the issues with hard drives but a little different. I’m not sure how much of the improvements in SSDs recently have been due to new technology and how much is due to new manufacturing processes. I had a bad experience with a nameless brand SSD a couple of years ago and now stick to the better known brands. So for SSDs I don’t expect a great quality difference between devices that have the names of major computer companies on them, but stuff that comes from China with the name of the discount web store stamped on it is always a risk.

Hard Drive vs SSD

A few years ago some people were still avoiding SSDs due to the perceived risk of new technology. The first problem with this is that hard drives have lots of new technology in them. The next issue is that hard drives often have some sort of flash storage built in, presumably a “SSHD” or “Hybrid Drive” gets all the potential failures of hard drives and SSDs.

One theoretical issue with SSDs is that filesystems have been (in theory at least) designed to cope with hard drive failure modes not SSD failure modes. The problem with that theory is that most filesystems don’t cope with data corruption at all. If you want to avoid losing data when a disk returns bad data and claims it to be good then you need to use ZFS, BTRFS, the NetApp WAFL filesystem, Microsoft ReFS (with the optional file data checksum feature enabled), or Hammer2 (which wasn’t production ready last time I tested it).

Some people are concerned that their filesystem won’t support “wear levelling” for SSD use. When a flash storage device is exposed to the OS via a block interface like SATA there isn’t much possibility of wear levelling. If flash storage exposes that level of hardware detail to the OS then you need a filesystem like JFFS2 to use it. I believe that most SSDs have something like JFFS2 inside the firmware and use it to expose what looks like a regular block device.

Another common concern about SSD is that it will wear out from too many writes. Lots of people are using SSD for the ZIL (ZFS Intent Log) on the ZFS filesystem, that means that SSD devices become the write bottleneck for the system and in some cases are run that way 24*7. If there was a problem with SSDs wearing out I expect that ZFS users would be complaining about it. Back in 2014 I wrote a blog post about whether swap would break SSD [1] (conclusion – it won’t). Apart from the nameless brand SSD I mentioned previously all of my SSDs in question are still in service. I have recently had a single Samsung 500G SSD give me 25 read errors (which BTRFS recovered from the other Samsung SSD in the RAID-1), I have yet to determine if this is an ongoing issue with the SSD in question or a transient thing. I also had a 256G SSD in a Hetzner DC give 23 read errors a few months after it gave a SMART alert about “Wear_Leveling_Count” (old age).

Hard drives have moving parts and are therefore inherently more susceptible to vibration than SSDs, they are also more likely to cause vibration related problems in other disks. I will probably write a future blog post about disks that work in small arrays but not in big arrays.

My personal experience is that SSDs are at least as reliable as hard drives even when run in situations where vibration and heat aren’t issues. Vibration or a warm environment can cause data loss from hard drives in situations where SSDs will work reliably.

NVMe

I think that NVMe isn’t very different from other SSDs in terms of the actual storage. But the different interface gives some interesting possibilities for data loss. OS, filesystem, and motherboard bugs are all potential causes of data loss when using a newer technology.

Future Technology

The latest thing for high end servers is Optane Persistent memory [2] also known as DCPMM. This is NVRAM that fits in a regular DDR4 DIMM socket that gives performance somewhere between NVMe and RAM and capacity similar to NVMe. One of the ways of using this is “Memory Mode” where the DCPMM is seen by the OS as RAM and the actual RAM caches the DCPMM (essentially this is swap space at the hardware level), this could make multiple terabytes of “RAM” not ridiculously expensive. Another way of using it is “App Direct Mode” where the DCPMM can either be a simulated block device for regular filesystems or a byte addressable device for application use. The final option is “Mixed Memory Mode” which has some DCPMM in “Memory Mode” and some in “App Direct Mode”.

This has much potential for use of backups and to make things extra exciting “App Direct Mode” has RAID-0 but no other form of RAID.

Conclusion

I think that the best things to do for storage reliability are to have ECC RAM to avoid corruption before the data gets written, use reasonable quality hardware (buy stuff with a brand that someone will want to protect), and avoid new technology. New hardware and new software needed to talk to new hardware interfaces will have bugs and sometimes those bugs will lose data.

Filesystems like BTRFS and ZFS are needed to cope with storage devices returning bad data and claiming it to be good, this is a very common failure mode.

Backups are a good thing.

• [1] https://etbe.coker.com.au/2014/04/27/swap-breaking-ssd/
• [2] https://lenovopress.com/lp1066-intel-optane-persistent-memory-100-series

Wifi usually just works. In the past I haven’t had to worry much about performance as for home use things have always been bearable and at work it’s never been my job so I just file a bug report with the relevant people when things go wrong. But a few years ago I had some problems.

For my home network I got a free Wifi AP which wasn’t performing well.

My AP supported 802.11 modes b/g or g/n (b, g, and n are slow, medium, and fast speeds). I initially had the AP running in b/g mode because I had an 802.11b USB wifi device that I used. When I replaced that with one that did 802.11g I tried changing the AP to g/n mode but performance was even worse on my laptop (although quite good on phones) so I switched back.

For phones it appeared to work well giving 54Mb/s while on my laptop (a second hand Thinkpad X1 Carbon) it was giving 11Mb/s at best and often much less than that. The best demonstration of problems was to start transferring a large file while pinging a system on the LAN the AP was connected to. Usually it would give ping times of 1s or more, sometimes 5s+ ping times. While this was happening the “Invalid misc” count increased rapidly, often by more than 100 per second.

The results of Google searches suggest that “Invalid misc” is due to interference and recommend changing the channel. My AP had been on channel 1 which had performed poorly, channels 2-8 were ok, and channel 9 seemed reasonably good. As an aside trying all channels manually is not a good idea, it takes a lot of time and gives little useful data. After changing to channel 9 it still only gave about 500KB/s when transferring large files with ping times of about 100ms, but that’s a big improvement. I tried running “iwlist scanning” to scan the Wifi network for other APs, that showed that channel 1 was used a lot but didn’t make it clear what I should do other than that.

The next thing I tried was the Wifi Analyser app on Android [1] (which doesn’t work on my latest phone, I don’t know if it’s still being actively maintained, it will definitely work on older phones). That has a nice graph mode that shows which channels are used and how the frequencies spread and interfere with other channels. One thing I hadn’t realised before I looked at the graphs is that 802.11n uses 4 channels and interferes past that. If you have two 802.11n devices you don’t have much space left out of the 14 channels available. To make more space I configured the Wifi AP in my ADSL modem to 802.11b/g mode and assigned it a channel away from the others making 4 channels available with no interference.

After that iwconfig reported between 60 and 120Mb/s and I got consistent transfer rates over 1.5MB/s while ping times remained below 100ms.

The 5GHz frequency range is less congested. But at the time I didn’t feel like buying 5GHz equipment.

Since that time I had signed up with an ISP that had a good deal on a Wifi AP that had 5GHz. Now I have all my devices configured to use 5GHz or 2.4GHz depending on which they think is best. So there’s less devices on 2.4GHz and the AP is configured for “20MHz channel width” in the 2.4GHz range (which means 802.11b/g).

Conclusion

802.11n seems to be a bad idea unless you run the only AP in an area. In a suburban area you will have 3 other houses broadcasting in your area and 802.11n is bad for everyone. The worst case scenario would be one person using 802.11n and interfering with everyone else’s 802.11g and then having everyone else turn on 802.11n to try and make things faster.

5GHz is less congested as most people run old hardware. It also has a shorter range which has the upside of getting less interference from other people. I’m considering installing 5GHz APs at both ends of my house and configuring all my new devices to not use 2.4GHz.

Wifi spectrum analysis software is much better than manual testing of channels or trying to deduce things from the output if “iwlist scanning“.

• [1] https://play.google.com/store/apps/details?id=com.farproc.wifi.analyzer

This page has summaries of some USB limits [1]. USB 2.0 has the longest cable segment limit of 5M (1.x, 3.x, and USB-C are all shorter), so USB 2.0 is what you want for long runs. The USB limit for daisy chained devices is 7 (including host and device), so that means a maximum of 5 hubs or a total distance between PC and device of 30M. There are lots of other ways of getting longer distances, the cheapest seems to be putting an old PC at the far end of an Ethernet cable.

Some (many? most?) laptops have USB for the interface to the built in camera, and these are sold from scrapped laptops. You could probably setup a home monitoring system in a typical home by having a centrally located PC with USB hubs fanning out to the corners. But old Android phones on a Wifi network seems like an easier option if you can prevent the phones from crashing all the time.

• [1] http://tinyurl.com/c859e9c

I’ve just bought a HP ML110 Gen9 as a personal workstation, here are my notes about it and documentation on running Debian on it.

Why a Server?

I bought this is because the ML350p Gen8 turned out to be too noisy for my taste [1]. I’ve just been editing my page about Memtest86+ RAM speeds [2], over the course of 10 years (high end laptop in 2001 to low end server in 2011) RAM speed increased by a factor of 100. RAM speed has been increasing at a lower rate than CPU speed and is becoming an increasing bottleneck on system performance. So while I could get a faster white-box system the cost of a second-hand server isn’t that great and I’m getting a system that’s 100* faster than what was adequate for most tasks in 2001.

HP makes some nice workstation class machines with ECC RAM (think server without remote management, hot-swap disks, or redundant PSU but with sound hardware). But they are significantly more expensive on the second hand market than servers.

This server cost me $650 and came with 2*480G “DC” grade SSDs (Intel but with HPE stickers). I hope that more than half of the purchase price will be recovered from selling the SSDs (I will use NVMe). Also 64G of non-ECC RAM costs $370 from my local store. As I want lots of RAM for testing software on VMs it will probably turn out that the server cost me less than the cost of new RAM once I’ve sold the SSDs!

Monitoring

wget -O /usr/local/hpePublicKey2048_key1.pub https://downloads.linux.hpe.com/SDR/hpePublicKey2048_key1.pub
echo "# HP monitoring" >> /etc/apt/sources.list
echo "deb [signed-by=/usr/local/hpePublicKey2048_key1.pub] http://downloads.linux.hpe.com/SDR/downloads/MCP/Debian/ stretch/current-gen9 non-free" >> /etc/apt/sources.list

The above commands will make the management utilities installable on Debian/Buster. If using Bullseye (Testing at the moment) then you need to have Buster repositories in APT for dependencies, HP doesn’t seem to have packaged all their utilities for Buster.

wget -r -np -A Contents-amd64.bz2 http://downloads.linux.hpe.com/SDR/repo/mcp/debian/dists

To find out which repositories had the programs I need I ran the above recursive wget and then uncompressed them for grep -R (as an aside it would be nice if bzgrep supported -R). I installed the hp-health package which has hpasmcli for viewing and setting many configuration options and hplog for viewing event log data and thermal data (among a few other things). I’ve added a new monitor to etbemon hp-temp.monitor to monitor HP server temperatures, I haven’t made a configuration option to change the thresholds for what is considered “normal” because I don’t expect server class systems to be routinely running above the warning temperature. For the linux-temp.monitor script I added a command-line option for the percentage of the “high” temperature that is an error condition as well as an option for the number of CPU cores that need to be over-temperature, having one core permanently over the “high” temperature due to a web browser seems standard for white-box workstations nowadays.

The hp-health package depends on “libc6-i686 | lib32gcc1” even though none of the programs it contains use lib32gcc1. Depending on lib32gcc1 instead of “lib32gcc1 | lib32gcc-s1” means that installing hp-health requires removing mesa-opencl-icd which probably means that BOINC can’t use the GPU among other things. I solved this by editing /var/lib/dpkg/status and changing the package dependencies to what I desired. Note that this is not something for a novice to do, make a backup and make sure you know what you are doing!

Issues

The “HPE Dynamic Smart Array B140i” is a software RAID device. While it’s convenient for some users that software RAID gets supported in the UEFI boot process, generally software RAID is a bad idea. Also my system has hot-swap drive caddies but the controller doesn’t support hot-swap. So the first thing to do was to configure the array controller to run in AHCI mode and give up on using hot-swap drive caddies for hot-swap. I tested all the documented ways of scanning for new devices and nothing other than a reboot made the kernel recognise a new SATA disk.

According to specs provided by Dell and HP the ML110 Gen9 makes less noise than the PowerEdge T320, according to my own observations the reverse is the case. I don’t know if this is because of Dell being more conservative in their specs than HP or because of how dBA is measured vs my own personal annoyance thresholds for sounds. As the system makes more noise than I’m comfortable with I plan to build a rubber enclosure for the rear of the system to reduce noise, that will be the subject of another post. For Australian readers Bunnings has some good deals on rubber floor mats that can be used to reduce server noise.

The server doesn’t have sound hardware, while one could argue that servers don’t need sound there are some server uses for sound hardware such as using line input as a source of entropy. Also for a manufacturer it might be a benefit to use the same motherboard for workstations and servers. Fortunately a friend gave me a nice set of Logitech USB speakers a few years ago that I hadn’t previously had a cause to use, so that will solve the problem for me (I don’t need line-in on a workstation).

UEFI and Memtest

I decided to try UEFI boot for something new (in the past I’d only used UEFI boot for a server that only had large disks). In the past I’ve booted all my own systems with BIOS boot because I’m familiar with it and they all have SSDs for booting which are less than 2TB in size (until recently 2TB SSDs weren’t affordable for my personal use). The Debian UEFI wiki page is worth reading [3]. The Debian Wiki page about ProLiant servers [4] is worth reading too.

Memtest86+ doesn’t support EFI booting (just goes to a black screen) even though Debian/Buster puts in a GRUB entry for it (Debian bug #695246 was filed for this in 2012). Also on my ML110 Memtest86+ doesn’t report the RAM speed (a known issue on Memtest86+). Comments on the net say that Memtest86+ hasn’t been maintained for a long time and Memtest86 (the non-free version) has been updated more recently. So far I haven’t seen a system with ECC RAM have a memory problem that could be detected by Memtest86+, the memory problems I’ve seen on ECC systems have been things that prevent booting (RAM not being recognised correctly), that are detected by the BIOS as ECC errors before booting, or that are reported by the kernel as ECC errors at run time (happened years ago and I can’t remember the details).

Overall I’m not a fan of EFI with the way it currently works in Debian. It seems to add some of the GRUB functionality into the BIOS and then use that to load GRUB. It seems that EFI can do everything you need and it would be better to just have a single boot loader not two of them chained.

Power Supply

There are a range of PSUs for the ML110, the one I have has the smallest available PSU (350W) and doesn’t have a PCIe power cable (the one used for video cards). Here is the HP document which shows the cabling for the various ML110 Gen8 PSUs [5], I have the 350W PSU. One thing I’ve considered is whether I could make an adaptor from the drive bay power to the PCIe connector. A quick web search indicates that 4 SAS disks when active can take up to 75W more power than a system with no disks. If that’s the case then the 2 spare drive bay connectors which can each handle 4 disks should be able to supply 150W. As a 6 pin PCIe power cable (GPU power cable) is rated at 75W that should be fine in theory (here’s a page with the pinouts for PCIe power connectors [6]). My video card is a Radeon R7 260X which apparently takes about 113W all up so should be taking less than 75W from the PCIe power cable.

All I really want is YouTube, Netflix, and text editing at 4K resolution. So I don’t need much in terms of 3D power. KDE uses some of the advanced features of modern video cards, but it doesn’t compare to 3D gaming. According to the Wikipedia page for Radeon RX 500 series [7] the RX560 supports DisplayPort 1.4 and HDMI 2.0 (both of which do 4K@60Hz) and has a TDP of 75W. So a RX560 video card seems like a good option that will work in any system that doesn’t have a spare PCIe power cable. I’ve just ordered one of those for $246 so hopefully that will arrive in a week or so.

PCI Fan

The ML110 Gen9 has an “optional” PCIe “fan and baffle” to cool PCIe cards (part number 784580-B21). Extra cooling of PCIe cards is a good thing, but $400 list price (and about $50 ebay price) for the fan and baffle is unpleasant. When I boot the system with a PCIe dual-ethernet card and two PCIe NVMe cards it gives a BIOS warning on boot, when I add a video card it refuses to boot without the extra fan. It’s nice that the system makes sure it doesn’t get into a thermal overload situation, but it would be nicer if they just shipped all necessary fans with it instead of trying to get more money out of customers. I just bought a PCI fan and baffle kit for $60.

Conclusion

In spite of the unexpected expense of a new video card and PCI fan the overall cost of this system is still low, particularly when considering that I’ll find another use for the video card which needs and extra power connector.

It is disappointing that HP didn’t supply a more capable PSU and fit all the fans to all models, the expectation of a server is that you can just do server stuff not have to buy extra bits before you can do server stuff. If you want to install Tesla GPUs or something then it’s expected that you might need to do something unusual with a server, but the basic stuff should just work. A single processor tower server should be designed to function as a deskside workstation and be able to handle an average video card.

Generally it’s a nice computer, I look forward to getting the next deliveries of parts so I can make it work properly.

• [1] https://etbe.coker.com.au/2021/04/22/hp-ml350p-gen8/
• [2] https://doc.coker.com.au/computers/ram-speed-memtest86/
• [3] https://wiki.debian.org/UEFI
• [4] https://wiki.debian.org/HP/ProLiant
• [5] https://support.hpe.com/hpesc/public/docDisplay?docId=c05054092
• [6] https://www.moddiy.com/pages/Power-Supply-Connectors-and-Pinouts.html

There was some kerfuffle in 2020 over the use of the term master in git, the origins of the term were resolutely settled so I set about renaming my primary branches to other words.

The one that most people seemed to be using was main, so I started using it too. While main was conveniently brief, it still felt inadequate. Something was wrong and it kept bubbling away in the background.

The word that kept percolating through was consensus.

I kept dismissing it for all the obvious reasons, such as it was too long, too unwieldy, too obscure or just simply not used commonly enough to be familiar or well understood.

The word was persistent though and consensus kept coming back.

One morning recently, I was staring at a git tree when the realisation slapped me in the face that in a git workflow the primary / master / main branches reflected a consensus point in that workflow.

Consensus: Decisions are reached in a dialogue between equals

That realisation settled it pretty hard for me, consensus not only accurately reflected the point in the workflow but was also the most correct English word for what that branch represented.

Continue the conversation on Matrix.

Living in California, I’ve (sadly) grown accustomed to needing to keep track of our local air quality index (AQI) ratings, particularly as we live close to places where large wildfires happen every other year.

Last year, Josh and I bought a PurpleAir outdoor air quality meter, which has been great. We contribute our data to a collection of very local air quality meters, which is important, since the hilly nature of the North Bay means that the nearest government air quality ratings can be significantly different to what we experience here in Petaluma.

I recently went looking to pull my PurpleAir sensor data into my Home Assistant setup. Unfortunately, the PurpleAir API does not return the AQI metric for air quality, only the raw PM2.5/PM5/PM10 numbers. After some searching, I found a nice template sensor solution on the Home Assistant forums, which I’ve modernised by adding the AQI as a sub-sensor, and adding unique ID fields to each useful sensor, so that you can assign them to a location.

You’ll end up with sensors for raw PM2.5, the PM2.5 AQI value, the US EPA air quality category, air pressure, relative humidity and air pressure.

How to use this

First up, visit the PurpleAir Map, find the sensor you care about, click “get this widgetâ€�, and then “JSONâ€�. That will give you the URL to set as the resource key in purpleair.yaml.

Adding the configuration

In HomeAssistant, add the following line to your configuration.yaml:

sensor: !include purpleair.yaml

and then add the following contents to purpleair.yaml

 - platform: rest
   name: 'PurpleAir'

   # Substitute in the URL of the sensor you care about.  To find the URL, go
   # to purpleair.com/map, find your sensor, click on it, click on "Get This
   # Widget" then click on "JSON".
   resource: https://www.purpleair.com/json?key={KEY_GOES_HERE}&show={SENSOR_ID}

   # Only query once a minute to avoid rate limits:
   scan_interval: 60

   # Set this sensor to be the AQI value.
   #
   # Code translated from JavaScript found at:
   # https://docs.google.com/document/d/15ijz94dXJ-YAZLi9iZ_RaBwrZ4KtYeCy08goGBwnbCU/edit#
   value_template: >
     {{ value_json["results"][0]["Label"] }}
   unit_of_measurement: ""
   # The value of the sensor can't be longer than 255 characters, but the
   # attributes can.  Store away all the data for use by the templates below.
   json_attributes:
     - results

 - platform: template
   sensors:
     purpleair_aqi:
       unique_id: 'purpleair_SENSORID_aqi_pm25'
       friendly_name: 'PurpleAir PM2.5 AQI'
       value_template: >
         {% macro calcAQI(Cp, Ih, Il, BPh, BPl) -%}
           {{ (((Ih - Il)/(BPh - BPl)) * (Cp - BPl) + Il)|round|float }}
         {%- endmacro %}
         {% if (states('sensor.purpleair_pm25')|float) > 1000 %}
           invalid
         {% elif (states('sensor.purpleair_pm25')|float) > 350.5 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 500.0, 401.0, 500.0, 350.5) }}
         {% elif (states('sensor.purpleair_pm25')|float) > 250.5 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 400.0, 301.0, 350.4, 250.5) }}
         {% elif (states('sensor.purpleair_pm25')|float) > 150.5 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 300.0, 201.0, 250.4, 150.5) }}
         {% elif (states('sensor.purpleair_pm25')|float) > 55.5 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 200.0, 151.0, 150.4, 55.5) }}
         {% elif (states('sensor.purpleair_pm25')|float) > 35.5 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 150.0, 101.0, 55.4, 35.5) }}
         {% elif (states('sensor.purpleair_pm25')|float) > 12.1 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 100.0, 51.0, 35.4, 12.1) }}
         {% elif (states('sensor.purpleair_pm25')|float) >= 0.0 %}
           {{ calcAQI((states('sensor.purpleair_pm25')|float), 50.0, 0.0, 12.0, 0.0) }}
         {% else %}
           invalid
         {% endif %}
       unit_of_measurement: "bit"
     purpleair_description:
       unique_id: 'purpleair_SENSORID_description'
       friendly_name: 'PurpleAir AQI Description'
       value_template: >
         {% if (states('sensor.purpleair_aqi')|float) >= 401.0 %}
           Hazardous
         {% elif (states('sensor.purpleair_aqi')|float) >= 301.0 %}
           Hazardous
         {% elif (states('sensor.purpleair_aqi')|float) >= 201.0 %}
           Very Unhealthy
         {% elif (states('sensor.purpleair_aqi')|float) >= 151.0 %}
           Unhealthy
         {% elif (states('sensor.purpleair_aqi')|float) >= 101.0 %}
           Unhealthy for Sensitive Groups
         {% elif (states('sensor.purpleair_aqi')|float) >= 51.0 %}
           Moderate
         {% elif (states('sensor.purpleair_aqi')|float) >= 0.0 %}
           Good
         {% else %}
           undefined
         {% endif %}
       entity_id: sensor.purpleair
     purpleair_pm25:
       unique_id: 'purpleair_SENSORID_pm25'
       friendly_name: 'PurpleAir PM 2.5'
       value_template: "{{ state_attr('sensor.purpleair','results')[0]['PM2_5Value'] }}"
       unit_of_measurement: "μg/m3"
       entity_id: sensor.purpleair
     purpleair_temp:
       unique_id: 'purpleair_SENSORID_temperature'
       friendly_name: 'PurpleAir Temperature'
       value_template: "{{ state_attr('sensor.purpleair','results')[0]['temp_f'] }}"
       unit_of_measurement: "°F"
       entity_id: sensor.purpleair
     purpleair_humidity:
       unique_id: 'purpleair_SENSORID_humidity'
       friendly_name: 'PurpleAir Humidity'
       value_template: "{{ state_attr('sensor.purpleair','results')[0]['humidity'] }}"
       unit_of_measurement: "%"
       entity_id: sensor.purpleair
     purpleair_pressure:
       unique_id: 'purpleair_SENSORID_pressure'
       friendly_name: 'PurpleAir Pressure'
       value_template: "{{ state_attr('sensor.purpleair','results')[0]['pressure'] }}"
       unit_of_measurement: "hPa"
       entity_id: sensor.purpleair

Quirks

I had difficulty getting the AQI to display as a numeric graph when I didn’t set a unit. I went with bit, and that worked just fine. 🤷â€�♂ï¸�

I have two Pi-hole servers at home running Fedora with DNS over TLS, both of which auto update on different days (to avoid having both down if something goes wrong).

First, create a script to get the latest updates if any are available, rebooting the Pi-hole if they were successful.

cat << \EOF | sudo tee /usr/local/sbin/update-pihole.sh
#!/bin/bash
PIHOLE_UPDATE="$(pihole -up --check-only)"
if ! grep -q 'Everything is up to date' <<< "${PIHOLE_UPDATE}" ; then
  pihole -up
  if [[ $? -eq 0 ]] ; then
    echo "$(date "+%h %d %T") update: success" >> /var/log/pihole.log
    reboot
  fi
else
    echo "$(date "+%h %d %T") update: nothing to do" >> /var/log/pihole.log
fi
EOF

Make the script executable.

sudo chmod a+x /usr/local/sbin/update-pihole.sh

Next, let’s create a systemd service for the update, which is required to be able to create a timer.

cat << EOF | sudo tee /etc/systemd/system/update-pihole.service 
[Unit]
Description=Update pihole
After=network-online.target
 
[Service]
Type=oneshot
ExecStart=/usr/local/sbin/update-pihole.sh
EOF

Now we can create the systemd timer. Here I am updating weekly on Mondays at midnight (my other Pi-hole updates weekly on Thursdays), feel free to adjust as you see fit. If you have two, perhaps update on alternate days, like I do.

cat << EOF | sudo tee /etc/systemd/system/update-pihole.timer 
[Unit]
Description=Timer for updating pihole
Wants=network-online.target
 
[Timer]
OnBootSec=
OnCalendar=Mon *-*-* 00:00:00
Persistent=true

[Install]
WantedBy=timers.target
EOF

Now that we have the timer, we can tell systemd about it and enable the timer.

sudo systemctl daemon-reload
sudo systemctl enable --now update-pihole.timer

That it’s it! Your systems will now check for updates and be rebooted if necessary. It might be good to pair this with some monitoring to ensure that your Pi-holes are working as expected and be alerted if otherwise…

So, this idea has been brewing for a while now… try and watch all of Doctor Who. All of it. All 38 seasons. Today(ish), we started. First up, from 1963 (first aired not quite when intended due to the Kennedy assassination): An Unearthly Child. The first episode of the first serial.

A lot of iconic things are there from the start: the music, the Police Box, embarrassing moments of not quite remembering what time one is in, and normal humans accidentally finding their way into the TARDIS.

I first saw this way back when a child, where they were repeated on ABC TV in Australia for some anniversary of Doctor Who (I forget which one). Well, I saw all but the first episode as the train home was delayed and stopped outside Caulfield for no reason for ages. Some things never change.

Of course, being a show from the early 1960s, there’s some rougher spots. We’re not about to have the picture of diversity, and there’s going to be casual racism and sexism. What will be interesting is noticing these things today, and contrasting with my memory of them at the time (at least for episodes I’ve seen before), and what I know of the attitudes of the time.

“This year-ometer is not calculating properly” is a very 2020 line though (technically from the second episode).

Inheriting Clutter: How to Calm the Chaos Your Parents Leave Behind by Julie Hall

Lots of specific advice for Children and Parents on preparing for and handling estates. Lots of good advice on defusing feuds before they start. 3/5

Shortest Way Home: One Mayor’s Challenge and a Model for America’s Future by Pete Buttigieg

Memoir of a small-city mayor who grew up gay in Indiana. Timed to come out for his presidential run in 2019. Nice enough read with a good mix of stories. 3/5

Moonraker by Ian Fleming

James Bond investigates the mysterious industrialist Hugo Drax and his nuclear missile project which is vital to Britain’s security. Exciting and well written. 3/5

Some Assembly Required: Decoding Four Billion Years of Life, from Ancient Fossils to DNA by Neil Shubin

A very accessible account of how various ways genetic information is passed down was discovered, who found it and how it works. 4/5

My Scoring System

• 5/5 = Brilliant, top 5 book of the year
• 4/5 = Above average, strongly recommend
• 3/5 = Average. in the middle 70% of books I read
• 2/5 = Disappointing
• 1/5 = Did not like at all

It’s been a while since my last post about tracking support for the Oculus Rift in February. There’s been big improvements since then – working really well a lot of the time. It’s gone from “If I don’t make any sudden moves, I can finish an easy Beat Saber level” to “You can’t hide from me!” quality.

Equally, there are still enough glitches and corner cases that I think I’ll still be at this a while.

Here’s a video from 3 weeks ago of (not me) playing Beat Saber on Expert+ setting showing just how good things can be now:

Strap in. Here’s what I’ve worked on in the last 6 weeks:

Pose Matching improvements

Most of the biggest improvements have come from improving the computer vision algorithm that’s matching the observed LEDs (blobs) in the camera frames to the 3D models of the devices.

I split the brute-force search algorithm into 2 phases. It now does a first pass looking for ‘obvious’ matches. In that pass, it does a shallow graph search of blobs and their nearest few neighbours against LEDs and their nearest neighbours, looking for a match using a “Strong” match metric. A match is considered strong if expected LEDs match observed blobs to within 1.5 pixels.

Coupled with checks on the expected orientation (matching the Gravity vector detected by the IMU) and the pose prior (expected position and orientation are within predicted error bounds) this short-circuit on the search is hit a lot of the time, and often completes within 1 frame duration.

In the remaining tricky cases, where a deeper graph search is required in order to recover the pose, the initial search reduces the number of LEDs and blobs under consideration, speeding up the remaining search.

I also added an LED size model to the mix – for a candidate pose, it tries to work out how large (in pixels) each LED should appear, and use that as a bound on matching blobs to LEDs. This helps reduce mismatches as devices move further from the camera.

LED labelling

When a brute-force search for pose recovery completes, the system now knows the identity of various blobs in the camera image. One way it avoids a search next time is to transfer the labels into future camera observations using optical-flow tracking on the visible blobs.

The problem is that even sped-up the search can still take a few frame-durations to complete. Previously LED labels would be transferred from frame to frame as they arrived, but there’s now a unique ID associated with each blob that allows the labels to be transferred even several frames later once their identity is known.

IMU Gyro scale

One of the problems with reverse engineering is the guesswork around exactly what different values mean. I was looking into why the controller movement felt “swimmy” under fast motions, and one thing I found was that the interpretation of the gyroscope readings from the IMU was incorrect.

The touch controllers report IMU angular velocity readings directly as a 16-bit signed integer. Previously the code would take the reading and divide by 1024 and use the value as radians/second.

From teardowns of the controller, I know the IMU is an Invensense MPU-6500. From the datasheet, the reported value is actually in degrees per second and appears to be configured for the +/- 2000 °/s range. That yields a calculation of Gyro-rad/s = Gyro-°/s * (2000 / 32768) * (?/180) – or a divisor of 938.734.

The 1024 divisor was under-estimating rotation speed by about 10% – close enough to work until you start moving quickly.

Limited interpolation

If we don’t find a device in the camera views, the fusion filter predicts motion using the IMU readings – but that quickly becomes inaccurate. In the worst case, the controllers fly off into the distance. To avoid that, I added a limit of 500ms for ‘coasting’. If we haven’t recovered the device pose by then, the position is frozen in place and only rotation is updated until the cameras find it again.

Exponential filtering

I implemented a 1-Euro exponential smoothing filter on the output poses for each device. This is an idea from the Project Esky driver for Project North Star/Deck-X AR headsets, and almost completely eliminates jitter in the headset view and hand controllers shown to the user. The tradeoff is against introducing lag when the user moves quickly – but there are some tunables in the exponential filter to play with for minimising that. For now I’ve picked some values that seem to work reasonably.

Non-blocking radio

Communications with the touch controllers happens through USB radio command packets sent to the headset. The main use of radio commands in OpenHMD is to read the JSON configuration block for each controller that is programmed in at the factory. The configuration block provides the 3D model of LED positions as well as initial IMU bias values.

Unfortunately, reading the configuration block takes a couple of seconds on startup, and blocks everything while it’s happening. Oculus saw that problem and added a checksum in the controller firmware. You can read the checksum first and if it hasn’t changed use a local cache of the configuration block. Eventually, I’ll implement that caching mechanism for OpenHMD but in the meantime it still reads the configuration blocks on each startup.

As an interim improvement I rewrote the radio communication logic to use a state machine that is checked in the update loop – allowing radio communications to be interleaved without blocking the regularly processing of events. It still interferes a bit, but no longer causes a full multi-second stall as each hand controller turns on.

Haptic feedback

The hand controllers have haptic feedback ‘rumble’ motors that really add to the immersiveness of VR by letting you sense collisions with objects. Until now, OpenHMD hasn’t had any support for applications to trigger haptic events. I spent a bit of time looking at USB packet traces with Philipp Zabel and we figured out the radio commands to turn the rumble motors on and off.

In the Rift CV1, the haptic motors have a mode where you schedule feedback events into a ringbuffer – effectively they operate like a low frequency audio device. However, that mode was removed for the Rift S (and presumably in the Quest devices) – and deprecated for the CV1.

With that in mind, I aimed for implementing the unbuffered mode, with explicit ‘motor on + frequency + amplitude’ and ‘motor off’ commands sent as needed. Thanks to already having rewritten the radio communications to use a state machine, adding haptic commands was fairly easy.

The big question mark is around what API OpenHMD should provide for haptic feedback. I’ve implemented something simple for now, to get some discussion going. It works really well and adds hugely to the experience. That code is in the https://github.com/thaytan/OpenHMD/tree/rift-haptics branch, with a SteamVR-OpenHMD branch that uses it in https://github.com/thaytan/SteamVR-OpenHMD/tree/controller-haptics-wip

Problem areas

Unexpected tracking losses

I’d say the biggest problem right now is unexpected tracking loss and incorrect pose extractions when I’m not expecting them. Especially my right controller will suddenly glitch and start jumping around. Looking at a video of the debug feed, it’s not obvious why that’s happening:

To fix cases like those, I plan to add code to log the raw video feed and the IMU information together so that I can replay the video analysis frame-by-frame and investigate glitches systematically. Those recordings will also work as a regression suite to test future changes.

Sensor fusion efficiency

The Kalman filter I have implemented works really nicely – it does the latency compensation, predicts motion and extracts sensor biases all in one place… but it has a big downside of being quite expensive in CPU. The Unscented Kalman Filter CPU cost grows at O(n^3) with the size of the state, and the state in this case is 43 dimensional – 22 base dimensions, and 7 per latency-compensation slot. Running 1000 updates per second for the HMD and 500 for each of the hand controllers adds up quickly.

At some point, I want to find a better / cheaper approach to the problem that still provides low-latency motion predictions for the user while still providing the same benefits around latency compensation and bias extraction.

Lens Distortion

To generate a convincing illusion of objects at a distance in a headset that’s only a few centimetres deep, VR headsets use some interesting optics. The LCD/OLED panels displaying the output get distorted heavily before they hit the users eyes. What the software generates needs to compensate by applying the right inverse distortion to the output video.

Everyone that tests the CV1 notices that the distortion is not quite correct. As you look around, the world warps and shifts annoyingly. Sooner or later that needs fixing. That’s done by taking photos of calibration patterns through the headset lenses and generating a distortion model.

Camera / USB failures

The camera feeds are captured using a custom user-space UVC driver implementation that knows how to set up the special synchronisation settings of the CV1 and DK2 cameras, and then repeatedly schedules isochronous USB packet transfers to receive the video.

Occasionally, some people experience failure to re-schedule those transfers. The kernel rejects them with an out-of-memory error failing to set aside DMA memory (even though it may have been running fine for quite some time). It’s not clear why that happens – but the end result at the moment is that the USB traffic for that camera dies completely and there’ll be no more tracking from that camera until the application is restarted.

Often once it starts happening, it will keep happening until the PC is rebooted and the kernel memory state is reset.

Occluded cases

Tracking generally works well when the cameras get a clear shot of each device, but there are cases like sighting down the barrel of a gun where we expect that the user will line up the controllers in front of one another, and in front of the headset. In that case, even though we probably have a good idea where each device is, it can be hard to figure out which LEDs belong to which device.

If we already have a good tracking lock on the devices, I think it should be possible to keep tracking even down to 1 or 2 LEDs being visible – but the pose assessment code will have to be aware that’s what is happening.

Upstreaming

April 14th marks 2 years since I first branched off OpenHMD master to start working on CV1 tracking. How hard can it be, I thought? I’ll knock this over in a few months.

Since then I’ve accumulated over 300 commits on top of OpenHMD master that eventually all need upstreaming in some way.

One thing people have expressed as a prerequisite for upstreaming is to try and remove the OpenCV dependency. The tracking relies on OpenCV to do camera distortion calculations, and for their PnP implementation. It should be possible to reimplement both of those directly in OpenHMD with a bit of work – possibly using the fast LambdaTwist P3P algorithm that Philipp Zabel wrote, that I’m already using for pose extraction in the brute-force search.

Others

I’ve picked the top issues to highlight here. https://github.com/thaytan/OpenHMD/issues has a list of all the other things that are still on the radar for fixing eventually.

Other Headsets

At some point soon, I plan to put a pin in the CV1 tracking and look at adapting it to more recent inside-out headsets like the Rift S and WMR headsets. I implemented 3DOF support for the Rift S last year, but getting to full positional tracking for that and other inside-out headsets means implementing a SLAM/VIO tracking algorithm to track the headset position.

Once the headset is tracking, the code I’m developing here for CV1 to find and track controllers will hopefully transfer across – the difference with inside-out tracking is that the cameras move around with the headset. Finding the controllers in the actual video feed should work much the same.

Sponsorship

This development happens mostly in my spare time and partly as open source contribution time at work at Centricular. I am accepting funding through Github Sponsorships to help me spend more time on it – I’d really like to keep helping Linux have top-notch support for VR/AR applications. Big thanks to the people that have helped get this far.

Every so often, I release a new libeatmydata. This has not happened for a long time. This is just some bug fixes, most of which have been in the Debian package for some time, I’ve just been lazy and not sat down and merged them.

git clone https://github.com/stewartsmith/libeatmydata.git

Download the source tarball from here: libeatmydata-129.tar.gz and GPG signature: libeatmydata-129.tar.gz.asc from my GPG key.

Or, feel free to grab some Fedora RPMs:

• libeatmydata-129-1.fc33.src.rpm
• libeatmydata-129-1.fc33.x86_64.rpm
• libeatmydata-129-1.fc33.ppc64le.rpm
• libeatmydata-debuginfo-129-1.fc33.ppc64le.rpm
• libeatmydata-debuginfo-129-1.fc33.x86_64.rpm
• libeatmydata-debugsource-129-1.fc33.ppc64le.rpm
• libeatmydata-debugsource-129-1.fc33.x86_64.rpm

Releases published also in the usual places:

• https://www.flamingspork.com/projects/libeatmydata/
• https://github.com/stewartsmith/libeatmydata/releases/tag/v129

The Dream Machine: The Untold History of the Notorious V-22 Osprey by Richard Whittle

The story of tilt-rotor aircraft & the long history of the V-22’s development. Covers defense politics and technical matters equally well. 4/5

Broad Band: The Untold Story of the Women Who Made the Internet by Claire L. Evans

A series of stories about individuals, not just about the Internet but about women and early computing, hypertext, etc. Interesting and well written. 3/5

The Fifth Risk by Michael Lewis

Lewis interviews people involved in the Obama to Trump transition at 3 major government agencies. He profiles the people, their jobs and in most cases how the Trump people underestimated the Dept’s importance. 3/5

OK Boomer, Let’s Talk: How My Generation Got Left Behind by Jill Filipovic

Mostly a stats dump with a few profiles and accounts of struggling millennials sprinkled in. With a weird tone shift to boomer-love in the last chapter. Okay I guess 3/5

Six Days of Impossible: Navy SEAL Hell Week – A Doctor Looks Back by Robert Adams

A first-hand account of a training class in 1974/75 where only 11 of the 71 starters graduated. Fun read although some interviews with non-graduates would have provided a contrast. 3/5

Three Laws of Nature: A Little Book on Thermodynamics by R Stephen Berry

Science mixed in with some history, designed for those with minimal science. The equations were simple but numerous & didn’t work in audiobook format. Try the printed version. 2/5

Space Odyssey: Stanley Kubrick Arthur C Clarke and the Making of a Masterpiece by Michael Benson

A detailed account of the film’s making from pre-production though to the bad reviews of the first release. Covers most aspects of the film and people involved. 4/5

The Soul of a New Machine by Tracy Kidder

Pulitzer Prize winning story of a team creating a new model of minicomputer in the late-1970s. Good portraits of the team members and aspects of the tech. 4/5

My Scoring System

• 5/5 = Brilliant, top 5 book of the year
• 4/5 = Above average, strongly recommend
• 3/5 = Average. in the middle 70% of books I read
• 2/5 = Disappointing
• 1/5 = Did not like at all

Today, 30 March, is World Bipolar Day.

Why that particular date? It’s Vincent van Gogh’s birthday (1853), and there is a fairly strong argument that the Dutch painter suffered from bipolar (among other things).

The image on the side is Vincent’s drawing “Worn Out” (from 1882), and it seems to capture the feeling rather well – whether (hypo)manic, depressed, or mixed. It’s exhausting.

Bipolar is complicated, often undiagnosed or misdiagnosed, and when only treated with anti-depressants, it can trigger the (hypo)mania – essentially dragging that person into that state near-permanently.

Have you heard of Bipolar II?

Hypo-mania is the “lesser” form of mania that distinguishes Bipolar I (the classic “manic depressive” syndrome) from Bipolar II. It’s “lesser” only in the sense that rather than someone going so hyper they may think they can fly (Bipolar I is often identified when someone in manic state gets admitted to hospital – good catch!) while with Bipolar II the hypo-mania may actually exhibit as anger. Anger in general, against nothing in particular but potentially everyone and everything around them. Or, if it’s a mixed episode, anger combined with strong negative thoughts. Either way, it does not look like classic mania. It is, however, exhausting and can be very debilitating.

Bipolar II people often present to a doctor while in depressed state, and GPs (not being psychiatrists) may not do a full diagnosis. Note that D.A.S. and similar test sheets are screening tools, they are not diagnostic. A proper diagnosis is more complex than filling in a form some questions (who would have thought!)

Call to action

If you have a diagnosis of depression, only from a GP, and are on medication for this, I would strongly recommend you also get a referral to a psychiatrist to confirm that diagnosis.

Our friends at the awesome Black Dog Institute have excellent information on bipolar, as well as a quick self-test – if that shows some likelihood of bipolar, go get that referral and follow up ASAP.

I will be writing more about the topic in the coming time.

So, I learned something recently: if you pick up your iPhone with eBay open on an auction bid screen in just the right way, you may accidentally click the bid button and end up buying an old computer. Totally not the worst thing ever, and certainly a creative way to make a decision.

So, not too long later, a box arrives!

In the 1990s, Apple created some pretty “interesting” computers and product line. One thing you could get is a DOS Compatibility (or PC Compatibility) card. This was a card that went into one of the expansion slots on a Mac and had something really curious on it: most of the guts of a PC.

Others have written on these cards too: https://www.engadget.com/2009-12-10-before-there-was-boot-camp-there-were-dos-compatibility-cards.html and http://www.edibleapple.com/2009/12/09/blast-from-the-past-a-look-back-at-apples-dos-compatibility-cards/. There’s also the Service Manual https://tim.id.au/laptops/apple/misc/pc_compatibility_card.pdf with some interesting details.

The machine I’d bought was an Apple Power Macintosh 7200/120 with the PC Compatible card added afterwards (so it doesn’t have the PC Compatible label on the front like some models ended up getting).

Wikipedia has a good article on the line, noting that it was first released in August 1995, and fitting for the era, was sold as about 14 million other model numbers (okay not quite that bad, it was only a total of four model numbers for essentially the same machine). This specific model, the 7200/120 was introduced on April 22nd, 1996, and the original web page describing it from Apple is on the wayback machine.

For older Macs, Low End Mac is a good resource, and there’s a page on the 7200, and amazingly Apple still has the tech specs on their web site!

The 7200 series replaced the 7100, which was one of the original PowerPC based Macs. The big changes are using the industry standard PCI bus for its three expansion slots rather than NuBus. Rather surprisingly, NuBus was not Apple specific, but you could not call it widely adopted by successful manufacturers. Apple first used NuBus in the 1987 Macintosh II.

The PCI bus was standardized in 1992, and it’s almost certain that a successor to it is in the computer you’re using to read this. It really quite caught on as an industry standard.

The processor of the machine is a PowerPC 601. The PowerPC was an effort of IBM, Apple, and Motorola (the AIM Alliance) to create a class of processors for personal computers based on IBM’s POWER Architecture. The PowerPC 601 was the first of these processors, initially used by Apple in its Power Macintosh range. The machine I have has one running at a whopping 120Mhz. There continued to be PowerPC chips for a number of years, and IBM continued making POWER processors even after that. However, you are almost certainly not using a PowerPC derived processor in the computer you’re using to read this.

The PC Compatibility card has on it a full on legit Pentium 100 processor, and hardware for doing VGA graphics, a Sound Blaster 16 and the other things you’d usually expect of a PC from 1996. Since it’s on a PCI card though, it’s a bit different than a PC of the era. It doesn’t have any expansion slots of its own, and in fact uses up one of the three PCI slots in the Mac. It also doesn’t have its own floppy drive, or hard drive. There’s software on the Mac that will let the PC card use the Mac’s floppy drive, and part of the Mac’s hard drive for the PC!

The Pentium 100 was the first mass produced superscalar processor. You are quite likely to be using a computer with a processor related to the Pentium to read this, unless you’re using a phone or tablet, or one of the very latest Macs; in which case you’re using an ARM based processor. You likely have more ARM processors in your life than you have socks.

Basically, this computer is a bit of a hodge-podge of historical technology, some of which ended up being successful, and other things less so.

Let’s have a look inside!

So, one of the PCI slots has a Vertex Twin Turbo 128M8A video card in it. There is not much about this card on the internet. There’s a photo of one on Wikimedia Commons though. I’ll have to investigate more.

Does it work though? Yes! Here it is on my desk:

Even with Microsoft Internet Explorer 4.0 that came with MacOS 8.6, you can find some places on the internet you can fetch files from, at a not too bad speed even!

More fun times with this machine to come!

Recently a set of 8 vulnerabilities were disclosed for the grub bootloader. I found 2 of them (CVE-2021-20225 and CVE-2021-20233), and contributed a number of other fixes for crashing bugs which we don't believe are exploitable. I found them by applying fuzz testing to grub. Here's how.

This is a multi-part series: I think it will end up being 4 posts. I'm hoping to cover:

• Part 1 (this post): getting started with fuzzing grub
• Part 2: going faster by doing lots more work
• Part 3: fuzzing filesystems and more
• Part 4: potential next steps and avenues for further work

Fuzz testing

Let's begin with part one: getting started with fuzzing grub.

One of my all-time favourite techniques for testing programs, especially programs that handle untrusted input, and especially-especially programs written in C that parse untrusted input, is fuzz testing. Fuzz testing (or fuzzing) is the process of repeatedly throwing randomised data at your program under test and seeing what it does.

(For the secure boot threat model, untrusted input is anything not validated by a cryptographic signature - so config files are untrusted for our purposes, but grub modules can only be loaded if they are signed, so they are trusted.)

Fuzzing has a long history and has recently received a new lease on life with coverage-guided fuzzing tools like AFL and more recently AFL++.

Building grub for AFL++

AFL++ is extremely easy to use ... if your program:

1. is built as a single binary with a regular tool-chain
2. runs as a regular user-space program on Linux
3. reads a small input files from disk and then exits
4. doesn't do anything fancy with threads or signals

Beyond that, it gets a bit more complex.

On the face of it, grub fails 3 of these 4 criteria:

• grub is a highly modular program: it loads almost all of its functionality as modules which are linked as separate ELF relocatable files. (Not runnable programs, but not shared libraries either.)

• grub usually runs as a bootloader, not as a regular app.

• grub reads all sorts of things, ranging in size from small files to full disks. After loading most things, it returns to a command prompt rather than exiting.

Fortunately, these problems are not insurmountable.

We'll start with the 'running as a bootloader' problem. Here, grub helps us out a bit, because it provides an 'emulator' target, which runs most of grub functionality as a userspace program. It doesn't support actually booting anything (unsurprisingly) but it does support most other modules, including things like the config file parser.

We can configure grub to build the emulator. We disable the graphical frontend for now.

./bootstrap
./configure --with-platform=emu --disable-grub-emu-sdl

At this point in building a fuzzing target, we'd normally try to configure with afl-cc to get the instrumentation that makes AFL(++) so powerful. However, the grub configure script is not a fan:

./configure --with-platform=emu --disable-grub-emu-sdl CC=$AFL_PATH/afl-cc
...
checking whether target compiler is working... no
configure: error: cannot compile for the target

It also doesn't work with afl-gcc.

Hmm, ok, so what if we just... lie a bit?

./configure --with-platform=emu --disable-grub-emu-sdl
make CC="$AFL_PATH/afl-gcc" 

(Normally I'd use CC=clang and afl-cc, but clang support is slightly broken upstream at the moment.)

After a small fix for gcc-10 compatibility, we get the userspace tools (potentially handy!) but a bunch of link errors for grub-emu:

/usr/bin/ld: disk.module:(.bss+0x20): multiple definition of `__afl_global_area_ptr'; kernel.exec:(.bss+0xe078): first defined here
/usr/bin/ld: regexp.module:(.bss+0x70): multiple definition of `__afl_global_area_ptr'; kernel.exec:(.bss+0xe078): first defined here
/usr/bin/ld: blocklist.module:(.bss+0x28): multiple definition of `__afl_global_area_ptr'; kernel.exec:(.bss+0xe078): first defined here

The problem is the module linkage that I talked about earlier: because there is a link stage of sorts for each module, some AFL support code gets linked in to both the grub kernel (kernel.exec) and each module (here disk.module, regexp.module, ...). The linker doesn't like it being in both, which is fair enough.

To get started, let's instead take advantage of the smarts of AFL++ using Qemu mode instead. This builds a specially instrumented qemu user-mode emulator that's capable of doing coverage-guided fuzzing on uninstrumented binaries at the cost of a significant performance penalty.

make clean
make

Now we have a grub-emu binary. If you run it directly, you'll pick up your system boot configuration, but the -d option can point it to a directory of your choosing. Let's set up one for fuzzing:

mkdir stage
echo "echo Hello sthbrx readers" > stage/grub.cfg
cd stage
../grub-core/grub-emu -d .

You probably won't see the message because the screen gets blanked at the end of running the config file, but if you pipe it through less or something you'll see it.

Running the fuzzer

So, that seems to work - let's create a test input and try fuzzing:

cd ..
mkdir in
echo "echo hi" > in/echo-hi

cd stage
# -Q qemu mode
# -M main fuzzer
# -d don't do deterministic steps (too slow for a text format)
# -f create file grub.cfg
$AFL_PATH/afl-fuzz -Q -i ../in -o ../out -M main -d -- ../grub-core/grub-emu -d .

Sadly:

[-] The program took more than 1000 ms to process one of the initial test cases.
    This is bad news; raising the limit with the -t option is possible, but
    will probably make the fuzzing process extremely slow.

    If this test case is just a fluke, the other option is to just avoid it
    altogether, and find one that is less of a CPU hog.

[-] PROGRAM ABORT : Test case 'id:000000,time:0,orig:echo-hi' results in a timeout
         Location : perform_dry_run(), src/afl-fuzz-init.c:866

What we're seeing here (and indeed what you can observe if you run grub-emu directly) is that grub-emu isn't exiting when it's done. It's waiting for more input, and will keep waiting for input until it's killed by afl-fuzz.

We need to patch grub to sort that out. It's on my GitHub.

Apply that, rebuild with FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION, and voila:

cd ..
make CFLAGS="-DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION"
cd stage
$AFL_PATH/afl-fuzz -Q -i ../in -o ../out -M main -d -f grub.cfg -- ../grub-core/grub-emu -d .

And fuzzing is happening!

This is enough to find some of the (now-fixed) bugs in the grub config file parsing!

Fuzzing beyond the config file

You can also extend this to fuzzing other things that don't require the graphical UI, such as grub's transparent decompression support:

cd ..
rm -rf in out stage
mkdir in stage
echo hi > in/hi
gzip in/hi
cd stage
echo "cat thefile" > grub.cfg
$AFL_PATH/afl-fuzz -Q -i ../in -o ../out -M main -f thefile -- ../grub-core/grub-emu -d .

You should be able to find a hang pretty quickly with this, an as-yet-unfixed bug where grub will print output forever from a corrupt file: (your mileage may vary, as will the paths.)

cp ../out/main/hangs/id:000000,src:000000,time:43383,op:havoc,rep:16 thefile
../grub-core/grub-emu -d . | less # observe this going on forever

zcat, on the other hand, reports it as simply corrupt:

$ zcat thefile

gzip: thefile: invalid compressed data--format violated

(Feel free to fix that and send a patch to the list!)

That wraps up part 1. Eventually I'll be back with part 2, where I explain the hoops to jump through to go faster with the afl-cc instrumentation.

I’ve recently moved my home backups over to restic . I’m using restic to backup the /etc and /home folders and on all machines are my website files and databases. Media files are backed up separately.

I have around 220 Gigabytes of data, about half of that is photos.

My Home setup

I currently have 4 regularly-used physical machines at home: two workstations, one laptop and server. I also have a VPS hosted at Linode and a VM running on the home server. Everything is running Linux.

Existing Backup Setup

For at least 15 years I’ve been using rsnaphot for backup. rsnapshot works by keeping a local copy of the folders to be backup up. To update the local copy it uses rsync over ssh to pull down a copy from the remote machine. It then keeps multiple old versions of files by making a series of copies.

I’d end up with around 12 older versions of the filesystem (something like 5 daily, 4 weekly and 3 monthly) so I could recover files that had been deleted. To save space rsnapshot uses hard links so only one copy of a file is kept if the contents didn’t change.

I also backed up a copy to external hard drives regularly and kept one copy offsite.

The main problem with rsnapshot was it was a little clunky. It took a long time to run because it copied and deleted a lot of files every time it ran. It also is difficult to exclude folders from being backed up and it is also not compatible with any cloud based filesystems. It also requires ssh keys to login to remote machines as root.

Getting started with restic

I started playing around with restic after seeing some recommendations online. As a single binary with a few commands it seemed a little simpler than other solutions. It has a push model so needs to be on each machine and it will upload from there to the archive.

Restic supports around a dozen storage backends for repositories. These include local file system, sftp and Amazon S3. When you create an archive via “restic init” it creates a simple file structure for the repository in most backends:

You can then use simple commands like “restic backup /etc” to backup files to there. The restic documentation site makes things pretty easy to follow.

Restic automatically encrypts backups and each server needs a key to read/write to it’s backups. However any key can see all files in a repository even those belonging to other hosts.

Backup Strategy with Restic

I decided on the followup strategy for my backups:

• Make a daily copy of /etc and other files for each server
• Keep 5 daily and 3 weekly copies
• Have one copy of data on Backblaze B2
• Have another copy on my home server
• Export the copies on the home server to external disk regularly

Backblaze B2 is very similar Amazon S3 and is supported directly by restic. It is however cheaper. Storage is 0.5 cents per gigabyte/month and downloads are 1 cent per gigabyte. In comparison AWS S3 One Zone Infrequent access charges 1 cent per gigabyte/month for storage and 9 cents per gigabyte for downloads.

AWS S3 Glacier is cheaper for storage but hard to work with and retrieval costs would be even higher.

Backblaze B2 is less reliable than S3 (they had an outage when I was testing) but this isn’t a big problem when I’m using them just for backups.

Setting up Backblaze B2

To setup B2 I went to the website and created an account. I would advise putting in your credit card once you finish initial testing as it will not let you add more than 10GB of data without one.

I then created a private bucket and changed the bucket’s lifecycle settings to only keep the last version.

I decided that for security I would have each server use a separate restic repository. This means that I would use a bit of extra space since restic will only keep one copy of a file that is identical on most machines. I ended up using around 15% more.

For each machine I created an B2 application key and set it to have a namePrefix with the name of the machine. This means that each application key can only see files in it’s own folder

On each machine I installed restic and then created an /etc/restic folder. I then added the file b2_env:

export B2_ACCOUNT_ID=000xxxx
export B2_ACCOUNT_KEY=K000yyyy
export RESTIC_PASSWORD=abcdefghi
export RESTIC_REPOSITORY=b2:restic-bucket:/hostname

You can now just run “restic init” and it should create an empty repository, check via b2 to see.

I then had a simple script that runs:

source /etc/restic/b2_env

restic --limit-upload 2000 backup /home/simon --exclude-file /etc/restic/home_exclude

restic --limit-upload 2000 backup /etc /usr/local /var/lib /var/backups

restic --verbose --keep-last 5 --keep-daily 6 --keep-weekly 3 forget

The “source” command loads in the api key and passwords.

The restic backup lines do the actual backup. I have restricted my upload speed to 20 Megabits/second . The /etc/restic/home_exclude lists folders that shouldn’t be backed up. For this I have:

/home/simon/.cache
/home/simon/.config/Slack
/home/simon/.local/share/Trash
/home/simon/.dropbox-dist
/home/simon/Syncthing/audiobooks

as these are folders with regularly changing contents that I don’t need to backup.

The “restic forget” command removes older snapshots. I’m telling it to keep 6 daily copies and 3 weekly copies of my data, plus at least the most recent 5 no matter how old then are.

This command doesn’t actually free up the space taken up by the removed snapshots. I need to run the “restic prune” command for that. However according to this analysis the prune operation generates so many API calls and data transfers that the payback time on disk space saved can be months(!). So for now I’m planning to run the command only occasionally (probably every few months, depending on testing).

Setting up sftp

As well as backing up to B2 I wanted to backup my data to my home server. In this case I decided to have a single repository shared by all the servers.

First of all I created a “restic” account on my server with a home of /home/restic. I then created a folder /media/backups/restic owned by the restic user.

I then followed this guide for sftp-only accounts to restrict the restic user. Relevant lines I changed were “Match User restic” and “ChrootDirectory /media/backups/restic “

On each host I also needed to run “cp /etc/ssh/ssh_host_rsa_key /root/.ssh/id_rsa ” and also add the host’s public ssh_key to /home/restic/.ssh/authorized_keys on the server.

Then it is just a case of creating a sftp_env file like in the b2 example above. Except this is a little shorter:

export RESTIC_REPOSITORY=sftp:restic@server.darkmere.gen.nz:shared
export RESTIC_PASSWORD=abcdefgh

For backing up my VPS I had to do another step since this couldn’t push files to my home. What I did was instead add a script that ran on the home server and used rsync to copy down folders from by VPS to local. I used rrsync to restrict this script.

Once I had a local folder I ran “restic –home vps-name backup /copy-of-folder” to backup over sftpd. The –host option made sure the backups were listed for the right machine.

Since the restic folder is just a bunch of files, I’m copying up it directly to external disk which I keep outside the house.

Parting Thoughts

I’m fairly happy with restic so far. I don’t have not run into too many problems or gotchas yet although if you are starting up I’d suggest testing with a small repository to get used to the commands etc.

I have copies of keys in my password manager for recovery.

There are a few things I still have to do including setup up some monitoring and also decide how often to run the prune operation.

Lost and Founder: A Painfully Honest Field Guide to the Startup World by Rand Fishkin

Advice for perspective founders mixed in with stories from the author’s company. Open about missteps he made to be avoided. 4/5

The Victorian Internet: The Remarkable Story of the Telegraph and the Nineteenth Century’s On-line Pioneers by Tom Standage

A short book on the rise of the telegraph and how it changed the world. Peppered with amusing stories and analogies to the Internet. 3/5

Dreams from My Father: A Story of Race and Inheritance by Barack Obama

A memoir of the author growing up and into his mid-20s. Well written and interesting. Audiobook is read by the author but he’s okay. 3/5

The Age of Benjamin Franklin by Robert J. Allison

24 Lectures about various aspects of Franklin and his life. Each lecture is on a theme so they are not chronological. I hadn’t read any biographies previously but this might help. 4/5

The Relentless Moon by Mary Robinette Kowal

3rd book in the Lady Astronaut series. Mostly concerned with trying to find and stop agents sabotaging the Moonbase. Works well and held my interest. 3/5

Business Adventures: Twelve Classic Tales from the World of Wall Street by John Brooks

A collection of long New Yorker articles from the 1960s. One on a stock corner even has parallels with Gamestop in 2021. Interesting and well told even when dated. 3/5

Live and Let Die by Ian Fleming

James Bond takes on Gangster/Agent/Voodoo leader ‘Mr Big’ in Harlem, Florida and Jamaica. The racial stereotypes are dated but could be worse. The story held my interest. 3/5

My Scoring System

• 5/5 = Brilliant, top 5 book of the year
• 4/5 = Above average, strongly recommend
• 3/5 = Average. in the middle 70% of books I read
• 2/5 = Disappointing
• 1/5 = Did not like at all

TL;DR: There should be an option, taproot=lockintrue, which allows users to set lockin-on-timeout to true. It should not be the default, though.

As stated in my previous post, we need actual consensus, not simply the appearance of consensus. I’m pretty sure we have that for taproot, but I would like a template we can use in future without endless debate each time.

• Giving every group a chance to openly signal for (or against!) gives us the most robust assurance that we actually have consensus. Being able to signal opposition is vital, since everyone can lie anyway; making opposition difficult just reduces the reliability of the signal.
• Developers should not activate. They’ve tried to assure themselves that there’s broad approval of the change, but that’s not really a transferable proof. We should be concerned about about future corruption, insanity, or groupthink. Moreover, even the perception that developers can set the rules will lead to attempts to influence them as Bitcoin becomes more important. As a (non-Bitcoin-core) developer I can’t think of a worse hell myself, nor do we want to attract developers who want to be influenced!
• Miner activation is actually brilliant. It’s easy for everyone to count, and majority miner enforcement is sufficient to rely on the new rules. But its real genius is that miners are most directly vulnerable to the economic majority of users: in a fork they have to pick sides continuously knowing that if they are wrong, they will immediately suffer economically through missed opportunity cost.
• Of course, economic users are ultimately in control. Any system which doesn’t explicitly encode that is fragile; nobody would argue that fair elections are unnecessary because if people were really dissatisfied they could always overthrow the government themselves! We should make it as easy for them to exercise this power as possible: this means not requiring them to run unvetted or home-brew modifications which will place them at more risk, so developers need to supply this option (setting it should also change the default User-Agent string, for signalling purposes). It shouldn’t be an upgrade either (which inevitably comes with other changes). Such a default-off option provides both a simple method, and a Schelling point for the lockinontimeout parameters. It also means much less chance of this power being required: “Si vis pacem, para bellum“.

This triumverate model may seem familiar, being widely used in various different governance systems. It seems the most robust to me, and is very close to what we have evolved into already. Formalizing it reduces uncertainty for any future changes, as well.

Bitcoin’s consensus rules define what is valid, but this isn’t helpful when we’re looking at changing the rules themselves. The trend in Bitcoin has been to make such changes in an increasingly inclusive and conservative manner, but we are still feeling our way through this, and appreciating more nuance each time we do so.

To use Bitcoin, you need to remain in the supermajority of consensus on what the rules are. But you can never truly know if you are. Everyone can signal, but everyone can lie. You can’t know what software other nodes or miners are running: even expensive testing of miners by creating an invalid block only tests one possible difference, may still give a false negative, and doesn’t mean they can’t change a moment later.

This risk of being left out is heightened greatly when the rules change. This is why we need to rely on multiple mechanisms to reassure ourselves that consensus will be maintained:

1. Developers assure themselves that the change is technically valid, positive and has broad support. The main tools for this are open communication, and time. Developers signal support by implementing the change.
2. Users signal their support by upgrading their nodes.
3. Miners signal their support by actually tagging their blocks.

We need actual consensus, not simply the appearance of consensus. Thus it is vital that all groups know they can express their approval or rejection, in a way they know will be heard by others. In the end, the economic supermajority of Bitcoin users can set the rules, but no other group or subgroup should have inordinate influence, nor should they appear to have such control.

The Goodwill Dividend

A Bitcoin community which has consensus and knows it is not only safest from a technical perspective: the goodwill and confidence gives us all assurance that we can make (or resist!) changes in future.

It will also help us defend against the inevitable attacks and challenges we are going to face, which may be a more important effect than any particular soft-fork feature.

The Esperanza Fire: Arson, Murder and the Agony of Engine 57 by John N. Maclean

An account of the fire that killed a five-person firefighter crew. Minute by minute of the fire itself, plus the investigation and the trial of the arsonist. 4/5

Range: Why Generalists Triumph in a Specialized World by David Epstein

An argument against early-specialisation and over-specialisation. How it fails against open non-predictable problems and environments. 4/5

The Vikings: A New History by Neil Oliver

A vaguely chronological introduction to the Vikings. Lots of first person descriptions of artifacts by the author. 3/5

Ultralearning: Master Hard Skills, Outsmart the Competition, and Accelerate Your Career by Scott Young

Examples and advice on how to learn a skill very quickly, usually via an intense method. Good practical advice mixed with some stories 3/5

81 Days Below Zero: The Incredible Survival Story of a World War II Pilot in Alaska’s Frozen Wilderness by Brian Murphy

An interesting survival story. The pilot survives a crash in a remote area & manages to walk out with minimal gear during winter. 3/5

Messy: How to Be Creative and Resilient in a Tidy-Minded World by Tim Harford

The unexpected connections between creativity and mess. Lots of examples although as one commentator noticed most of them were from people already masters not beginners. 3/5

Outliers: The Story of Success by Martin Gladwell

A book on how the most famous and successful are often there because of their upbringing, practice or chance events pushed them to the top rather than just raw talent. 4/5

The Book of Humans: The Story of How We Became Us by Adam Rutherford

How the latest research that reveals the extent to which behaviors once thought exclusively human are also found in other species. Spoiler: except Culture. 3/5

Tank Action: An Armoured Troop Commander’s War 1944-45 by David Render and Stuart Tootal

The author is thrown into the war as a 19 year old officer in command of 4 tanks 5 days after D-Day. Very well written and lots of detail of the good and the bad. 4/5

My Scoring System

• 5/5 = Brilliant, top 5 book of the year
• 4/5 = Above average, strongly recommend
• 3/5 = Average. in the middle 70% of books I read
• 2/5 = Disappointing
• 1/5 = Did not like at all

I’ve had a few people ask how to test my OpenHMD development branch of Rift CV1 positional tracking in SteamVR. Here’s what I do:

• Make sure Steam + SteamVR are already installed.
• Clone the SteamVR-OpenHMD repository:

git clone --recursive https://github.com/ChristophHaag/SteamVR-OpenHMD.git

• Switch the internal copy of OpenHMD to the right branch:

cd subprojects/openhmd
git remote add thaytan-github https://github.com/thaytan/OpenHMD.git
git fetch thaytan-github
git checkout -b rift-kalman-filter thaytan-github/rift-kalman-filter
cd ../../

• Use meson to build and register the SteamVR-OpenHMD binaries. You may need to install meson first (see below):

meson -Dbuildtype=release build
ninja -C build
./install_files_to_build.sh
./register.sh

• It is important to configure in release mode, as the kalman filtering code is generally too slow for real-time in debug mode (it has to run 2000 times per second)
• Make sure your USB devices are accessible to your user account by configuring udev. See the OpenHMD guide here: https://github.com/OpenHMD/OpenHMD/wiki/Udev-rules-list
• Please note – only Rift sensors on USB 3.0 ports will work right now. Supporting cameras on USB 2.0 requires someone implementing JPEG format streaming and decoding.
• It can be helpful to test OpenHMD is working by running the simple example. Check that it’s finding camera sensors at startup, and that the position seems to change when you move the headset:

./build/subprojects/openhmd/openhmd_simple_example

• Calibrate your expectations for how well tracking is working right now! Hint: It’s very experimental
• Start SteamVR. Hopefully it should detect your headset and the light(s) on your Rift Sensor(s) should power on.

Meson

I prefer the Meson build system here. There’s also a cmake build for SteamVR-OpenHMD you can use instead, but I haven’t tested it in a while and it sometimes breaks as I work on my development branch.

If you need to install meson, there are instructions here – https://mesonbuild.com/Getting-meson.html summarising the various methods.

I use a copy in my home directory, but you need to make sure ~/.local/bin is in your PATH

pip3 install --user meson

I spent some time this weekend implementing a couple of my ideas for improving the way the tracking code in OpenHMD filters and rejects (or accepts) possible poses when trying to match visible LEDs to the 3D models for each device.

In general, the tracking proceeds in several steps (in parallel for each of the 3 devices being tracked):

1. Do a brute-force search to match LEDs to 3D models, then (if matched)
   1. Assign labels to each LED blob in the video frame saying what LED they are.
   2. Send an update to the fusion filter about the position / orientation of the device
2. Then, as each video frame arrives:
   1. Use motion flow between video frames to track the movement of each visible LED
   2. Use the IMU + vision fusion filter to predict the position/orientation (pose) of each device, and calculate which LEDs are expected to be visible and where.
3. Try and match up and refine the poses using the predicted pose prior and labelled LEDs. In the best case, the LEDs are exactly where the fusion predicts they’ll be. More often, the orientation is mostly correct, but the position has drifted and needs correcting. In the worst case, we send the frame back to step 1 and do a brute-force search to reacquire an object.

The goal is to always assign the correct LEDs to the correct device (so you don’t end up with the right controller in your left hand), and to avoid going back to the expensive brute-force search to re-acquire devices as much as possible

What I’ve been working on this week is steps 1 and 3 – initial acquisition of correct poses, and fast validation / refinement of the pose in each video frame, and I’ve implemented two new strategies for that.

Gravity Vector matching

The first new strategy is to reject candidate poses that don’t closely match the known direction of gravity for each device. I had a previous implementation of that idea which turned out to be wrong, so I’ve re-worked it and it helps a lot with device acquisition.

The IMU accelerometer and gyro can usually tell us which way up the device is (roll and pitch) but not which way they are facing (yaw). The measure for ‘known gravity’ comes from the fusion Kalman filter covariance matrix – how certain the filter is about the orientation of the device. If that variance is small this new strategy is used to reject possible poses that don’t have the same idea of gravity (while permitting rotations around the Y axis), with the filter variance as a tolerance.

Partial tracking matches

The 2nd strategy is based around tracking with fewer LED correspondences once a tracking lock is acquired. Initial acquisition of the device pose relies on some heuristics for how many LEDs must match the 3D model. The general heuristic threshold I settled on for now is that 2/3rds of the expected LEDs must be visible to acquire a cold lock.

With the new strategy, if the pose prior has a good idea where the device is and which way it’s facing, it allows matching on far fewer LED correspondences. The idea is to keep tracking a device even down to just a couple of LEDs, and hope that more become visible soon.

While this definitely seems to help, I think the approach can use more work.

Status

With these two new approaches, tracking is improved but still quite erratic. Tracking of the headset itself is quite good now and for me rarely loses tracking lock. The controllers are better, but have a tendency to “fly off my hands” unexpectedly, especially after fast motions.

I have ideas for more tracking heuristics to implement, and I expect a continuous cycle of refinement on the existing strategies and new ones for some time to come.

For now, here’s a video of me playing Beat Saber using tonight’s code. The video shows the debug stream that OpenHMD can generate via Pipewire, showing the camera feed plus overlays of device predictions, LED device assignments and tracked device positions. Red is the headset, Green is the right controller, Blue is the left controller.

Initial tracking is completely wrong – I see some things to fix there. When the controllers go offline due to inactivity, the code keeps trying to match LEDs to them for example, and then there are some things wrong with how it’s relabelling LEDs when they get incorrect assignments.

After that, there are periods of good tracking with random tracking losses on the controllers – those show the problem cases to concentrate on.

I hit an important OpenHMD milestone tonight – I completed a Beat Saber level using my Oculus Rift CV1!

I’ve been continuing to work on integrating Kalman filtering into OpenHMD, and on improving the computer vision that matches and tracks device LEDs. While I suspect noone will be completing Expert levels just yet, it’s working well enough that I was able to play through a complete level of Beat Saber. For a long time this has been my mental benchmark for tracking performance, and I’m really happy

Check it out:

I should admit at this point that completing this level took me multiple attempts. The tracking still has quite a tendency to lose track of controllers, or to get them confused and swap hands suddenly.

I have a list of more things to work on. See you at the next update!

In my experience, the C programming language is still hard to beat, even 50 years after it was first developed (and I feel the same way about UNIX). When it comes to general-purpose utility, low-level systems programming, performance, and portability (even to tiny embedded systems), I would choose C over most modern or fashionable alternatives. In some cases, it is almost the only choice.

Many developers believe that it is difficult to write secure and reliable software in C, due to its free pointers, the lack of enforced memory integrity, and the lack of automatic memory management; however in my opinion it is possible to overcome these risks with discipline and a more secure system of libraries constructed on top of C and libc. Daniel J. Bernstein and Wietse Venema are two developers who have been able to write highly secure, stable, reliable software in C.

My other favourite language is Python. Although Python has numerous desirable features, my favourite is the light-weight syntax: in Python, block structure is indicated by indentation, and braces and semicolons are not required. Apart from the pleasure and relief of reading and writing such light and clear code, which almost appears to be executable pseudo-code, there are many other benefits. In C or JavaScript, if you omit a trailing brace somewhere in the code, or insert an extra brace somewhere, the compiler may tell you that there is a syntax error at the end of the file. These errors can be annoying to track down, and cannot occur in Python. Python not only looks better, the clear syntax helps to avoid errors.

The obvious disadvantage of Python, and other dynamic interpreted languages, is that most programs run extremely slower than C programs. This limits the scope and generality of Python. No AAA or performance-oriented video game engines are programmed in Python. The language is not suitable for low-level systems programming, such as operating system development, device drivers, filesystems, performance-critical networking servers, or real-time systems.

C is a great all-purpose language, but the code is uglier than Python code. Once upon a time, when I was experimenting with the Plan 9 operating system (which is built on C, but lacks Python), I missed Python’s syntax, so I decided to do something about it and write a little preprocessor for C. This converts from a “Pythonesque” indented syntax to regular C with the braces and semicolons. Having forked a little dialect of my own, I continued from there adding other modules and features (which might have been a mistake, but it has been fun and rewarding).

At first I called this translator Brace, because it added in the braces for me. I now call the language CZ. It sounds like “C-easy”. Ease-of-use for developers (DX) is the primary goal. CZ has all of the features of C, and translates cleanly into C, which is then compiled to machine code as normal (using any C compiler; I didn’t write one); and so CZ has the same features and performance as C, but enjoys a more pleasing syntax.

CZ is now self-hosted, in that the translator is written in the language CZ. I confess that originally I wrote most of it in Perl; I’m proficient at Perl, but I consider it to be a fairly ugly language, and overly complicated.

I intend for CZ’s new syntax to be “optional”, ideally a developer will be able to choose to use the normal C syntax when editing CZ, if they prefer it. For this, I need a tool to convert C back to CZ, which I have not fully implemented yet. I am aware that, in addition to traditionalists, some vision-impaired developers prefer to use braces and semicolons, as screen readers might not clearly indicate indentation. A C to CZ translator would of course also be valuable when porting an existing C program to CZ.

CZ has a number of useful features that are not found in standard C, but I did not go so far as C++, which language has been described as “an octopus made by nailing extra legs onto a dog”. I do not consider C to be a dog, at least not in a negative sense; but I think that C++ is not an improvement over plain C. I am creating CZ because I think that it is possible to improve on C, without losing any of its advantages or making it too complex.

One of the most interesting features I added is a simple syntax for fast, light coroutines. I based this on Simon Tatham’s approach to Coroutines in C, which may seem hacky at first glance, but is very efficient and can work very well in practice. I implemented a very fast web server with very clean code using these coroutines. The cost of switching coroutines with this method is little more than the cost of a function call.

CZ has hygienic macros. The regular cpp (C preprocessor) macros are not hygenic and many people consider them hacky and unsafe to use. My CZ macros are safe, and somewhat more powerful than standard C macros. They can be used to neatly add new program control structures. I have plans to further develop the macro system in interesting ways.

I added automatic prototype and header generation, as I do not like having to repeat myself when copying prototypes to separate header files. I added support for the UNIX #! scripting syntax, and for cached executables, which means that CZ can be used like a scripting language without having to use a separate compile or make command, but the programs are only recompiled when something has been changed.

For CZ, I invented a neat approach to portability without conditional compilation directives. Platform-specific library fragments are automatically included from directories having the name of that platform or platform-category. This can work very well in practice, and helps to avoid the nightmare of conditional compilation, feature detection, and Autotools. Using this method, I was able easily to implement portable interfaces to features such as asynchronous IO multiplexing (aka select / poll).

The CZ library includes flexible error handling wrappers, inspired by W. Richard Stevens’ wrappers in his books on Unix Network Programming. If these wrappers are used, there is no need to check return values for error codes, and this makes the code much safer, as an error cannot accidentally be ignored.

CZ has several major faults, which I intend to correct at some point. Some of the syntax is poorly thought out, and I need to revisit it. I developed a fairly rich library to go with the language, including safer data structures, IO, networking, graphics, and sound. There are many nice features, but my CZ library is more prototype than a finished product, there are major omissions, and some features are misconceived or poorly implemented. The misfeatures should be weeded out for the time-being, or moved to an experimental section of the library.

I think that a good software library should come in two parts, the essential low-level APIs with the minimum necessary functionality, and a rich set of high-level convenience functions built on top of the minimal API. I need to clearly separate these two parts in order to avoid polluting the namespaces with all sorts of nonsense!

CZ is lacking a good modern system of symbol namespaces. I can look to Python for a great example. I need to maintain compatibility with C, and avoid ugly symbol encodings. I think I can come up with something that will alleviate the need to type anything like gtk_window_set_default_size, and yet maintain compatibility with the library in question. I want all the power of C, but it should be easy to use, even for children. It should be as easy as BASIC or Processing, a child should be able to write short graphical demos and the like, without stumbling over tricky syntax or obscure compile errors.

Here is an example of a simple CZ program which plots the Mandelbrot set fractal. I think that the program is fairly clear and easy to understand, although there is still some potential to improve and clarify the code.

#!/usr/local/bin/cz --
use b
use ccomplex

Main:
	num outside = 16, ox = -0.5, oy = 0, r = 1.5
	long i, max_i = 50, rb_i = 30
	space()
	uint32_t *px = pixel()  # CONFIGURE!
	num d = 2*r/h, x0 = ox-d*w_2, y0 = oy+d*h_2
	for(y, 0, h):
		cmplx c = x0 + (y0-d*y)*I
		repeat(w):
			cmplx w = c
			for i=0; i < max_i && cabs(w) < outside; ++i
				w = w*w + c
			*px++ = i < max_i ? rainbow(i*359 / rb_i % 360) : black
			c += d

I wrote a more elaborate variant of this program, which generates images like the one shown below. There are a few tricks used: continuous colouring, rainbow colours, and plotting the logarithm of the iteration count, which makes the plot appear less busy close to the black fractal proper. I sell some T-shirts and other products with these fractal designs online.

I am interested in graph programming, and have been for three decades since I was a teenager. By graph programming, I mean programming and modelling based on mathematical graphs or diagrams. I avoid the term visual programming, because there is no necessary reason that vision impaired folks could not use a graph programming language; a graph or diagram may be perceived, understood, and manipulated without having to see it.

Mathematics is something that naturally exists, outside time and independent of our universe. We humans discover mathematics, we do not invent or create it. One of my main ideas for graph programming is to represent a mathematical (or software) model in the simplest and most natural way, using relational operators. Elementary mathematics can be reduced to just a few such operators:

I think that a language and notation based on these few operators (and similar) can be considerably simpler and more expressive than conventional math or programming languages.

CZ is for me a stepping-stone toward this goal of an expressive relational graph language. It is more pleasant for me to develop software tools in CZ than in C or another language.

Thanks for reading. I wrote this article during the process of applying to join Toptal, which appears to be a freelancing portal for top developers; and in response to this article on toptal: After All These Years, the World is Still Powered by C Programming.

My CZ project has been stalled for quite some time. I foolishly became discouraged after receiving some negative feedback. I now know that honest negative feedback should be valued as an opportunity to improve, and I intend to continue the project until it lacks glaring faults, and is useful for other people. If this project or this article interests you, please contact me and let me know. It is much more enjoyable to work on a project when other people are actively interested in it!

Back at the start of this series, I listed four problems within the scope of the WordPress Importers that we needed to address. Three of them are largely technical problems, which I covered in previous posts. In wrapping up this series, I want to focus exclusively on the fourth problem, which has a philosophical side as well as a technical one — but that does not mean we cannot tackle it!

Some services are merely inconvenient: they provide exports, but it often involves downloading a bunch of different files. Your CMS content is in one export, your store products are in another, your orders are in another, and your mailing list is in yet another. It’s not ideal, but they at least let you get a copy of your data.

However, there’s another class of services that actively work against their customers. It’s these services I want to focus on: the services that don’t provide any ability to export your content — effectively locking people in to using their platform. We could offer these folks an escape! The aim isn’t to necessarily make them use WordPress, it’s to give them a way out, if they want it. Whether they choose to use WordPress or not after that is immaterial (though I certainly hope they would, of course). The important part is freedom of choice.

It’s worth acknowledging that this is a different approach to how WordPress has historically operated in relation to other CMSes. We provide importers for many CMSes, but we previously haven’t written exporters. However, I don’t think this is a particularly large step: for CMSes that already provide exports, we’d continue to use those export files. This is focussed on the few services that try to lock their customers in.

Why Should WordPress Take This On?

There are several aspects to why we should focus on this.

First of all, it’s the the WordPress mission. Underpinning every part of WordPress is the simplest of statements:

Democratise Publishing

The freedom to build. The freedom to change. The freedom to share.

These freedoms are the pillars of a Free and Open Web, but they’re not invulnerable: at times, they need to be defended, and that needs people with the time and resources to offer a defence.

Which brings me to my second point: WordPress has the people who can offer that defence! The WordPress project has so many individuals working on it, from such a wide variety of backgrounds, we’re able to take on a vast array of projects that a smaller CMS just wouldn’t have the bandwidth for. That’s not to say that we can do everything, but when there’s a need to defend the entire ecosystem, we’re able to devote people to the cause.

Finally, it’s important to remember that WordPress doesn’t exist in a vacuum, we’re part of a broad ecosystem which can only exist through the web remaining open and free. By encouraging all CMSes to provide proper exports, and implementing them for those that don’t, we help keep our ecosystem healthy.

We have the ability to take on these challenges, but we have a responsibility that goes alongside. We can’t do it solely to benefit WordPress, we need to make that benefit available to the entire ecosystem. This is why it’s important to define a WordPress export schema, so that any CMS can make use of the export we produce, not just WordPress. If you’ll excuse the imagery for a moment, we can be the knight in shining armour that frees people — then gives them the choice of what they do with that freedom, without obligation.

How Can We Do It?

Moving on to the technical side of this problem, I can give you some good news: the answer is definitely not screen scraping. Scraping a site is fragile, impossible to transform into the full content, and provides an incomplete export of the site: anything that’s only available in the site dashboard can’t be obtained through scraping.

I’ve recently been experimenting with an alternative approach to solving this problem. Rather than trying to create something resembling a traditional exporter, it turns out that modern CMSes provide the tools we need, in the form of REST APIs. All we need to do is call the appropriate APIs, and collate the results. The fun part is that we can authenticate with these APIs as the site owner, by calling them from a browser extension! So, that’s what I’ve been experimenting with, and it’s showing a lot of promise.

If you’re interested in playing around with it, the experimental code is living in this repository. It’s a simple proof of concept, capable of exporting the text content of a blog on a Wix site, showing that we can make a smooth, comprehensive, easy-to-use exporter for any Wix site owner.

Clicking the export button starts a background script, which calls Wix’s REST APIs as the site owner, to get the original copy of the content. It then packages it up, and presents it as a WXR file to download.

I’m really excited about how promising this experiment is. It can ultimately provide a full export of any Wix site, and we can add support for other CMS services that choose to artificially lock their customers in.

Where Can I Help?

If you’re a designer or developer who’s excited about working on something new, head on over to the repository and check out the open issues: if there’s something that isn’t already covered, feel free to open a new issue.

Since this is new ground for a WordPress project, both technically and philosophically, I’d love to hear more points of view. It’s being discussed in the WordPress Core Dev Chat this week, and you can also let me know what you think in the comments!

While schemata are usually implemented using language-specific tools (eg, XML uses XML Schema, JSON uses JSON Schema), they largely use the same concepts when talking about data. This is rather helpful, we don’t need to make a decision on data formats before we can start thinking about how the data should be arranged.

Note: Since these concepts apply equally to all data formats, I’m using “WXR” in this post as shorthand for “the structured data section of whichever file format we ultimately use”, rather than specifically referring to the existing WXR format.

Why is a Schema Important?

It’s fair to ask why, if the WordPress Importers have survived this entire time without a formal schema, why would we need one now?

There are two major reasons why we haven’t needed one in the past:

• WXR has remained largely unchanged in the last 10 years: there have been small additions or tweaks, but nothing significant. There’s been no need to keep track of changes.
• WXR is currently very simple, with just a handful of basic elements. In a recent experiment, I was able to implement a JavaScript-based WXR generator in just a few days, entirely by referencing the Core implementation.

These reasons are also why it would help to implement a schema for the future:

• As work on WXR proceeds, there will likely need to be substantial changes to what data is included: adding new fields, modifying existing fields, and removing redundant fields. Tracking these changes helps ensure any WXR implementations can stay in sync.
• These changes will result in a more complex schema: relying on the source to re-implement it will become increasingly difficult and error-prone. Following Gutenberg’s lead, it’s likely that we’d want to provide official libraries in both PHP and JavaScript: keeping them in sync is best done from a source schema, rather than having one implementation copy the other.

Taking the time to plan out a schema now gives us a solid base to work from, and it allows for future changes to happen in a reliable fashion.

WXR for all of WordPress

With a well defined schema, we can start to expand what data will be included in a WXR file.

Media

Interestingly, many of the challenges around media files are less to do with WXR, and more to do with importer capabilities. The biggest headache is retrieving the actual files, which the importer currently handles by trying to retrieve the file from the remote server, as defined in the wp:attachment_url node. In context, this behaviour is understandable: 10+ years ago, personal internet connections were too slow to be moving media around, it was better to have the servers talk to each other. It’s a useful mechanism that we should keep as a fallback, but the more reliable solution is to include the media file with the export.

Plugins and Themes

There are two parts to plugins and themes: the code, and the content. Modern WordPress sites require plugins to function, and most are customised to suit their particular theme.

For exporting the code, I wonder if a tiered solution could be applied:

• Anything from WordPress.org would just need their slug, since they can be re-downloaded during import. Particularly as WordPress continues to move towards an auto-updated future, modified versions of plugins and themes are explicitly not supported.
• Third party plugins and themes would be given a filter to use, where they can provide a download URL that can be included in the export file.
• Third party plugins/themes that don’t provide a download URL would either need to be skipped, or zipped up and included in the export file.

For exporting the content, WXR already includes custom post types, but doesn’t include custom settings, or custom tables. The former should be included automatically, and the latter would likely be handled by an appropriate action for the plugin to hook into.

Settings

There are a currently handful of special settings that are exported, but (as I just noted, particularly with plugins and themes being exported) this would likely need to be expanded to included most items in wp_options.

Users

Currently, the bare minimum information about users who’ve authored a post is included in the export. This would need to be expanded to include more user information, as well as users who aren’t post authors.

WXR for parts of WordPress

The modern use case for importers isn’t just to handle a full site, but to handle keeping sites in sync. For example, most news organisations will have a staging site (or even several layers of staging!) which is synchronised to production.

While it’s well outside the scope of this project to directly handle every one of these use cases, we should be able to provide the framework for organisations to build reliable platforms on. Exports should be repeatable, objects in the export should have unique identifiers, and the importer should be able to handle any subset of WXR.

WXR Beyond WordPress

Up until this point, we’ve really been talking about WordPress→WordPress migrations, but I think WXR is a useful format beyond that. Instead of just containing direct exports of the data from particular plugins, we could also allow it to contain “types” of data. This turns WXR into an intermediary language, exports can be created from any source, and imported into WordPress.

Let’s consider an example. Say we create a tool that can export a Shopify, Wix, or GoDaddy site to WXR, how would we represent an online store in the WXR file? We don’t want to export in the format that any particular plugin would use, since a WordPress Core tool shouldn’t be advantaging one plugin over others.

Instead, it would be better if we could format the data in a platform-agnostic way, which plugins could then implement support for. As luck would have it, Schema.org provides exactly the kind of data structure we could use here. It’s been actively maintained for nearly nine years, it supports a wide variety of data types, and is intentionally platform-agnostic.

Gazing into my crystal ball for a moment, I can certainly imagine a future where plugins could implement and declare support for importing certain data types. When handling such an import (assuming one of those plugins wasn’t already installed), the WordPress Importer could offer them as options during the import process. This kind of seamless integration allows WordPress to show that it offers the same kind of fully-featured site building experience that modern CMS services do.

Of course, reality is never quite as simple as crystal balls and magic wands make them out to be. We have to contend with services that provide incomplete or fragmented exports, and there are even services that deliberately don’t provide exports at all. In the next post, I’ll be writing about why we should address this problem, and how we might be able to go about it.

The previous post talked about the broad problems we need to tackle to bring our importers up to speed, making them available for everyone to use.

In this post, I’m going to focus on what we could do with the existing technology, in order to give us the best possible framework going forward.

A Reliable Base

Importers are an interesting technical problem. Much like you’d expect from any backup/restore code, importers need to be extremely reliable. They need to comfortable handle all sorts of unusual data, and they need to keep it all safe. Particularly considering their age, the WordPress Importers do a remarkably good job of handling most content you can throw at it.

However, modern development practices have evolved and improved since the importers were first written, and we should certainly be making use of such practices, when they fit with our requirements.

For building reliable software that we expect to largely run by itself, a variety of comprehensive automated testing is critical. This ensures we can confidently take on the broader issues, safe in the knowledge that we have a reliable base to work from.

Testing must be the first item on this list. A variety of automated testing gives us confidence that changes are safe, and that the code can continue to be maintained in the future.

Data formats must be well defined. While this is useful for ensuring data can be handled in a predictable fashion, it’s also a very clear demonstration of our commitment to data freedom.

APIs for creating or extending importers should be straightforward for hooking into.

Performance Isn’t an Optional Extra

With sites constantly growing in size (and with the export files potentially gaining a heap of extra data), we need to care about the performance of the importers.

Luckily, there’s already been some substantial work done on this front:

There are other groups in the WordPress world who’ve made performance improvements in their own tools: gathering all of that experience is a relatively quick way to bring in production-tested improvements.

The WXR Format

It’s worth talking about the WXR format itself, and determining whether it’s the best option for handling exports into the future. XML-based formats are largely viewed as a relic of days gone past, so (if we were to completely ignore backwards compatibility for a moment) is there a modern data format that would work better?

The short answer… kind of.

XML is actually well suited to this use case, and (particularly when looking at performance improvements) is the only data format for which PHP comes with a built-in streaming parser.

That said, WXR is basically an extension of the RSS format: as we add more data to the file that clearly doesn’t belong in RSS, there is likely an argument for defining an entirely WordPress-focused schema.

Alternative Formats

It’s important to consider what the priorities are for our export format, which will help guide any decision we make. So, I’d like to suggest the following priorities (in approximate priority order):

• PHP Support: The format should be natively supported in PHP, thought it is still workable if we need to ship an additional library.
• Performant: Particularly when looking at very large exports, it should be processed as quickly as possible, using minimal RAM.
• Supports Binary Files: The first comments on my previous post asked about media support, we clearly should be treating it as a first-class citizen.
• Standards Based: Is the format based on a documented standard? (Another way to ask this: are there multiple different implementations of the format? Do those implementations all function the same?
• Backward Compatible: Can the format be used by existing tools with no changes, or minimal changes?
• Self Descriptive: Does the format include information about what data you’re currently looking at, or do you need to refer to a schema?
• Human Readable: Can the file be opened and read in a text editor?

Given these priorities, what are some options?

WXR (XML-based)

Either the RSS-based schema that we already use, or a custom-defined XML schema, the arguments for this format are pretty well known.

One argument that hasn’t been well covered is how there’s a definite trade-off when it comes to supporting binary files. Currently, the importer tries to scrape the media file from the original source, which is not particularly reliable. So, if we were to look at including media files in the WXR file, the best option for storing them is to base64 encode them. Unfortunately, that would have a serious effect on performance, as well as readability: adding huge base64 strings would make even the smallest exports impossible to read.

Either way, this option would be mostly backwards compatible, though some tools may require a bit of reworking if we were to substantial change the schema.

WXR (ZIP-based)

To address the issues with media files, an alternative option might be to follow the path that Microsoft Word and OpenOffice use: put the text content in an XML file, put the binary content into folders, and compress the whole thing.

This addresses the performance and binary support problems, but is initially worse for readability: if you don’t know that it’s a ZIP file, you can’t read it in a text editor. Once you unzip it, however, it does become quite readable, and has the same level of backwards compatibility as the XML-based format.

JSON

JSON could work as a replacement for XML in both of the above formats, with one additional caveat: there is no streaming JSON parser built in to PHP. There are 3rd party libraries available, but given the documented differences between JSON parsers, I would be wary about using one library to produce the JSON, and another to parse it.

This format largely wouldn’t be backwards compatible, though tools which rely on the export file being plain text (eg, command line tools to do broad search-and-replaces on the file) can be modified relatively easily.

There are additional subjective arguments (both for and against) the readability of JSON vs XML, but I’m not sure there’s anything to them beyond personal preference.

SQLite

The SQLite team wrote an interesting (indirect) argument on this topic: OpenOffice uses a ZIP-based format for storing documents, the SQLite team argued that there would be benefits (particularly around performance and reliability) for OpenOffice to switch to SQLite.

They key issues that I see are:

• SQLite is included in PHP, but not enabled by default on Windows.
• While the SQLite team have a strong commitment to providing long-term support, SQLite is not a standard, and the only implementation is the one provided by the SQLite team.
• This option is not backwards compatible at all.

FlatBuffers

FlatBuffers is an interesting comparison, since it’s a data format focussed entirely on speed. The down side of this focus is that it requires a defined schema to read the data. Much like SQLite, the only standard for FlatBuffers is the implementation. Unlike SQLite, FlatBuffers has made no commitments to providing long-term support.

	WXR (XML-based)	WXR (ZIP-based)	JSON	SQLite	FlatBuffers
Works in PHP?
Performant?
Supports Binary Files?
Standards Based?				/
Backwards Compatible?
Self Descriptive?
Readable?		/

As with any decision, this is a matter of trade-offs. I’m certainly interested in hearing additional perspectives on these options, or thoughts on options that I haven’t considered.

Regardless of which particular format we choose for storing WordPress exports, every format should have (or in the case of FlatBuffers, requires) a schema. We can talk about schemata without going into implementation details, so I’ll be writing about that in the next post.

It’s time to focus on the WordPress Importers.

I’m not talking about tidying them up, or improve performance, or fixing some bugs, though these are certainly things that should happen. Instead, we need to consider their purpose, how they fit as a driver of WordPress’ commitment to Open Source, and how they can be a key element in helping to keep the Internet Open and Free.

The History

The WordPress Importers are arguably the key driver to WordPress’ early success. Before the importer plugins existed (before WordPress even supported plugins!) there were a handful of import-*.php scripts in the wp-admin directory that could be used to import blogs from other blogging platforms. When other platforms fell out of favour, WordPress already had an importer ready for people to move their site over. One of the most notable instances was in 2004, when Moveable Type changed their license and prices, suddenly requiring personal blog authors to pay for something that had previously been free. WordPress was fortunate enough to be in the right place at the right time: many of WordPress’ earliest users came from Moveable Type.

As time went on, WordPress became well known in its own right. Growth relied less on people wanting to switch from another provider, and more on people choosing to start their site with WordPress. For practical reasons, the importers were moved out of WordPress Core, and into their own plugins. Since then, they’ve largely been in maintenance mode: bugs are fixed when they come up, but since export formats rarely change, they’ve just continued to work for all these years.

An unfortunate side effect of this, however, is that new importers are rarely written. While a new breed of services have sprung up over the years, the WordPress importers haven’t kept up.

The New Services

There are many new CMS services that have cropped up in recent years, and we don’t have importers for any of them. WordPress.com has a few extra ones written, but they’ve been built on the WordPress.com infrastructure out of necessity.

You see, we’ve always assumed that other CMSes will provide some sort of export file that we can use to import into WordPress. That isn’t always the case, however. Some services (notable, Wix and GoDaddy Website Builder) deliberately don’t allow you to export your own content. Other services provide incomplete or fragmented exports, needlessly forcing stress upon site owners who want to use their own content outside of that service.

To work around this, WordPress.com has implemented importers that effectively scrape the site: while this has worked to some degree, it does require regular maintenance, and the importer has to do a lot of guessing about how the content should be transformed. This is clearly not a solution that would be maintainable as a plugin.

This strikes at the heart of the WordPress Bill of Rights. WordPress is built with fundamental freedoms in mind: all of those freedoms point to owning your content, and being able to make use of it in any form you like. When a CMS actively works against providing such freedom to their community, I would argue that we have an obligation to help that community out.

A Variety of Content

It’s worth discussing how, when starting a modern CMS service, the bar for success is very high. You can’t get away with just providing a basic CMS: you need to provide all the options. Blogs, eCommerce, mailing lists, forums, themes, polls, statistics, contact forms, integrations, embeds, the list goes on. The closest comparison to modern CMS services is… the entire WordPress ecosystem: built on WordPress core, but with the myriad of plugins and themes available, along with the variety of services offered by a huge array of companies.

So, when we talk about the importers, we need to consider how they’ll be used.

Getting Our Own House In Order

Some of these problems don’t just apply to new services, however.

Out of the box, WordPress exports to WXR (WordPress eXtended RSS) files: an XML file that contains the content of the site. Back when WXR was first created, this was all you really needed, but much like the rest of the WordPress importers, it hasn’t kept up with the times. A modern WordPress site isn’t just the sum of its content: a WordPress site has plugins and themes. It has various options configured, it has huge quantities of media, it has masses of text content, far more than the first WordPress sites ever had.

In my view, WXR is a solid format for handling exports. An XML-based system is quite capable of containing all forms of content, so it’s reasonable that we could expand the WXR format to contain the entire site.

Built for the Future

If there’s one thing we can learn from the history of the WordPress importers, it’s that maintenance will potentially be sporadic. Importers are unlikely to receive the same attention that the broader WordPress Core project does, owners may come and go. An importer will get attention if it breaks, of course, but it otherwise may go months or years without changing.

It’s quite possible to build code that will be running in 10+ years: we see examples all across the WordPress ecosystem. Doing it in a reliable fashion needs to be a deliberate choice, however.

What’s Next?

Having worked our way down from the larger philosophical reasons for the importers, to some of the more technically-oriented implementation problems; I’d like to work our way back out again, focussing on each problem individually. In the following posts, I’ll start laying out how I think we can bring our importers up to speed, prepare them for the future, and make them available for everyone.

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Joel Addison

Apologies 

Benno Rice

Meeting opened at 1931 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Log of correspondence

• From Anchor to council@ on 16 Dec 2020: opensource.org.au is due for renewal by 15 Feb 2021.
• From Big Orange Heart via web form: request for sponsorship of WordFest (https://wordfest.live) on 22 Jan 2021.
  [Response has been sent indicating Council in caretaker mode, suggesting a longer lead time in future and outlining LA’s funding priorities.]
• From Anchor to council@ on 27 Dec 2020: lca2018.org requires renewal by 26 Feb 2021.
  [As per meeting on 15 Dec 2020, this will be allowed to expire if the few remaining services dependent on the domain have been moved by 26 Feb 2021.]
• From <a member> via website form on 27 Dec 2020: will LA write a submission into the Productivity Commission “Right to Repair” enquiry? A response was sent:
  • The tight timing (closing date in early Feb) and existing commitments of the Council members will almost certainly prevent this happening unless a member steps up to do it.
  • If a member wished LA to sign a submission they prepared and it was consistent with LA’s values, Council would consider signing it.

<The member> is writing a submission.  He has subsequently indicated he won’t request LA sign it as it contains a lot of personal perspective and he doesn’t feel he can speak for others. He may share it on linux-aus for comments.

• From Binh Hguyen on Grants list, asking about out-of-cycle funding for a project idea (a public information aggregator). Response sent indicating Council is in caretaker mode and suggesting that they wait for the 2021 Grant program if it eventuates.

3. Items for discussion

• AGM –  Are we ready, who is doing what etc. 
  • Roles required: 
    • Chat Monitor
    • Votes/Poll Monitor
    • Hands Up – Reaction Monitor
    • Timer
• Bringing together the nomination sheets, these need to be collated, distributed and a seconder needs to be found for each of the nominations.
• Annual Report – what is missing what do we need to send out etc.
  • Hoping for reports from web team, pycon.
  • Once those are received the report can be sent out.
• Rusty Wrench
  • Decision is to award to <see announcement>, Jon or one of the other formers will award
  • AI: Sae Ra to liaise with Jon
• JW: Russell Coker has set up a replacement for planet.linux.org.au at https://planet.luv.asn.au/. It has been suggested that planet.linux.org.au either point to this URL or contain a link to it.
  • AI: Jonathan & Julien to action link on current static page
• JW: <A member> suggests via council@ on 5 Jan 2021 that the “Should a digest be dispatched daily when the size threshold isn’t reached” setting for la-announce be set to “Yes”. Due to the low traffic volume on this list, users with digest mode set may only receive messages after a delay of many months.
  • All agree, however it turns out the setting has already been enabled.

4. Items for noting

• None

5. Other business

• None

6. In camera

• No items were discussed in camera

Meeting closed at 2024

The post Council Meeting Tuesday 12th January 2021 – Minutes appeared first on Linux Australia.

In the last post I had started implementing an Unscented Kalman Filter for position and orientation tracking in OpenHMD. Over the Christmas break, I continued that work.

A Quick Recap

When reading below, keep in mind that the goal of the filtering code I’m writing is to combine 2 sources of information for tracking the headset and controllers.

The first piece of information is acceleration and rotation data from the IMU on each device, and the second is observations of the device position and orientation from 1 or more camera sensors.

The IMU motion data drifts quickly (at least for position tracking) and can’t tell which way the device is facing (yaw, but can detect gravity and get pitch/roll).

The camera observations can tell exactly where each device is, but arrive at a much lower rate (52Hz vs 500/1000Hz) and can take a long time to process (hundreds of milliseconds) to analyse to acquire or re-acquire a lock on the tracked device(s).

The goal is to acquire tracking lock, then use the motion data to predict the motion closely enough that we always hit the ‘fast path’ of vision analysis. The key here is closely enough – the more closely the filter can track and predict the motion of devices between camera frames, the better.

Integration in OpenHMD

When I wrote the last post, I had the filter running as a standalone application, processing motion trace data collected by instrumenting a running OpenHMD app and moving my headset and controllers around. That’s a really good way to work, because it lets me run modifications on the same data set and see what changed.

However, the motion traces were captured using the current fusion/prediction code, which frequently loses tracking lock when the devices move – leading to big gaps in the camera observations and more interpolation for the filter.

By integrating the Kalman filter into OpenHMD, the predictions are improved leading to generally much better results. Here’s one trace of me moving the headset around reasonably vigourously with no tracking loss at all.

If it worked this well all the time, I’d be ecstatic! The predicted position matched the observed position closely enough for every frame for the computer vision to match poses and track perfectly. Unfortunately, this doesn’t happen every time yet, and definitely not with the controllers – although I think the latter largely comes down to the current computer vision having more troubler matching controller poses. They have fewer LEDs to match against compared to the headset, and the LEDs are generally more side-on to a front-facing camera.

Taking a closer look at a portion of that trace, the drift between camera frames when the position is interpolated using the IMU readings is clear.

This is really good. Most of the time, the drift between frames is within 1-2mm. The computer vision can only match the pose of the devices to within a pixel or two – so the observed jitter can also come from the pose extraction, not the filtering.

The worst tracking is again on the Z axis – distance from the camera in this case. Again, that makes sense – with a single camera matching LED blobs, distance is the most uncertain part of the extracted pose.

Losing Track

The trace above is good – the computer vision spots the headset and then the filtering + computer vision track it at all times. That isn’t always the case – the prediction goes wrong, or the computer vision fails to match (it’s definitely still far from perfect). When that happens, it needs to do a full pose search to reacquire the device, and there’s a big gap until the next pose report is available.

That looks more like this

This trace has 2 kinds of errors – gaps in the observed position timeline during full pose searches and erroneous position reports where the computer vision matched things incorrectly.

Fixing the errors in position reports will require improving the computer vision algorithm and would fix most of the plot above. Outlier rejection is one approach to investigate on that front.

Latency Compensation

There is inherent delay involved in processing of the camera observations. Every 19.2ms, the headset emits a radio signal that triggers each camera to capture a frame. At the same time, the headset and controller IR LEDS light up brightly to create the light constellation being tracked. After the frame is captured, it is delivered over USB over the next 18ms or so and then submitted for vision analysis. In the fast case where we’re already tracking the device the computer vision is complete in a millisecond or so. In the slow case, it’s much longer.

Overall, that means that there’s at least a 20ms offset between when the devices are observed and when the position information is available for use. In the plot above, this delay is ignored and position reports are fed into the filter when they are available. In the worst case, that means the filter is being told where the headset was hundreds of milliseconds earlier.

To compensate for that delay, I implemented a mechanism in the filter where it keeps extra position and orientation entries in the state that can be used to retroactively apply the position observations.

The way that works is to make a prediction of the position and orientation of the device at the moment the camera frame is captured and copy that prediction into the extra state variable. After that, it continues integrating IMU data as it becomes available while keeping the auxilliary state constant.

When a the camera frame analysis is complete, that delayed measurement is matched against the stored position and orientation prediction in the state and the error used to correct the overall filter. The cool thing is that in the intervening time, the filter covariance matrix has been building up the right correction terms to adjust the current position and orientation.

Here’s a good example of the difference:

Notice how most of the disconnected segments have now slotted back into position in the timeline. The ones that haven’t can either be attributed to incorrect pose extraction in the compute vision, or to not having enough auxilliary state slots for all the concurrent frames.

At any given moment, there can be a camera frame being analysed, one arriving over USB, and one awaiting “long term” analysis. The filter needs to track an auxilliary state variable for each frame that we expect to get pose information from later, so I implemented a slot allocation system and multiple slots.

The downside is that each slot adds 6 variables (3 position and 3 orientation) to the covariance matrix on top of the 18 base variables. Because the covariance matrix is square, the size grows quadratically with new variables. 5 new slots means 30 new variables – leading to a 48 x 48 covariance matrix instead of 18 x 18. That is a 7-fold increase in the size of the matrix (48 x 48 = 2304 vs 18 x 18 = 324) and unfortunately about a 10x slow-down in the filter run-time.

At that point, even after some optimisation and vectorisation on the matrix operations, the filter can only run about 3x real-time, which is too slow. Using fewer slots is quicker, but allows for fewer outstanding frames. With 3 slots, the slow-down is only about 2x.

There are some other possible approaches to this problem:

• Running the filtering delayed, only integrating IMU reports once the camera report is available. This has the disadvantage of not reporting the most up-to-date estimate of the user pose, which isn’t great for an interactive VR system.

• Keeping around IMU reports and rewinding / replaying the filter for late camera observations. This limits the overall increase in filter CPU usage to double (since we at most replay every observation twice), but potentially with large bursts when hundreds of IMU readings need replaying.
• It might be possible to only keep 2 “full” delayed measurement slots with both position and orientation, and to keep some position-only slots for others. The orientation of the headset tends to drift much more slowly than position does, so when there’s a big gap in the tracking it would be more important to be able to correct the position estimate. Orientation is likely to still be close to correct.
• Further optimisation in the filter implementation. I was hoping to keep everything dependency-free, so the filter implementation uses my own naive 2D matrix code, which only implements the features needed for the filter. A more sophisticated matrix library might perform better – but it’s hard to say without doing some testing on that front.

Controllers

So far in this post, I’ve only talked about the headset tracking and not mentioned controllers. The controllers are considerably harder to track right now, but most of the blame for that is in the computer vision part. Each controller has fewer LEDs than the headset, fewer are visible at any given moment, and they often aren’t pointing at the camera front-on.

This screenshot is a prime example. The controller is the cluster of lights at the top of the image, and the headset is lower left. The computer vision has gotten confused and thinks the controller is the ring of random blue crosses near the headset. It corrected itself a moment later, but those false readings make life very hard for the filtering.

Here’s a typical example of the controller tracking right now. There are some very promising portions of good tracking, but they are interspersed with bursts of tracking losses, and wild drifting from the computer vision giving wrong poses – leading to the filter predicting incorrect acceleration and hence cascaded tracking losses. Particularly (again) on the Z axis.

Timing Improvements

One of the problems I was looking at in my last post is variability in the arrival timing of the various USB streams (Headset reports, Controller reports, camera frames). I improved things in OpenHMD on that front, to use timestamps from the devices everywhere (removing USB timing jitter from the inter-sample time).

There are still potential problems in when IMU reports from controllers get updated in the filters vs the camera frames. That can be on the order of 2-4ms jitter. Time will tell how big a problem that will be – after the other bigger tracking problems are resolved.

Sponsorships

All the work that I’m doing implementing this positional tracking is a combination of my free time, hours contributed by my employer Centricular and contributions from people via Github Sponsorships. If you’d like to help me spend more hours on this and fewer on other paying work, I appreciate any contributions immensely!

Next Steps

The next things on my todo list are:

• Integrate the delayed-observation processing into OpenHMD (at the moment it is only in my standalone simulator).
• Improve the filter code structure – this is my first kalman filter and there are some implementation decisions I’d like to revisit.
• Publish the UKF branch for other people to try.
• Circle back to the computer vision and look at ways to improve the pose extraction and better reject outlying / erroneous poses, especially for the controllers.
• Think more about how to best handle / schedule analysis of frames from multiple cameras. At the moment each camera operates as a separate entity, capturing frames and analysing them in threads without considering what is happening in other cameras. That means any camera that can’t see a particular device starts doing full pose searches – which might be unnecessary if another camera still has a good view of the device. Coordinating those analyses across cameras could yield better CPU consumption, and let the filter retain fewer delayed observation slots.

On December 22, I decided to brew an oatmeal stout (5kg Gladfield ale malt, 250g dark chocolate malt, 250g light chocolate malt, 250g dark crystal malt, 500g rolled oats, 150g rice hulls to stop the mash sticking, 25g Pride of Ringwood hops, Safale US-05 yeast). This all takes a good few hours to do the mash and the boil and everything, so while that was underway I thought it’d be a good opportunity to remove a crappy old cupboard from the laundry, so I could put our nice Miele upright freezer in there, where it’d be closer to the kitchen (the freezer is presently in a room at the other end of the house).

The cupboard was reasonably easy to rip out, but behind it was a mouldy and unexpectedly bright yellow wall with an ugly gap at the top where whoever installed it had removed the existing cornice.

Underneath the bottom half of the cupboard, I discovered not the cork tiles which cover the rest of the floor, but a layer of horrific faux-tile linoleum. Plus, more mould. No way was I going to put the freezer on top of that.

So, up came the floor covering, back to nice hardwood boards.

Of course, the sink had to come out too, to remove the flooring from under its cabinet, and that meant pulling the splashback tiles (they had ugly screw holes in them anyway from a shelf that had been bracketed up on top of them previously).

Removing the tiles meant replacing a couple of sections of wall.

Also, we still needed to be able to use the washing machine through all this, so I knocked up a temporary sink support.

New cornice went in.

The rest of the plastering was completed and a ceiling fan installed.

Waterproofing membrane was applied where new tiles will go around a new sink.

I removed the hideous old aluminium backed weather stripping from around the exterior door and plastered up the exposed groove.

We still need to paint everything, get the new sink installed, do the tiling work and install new taps.

As for the oatmeal stout, I bottled that on January 2. From a sample taken at the time, it should be excellent, but right now still needs to carbonate and mature.

A few years ago we went to Taiwan. I managed to capture some random bits of the city on film (and also some shots on my then phone, a Google Pixel). I find the different style of art on the streets around the world to be fascinating, and Taiwan had some good examples.

I’ve really enjoyed shooting Kodak E100VS film over the years, and some of my last rolls were shot in Taiwan. It’s a film that unfortunately is not made anymore, but at least we have a new Ektachrome to have fun with now.

This is, of course, only a small number of the total photos I took there. I’d really recommend a trip to Taiwan, and I look forward to going back there some day.

The Perils of Perception: Why We’re Wrong About Nearly Everything by Bobby Duffy

Lots of examples of how people are wrong about usually crime rates or levels of immigration. Divided into topics with some comments on why and how to fix. 3/5

The Knowledge: How to Rebuild our World from Scratch
by Lewis Dartnell

A how-to on rebooting civilization following a worldwide disaster. The tone is addressed to a present-day person rather than someone from the future which makes it more readable. 4/5

The Story of Silver: How the White Metal Shaped America and the Modern World by William L. Silber

Almost solely devoted to America it devotes sections to major events around the metal including it’s demonetization, government and private price manipulation and speculation including the Hunt Brothers. 3/5

The First Four Years by Laura Ingalls Wilder

About half the length of the other books in the series and published posthumously. Laura and Almanzo try to make a success farming for 4 years. Things don’t go well. The book is a bit more adult than some of the others 3/5

Casino Royale by Ian Fleming

Interesting how close it is to the 2006 Movie. Also since it is set in ~1951, World War 2 looms large in many places & most characters are veterans. Very good and fairly quick read. 4/5

A Bridge too far: The Classic History of the Greatest Battle of World War II by Cornelius Ryan

An account of the failed airborne operation. Mostly a day-by-day & sources including interviews with participants. A little confusing without maps. 4/5

The Bomb: Presidents, Generals, and the Secret History of Nuclear War by Fred Kaplan

“The definitive history of American policy on nuclear war”. Lots of “War Plans” and “Targeting Policy” with back and forth between service factions. 3/5

The Sirens of Mars: Searching for Life on Another World
by Sarah Stewart Johnson

“Combines elements of memoir from Johnson with the history and science of attempts to discover life on Mars”. I liked this book a lot, very nicely written and inspiring. 4/5

My Scoring System

• 5/5 = Brilliant, top 5 book of the year
• 4/5 = Above average, strongly recommend
• 3/5 = Average. in the middle 70% of books I read
• 2/5 = Disappointing
• 1/5 = Did not like at all

Each year I do the majority of my Charity donations in early December (just after my birthday) spread over a few days (so as not to get my credit card suspended).

I also blog about it to hopefully inspire others. See: 2019, 2018, 2017, 2016, 2015

All amounts this year are in $US unless otherwise stated

My main donations was $750 to Givewell (to allocate to projects as they prioritize). Once again I’m happy that Givewell make efficient use of money donated. I decided this year to give a higher proportion of my giving to them than last year.

Software and Internet Infrastructure Projects

€20 to Syncthing which I’ve started to use instead of Dropbox.

$50 each to the Software Freedom Conservancy and Software in the Public Interest . Money not attached to any specific project.

$51 to the Internet Archive

$25 to Let’s Encrypt

Advocacy Organisations

$50 to the Electronic Frontier Foundation

Others including content creators

I donated $103 to Signum University to cover Corey Olsen’s Exploring the Lord of the Rings series plus other stuff I listen to that they put out.

I paid $100 to be a supporter of NZ News site The Spinoff

I also supported a number of creators on Patreon:

• $2/month to Daniel King to make Chess videos
• $2/month to Chris Stuckmann who does movie reviews
• $2/month to Kent Overstreet who is making a new Linux filesystem call bcachefs
• $2/month to The Prancing Pony Podcast who make a podcasts show about J R R Tolkien
• $2/month to HaxDogma who makes details Youtube videos about TV shows and other things
• $1/week to Todd Hoff who runs Highscalability.com
• $1/month to Joe Snodow who runs funny twitter accounts.
• $1/month to Zach Weinersmith who creates SMBC Comic and other stuff
• $1/video to The Nerdwriter who does Youtube videos
• $1/month to CGP Grey who does Youtube Videos
• $1/month to City Beautiful who is creating videos about cities and city planning.
• $1/month to Alt Shift X who creates youtube videos
• $1/podcast to Rose Eveleth who creates the Flash Forward podcast.

In my last post I wrote about changes in my OpenHMD positional tracking branch to split analysis of the tracking frames from the camera sensors across multiple threads. In the 2 months since then, the only real change in the repository was to add some filtering to the pose search that rejects bad poses by checking if they align with the gravity vector observed by the IMU. That is in itself a nice improvement, but there is other work I’ve been doing that isn’t published yet.

The remaining big challenge (I think) to a usable positional tracking solution is fusing together the motion information that comes from the inertial tracking sensors (IMU) in the devices (headset, controllers) with the observations that come from the camera sensors (video frames). There are some high level goals for that fusion, and lots of fiddly details about why it’s hard.

At the high level, the IMUs provide partial information about the motion of each device at a high rate, while the cameras provide observations about the actual position in the room – but at a lower rate, and with sometimes large delays.

In the Oculus CV1, the IMU provides Accelerometer and Gyroscope readings at 1000Hz (500Hz for controllers), and from those it’s possible to compute the orientation of the device relative to the Earth (but not the compass direction it’s facing), and also to integrate acceleration readings to get velocity and position – but the position tracking from an IMU is only useful in the short term (a few seconds) as it drifts rapidly due to that double integration.

The accelerometers measure (surprise) the acceleration of the device, but are always also sensing the Earth’s gravity field. If a device is at rest, it will ideally report 9.81 m/s², give or take noise and bias errors. When the device is in motion, the acceleration measured is the sum of the gravity field, bias errors and actual linear acceleration. To interpolate the position with any accuracy at all, you need to separate those 3 components with tight tolerance.

That’s about the point where the position observations from the cameras come into play. You can use those snapshots of the device position to determine the real direction that the devices are facing, and to correct for any errors in the tracked position and device orientation from the IMU integration – by teasing out the bias errors and gravity offset.

The current code uses some simple hacks to do the positional tracking – using the existing OpenHMD 3DOF complementary filter to compute the orientation, and some hacks to update the position when a camera finds the pose of a device.

The simple hacks work surprisingly well when devices don’t move too fast. The reason is (as previously discussed) that the video analysis takes a variable amount of time – if we can predict where a device is with a high accuracy and maintain “tracking lock”, then the video analysis is fast and runs in a few milliseconds. If tracking lock is lost, then a full search is needed to recover the tracking, and that can take hundreds of milliseconds to complete… by which time the device has likely moved a long way and requires another full pose search, which takes hundreds of milliseconds..

So, the goal of my current development is to write a single unified fusion filter that combines IMU and camera observations to better track and predict the motion of devices between camera frames. Better motion prediction means hitting the ‘fast analysis’ path more often, which leads to more frequent corrections of the unknowns in the IMU data, and (circularly) better motion predictions.

To do that, I am working on an Unscented Kalman Filter that tracks the position, velocity, acceleration, orientation and IMU accelerometer and gyroscope biases – with promising initial results.

In the above graphs, the filter is predicting the position of the headset at each camera frame to within 1cm most of the time and the pose to within a few degrees, but with some significant spikes that still need fixing. The explanation for the spikes lies in the data sets that I’m testing against, and points to the next work that needs doing.

To develop the filter, I’ve modifed OpenHMD to record traces as I move devices around. It saves out a JSON file for each device with a log of each IMU reading and each camera frame. The idea is to have a baseline data set that can be used to test each change in the filter – but there is a catch. The current data was captured using the upstream positional tracking code – complete with tracking losses and long analysis delays.

The spikes in the filter graph correspond with when the OpenHMD traces have big delays between when a camera frame was captured and when the analysis completes.

What this means is that when the filter makes bad predictions, it’s because it’s trying to predict the position of the device at the time the sensor result became available, instead of when the camera frame was captured – hundreds of milliseconds earlier.

So, my next step is to integrate the Kalman filter code into OpenHMD itself, and hopefully capture a new set of motion data with fewer tracking losses to prove the filter’s accuracy more clearly.

Second – I need to extend the filter to compensate for that delay between when a camera frame is captured and when the results are available for use, by using an augmented state matrix and lagged covariances. More on that next time.

To finish up, here’s a taste of another challenge hidden in the data – variability in the arrival time of IMU updates. The IMU updates at 1000Hz – ideally we’d receive those IMU updates 1 per millisecond, but transfer across the USB and variability in scheduling on the host computer make that much noisier. Sometimes further apart, sometimes bunched together – and in one part there’s a 1.2 second gap.

On my desktop system, I’m running XFCE on openSUSE Tumbleweed. When I leave my desk, I hit the “lock screen” button, the screen goes black, and the monitors go into standby. So far so good. When I come back and mash the keyboard, everything lights up again, the screens go white, and it says:

blank: Shows nothing but a black screen
Name: tserong@HOSTNAME
Password:
Enter password to unlock; select icon to lock

So I type my password, hit ENTER, and I’m back in action. So far so good again. Except… Several times recently, when I’ve come back and mashed the keyboard, the white overlay is gone. I can see all my open windows, my mail client, web browser, terminals, everything, but the screen is still locked. If I type my password and hit ENTER, it unlocks and I can interact again, but this is where it gets really weird. All the windows have moved down a bit on the screen. For example, a terminal that was previously neatly positioned towards the bottom of the screen is now partially off the screen. So “something” crashed – whatever overlay the lock thingy put there is gone? And somehow this affected the position of all my application windows? What in the name of all that is good and holy is going on here?

Update 2020-12-21: I’ve opened boo#1180241 to track this.

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Joel Addison

Benno Rice

Apologies 

None

Meeting opened at 1930 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Log of correspondence

• From Anchor to council@ on 2 Dec 2020: lca2018.org domain renewal is due by 1 Mar 2021.
  • Still a few services that either need to move off.
  • AI: Joel to deal with.
• From ASIC to council@ on 8 Dec 2020: “Open Source Australia” business registration due by 24 Nov 2020. This was dealt with on the day; an acknowledgement of renewal was received.
  • (Already done)

3. Items for discussion

• Rusty Wrench
  • AI: Julien to send out to previous winners, without a suggestion from council
• Code of Conduct wording clarification (background sent to council@)
  • Also the github copy turns out to be out of date, PyCon desire this refresh to happen early enough to be in place for the next PyCon.
  • Change will be announced.
  • AI: Jonathan to write up an announcement for policies, linux-aus,.
• YouTube Partner Program
  • Setup more formal escalation paths for LCA (and other LA-affiliated events) in future
  • Register for YouTube Partner Programme to get additional support avenues.
  • Need to create an AdSense account for this
  • Do not need to enable monetisation now or future, but do need to decide whether existing videos should have monetisation enabled when we join the program.
  • Sae Ra moves motion that we join the partner program, but do not enable monetisation for existing videos.
    • Passed, one abstention.
  • AI: Joel to register, and update Ryan.

4. Items for noting

• Election/AGM announcement sent.
  • Need some volunteers for AGM meeting wrangling.
  • AGM is set for: 11am-midday on Friday the 15th of January (AEDT)
    • 8am Perth
  • AI: Julien to send call for AGM items ASAP.
• LCA update <details redacted>

5. Other business

• None

6. In camera

• No items were discussed in camera

Meeting closed at 2020

The post Council Meeting Tuesday 15th December 2020 – Minutes appeared first on Linux Australia.

If you’re near Melbourne, you should go to Healseville Sanctuary and enjoy the Australian native animals. I’ve been a number of times over the years, and here’s a couple of photos from a (relatively, as in, the last couple of years) trip.

Some shots on Kodak Portra 400 from Adelaide. These would have been shot with my Nikon F80 35mm body, I think all with the 50mm lens. These are all pre-pandemic, and I haven’t gone and looked up when exactly. I’m just catching up on scanning some negatives.

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Joel Addison

Benno Rice

Apologies

None

Meeting opened at 1930 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Event Review

Drupal

Admin Team

Pycon

LCA 2020

LCA 2021

LCA 2022

3. Log of correspondence

• 23 Nov 2020: Mailchimp policy update notification sent to council@.
  • N/A as the account has been closed
  • Data export saved into our Google Drive
• From: Xero; Date: Mon 30 Nov 2020, Subject: Xero pricing changes, Summary: Price is going up by $2/mo.

4. Items for discussion

• AGM timing
  • We’ll continue as planned, Julien & Sae Ra to ensure the announcements go out.
• Do we have a meeting on the 29th of December, if not 12th Jan is normal (just before AGM)
  • No to the end of December, yes to the January
• LCA YouTube account (Joel)
  • Setup more formal escalation paths for LCA (and other LA-affiliated events) in future
  • Register for YouTube Partner Programme to get additional support avenues.
  • Need to create an AdSense account for this
  • Do not need to enable monetisation now or future, but do need to decide whether existing videos should have monetisation enabled when we join the program.
  • AI: Sae Ra will move this on list so people have time to review

5. Items for noting

• Rusty wrench nom period ongoing
  • 2 proper nominations received
  • 1 resubmission of a nomination from last year requested
  • 1 apparently coming
• Jonathan reached out to <a member> re Code of Conduct concerns, haven’t gotten a response
• Grant application for Software Freedom Day, no response from them, so grant has lapsed.
• <our contact on the CovidSafe analysis team> has yet to provide information about the FOI costs associated with his group’s work on the COVIDsafe app.

6. Other business 

• None

7. In camera

• No items were discussed in camera

2038 AEDT close

The post Council Meeting Tuesday 1st December 2020 – Minutes appeared first on Linux Australia.

There’s something really quite subtle about how the nproc utility from GNU coreutils works. If you look at the man page, it’s even the very first sentence:

Print the number of processing units available to the current process, which may be less than the number of online processors.

So, what does that actually mean? Well, just because the computer some code is running on has a certain number of CPUs (and here I mean “number of hardware threads”) doesn’t necessarily mean that you can spawn a process that uses that many. What’s a simple example? Containers! Did you know that when you invoke docker to run a container, you can easily limit how much CPU the container can use? In this case, we’re looking at the --cpuset-cpus parameter, as the --cpus one works differently.

$ nproc
8

$ docker run --cpuset-cpus=0-1 --rm=true -it  amazonlinux:2
bash-4.2# nproc
2
bash-4.2# exit

$ docker run --cpuset-cpus=0-2 --rm=true -it  amazonlinux:2
bash-4.2# nproc
3

As you can see, nproc here gets the right bit of information, so if you’re wanting to do a calculation such as “Please use up to the maximum available CPUs” as a parameter to the configuration of a piece of software (such as how many threads to run), you get the right number.

But what if you use some of the other common methods?

$ /usr/bin/lscpu -p | grep -c "^[0-9]"
8
$ grep -c 'processor' /proc/cpuinfo 
8

$ docker run --cpuset-cpus=0-1 --rm=true -it  amazonlinux:2
bash-4.2# yum install -y /usr/bin/lscpu
......
bash-4.2# /usr/bin/lscpu -p | grep -c "^[0-9]"
8
bash-4.2# grep -c 'processor' /proc/cpuinfo 
8
bash-4.2# nproc
2

In this case, if you base your number of threads off grepping lscpu you take another dependency (on the util-linux package), which isn’t needed. You also get the wrong answer, as you do by grepping /proc/cpuinfo. So, what this will end up doing is just increase the number of context switches, possibly also adding a performance degradation. It’s not just in docker containers where this could be an issue of course, you can use the same mechanism that docker uses anywhere you want to control resources of a process.

Another subtle thing to watch out for is differences in /proc/cpuinfo content depending on CPU architecture. You may not think it’s an issue today, but who wants to needlessly debug something?

tl;dr: for determining “how many processes to run”: use nproc, don’t grep lscpu or /proc/cpuinfo

On the random old photos train, there’s some from spending time in Tasmania post linux.conf.au 2017 in Hobart.

All of these are Kodak E100VS film, which was no doubt a bit out of date by the time I shot it (and when they stopped making Ektachrome for a while). It was a nice surprise to be reminded of a truly wonderful Tassie trip, taken with friends, and after the excellent linux.conf.au.

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Benno Rice

Joel Addison

Apologies 

None

Meeting opened at 1932 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Log of correspondence

• None

3. Items for discussion

• Rusty Wrench timing.
  • Call for nominations draft looks good, (AI) Julien to send ASAP
• Vala Tech Camp diversity scholarship
  • See mail to council@ 2020-11-09 from Sae Ra, “[LACTTE] For Next Meeting – VALA Tech Camp Diversity Scholarship”
  • Motion by Julien for Linux Australia to sponsor VALA Tech Camp A$2,750, seconded by Jonathan.
  • Passed, one abstention.

4. Items for noting

• LCA21 <details redacted>

5. Other business

• Quick discussion re covidsafe research and freedom of information requests, nothing for now, possibly next time
• Moving the returning officer video into a doc would be nice, but no short term volunteers. Jonathan may look into it early 2021.

6. In camera

• No items were discussed in camera

Meeting closed at 2006

The post Council Meeting Tuesday 17th November 2020 – Minutes appeared first on Linux Australia.

udev can be used to block a USB device (or even an entire class of devices, such as USB storage). Add a file /etc/udev/rules.d/99-local-blacklist.rules containing:

SUBSYSTEM=="usb", ATTRS{idVendor}=="0123", ATTRS{idProduct}=="4567", ATTR{authorized}="0"

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Joel Addison

Benno Rice

Apologies

None

Meeting opened at 1930 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Event Review

Drupal

Admin Team

Pycon

LCA 2020

LCA 2021

LCA 2022

3. Log of correspondence

• From: ASIC; Date: Sun, 25 Oct 2020 19:16:44 +1100; Subject: Renewal: OPEN SOURCE AUSTRALIA
  • MOTION: Russell Stuart moves we pay ASIC AUD$87 to renew “OPEN SOURCE AUSTRALIA” for 3 years.
  • Seconder: Jonathan
  • Outcome: Passed
• From Google to council@ on 27 Oct 2020. Use of Google App Engine beyond 31 Jan 2021 requires payment information be added to the linked account before 31 Jan 2021. Affected project is “sydney-linux-users-group-hr”.
  • Current SLUG site is hosted on LA infra, we’ll leave it and see if anything breaks.
• From MailChimp to council@ on 28 Oct 2020. Policies have been updated (Standard Terms of Use, Data Processing Addendum).
  • AI: Sae Ra to close account, was used in migration onto CiviCRM
• From AgileWare; Subject: New Invoice, due 30/11/2020; Date: Sat, 31 Oct 2020 10:00:27 +1100.  Summary: $330 renewal for 6 months hosting.
  • MOTION: Sae Ra moves LA pays AgileWare AUD$330 to for 6 months in advance web site hosting, and up to AUD$3000 for support renewal.
  • Seconder: Russell
  • Outcome:  Passed

4. Items for discussion

• None

5. Items for noting

• Stewart Smith has agreed to be returning officer.
• Sae Ra needs photo & bio for council members for annual report.
• Audit need bank statements, some are only just through as of this meeting.
• Approached by Vala Tech Camp to sponsor for next year.

6. Other business 

• Call for nominations for Rusty Wrench
  • Announce out by late November, 2-3 week nomination period, close mid-December
  • AI: Julien to update draft

7. In camera

• No items were discussed in camera

2011 AEDT close

The post Council Meeting Tuesday 3rd November 2020 – Minutes appeared first on Linux Australia.

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Joel Addison

Apologies 

Benno Rice

Meeting opened at 1930 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Log of correspondence

• 1 Oct 2020 to @council: Thanks received from NetThing for LA’s support of their 2020 event.

3. Items for discussion

• Grant application received from Pauline Clague: Online indigenous women’s possum skin cloak making workshop. Application received on 25 Sep 2020, community consultation closed Fri 9 Oct 2020. To be considered by Council on 20 Oct 2020.
  • MOTION BY Sae Ra That Linux Australia Accepts the Grant Proposal Online indigenous women’s possum skin cloak making workshop submitted by Pauline Clague.
  • Seconded: Julien
  • Motion failed.
  • AI: Jonathan to follow up
• AGM Discussion
  • Agreement on the 15th.
  • Suggestion for Stewart Smith for returning officer
    • AI: Julien to approach

4. Items for noting

• LCA 2021 <details redacted>
• Jonathan talked to the Rockhampton Art Gallery folk about their proposal, resources created will be open, may come back.

5. Other business 

• AI: Julien to provide redacted minutes for audit
• AI: Julien to create static copy of planet site so admin team can just switch off

6. In camera

• No items were discussed in camera

Meeting closed at 2000

The post Council Meeting Tuesday 20th October 2020 – Minutes appeared first on Linux Australia.

This video shows the completion of work to split the tracking code into 3 threads – video capture, fast analysis and long analysis.

If the projected pose of an object doesn’t line up with the LEDs where we expect it to be, the frame is sent off for more expensive analysis in another thread. That way, it doesn’t block tracking of other objects – the fast analysis thread can continue with the next frame.

As a new blob is detected in a video frame, it is assigned an ID, and tracked between frames using motion flow. When the analysis results are available at some point in the future, the ID lets us find blobs that still exist in that most recent video frame. If the blobs are still unknowns in the new frame, the code labels them with the LED ID it found – and then hopefully in the next frame, the fast analysis is locked onto the object again.

There are some obvious next things to work on:

• It’s hard to decide what constitutes a ‘good’ pose match, especially around partially visible LEDs at the edges. More experimentation and refinement needed
• The IMU dead-reckoning between frames is bad – the accelerometer biases especially for the controllers tends to make them zoom off very quickly and lose tracking. More filtering, bias extraction and investigation should improve that, and help with staying locked onto fast-moving objects.
• The code that decides whether an LED is expected to be visible in a given pose can use some improving.
• Often the orientation of a device is good, but the position is wrong – a matching mode that only searches for translational matches could be good.
• Taking the gravity vector of the device into account can help reject invalid poses, as could some tests against plausible location based on human movements limits.

Code is at https://github.com/thaytan/OpenHMD/tree/rift-correspondence-search

Planet Linux Australia (planet.linux.org.au) was started more than 15 years ago by Michael Davies. In the time since (and particularly before the rise of social media), it has provided a valuable service by encouraging the sharing of information and opinions within our Open Source community. However, due to the many diverse communication options now available over the internet, sites such as Planet Linux Australia are no longer used as heavily as they once were. With many other channels now available, the resources required to maintain Planet Linux Australia are becoming difficult to justify.

With this in mind and following the recommendation of Michael Davies, the Linux Australia Council has decided that it is time close Planet Linux Australia. Linux Australia would like to express its profound appreciation for the work Michael and others have done to initiate and maintain this service. Our community has greatly benefited from this service over the years.

The post Saying Farewell to Planet Linux Australia appeared first on Linux Australia.

This is another in my series of updates on developing positional tracking for the Oculus Rift CV1 in OpenHMD

In the last post I ended with a TODO list. Since then I’ve crossed off a few things from that, and fixed a handful of very important bugs that were messing things up. I took last week off work, which gave me some extra hacking hours and enthusiasm too, and really helped push things forward.

Here’s the updated list:

• The full model search for re-acquiring lock when we start, or when we lose tracking takes a long time. More work will mean avoiding that expensive path as much as possible.
• Multiple cameras interfere with each other.
  • Capturing frames from all cameras and analysing them happens on a single thread, and any delay in processing causes USB packets to be missed.
  • I plan to split this into 1 thread per camera doing capture and analysis of the ‘quick’ case with good tracking lock, and a 2nd thread that does the more expensive analysis when it’s needed. Partially Fixed
• At the moment the full model search also happens on the video capture thread, stalling all video input for hundreds of milliseconds – by which time any fast motion means the devices are no longer where we expect them to be.
  • This means that by the next frame, it has often lost tracking again, requiring a new full search… making it late for the next frame, etc.
  • The latency of position observations after a full model search is not accounted for at all in the current fusion algorithm, leading to incorrect reporting. Partially Fixed
• More validation is needed on the camera pose transformations. For the controllers, the results are definitely wrong – I suspect because the controller LED models are supplied (in the firmware) in a different orientation to the HMD and I used the HMD as the primary test. Much Improved
• Need to take the position and orientation of the IMU within each device into account. This information is in the firmware information but ignored right now. Fixed
• Filtering! This is a big ticket item. The quality of the tracking depends on many pieces – how well the pose of devices is extracted from the computer vision and how quickly, and then very much on how well the information from the device IMU is combined with those observations. I have read so many papers on this topic, and started work on a complex Kalman filter for it.
• Improve the model to LED matching. I’ve done quite a bit of work on refining the model matching algorithm, and it works very well for the HMD. It struggles more with the controllers, where there are fewer LEDs and the 2 controllers are harder to disambiguate. I have some things to try out for improving that – using the IMU orientation information to disambiguate controllers, and using better models for what size/brightness we expect an LED to be for a given pose.
• Initial calibration / setup. Rather than assuming the position of the headset when it is first sighted, I’d like to have a room calibration step and a calibration file that remembers the position of the cameras.
• Detecting when cameras have been moved. When cameras observe the same device simultaneously (or nearly so), it should be possible to detect if cameras are giving inconsistent information and do some correction.
• hot-plug detection of cameras and re-starting them when they go offline or encounter spurious USB protocol errors. The latter happens often enough to be annoying during testing.
• Other things I can’t think of right now.

As you can see, a few of the top-level items have been fixed, or mostly so. I split the computer vision for the tracking into several threads:

• 1 thread shared between all sensors to capture USB packets and assemble them into frames
• 1 thread per sensor to analyse the frame and update poses

The goal with that initial split was to prevent the processing of multiple sensors from interfering with each other, but I found that it also has a strong benefit even with a single sensor. I realised something in the last week that I probably should have noted earlier: The Rift sensors capture a video frame every 19.2ms, but that frame then takes a full 17ms to deliver across the USB – the means that when everything was in one thread, even with 1 sensor there was only about 2.2ms for the full analysis to take place or else we’d miss a packet of the next frame and have to throw it away. With the analysis now happening in a separate thread and a ping-pong double buffer in place, the analysis can take quite a bit longer without losing any video frames.

I plan to add a 2nd per-sensor thread that will divide the analysis further. The current thread will do only fast pass validation of any existing tracking lock, and will defer any longer term analysis to the other thread. That means that if we have a good lock on the HMD, but can’t (for example) find one of the controllers, searching for the controller will be deferred and the fast pass thread will move onto the next frame and keep tracking lock on the headset.

I fixed some bugs in the calculations that move between frames of reference – converting to/from the global position and orientation in the world to the position and orientation relative to each camera sensor when predicting what the appearance of the LEDs should be. I also added in the IMU offset and orientation of the LED models from the firmware, to make the predictions more accurate when devices move in the time between camera exposures.

Yaw Correction: when a device is observed by a sensor, the orientation is incorporated into what the IMU is measuring. The IMU can sense gravity and knows which way is up or down, but not which way is forward. The observation from the camera now corrects for that yaw drift, to keep things pointing the way you expect them to.

Some other bits:

• Fixing numerical overflow issues in the OpenHMD maths routines
• Capturing the IMU orientation and prediction that most closely corresponds to the moment each camera image is recorded, instead of when the camera image finishes transferring to the PC (which is 17ms later)
• Improving the annotated debug view, to help understand what’s happening in the tracking computer vision steps
• A 1st order estimate of device velocity to help improve the next predicted position

I posted a longer form video walkthrough of the current code in action, and discussing some of the remaining shortcomings.

As previously, the code is available at https://github.com/thaytan/OpenHMD/tree/rift-correspondence-search

1. Meeting overview and key information

Present

Sae Ra Germaine

Jonathan Woithe

Julien Goodwin

Russell Stuart

Lisa Sands

Benno Rice

Apologies

Joel Addison

Meeting opened at 1931 AEDT by Sae Ra and quorum was achieved.

Minutes taken by Julien.

2. Event Review

Drupal

Admin Team

Pycon

LCA 2020

LCA 2021

LCA 2022

3. Log of correspondence

• NSW Government Small Business Survey: reminder received via council@ on 23 Sep 2020. Original message received on 21 Sep 2020.
  • We’re not going to complete this survey.
• Ampache grant progress report 2: received via council@ on 23 Sep 2020. 
  • Not fully final, but we do expect one more.
• Grant application received from Pauline Clague: Online indigenous women’s possum skin cloak making workshop. Application received on 25 Sep 2020, community consultation closes Fri 9 Oct 2020. To be considered by Council on 20 Oct 2020.

4. Items for discussion

• AGM
  • AI: Sae Ra will set up time with Julien to plan AGM, possibly next week
  • Annual report has been started
    • Will need photo / bio from people
    • AI: Julien to get minutes posted

5. Items for noting

• newCardigan AGM (glam tech group), running using our Zoom account
• Netthing happened
  • We got praised!
• Software Freedom Day

6. Other business 

• None

7. In camera

• One item was discussed in camera.

2042 AEDT close

The post Council Meeting Tuesday 6th October 2020 – Minutes appeared first on Linux Australia.

It’s hard to be nuanced in 280 characters.

The Twitter character limit is a major factor of what can make it so much fun to use: you can read, publish, and interact, in extremely short, digestible chunks. But, it doesn’t fit every topic, ever time. Sometimes you want to talk about complex topics, having honest, thoughtful discussions. In an environment that encourages hot takes, however, it’s often easier to just avoid having those discussions. I can’t blame people for doing that, either: I find myself taking extended breaks from Twitter, as it can easily become overwhelming.

For me, the exception is Twitter threads.

Twitter threads encourage nuance and creativity.

Creative masterpieces like this Choose Your Own Adventure are not just possible, they rely on Twitter threads being the way they are.

Publishing a short essay about your experiences in your job can bring attention to inequality.

And Tumblr screenshot threads are always fun to read, even when they take a turn for the epic (over 4000 tweets in this thread, and it isn’t slowing down!)

Everyone can think of threads that they’ve loved reading.

My point is, threads are wildly underused on Twitter. I think I big part of that is the UI for writing threads: while it’s suited to writing a thread as a series of related tweet-sized chunks, it doesn’t lend itself to writing, revising, and editing anything more complex.

To help make this easier, I’ve been working on a tool that will help you publish an entire post to Twitter from your WordPress site, as a thread. It takes care of transforming your post into Twitter-friendly content, you can just… write.

It doesn’t just handle the tweet embeds from earlier in the thread: it handles handle uploading and attaching any images and videos you’ve included in your post.

All sorts of embeds work, too.

It’ll be coming in Jetpack 9.0 (due out October 6), but you can try it now in the latest Jetpack Beta! Check it out and tell me what you think.

This might not fix all of Twitter’s problems, but I hope it’ll help you enjoy reading and writing on Twitter a little more.

Digital TV uses MPEG Transport Stream, which is a container for video designed for lossy transmission, such as radio. To save CPU cycles, Personal Video Records often save the MPEG-TS stream directly to disk. The more usual MPEG is technically MPEG Program Stream, which is designed for lossless transmission, such as storage on a disk.

Since these are a container formats, it should be possible to losslessly and quickly re-code from MPEG-TS to MPEG-PS.

ffmpeg -ss "${STARTTIME}" -to "${DURATION}" -i "${FILENAME}" -ignore_unknown -map 0 -map -0:2 -c copy "${FILENAME}.mpeg"

I gave the talk Practicality Beats Purity: The Zen of Python’s Escape Hatch as part of PyConline AU 2020, the very online replacement for PyCon AU this year. In that talk, I included a few interesting links code samples which you may be interested in:

Links and code samples

• 20 Pythonic Fec^WTheses by Tim Peters, from comp.lang.python The Way of Python
• Fantastic Blocks and Where to Hide Them, from PyCon AU 2019
• PEP 8
• PEP 318 which introduce decorators

@apply

def apply(transform):

    def __decorator__(using_this):
        return transform(using_this)

    return __decorator__


numbers = [1, 2, 3, 4, 5]

@apply(lambda f: list(map(f, numbers)))
def squares(i):
  return i * i

print(list(squares))

# prints: [1, 4, 9, 16, 25]

Init.java

public class Init {
  public static void main(String[] args) {
    System.out.println("Hello, World!")
  }
}

@switch and @case

__NOT_A_MATCHER__ = object()
__MATCHER_SORT_KEY__ = 0

def switch(cls):

    inst = cls()
    methods = []

    for attr in dir(inst):
        method = getattr(inst, attr)
        matcher = getattr(method, "__matcher__", __NOT_A_MATCHER__)

        if matcher == __NOT_A_MATCHER__:
            continue

        methods.append(method)

    methods.sort(key = lambda i: i.__matcher_sort_key__)

    for method in methods:
        matches = method.__matcher__()
        if matches:
            return method()

    raise ValueError(f"No matcher matches value {test_value}")

def case(matcher):

    def __decorator__(f):
        global __MATCHER_SORT_KEY__

        f.__matcher__ = matcher
        f.__matcher_sort_key__ = __MATCHER_SORT_KEY__
        __MATCHER_SORT_KEY__ += 1
        return f

    return __decorator__



if __name__ == "__main__":
    for i in range(100):

        @switch
        class FizzBuzz:

            @case(lambda: i % 15 == 0)
            def fizzbuzz(self):
                return "fizzbuzz"

            @case(lambda: i % 3 == 0)
            def fizz(self):
                return "fizz"

            @case(lambda: i % 5 == 0)
            def buzz(self):
                return "buzz"

            @case(lambda: True)
            def default(self):
                return "-"

        print(f"{i} {FizzBuzz}")

fuck grey text on white backgrounds
fuck grey text on black backgrounds
fuck thin, spindly fonts
fuck 10px text
fuck any size of anything in px
fuck font-weight 300
fuck unreadable web pages
fuck themes that implement this unreadable idiocy
fuck sites that don’t work without javascript
fuck reactjs and everything like it

thank fuck for Stylus. and uBlock Origin. and uMatrix.

Fuck Grey Text is a post from: Errata

TL;DR: exchanges are casinos and don’t want to onboard anyone into bitcoin. Avoid.

There’s a classic scam in the “crypto” space: advertize Bitcoin to get people in, then sell suckers something else entirely. Over the last few years, this bait-and-switch has become the core competency of “bitcoin” exchanges.

I recently visited the homepage of Australian exchange btcmarkets.net: what a mess. There was a list of dozens of identical-looking “cryptos”, with bitcoin second after something called “XRP”; seems like it was sorted by volume?

Incentives have driven exchanges to become casinos, and they’re doing exactly what you’d expect unregulated casinos to do. This is no place you ever want to send anyone.

Incentives For Exchanges

Exchanges make money on trading, not on buying and holding. Despite the fact that bitcoin is the only real attempt to create an open source money, scams with no future are given false equivalence, because more assets means more trading. Worse than that, they are paid directly to list new scams (the crappier, the more money they can charge!) and have recently taken the logical step of introducing and promoting their own crapcoins directly.

It’s like a gold dealer who also sells 57 varieties of pyrite, which give more margin than selling actual gold.

For a long time, I thought exchanges were merely incompetent. Most can’t even give out fresh addresses for deposits, batch their outgoing transactions, pay competent fee rates, perform RBF or use segwit.

But I misunderstood: they don’t want to sell bitcoin. They use bitcoin to get you in the door, but they want you to gamble. This matters: you’ll find subtle and not-so-subtle blockers to simply buying bitcoin on an exchange. If you send a friend off to buy their first bitcoin, they’re likely to come back with something else. That’s no accident.

Looking Deeper, It Gets Worse.

Regrettably, looking harder at specific exchanges makes the picture even bleaker.

Consider Binance: this mainland China backed exchange pretending to be a Hong Kong exchange appeared out of nowhere with fake volume and demonstrated the gullibility of the entire industry by being treated as if it were a respected member. They lost at least 40,000 bitcoin in a known hack, and they also lost all the personal information people sent them to KYC. They aggressively market their own coin. But basically, they’re just MtGox without Mark Karpales’ PHP skills or moral scruples and much better marketing.

Coinbase is more interesting: an MBA-run “bitcoin” company which really dislikes bitcoin. They got where they are by spending big on regulations compliance in the US so they could operate in (almost?) every US state. (They don’t do much to dispel the wide belief that this regulation protects their users, when in practice it seems only USD deposits have any guarantee). Their natural interest is in increasing regulation to maintain that moat, and their biggest problem is Bitcoin.

They have much more affinity for the centralized coins (Ethereum) where they can have influence and control. The anarchic nature of a genuine open source community (not to mention the developers’ oft-stated aim to improve privacy over time) is not culturally compatible with a top-down company run by the Big Dog. It’s a running joke that their CEO can’t say the word “Bitcoin”, but their recent “what will happen to cryptocurrencies in the 2020s” article is breathtaking in its boldness: innovation is mainly happening on altcoins, and they’re going to overtake bitcoin any day now. Those scaling problems which the Bitcoin developers say they don’t know how to solve? This non-technical CEO knows better.

So, don’t send anyone to an exchange, especially not a “market leading” one. Find some service that actually wants to sell them bitcoin, like CashApp or Swan Bitcoin.

Because posting private keys on the Internet is a bad idea, some people like to “redact” their private keys, so that it looks kinda-sorta like a private key, but it isn’t actually giving away anything secret. Unfortunately, due to the way that private keys are represented, it is easy to “redact” a key in such a way that it doesn’t actually redact anything at all. RSA private keys are particularly bad at this, but the problem can (potentially) apply to other keys as well.

I’ll show you a bit of “Inside Baseball” with key formats, and then demonstrate the practical implications. Finally, we’ll go through a practical worked example from an actual not-really-redacted key I recently stumbled across in my travels.

The Private Lives of Private Keys

Here is what a typical private key looks like, when you come across it:

-----BEGIN RSA PRIVATE KEY-----
MGICAQACEQCxjdTmecltJEz2PLMpS4BXAgMBAAECEDKtuwD17gpagnASq1zQTYEC
CQDVTYVsjjF7IQIJANUYZsIjRsR3AgkAkahDUXL0RSECCB78r2SnsJC9AghaOK3F
sKoELg==
-----END RSA PRIVATE KEY-----

Obviously, there’s some hidden meaning in there – computers don’t encrypt things by shouting “BEGIN RSA PRIVATE KEY!”, after all. What is between the BEGIN/END lines above is, in fact, a base64-encoded DER format ASN.1 structure representing a PKCS#1 private key.

In simple terms, it’s a list of numbers – very important numbers. The list of numbers is, in order:

• A version number (0);
• The “public modulus”, commonly referred to as “n”;
• The “public exponent”, or “e” (which is almost always 65,537, for various unimportant reasons);
• The “private exponent”, or “d”;
• The two “private primes”, or “p” and “q”;
• Two exponents, which are known as “dmp1” and “dmq1”; and
• A coefficient, known as “iqmp”.

Why Is This a Problem?

The thing is, only three of those numbers are actually required in a private key. The rest, whilst useful to allow the RSA encryption and decryption to be more efficient, aren’t necessary. The three absolutely required values are e, p, and q.

Of the other numbers, most of them are at least about the same size as each of p and q. So of the total data in an RSA key, less than a quarter of the data is required. Let me show you with the above “toy” key, by breaking it down piece by piece¹:

• MGI – DER for “this is a sequence”
• CAQ – version (0)
• CxjdTmecltJEz2PLMpS4BX – n
• AgMBAA – e
• ECEDKtuwD17gpagnASq1zQTY – d
• ECCQDVTYVsjjF7IQ – p
• IJANUYZsIjRsR3 – q
• AgkAkahDUXL0RS – dmp1
• ECCB78r2SnsJC9 – dmq1
• AghaOK3FsKoELg== – iqmp

Remember that in order to reconstruct all of these values, all I need are e, p, and q – and e is pretty much always 65,537. So I could “redact” almost all of this key, and still give all the important, private bits of this key. Let me show you:

-----BEGIN RSA PRIVATE KEY-----
..............................................................EC
CQDVTYVsjjF7IQIJANUYZsIjRsR3....................................
........
-----END RSA PRIVATE KEY-----

Now, I doubt that anyone is going to redact a key precisely like this… but then again, this isn’t a “typical” RSA key. They usually look a lot more like this:

-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----

People typically redact keys by deleting whole lines, and usually replacing them with [...] and the like. But only about 345 of those 1588 characters (excluding the header and footer) are required to construct the entire key. You can redact about 4/5ths of that giant blob of stuff, and your private parts (or at least, those of your key) are still left uncomfortably exposed.

But Wait! There’s More!

Remember how I said that everything in the key other than e, p, and q could be derived from those three numbers? Let’s talk about one of those numbers: n.

This is known as the “public modulus” (because, along with e, it is also present in the public key). It is very easy to calculate: n = p * q. It is also very early in the key (the second number, in fact).

Since n = p * q, it follows that q = n / p. Thus, as long as the key is intact up to p, you can derive q by simple division.

Real World Redaction

At this point, I’d like to introduce an acquaintance of mine: Mr. Johan Finn. He is the proud owner of the GitHub repo johanfinn/scripts. For a while, his repo contained a script that contained a poorly-redacted private key. He since deleted it, by making a new commit, but of course because git never really deletes anything, it’s still available.

Of course, Mr. Finn may delete the repo, or force-push a new history without that commit, so here is the redacted private key, with a bit of the surrounding shell script, for our illustrative pleasure:

#Add private key to .ssh folder
cd /home/johan/.ssh/
echo  "-----BEGIN RSA PRIVATE KEY-----
MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMM
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK
ÄÄÄÄÄÄÄÄÄÄÄÄÄÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅ
MIIJKgIBAAKCAgEAxEVih1JGb8gu/Fm4AZh+ZwJw/pjzzliWrg4mICFt1g7SmIE2
TCQMKABdwd11wOFKCPc/UzRH/fHuQcvWrpbOSdqev/zKff9iedKw/YygkMeIRaXB
fYELqvUAOJ8PPfDm70st9GJRhjGgo5+L3cJB2gfgeiDNHzaFvapRSU0oMGQX+kI9
ezsjDAn+0Pp+r3h/u1QpLSH4moRFGF4omNydI+3iTGB98/EzuNhRBHRNq4oBV5SG
Pq/A1bem2ninnoEaQ+OPESxYzDz3Jy9jV0W/6LvtJ844m+XX69H5fqq5dy55z6DW
sGKn78ULPVZPsYH5Y7C+CM6GAn4nYCpau0t52sqsY5epXdeYx4Dc+Wm0CjXrUDEe
Egl4loPKDxJkQqQ/MQiz6Le/UK9vEmnWn1TRXK3ekzNV4NgDfJANBQobOpwt8WVB
rbsC0ON7n680RQnl7PltK9P1AQW5vHsahkoixk/BhcwhkrkZGyDIl9g8Q/Euyoq3
eivKPLz7/rhDE7C1BzFy7v8AjC3w7i9QeHcWOZFAXo5hiDasIAkljDOsdfD4tP5/
wSO6E6pjL3kJ+RH2FCHd7ciQb+IcuXbku64ln8gab4p8jLa/mcMI+V3eWYnZ82Yu
axsa85hAe4wb60cp/rCJo7ihhDTTvGooqtTisOv2nSvCYpcW9qbL6cGjAXECAwEA
AQKCAgEAjz6wnWDP5Y9ts2FrqUZ5ooamnzpUXlpLhrbu3m5ncl4ZF5LfH+QDN0Kl
KvONmHsUhJynC/vROybSJBU4Fu4bms1DJY3C39h/L7g00qhLG7901pgWMpn3QQtU
4P49qpBii20MGhuTsmQQALtV4kB/vTgYfinoawpo67cdYmk8lqzGzzB/HKxZdNTq
s+zOfxRr7PWMo9LyVRuKLjGyYXZJ/coFaobWBi8Y96Rw5NZZRYQQXLIalC/Dhndm
AHckpstEtx2i8f6yxEUOgPvV/gD7Akn92RpqOGW0g/kYpXjGqZQy9PVHGy61sInY
HSkcOspIkJiS6WyJY9JcvJPM6ns4b84GE9qoUlWVF3RWJk1dqYCw5hz4U8LFyxsF
R6WhYiImvjxBLpab55rSqbGkzjI2z+ucDZyl1gqIv9U6qceVsgRyuqdfVN4deU22
LzO5IEDhnGdFqg9KQY7u8zm686Ejs64T1sh0y4GOmGsSg+P6nsqkdlXH8C+Cf03F
lqPFg8WQC7ojl/S8dPmkT5tcJh3BPwIWuvbtVjFOGQc8x0lb+NwK8h2Nsn6LNazS
0H90adh/IyYX4sBMokrpxAi+gMAWiyJHIHLeH2itNKtAQd3qQowbrWNswJSgJzsT
JuJ7uqRKAFkE6nCeAkuj/6KHHMPsfCAffVdyGaWqhoxmPOrnVgECggEBAOrCCwiC
XxwUgjOfOKx68siFJLfHf4vPo42LZOkAQq5aUmcWHbJVXmoxLYSczyAROopY0wd6
Dx8rqnpO7OtZsdJMeBSHbMVKoBZ77hiCQlrljcj12moFaEAButLCdZFsZW4zF/sx
kWIAaPH9vc4MvHHyvyNoB3yQRdevu57X7xGf9UxWuPil/jvdbt9toaraUT6rUBWU
GYPNKaLFsQzKsFWAzp5RGpASkhuiBJ0Qx3cfLyirjrKqTipe3o3gh/5RSHQ6VAhz
gdUG7WszNWk8FDCL6RTWzPOrbUyJo/wz1kblsL3vhV7ldEKFHeEjsDGroW2VUFlS
asAHNvM4/uYcOSECggEBANYH0427qZtLVuL97htXW9kCAT75xbMwgRskAH4nJDlZ
IggDErmzBhtrHgR+9X09iL47jr7dUcrVNPHzK/WXALFSKzXhkG/yAgmt3r14WgJ6
5y7010LlPFrzaNEyO/S4ISuBLt4cinjJsrFpoo0WI8jXeM5ddG6ncxdurKXMymY7
:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::.::
:::::::::::::::::::::::::::.::::::::::::::::::::::::::::::::::::
LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLlL
ÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖÖ
ÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ
ÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅÅ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-----END RSA PRIVATE KEY-----" >> id_rsa

Now, if you try to reconstruct this key by removing the “obvious” garbage lines (the ones that are all repeated characters, some of which aren’t even valid base64 characters), it still isn’t a key – at least, openssl pkey doesn’t want anything to do with it. The key is very much still in there, though, as we shall soon see.

Using a gem I wrote and a quick bit of Ruby, we can extract a complete private key. The irb session looks something like this:

>> require "derparse"
>> b64 = <<EOF
MIIJKgIBAAKCAgEAxEVih1JGb8gu/Fm4AZh+ZwJw/pjzzliWrg4mICFt1g7SmIE2
TCQMKABdwd11wOFKCPc/UzRH/fHuQcvWrpbOSdqev/zKff9iedKw/YygkMeIRaXB
fYELqvUAOJ8PPfDm70st9GJRhjGgo5+L3cJB2gfgeiDNHzaFvapRSU0oMGQX+kI9
ezsjDAn+0Pp+r3h/u1QpLSH4moRFGF4omNydI+3iTGB98/EzuNhRBHRNq4oBV5SG
Pq/A1bem2ninnoEaQ+OPESxYzDz3Jy9jV0W/6LvtJ844m+XX69H5fqq5dy55z6DW
sGKn78ULPVZPsYH5Y7C+CM6GAn4nYCpau0t52sqsY5epXdeYx4Dc+Wm0CjXrUDEe
Egl4loPKDxJkQqQ/MQiz6Le/UK9vEmnWn1TRXK3ekzNV4NgDfJANBQobOpwt8WVB
rbsC0ON7n680RQnl7PltK9P1AQW5vHsahkoixk/BhcwhkrkZGyDIl9g8Q/Euyoq3
eivKPLz7/rhDE7C1BzFy7v8AjC3w7i9QeHcWOZFAXo5hiDasIAkljDOsdfD4tP5/
wSO6E6pjL3kJ+RH2FCHd7ciQb+IcuXbku64ln8gab4p8jLa/mcMI+V3eWYnZ82Yu
axsa85hAe4wb60cp/rCJo7ihhDTTvGooqtTisOv2nSvCYpcW9qbL6cGjAXECAwEA
AQKCAgEAjz6wnWDP5Y9ts2FrqUZ5ooamnzpUXlpLhrbu3m5ncl4ZF5LfH+QDN0Kl
KvONmHsUhJynC/vROybSJBU4Fu4bms1DJY3C39h/L7g00qhLG7901pgWMpn3QQtU
4P49qpBii20MGhuTsmQQALtV4kB/vTgYfinoawpo67cdYmk8lqzGzzB/HKxZdNTq
s+zOfxRr7PWMo9LyVRuKLjGyYXZJ/coFaobWBi8Y96Rw5NZZRYQQXLIalC/Dhndm
AHckpstEtx2i8f6yxEUOgPvV/gD7Akn92RpqOGW0g/kYpXjGqZQy9PVHGy61sInY
HSkcOspIkJiS6WyJY9JcvJPM6ns4b84GE9qoUlWVF3RWJk1dqYCw5hz4U8LFyxsF
R6WhYiImvjxBLpab55rSqbGkzjI2z+ucDZyl1gqIv9U6qceVsgRyuqdfVN4deU22
LzO5IEDhnGdFqg9KQY7u8zm686Ejs64T1sh0y4GOmGsSg+P6nsqkdlXH8C+Cf03F
lqPFg8WQC7ojl/S8dPmkT5tcJh3BPwIWuvbtVjFOGQc8x0lb+NwK8h2Nsn6LNazS
0H90adh/IyYX4sBMokrpxAi+gMAWiyJHIHLeH2itNKtAQd3qQowbrWNswJSgJzsT
JuJ7uqRKAFkE6nCeAkuj/6KHHMPsfCAffVdyGaWqhoxmPOrnVgECggEBAOrCCwiC
XxwUgjOfOKx68siFJLfHf4vPo42LZOkAQq5aUmcWHbJVXmoxLYSczyAROopY0wd6
Dx8rqnpO7OtZsdJMeBSHbMVKoBZ77hiCQlrljcj12moFaEAButLCdZFsZW4zF/sx
kWIAaPH9vc4MvHHyvyNoB3yQRdevu57X7xGf9UxWuPil/jvdbt9toaraUT6rUBWU
GYPNKaLFsQzKsFWAzp5RGpASkhuiBJ0Qx3cfLyirjrKqTipe3o3gh/5RSHQ6VAhz
gdUG7WszNWk8FDCL6RTWzPOrbUyJo/wz1kblsL3vhV7ldEKFHeEjsDGroW2VUFlS
asAHNvM4/uYcOSECggEBANYH0427qZtLVuL97htXW9kCAT75xbMwgRskAH4nJDlZ
IggDErmzBhtrHgR+9X09iL47jr7dUcrVNPHzK/WXALFSKzXhkG/yAgmt3r14WgJ6
5y7010LlPFrzaNEyO/S4ISuBLt4cinjJsrFpoo0WI8jXeM5ddG6ncxdurKXMymY7
EOF
>> b64 += <<EOF
gff0GJCOMZ65pMSy3A3cSAtjlKnb4fWzuHD5CFbusN4WhCT/tNxGNSpzvxd8GIDs
nY7exs9L230oCCpedVgcbayHCbkChEfoPzL1e1jXjgCwCTgt8GjeEFqc1gXNEaUn
O8AJ4VlR8fRszHm6yR0ZUBdY7UJddxQiYOzt0S1RLlECggEAbdcs4mZdqf3OjejJ
06oTPs9NRtAJVZlppSi7pmmAyaNpOuKWMoLPElDAQ3Q7VX26LlExLCZoPOVpdqDH
KbdmBEfTR4e11Pn9vYdu9/i6o10U4hpmf4TYKlqk10g1Sj21l8JATj/7Diey8scO
sAI1iftSg3aBSj8W7rxCxSezrENzuqw5D95a/he1cMUTB6XuravqZK5O4eR0vrxR
AvMzXk5OXrUEALUvt84u6m6XZZ0pq5XZxq74s8p/x1JvTwcpJ3jDKNEixlHfdHEZ
ZIu/xpcwD5gRfVGQamdcWvzGHZYLBFO1y5kAtL8kI9tW7WaouWVLmv99AyxdAaCB
Y5mBAQKCAQEAzU7AnorPzYndlOzkxRFtp6MGsvRBsvvqPLCyUFEXrHNV872O7tdO
GmsMZl+q+TJXw7O54FjJJvqSSS1sk68AGRirHop7VQce8U36BmI2ZX6j2SVAgIkI
9m3btCCt5rfiCatn2+Qg6HECmrCsHw6H0RbwaXS4RZUXD/k4X+sslBitOb7K+Y+N
Bacq6QxxjlIqQdKKPs4P2PNHEAey+kEJJGEQ7bTkNxCZ21kgi1Sc5L8U/IGy0BMC
PvJxssLdaWILyp3Ws8Q4RAoC5c0ZP0W2j+5NSbi3jsDFi0Y6/2GRdY1HAZX4twem
Q0NCedq1JNatP1gsb6bcnVHFDEGsj/35oQKCAQEAgmWMuSrojR/fjJzvke6Wvbox
FRnPk+6YRzuYhAP/YPxSRYyB5at++5Q1qr7QWn7NFozFIVFFT8CBU36ktWQ39MGm
cJ5SGyN9nAbbuWA6e+/u059R7QL+6f64xHRAGyLT3gOb1G0N6h7VqFT25q5Tq0rc
Lf/CvLKoudjv+sQ5GKBPT18+zxmwJ8YUWAsXUyrqoFWY/Tvo5yLxaC0W2gh3+Ppi
EDqe4RRJ3VKuKfZxHn5VLxgtBFN96Gy0+Htm5tiMKOZMYAkHiL+vrVZAX0hIEuRZ
EOF
>> der = b64.unpack("m").first
>> c = DerParse.new(der).first_node.first_child
>> version = c.value
=> 0
>> c = c.next_node
>> n = c.value
=> 80071596234464993385068908004931... # (etc)
>> c = c.next_node
>> e = c.value
=> 65537
>> c = c.next_node
>> d = c.value
=> 58438813486895877116761996105770... # (etc)
>> c = c.next_node
>> p = c.value
=> 29635449580247160226960937109864... # (etc)
>> c = c.next_node
>> q = c.value
=> 27018856595256414771163410576410... # (etc)

What I’ve done, in case you don’t speak Ruby, is take the two “chunks” of plausible-looking base64 data, chuck them together into a variable named b64, unbase64 it into a variable named der, pass that into a new DerParse instance, and then walk the DER value tree until I got all the values I need.

Interestingly, the q value actually traverses the “split” in the two chunks, which means that there’s always the possibility that there are lines missing from the key. However, since p and q are supposed to be prime, we can “sanity check” them to see if corruption is likely to have occurred:

>> require "openssl"
>> OpenSSL::BN.new(p).prime?
=> true
>> OpenSSL::BN.new(q).prime?
=> true

Excellent! The chances of a corrupted file producing valid-but-incorrect prime numbers isn’t huge, so we can be fairly confident that we’ve got the “real” p and q. Now, with the help of another one of my creations we can use e, p, and q to create a fully-operational battle key:

>> require "openssl/pkey/rsa"
>> k = OpenSSL::PKey::RSA.from_factors(p, q, e)
=> #<OpenSSL::PKey::RSA:0x0000559d5903cd38>
>> k.valid?
=> true
>> k.verify(OpenSSL::Digest::SHA256.new, k.sign(OpenSSL::Digest::SHA256.new, "bob"), "bob")
=> true

… and there you have it. One fairly redacted-looking private key brought back to life by maths and far too much free time.

Sorry Mr. Finn, I hope you’re not still using that key on anything Internet-facing.

What About Other Key Types?

EC keys are very different beasts, but they have much the same problems as RSA keys. A typical EC key contains both private and public data, and the public portion is twice the size – so only about 1/3 of the data in the key is private material. It is quite plausible that you can “redact” an EC key and leave all the actually private bits exposed.

What Do We Do About It?

In short: don’t ever try and redact real private keys. For documentation purposes, just put “KEY GOES HERE” in the appropriate spot, or something like that. Store your secrets somewhere that isn’t a public (or even private!) git repo.

Generating a “dummy” private key and sticking it in there isn’t a great idea, for different reasons: people have this odd habit of reusing “demo” keys in real life. There’s no need to encourage that sort of thing.

Some time ago, I wrote “floats, bits, and constant expressions” about converting floating point number into its representative ones and zeros as a C++ constant expression – constructing the IEEE 754 representation without being able to examine the bits directly.

I’ve been playing around with Rust recently, and rewrote that conversion code as a bit of a learning exercise for myself, with a thoroughly contrived set of constraints: using integer and single-precision floating point math, at compile time, without unsafe blocks, while using as few unstable features as possible.

I’ve included the listing below, for your bemusement and/or head-shaking, and you can play with the code in the Rust Playground and rust.godbolt.org

// Jonathan Adamczewski 2020-05-12
//
// Constructing the bit-representation of an IEEE 754 single precision floating 
// point number, using integer and single-precision floating point math, at 
// compile time, in rust, without unsafe blocks, while using as few unstable 
// features as I can.
//
// or "What if this silly C++ thing https://brnz.org/hbr/?p=1518 but in Rust?"


// Q. Why? What is this good for?
// A. To the best of my knowledge, this code serves no useful purpose. 
//    But I did learn a thing or two while writing it :)


// This is needed to be able to perform floating point operations in a const 
// function:
#![feature(const_fn)]


// bits_transmute(): Returns the bits representing a floating point value, by
//                   way of std::mem::transmute()
//
// For completeness (and validation), and to make it clear the fundamentally 
// unnecessary nature of the exercise :D - here's a short, straightforward, 
// library-based version. But it needs the const_transmute flag and an unsafe 
// block.
#![feature(const_transmute)]
const fn bits_transmute(f: f32) -> u32 {
  unsafe { std::mem::transmute::<f32, u32>(f) }
}



// get_if_u32(predicate:bool, if_true: u32, if_false: u32):
//   Returns if_true if predicate is true, else if_false
//
// If and match are not able to be used in const functions (at least, not 
// without #![feature(const_if_match)] - so here's a branch-free select function
// for u32s
const fn get_if_u32(predicate: bool, if_true: u32, if_false: u32) -> u32 {
  let pred_mask = (-1 * (predicate as i32)) as u32;
  let true_val = if_true & pred_mask;
  let false_val = if_false & !pred_mask;
  true_val | false_val
}

// get_if_f32(predicate, if_true, if_false):
//   Returns if_true if predicate is true, else if_false
//
// A branch-free select function for f32s.
// 
// If either is_true or is_false is NaN or an infinity, the result will be NaN,
// which is not ideal. I don't know of a better way to implement this function
// within the arbitrary limitations of this silly little side quest.
const fn get_if_f32(predicate: bool, if_true: f32, if_false: f32) -> f32 {
  // can't convert bool to f32 - but can convert bool to i32 to f32
  let pred_sel = (predicate as i32) as f32;
  let pred_not_sel = ((!predicate) as i32) as f32;
  let true_val = if_true * pred_sel;
  let false_val = if_false * pred_not_sel;
  true_val + false_val
}


// bits(): Returns the bits representing a floating point value.
const fn bits(f: f32) -> u32 {
  // the result value, initialized to a NaN value that will otherwise not be
  // produced by this function.
  let mut r = 0xffff_ffff;

  // These floation point operations (and others) cause the following error:
  //     only int, `bool` and `char` operations are stable in const fn
  // hence #![feature(const_fn)] at the top of the file
  
  // Identify special cases
  let is_zero    = f == 0_f32;
  let is_inf     = f == f32::INFINITY;
  let is_neg_inf = f == f32::NEG_INFINITY;
  let is_nan     = f != f;

  // Writing this as !(is_zero || is_inf || ...) cause the following error:
  //     Loops and conditional expressions are not stable in const fn
  // so instead write this as type coversions, and bitwise operations
  //
  // "normalish" here means that f is a normal or subnormal value
  let is_normalish = 0 == ((is_zero as u32) | (is_inf as u32) | 
                        (is_neg_inf as u32) | (is_nan as u32));

  // set the result value for each of the special cases
  r = get_if_u32(is_zero,    0,           r); // if (iz_zero)    { r = 0; }
  r = get_if_u32(is_inf,     0x7f80_0000, r); // if (is_inf)     { r = 0x7f80_0000; }
  r = get_if_u32(is_neg_inf, 0xff80_0000, r); // if (is_neg_inf) { r = 0xff80_0000; }
  r = get_if_u32(is_nan,     0x7fc0_0000, r); // if (is_nan)     { r = 0x7fc0_0000; }
 
  // It was tempting at this point to try setting f to a "normalish" placeholder 
  // value so that special cases do not have to be handled in the code that 
  // follows, like so:
  // f = get_if_f32(is_normal, f, 1_f32);
  //
  // Unfortunately, get_if_f32() returns NaN if either input is NaN or infinite.
  // Instead of switching the value, we work around the non-normalish cases 
  // later.
  //
  // (This whole function is branch-free, so all of it is executed regardless of 
  // the input value)

  // extract the sign bit
  let sign_bit  = get_if_u32(f < 0_f32,  1, 0);

  // compute the absolute value of f
  let mut abs_f = get_if_f32(f < 0_f32, -f, f);

  
  // This part is a little complicated. The algorithm is functionally the same 
  // as the C++ version linked from the top of the file.
  // 
  // Because of the various contrived constraints on thie problem, we compute 
  // the exponent and significand, rather than extract the bits directly.
  //
  // The idea is this:
  // Every finite single precision float point number can be represented as a
  // series of (at most) 24 significant digits as a 128.149 fixed point number 
  // (128: 126 exponent values >= 0, plus one for the implicit leading 1, plus 
  // one more so that the decimal point falls on a power-of-two boundary :)
  // 149: 126 negative exponent values, plus 23 for the bits of precision in the 
  // significand.)
  //
  // If we are able to scale the number such that all of the precision bits fall 
  // in the upper-most 64 bits of that fixed-point representation (while 
  // tracking our effective manipulation of the exponent), we can then 
  // predictably and simply scale that computed value back to a range than can 
  // be converted safely to a u64, count the leading zeros to determine the 
  // exact exponent, and then shift the result into position for the final u32 
  // representation.
  
  // Start with the largest possible exponent - subsequent steps will reduce 
  // this number as appropriate
  let mut exponent: u32 = 254;
  {
    // Hex float literals are really nice. I miss them.

    // The threshold is 2^87 (think: 64+23 bits) to ensure that the number will 
    // be large enough that, when scaled down by 2^64, all the precision will 
    // fit nicely in a u64
    const THRESHOLD: f32 = 154742504910672534362390528_f32; // 0x1p87f == 2^87

    // The scaling factor is 2^41 (think: 64-23 bits) to ensure that a number 
    // between 2^87 and 2^64 will not overflow in a single scaling step.
    const SCALE_UP: f32 = 2199023255552_f32; // 0x1p41f == 2^41

    // Because loops are not available (no #![feature(const_loops)], and 'if' is
    // not available (no #![feature(const_if_match)]), perform repeated branch-
    // free conditional multiplication of abs_f.

    // use a macro, because why not :D It's the most compact, simplest option I 
    // could find.
    macro_rules! maybe_scale {
      () => {{
        // care is needed: if abs_f is above the threshold, multiplying by 2^41 
        // will cause it to overflow (INFINITY) which will cause get_if_f32() to
        // return NaN, which will destroy the value in abs_f. So compute a safe 
        // scaling factor for each iteration.
        //
        // Roughly equivalent to :
        // if (abs_f < THRESHOLD) {
        //   exponent -= 41;
        //   abs_f += SCALE_UP;
        // }
        let scale = get_if_f32(abs_f < THRESHOLD, SCALE_UP,      1_f32);    
        exponent  = get_if_u32(abs_f < THRESHOLD, exponent - 41, exponent); 
        abs_f     = get_if_f32(abs_f < THRESHOLD, abs_f * scale, abs_f);
      }}
    }
    // 41 bits per iteration means up to 246 bits shifted.
    // Even the smallest subnormal value will end up in the desired range.
    maybe_scale!();  maybe_scale!();  maybe_scale!();
    maybe_scale!();  maybe_scale!();  maybe_scale!();
  }

  // Now that we know that abs_f is in the desired range (2^87 <= abs_f < 2^128)
  // scale it down to be in the range (2^23 <= _ < 2^64), and convert without 
  // loss of precision to u64.
  const INV_2_64: f32 = 5.42101086242752217003726400434970855712890625e-20_f32; // 0x1p-64f == 2^64
  let a = (abs_f * INV_2_64) as u64;

  // Count the leading zeros.
  // (C++ doesn't provide a compile-time constant function for this. It's nice 
  // that rust does :)
  let mut lz = a.leading_zeros();

  // if the number isn't normalish, lz is meaningless: we stomp it with 
  // something that will not cause problems in the computation that follows - 
  // the result of which is meaningless, and will be ignored in the end for 
  // non-normalish values.
  lz = get_if_u32(!is_normalish, 0, lz); // if (!is_normalish) { lz = 0; }

  {
    // This step accounts for subnormal numbers, where there are more leading 
    // zeros than can be accounted for in a valid exponent value, and leading 
    // zeros that must remain in the final significand.
    //
    // If lz < exponent, reduce exponent to its final correct value - lz will be
    // used to remove all of the leading zeros.
    //
    // Otherwise, clamp exponent to zero, and adjust lz to ensure that the 
    // correct number of bits will remain (after multiplying by 2^41 six times - 
    // 2^246 - there are 7 leading zeros ahead of the original subnormal's
    // computed significand of 0.sss...)
    // 
    // The following is roughly equivalent to:
    // if (lz < exponent) {
    //   exponent = exponent - lz;
    // } else {
    //   exponent = 0;
    //   lz = 7;
    // }

    // we're about to mess with lz and exponent - compute and store the relative 
    // value of the two
    let lz_is_less_than_exponent = lz < exponent;

    lz       = get_if_u32(!lz_is_less_than_exponent, 7,             lz);
    exponent = get_if_u32( lz_is_less_than_exponent, exponent - lz, 0);
  }

  // compute the final significand.
  // + 1 shifts away a leading 1-bit for normal, and 0-bit for subnormal values
  // Shifts are done in u64 (that leading bit is shifted into the void), then
  // the resulting bits are shifted back to their final resting place.
  let significand = ((a << (lz + 1)) >> (64 - 23)) as u32;

  // combine the bits
  let computed_bits = (sign_bit << 31) | (exponent << 23) | significand;

  // return the normalish result, or the non-normalish result, as appopriate
  get_if_u32(is_normalish, computed_bits, r)
}


// Compile-time validation - able to be examined in rust.godbolt.org output
pub static BITS_BIGNUM: u32 = bits(std::f32::MAX);
pub static TBITS_BIGNUM: u32 = bits_transmute(std::f32::MAX);
pub static BITS_LOWER_THAN_MIN: u32 = bits(7.0064923217e-46_f32);
pub static TBITS_LOWER_THAN_MIN: u32 = bits_transmute(7.0064923217e-46_f32);
pub static BITS_ZERO: u32 = bits(0.0f32);
pub static TBITS_ZERO: u32 = bits_transmute(0.0f32);
pub static BITS_ONE: u32 = bits(1.0f32);
pub static TBITS_ONE: u32 = bits_transmute(1.0f32);
pub static BITS_NEG_ONE: u32 = bits(-1.0f32);
pub static TBITS_NEG_ONE: u32 = bits_transmute(-1.0f32);
pub static BITS_INF: u32 = bits(std::f32::INFINITY);
pub static TBITS_INF: u32 = bits_transmute(std::f32::INFINITY);
pub static BITS_NEG_INF: u32 = bits(std::f32::NEG_INFINITY);
pub static TBITS_NEG_INF: u32 = bits_transmute(std::f32::NEG_INFINITY);
pub static BITS_NAN: u32 = bits(std::f32::NAN);
pub static TBITS_NAN: u32 = bits_transmute(std::f32::NAN);
pub static BITS_COMPUTED_NAN: u32 = bits(std::f32::INFINITY/std::f32::INFINITY);
pub static TBITS_COMPUTED_NAN: u32 = bits_transmute(std::f32::INFINITY/std::f32::INFINITY);


// Run-time validation of many more values
fn main() {
  let end: usize = 0xffff_ffff;
  let count = 9_876_543; // number of values to test
  let step = end / count;
  for u in (0..=end).step_by(step) {
      let v = u as u32;
      
      // reference
      let f = unsafe { std::mem::transmute::<u32, f32>(v) };
      
      // compute
      let c = bits(f);

      // validation
      if c != v && 
         !(f.is_nan() && c == 0x7fc0_0000) && // nans
         !(v == 0x8000_0000 && c == 0) { // negative 0
          println!("{:x?} {:x?}", v, c); 
      }
  }
}

Over the weekend, the boredom of COVID-19 isolation motivated me to move my personal website from WordPress on a self-managed 10-year-old virtual private server to a generated static site on a static site hosting platform with a content delivery network.

This decision was overdue. WordPress never fit my brain particularly well, and it was definitely getting to a point where I wasn’t updating my website at all (my last post was two weeks before I moved from Hobart; I’ve been living in Petaluma for more than three years now).

Settling on which website framework wasn’t a terribly difficult choice (I chose Jekyll, everyone else seems to be using it), and I’ve had friends who’ve had success moving their blogs over. The difficulty I ended up facing was that the standard exporter that everyone to move from WordPress to Jekyll uses does not expect Debian’s package layout.

Backing up a bit: I made a choice, 10 years ago, to deploy WordPress on a machine that I ran myself, using the Debian system wordpress package, a simple aptitude install wordpress away. That decision was not particularly consequential then, but it chewed up 3 hours of my time on Saturday.

Why? The exporter plugin assumes that it will be able to find all of the standard WordPress files in the usual WordPress places, and when it didn’t find that, it broke in unexpected ways. And why couldn’t it find it?

Debian makes packaging choices that prioritise all the software on a system living side-by-side with minimal difficulty. It sets strict permissions. It separates application code from configuration from user data (which in the case of WordPress, includes plugins), in a way that is consistent between applications. This choice makes it easy for Debian admins to understand how to find bits of an application. It also minimises the chance of one PHP application from clobbering another.

10 years later, the install that I had set up was still working, having survived 3-4 Debian versions, and so 3-4 new WordPress versions. I don’t recall the last time I had to think about keeping my WordPress instance secure and updated. That’s quite a good run. I’ve had a working website despite not caring about keeping it updated for at least three years.

The same decisions that meant I spent 3 hours on Saturday doing a simple WordPress export saved me a bunch of time that I didn’t incrementally spend over the course a decade. Am I even? I have no idea.

Anyway, the least I can do is provide some help to people who might run into this same problem, so here’s a 5-step howto.

How to migrate a Debian WordPress site to Jekyll

Should you find the Jekyll exporter not working on your Debian WordPress install:

1. Use the standard WordPress export to export an XML feel of your site.
2. Spin up a new instance of WordPress (using WordPress.com, or on a new Virtual Private Server, whatever, really).
3. Import the exported XML feed.
4. Install the Jekyll exporter plugin.
5. Follow the documentation and receive a Jekyll export of your site.

Basically, the plugin works with a stock WordPress install. If you don’t have one of those, it’s easy to move it over.

I can’t think of a more unequivocal title than that.

The Australian government doesn’t have a good track record of either launching publicly visible software projects, or respecting privacy, so I’ve naturally been sceptical of the contact tracing app since it was announced. The good news is, while it has some relatively minor problems, it appears to be a solid first version.

Privacy

While the source code is yet to be released, the Android version has already been decompiled, and public analysis is showing that it only collects necessary information, and only uploads contact information to the government servers when you press the button to upload (you should only press that button if you actually get COVID-19, and are asked to upload it by your doctor).

The legislation around the app is also clear that the data you upload can only be accessed by state health officials. Commonwealth departments have no access, neither do non-health departments (eg, law enforcement, intelligence).

Technical

It does what it’s supposed to do, and hasn’t been found to open you up to risks by installing it. There are a lot of people digging into it, so I would expect any significant issues to be found, reported, and fixed quite quickly.

Some parts of it are a bit rushed, and the way it scans for contacts could be more battery efficient (that should hopefully be fixed in the coming weeks when Google and Apple release updates that these contact tracing apps can use).

If it produces useful data, however, I’m willing to put up with some quirks.

Usefulness

I’m obviously not an epidemiologist, but those I’ve seen talk about it say that yes, the data this app produces will be useful for augmenting the existing contact tracing efforts. There were some concerns that it could produce a lot of junk data that wastes time, but I trust the expert contact tracing teams to filter and prioritise the data they get from it.

Install it!

The COVIDSafe site has links to the app in Apple’s App Store, as well as Google’s Play Store. Setting it up takes a few minutes, and then you’re done!

I've spent the last couple of days trying to deploy Fedora CoreOS to some physical hardware/bare metal for a colleague using the official PXE installer from Fedora CoreOS. It wasn't very pleasant, and just wouldn't work reliably.

Maybe my expectations were to high, in that I thought I could use Ignition to prepare more of the system for me, as my colleague has been able to bare metal installs correctly. I just tried to use Ignition as documented.

A few interesting aspects I encountered:

1. The PXE installer for it has a 618MB initrd file. This takes quite a while to transfer via tftp!
2. It can't build software RAID for the main install device (and the developers have no intention of adding this), and it seems very finicky to build other RAID sets for other partitions.
3. And, well, I just kept having problems where the built systems would hang during boot for no obvious reason.
4. The time to do an installation was incredibly long.
5. The initrd image is really just running coreos-installer against the nominated device.

During the night I got feed up with that process and wrote a Fully Automatic Installer (FAI) profile that'd install CoreOS instead. I can now use setup-storage from FAI using it's standard disk_config files. This allows me to build complicated disk configurations with software RAID and LVM easily.

A big bonus is that a rebuild is a lot faster, timed from typing reboot to a fresh login prompt is 10 minutes - and this is on physical hardware so includes BIOS POST and RAID controller set up, twice each.

I thought this might be of interest to other people, so the FAI profile I developed for this is located here: https://github.com/catalyst-cloud/fai-profile-fedora-coreos

FAI was initially developed to deploy Debian systems, it has since been extended to be able to install a number of other operating systems, however I think this is a good example of how easy it is to deploy non-Debian derived operating systems using FAI without having to modify FAI itself.

Wait, wasn’t WordPress 5.4 just released?

It absolutely was, and congratulations to everyone involved! Inspired by the fine work done to get another release out, I finally completed the last step of co-leading WordPress 5.0, 5.1, and 5.2 (Bebo, Betty, and Jaco, respectively).

My study now has a bit more jazz in it.

For the last year I’ve been incrementally moving away from lifting static weights and towards body weight based exercises, or callisthenics. I’ve been doing this for a number of reasons, including better avoidance of injury (if I collapse, the entire stack is dynamic, if a bar held above my head drops on me, most of the weight is just dead weight – ouch), accessibility during travel – most hotel gyms are very poor, and functional relevance – I literally never need to put 100 kg on my back, but I do climb stairs, for instance.

Covid-19 shutting down the gym where I train is a mild inconvenience for me as a result, because even though I don’t do it, I am able to do nearly all my workouts entirely from home. And I thought a post about this approach might be of interest to other folk newly separated from their training facilities.

I’ve gotten most of my information from a few different youtube channels:

• FitnessFAQs
• Calimove
• Minus the gym
• Jerry Teixeira
• Saturno Movement

There are many more channels out there, and I encourage you to go and look and read and find out what works for you. Those 5 are my greatest hits, if you will. I’ve bought the FitnessFAQs exercise programs to help me with my my training, and they are indeed very effective.

While you don’t need a gymnasium, you do need some equipment, particularly if you can’t go and use a local park. Exactly what you need will depend on what you choose to do – for instance, doing dips on the edge of a chair can avoid needing any equipment, but doing them with some portable parallel bars can be much easier. Similarly, doing pull ups on the edge of a door frame is doable, but doing them with a pull-up bar is much nicer on your fingers.

Depending on your existing strength you may not need bands, but I certainly did. Buying rings is optional – I love them, but they aren’t needed to have a good solid workout.

I bought parallettes for working on the planche. Parallel bars for dips and rows. A pull-up bar for pull-ups and chin-ups, though with the rings you can add flys, rows, face-pulls, unstable push-ups and more. The rings. And a set of 3 bands that combine for 7 different support amounts.

In terms of routine, I do a upper/lower split, with 3 days on upper body, one day off, one day on lower, and the weekends off entirely. I was doing 2 days on lower body, but found I was over-training with Aikido later that same day.

On upper body days I’ll do (roughly) chin ups or pull ups, push ups, rows, dips, hollow body and arch body holds, handstands and some grip work. Today, as I write this on Sunday evening, 2 days after my last training day on Friday, I can still feel my lats and biceps from training Friday afternoon. Zero issue keeping the intensity up.

For lower body, I’ll do pistol squats, nordic drops, quad extensions, wall sits, single leg calf raises, bent leg calf raises. Again, zero issues hitting enough intensity to achieve growth / strength increases. The only issue at home is having a stable enough step to get a good heel drop for the calf raises.

If you haven’t done bodyweight training at all before, when starting, don’t assume it will be easy – even if you’re a gym junkie, our bodies are surprisingly heavy, and there’s a lot of resistance just moving them around.

Good luck, train well!