Adrian Chadd Andrew Ruthven Chris Smart Colin Charles Dave Hall Francois Marier Gareth Leon Brooks Lev Lafayette Linux Australia Michael Still Pia Andrews Russell Coker Simon Lyall Tim Riley Tim Serong sthbrx - a POWER technical blog
The Intercept has an amusing and interesting article about senior Facebook employees testifying that they don’t know where Facebook stores all it’s data on users [1]. One lesson all programmers can learn from this is to document all these things in an orderly manner.
Russ Allbery wrote an insightful blog post about effecive altruism and respect for disadvantaged people [3]. GiveDirectly sounds good.
The Conversation has an interesting article about the Google and Apple app stores providing different versions of apps for users in different regions [4]. Apparently there are specific versions to comply with GDPR and versions that differ in adverts. The hope that GDPR would affect enough people to become essentially a world-wide standard was apparently overly optimistic. We need political lobbying in all countries for laws like the GDPR to force the app stores to give us the better versions of apps.
Arya Voronova wrote an informative article about USB-C and extension or data blocker cables [5]. USB just keeps getting more horrible in technology while getting more useful in functionality. Laptops and phones catching fire will probably become more common in future.
John McBride wrote an insightful article about the problems in the security of the software supply chain [6]. His main suggestion for addressing problems is “If you are on a team that relies on some piece of open source software, allocate real engineering time to contributing”, the problem with this is that real engineering time means real money and companies don’t want to do that. Maybe having companies contribute moderate amounts of money to a foundation that hires people would be a viable option.
Toms Guide has an interesting article describing problems with the Tesla [7]. It doesn’t cover things like autopilot driving over children and bikers but instead covers issues of the user interface that make it less pleasant to drive and also remove concentration from the road.
The BBC has an interesting article about the way mathematical skill is correlated with the way language is used to express numbers [8]. Every country with a lesser way of expressing numbers should switch to some variation of the East-Asian way.
Science 2.0 has an interesting blog post about the JP Aerospace plans to use airships to get most of the way through the atmosphere and then a plane to get to orbit [9]. It’s a wild idea but seems plausible. The idea of going to space in balloons seems considerably scarier to me than the current space craft.
The Verge has an informative summary of the way Elon mismanaged Twitter after taking it over [11].
A few weeks ago, I upgraded a few machines from Ubuntu 20.04 (focal) to 22.04 (jammy). Here are the things that needed fixing after the upgrade.
Firstly, I had to fix the resolution of .local domains the same
way
as I did when I upgraded a different machine from 18.04 (bionic) to 20.04
(focal).
Then, I found that ssh-add no longer worked and instead returned this error:
Could not open connection to your authentication agent
While this appears to be a known issue, the work-around suggested in the i3 forum didn't work for me. What did work was the solution described in this blog post:
Add this to my ~/.bash_profile:
eval $(systemctl --user show-environment | grep SSH_AUTH_SOCK)
export SSH_AUTH_SOCK
Add this to my startup script:
/usr/bin/systemctl --user start ssh-agent.service
I'm not sure why ED25519 keys don't work in gnome-keyring since that
bug was supposedly fixed
a while back, but starting gnome-keyring-ssh.service instead of
ssh-agent.service didn't work for me.
When it comes to specific packages, I removed these two obsolete packages:
popularity-contestunattended-upgradesThe former appears to no longer used by Ubuntu, while the latter is subsumed by built-in systemd functionality:
systemctl enable apt-daily-upgrade.timer
systemctl start apt-daily-upgrade.timer
I also installed these two new packages:
rng-tools5 (a more modern version of rng-tools)exfatprogs (eliminates exfat-fuse's dependency on fuse)As always, I put any packages I backport from Debian unstable into my
PPA.
So far with jammy, I only had to update
tiger to silence some bogus warnings.
I gave my amiga 1000 keyboard cable to a friend so she could complete her Amiga 1000 setup. I then ordered some replacement RJ12 cables (4 wires!) to get mine working.
But they didn't.
Let's talk about why.
Firstly - yes, the cable is a RJ12 4P4C rollover cable. Ie, if you hold both connectors up next to each other and aligned the same way, the left hand pins are numbered "1-2-3-4" and the right hand connector is "4-3-2-1". Don't get this backwards or you'll end up reversing the power to the keyboard and damage stuff. It seems most phone cables are 4-wire RJ-12 and rollover pinout, but it's good to double check.
This is different to the early Macintosh keyboard - the RJ12 cable there is straight through. "1-2-3-4" goes to "1-2-3-4".
But it didn't work. I pulled apart the keyboard and started debugging it ... way too hard. The TL;DR is this. When I powered the keyboard from a 5v dedicated supply it was pulling 5v at around 125mA.
The cable I was using, straight from the bag:
The pinout is fine, but each leg has a 40 ohm resistance. There's no way to get 125mA out of 5v at 80 ohm resistance (+5v and GND, 40 ohms each.) The voltage on the keyboard side was closer to 2v.
The one I build/crimped until it worked:
18 ohms now, and can supply ~ 250mA. It was happy with this.
So if you're looking to replace a keyboard cable with an RJ11/RJ12 from Amazon or some other store, double check the pinout, double check that there's 4 wires in the cable, and double-check the series resistance!
After upgrading my MythTV machine to Debian Bullseye and MythTV 31, my Streamzap remote control stopped working correctly: the up and down buttons were working, but the OK button wasn't.
Here's the complete solution that made it work with the built-in kernel support (i.e. without LIRC).
Since some of the buttons were working, but not others, I figured that the buttons were probably not mapped to the right keys.
Inspired by these old v4l-utils-based
instructions,
I made my own custom keymap by by copying the original keymap:
cp /lib/udev/rc_keymaps/streamzap.toml /etc/rc_keymaps/
and then modifying it to adapt it to what MythTV needs. This is what I ended up with:
[[protocols]]
name = "streamzap"
protocol = "rc-5-sz"
[protocols.scancodes]
0x28c0 = "KEY_0"
0x28c1 = "KEY_1"
0x28c2 = "KEY_2"
0x28c3 = "KEY_3"
0x28c4 = "KEY_4"
0x28c5 = "KEY_5"
0x28c6 = "KEY_6"
0x28c7 = "KEY_7"
0x28c8 = "KEY_8"
0x28c9 = "KEY_9"
0x28ca = "KEY_ESC"
0x28cb = "KEY_MUTE"
0x28cc = "KEY_UP"
0x28cd = "KEY_RIGHTBRACE"
0x28ce = "KEY_DOWN"
0x28cf = "KEY_LEFTBRACE"
0x28d0 = "KEY_UP"
0x28d1 = "KEY_LEFT"
0x28d2 = "KEY_ENTER"
0x28d3 = "KEY_RIGHT"
0x28d4 = "KEY_DOWN"
0x28d5 = "KEY_M"
0x28d6 = "KEY_ESC"
0x28d7 = "KEY_L"
0x28d8 = "KEY_P"
0x28d9 = "KEY_ESC"
0x28da = "KEY_BACK"
0x28db = "KEY_FORWARD"
0x28dc = "KEY_R"
0x28dd = "KEY_PAGEUP"
0x28de = "KEY_PAGEDOWN"
0x28e0 = "KEY_D"
0x28e1 = "KEY_I"
0x28e2 = "KEY_END"
0x28e3 = "KEY_A"
Note that the keycodes can be found in the kernel source code.
With my own keymap in place at /etc/rc_keymaps/streamzap.toml, I changed
/etc/rc_maps.cfg to have the kernel driver automatically use it:
--- a/rc_maps.cfg
+++ b/rc_maps.cfg
@@ -126,7 +126,7 @@
* rc-real-audio-220-32-keys real_audio_220_32_keys.toml
* rc-reddo reddo.toml
* rc-snapstream-firefly snapstream_firefly.toml
-* rc-streamzap streamzap.toml
+* rc-streamzap /etc/rc_keymaps/streamzap.toml
* rc-su3000 su3000.toml
* rc-tango tango.toml
* rc-tanix-tx3mini tanix_tx3mini.toml
To adjust the delay before button presses are repeated, I followed these
old out-of-date
instructions
on the MythTV wiki and put the following in
/etc/udev/rules.d/streamzap.rules:
ACTION=="add", ATTRS{idVendor}=="0e9c", ATTRS{idProduct}=="0000", RUN+="/usr/bin/ir-keytable -s rc0 -D 1000 -P 250"
Note that the -d option has been replaced with -s in the latest version
of ir-keytable.
To check that the Streamzap is indeed detected as rc0 on your system, use
this command:
$ ir-keytable
Found /sys/class/rc/rc0/ with:
Name: Streamzap PC Remote Infrared Receiver (0e9c:0000)
Driver: streamzap
Default keymap: rc-streamzap
...
Make sure you don't pass the -c to ir-keytable or else it will clear the
keymap set via /etc/rc_maps.cfg, removing all of the button mappings.
I have long said “Long Malaysians, Short Malaysia” in conversation to many. Maybe it took me a while to tweet it, but this was the first example: Dec 29, 2021. I’ve tweeted it a lot more since.
Malaysia has a 10th Prime Minister, but in general, it is a very precarious partnership. Consider it, same shit, different day?
5/n: Otherwise, there will be no change.
So change via “purported democracy” is never going to happen with a country like Malaysia, rotten to the core. It is a crazy dream.
You succeed, despite of. Davka.
Reboot, or bust.
Good luck, Malaysia.
— Colin Charles (@bytebot) August 18, 2021
I just have to get off the Malaysian news diet. Malaysians elsewhere, are generally very successful. Malaysians suffering by their daily doldrums, well, they just need to wake up, see the light, and succeed.
In the end, as much as people paraphrase, ask not what the country can do for you, legitimately, this is your life, and you should be taking good care of yourself and your loved ones. You succeed, despite of. Politics and the state happens, regardless of.
Me, personally? Ideas are abound for how to get Malaysians who see the light, to succeed elsewhere. And if I read, and get angry at something (tweet rage?), I’m going to pop RM50 into an investment account, which should help me get off this poor habit. I’ll probably also just cut subscriptions to Malaysian news things… Less exposure, is actually better for you. I can’t believe that it has taken me this long to realise this.
Time to build.
The post Long Malaysians, Short Malaysia first appeared on Colin Charles Agenda.
I did poorly blogging last year. Oops. I think to myself when I read, This Thing Still On?, I really have to do better in 2023. Maybe the catalyst is the fact that Twitter is becoming a shit show. I doubt people will leave the platform in droves, per se, but I think we are coming back to the need for decentralised blogs again.
I have 477 days to becoming 40. I ditched the Hobonich Techo sometime in 2022, and just focused on the Field Notes, and this year, I’ve got a Monocle x Leuchtturm1917 + Field Notes combo (though it seems my subscription lapsed Winter 2022, I should really burn down the existing collection, and resubscribe).
2022 was pretty amazing. Lots of work. Lots of fun. 256 days on the road (what a number), 339,551km travelled, 49 cities, 20 countries.
The getting back into doing, and not being afraid of experimenting in public is what 2023 is all about. The Year of The Rabbit is upon us tomorrow, hence why I don’t mind a little later Hello 2023 :)
Get back into the habit of doing. And publishing by learning and doing. No fear. Not that I wasn’t doing, but its time to be prolific with what’s been going on.
I better remember that.
The post Hello 2023 first appeared on Colin Charles Agenda.
Meeting opened at 20:04 AEDT by Joel and quorum was achieved.
Minutes taken by Clinton Roy
The post Council Meeting 18th January 2023 – Minutes appeared first on Linux Australia.
Ah, the Acorn Electron.
Wait, no. I never had one as a kid, I had access to a couple of BBC micros in my primary school for playing a pirate / math educational game that I have since not found online, and I've never really wanted one. Until a close friend's birthday - at which point I got them one.
And then we fell down a rabbit hole together.
So, I bought a dead Electron motherboard. Here you go.
And the ULA - quite a bit of damaged tracks there.
Yes, the ULA is supposedly dead, like a lot of these Electron PCBs. My goal was to strip the PCB of components and make a replica rev4 board. However, first up, i wanted to see if i could repair it.
So, I took off the ULA and fixed up the busted pins. Some copper tape and solder did the trick. One pin was completely missing, and that was quite a challenge to get right.
Then I socketed the 6502 CPU and BASIC/OS ROM. The 6502 was already socketed but the soldering job was pretty bad. I tossed the nice machined socket because it was soldered in bad and I didn't want to clean up all the bad solder from on top of the pins, and I instead just whacked a cheap socket down to test.
Then I powered it up.
Oops. Guess I have a working Acorn Electron. Well, I don't have a case, power supply or keyboard. Guess I'm going to have to make a keyboard for it.
In the past I have posted two sets of instructions for installing VASP (Vienna Ab-initio Simulation Package for quantum-mechanical molecular dynamics (MD) using pseudopotentials and a plane wave basis set), each for VASP 5.X on an Opteron system. Now, many years later, I find myself in the position of having to install VASP once again.
The installation approach is still pretty horrible but it has improved a great deal. Previously there was a small mountain of makefiles for different architectures and one had to find a file that was "close enough" and modify as required. This process is still required, but the quantity of makefiles is dramatically reduced with improved abstraction, directory management, and a test suite.
The structure (once extracted) is as follows:
vasp.X.X.X (root directory)
|
------------------------------------------------
| | | | | |
arch bin build src testsuite tools
* `root/`. Holds the high-level makefile and several subdirectories.
* `root/src`. Holds the source files of VASP and a low-level makefile.
* `root/arch`. Holds a collection of `makefile.include.*` files.
* `root/build`. The different versions of VASP, i.e., the standard, gamma-only, non-collinear, and CUDA-GPU versions will be build in separate subdirectories of this directory.
* `root/bin`. Here make will store the binaries.
* `root/testsuite`. Holds a suite of correctness tests to check your build.
* `root/tools`. Holds several python scripts related to the (optional) use of HDF5 input/output files.
Installation involves copying one the makefile.include.xxx files to the root directory as makefile.include, modifying it running make. The most straightforward, used in this example, is makefile.include.linux_gnu.
Within the makefile one will have to enter the values of the Fortran library directory, the LIBDIR for Blas, LAPACK, SCALAPACK, and FFTW. c.f.,
# LIBDIR = /opt/gfortran/libs/ LIBDIR = /usr/local/easybuild-2019/easybuild/software/core/gcccore/10.2.0/lib64/lib BLAS = -L$(LIBDIR) -lrefblas LAPACK = -L$(LIBDIR) -ltmglib -llapack BLACS = SCALAPACK = -L$(LIBDIR) -lscalapack $(BLACS) LLIBS = $(SCALAPACK) $(LAPACK) $(BLAS)
In this particular installation, there is the use of the EasyBuild foss/2020b toolchain, which consists of GCC/10.2.0 and OpenMPI 4.0.5. Once that toolchain is loaded then one can also load FFTW/3.3.8, scalapack/2.1.0, openblas/0.3.12. Note that loading the modules will not be read by the VASP makefile. They still have to be hard-coded - it is convenient however when checking the PATH to the libraries.
The above code snippet from the makefile is a little deceptive. Something like the following is recommended instead:
# LIBDIR = /opt/gfortran/libs/ LIBDIR = /usr/local/easybuild-2019/easybuild/software/core/gcccore/10.2.0/lib64/lib # BLAS = -L$(LIBDIR) -lrefblas # LAPACK = -L$(LIBDIR) -ltmglib -llapack BLACS = # SCALAPACK = -L$(LIBDIR) -lscalapack $(BLACS) OPENBLAS_ROOT ?= /usr/local/easybuild-2019/easybuild/software/compiler/gcc/10.2.0/openblas/0.3.12/ BLASPACK = -L$(OPENBLAS_ROOT)/lib -lopenblas SCALAPACK_ROOT ?= /usr/local/easybuild-2019/easybuild/software/mpi/gcc/10.2.0/openmpi/4.0.5/scalapack/2.1.0 SCALAPACK = -L$(SCALAPACK_ROOT)/lib -lscalapack LLIBS += $(SCALAPACK) $(BLASPACK) # FFTW ?= /opt/gfortran/fftw-3.3.6-GCC-5.4.1 FFTW ?= /usr/local/easybuild-2019/easybuild/software/mpi/gcc/10.2.0/openmpi/4.0.5/fftw/3.3.8 LLIBS += -L$(FFTW)/lib -lfftw3 -lfftw3_omp INCS = -I$(FFTW)/include
There is a further issue. If one is using GCC 10.x or greater there will be an argument mismatch. An error will occur like the following:
Error: Rank mismatch between actual argument at (1) and actual argument at (2) (rank-1 and scalar)
To get around this an additional Fortran flag must be added, resulting in:
# For gcc-10 and higher require -fallow FFLAGS = -w -march=native -fallow-argument-mismatch
Another interesting error is that VASP has only been built for up to GCC7. The use of GCC 10 and MPI will result in an error and the reader_base.F file needs to be patched. This has been discussed on the VASP forums, which also has a copy of the patchfile. Modify the headers if necessary and apply the patch. e.g.,
patch < reader.patch patching file reader_base.F
Following this, an incremental build of the three core VASP binaries should work.
make std make gam make ncl
The Years of Lyndon Johnson. Book Four: The Passage of Power by Robert Caro
Covers 1958-1964. Especially the 1960 Democratic primary and election, Johnson’s unhappy Vice Presidency and the first months of his Presidency. As good as the others in the series. 4/5
England’s Villages: An Extraordinary Journey Through Time by Dr Ben Robinson
An archaeologist writes about the evolution of English Villages, their people, buildings, names and forms. Okay but not exceptional. 3/5
Jefferson: Architect of American Liberty by John B. Boles
A good single volume biography. Works hard to explain Jefferson’s attitudes especially on slavery. Good coverage and easy to follow. 4/5
Shutdown: How Covid Shook the World’s Economy by Adam Tooze
Covering roughly 2020 plus a few months on each side it mostly concentrates on the government and central bank measures to stabilise economies. 3/5
Doing Good Better: Effective Altruism and How You Can Make a Difference by William MacAskill
A Introduction to Effective Ultruism and how you can do the most good in the world via carefully picking charities to give to and other alternatives. 4/5
Leave the Gun, Take the Cannoli: The Epic Story of the Making of The Godfather by Mark Seal
Covers the writing of the book by Puzo, adapting and then filming it. Lots of Behind the scenes stories. A fun read 4/5
The 2020 Commission Report on the North Korean Nuclear Attacks Against the United States by Jeffrey Lewis
A future/alternative history where Trump’s America fights North Korea. Well done and relatively plausible. 4/5
My Audiobook Scoring System
Meeting opened at 20:08 AEDT by Joel and quorum was achieved.
Minutes taken by Clinton Roy
The post Council Meeting 4th January 2023 – Minutes appeared first on Linux Australia.
In May 2014 I bought a Samsung Galaxy Note 10.1 2014 edition tablet (wikipedia page [1]) with 32G of RAM. It’s display is 2560×1600 resolution which still compares well to the latest tablets. The Galaxy Tab S8 [2] is the latest high-end tablet series from Samsung and the 11 inch tablet in that series also has a 2560×1600 giving it a slightly lower DPI! The latest series also has 12.4″ and 14.6″ tablets with resolutions of 2800×1752 and 2960×1848 respectively. Obviously if you want a 14″ tablet then the latest offerings are good, but if you want a 10″ or 11″ tablet then Samsung hasn’t improved much. The Note 10.1 has 3G of RAM and a choice of 16G, 32G, or 64G of storage. The latest Tab S8 tablets have 8G to 16G of RAM and 128G to 512G of internal storage, which are great if you need such things. For many tasks 3G of RAM is quite adequate and as I chose the 32G model I haven’t had a problem with storage. The s-pen is a feature of this tablet which is also on the latest high-end Samsung tablets, it is useful for accessing small elements in web sites designed for desktop use and for graphics editing.
One noteworthy feature of this tablet is the fact that when in “landscape” orientation it has speakers on each side, which is the correct layout as the vast majority of video with stereo sound is in a landscape orientation.
After using that tablet for about 4 years I bought myself a newer tablet and gave it to my wife. She has since passed it on to another relative who is using it regularly. That tablet seems to have lasted well still being quite usable when it’s almost 9 years old. The price including delivery was $579, that works out to about $1.30 per week (disregarding interest and inflation). According to the Reserve Bank of Australia inflation calculator [3] $579 in 2014 is equivalent to $652 in 2021, they don’t have results for later than 2021 so I’ll assume it would be $675 in 2023.
Currently the main problems with this tablet are lack of USB-C support (which means it’s difficult to connect to an external display among other things) and lack of a recent version of Android, 4.4.2 was the latest OTA update available. The XDA Developers forum has a section for this tablet [4] which includes discussion of updates to Android 5.x for devices which didn’t get it automatically and for upgrading to very recent Android versions in LineageOS. I’m idly considering one of those options, but for the current user the Google Play store is a requirement.
The current equivalent Samsung tablet is the Galaxy Tab S8 which is currently being sold for $1055 which is 56% higher than the inflation adjusted price of my tablet. I don’t think this is reasonable given that I bought it 7 months after release and it’s now 11 months since the release of the Tab S8. The Tab S8 has more RAM, more storage, and a faster CPU due to improvements over the entire computer industry – replacing old parts with newer versions of the same things (including changing to USB-C) doesn’t justify a price rise. Increasing RAM size by a factor of 3-5 and increasing storage by a factor of 8 over the last 9 years doesn’t match the industry trends for PCs, also as an aside my latest laptop only has 8G of RAM and works well for much more demanding tasks. The Tab S8 series also has significantly better cameras, but I don’t think that’s a big deal, the 2Mp front camera in my tablet can provide adequate quality for video conferencing and usually saturate the upload bandwidth and again that’s an issue of the entire industry moving to newer hardware. I don’t think it’s bad to take a form factor and display that works well and put newer versions of the CPU, RAM, storage, cameras, and OS on it. But asking for 56% more money for the updated tablet seems unreasonable.
The current S8 Ultra is going for $1760 and the S8+ is $1479. I think those are ridiculous prices for tablets as there is a decent range of new laptops that are cheaper. I believe that the purpose of a tablet is to be easy to carry and quick to start using (no waiting for a laptop to connect to wifi after leaving suspend). The largest of the S8 Tabs is about the same length and width as a Thinkpad X1 Carbon with the benefits being that it’s thinner and lighter, but if you got a tablet case with keyboard then it would be thicker and heavier. The S8 seems like bad value for money and the S8+ and S8 Ultra don’t seem to compare well to laptops and Chromebooks with touch screens unless you have a specific need for Android tablet apps.
If Samsung are going to just make new tablets without any significant improvements other than refreshing to the latest CPU, RAM, storage, and Camera technology and force users to upgrade via a lack of new OS support then they shouldn’t charge so much. Stick well below $1000 and people will be more inclined to replace items, expensive items are expected to last.
Buying this tablet was definitely a good choice. It has performed well for many years and after a couple of years of light use it’s back in daily use again. The value for money it offered was significantly greater than newer tablets, when it was new it was really high-end, the current S8 Tab series of tablets aren’t anything special when compared to other tablets.
Charles Stross wrote an informative summary of the problems with the UK monarchy [1], conveniently before the queen died.
The New Yorker has an interesting and amusing article about the former CIA employee who released the “Vault 7” collection of CIA attack software [3]. This exposes the ridiculously poor hiring practices of the CIA which involved far less background checks than the reporter writing the story did.
Anarcat wrote a long and detailed blog post about Matrix [6]. It’s mostly about comparing Matrix to other services and analysing the overall environment of IM systms. I recommend using Matrix, it is quite good although having a server with SSD storage is required for the database.
Cory Doctorow wrote an interesting article about the crapification of literary contracts [8]. A lot of this applies to most contracts between corporations and individuals. We need legislation to restrict corporations from such abuse.
Jared A Brock wrote an insightful article about why AirBNB is horrible and how it will fail [9].
Habr has an interesting article on circumventing UEFI secure boot [10]. This doesn’t make secure boot worthless but does expose some weaknesses in it.
Matthew Garrett wrote an interesting blog post about stewartship of the UEFI boot ecosystem and how Microsoft has made some strange and possibly hypocritical decisions about it [11]. It also has a lot of background information on how UEFI can be used and misused.
Cory Doctorow wrote an interesting article “Let’s Make Amazon Into a Dumb Pipe [12]. The idea is to use the Amazon search and reviews to find a product and then buy it elsewhere, a reverse of the “showrooming” practice where people look at products in stores and buy them online. There is already a browser plugin to search local libraries for Amazon books.
Charles Stross wrote an interesting blog post about the UK Tory plan to destroy higher education [13]. There’s a lot of similarities to what conservatives are doing in other countries.
Antoine Beaupré wrote an insightful blog post “How to nationalize the internet in Canada” [14]. They cover the technical issues to be addressed as well as some social justice points that are often missed when discussing such issues. Internet is not a luxuary nowadays, it’s an important part of daily life and the governments need to treat it the same way as roads and other national infrastructure.
None
None
Meeting opened at 20:05 AEDT by Clinton Roy and quorum was achieved.
Minutes taken by Clinton Roy
The post Council Meeting 21st December 2022 – Minutes appeared first on Linux Australia.
I’m currently reading the second book of the TriSolar Sci-Fi series by Cixin Liu, I’ve only just started it so this post can’t have spoilers for it and I will also only have minimal spoilers for the first book (nothing more than you will get from pop culture references to it).
In the second book there are people called “Wall Facers” who have broad powers to shape the course of the Human response to an alien invasion in 400+ years time. The idea is that as the aliens have an ability to see everything that can be seen on Earth any ideas that leave the brain of one person can be snooped on, so if some people act independently without communicating their plans they can take the aliens by surprise. While that is probably going to work out well in the books history in general seems to show that people who act independently without any useful feedback from others tend to perform poorly, every king and dictator seems to demonstrate this.
I’ve been thinking about what I would do if I had significant powers to guide the response to an alien threat in some hundreds of years. The first thing to do would be to get all people working as efficiently as possible. Without the imminent threat of alien invasion we can have debates about how much time to spend working vs leisure time. Should we make 24 hours per week the new normal work week? But if the threat of annihilation is looming then the discussion should be about how to get as many people as possible working as much as possible.
Currently 1/4 of the world population lack access to safe drinking water [1], there’s a plan to “achieve universal and equitable access to safe and affordable drinking water for all by 2030”. But 2030 isn’t soon enough, another 8 years where 1/4 of children born won’t reach their potential due to poor water is unacceptable. Currently 13% of the world population don’t have access to electricity and 40% don’t have access to clean fuels for cooking [2]. Lack of energy access reduces health and opportunities for education. Healthcare is another major obstacle to human development and therefore economic development. Even some allegedly first-world countries like the US lack universal affordable healthcare.
I think we could reasonably get safe water to 99% of the world population before 2025 if we tried hard (IE applied a small fraction of the resources of a single war to it). Getting electricity to 95% of the world population and clean cooking fuels to 90% of the world population are probably achievable goals for 2025 as well.
Healthcare is a slightly harder problem as we need to train more nurses and doctors. A registered nurse apparently needs 3 years of training after completing high school. We may have to improve high schools to get more students up to the standard of nursing degrees. If it takes 3 years to improve schools in year 9+ and then 3 years to get more high school graduates that would mean that it would take about 9 years to get an increase in nurses. Doing this would require increasing the capacity of universities and making university almost free (as it was for decades). So in about 2031 we could start sending a significant number of nurses from developed countries to help out developing countries.
Becoming a doctor apparently requires 8 years of study plus a minimum of 3 years “residency”. So if doctors were entirely trained in first world countries then we wouldn’t be able to send many doctors to developing countries until 2039. If the “residency” was performed in other countries then it could be as early as 2036.
According to the WHO currently only half the world’s population have adequate healthcare [3]. To get adequate healthcare to the world we need to more than double the number of doctors because currently we don’t have enough in countries with decent healthcare systems such as Australia. It would probably take to at least 2060 to get enough doctors trained. The end goal of course would be to have every country able to train enough of it’s citizens to provide all medical services, but countries that have serious widespread healthcare problems that reduce the number of people who can pursue higher education will have difficulty in that until some of the healthcare problems are alleviated.
Obviously education is important to all achievements. Currently education seems very poorly run, it is possible to create a school system that teaches children effectively without the bullying that is common in Australia and without the sort of pressure that South Korea is infamous for. One of the main issues to resolve with the school system is the idea that everyone should learn at the same speed, that goal can only be achieved by making the majority of the students learn slowly. Students should be able to freely skip ahead as their skill permits and finish school at any age. Also high school isn’t for everyone, the “tech” schools that teach trades need to be brought back.
A plot point in the TriSolar series is that the aliens can see each other’s thoughts, the local communication (their equivalent to talking) is based on reading each other’s thoughts without the possibility of deception. While deceptive written communication is potentially possible for them they haven’t developed skills in that area.
As a first step towards exploiting this humans could focus more on linguistic development that increases language complexity, such as the way the English language adopts words from other languages and gives them slightly different meanings – for example the difference between “driver” and “chauffeur” and the difference between “dog” and “hound” is not obvious to many Europeans who otherwise speak English fluently.
When involved in conversation it’s possible to convey meaning without directly stating things, this is used extensively by people who are interested in security. My observations of this are based on conversations with people who do government work, but I imagine that criminal organisations also do similar things for similar reasons.
An increased focus on poetry in schools might be helpful in developing skills for conveying ideas to people who think in human ways where the message is unclear to non-humans who have no experience of deception. I wonder whether the ability to understand human poetry would make aliens less hostile to humans, if they can think like us then they would be less likely to want to exterminate us.
Poker is a game that depends on the ability to deceive others, I’ve never been any good at it. I wonder if making it part of the school curriculum would help improve the overall human ability to deceive aliens. I don’t think that such schools would become dens of sociopathy as depicted in Kakegurui, but it might have some negative results.
Spreading education to a larger portion of the world’s population requires more use of electronic education. Anything learned via text can be more easily assimilated by aliens than things that are learned directly from other people. For high school and the basics of a university degree this is fine. But for more advanced education it seems that having a large face to face component might help keep the value away from the aliens.
What do you think I missed on this list? I wasn’t trying to list every possibility, just the more important ones. Also for any goals other than increasing inequality for it’s own sake we should improve health and education for the world.
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 do a blog post about it to hopefully inspire others. See previous years: 2021, 2020, 2019, 2018, 2017, 2016, 2015
All amounts are in $US unless otherwise stated
$750 to Givewell Top Charities fund . This was previously called their “Maximum impact fund”.
Last year I donated $100 each to SPI and SFC but this year I dropped it to $50 each and did direct donations to Python and Syncthing. I’m not sure which is the best strategy.
Current as of mid-December 2022
EDIT - the original article has an image of the PCB with the floppy power connector mounted the WRONG WAY.
This is the INCORRECT WAY. Do NOT do it this way!
TL;DR - I'm half way through building an Amiga 500+ replica. The goal:
I have just bought a Pixel 6A [1] for my wife. It’s one of the latest Google phones that was released almost at the same time as the Pixel 7 series, so if you want to spend a lot of money on a phone that’s the latest and greatest then the Pixel 7 and Pixel 7 Pro are the options, but if you want to save some money and don’t need something really high end then the Pixel 6A is a good option.
The one I bought cost $550 when I bought it from Google which seemed like a good deal when it was advertised as being discounted from $750. Later I discovered that other retailers were selling it for $500 or for $550 when bundled with a Chromecast. Also one of the other retailers was a company that I could get discount gift cards for. So this is the type of item you should really shop around for. It doesn’t come with a charger so you don’t have the gray-market disadvantage of getting yet another charger that doesn’t fit the sockets in your country.
The main new feature of this phone is a fingerprint scanner built in to the screen. I don’t think this is a good thing, sure it’s neat technology to both display pictures and read fingerprints through the same piece of glass but there are benefits to using a different location. Huawei phones with a fingerprint reader at the rear of the phone allow the user to answer calls, drag down the notifications list, and scroll sideways via touching the fingerprint reader. So the Pixel 6A clearly gives less functionality than some Huawei phones in this regard.
One major annoyance with the phone is a combination of the phone hardware and Android 13 which gives no back arrow (swipe sideways) and no button to get the task list (swipe upwards at the correct speed from the bottom of the screen). The Android 12 way of swiping up from the bottom of the screen to get buttons for back, task-list, and home-screen is much better IMHO. Hopefully they will release a software update to make this a configuration option.
Generally this is a nice phone, but the lack of buttons for back and task-list is annoying. Maybe the lack of buttons is something you can get used to after using it for a while. But millions of people just taking whatever companies like Google offer isn’t what I imagined when I first hoped for a large portion of the world using Linux. On PCs we have a choice between KDE, GNOME, and other UIs. It would be nice if we had similar choices on phones.
I slipped and bought a TF536 to put into my Amiga 2000. TL;DR is it's now running, but it took a bit of fiddling to get there. When I was last getting it going I noticed it didn't like any Zorro-II RAM in there, so I simply disabled it (it wouldn't do much) and left it alone. The storage card I'm using (a GVP SCSI job) doesn't do DMA to Zorro-II RAM - it does DMA to/from a 64k IO/RAM window which then the driver memcpy()'s out.
Whacking it in with the CPU riser I got from amigastore.eu booted up fine as long as no other RAM cards were installed.
If I installed my storage card or any zorro-II RAM cards it just hung. Not fun.
So then I thought, wait a sec. It's going into the CPU expansion slot, not the CPU socket. And there's this thing called /BOSS which accelerator cards in the CPU expansion slot should assert if they want the DMA and some other signals routed to them rather than the main CPU socket.
So, I grabbed a different one.
This one has a jumper for /BOSS to keep it enabled, and also has the FC0..FC2 pins (indicating the CPU state) also routed.
I plugged this in and bam.
(note I didn't leave the 2MB RAM enabled on the storage card after this test; until I'm ready to screw around with programming stuff that explicitly wants to test Zorro-II/Zorro-III space RAM, I'll leave it off.)
I also tested it with an 8MB Zorro-II RAM expansion (the ZoRAM card that's available on the internet) and it also works fine.
Anyway TL;DR is - don't forget to ensure your accelerator card installation on an Amiga 2000 has /BOSS asserted, or a bunch of DMA/Zorro-II lines won't get routed to the CPU expansion slot and things won't work right.
A recent development is cheap Gallium Nitride based power supplies that provide better efficiency in a smaller space than other technologies. Kogan recently had a special on such devices so I decided to try them out with my new Thinkpad X1 Carbon Gen 5 [1]. Google searches for power supplies for that Thinkpad included results for 30W PSUs which implies that any 30W USB-C PSU should work.
I bought a 30W charger for $10 that can supply 15V/2A or 20V/1.5A on a single USB-C port or 15W on the USB-C port and 15W on the USB-2 port at the same time and expected it to work as a laptop charger. Unfortunately it didn’t, I don’t know whether the adverts for 30W Thinkpad PSUs were false or whether the claim of the GaN charger I bought being 30W was false, all I know is that the KDE power applet said that the PSU couldn’t supply enough power.
I then bought a 68W charger for $28 that can supply 20.0V/3.0A on a single USB-C port if the USB-2 port isn’t used and 50W on the USB-C port if the USB-2 port is also being used. This worked well which wasn’t a great surprise as I had previously run the laptop on 45W PSUs. If I connect a phone to the USB-2 port while the laptop is being charged then the laptop will be briefly cut off, presumably the voltage and current are being renegotiated when that happens.
As you can see the 68W charger is significantly larger than the 30W charger, but still small enough to easily fit in a jacket pocket and smaller than a regular laptop charger. One of my uses for this will be to put it in a jacket pocket when I have my laptop in another pocket. Another use will be for charging in my car as the cables from the inverter to convert 12VDC to 240VAC takes enough space. I will probably get a ~50W USB-PD charger that connects to a car cigarette lighter socket when a GaN version of such a charger becomes available.
Meeting opened at 20:10 AEDT by Joel and quorum was achieved.
Minutes taken by Jonathan.
The post Council Meeting 7th December 2022 – Minutes appeared first on Linux Australia.
Meeting opened at 20:15 AEDT by Joel and quorum was achieved.
Minutes taken by Clinton Roy
The post Council Meeting 23rd November 2022 – Minutes appeared first on Linux Australia.
Calculating God by Robert J. Sawyer
Aliens arrive on present-day Earth and one befriends a Canadian paleontologist. These of religion & alien civilizations are covered. Good read. 3/5
Working: Researching, Interviewing, Writing by Robert A Caro
A series of articles on the author’s process & experiences researching and writing his biographies. Short but interesting. 4/5
Consider Phlebas by Iain M. Banks
A “spy story” within a interstellar conflict, it introduces “The Culture” civilization. Reasonable main character and lots of stuff for Hard Core SF fans. 3/5
The Hunt for Vulcan: . . . And How Albert Einstein Destroyed a Planet, Discovered Relativity, and Deciphered the Universe by Thomas Levenson
Fun story following a few main characters (Thomas Edison has a cameo). 4/5
My Audiobook Scoring System
Shaken Fist CI started failing this afternoon with this message logged:
ERROR: Ansible requires blocking IO on stdin/stdout/stderr.
Non-blocking file handles detected: <stdout>Specifically this was happening when using ansible-galaxy to install some requirements, but the check is a more generic check than that was implemented by this ansible pull request, which appears to have been released with ansible-core 2.14 on November 8. That sat around until today, when ansible 7.0.0 was released and broke CI for me.
To be completely honest I’m not sure what’s happening here — somewhere in GitHub actions calling a shell script that calls ansible-galaxy the stdout file descriptor gets set to non-blocking and everything breaks. I’m unsure exactly where because its a pain to track down.
That said, Jack came to the rescue with this gem:
ansible-galaxy install andrewrothstein.etcd-cluster | cat -Which unblocks me. It will be interesting to see if other people encounter problems with this change.
– Joel Addison (President)
– Lilac Kapul (Council)
Meeting opened at 20:02 AEDT by Wil Brown and quorum was achieved.
Minutes taken by Clinton Roy
The post Council Meeting 9th November 2022 – Minutes appeared first on Linux Australia.
I ran into what seemed to be a DNS problem when building a Docker container:
Err http://archive.ubuntu.com jammy Release.gpg
Could not resolve 'archive.ubuntu.com'
W: Failed to fetch http://archive.ubuntu.com/ubuntu/dists/jammy/Release.gpg Could not resolve 'archive.ubuntu.com'
W: Some index files failed to download. They have been ignored, or old ones used instead.
I found that many solutions talked about
setting the default DNS server explicitly in /etc/docker/daemon.json:
{
"dns": ["1.1.1.1"]
}
but that didn't work for me.
I noticed however that I was having these problems whenever I connected to my VPN.
So what did work for me was restarting the docker daemon whenever
there is a change in networking (e.g. enabling/disabling VPN) by putting the
following in /etc/NetworkManager/dispatcher.d/docker-local:
#!/bin/sh
LOGFILE=/var/log/docker-restarts.log
if [ -z "$1" ]; then
echo "$0: called with no interface" >> $LOGFILE
exit 1;
fi
if [ "$1" = lo ]; then
# Ignoring the loopback interface
exit 0;
fi
case "$2" in
up|vpn-up|down|vpn-down)
echo "$0: restarting docker due to action \`$2' on interface \`$1'" >> $LOGFILE
/bin/systemctl restart docker.service
;;
*)
echo "$0: ignoring action \`$2' on interface \`$1'" >> $LOGFILE
;;
esac
and then making that new file executable:
chmod +x /etc/NetworkManager/dispatcher.d/docker-local
You can confirm that it's working as intended by watching the logs:
tail -f /var/log/docker-restarts.log
while enabling/disable your VPN or your network connection. If you don't see any output, then something is wrong and the Docker restart isn't happening.
It was a bit surprising to me that Brian Kernighan self-published a book about Unix history with Kindle Direct publishing, but given how many other books he’s published he must have his reasons for not using traditional channels for this one. The book is an engaging read, with quotes which still seem timely today popping up every so often. Certainly the decision to self-publish does not appear to have been because of a lack of effort put into the book. An example of a quote I think is still relevant today:
“Stable funding was a crucial factor for research. It meant that AT&T could take a long-term view and Bell Labs researchers had the freedom to explore areas that might not have a near-term payoff and perhaps never would. That’s a contrast with today’s world, in which planning often seems to look ahead only a few months, and much effort is spent on speculating on financial results for the next quarter.” (page 7).
Kernighan covers his own early career and the general functioning of Bell Labs, before starting to delve into the history of Unix. Describing at a high level early batch processing systems and then Multics, Kernighan describes how Multics suffered from the second systems effect (see The Mythical Man Month for a good description of that).
Overall, Kernighan describes what must have been an amazing work environment — a grouping of absolute leaders in their field at a time where there was so much fundamental technology to be invented and described. I can’t help but be a little jealous — I’m not sure there is a modern equivalent. Google for example would have had a similar set of circumstances at times in its history, but wasn’t as inclined to share with the greater world like Bell Labs did. Interestingly Eric Schmidt was a summer student at Bell Labs — he re-wrote Lex while there.
Another interesting contribution from Kernighan is the following rule, which I think we’ve lost sight of in a world of large monolithic code bases:
“…a good example of a general rule: if a program writes your code for you, the code will be more correct and reliable than if you write it yourself by hand. If the generator is improved… everyone benefits.” (page 96).
I think this applies to libraries as well — if you’re going to write something which might be useful to others, its much better off in a library where others can get to it than in your own codebase. That said, I think avoiding leftpad seems like a noble goal.
Overall this was an enjoyable book and I recommend it.
"The fascinating story of how Unix began and how it took over the world. Brian Kernighan was a member of the original group of Unix developers, the creator of several fundamental Unix programs, and the co-author of classic books like "The C Programming Language" and "The Unix Programming Environment".
The Man from the Future: The Visionary Life of John von Neumann by Ananyo Bhattacharya
A good overview of von Neumann’s life and introduction to his most important work. An accessible read that keeps things interesting. 3/5
Sam Walton: Made in America by Sam Walton
Covers the authors life and especially the creation and growth of Walmart. Lots of details about running the business and the industry. 4/5
The Other Side of History: Daily Life in the Ancient World by Robert Garland
48 lectures covering daily life in Egypt, Greece, Rome and Medieval Britain. Plus a few other times & places. Quite interesting. 3/5
We Don’t Need Roads: The Making of the Back to the Future Trilogy by Caseen Gaines
An overview of the making of the movies. Some good stories and I’m sorry it wasn’t longer 3/5
The Hidden Habits of Genius: Beyond Talent, IQ, and Grit—Unlocking the Secrets of Greatness by Craig M. Wright
The “14 key traits of genius, from curiosity to creative maladjustment to obsession”. Some interesting stories but not much really actionable. 2/5
My Audiobook Scoring System
In late 2015 I started using Duolingo, completing sixteen skills trees across ten languages since then. These were mainly, but not exclusively, European languages (including that pan-European auxiliary language, Esperanto). All of which gave some practical use on what were annual trips. In addition to the skill trees I made reasonable progress in Dutch, some progress in Catalan (from Spanish), Czech, and even the trio of Norwegian, Swedish, and Danish (on account of someone saying they were so similar). To say that I am a consistently active user of the application is fair; last year I was rated in the top 0.1% of users in the world.
For several years I have been a paid subscriber to the service at the princely sum of c$100 per year. However, a few days ago, I cancelled my subscription. The reason for this is quite simple; utterly horrendous changes to the user interface. Ignoring the principle of "if it ain't broke, don't fix it", the powers that be at Duolingo have foisted these changes upon a user community that is less than pleased. The Youtube video explaining the changes, at the time of writing, has 116K views; a mere 536 have liked the video and 1.8K had voted it down.
The problems are well-explained by many of the comments on the video; the loss of the self-paced and self-directed learning path in favour of a one-path-only approach, reminiscent of the boardgame, "Candyland", the substantial loss of screen real-estate, and the frustration of trying to reach a lesson of choice, the enforced combination of "lessons" and "stories" (I don't mind this), and the unnecessary animations (I always turned these off in the past). Of the close to 700 comments, almost every single one is negative. It would seem that others too will be ending their subscription, not because of the content of the application, but because of the changes, they made to how people use it.
Certainly, Duolingo has lost people in the past - closing down their forums, ending the language incubators, etc. Those policy changes were annoying, but the comments suggest this is different; this is a visceral hatred, "nerd rage quit" level of disappointment.
This is, of course, not the first time that one has witnessed a mass exodus from an application following radical changes to a user interface. Three years ago Niantic did the same to the game Ingress. When Ubuntu introduced the Unity Desktop, there was a significant switch by users to alternatives. Even when the Luna style was introduced with Windows XP, many users continued to use Windows Classic. One could even give the controversy when Dungeons & Dragons 4th edition was released compared to the 3/3.5 editions - alternative companies, still operating today - made a small fortune by continuing the old system.
The lesson to learn here is that even when usability experts point out numerous benefits to a new interface (e.g., Unity Desktop) or there is an improvement to content, or the marketing people think that making a system similar to other popular products (e.g., D&D 4th edition), a radical change to a user interface system is a hostile attack on the existing user community. The reason for this is deeply part of educational psychology; people engage primarily with content. The user interface is a system to get them to the content. When a user learns a system the process becomes unconscious. Only when the system actively gets in way of the user accessing the content is there a problem, and when that is the case small and incremental changes generate popularity, not rejection.
This is why radical changes in the interface invariably frustrate existing users. What was an unconscious process has to be relearned. If the design actually is more accessible, the learning curve is short, and the access to content is easier, then the period of frustration will be less if users remain with the product. Niantic managed not to bleed to zero Ingress users by allowing users the opportunity to tone down the resource-intensive and overwhelming graphics, for example. The Unity Desktop environment eventually became acceptable to Ubuntu users, as did the Luna style for MS Windows. Duolingo has made a new interface where the design is less accessible, and whilst with a short learning curve (you can only follow one path), access to content is significantly harder.
Duolingo's CEO, Luis von Ahn has made it clear that the "simpler" interface will not be changed and new users must use it now and (almost) all users by the end of October. He is betting that Duolingo's new interface can grow the number of users and operating income of the company. This is probably not going to happen; whilst Duolingo's revenues increased in 2022, the operating income and profits are in the territory of a a $60 million USD loss. Massive investment has been made in the changes, with the hope to reverse a decline in operating income and monthly users.
This is a crash-through or crash approach when a principle of sunk costs should be applied. Perhaps if the backlash from the user community is strong enough and they vote with their feet (and their wallets), the company will revert back to the more popular environment. In the meantime, and as a little hack, there is one way users can keep the old interface; set up a "school" (left-hand column), give it a name, go to "settings", select "older version" and whatever other options you desire (e.g., "multiple languages" taught), and then go back to Duolingo via the left-hand column. Apparently, this will remain in place until the end of the year. After that, there's a golden opportunity for different language applications.
I have a computer that serves as a home server as well as a desktop machine. It has an encrypted home directory to protect user files and, in the default configuration, that unfortunately interferes with unattended reboots since someone needs to be present to enter the encryption password.
Here's how I added a timeout and made /home optional on that machine.
I started by adding a one-minute timeout on the password prompt by adding
timeout=60 in my /etc/crypttab:
crypt UUID=7e12c123-abcd-5555-8c40-900d1f8cc281 none luks,timeout=60
then I made /home optional by adding nofail to the appropriate mount
point in /etc/fstab:
/dev/mapper/crypt /home ext4 nodev,noatime,nosuid,nofail 0 2
Before that, the password prompt would timeout but the system would be unable to boot since one of the required partitions had failed to mount.
Now, to ensure that I don't accidentally re-create home directories for
users when the system is mounted without a /home, I made the /home
directory on the non-encrypted drive read-only:
umount /home
cd /home
chmod a-w .
Finally, with all of this in place, I was now happy to configure the
machine to automatically reboot after a kernel panic by putting the
following in /etc/sysctl.d/local.conf:
# Automatic reboot 10 seconds after a kernel panic
kernel.panic = 10
since I know that the machine will come back up just fine and that all
services will be running. I simply won't be able to log into that machine as
any other user than root until I manually unlock and mount /home.
This is a classic Scalzi book — novel, fun, a little bit funny, and in sync with the time it was created in. A story set around a product manager laid off during the pandemic, and then presented with an… unusal employment option, the book moves quickly and in a way which keeps you engaged.
Yet another Scalzi book I really enjoyed.
–
Meeting opened at 20:05 AEDT by Joel and quorum was achieved.
Minutes taken by Jonathan.
The post Council Meeting 26th October 2022 – Minutes appeared first on Linux Australia.
I like using Catalyst Cloud to host some of my personal sites. In the past I used to use CAcert for my TLS certificates, but more recently I've been using Let's Encrypt for my TLS certificates as they're trusted in all browsers. Currently the LoadBalancer as a Service (LBaaS) in Catalyst Cloud doesn't have built in support for Let's Encrypt. I could use an apache2/nginx proxy and handle the TLS termination there and have that manage the Let's Encrypt lifecycle, but really, I'd rather use LBaaS.
So I thought I'd set about working out how to get Dehydrated (the Let's Encrypt client I've been using) to drive LBaaS (known as Octavia). I figured this would be of interest to other people using Octavia with OpenStack in general, not just Catalyst Cloud.
There's a few things you need to do. These instructions are specific to Debian:
As we're using HTTP-01 Challenge Type here, you need to have the LoadBalancer forwarding port 80 to your website to allow for the challenge response. It is good practice to have a redirect to HTTPS, here's an example virtual host for Apache:
<VirtualHost *:80>
ServerName www.example.com
ServerAlias example.com
RewriteEngine On
RewriteRule ^/.well-known/ - [L]
RewriteRule ^/(.*)$ https://www.example.com/$1 [R=301,L]
<Location />
Require all granted
</Location>
</VirtualHost>
You all also need this in /etc/apache2/conf-enabled/letsencrypt.conf:
Alias /.well-known/acme-challenge /var/lib/dehydrated/acme-challenges
<Directory /var/lib/dehydrated/acme-challenges>
Options None
AllowOverride None
# Apache 2.x
<IfModule !mod_authz_core.c>
Order allow,deny
Allow from all
</IfModule>
# Apache 2.4
<IfModule mod_authz_core.c>
Require all granted
</IfModule>
</Directory>
And that should be all that you need to do. Now, when Dehydrated updates your certificate, it should update your LoadBalancer as well!
Sample hook.sh:deploy_cert() {
local DOMAIN="${1}" KEYFILE="${2}" CERTFILE="${3}" FULLCHAINFILE="${4}" \
CHAINFILE="${5}" TIMESTAMP="${6}"
shift 6
# File contents should be:
# export OS_PASSWORD='your password in here'
. /etc/dehydrated/catalystcloud/password
# OpenRC file from the Catalyst Cloud dashboard
. /etc/dehydrated/catalystcloud/openrc.sh --no-token
# UUID of the LoadBalancer to be managed
LB_LISTENER='xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
# Barbican uses P12 files, we need to make one.
P12=$(readlink -f $KEYFILE \
| sed -E 's/privkey-([0-9]+)\.pem/barbican-\1.p12/')
openssl pkcs12 -export -inkey $KEYFILE -in $CERTFILE -certfile \
$FULLCHAINFILE -passout pass: -out $P12
# Keep track of existing certs for this domain (hopefully no more than 100)
EXISTING_URIS=$(openstack secret list --limit 100 \
-c Name -c 'Secret href' -f json \
| jq -r ".[]|select(.Name | startswith(\"$DOMAIN\"))|.\"Secret href\"")
# Upload the new cert
NOW=$(date +"%s")
openstack secret store --name $DOMAIN-$TIMESTAMP-$NOW -e base64 \
-t "application/octet-stream" --payload="$(base64 < $P12)"
NEW_URI=$(openstack secret list --name $DOMAIN-$TIMESTAMP-$NOW \
-c 'Secret href' -f value) \
|| unset NEW_URI
# Change LoadBalancer to use new cert - if the old one was the default,
# change the default. If the old one was in the SNI list, update the
# SNI list.
if [ -n "$EXISTING_URIS" ]; then
DEFAULT_CONTAINER=$(openstack loadbalancer listener show $LB_LISTENER \
-c default_tls_container_ref -f value)
for URI in $EXISTING_URIS; do
if [ "x$URI" = "x$DEFAULT_CONTAINER" ]; then
openstack loadbalancer listener set $LB_LISTENER \
--default-tls-container-ref $NEW_URI
fi
done
SNI_CONTAINERS=$(openstack loadbalancer listener show $LB_LISTENER \
-c sni_container_refs -f value | sed "s/'//g" | sed 's/^\[//' \
| sed 's/\]$//' | sed "s/,//g")
for URI in $EXISTING_URIS; do
if echo $SNI_CONTAINERS | grep -q $URI; then
SNI_CONTAINERS=$(echo $SNI_CONTAINERS | sed "s,$URI,$NEW_URI,")
openstack loadbalancer listener set $LB_LISTENER \
--sni-container-refs $SNI_CONTAINERS
fi
done
# Remove old certs
for URI in $EXISTING_URIS; do
openstack secret delete $URI
done
fi
}
HANDLER="$1"; shift
#if [[ "${HANDLER}" =~ ^(deploy_challenge|clean_challenge|sync_cert|deploy_cert|deploy_ocsp|unchanged_cert|invalid_challenge|request_failure|generate_csr|startup_hook|exit_hook)$ ]]; then
if [[ "${HANDLER}" =~ ^(deploy_cert)$ ]]; then
"$HANDLER" "$@"
fi
Meeting opened at 20:00 AEDT by Joel and quorum was achieved.
Minutes taken by Clinton
The post Council Meeting 12th October 2022 – Minutes appeared first on Linux Australia.
Hello there, friends! This is going to be a short update from me because I’m deep in the throes of Hanami 2.0 release preparation right now. Even still, I didn’t want to let September pass without an update, so let’s take a look.
September started and ended with me looking at the r10k memory usage charts for hanami-controller versus Rails. The results were surprising!
We’d been running some of these checks as part of our 2.0 release prep, the idea being that it’d help us shake out any obvious performance improvements we’d need to make. And it certainly did in this case! Hanami (just like its dry-rb underpinnings) is meant to be the smaller and lighter framework; why were we being outperformced by Rails?
To address this I wrote a simple memory profile script for Hanami::Action inheritance (now checked in here) and started digging.
Here were there initial results:
Total allocated: 184912288 bytes (1360036 objects)
Total retained: 104910880 bytes (780031 objects)
allocated memory by gem
-----------------------------------
56242240 concurrent-ruby-1.1.10
53282480 dry-configurable-0.15.0
34120000 utils-8585be837309
30547488 other
10720080 controller/lib
That’s 185MB allocated for 10k subclasses, with concurrent-ruby, dry-configurable and hanami-utils being the top three gems allocating memory.
This led me straight to dry-configurable, and after a couple of weeks of work, I arrived at this PR, separating our storage of setting definitions from their configured values, among other things. This change allows us to copy less data at the moment of class inheritance, and in the case of a dry-configurable-focused memory profile, cut the allocated memory by more than half.
From there, I moved back into hanami-controller and updated it to use dry-configurable for all of its inheritable attributes (some were handled separately), also taking advantage the support for custom config classes that Piotr added so we could preserve Hanami::Action’s existing configuration API.
This considerably improved our benchmark! Behold:
Total allocated: 32766232 bytes (90004 objects)
Total retained: 32766232 bytes (90004 objects)
allocated memory by gem
-----------------------------------
21486072 other
10880120 dry-configurable-0.16.1
400040 3.1.2/lib
Yes, we brought 185MB allocated memory down to 33MB! This also brought us on par with Rails in the extreme end of the r10k memory usage benchmark:
Here’s a thing though: the way r10k generates actions for its Rails benchmark is to create a single controller class with a method per action. So for the point on the far right of that chart, that’s a single class with 10k methods. Hardly realistic.
So I made a quick tweak to see how things would look if the r10k Rails benchmark generated a class per endpoint like we do with Hanami::Action:
That’s more like it. This is another extreme, however: more realistically, we’d see Rails apps with somewhere between 5-10 actions per controller class, which would lower its dot a little in that graph. In my opinion this would be a useful thing to upstream into r10k. It’s already a contrived benchmark, yes, but it’d be more useful if it at least mimicked realistic application structures.
Either way, we finished the month much more confident that we’ll be delivering on our promise of Hanami as the lighter, faster framework alternative. A good outcome!
Along the way, however, things did feel bleak at times. I wasn’t confident that I’d be able to make things right, and it didn’t feel great to think we might’ve spent years putting somethign together that wasn’t going to be able to deliver on some of those core promises. Luckily, I found all the wins we needed, and learnt a few things along the way.
What else happened in September? Possibly the biggst thing is that we organised ourselves for the runway towards the final Hanami 2.0.0 release.
We want to do everything possible to make sure the release happens this year, so I spent some time organising the remaining tasks on our Trello board into date-based lists, aiming for a release towards the end of November. It looked achievable! The three of us in the core team re-committed ourselves to doing everything we could to complete these tasks in our estimated timeframes.
So far, things have gone very well!
We’ve all been working tremendously hard, and so far, this has let us keep everything to the schedule. I’ll have a lot to share about our work across October, but that’s all for next month’s update. So in the meantime, I have to put my head back down and get back to shipping a framework. See you all again soon!
This is a summary of what I have learned over the past two years, after my first direct encounter with what is called Borderline Personality Disorder (BPD). Whilst I do not have BPD (although everyone is a little bit on every mental health continuum), I do endeavour to be a loyal and committed ally of people with BPD (pwBPD). In a very real sense, I wish I knew then what I do now; but at least I have made the effort to learn. I hope that these notes are useful to others. For anyone who wishes to be a sincere ally (a catch-all term that should include partners, family, and friends) of a person with BPD it is absolutely necessary to make the effort to listen to the pwBPD and to educate yourself using scholarly sources. Not making the effort means that you're not an ally, regardless of how close you think you are to the person, and not using scholarly sources will cause more harm and prejudice than good.
This document was initially written at the end of BPD Awareness Week 2022 in Australia and for World Mental Health Day, and will be updated as new information comes to hand. Throughout all the content here it is emphasised that (a) quantifiers are always required (many, most, some, etc) and every BPD person is unique and will not show all characteristics and (b) always see the person. Please note that I am not a psychologist, although I am a student of the subject and have completed most of a Graduate Diploma of Applied Psychology at the University of Auckland. I encourage people to donate to the Australian BPD Foundation.
Warning: This article mentions suicide, self-harm, and abuse.
"Borderline Personality Disorder" is a mental health condition marked by a long-term pattern of intense emotional reactions, divergent moods, unstable interpersonal relations, impulsivity, and issues in self-identity and self-direction. The term itself was coined when the condition of behaviours was deemed to be on the borderline of psychosis (difficulty in determining what is real) and neuroticism (disorders that cause constant distress), where a neurotic person in a time of stress would show signs of psychosis. Whilst neither 'psychosis' nor 'neuroticism' are used as formal mental health descriptors, the term "borderline" has stuck. The term was included in DSM-III (1980) where it remains to the current edition. An alternative, and more intuitive term, is "Emotionally unstable personality disorder" (EUPD).
The median prevalence of BPD is c1% (Ellison et al, 2018). In clinical settings, BPD prevalence is around 10-12% in outpatient psychiatric clinics and 20-22% among inpatient clinics. Prevalence is notably higher among incarcerated individuals and notably lower among the elderly. There is a pronounced gender distinction with women diagnosed over men at a 3:1 ratio (Skodol, Bender, 2003). Underdiagnosis and misdiagnosis are unfortunately common, with over 40% of pwBPD had been previously misdiagnosed with other disorders like bipolar disorder or major depressive disorder (Ruggero et al, 2010).
The DSM-5 (p663, 2013) gives the following as diagnostic criteria. Formal diagnosis requires satisfication of five or more of the criteria.
1. Frantic efforts to avoid real or imagined abandonment (Note: Do not include suicidal or self-mutilating behaviour covered in Criterion 5)
2. A pattern of unstable and intense interpersonal relationships characterised by alternating
between extremes of idealisation and devaluation
3. Identity disturbance: markedly and persistently unstable self-image or sense of self
4. Impulsivity in at least two areas that are potentially self-damaging (e.g. spending, sex, substance abuse, reckless driving, binge eating) (Note: Do not include suicidal or self-mutilating behaviour covered in Criterion 5)
5. Recurrent suicidal behaviour, gestures, or threats, or self-mutilating behaviour
6. Affective instability due to a marked reactivity of mood (e.g. intense episodic dysphoria, irritability or anxiety usually lasting a few hours and only rarely more than a few days)
7. Chronic feelings of emptiness
8. Inappropriate, intense anger or difficulty controlling anger (e.g. frequent displays of temper,
constant anger, recurrent physical fights)
9. Transient, stress-related paranoid ideation or severe dissociative symptoms
There are similar criteria for the International Classification of Diseases (11th Revision) which describes "the borderline pattern descriptor" as follows:
A pervasive pattern of instability of interpersonal relationships, self-image, and affects, and marked impulsivity, as indicated by many of the following:
1. Frantic efforts to avoid real or imagined abandonment
2. A pattern of unstable and intense interpersonal relationships
3. Identity disturbance, manifested in markedly and persistently unstable self-image or sense of self
4. A tendency to act rashly in states of high negative affect, leading to potentially self-damaging behaviours
5. Recurrent episodes of self-harm
6. Emotional instability due to marked reactivity of mood
7. Chronic feelings of emptiness
8. Inappropriate intense anger or difficulty controlling anger
9. Transient dissociative symptoms or psychotic-like features in situations of high affective arousal
If one thinks that they fit the criteria for BPD it is essential to seek a professional diagnosis. Without professional treatment, one is taking an enormous risk of harm to themselves and others. Likewise, if one thinks that another person fits the criteria, raise the matter very gently and delicately with a motivation of care and with recognition and self-awareness that you are not a professional.
Borderline personality disorder often begins in adolescence or early adulthood. It is characterized by problems with interpersonal relationships (they are intense, alternating between idealization and devaluation), mood (depression and especially inappropriate, intense anger), and unstable self-image. Current estimates of the general population prevalence of borderline personality disorder range up to 5.9 percent, and recent studies of college students suggest that up to 17 percent struggle with significant borderline traits. Borderline personality disorder is associated with psychiatric disability, substance abuse, eating disorders, and medical problems. BPD patients showed significantly higher scores on both primary and secondary global rates of psychopathic behaviour associated with patterns of executive dysfunction (López-Villatoro et al, 2020)
The heritability of BPD is between 37% to 69%, a rather wide range (Gunderson et al, 2011), with indications that is one of the most heritable disorders (Torgersen et al, 2000). However, even when researchers do note specific linkages to genetics variation between genetic and environmental factors are balanced at 42%/58% (Distel et al, 2008). These environmental factors are commonly associated with the result of childhood trauma such as neglect and abuse; there is little doubt that a person who has experienced childhood trauma is at an increased risk for developing BPD and PTSD (Cattane et al 2017).
Real-time brain imaging scans have established that pwBPD are physically unable to regulate emotions (Nauret, 2017). Neuroimaging shows that pwBPD typically has a reduction in the brain's regions that regulate stress responses, emotions, and decision-making including the amygdala, the hippocampus, and the orbitofrontal cortex (O'Neill, Frodl, 2012). There is dysregulation of the hypothalamic-pituitary-adrenal axis, responsible for the production of cortisol, released during times of stress; pwBPD have abnormal levels of cortisol production (Cattane, et al 2017), reflected in damage erosion of the very areas of the brain responsible for stress regulation and decision-making. Amygdala damage is associated with impulsive behaviour, a lessens aversion to risk and loss (Gupta et al 2011), and also with hypervigilance (Terburg et al, 2012). Damage to the amygdala (emotional processing) and the hippocampus (declarative of episodic recollection) also reduces the capacity for memory (Yang, Wang, 2017).
There are a number of comorbidities with BPD. The following are a few words on the most common, including Eating Disorders, Attention Deficit Hyperactivity Disorder, (complex and chronic) Post-Traumatic Stress Disorder, Narcissistic Personality Disorder, and Bipolar Disorders
Eating disorders and BPD are co-morbid, with some 53.8% co-occurrence from one extensive study (Zanarini, et al 2010), compared to 24.6% of patients with other personality disorders and more specifically, 21.7% of patients with BPD met criteria for anorexia nervosa and 24.1% for bulimia nervosa. Like other co-morbidities, an association has been drawn between eating disorders, BPD, and the environmental factor of childhood trauma, whether in the form of neglect or abuse (Sansone, Sansone, 2017).
Attention deficit hyperactivity disorder (ADHD) and BPD, is another frequent comorbidity, in a clinical setting, ranging from 16.1 to 38% of BPD patients (Weiner et al, 2019). This comorbidity questions whether it is appropriate to view either as an entirely early-onset neurological disorder (ADHD) or a later-onset environmental disorder (BPD). As with many other comorbidities, the expression of characteristics is more severe, hence people with ADHD and BPD are even more impulsive than those with BPD alone, and with a higher level of emotional dysregulation than those with ADHD alone.
Post-traumatic stress disorder (PTSD) including complex PTSD, and borderline personality disorder commonly co-occur, approximately 25-30% (Pagura et al 2010, Frías and Palma, 2015) of the time. Whilst PTSD is characterised by (a) a sense of threat, (b) avoidance, and (c) re-experiencing. complex PTSD has, in addition, (d) interpersonal avoidance and difficult interpersonal relationships (e) negative self-concept, and (f) affective instability. BPD does not have (a), (b), and (c), but does have (d), (e), (f) and, in addition, (g) anger, (h) chronic emptiness, (i) self-injury behaviours (j) transient psychotic and dissociation and (k) fear of abandonment. Individuals with comorbid PTSD-BPD have a poorer quality of life on average, with higher levels of self-harm.
Narcissistic Personality Disorder (NPD) and Borderline Personality Disorder (BPD) are both "cluster B" disorders, characterised by dramatic and intense behaviour (at least to observers), and impulsive behaviour. This cluster includes NPD, BPD, anti-social personality disorder, histrionic personality disorder, etc In addition to this general overlap the co-occurrence of BPD and NPD has been assessed from a range of 13% (Hörz-Sagstetter et al 2018) to 39% (Grant et al, 2008). There is a possibility that it is particularly associated with "vulnerable narcissism", whose traits include hypersensitivity, defensiveness, and low self-esteem. People with NPD and BPD are less likely to see a remission of BPD as NPD people have a lower motivation to seek therapy, and NPD is very difficult to treat (Caligor et al, 2015).
Bipolar Disorders and BPD also occur, in approximately 20% of cases (Zimmerman, 2019) and there is an ongoing discussion on whether BPD should be part of the bipolar spectrum, although most recent literature suggests that they are distinct, and the debate has actually sidetracked from the substantive issue. Like other comorbid states, people with "borderpolar" have higher levels of impaired functioning, substance abuse disorders, and self-harm (Patel et al, 2019). Further, people with BPD and a Bipolar Disorder are more likely to have PTSD as well, generating an especially challenging combination that has been insufficiently researched and is likely underdiagnosed.
BPD conditions remain throughout the lifespan, although with variations in symptoms (Biskin, 2015). In some cases BPD symptoms can be observed in childhood, however, there is an absence of evidence regarding the course of development of those who do not meet the full criteria. Adolescence is usually when BPD is recognised, although there is evidence of remission in follow-up studies ranging from 40% to 65%, although residual symptoms are not always predictable. Adult BPD longitudinal studies also suggest a gradual decline in symptoms, with periods of remission of recurrence. The decline of symptoms was mainly in the behavioural aspects of impulsivity; self-harm and suicide remained a factor with one large study indicating a 10% suicide rate after 27 years of follow-up, mainly patients in their 30s with multiple failed treatments. Even with a decline in symptoms over time functional recovery - defined as remission along with full-time vocational or educational activity and at least one stable and supportive relationship with a close friend or partner - occurred in only just more than 50% of patients (Zanarini et al, 2012).
People with BPD have a reduced life expectancy ranging from 14 to 27.5 years, with a median value of 20 (Castle, 2019). Most of the early mortality is largely due to cardiovascular deaths with major risk factors (e.g., obesity, smoking, poor diet, and lack of exercise) significantly greater among people with BPD. Other notable risk factors include arteriosclerosis, hypertension, hepatic disease, arthritis, gastrointestinal disease, cardiovascular disease, and sexually transmitted diseases. These can be attributed to maladaptive lifestyle choices (smoking, drugs, alcohol, diet) as well as iatrogenic (prescription medicines). The problems are often compounded with a person with BPD having comorbidity, and also by the stigma attached by BPD even in the responses of health professionals. Suicide rates vary from up to 10% of cases from follow-back research, or from 3-6% in prospectively followed cohorts, and most occur later in life (mean age of 37, standard deviation of 10) (Paris, 2019)
There is no cure for BPD, but recovery and management are possible. There have only been very modest evidence of neurogenesis of the amygdala (Jhaveri, 2018) and mood disorders are known to weaken the prospect of neurogenesis of the hippocampus. In other words, the very experience of having BPD reduces the possibility of recovery from BPD (Toda et al, 2019). There is evidence that deep brain stimulation can help relieve some psychological and behavioral side effects, such as hypervigilance (Langevin, 2012).
There are some regularly prescribed medications for pwBPD, typically antipsychotics (Grootens, Verkes, 2005) and mood stabilisers (Lieb et al, 2010). Usually, psychotherapy has been shown to be particularly beneficial, with Dialectical Behaviour Therapy (DBT) offering the greatest rates of success (Choi-Kain, 2017). It is, of course, not something that necessarily works for everybody with BPD, and other therapies may be more appropriate depending on the individual (e.g., schema therapy, mentalisation-based treatment, transference-focussed psychotherapy). A particular warning is raised for matters of misdiagnosis, especially with common co-morbidities such as PTSD. In many cases, a treatment that is very effective for PTSD can aggravate BPD and vice-versa e.g., trauma history, mood swings, and alienation from others (Hammond, 2020)
The BPD Community consists of people with lived experience of Borderline Personality Disorder. This can include people with the illness (diagnosed, undiagnosed, treated, and in remission), their close friends, family, partners, and allies. The following are a few short comments on the lived experiences of both pwBPD and those in their life. This section of the summary is somewhat more informal than what has preceded.
Availability, Understanding, Solutions
A common error by allies have when a pwBPD is having an episode of extreme emotions (anger, sadness, anxiety, etc) is that they seek to provide rational solutions to what is a perceived problem. This may be a genuine response motivated by care and love, but it is not the appropriate approach. A person in such a situation is experiencing an emotional disturbance and the experience must also be dealt with emotionally. People with BPD have at least equal and often heightened levels of emotional empathy, but their emotional cognition and performance are quite poor (Niedtfeld, 2017). This is often referred to as "the Borderline Empathy Paradox", where it is common of pwBPD to detect even subtle emotional states of others the also typically have serious deficits of cognitive and behavioural empathy (Salgado et al 2020).
The following steps - availability, understanding, and solutions - must be carried out in order with each step depending on the preceding. An alternative name for these is "SET theory" (Kreisman, 2018), standing for "Support, Empathy, Truth", although that will get confusing for people with an interest in discrete mathematics (such as the author).
Availability: One should recall that a pwBPD suffers a chronic fear of abandonment; thus availability must be of the first priority. Simply being present can help alleviate the fear. Statements of support and engagement are also valuable: "I am here for you", "I care about you", "I want to help", etc.
Understanding: Once availability is established, the pwBPD is likely to express their feelings. Their ally must display empathy and understanding at this point. The pwBPD may seek to ground their feelings in events or interpretations that might be completely erroneous, conflated, etc. The ally should not seek to correct them or downplay the real or imagined causes, but rather validate the emotions. This requires some attention on the behalf of the ally to listen to the feelings as well as the words being used. Feelings are ALWAYS valid, even if the reasons are not and the pwBPD feels their feelings more viscerely than anyone else. The ally should give statements that validate the feelings: "This must be very frustrating for you".
Solutions: Only once the pwBPD has an assurance of an ally's availability, and the empathic rapport of understanding and validating their emotional state is established, should potential solutions be offered. These need to be factual or based on the ally's commitments (and the ally had better follow through): "This is what I can do to help", "If you do x, then y will happen. Perhaps consider z", etc.
Shame, Guilt, and Remorse
It is virtually a given that pwBPD will engage in words or actions that are very hurtful and damaging to those close to them. Unlike people who have limited emotional range or capacity, a pwBPD feels emotions, including shame and guilt, intensely. The coping mechanisms and responses of pwBPD however are typically very poor and they will often hold on to shame and guilt in a manner that is damaging to their self-esteem (through self-loathing), despair (avoiding establishing commitment through fear of hurting people in the future), or even various of self-harm. For pwBPD it is essential that they learn to turn shame into guilt and guilt into remorse, otherwise the pain will be ongoing.
Shame is more prevalent among pwBPD than guilt (Peters, Geiger 2016). Shame reflects the individual's negative self-concept and self-loathing, and represents the accumulated negative beliefs that the individual has toward themselves. With pwBPD it is an important contributor to anger, unstable mood, instability of interpersonal relationships, externalisation of blame, and self-harm. When a pwBPD is triggered by events that generate shame, including the results of their own impulsivity and other behaviours. However, it is necessary for a pwBPD to develop guilt about actions rather than accumulating further shame about them. Guilt at least focuses on the event and identifies the need to change behaviour, rather than adding to the negative self-image of shame which is an interrnalised and private pain.
The difference between guilt and remorse involves taking ownership of what a person has done that has hurt another. Contact, even indirect contact if necessary, of those that have been impacted is suggested. Informing the wronged party that one feels that they have wronged them and that one is changing themself so it doesn't happen again, is required. Further, asking if there's anything that can be done to make amends is a full acceptance of responsibility. There is no onus on the wronged party to give forgiveness or to accept any offer of amends. However, in most cases, people are forgiving when they see a genuine attempt in a person to change.
Mirroring, Splitting, Discarding, Reconnection
Borderline
Feels like I'm going to lose my mind
You just keep on pushing my love
Over the borderline
-- Madonna, Borderline (1983)
The famous Madonna song, for what it's worth, actually is not about BPD, but for those in a close relationship with a pwBPD, they experience of having one's love "pushed" and that the close ally may lose their own mind is a very common experience. A common descriptor used by both pwBPD and their loved ones is that the experience is like being on an emotional roller-coaster. Many of those who have experienced a relationship with a pwBPD describe a cycle of behaviour that, constitutes manipulative abuse (Brüne, 2016). The actions carried out by a pwBPD are unconsciously driven as they desperately fear abandonment whilst at the same time having high levels of chronic mistrust and a belief that they are unlovable, and a lack of object constancy with their loved ones (Matejko, 2022).
A typical cycle will consist of an initial and often incredible connection between the pwBPD and their loved one, their "favourite person" as described in the culture. The pwBPD will engage in "mirroring", elevating their loved one, affirming their beliefs, dreams, and activities, and will present themselves as exciting and adventurous in the process. For the loved one, they will often describe the experience in highly romantic terms, such as finally meeting their soulmate. This experience, however, does not last; the inevitable flaws of the loved one and the affective instability of the pwBPD will usually mean that the pwBPD will engage in "splitting" against their loved one. Where once they were exalted, they are now treated with equivalent disdain (often with rage and vitriol), and will soon be discarded. During the negative side of the split, the pwBPD, with far greater frequency than others, will establish a new love interest (Michael, 2021). "Splitting" itself is a malformed defense mechanism on the part of the person with BPD (Fetruck et al, 2018) where they convince themselves of the validity of the impending discard.
With the new love interest, the same process is very likely to repeat itself. Often enough, the pwBPD will then engage in the same process and re-establish connection with their original partner with a similar level of original elevation, and the cycle will repeat, or they will find an entirely new relationship; perhaps unsurprisingly, pwBPD tend to have a larger number of romantic relationships over their lifetime (Navarro-Gómez et al, 2017). Assuming a return to the original interest, it is not uncommon for loved ones of a pwBPD to describe how, over a number of years, their partners have discarded them several times and more. Whilst patience and commitment are admirable in any relationship, they will be insufficient in this situation. Therapy for pwBPD and couples therapy for the pwBPD and their partner is also required for success. Establishing clear boundaries and agreed consequences for particular actions should also assist.
Lying, Gaslighting, Lovebombing
The perception of reality for a pwBPD is driven by the current emotional state, which is subject to heightened levels of intensity and instability. As a direct consequence of this, a pwBPD engages in activities which, to an outsider, may seem like lying or gaslighting but are driven by these states rather than an act of conscious deception. For example, pwBPD often have a weakened level of promissory commitment to the expressions that they provide. Their reality is very much in the "here and now", rather than in the longer term, even when expressed in those terms. At the moment a pwBPD will quite sincerely and wholeheartedly believe what they are saying but will either forget the content entirely or have a radical change in affective orientation. Reminding the pwBPD of their prior commitments is important, but even more can be gained with a reminder of the emotional content of the commitment.
Another result of this emotional, rather than factual, perception is that pwBPD present statements that seem like gaslighting. Emotionally healthy people will develop feelings based on facts. However, pwBPD may unconsciously revise the facts to fit their current feelings or invent facts to fill in memory gaps. Tragically, this behaviour also weakens the ability of the pwBPD to develop a coherent autobiographical sense of self or firm memories. This can also be very confronting to an ally, whose immediate reaction will be to correct the factual error; this is a mistake and instead, the same SET principles described previously should be applied; the facts are secondary; empathy and understanding of the feeling must have priority.
Another experience that loved ones of a pwBPD experience is "lovebombing". This is overwhelming displays of affection and attachment. As the Oxford English Dictionary states: "the action or practice of lavishing someone with attention or affection, especially in order to influence or manipulate them". For a pwBPD the lavishing is real, at the moment. They are not consciously trying to manipulate their loved one. They are, in fact, both terrified of losing their loved one (thus the ovewhelming display of affection) and, at the same time, ready to engage in a "protective discard" on the assumption that their loved one will leave them.
This summary is a compilation of my own notes and research over the past two years or so. It really is a personal essay, albeit written with my own tendency to an academic style, to make sense of what is a common and often debilitating mental illness. Despite the various difficulties, emphasis is again placed on the importance of individual variation with pwBPD, the legitimacy of their voice in explaining the lived experience of the condition, and the fact that the person who has BPD is also so much more than the illness that they carry. There are a terrible stigma (Aviram, et al, 2006) attached to pwBPD in popular culture and the media, and there are prejudices that abound and most surprisingly in the professions that should be the most helpful. Of course, pwBPD are just as prone to engaging in consciously hurtful acts toward others as anyone else, but in the main, they are incredibly empathic and caring although often unable to fully control their impulses. Genuine sympathy, understanding, and treatment all will help make life much better for them and us.
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Michael J, Chennells M, Nolte T, et al (2021). Probing commitment in individuals with borderline personality disorder. J Psychiatric Res. 2021;137:335-341. doi:10.1016/j.jpsychires.2021.02.062
Nauert, R., (2017). Brain Scans Clarify Borderline Personality Disorder. PsychCentral
https://psychcentral.com/news/2017/09/04/brain-scans-clarify-borderline-...
Navarro-Gómez S, Frías Á, Palma C. Romantic relationships of people with borderline personality: A narrative review. (2017) PSP. 2017;50(3):175-187. doi:10.1159/000474950
Niedtfeld I. (2017) Experimental investigation of cognitive and affective empathy in borderline personality disorder: effects of ambiguity in multimodal social information processing. Psychiatry Res 253:58–63. doi: 10.1016/j.psychres.2017.03.037
O'Neill A, Frodl T (October 2012). "Brain structure and function in borderline personality disorder". Brain Structure & Function. 217 (4): 767–782. doi:10.1007/s00429-012-0379-4
Pagura, J., Stein, M. B., Bolton, J. M., Cox, B. J., Grant, B., & Sareen, J. (2010). Comorbidity of borderline personality disorder and posttraumatic stress disorder in the US population. Journal of psychiatric research, 44(16), 1190-1198.
Paris J. (2019). Suicidality in Borderline Personality Disorder. Medicina (Kaunas). 2019 May 28;55(6):223. doi: 10.3390/medicina55060223. PMID: 31142033; PMCID: PMC6632023.
Patel RS, Manikkara G, Chopra A. Bipolar Disorder and Comorbid Borderline Personality Disorder: Patient Characteristics and Outcomes in US Hospitals. (2019) Medicina (Kaunas). 2019 Jan 14;55(1):13. doi: 10.3390/medicina55010013. PMID: 30646620; PMCID: PMC6358827.
Peters JR, Geiger PJ. (2016). Borderline personality disorder and self-conscious affect: Too much shame but not enough guilt? Personal Disord. 2016 Jul;7(3):303-8. doi: 10.1037/per0000176. Epub 2016 Feb 11. PMID: 26866901; PMCID: PMC4929016.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4929016/
Ruggero CJ, Zimmerman M, Chelminski I, Young D. Borderline personality disorder and the misdiagnosis of bipolar disorder. (2010). J Psychiatr Res. 2010;44(6):405–408. doi:10.1016/j.jpsychires.2009.09.011
Salgado, R. M., Pedrosa, R., & Bastos-Leite, A. J. (2020). Dysfunction of Empathy and Related Processes in Borderline Personality Disorder: A Systematic Review. Harvard review of psychiatry, 28(4), 238–254. https://doi.org/10.1097/HRP.0000000000000260
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Washington: A life by Ron Chernow
Very well written single-volume biography of the president. Covers his whole life in detail without being boring. Strong recommend. 5/5
The WEIRDest People in the World: How the West Became Psychologically Peculiar and Particularly Prosperous by Joseph Henrich
How the “normal” psychology of western individuals differs from other societies and how it got that way. Interesting ideas and a good read. 3/5
Dress Codes: How the Laws of Fashion Made History by Richard Thompson Ford
A mix of fashion orientated and enforced dress codes. I found the pre-1900 stuff more interesting than then later US-centric stories. 3/5
FDR by Jean Edward Smith
Biography of President Franklin D. Roosevelt. Extensive but not comprehensive, so some gaps where I wanted more. Would recommend though. 4/5
My Audiobook Scoring System
It’s been a little over a year since our Redflow ZCell battery and Victron Energy inverter/charger kit were installed on our existing 5.94kW solar array. Now that we’re past the Southern Hemisphere spring equinox it seems like an opportune time to review the numbers and try to see exactly how the system has performed over its first full year. For background information on what all the pieces are and what they do, see my earlier post, Go With The Flow.
As we look at the figures for the year, it’s worth keeping in mind what we’re using the battery for, and how we’re doing it. Naturally we’re using it to store PV generated electricity for later use when the sun’s not shining. We are also charging the battery from the grid at certain times so it can be drawn down if necessary during peak times, for example I set up a small overnight charge to ensure there was power for the weekday morning peak, when the sun isn’t really happening yet, but grid power is more than twice as expensive. More recently in the winter months, I experimented with keeping the battery full with scheduled charges during most non-peak times. This involved quite a bit more grid charging, but got us through a couple of three hour grid outages without a hitch during some severe weather in August.
I spent some time going through data from the VRM portal for the last year, and correlating that with current bills from Aurora energy, and then I tried to compare our last year of usage with a battery, to the previous three years of usage without a battery. For reasons that will become apparent later, this turned out to be a massive pain in the ass, so I’m going to start by looking only at what we can see in the VRM portal for the past year.
The VRM portal has three summary views: System Overview, Consumption and Solar. System Overview tells us overall how much total power was pulled from the grid, how much was exported to the grid, how much was produced locally, and how much was consumed by our loads. The Consumption view (which I wish they’d named “Loads”, because I think that would be clearer) gives us the same consumption figure, but tells us how much of that came from the grid, vs. what came from the battery vs. what came from solar. The Solar view tells us how much PV generation went to the grid, how much went to the battery, and how much was used directly. There is some overlap in the figures from these three views, but there are also some interesting discrepancies, notably: the “From Grid” and “To Grid” figures shown under System Overview are higher than what’s shown in the Consumption and Solar views. But, let’s start by looking at the Consumption and Solar views, because those tell us what the system gives us, and what we’re using. I’ll come back after that to the System Overview, which is where things start to get weird and we discover what the system costs to run.
The VRM portal lets you chose any date range you like to get historical figures and bar charts. It also gives you pie charts of the last 24 hours, 7 days, 30 days and 365 days. To make the figures and bar charts match the pie charts, the year we’re analysing starts at 4pm on September 25, 2021 and ends at 4pm on September 25, 2022, because that’s exactly when I took the following screenshots. This means we get a partial September at each end of the bar chart. I’m sorry about that.
Here’s the Consumption view:
This shows us that in the last 12 months, our loads consumed 10,849kWh of electricity. Of that, 54% (5,848kWh) came from the grid, 23% (2,506kWh) came direct from solar PV and the final 23% (2,494kWh) came from the battery.
From the rough curve of the bar chart we can see that our consumption is lower in the summer months and higher in the winter months. I can’t say for certain, but I have to assume that’s largely due to heating. The low in February was 638kWh (an average of 22.8kWh/day). The high in July was 1,118kWh (average 36kWh/day).
Now let’s look at the Solar view:
In that same time period we generated 5,640kWh with our solar array, of which 44% (2,506kWh) was used directly by our loads, 43% (2,418kWh) went into the battery and 13% (716kWh) was exported to the grid.
Unsurprisingly our generation is significantly higher in summer than in winter. We got 956kWh (average 30kWh/day) in December but only 161kWh (5.3kWh/day) in June. Peak summer figures like that mean we’ll theoretically be able to do without grid power at all during that period once we get a second ZCell (note that we’re still exporting to the grid in December – that’s because we’ve got more generation capacity than storage). The winter figures clearly indicate that there’s no way we can provide anywhere near all our own power at that time of year with our current generation capacity and loads.
Now look closely at the summer months (December, January and February). There should be a nice curve evident there from December to March, but instead January and February form a weird dip. This is because we were without solar generation for three weeks from January 30 – February 11 due to replacing a faulty MPPT. Based on figures from previous years, I suspect we lost 500-600kWh of potential generation in that period.
Another interesting thing is that if we compare “To Battery” on the Solar view (2,418kWh) with “From Battery” on the Consumption view (2,494kWh), we see that our loads consumed 76kWh more from the battery than we actually put into it with solar generation. This discrepancy is due to the fact that in addition to charging the battery from solar, we’ve also been charging it from the grid at certain times, but the amount of power sent to the battery from the grid isn’t broken out explicitly anywhere in the VRM portal.
Now let’s look at the System Overview:
Here we see the same figures for “Production” (5,640kWh) and “Consumption” (10,849kWh) as were in the Consumption and Solar views, and the bar chart shows the same consumption and generation curves (ignore the blue overlay and line which indicate battery minimum/maximum and average state of charge – that information is largely meaningless at this scale, given we cycle the battery completely every day).
Now look at “To Grid” and “From Grid”. “To Grid” is 754 kWh, i.e. we somehow sent 38kWh more to the grid than came from solar. “From Grid”, at 8,531kWh, is a whopping 2,683kWh more than the 5,848kWh grid power consumed by our loads (i.e. close to half as much again).
So, what’s going on here?
One factor is that we’re charging the battery from the grid at certain times. Initially that was a few hours overnight and a few hours in the afternoon on weekdays, although the afternoon charge is obviously also provided by the solar if the sun is shining. For all of July, August and most of September though I was using a charge schedule to keep the battery full except for peak times and maintenance cycle nights, which meant quite a bit more grid charging overnight than earlier in the year, as well as grid charging most of the day during days with no or minimal sunshine. Grid power sent to the battery isn’t visible in the “From Grid” figure on the Consumption view – that view shows only our loads, i.e. the equipment the system is powering – but it is part of the “From Grid” figure in the System Overview.
Similarly, some of the power we export to the grid is actually exported from the battery, as opposed to being exported from solar generation. That usually only happens during maintenance cycles when our loads aren’t enough to draw the battery down at the desired discharge rate. But again, same thing, that figure is present here on the system overview page as part of “To Grid”, but of course is not part of the “To Grid” figure on the Solar view.
Another factor is that the system itself needs some amount of power to operate. The Victron kit (the MultiPlus II Inverter/Chargers, the Cerbo GX, the MPPT) use some small amount of power themselves. The ZCell battery also requires power to operate its pumps and fans. When the sun is out this power can of course come from solar. When solar power is not available, power to run the system needs to come from some combination of the remaining charge in the battery, and the grid.
On that note, I did a little experiment to see how much power the system uses just to operate. On July 9 (which happened to be a maintenance cycle day), I disabled all scheduled battery charges, and I shut off the DC isolators for the solar PV, so the battery would remain online (pumps and fans running) but empty for all of July 10. The following day I went and checked the figures on the System Overview, which showed we drew 35kWh, but that our consumption was 33kWh. So, together, the battery doing nothing other than running its pumps and fans, plus the Multis doing nothing other than passing grid power through, used 2kWh of power in 24 hours. Over a year, that’s 730kWh. As mentioned above, ordinarily some of that will be sourced from mains and some from solar, but if we look at the total power that came into the system as a whole (5,640kWh from solar + 8,531kWh from the grid = 14,171kWh), 730kWh is just slightly over 5% of that.
The final factor in play is that a certain amount of power is naturally lost due to conversion at various points. The ZCell has a maximum 80% DC-DC stack efficiency, meaning in the absolute best case if you want to get 10kW out of it, you have to put 12.5kW in. In reality you’ll never hit the best case: the lifetime charge and discharge figures the BMS currenly shows for our ZCell are 4,423 and 3,336kWh respectively, which is a bit over 75%. The Multis have a maximum efficiency of 96% when doing their invert/charge dance, so if we grid charge the battery, we lose at least 4% on the way in, and at least 4% on the way out as well, going to and from AC/DC. Again, in reality that loss will be higher than 4% each way, because 96% is the maximum efficiency.
A bunch of the stuff above just doesn’t apply to the previous system with the ABB inverter and no battery. I also don’t have anything like as much detailed data to go on for the old system, which makes comparing performance with the new system fiendishly difficult. The best comparison I’ve been able to come up with so far involves looking at total power input to the system (power from grid plus solar generation), total consumption by loads (i.e. actual locally usable power), and total power exported.
Prior to the Victron gear and Redflow battery installation, I had grid import and export figures from my Aurora Energy bills, and I had total generation figures from the ABB inverter. From this I can synthesise what are hopefully reasonably accurate load consumption figures by adding adding grid input to total PV generation minus grid export.
I had hoped to do this analysis on a quarterly basis to line up with Aurora bills, because then I would also be able to see how seasonal solar generation and usage went up and down. Unfortunately the billing for 2020 and 2021 was totally screwed up by the COVID-19 pandemic, because there were two quarters during which nobody was coming out to read the electricity meter. The bills for those quarters stated estimated usage (i.e. were wrong, especially given they estimated grid export as zero), with subsequent quarters correcting the figures. I have no way to reliably correlate that mess with my PV generation figures, except on an annual basis. Also, using billing periods from pre-battery years, the closest I can get to the September 25 based 2021-2022 year I’m looking at now is billing periods starting and ending in mid-August. But, that’s close enough. We’ve still got four pretty much back-to-back 12 month periods to look at.
| Year | Grid In | Solar In | Total In | Loads | Export |
|---|---|---|---|---|---|
| 2018-2019 | 9,031 | 6,682 | 15,713 | 11,827 | 3,886 |
| 2019-2020 | 9,324 | 6,468 | 15,792 | 12,255 | 3,537 |
| 2020-2021 | 7,582 | 6,347 | 13,929 | 10,358 | 3,571 |
| 2021-2022 | 8,531 | 5,640 | 14,171 | 10,849 | 754 |
One thing of note here is that in the 2018-2019 and 2019-2020 years, our annual consumption was pretty close to 12MWh, whereas in 2020-2021 and 2021-2022 it was closer to 10.5MWh. If I had to guess, I’d say that ~1.5MWh/year drop is due to a couple of pieces of computer equipment that were previously always on, now mostly running in standby mode except when actually needed. A couple of hundred watts constant draw is a fair whack of power over the course of a year. Another thing to note is the big drop in power exported in 2021-2022, because most of our solar generation is now used locally.
The thing that freaked me out when looking at these figures is that in the battery year, while our loads consumed 491kWh more than in the previous non-battery year, we pulled 949kWh more power in from the grid! This is the opposite of what I had expected to see, especially having previously written:
In the eight months the system has been running we’ve generated 4631kWh of electricity and “only” sent 588kWh to the grid, which means we’ve used 87% of what we generated locally – much better than the pre-battery figure of 45%. I suspect we’ve reduced the amount of power we pull from the grid by about 30% too, but I’ll have to wait until we have a full year’s worth of data to be sure.
– by me at the end of Go With The Flow
When I wrote that, I was looking at August 31, 2021 through April 27, 2022, and comparing that to the August 2020 to May 2021 grid power figures from my old Aurora bills. The mistake I must have made back then was to look at “From Grid” on the Consumption view, rather than “From Grid” on the System Overview. I’ve just done this exercise again, and the total grid draw from our Aurora bills from August 2020 to May 2021 is 4,980kWh. “From Grid” on the Consumption view for August 2021 to May 2022 is 3,575kWh, which is about 30% less, but “From Grid” on the System Overview is 4,754kWh, which is only about 5% less. So our loads pulled about 30% less from the grid than the same time the year before, but our system as a whole didn’t.
Now let’s break our ridiculous September-based year down further into months, to see if we can see more detail. I’ve highlighted some interesting periods in bold.
| Month | Grid In | Solar In | Total In | Loads | Export |
|---|---|---|---|---|---|
| Sep 21 (part) | 153 | 101 | 254 | 213 | 6 |
| Oct 21 | 636 | 629 | 1,265 | 988 | 55 |
| Nov 21 | 430 | 747 | 1,177 | 866 | 97 |
| Dec 21 | 232 | 956 | 1,188 | 767 | 176 |
| Jan 22 | 652 | 450 | 1,102 | 822 | 74 |
| Feb 22 | 470 | 430 | 900 | 638 | 83 |
| Mar 22 | 498 | 568 | 1,066 | 813 | 64 |
| Apr 22 | 609 | 377 | 986 | 775 | 27 |
| May 22 | 910 | 238 | 1,148 | 953 | 3 |
| Jun 22 | 1,114 | 161 | 1,275 | 1073 | 2 |
| Jul 22 | 1,163 | 223 | 1,386 | 1118 | 11 |
| Aug 22 | 910 | 375 | 1,285 | 966 | 64 |
| Sep 22 (part) | 754 | 385 | 1,139 | 857 | 92 |
| Total | 8,531 | 5,640 | 14,171 | 10,849 | 754 |
December is great. We generated about 25% more power than our loads use (956/767=1.25), and our grid input was only about 30% of the total of our loads (232/767=0.30).
January and February show the effects of missing three weeks of potential generation. I mean, just look at December through February 2021-2022 versus the previous three summers.
| 2018-2019 | 2019-2020 | 2020-2021 | 2021-2022 | |
|---|---|---|---|---|
| December | 919 | 882 | 767 | 956 |
| January | 936 | 797 | 818 | 450 |
| February | 699 | 656 | 711 | 430 |
June and July are terrible. They’re our highest load months, with the lowest solar generation and we pulled 3-4% more power from the grid than our loads actually consumed. I’m going to attribute the latter largely to grid charging the battery.
If I dig a couple of interesting figures out for June and July I see “To Battery” on the Solar view shows 205kWh, and “From Battery” on the Consumption view shows 558kWh. Total consumption in that period was 2,191kWh, with the total “From Grid” reported in System Overview of 2,277kWh. Let’s mess with that a bit.
Bearing in mind the efficiency numbers mentioned earlier, if 205kWh went to the battery from PV, that means no more than 154kWh of what we got out of the battery was from PV generation (remember: real world DC-DC stack efficiency of about 75%). The remaining 404kWh out of the battery is power that went into it from the grid. And that means at least 538kWh in (404/0.75). Note that total from grid for these two months was 86kWh more than the 2,191kWh used by our loads. If I hadn’t been keeping the battery topped up from the grid, I’d’ve saved at least 134kWh of grid power, which would have brought our grid input figure back down below our consumption figure. Note also that this number will actually be higher in reality because I haven’t factored in AC/DC conversion losses from the Multis.
Now let’s look at some costs. When I started trying to compare the new system to the previous system, I went in thinking to look at in in terms of total power input to the system, total consumption by loads, and total power exported. There’s one piece missing there, so let’s add another couple of columns to an earlier table:
| Year | Grid In | Solar In | Total In | Loads | Export | Total Out | what? |
|---|---|---|---|---|---|---|---|
| 2021-2022 | 8,531 | 5,640 | 14,171 | 10,849 | 754 | 11,603 | 2,568 |
The total usable output of the system was 11,603kWh for 14,171kWh input. The difference between these two figures – 2,568kWh, or about 18% – went somewhere else. Per my earlier experiment, 5% is power that went to actually operate the system components, including the battery. That means about 13% of the power input to the system over the course of the year must have gone to some combination of charge/discharge and AC/DC conversion (in)efficiencies. We can consider this the energy cost of the system. To have the ability to time-shift expensive peak grid electricity, and to run the house without the grid if the sun is out, or from the battery when it has charge, costs us 18% of the total available energy input.
Grid power has energy costs too, but we’re not usually aware of this because it happens somewhere else. I haven’t yet found Tasmanian figures, but this 2021 Transmission Annual Planning Report PDF from Powerlink in Queensland has historical figures showing that about 7% of generation there went to auxiliaries, i.e. fans and pumps and things running at the power stations. And according to the Australian Energy Market Operator (AEMO), 10% of grid power generated is lost during transmission and distribution. Stanwell (a power company in Queensland) have a neat explainer of all this on their What’s Watt site.
Finally, speaking of expensive grid electricity, let’s look at how much we paid Aurora Energy over the past four years for our power. The bills are broken out into different tariffs, for which you’re charged different amounts per kilowatt hour and then there’s an additional daily supply charge, and also credits for power exported. We can simplify that by just taking the total dollar value of all the power bills and dividing that by the total power drawn from the grid to arrive at an effective cost per kilowatt hour for the entire year. Here it is:
| Year | From Grid | Total Bill | Cost/kWh |
|---|---|---|---|
| 2018-2019 | 9,031 | $2,278.33 | $0.25 |
| 2019-2020 | 9,324 | $2,384.79 | $0.26 |
| 2020-2021 | 7,582 | $1,921.77 | $0.25 |
| 2021-2022 | 8,531 | $1,731.40 | $0.20 |
So, the combination of the battery plus the switch from Flat Rate to Peak & Off-Peak billing has reduced the cost of our grid power by about 20%. I call that a win.
Going forwards it will be interesting to see how the next twelve months go, and, in particular, what we can do to reduce our power consumption. A significant portion of our power is used by a bunch of always-on computer equipment. Some of that I need for my work, and some of that provides internet access, file storage and email for us personally. Altogether, according to the UPSes, this kit pulls 200-250 watts continuously, but will pull more than that during the day when it’s being used interactively. If we call it 250W continuous, that’s a minimum of 6kWh/day, which is 2,190kWh/year, or about 20% of the 2021-2022 consumption. Some of that equipment should be replaced with newer, more power efficient kit. Some of it could possibly even be turned off or put into standby mode some of the time.
We still need to get a heat pump to replace the 2400W panel heater in our bedroom. That should save a huge amount of power in winter. We’re also slowly working our way through the house installing excellent double glazed windows from Elite Double Glazing, which will save on power for heating and cooling year round.
And of course, we still need to get that second ZCell.
After upgrading to Ubuntu Jammy and Asterisk 18.10, I saw the following messages in my logs:
WARNING[360166]: loader.c:2487 in load_modules: Module 'chan_sip' has been loaded but was deprecated in Asterisk version 17 and will be removed in Asterisk version 21.
WARNING[360174]: chan_sip.c:35468 in deprecation_notice: chan_sip has no official maintainer and is deprecated. Migration to
WARNING[360174]: chan_sip.c:35469 in deprecation_notice: chan_pjsip is recommended. See guides at the Asterisk Wiki:
WARNING[360174]: chan_sip.c:35470 in deprecation_notice: https://wiki.asterisk.org/wiki/display/AST/Migrating+from+chan_sip+to+res_pjsip
WARNING[360174]: chan_sip.c:35471 in deprecation_notice: https://wiki.asterisk.org/wiki/display/AST/Configuring+res_pjsip
and so I decided it was time to stop postponing the
overdue migration
of my working setup from
chan_sip
to
res_pjsip.
It turns out that it was not as painful as I expected, though the conversion script bundled with Asterisk didn't work for me out of the box.
Before you start, one very important thing to note is that the SIP debug
information you used to see when running this in the asterisk console
(asterisk -r):
sip set debug on
now lives behind this command:
pjsip set logger on
The first thing I migrated was the config for my two SIP phones (Snom 300 and Snom D715).
The original config for them in sip.conf was:
[2000]
; Snom 300
type=friend
qualify=yes
secret=password123
encryption=no
context=full
host=dynamic
nat=no
directmedia=no
mailbox=10@internal
vmexten=707
dtmfmode=rfc2833
call-limit=2
disallow=all
allow=g722
allow=ulaw
[2001]
; Snom D715
type=friend
qualify=yes
secret=password456
encryption=no
context=full
host=dynamic
nat=no
directmedia=yes
mailbox=10@internal
vmexten=707
dtmfmode=rfc2833
call-limit=2
disallow=all
allow=g722
allow=ulaw
and that became the following in pjsip.conf:
[transport-udp]
type = transport
protocol = udp
bind = 0.0.0.0
external_media_address = myasterisk.dyn.example.com
external_signaling_address = myasterisk.dyn.example.com
local_net = 192.168.0.0/255.255.0.0
[2000]
type = aor
max_contacts = 1
[2000]
type = auth
username = 2000
password = password123
[2000]
type = endpoint
context = full
dtmf_mode = rfc4733
disallow = all
allow = g722
allow = ulaw
direct_media = no
mailboxes = 10@internal
auth = 2000
outbound_auth = 2000
aors = 2000
[2001]
type = aor
max_contacts = 1
[2001]
type = auth
username = 2001
password = password456
[2001]
type = endpoint
context = full
dtmf_mode = rfc4733
disallow = all
allow = g722
allow = ulaw
direct_media = yes
mailboxes = 10@internal
auth = 2001
outbound_auth = 2001
aors = 2001
The different direct_media line between the two phones has to do with how
they each connect to my Asterisk
server
and whether or not they have access to the Internet.
For some reason, my internal calls (from one SIP phone to the other) didn't
work when using "aliases". I fixed it by changing this blurb in
extensions.conf from:
[speeddial]
exten => 1000,1,Dial(SIP/2000,20)
exten => 1001,1,Dial(SIP/2001,20)
to:
[speeddial]
exten => 1000,1,Dial(${PJSIP_DIAL_CONTACTS(2000)},20)
exten => 1001,1,Dial(${PJSIP_DIAL_CONTACTS(2001)},20)
I have not yet dug into what this changes or why it's necessary and so feel free to leave a comment if you know more here.
Once I had the internal phones working, I moved to making and receiving phone calls over the PSTN, for which I use VoIP.ms with encryption.
I had to change the following in my sip.conf:
[general]
register => tls://555123_myasterisk:password789@vancouver2.voip.ms
externhost=myasterisk.dyn.example.com
localnet=192.168.0.0/255.255.0.0
tcpenable=yes
tlsenable=yes
tlscertfile=/etc/asterisk/asterisk.cert
tlsprivatekey=/etc/asterisk/asterisk.key
tlscapath=/etc/ssl/certs/
[voipms]
type=peer
host=vancouver2.voip.ms
secret=password789
defaultuser=555123_myasterisk
context=from-voipms
disallow=all
allow=ulaw
allow=g729
insecure=port,invite
canreinvite=no
trustrpid=yes
sendrpid=yes
transport=tls
encryption=yes
to the following in pjsip.conf:
[transport-tls]
type = transport
protocol = tls
bind = 0.0.0.0
external_media_address = myasterisk.dyn.example.com
external_signaling_address = myasterisk.dyn.example.com
local_net = 192.168.0.0/255.255.0.0
cert_file = /etc/asterisk/asterisk.cert
priv_key_file = /etc/asterisk/asterisk.key
ca_list_path = /etc/ssl/certs/
method = tlsv1_2
[voipms]
type = registration
transport = transport-tls
outbound_auth = voipms
client_uri = sip:555123_myasterisk@vancouver2.voip.ms
server_uri = sip:vancouver2.voip.ms
[voipms]
type = auth
password = password789
username = 555123_myasterisk
[voipms]
type = aor
contact = sip:555123_myasterisk@vancouver2.voip.ms
[voipms]
type = identify
endpoint = voipms
match = vancouver2.voip.ms
[voipms]
type = endpoint
context = from-voipms
disallow = all
allow = ulaw
allow = g729
from_user = 555123_myasterisk
trust_id_inbound = yes
media_encryption = sdes
auth = voipms
outbound_auth = voipms
aors = voipms
rtp_symmetric = yes
rewrite_contact = yes
send_rpid = yes
timers = no
The TLS method line is needed since the default in Debian OpenSSL is too
strict. The timers
line is to prevent outbound calls from getting dropped after 15 minutes.
Finally, I changed the Dial() lines in these extensions.conf blurbs from:
[from-voipms]
exten => 5551231000,1,Goto(2000,1)
exten => 2000,1,Dial(SIP/2000&SIP/2001,20)
exten => 2000,n,Goto(in2000-${DIALSTATUS},1)
exten => 2000,n,Hangup
exten => in2000-BUSY,1,VoiceMail(10@internal,su)
exten => in2000-BUSY,n,Hangup
exten => in2000-CONGESTION,1,VoiceMail(10@internal,su)
exten => in2000-CONGESTION,n,Hangup
exten => in2000-CHANUNAVAIL,1,VoiceMail(10@internal,su)
exten => in2000-CHANUNAVAIL,n,Hangup
exten => in2000-NOANSWER,1,VoiceMail(10@internal,su)
exten => in2000-NOANSWER,n,Hangup
exten => _in2000-.,1,Hangup(16)
[pstn-voipms]
exten => _1NXXNXXXXXX,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _1NXXNXXXXXX,n,Dial(SIP/voipms/${EXTEN})
exten => _1NXXNXXXXXX,n,Hangup()
exten => _NXXNXXXXXX,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _NXXNXXXXXX,n,Dial(SIP/voipms/1${EXTEN})
exten => _NXXNXXXXXX,n,Hangup()
exten => _011X.,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _011X.,n,Authenticate(1234)
exten => _011X.,n,Dial(SIP/voipms/${EXTEN})
exten => _011X.,n,Hangup()
exten => _00X.,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _00X.,n,Authenticate(1234)
exten => _00X.,n,Dial(SIP/voipms/${EXTEN})
exten => _00X.,n,Hangup()
to:
[from-voipms]
exten => 5551231000,1,Goto(2000,1)
exten => 2000,1,Dial(PJSIP/2000&PJSIP/2001,20)
exten => 2000,n,Goto(in2000-${DIALSTATUS},1)
exten => 2000,n,Hangup
exten => in2000-BUSY,1,VoiceMail(10@internal,su)
exten => in2000-BUSY,n,Hangup
exten => in2000-CONGESTION,1,VoiceMail(10@internal,su)
exten => in2000-CONGESTION,n,Hangup
exten => in2000-CHANUNAVAIL,1,VoiceMail(10@internal,su)
exten => in2000-CHANUNAVAIL,n,Hangup
exten => in2000-NOANSWER,1,VoiceMail(10@internal,su)
exten => in2000-NOANSWER,n,Hangup
exten => _in2000-.,1,Hangup(16)
[pstn-voipms]
exten => _1NXXNXXXXXX,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _1NXXNXXXXXX,n,Dial(PJSIP/${EXTEN}@voipms)
exten => _1NXXNXXXXXX,n,Hangup()
exten => _NXXNXXXXXX,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _NXXNXXXXXX,n,Dial(PJSIP/1${EXTEN}@voipms)
exten => _NXXNXXXXXX,n,Hangup()
exten => _011X.,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _011X.,n,Authenticate(1234)
exten => _011X.,n,Dial(PJSIP/${EXTEN}@voipms)
exten => _011X.,n,Hangup()
exten => _00X.,1,Set(CALLERID(all)=Francois Marier <5551231000>)
exten => _00X.,n,Authenticate(1234)
exten => _00X.,n,Dial(PJSIP/${EXTEN}@voipms)
exten => _00X.,n,Hangup()
Note that it's not just replacing SIP/ with PJSIP/, but it was also
necessary to use a format supported by
pjsip
for the channel since SIP/trunkname/extension isn't supported by pjsip.
It still generates a little bit of surprise to discover that there are people who use Python on a daily basis that are apparently quite unfamiliar with compiling said code. Or perhaps not; it is, after all, the world's most popular programming language, it has a syntax that's cleaner than many older languages, it has an enormous collection of extensions, and so forth. As a result, there are many people who use Python, but perhaps not so many who have the inquisitiveness and courage, to dive a little deeper. This short article is a deeper dive to understand a little more about the language.
The first common (novice) mistake is that Python is an interpreted language and can't be compiled. It most certainly can and is "compiled", but not in the same way that a compiled language (e.g., C/C++, Fortran, Pascal) is. If this sounds confusing one needs to dig a little into the architecture.
A Python program is compiled before being interpreted, but this step is hidden at the surface level. When Python is executed it generates byte code. This byte code is transformed and interpreted by the Python Virtual Machine which then converts the byte code to binary machine code that the computer processor can output.
A top-level Python source file can be compiled in the following manner:
$ python -m py_compile helloworld.py
Or, with multiple files:
$ python -m py_compile helloworld.py hellosystem.py hellogalaxy.py ...
Running this will generate a __pycache__ that will contain the byte-code (e.g., helloworld.cpython-38.pyc) version of the program. This binary byte-code can be directly invoked (e.g., python3 helloworld.cpython-38.pyc).
The distinction between byte code interpreted by the PVM and machine code is very important, as sometimes people believe (armed with this new information) that because Python can be compiled that this will lead to much faster execution. This is incorrect. A compiled Python script does not run any faster than a non-compiled script. So why would one want to do this?
The short answer is that a program doesn't just run, it must also load its environment and including any other programs, modules, packages, etc that have been imported. If the runtime of a program is quite long then the advantage of compiling a Python program is relatively less, and conversely, a Python program with a short runtime or one that imports a number of additional programs is going to have a more significant advantage. In any case, there will be some performance improvement because all Python programs will be converted to byte code and interpreted by the PVM anyway. The example helloworld.py has an improvement of over 300% in real time, for example. This is not bound by simplicity or length, by the way. For example, a complex mathematical Python program can take a very long time to load, but runtime execution is very quick. Testing, as always, is the best solution.
There are two other advantages to using compiled Python. The first is that the byte code provides some protection against unwanted changes in a shared environment, for example, a careless contributor who in their passion to fix what looks like a bug makes a modification to the source code and breaks the program. Of course, a version control system should be used but even then an additional layer of protection is often worthwhile. The second advantage is that compilation often will result in a significantly smaller file and when coupled with the faster load times, this is particularly useful for websites, embedded environments, and especially when using Python for network programming. Seriously, in such an environment when it's waiting for a trigger it is critical for a fast response; this can be achieved by having the modules like socket, stmplib, base64, etc already loaded.
All silver linings are attached to clouds, however, and compiling Python is no different. The byte code is designed for the particular system architecture it was compiled in and therefore is not exactly transportable to a new system: "different machine, different Python", as the saying goes. Thus distribution will, at the very least, require distributing all the relevant .py files for implementation.
There are, being computing, many further elaborations that one could engage in. For example, I have not discussed the deeper optimisation options for compilation and the pitfalls that could result. Nor have I raised the details of the interpreter and the evaluation loop, or the distinction between implementations at that level (e.g., CPython, Jython, IronPython, PyPy, etc). Finally, perhaps in a simpler direction, I have not discussed the use of the compile() function which converts s specified source as a code object to be executed, such as by eval() or exec(). These will be discussed at another time. In the meantime, if performance matters, you probably should compile your Python code.
The Amiga 1000 is a slick looking machine. It however loads its ROM from floppy disk. The Wikipedia Article on the Amiga 1000 explains why.
I wanted to put a Kickstart 1.3 ROM in my Amiga 1000. There are adapters out there you can build and install. I chose one, followed the instructions, and it didn't work.
After a whole lot of digging I finally got it working and now I'm documenting what hilarity I found.
I started with this one from the amiga community. The PCB manufacturing files are available on PCBWAY as a shared project. So, I got the board made, did the board mods on my Amiga 1000, and set it up. No bueno.
Let's go over the mods first before I explain why it didn't work.
First up, the Amiga 1000 has a pair of small ROMs (lower and upper 8 bits of the data bus) to bootstrap the ROM image from floppy disk, throw it into the write once memory store and then kick it appropriately to take over the ROM memory address range. The ROM address range is $F80000 -> $FFFFFF - a 512KiB region. But, this ROM isn't that big at all.
The schematic calls out what's going on pretty clearly. This is for the early revision Amiga 1000, with the U5N / U5P ROMs populated.
The /OE lines (pin 22) go to /ROM01 on the PALs, which (among other things) enables the ROMs only when the write-once memory store isn't active and we're in the ROM region.
But look at the other bits going on.
First, pin 1 is going to +5 volts, instead of A16. Pin 27 is going to A15 instead of .. the processor R/W pin? Weird. Anyway, let's look at these ROMs.
First confusing thing here - the ROMs addressing starts from A0 to A14. The 68000 bus however doesn't have an A0 - it's A1 to A23, and then there's upper/lower byte select lines. So, this ROM A0 is the CPU bus A1, the ROM A1 is CPU bus A2, etc.
Pin 1 is NC - it'd be ROM A15 on a 64k x 8 ROM. Ie, Amiga/68000 A16. And pin 27 is ROM 14, Amiga/68000 A15. That makes sense.
What's happening with the OTHER /CS line though?
On U5N/U2N, the /CS2 lines in the schematic to go W2 and W5. The intention looks to be whether A16 or A17 acts as a chip select line to enable either the lower or upper set of ROMs. If you wanted 32KiB ROMs then you'd want A16 to be the /CS2 control. If you wanted 64KiB ROMs then you'd want A17 to be the /CS2 control.
In theory, if everything is wired up fine, this means you can fit 256KiB of ROMs by fitting four 64KiB ROMs and jumpering things appropriately. You'd want:
You can see where you need to cut W1, W2, W3, W4 (and W5, but I didn't) to turn it into a selectable jumper set.
So, I buzzed out both the ROM board and the Amiga 1000 board to see what was going on. And what I found was ... pretty amusing. I removed all four jumpers and:
I’m torn about this book — the premise is interesting, the world is novel, and the book is well written. The book has a strong environmental theme, with a focus on the environmental impact of Chinese economic development during Mao’s cultural revolution.
However, despite all that the book didn’t “grab” me. I think perhaps its because there is a lot of effort spent describing things which ultimately don’t really matter — like weather or not the desktop PC being used by one of the characters is the current model or not. Or perhaps its because I didn’t actually like any of the characters — none of them is what I would call a nice person. Or perhaps this is an artifact of the book having been translated from Chinese, and perhaps different stylisting expectations or some such?
Either way, I don’t think I’ll finish this trilogy.
1967: Ye Wenjie witnesses Red Guards beat her father to death during China's Cultural Revolution. This singular event will shape not only the rest of her life but also the future of mankind. Four decades later, Beijing police ask nanotech engineer Wang Miao to infiltrate a secretive cabal of scientists after a spate of inexplicable suicides. Wang's investigation will lead him to a mysterious online game and immerse him in a virtual world ruled by the intractable and unpredicatable interaction of its three suns. This is the Three-Body Problem and it is the key to everything: the key to the scientists' deaths, the key to a conspiracy that spans light-years and the key to the extinction-level threat humanity now faces.
August’s OSS work landed one of the last big Hanami features, saw another Hanami release out the door, began some thinking about memory usage, and kicked off a fun little personal initiative. Let’s dive in!
At the beginning of the month I merged support for conditional slice loading in Hanami. I’d wanted this feature for a long time, and in fact I’d hacked in workarounds to achieve the same more than 2 years ago, so I was very pleased to finally get this done, and for the implementation work to be as smooth as it was.
The feature provides a new config.slices setting on your app class, which you can configure like so:
module MyApp
class App < Hanami::App
config.slices = %w[admin]
end
end
For an app consisting of both Admin and Main slices and for the config above, when the app is booted, only the Admin slice will be loaded:
require "hanami/prepare"
Hanami.app.slices.keys # => [:admin]
Admin::Slice # exists, as expected
Main # raises NameError, since it was never loaded
As we see from Main above, slices absent from this list will not have their namespace defined, nor their slice class loaded, nor any of their Ruby source files. Within that Ruby process, they effectively do not exist.
Specifying slices to load can be very helpful to improve boot time and minimize memory usage for specific deployed workloads of your app.
Imagine you have a subset of background jobs that run via a dedicated job runner, but whose logic is otherwise unneeded for the rest of your app to function. In this case, you could organize those jobs into their own slice, and then load only that slice for the job runner’s process. This arrangement would see the job runner boot as quickly as possible (no extraneous code to load) as well as save all the memory otherwise needed by all those classes. You could also do the invserse for your main deployed process: specify all slices except this jobs slice, and you gain savings there too.
Organising code into slices to promote operational efficiency like this also gives you the benefit of greater clarity in the separation of responsibilities between those slices: when a single slice of code is loaded and the rest of your app is made to disappear, that will quickly surface any insidious dependencies from that slice to the rest of your code (they’ll be raised as exceptions!). Cleaning these up will help ensure your slices remain useful as abstractions for reasoning about and maintaining your app.
To make it easy to tune the list of slices to load, I also introduced a new HANAMI_SLICES env var that sets this config without you having to write code inside your app class. In this way, you could use them in your Procfile or other similar deployment code:
web: HANAMI_SLICES=main,admin bundle exec puma -C config/puma.rb
feed_worker: HANAMI_SLICES=feed bundle exec rake jobs:work
This effort was also another example of why I’m so happy to be working alongside the Hanami core team. After initially proposing a more complex arrangement including separate lists for including or excluding slices, Luca jumped in and help me dial this back to the much simpler arrangement of the single list only. For an Hanami release in which we’re going to be introducing so many new ideas, the more we can keep simple around them, the better, and I’m glad to have people who can remind me of this.
Our action and view integration code relies on their classes detecting when they’re defined inside a slice’s namespace, then applying relevant config from the slice to their own class-level config object. It turned out our code for doing this broke a little when we adjusted our default class hierarchies. Thanks to some of our wonderful early adopters, we picked this up quickly and I fixed it. Now things just work like you expect however you choose to configure your action classes, whether through the app-level config.actions object, or by directly updating config in a base action class.
In doing this work, I became convinced we need an API on dry-configurable to determine whether any config value has been assigned or mutated by the user, since it would help so much in reliably detecting whether or not we should ignore config values at particular levels. For now, we could work around it, but I hope to bring this to dry-configurable at some point in the future.
Another month passed, so it was time for another release! With my European colleagues mostly enjoying some breaks over their summer, I hunkered down in chilly Canberra and took care of the 2.0.0.beta2 release. Along with the improvements above, this release also included slice and action generators (hanami generate slice and hanami generate action, thank you Luca!), plus a very handle CLI middlewares inspector (thank you Marc!):
$ hanami middlewares
/ Dry::Monitor::Rack::Middleware (instance)
/ Rack::Session::Cookie
The list of things to do over the beta phase is getting smaller. I don’t expect we’ll need too many more of these releases!
As the final 2.0 release gets closer, we’ve been doing various performance tests just to make sure the house is in order. One thing we discovered is that Hanami::Action is not as memory efficient as we’d like it to be. One of the biggest opportunities to improve this looked to be in dry-configurable, since that’s what is used to manage the per-class action configuration.
I suspected any effort here would turn out to be involved (and no surprise, it turned out to be involved 😆), so I thought it would be useful as a first step to establish a memory benchmark to revisit over the course of any work. This was also a great way to get my head in this space, which turned out to take over most of my September (but more on that next month).
Decaf Sucks was once a thriving little independent online café review community, with its own web site (starting from humble beginnings as a Rails Rumble entry in 2009) and even native iOS app (two iterations, in fact).
I was immensitely proud of what Decaf Sucks became, and for the collaboration with Max Wheeler in building it.
Unfortunately, as various internet APIs changed, the site atrophied, eventually became disfunctional, and we had to take it down. I still have the database, however, and I want to bring it back!
This time around, my plan is to do it as a fully open source Hanami 2 example application. Max is even on board to bring back all the UI goodness. For now, you can follow along with the early steps on GitHub. Right now the app is little more than the basic Hanami skeleton with added database integration and a CI setup (Hello Buildkite!), but I plan to grow it bit by bit. Perhaps I’ll try to have something small that I can share with each of these monthly OSS updates.
After Hanami 2 ships, hopefully this will serve as a useful resource for people wanting to see how it plays out in a real working app. And beyond that, I look forward to it serving once again as a place for me to commemorate my coffee travels!
My team at SUSE is working on a new S3-compatible storage solution for Kubernetes, based on Ceph’s RADOS Gateway (RGW), except without any of the RADOS bits. The idea is that you can deploy our s3gw container on top of Longhorn (which provides the underlying replicated storage), and all this is running in your Kubernetes cluster, along with your applications which thus have convenient access to a local S3-compatible object store.
We’ve done this by adding a new storage backend to RGW. The approach we’ve taken is to use SQLite for metadata, with object data stored as files in a regular filesystem. This works quite neatly in a Kubernetes cluster with Longhorn, because Longhorn can provide a persistent volume (think: an ext4 filesystem), on which s3gw can store its SQLite database and object data files. If you’d like to kick the tyres, check out Giuseppe’s deployment tutorial for the 0.2.0 release, but bear in mind that as I’m writing this we’re all the way up to 0.4.0 so some details may have changed.
While s3gw on Longhorn on Kubernetes remains our primary focus for this project, the fact that this thing only needs a filesystem for backing storage means it can be run on top of just about anything. Given “just about anything” includes an old school two node Pacemaker cluster with DRBD for replicated storage, why not give that a try? I kinda like the idea of a good solid highly available S3-compatible storage solution that you could shove into the bottom of a rack somewhere without too much difficulty.
It’s probably eight years since I last deployed Pacemaker and DRBD, so to refresh my memory I ran with SUSE’s latest Highly Available NFS Storage with DRBD and Pacemaker document, but skipped all the NFS bits. That gives a filesystem mounted on one node, which will fail over to the other node if something breaks. On top of that, we need to run the s3gw container, the s3gw-ui container, an nginx HTTPS reverse proxy to smoosh those two together, and a virtual/floating IP, so the whole lot is accessible to the outside world.
Here’s the interesting parts of my Pacemaker configuration:
# crm configure show
[...]
primitive drbd_s3 ocf:linbit:drbd \
params drbd_resource=s3 drbdconf="/etc/drbd.conf" \
op monitor interval=29s role=Master \
op monitor interval=31s role=Slave
primitive fs_s3 Filesystem \
params device="/dev/drbd0" directory="/data" fstype=ext4 \
meta target-role=Started \
op start timeout=60s interval=0 \
op stop timeout=60s interval=0 \
op monitor interval=20s timeout=40s
primitive https nginx \
op start timeout=40s interval=0 \
op stop timeout=60s interval=0 \
op monitor timeout=30s interval=10s \
op monitor timeout=30s interval=30s \
op monitor timeout=60s interval=20s
primitive s3-ip IPaddr2 \
params ip=192.168.100.50 \
op monitor interval=10 timeout=20
primitive s3gw podman \
params image="ghcr.io/aquarist-labs/s3gw:latest" run_opts="-p 7480:7480 -v/data:/data" \
op start interval=0 timeout=90s \
op stop interval=0 timeout=90s \
op monitor interval=30s timeout=30s
primitive s3gw-ui podman \
params image="ghcr.io/aquarist-labs/s3gw-ui:latest" run_opts="-p 8080:8080 -e RGW_SERVICE_URL=https://s3gw.sleha.test" \
op start interval=0 timeout=90s \
op stop interval=0 timeout=90s \
op monitor interval=30s timeout=30s
group g-s3 fs_s3 s3gw s3gw-ui https s3-ip
ms ms-drbd_s3 drbd_s3 \
meta master-max=1 master-node-max=1 clone-max=2 clone-node-max=1 notify=true
colocation col-s3_on_drbd inf: g-s3 ms-drbd_s3:Promoted
order o-drbd_before_fs Mandatory: ms-drbd_s3:promote g-s3:start
[...]The g-s3 group ensures that the ext4 filesystem (fs_s3), s3gw container (s3gw), s3gw-ui container (s3gw-ui), nginx instance (https) and virtual IP (s3-ip) all run on the same node, and start one after another. The colocation and ordering constraints ensure that g-s3 runs on whichever node is currently the DRBD (ms-drbd_s3) primary.
The important pieces of glue here are:
/dev/drbd0 on /data-p 7480:7480 -v/data:/data to podman, so the container can write to /data on the host, and the S3 service is accessible via HTTP on port 7480.-p 8080:8080 -e RGW_SERVICE_URL=https://s3gw.sleha.test to podman, so the UI is accessible via HTTP on port 8080, and it expects the S3 service to be externally available via https://s3gw.sleha.test.openssl req -x509 -nodes -days 365 -newkey rsa:2048 -keyout cert.key -out cert.pem) for s3gw and s3gw-ui, so I had to go visit both https://s3gw.sleha.test and https://s3gw-ui.sleha.test in my browser and accept the SSL certificate before the UI would work.Here’s my /etc/nginx/nginx.conf. I’m not entirely convinced I’ve got everything 100% right here, but it seems to work (this is, incredibly, my first time doing anything with nginx, and my first time dealing with CORS):
worker_processes 1;
events {
worker_connections 1024;
use epoll;
}
http {
include mime.types;
default_type application/octet-stream;
sendfile on;
keepalive_timeout 65;
server {
listen 80;
return 301 https://$host$request_uri;
}
server {
listen 443 ssl;
server_name s3gw.sleha.test;
access_log /var/log/nginx/s3gw.access.log;
location / {
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
add_header Access-Control-Allow-Origin 'https://s3gw-ui.sleha.test';
add_header Access-Control-Allow-Methods 'GET,HEAD,PUT,POST,DELETE';
add_header Access-Control-Allow-Headers '*';
add_header 'Access-Control-Allow-Credentials' 'true';
if ($request_method = 'OPTIONS') {
add_header Access-Control-Allow-Origin 'https://s3gw-ui.sleha.test';
add_header Access-Control-Allow-Methods 'GET,HEAD,PUT,POST,DELETE';
add_header Access-Control-Allow-Headers '*';
add_header 'Access-Control-Allow-Credentials' 'true';
add_header 'Content-Type' 'text/plain charset=UTF-8';
add_header 'Content-Length' 0;
return 204;
}
proxy_pass http://localhost:7480;
proxy_read_timeout 90;
proxy_redirect http://localhost:7480 https://s3gw.sleha.test;
}
ssl_certificate cert.pem;
ssl_certificate_key cert.key;
ssl_protocols TLSv1.2;
ssl_session_cache shared:SSL:1m;
ssl_session_timeout 5m;
ssl_ciphers HIGH:!aNULL:!MD5;
ssl_prefer_server_ciphers on;
}
server {
listen 443 ssl;
server_name s3gw-ui.sleha.test;
access_log /var/log/nginx/s3gw-ui.access.log;
location / {
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
proxy_pass http://localhost:8080;
proxy_read_timeout 90;
proxy_redirect http://localhost:8080 https://s3gw-ui.sleha.test;
}
ssl_certificate cert-ui.pem;
ssl_certificate_key cert-ui.key;
ssl_protocols TLSv1.2;
ssl_session_cache shared:SSL:1m;
ssl_session_timeout 5m;
ssl_ciphers HIGH:!aNULL:!MD5;
ssl_prefer_server_ciphers on;
}
}A couple of important points about Pacemaker’s support for running containers with podman:
podman pull ghcr.io/aquarist-labs/s3gw ; podman pull ghcr.io/aquarist-labs/s3gw-ui) before you can run them, because by default the podman resource agent won’t do it for you. There is an option (allow_pull) which you could turn on, but doing so “can drastically increase the time required to start the container if the image repository is pulled over the network“. This sounds like a bad idea to me.podman exec $CONTAINER /bin/true, but that really only proves that the container is alive. You can override that command with something else, but it’s apparently better to engineer your container to die quickly and well if something goes wrong.So what was the end result? TL;DR: It pretty much All Just WorkedTM, which is exactly what you’d hope for when running a new application on a mature HA stack. I can use s3cmd to mess around with the S3 service, and use my web browser to play with the UI. Failover is nice and quick (think: a few seconds) if I kill a node. For the sake of convenience I did this experiment on a couple of VMs using the external/libvirt STONITH plugin, but I don’t expect a real deployment to be hugely different in behaviour. Also, I’d forgotten how good Pacemaker is at highlighting poorly behaved applications – prior to this experiment the s3gw-ui container didn’t stop well, but we weren’t aware of that until I tried a manual failover which took too long and resulted in an unexpected STONITH due to a stop timeout. Moritz has since fixed that.
One thing I tripped over when doing this deployment was the correct values to use for the access_key and secret_key of the default user when talking to the S3 service. These are actually settable for the s3gw container via the RGW_DEFAULT_USER_ACCESS_KEY and RGW_DEFAULT_USER_SECRET_KEY environment variables, but if left unset, they default to “test” and “test” respectively. The interesting bits of my s3cmd.cfg are thus:
access_key = test
secret_key = test
host_base = https://s3gw.sleha.test/
host_bucket = htts://s3gw.sleha.test/%(bucket)
In retrospect I probably should have added -e RGW_DEFAULT_USER_ACCESS_KEY=tserong -e RGW_DEFAULT_USER_SECRET_KEY=do_not_tell_anyone_this_is_your_password to the run_opts parameter of the s3gw resource in the Pacemaker config.
So last night Shaken Fist CI jobs started failing with errors like this (editted lightly for clarity):
Building wheels for collected packages: shakenfist-ci
Building wheel for shakenfist-ci (setup.py): started
Building wheel for shakenfist-ci (setup.py): finished with status 'error'
error: subprocess-exited-with-error
× python setup.py bdist_wheel did not run successfully.
│ exit code: 1
╰─> [86 lines of output]
...
...setuptools/command/install.py:37: SetuptoolsDeprecationWarning: setup.py install is deprecated. Use build and pip and other standards-based tools.
setuptools.SetuptoolsDeprecationWarning,
installing to build/bdist.linux-x86_64/wheel
running install
...
warning: install_lib: byte-compiling is disabled, skipping.
running install_egg_info
Copying shakenfist_ci.egg-info to build/bdist.linux-x86_64/wheel/shakenfist_ci-0.0.1.dev2544-py3.7.egg-info
running install_scripts
error: invalid command 'bdist_wininst'
[end of output]This was pretty concerning. I know that a setup.py / setup.cfg style install is a little old school, but it was unexpected that it broke entirely. At first I thought I’d have to convert to poetry to unblock this, but Chet helpfully pointed out that this is as simple as adding a pyproject.toml file to the directory which contains your setup.py and setup.cfg. The basic issue is that a modern pip doesn’t assume that you’re going to use setuptools, so you need to tell it that you’re doing that in pyproject.toml. Then you’re unblocked.
So, just create a file named pyproject.toml in the setup.py / setup.cfg directory which contains this:
[build-system]
requires = ["setuptools >= 40.6.0", "wheel"]
build-backend = "setuptools.build_meta"And you’re good to go. If you’re really curious, this page was quite helpful in working out what was happening.
The Second World Wars: How the First Global Conflict Was Fought and Won by Victor Davis Hanson
Compares the Allied and Axis powers in just about every aspect one by one and in the majority find the Allies ahead. Strongly recommend to those interested in WW2. 5/5
The Man with the Golden Gun by Ian Fleming
The final Bond novel by Fleming. Bond investigates gangsters and spies in Jamaica. Readable but not the best in the series. 3/5
The Hammer of God by Arthur C. Clarke
A Hard Core SciFi story set in the year 2109 involving an asteroid threatening to hit earth and the life of captain of the ship sent to stop it. Fans of Clarke and similar authors will enjoy 3/5
More Money Than God: Hedge Funds and the Making of the New Elite by Sebastian Mallaby
A history of Hedge Funds in the US up to just after the 2008 crash. Profiles of people and companies at each stage. Interesting and easy to follow. 3/5
My Audiobook Scoring System
So, as of today by Shaken Fist CI jobs for Debian 10 are failing to install bcrypt, with an error that looks like this:
Running setup.py install for bcrypt: started
Running setup.py install for bcrypt: finished with status 'error'
[ ... snip ... ]
running build_rust
=============================DEBUG ASSISTANCE=============================
If you are seeing a compilation error please try the following steps to
successfully install bcrypt:
1) Upgrade to the latest pip and try again. This will fix errors for most
users. See: https://pip.pypa.io/en/stable/installing/#upgrading-pip
2) Ensure you have a recent Rust toolchain installed. bcrypt requires
rustc >= 1.56.0.
Python: 3.7.3
platform: Linux-4.19.0-21-amd64-x86_64-with-debian-10.12
pip: 18.1
setuptools: 65.2.0
setuptools_rust: 1.5.1
rustc: n/a
=============================DEBUG ASSISTANCE=============================I’m not really interested in debating why installing a python package requires a rust compiler, that has been dicussed elsewhere.
This specific breakage has been caused by bcrypt releasing 4.0.0, which has this in the changelog: “bcrypt is now implemented in Rust. Users building from source will need to have a Rust compiler available. Nothing will change for users downloading wheels.”
Unfortunately, you can’t just install rustc with apt, as it is both quite bit (350mb), and too old (version 1.41.1 versus the required 1.56.0 or better). I also couldn’t find an Ubuntu PPA to misuse to get a more recent rustc.
Another answer here is to use rustup, which is yet another curl to a root shell installer, which isn’t a satisfying answer to me. The other option is of course just to pin bcrypt to pre 4.0.0, but I’d have to do that on every distribution, not just Debian 10 as best as I can tell.
Update: and then I re-read the ChangeLog. It turns out that pip wasn’t offering me wheels because the version of pip was too old. As long as you’re ok with not using an official Debian packaged version of pip, you can do this to get unstuck:
# pip3 install -U pip
# apt-get remove python3-pip
# /usr/local/bin/pip3 install -v bcrypt==4.0.0First of all, I am starting from a working Streamzap remote in Kodi. If VLC is the first application you are setting up with the Streamzap remote then you will probably need to read the above blog post first.
Once you know you have a working remote, put the following lircrc
config
into /home/pi/.lircrc:
begin
prog = vlc
button = KEY_PLAY
config = key-play
end
begin
prog = vlc
button = KEY_PAUSE
config = key-pause
end
begin
prog = vlc
button = KEY_STOP
config = key-stop
end
begin
prog = vlc
button = KEY_POWER
config = key-quit
end
begin
prog = vlc
button = KEY_NEXT
config = key-next
end
begin
prog = vlc
button = KEY_PREVIOUS
config = key-prev
end
begin
prog = vlc
button = KEY_RED
config = key-toggle-fullscreen
end
begin
prog = vlc
button = KEY_REWIND
config = key-slower
end
begin
prog = vlc
button = KEY_FORWARD
config = key-faster
end
begin
prog = vlc
button = KEY_VOLUMEDOWN
config = key-vol-down
end
begin
prog = vlc
button = KEY_VOLUMEUP
config = key-vol-up
end
begin
prog = vlc
button = KEY_BLUE
config = key-audio-track
end
begin
prog = vlc
button = KEY_MUTE
config = key-vol-mute
end
begin
prog = vlc
button = KEY_LEFT
config = key-nav-left
end
begin
prog = vlc
button = KEY_DOWN
config = key-nav-down
end
begin
prog = vlc
button = KEY_UP
config = key-nav-up
end
begin
prog = vlc
button = KEY_RIGHT
config = key-nav-right
end
begin
prog = vlc
button = KEY_MENU
config = key-nav-activate
end
begin
prog = vlc
button = KEY_GREEN
config = key-subtitle-track
end
and then after starting VLC:
Now you should see lirc in the text box at the bottom of Control
Interfaces and the following in your ~/.config/vlc/vlcrc:
[core]
control=lirc
If you're looking to customize the above key mapping, you can find
the VLC key codes in the output of vlc -H --extended | grep -- --key-.
As part of debugging an upstream connection problem I've been seeing recently, I wanted to be able to monitor the logs from my Turris Omnia router. Here's how I configured it to send its logs to a server I already had on the local network.
The first thing I did was to open up my server's rsyslog (Debian's default syslog server) to remote connections since it's going to be the destination host for the router's log messages.
I added the following to /etc/rsyslog.d/router.conf:
module(load="imtcp")
input(type="imtcp" port="514")
if $fromhost-ip == '192.168.1.1' then {
if $syslogseverity <= 5 then {
action(type="omfile" file="/var/log/router.log")
}
stop
}
This is using the latest rsyslog configuration method: a handy scripting
language called
RainerScript.
Severity level 5
maps to "notice" which consists of unusual non-error conditions, and
192.168.1.1 is of course the IP address of the router on the LAN side.
With this, I'm directing all router log messages to a separate file,
filtering out anything less important than severity 5.
In order for rsyslog to pick up this new configuration file, I restarted it:
systemctl restart rsyslog.service
and checked that it was running correctly (e.g. no syntax errors in the new config file) using:
systemctl status rsyslog.service
Since I added a new log file, I also setup log rotation for it by putting
the following in /etc/logrotate.d/router:
/var/log/router.log
{
rotate 4
weekly
missingok
notifempty
compress
delaycompress
sharedscripts
postrotate
/usr/lib/rsyslog/rsyslog-rotate
endscript
}
In addition, since I use
logcheck to monitor my server
logs and email me errors, I had to add /var/log/router.log to
/etc/logcheck/logcheck.logfiles.
Finally I opened the rsyslog port to the router in my server's firewall by
adding the following to /etc/network/iptables.up.rules:
# Allow logs from the router
-A INPUT -s 192.168.1.1 -p tcp --dport 514 -j ACCEPT
and ran iptables-apply.
With all of this in place, it was time to get the router to send messages.
As suggested on the Turris
forum, I
ssh'ed into my router and added this in /etc/syslog-ng.d/remote.conf:
destination d_loghost {
network("192.168.1.200" time-zone("America/Vancouver"));
};
source dns {
file("/var/log/resolver");
};
log {
source(src);
source(net);
source(kernel);
source(dns);
destination(d_loghost);
};
Setting the timezone to the same as my server was needed because the router messages were otherwise sent with UTC timestamps.
To ensure that the destination host always gets the same IP address
(192.168.1.200), I went to the advanced DHCP configuration
page and added a
static lease for the server's MAC address so that it always gets assigned
192.168.1.200. If that wasn't already the server's IP address, you'll have
to restart it for this to take effect.
Finally, I restarted the syslog-ng daemon on the router to pick up the new config file:
/etc/init.d/syslog-ng restart
In order to test this configuration, I opened three terminal windows:
tail -f /var/log/syslog on the servertail -f /var/log/router.log on the servertail -f /var/log/messages on the routerI immediately started to see messages from the router in the third window
and some of these, not all because of my severity-5 filter, were flowing to
the second window as well. Also important is that none of the messages make
it to the first window, otherwise log messages from the router would be mixed
in with the server's own logs. That's the purpose of the stop command in
/etc/rsyslog.d/router.conf.
To force a log messages to be emitted by the router, simply ssh into it and issue the following command:
logger Test
It should show up in the second and third windows immediately if you've got everything setup correctly
If I do the following on my router:
/etc/init.d/syslog-ng restart logger TestA
I see the following in /var/log/messages:
Aug 14 20:39:35 hostname syslog-ng[9860]: syslog-ng shutting down; version='3.37.1' Aug 14 20:39:36 hostname syslog-ng[10024]: syslog-ng starting up; version='3.37.1' Aug 15 03:39:49 hostname root: TestA
The correct timezone is the one in the first two lines. Other daemon
messages are displayed using an incorrect timezone like logger.
Thanks to a very helpful syslog-ng mailing list thread, I found that this is actually an upstream OpenWRT bug.
My favourite work-around is to tell syslog-ng to simply ignore the timestamp
provided by the application and to use the time of reception (of the log
message) instead. To do this, simply change the following in
/etc/syslog-ng.conf:
source src {
internal();
unix-dgram("/dev/log");
};
to:
source src {
internal();
unix-dgram("/dev/log", keep-timestamp(no));
};
Unfortunately, I wasn't able to fix it in a way that would survive a
syslog-ng package update, but since this is supposedly fixed in Turris 6.0,
it shouldn't be a problem for much longer.
The Library: A Fragile History by Andrew Pettegree and Arthur der Weduwen
A general history of the library. Main problems are a bit verbose and skipping Asia but enough to keep my interest. 3/5
Noise: A Flaw in Human Judgement by Daniel Kahneman
Wasn’t able to finish this. Just kept repeating the same thing over and over again. Forgot the “Pop” in “Popular social science”. Just read a summary like the linked Guardian review. 2/5
Who Can Hold the Sea: The U.S. Navy in the Cold War 1945-1960 by James D. Hornfischer
What it says on the description. Covering Nuclear power and weapons, the Revolt of the Admirals the early Cold war and Korea. 3/5
Inside the Star Wars Empire: A Memoir by Bill Kimberlin
Some ILM stories but less than what some people might expect and mixed in with other things. Definitely not film-by-film coverage. But still fun. 3/5
Eccentric Orbits: The Iridium Story by John Bloom
Story of the Space-based phone system. The books concentrates on the complex deals to save it after it’s original failure and Motorola’s plan to de-orbit it. 3/5
The Accidental Scientist: The Role of Chance and Luck in Scientific Discovery by Graeme Donald
A short book of short chapters covering various stories of scientific discovery. Fun Breezy read. 3/5
My Audiobook Scoring System
Hi there friends, it’s certainly been a while, and a lot has happened across May, June and July: I left my job, took some time off, and started a new job. I also managed to get a good deal of open source work done, so let’s take a look at that!
Since we’d skipped a month in our releases, I helped get Hanami 2.0.0.alpha8 out the door in May. The biggest change here was that we’d finished relocating the action and view integration code into the hanami gem itself, wrapped up in distinct “application� classes, like Hanami::Application::Action. In the end, this particular naming scheme turned out to be somewhat short lived! Read on for more :)
As part of an effort to make it easy to use our conventional view “helpers� in all parts of our view layer, I resurrected my work from September 2020(!) on using dry-effects within hanami-view. The idea here was to achieve two things:
#locals from within the context, which might help make our helpers feel a little more streamlined through implicit access to those localsI got both of those working (here’s my work in progress), but I discovered the performance had worsened due to the cost of using an effect to access the locals. I took a few extra passes at this, reducing the number of effects to one, and memoziing it, leaving us with improved performance over the main branch, but with a slightly different stance: the single effect is for accessing the context object only, so any helpers, instead of expecting access to locals, will instead only have access to that context. The job from here will be to make sure that the context object we build for Hanami’s views has everything we need for an ergonomic experience working with our helpers. I’m feeling positive about the direction here, but it’ll be a little while before I get back to it. Read on for more on this (again!).
The biggest thing I did over this period was to unify Hanami’s Application and Slice. This one took some doing, and I was glad that I had a solid stretch of time to work on it between jobs.
I already wrote about this back in April’s update, noting that I’d settled on the approach of having a composed slice inside the Hanami::Application class to providing slice-like functionality at the application level. This was the approach I continued with, and as I went, I was able to move more and more functionality out of Hanami::Application and into Hanami::Slice, with that composed “application slice� being the thing that preserved the existing application behaviour. At some point, a pattern emerged: the application is a slice, and we could achieve everything we wanted (and more) by turning class Hanami::Application into class Hanami::Application < Hanami::Slice.
Turning the application into a slice sublcass is indeed how I finished the work, and I’m extremely pleased with how it turned out. It’s made slices so much more powerful. Now, each slice can have its own config, its own dedicated settings and routes, can be run on its own as a Rack application, and can even have its own set of child slices.
As a user of Hanami you won’t be required to use all of this per-slice power features, but they’ll be there if or when you want them. This is a great example of progressive disclosure, a principle I follow as much as possible when designing Hanami’s features: a user should be able to work with Hanami in a simple, straightforward way, and then as their needs grow, they can then find additional capabilities waiting to serve them.
Let’s explore this with a concrete example. If you’re building a simple Hanami app, you can start with a single top-level config/settings.rb that defines all of the app’s own settings. This settings object is made available as a "settings" component registration in both the app as well as all its slices. As the app grows and you add a slice or two, you start to add more slice-specific settings to this component. At this point you start to feel a little uncomfortable that settings specific to SliceA are also available inside SliceB and elsewhere. So you wonder, could you go into slices/slice_a/ and drop a dedicated config/settings.rb there? The answer to that is now yes! Create a config/settings.rb inside any slice directory and it will now become a dedicated settings component for that slice alone. This isn’t a detail you had to burden yourself with in order to get started, but it was ready for you when you needed it.
Another big benefit of this code reorganisation is that the particular responsibilities of Hanami::Application are much clearer: its job is to provide the single entrypoint to the app and coordinate the overall boot process; everything else comes as part of it also being a slice. This distinction is made clear through the number of public methods that exist across the two classes: Application now has only 2 distinct public methods, whereas Slice currently brings 27.
There’s plenty more detail over in the pull request: go check it out!
The work here also led to changes across the ecosystem:
"application." as before), we needed to make that possible in dry-system."settings" in the example above), we also needed to make dry-system prefer local components when importing.Container#merge via a block parameter.This is one the reasons I’m excited about Hanami’s use of the dry-rb gems: it’s pushing them in directions no one has had to take them before. The result is not only the streamlined experience we want for Hanami, but also vastly more powerful underpinnings.
While I had my head down working on internal changes like the above, Luca had been thinking about Hanami 2 adoption and the first run user experience. As we had opted for a slices-only approach for the duration of our alpha releases, it meant a fairly bulky overall app structure: every slice came with multiple deeply nested files. This might be overwhelming to new users, as well as feeling like overkill for apps that are intended to start small and stay small.
To this end, we agreed upon a stripped back starter structure. Here’s how it looks at its core (ignoring tests and other general Ruby files):
├── app/
│ ├── action.rb
│ └── actions/
├── config/
│ ├── app.rb
│ ├── routes.rb
│ └── settings.rb
├── config.ru
└── lib/
├── my_app/
│ └── types.rb
└── tasks/
That’s it! Much more lightweight. This approach takes advantage of the Hanami app itself becoming a fully-featured slice, with app/ now as its source directory.
In fact, I took this opportunity to unify the code loading rules for both the app and slices, which makes for a much more intuitive experience. You can now drop any ruby source file into app/ or a slices/[slice_name]/ slice dir and it will be loaded in the same way: starting at the root of each directory, classes defined therein are expected to inhabit the namespace that the app or slice represents, so app/some_class.rb would be MyApp::SomeClass and slices/my_slice/some_class would be MySlice::SomeClass. Hat tip to me of September 2021 for implementing the dry-system namespaces feature that enabled this! 😜
(Yet another little dry-system tweak came out of preparing this too, with Component#file_name now exposed for auto-registration rules).
This new initial structure for starter Hanami 2.0 apps is another example of progressive disclosure in our design. You can start with a simple all-in-one approach, everything inside an app/ directory, and then as various distinct concerns present themselves, you can extract them into dedicated slices as required.
Along with this, some of our names have become shorter! Yes, “application� has become “app� (and Hanami::Application has become Hanami::App, and so on). These shorter names are easier to type, as well as more reflective of the words we tend to use when verbally describing these structures.
We also tweaked our actions and views integration code so that it is automatically available when you inherit directly from Hanami::Action, so it will no longer be necessary to have the verbose Hanami::Application::Action as the superclass for the app’s actions. We also ditched that namespace for both routes and settings too, so now you can just inherit from Hanami::Settings and the like.
Any of you following my updates would know by now that the Hanami 2.0 release has been a long time coming. We have ambitious goals, we’re doing our best, and everything is slowly coming together. But as hard as it might’ve been for folks who’re waiting, it’s been doubly so for us, feeling the weight of both the work along with everyone’s expectations.
So to make sure we can focus our efforts and get something out the door sooner rather than later, we decided to stagger our 2.0 release. We’ll start off with an initial 2.0 release centred around hanami, hanami-cli, hanami-controller, and hanami-router (enough to write some very useful API applications, for example), then follow up with a “full stack� 2.1 release including database persistence, views, helpers, assets and everything else.
I’m already feeling empowered by this strategy: 2.0 feels actually achievable now! And all of the other release-related work like updated docs and a migration guide will become correspondingly easier too.
With greater release clarity as well as all the above improvements under our belt, it was time to usher in a new phase of Hanami 2.0 development, so we released 2.0.0.beta1 in July! This new version suffix represents just how close we feel we are to our final vision for 2.0. This is an exciting moment!
This update is getting rather long, so let me list a bunch of other Hanami improvements I managed to get done:
.env file loading is now a much clearer step upon subclassing Hanami::App, rather than it being a side effect of loading the settings. This is useful in case you want to directly access the ENV for any other purpose..prepare_container escape hatch allowing for last-minute manual adjustments to a slice’s internal dry-system container is now run after all possible framework setup has been appliedLoadError, we now ensure we don’t swallow any unintended errorsOutside my Hanami development, a new job and a new computer meant I also took the change to reboot my dotfiles, which are now powered by chezmoi. I can’t speak highly enough of chezmoi, it’s an extremely powerful tool and I’m loving the flexibility it affords!
That’s it from me for now. I’ll come back to you all in another month!
The past few days I've been quite influenced by a short essay by Brianna Wiest, which starts with quite a kicker: "It is the hardest thing you will ever have to do, and it will also be the most important: stop giving your love to those who aren’t ready to love you. Stop having hard conversations with people who don't want to change." Ultimately, this is arguing for equality in all relationships. Equality is not a matter of capability or social position. Everyone is unequal in some regard; some people are stronger, some people are smarter, some people know more, some people are richer or have higher status, etc. Individual differences and capabilities are inevitable. Social differences, especially systemic differences (wealth, power) are a little out of our control, barring social change through effective collective effort.
But between people, the one thing that we can be equal in our relationships is concern, care, and effort relative to personal capacity. In other words, if you make a consistent effort to help a person when they are in need, and they are conspicuously absent when you need help, then it is probably best that you redirect your attention elsewhere. As charming as they may be (and they often are when they are at their best) one needs to develop protection against psychic vampires because ultimately they will hurt you.
Psychic vampires exist along a continuum of conscious to unconscious action. On the first extreme, we're dealing with people who are almost certainly are narcissistic [psycho, socio]paths, conscious manipulators who are empowered by the emotional energy they drain from their dependent flock. Obviously, such people are to be avoided at all costs and best left to the professionals to deal with. On the other extreme are those who due to their own impulsivity or lack of security, is a lot needier and have more affective instability. They may even be aware of their vampiric behaviour and feel terribly guilty about it. Unlike the pathological, if one is willing, able, and patient, then these vampiric souls can become a better version of themselves. It will take time and effort because they are, in effect, learning to establish new and unfamiliar pathways in their own brain. Some vampires you want to dispel; others you wish to turn.
Letting go does not just involve vampiric people but also vampiric activities and attachments in one's own life. Most psychic vampires are not like that all the time (indeed, some can be utterly amazing people when they're not being draining), and all of us can be a little bit vampiric at times. Identifying our own vampiric behaviours towards others and toward ourselves, is essential. Are we wasting other people's time and draining their energy? Are we wasting our own time and our energy? When one makes an assessment of the time and activities that we engage in that do not help ourselves and others, when supposedly so-called fun and harmless distractions take up excess time and emotional attachment, then we're in the realm of vampirism. We're literally sucking the life from others and from ourselves, retarding our own personal development and empathy. It is little wonder to discover that clarity in one's own self-concept and associated activities also enhance empathy towards others. This brings us back to the original essay; how do you think empathic people treat others?
This year I completed my MHEd thesis (early) to complete the degree in this field. The following is the abstract and link to the study.
Abstract
One component of the broad sweep of educational history is the qualitative changes in information and communication technologies, in which each new development both building on top of its previous and extending its scope. The development of networked information and communication technologies in contemporary times, "the Internet", potentially provides a new mode of communication whose limiting factors include capacities of the physical systems and the allocation of economic resources. This macrological inquiry suggests that these foundational matters have been largely overlooked when considering educational technology and as a result four research themes are raised; (i) the identification of the demographic importance and trends of higher education., (ii) the economics of higher education, particularly the notion of cost-disease in service sectors and positive externalities, (iii) the engineering restrictions and licensing restrictions to software applications, and (iv) user-experiences of existing educational software. A prescriptive conclusion raises policy matters concerning the need for more extensive public funding, the adoption of open-source licensing for applications and educational content, and the use of client-server models rather than the trend toward cloud-based software architecture.
I’m new to pulp and am installing based on the Ansible roles as documented at Getting started – Pulp Installer. During the install, I get this error:
TASK [geerlingguy.postgresql : Define postgresql_log_dir.] ************
fatal: [localhost]: FAILED! => {"msg": "The task includes an option
with an undefined variable. The error was: 'dict object' has no
attribute 'log_directory'\n\nThe error appears to be in
'/root/.ansible/roles/geerlingguy.postgresql/tasks/variables.yml':
line 58, column 3, but may\nbe elsewhere in the file depending on the
exact syntax problem.\n\nThe offending line appears to be:\n\n\n-
name: Define postgresql_log_dir.\n ^ here\n"}
This seems to be that a newer version of geerlingguy.postgresql has been released (version 3.4) which requires some changes to the Pulp Ansible installer. Those changes have been made in this pull request, which has been merged but not yet released. For others blocked on this, you can instead lock the version of geerlingguy.postgresql to something older, which will then allow the install to work:
ansible-galaxy install geerlingguy.postgresql,3.3.1
ansible-galaxy collection install pulp.pulp_installerI’ve been playing again with Docker images and their internal layers a little more over the last week — you can see some of my previous adventures at Manipulating Docker images without Docker installed. The general thrust of these adventures is understanding the format and how to manipulate it by building a tool called Occy Strap which can manipulate the format in useful ways. My eventual goal there is to be able to build OCI compliant image bundles and then have a container runtime like runc execute them, and I must say I am getting a lot closer.
This time I was interested in the exact mechanisms used by whiteout files in those layers and how that interacts with Linux kernel overlay filesystem types.
Firstly, what is a whiteout file? Well, when you delete a file or directory from a lower layer in the Docker image, it doesn’t actually get removed from that lower layer, as layers are immutable. Instead, the uppermost layer records that the file or directory has been removed, and it is therefore no longer visible in the Docker image that the container sees. This has obvious security implications if you delete a file like a password you needed during your container build process, although there’s probably better ways to deal with those problems using multi-phase Dockerfiles.
An image might help with the description:
Here we have a container image which is composed of four layers. Layer 1 creates two files, /a and /b. Layer two creates a directory, /c. Layer three deletes /a and creates /c/d. Finally, layer 4 deletes /c and /c/d — let’s assume that it does this by just deleting the /c directory recursively. As far as a container using this image would be concerned, only /b exists in the container image.
A Dockerfile (which wouldn’t actually work) to create this set of history might look like:
FROM scratch
touch /a /b # Layer 1
mkdir /c # Layer 2
rm /a # Layer 3
rm -rf /c # Layer 4The Docker image format stores each layer as a tarfile, with that tarfile being what a Linux filesystem called AUFS would have stored for this scenario. AUFS was an early Linux overlay filesystem from around 2006, which never actually mered into the mainline Linux kernel, although it is available on Ubuntu because they maintain a patch. AUFS recorded deletion of a file by creating a “whiteout file”, which was the name of the file prepended with .wh. — so when we deleted /a, AUFS would have created a file named .wh.a in Layer 3. Similarly to recursively delete a directory, it used a whiteout file with the name of the directory.
What if I wanted to replace a directory? AUFS provided an “opaque directory” that ensured that the directory remained, but all of its previous content was hidden. This was done by adding a file in the directory to be made opaque with the name .wh..wh..opq.
You can read quite a lot more about the Docker image format in the specification, as well as the quite interesting documentation on whiteout files.
To finish this example, the contents of the tarfile for each layer should look like this:
# Layer 1
/a # a file
/b # a file
# Layer 2
/c # a directory
/c/.wh..wh..opq. # a file, created as a safety measure
# Layer 3
/.wh.a # a file
/c/d # a file
# Layer 4
/c/.wh.d # a file
/.wh.c # a fileSo that’s all great, but its not actually what got me bothered. You see, modern Docker users overlayfs, which is the replacement to AUFS which actually made it into the Linux kernel. overlayfs has a similar whiteout mechanism, but it is not the same as the one in AUFS. Specifically deleted files are recorded as character devices with 0/0 device numbers, and deleted directories are recorded with an extended filesystem attribute named “trusted.overlay.opaque” set to “y”. What I wanted to find was the transcode process in Docker which converted the AUFS style tarballs into this in the filesystem while creating a container.
After a bit of digging (the code is in containerd not moby as I expected), the answer is here:
func OverlayConvertWhiteout(hdr *tar.Header, path string) (bool, error) {
base := filepath.Base(path)
dir := filepath.Dir(path)
// if a directory is marked as opaque, we need to translate that to overlay
if base == whiteoutOpaqueDir {
// don't write the file itself
return false, unix.Setxattr(dir, "trusted.overlay.opaque", []byte{'y'}, 0)
}
// if a file was deleted and we are using overlay, we need to create a character device
if strings.HasPrefix(base, whiteoutPrefix) {
originalBase := base[len(whiteoutPrefix):]
originalPath := filepath.Join(dir, originalBase)
if err := unix.Mknod(originalPath, unix.S_IFCHR, 0); err != nil {
return false, err
}
// don't write the file itself
return false, os.Chown(originalPath, hdr.Uid, hdr.Gid)
}
return true, nil
}Effectively, as a tar file is extracted the whiteout format is transcoded into overlayfs’ format. So there you go.
A final note for implementers of random Docker image tools: the test suite looks quite useful here if you want to validate that what you do matches what Docker does.
Here's a fun and easy one to fix.
One commodore plus/4. Here's what it displayed.
Looks like the TED chip is outputting something, but it isn't setup right.
So I pop it open. There's the right clock on pin 1 of the CPU - switching between 1 and 2MHz as it does. Ok, so let's check the ICs.
Hm, there's something wrong with the CPU pins.
A version of this article was published on the Greater Auckland Website.
In late January 2022 the government announced that it was building a $15 billion light rail line from the Airport to the City Center via Mount Roskill. The line would be tunneled for about half it’s length.
The response from the Transport community was not positive. The price tag was extremely high especially on a per-kilometre basis for what it delivered. The likely result seemed to be further years of planning before cancellation when a pro-road National Government is elected.
This article will cover one alternative. It is a fairly low cost surface light-rail line that can be built quickly and expanded later.
A Minimum Viable Product is a product (such as a website, store or app) that can be built cheaply and quickly but does enough to be useful. It is intended to get the idea to real customers and be built on later.
The Minimum Viable Light rail is similar:
The idea of the line was sparked by this twitter thread:
” The very original musings by AT for LR had a Stage 1 which simply ran from Wynyard to Eden Terrace. Something similar could be brought back to serve a large, master-planned renewal project around the Dom Rd Junction. ”
Tweet by ScootFoundation
My expansion on Scoot’s proposal would be a short version of the street level Light Rail line originally proposed by Auckland Transport. It would be cover just 3.3 kilometres from The Civic Corner to Eden Quarter along Queen Street and Dominion Road.
The system is a simple two-line surface running light rail. In the inner section (north of Mayoral Drive) it would run on two reserved centre lanes at street level allowing pedestrians to easily cross. Further out in areas of lower pedestrian volume the lanes would be raised or fenced to discourage traffic further and allow higher speeds. In the innermost sections cars would be limited while in the outer sections they would have a lane on each side of the road but parking would be largely removed.
Vehicles would be 33 metre low floor (or 70% low floor) vehicles like the CAF Urbos 3. Overhead power would be used.
The line would start at the Civic Corner (near Te Wai o Horotiu rail station and Aotea Square) and run south to Dominion Road to the Eden Quarter shopping area between Bellwood Avenue and Valley Road.
The Civic Corner is where the current Dominion Road buses terminate so it would be the same destination for most current riders (except those going to the Universities). Stopping the line here would also avoid the heavily built up northern 800 metres of Queen Street where there will be conflicts with local merchants.
The line would go south across Mayoral Drive and then climb up Queen Street. At some point up the hill it would in into a tunnel under Karangahape Road. There would be a stop near here. This could be on one side of the tunnel or perhaps even inside it.
The line would then continue along Upper Queen Street before turning into Ian McKinnon Drive and following it to Dominion Road. Along this section we should future-proof the line for a future branch along New North Road.
The next stop of the line would be on Dominion Road near View Road. This area is a mix of offices, light industry, apartments and houses and is ripe for increased density.
The line would then continue south down the hill, across Walters/Valley Road and terminating before it reaches Bellwood Avenue at the Eden Quarter stop. This stop would be placed to allow passengers to easily transfer to and from Dominion Road buses. It is also a short walk to Eden Park.
At the final stop the driver would walk to the other end of the train for the return journey.
Making the conservative assumptions that each train averages 15 km/h in the inner city section and 30km/h in the other sections with a wait of 30 seconds at each stop we get the following travel times:
| Stop name | Distance from Civic | Average Speed | Travel Time |
| Civic | 0m | n/a | Depart 00:00 |
| Karangahape Road | 800m | 15 km/h | Arrive 03:15 Depart 03:45 |
| View Road | 2600m | 30 km/h | Arrive 07:20 Depart 07:50 |
| Eden Quarter | 3230m | 30 km/h | Arrive 09:00 |
This would be an average speed of 21km/h which possibly could be increased, especially along the Southern sections where there are fewer conflicts with pedestrians and cars.
Assuming we allocate 2 minutes at each end for turnaround then each vehicle would takes just 22 minutes to completed the whole route. This means that just five vehicles should be able to maintain a headway (interval between trains) of 5 minutes in both directions.
Line Capacity with a train every 5 minutes and using 33m light rail cars carrying 210 people (as in the Auckland light rail proposed) would be 2500 passengers/hour in each direction. This comfortably exceeds what the current double-decker buses carried in peak mornings during 2019.
The line should be designed to allow two cars per train bringing length to 66m. If these were brought in and headway was reduced to three minutes then capacity would be 8400 passengers/hour.
Buses coming towards to the city would drop off passengers at a stop just before Bellwood Avenue. They then turn left down Bellwood Avenue to Eden Park and then return along Walters Road before making a right-hand turn back into Dominion Road and stopping to pick up passengers before heading south.
Currently buses at peak hour take 11 minutes via Queen Street and 18 minutes via Mount Eden Road and Symonds Street, so this would save time for most passengers even with the transfer between bus and light rail.
The line would need a small service facility for vehicle storage and maintenance. This would eventually be replaced when the line is extended but would be needed to serve the initial fleet.
A property would need to be purchased and built. Probably near View Road although there are other options such as public land on Ian McKinnon Drive.
Total distance would be just 3.3 kilometres which should be build-able for perhaps $NZ 300m including around seven vehicles. The cost of nearly $100m/kilometre reflects the fairly short line in a built-up area but is actually quite conservative. Costs of similar systems overseas are usually less.
In his original twitter thread Scoot suggested a price of $100m and that a large part of the cost could be covered by a special rate on developments in the area.
Construction should be possible in 3-4 years especially with best practice of working 12+ hours per day. A comparison might be the 5.5km Lund Tramway which was build for ~$NZ 250m in 3.5 years.
Extensions should be planned as soon as possible to allow a continuous stream of work. I plan to detail these in a later article but they could include:
Q: What about the Airport and Mangere?
A: We should not try and serve these areas with the same line as the Dominion and Sandringham Road. Instead a high capacity Light Metro line though Mangere Town Centre, Onehunga, Manukau Road, Newmarket could serve them, See Matthew Beardsworth’s article If we’re going to tunnel light rail, do it right! .
Q: What about going to Britomart?
A: Britomart would be the natural place to terminate the line. However I think there will be strong opposition to any disruption from the local business owners that would delay the project. Building the line only as far North as the Civic Corner avoids the most heavily built-up shopping stretch of Queen Street.
However I think the link to Britomart should be a priority and should be built as soon as possible. Building it later avoids it delaying the initial build of the line.
Q: Won’t this line eventually fill up?
A: The line should handle several times the peak 2019 Dominion Road and Sandringham Road demand. If demand eventually exceeds that then there are options ranging from lengthening the vehicles to building new lines to take demand ( eg along Mount Eden Road). Part of the problem with the government’s current proposal is one line is expected to cover all requirements.
Q: Won’t this reduce car capacity into the CBD?
A: Yes it will. But currently there are only 900 people in 800 cars using Dominion Road during the peak hour (less in Queen Street) . The initial capacity of the Light rail will be 3 times that. Also the line will reduce the numbers of buses going into the CBD.
Q: Would the overhead lines be unsightly?
A; Most of the photographs about include overhead lines. They tend to be fairly inconspicuous. Systems that do away with them cost more and are non-standard.
Q: What about University Students?
A: The line would unfortunately remove direct access to the Universities. Students would have two main options:
1. Get off at the Karangahape Road stop, walk to Symonds Street and catch a bus further down Symonds Street.
2. Get off at Civic Stop and walk up the hill.
As described in some detail in my last post, we have a single 10kWh Redflow ZCell zinc bromine flow battery hooked up to our solar PV via Victron inverter/chargers. This gives us the ability to:
By their nature, ZCell flow batteries needs to undergo a maintenance cycle at least every three days, where they are discharged completely for a few hours. That’s why the last point above reads “opportunistically survive grid outages”. With a single ZCell, we can’t use the “minimum state of charge” feature of the Victron kit to always keep some charge in the battery in case of outages, because doing so conflicts with the ZCell maintenance cycles. Once we eventually get a second battery, this problem will go away because the maintenance cycles automatically interleave. In the meantime though, as my project for Hack Week 21, I decided to see if I could somehow automate the Victron scheduled charge configuration based on the ZCell maintenance cycle timing, to always keep the battery as full as possible for as long as possible.
There are three goals somewhat in tension with each other here:
Here’s the solution I came up with:
Now, how to automate that?
The ZCell Battery Management System (BMS) has a REST API which we can query to find out useful information about the battery. Unfortunately it won’t actually tell us for certain whether maintenance will be run on any given day, but we can get the maintenance time limit, and subtract from that the amount of time that’s passed since the last maintenance cycle. If the resultant figure is less than one day, we know that maintenance will happen today. It is possible for maintenance to happen at other times, e.g. I can force maintenance manually, and also it can happen more often than every three days if you mess with the allowed days setting in the BMS, so this solution arguably isn’t perfect, but I think it’s good enough under the circumstances, at least at our site.
The Victron Cerbo GX (the little box that controls everything) runs Linux, and you can easily get root on it, so it’s possible to write scripts that run locally there. Here’s what I ended up with:
One important point about installing things on the Cerbo GX, is that the root partition is overwritten during firmware updates, but there’s a separate data partition which is preserved. The root user’s home directory is symlinked to /data/home/root, so my script lives at /data/home/root/sched.py to ensure it remains present. Then we need to get it into /etc/crontab, which doesn’t survive firmware updates. This is done by adding a /data/rc.local script which the Cerbo GX runs on boot:
After a few days of testing and observation, I can confirm that it all works perfectly! At least, at our site, right now, with our current loads and daylight ours. The whole thing will want revisiting (or probably just turning off) as we get into summer, when we’ll be able to rely on significantly more sunlight to keep the battery full than we get now. I may well just go back to a single 03:00-for-four-hours grid charge then, once the days are nice and long. See how we go…
Last week I finished up at Culture Amp, and I’m excited to announce that I’ll be joining Buildkite as an engineer!
My time at Culture Amp was special. It was my first role after a decade of running Icelab with Max and Michael. Culture Amp hired everyone at Icelab after we decided to close the business, providing both a smooth transition and new opportunities to a singular group. I built a great working relationship with my manager, I was trusted to do big things, and I relished the chance to work with and learn from a large group of engineers. I’m deeply thankful for all of this.
Towards the end, I was serving as Culture Amp’s Director of Back End Engineering, and moving into engineering management. However, as any astute reader of this blog might attest, I am deeply motivated by hands on programming work, and all the learning and collaboration opportunities that go with it. I realised it was not the time to draw that chapter to a close (it might never!), and through that consideration I connected with Buildkite.
I’m excited to join Buildkite for many reasons! It’s a great Australian company with heart and personality. It brims with people I’ve long dreamt of working with. Developer tooling is an area close to my heart. And they’re growing a (majestic) Ruby app at the core of their tech. I can’t wait to dig in.
For me, this is also an intentional decision to stick with Ruby. The work I’m doing in Ruby OSS right now might be one of the biggest “dents in the universe” I get to make. I want to see this effort through, to complete our vision for Hanami 2.0, then learn from how it’s adopted by our community.
I have some time off between jobs, which I’ll use to give our Hanami work a real boost: I’ll be commiting nearly 6 weeks of full-time work to Hanami! Based on previous experience, this should see me get through what otherwise might have taken 6 months of part-time effort. I’m hoping this will get us significantly closer to 2.0. I’ll likely start another tweet thread of my efforts, so find me on Twitter if you’d like to follow along!
I had some problems getting the Gandi certbot plugin to work in Debian bullseye since the documentation appears to be outdated.
When running certbot renew --dry-run, I saw the following error message:
Plugin legacy name certbot-plugin-gandi:dns may be removed in a future version. Please use dns instead.
Thanks to an issue in another DNS plugin, I was able to easily update my configuration to the new naming convention.
Get an API key from Gandi and
then put it in /etc/letsencrypt/gandi.ini:
# live dns v5 api key
dns_api_key=ABCDEF
before make it only readable by root:
chown root:root /etc/letsencrypt/gandi.ini
chmod 600 /etc/letsencrypt/gandi.ini
Then install the required package:
apt install python3-certbot-dns-gandi
To get an initial certificate using the Gandi plugin, simply use the following command:
certbot certonly -a dns --dns-credentials /etc/letsencrypt/gandi.ini -d example.fmarier.org
If you have automatic renewals enabled,
you'll want to ensure your /etc/letsencrypt/renewal/example.fmarier.org.conf
file looks like this:
# renew_before_expiry = 30 days
version = 1.12.0
archive_dir = /etc/letsencrypt/archive/example.fmarier.org
cert = /etc/letsencrypt/live/example.fmarier.org/cert.pem
privkey = /etc/letsencrypt/live/example.fmarier.org/privkey.pem
chain = /etc/letsencrypt/live/example.fmarier.org/chain.pem
fullchain = /etc/letsencrypt/live/example.fmarier.org/fullchain.pem
[renewalparams]
account = abcdef
authenticator = dns
server = https://acme-v02.api.letsencrypt.org/directory
dns_credentials = /etc/letsencrypt/gandi.ini
This'll be nice and short.
I wanted to add some new backgrounds to simgen, which is a hack on Amiga Workbench 1.3 setups which allows for a 1 or 2 bpp (2 or 4 colour) background image.
The short version - when you buy an actual OG Gotek with the OG Gotek firmware, it doesn't work in any convenient way that is documented on any of the retro computing sites, because you DEFINITELY need to flash it with different firmware.
Ok, so the less short version!
I picked up a busted Amiga 500 for free to help repair an Amstrad CPC464 for someone. It had a busted ROM socket, busted RAM and some other random crap that I needed to fix. Oh and 50 of the keys were not working, and the key membrane was broken!
So everything above is fixed - and I still need to fix the RTC in the A501 memory expansion - but now I need to get it to boot. And I don't have a spare floppy drive for this.
But I did have a Gotek - I bought it for the IBM PC stuff, but I ended up bootstrapping it using USB 3.5 inch floppy drives.
.. and it didn't work. And I didn't understand why.
So, the summary.
I wanted to flash the FlashFloppy Gotek stuff from https://github.com/keirf/flashfloppy/wiki/Firmware-Programming. Easy peasy. Get a UART hooked up and connect to FreeBSD.
Didn't work. Welp.
After reading around I found that someone tried at 9600, because it just wouldn't work faster.
I did that and well now it does. It's quite possible if I added the 10k pull-ups mentioned on the flashfloppy hardware mods section that I'd have more luck.
Anyway. Now it works. I then followed the installation instructions for a USB stick and whacked Workbench 1.3 images on - and now it boots fine into workbench 1.3. I've ordered a replacement mounting frame for the Gotek board so it can sit in with the case closed - but for now the machine works.
Well, besides the RTC. That's next. Ugh.
April was a pretty decent month for my OSS work! Got some things wrapped up, kept a few things moving, and opened up a promising thing for investigation. What are these things, you say? Let’s take a look!
I wrote about the need to centralise these integrations last month, and in April, I finally got the work done!
This was a relief to get out. As a task, while necessary, it felt like drudge work – I’d been on it since early March, after all! I was also conscious that this was also blocking Luca’s work on helpers all the while.
My prolonged work on this (in part, among other things like Easter holidays and other such Real Life matters) contributed to us missing April’s Hanami release. The good thing is that it’s done now, and I’m hopeful we can have this released via another Hanami alpha sometime very soon.
In terms of the change to Hanami apps, the biggest change from this is that your apps should use a new superclass for actions and views:
require "hanami/application/action"
module Main
module Action
# Used to inherit from Hanami::Action
class Base < Hanami::Application::Action
end
end
end
Aside from the benefit to us as maintainers of having this integration code kept together, this distinct superclass should also help make it clearer where to look when learning about how actions and views work within full Hanami apps.
locals in view templatesI wound up doing a little more work in actions and views this month. The first was a quickie to unblock some more of Luca’s helpers work: making access to the locals hash within templates work like we always expected it would.
This turned out to be a fun one. For a bit of background, the context for every template rendering in hanami-view (i.e. what self is for any given template) is an Hanami::View::Scope instance. This instance contains the template’s locals, makes the full locals hash available as #locals (and #_locals, for various reasons), and uses #method_missing to make also make each local directly available via its own name.
Luca found, however, that calling locals within the template didn’t work at all! After I took a look, it seemed that while locals didn’t work, self.locals or just plain _locals would work. Strange!
Turns out, this all came down to implementation details in Tilt, which we use as our low-level template renderer. The way Tilt works is that it will compile a template down into a single Ruby method that receives a locals param:
def compile_template_method(local_keys, scope_class=nil)
source, offset = precompiled(local_keys)
local_code = local_extraction(local_keys)
# <...snip...>
method_source << <<-RUBY
TOPOBJECT.class_eval do
def #{method_name}(locals)
#{local_code}
RUBY
Because of this, locals is actually a local variable in the context of that method execution, which will override any other methods also available on the scope object that Tilt turns into self for the rendering.
Here is how we were originally rendering with Tilt:
tilt(path).render(scope, &block)
My first instinct was simply to pass our locals hash as the (optional) second argument to Tilt’s #render:
tilt(path).render(scope, scope._locals)
But even that didn’t work! Because in generating that local_code above, Tilt will actually take the locals and explode it out into individual variable assignments:
def local_extraction(local_keys)
local_keys.map do |k|
if k.to_s =~ /\A[a-z_][a-zA-Z_0-9]*\z/
"#{k} = locals[#{k.inspect}]"
else
raise "invalid locals key: #{k.inspect} (keys must be variable names)"
end
end.join("\n")
end
But we don’t need this at all, since hanami-view’s scope object is already making those locals available individually, and we want to ensure access to those locals continues to run through the scope object.
So the ultimate fix is to make locals of our locals. Yo dawg:
tilt(path).render(scope, {locals: scope._locals}, &block)
This gives us our desired access to the locals hash in templates (because that locals key is itself turned into a solitary local variable), while preserving the rest of our existing scope-based functionality.
It also shows me that I probably should’ve written an integration test back when I introduced access to a scope’s locals back in January 2019. 😬
Either way, I’m excited this came up and I could fix it, because it’s an encouraging sign of just how much of this view system we’ll be able to put to use in creating a streamlined and powerful view layer for our future Hanami users!
Thanks to our extensive use of Hanami at Culture Amp, my friend and colleague Andrew discovered and fixed a bug with our automatic rendering of views within actions, which I was happy to merge in.
After keeping poor ojab waiting way too long, I also merged a couple of nice enhancements he made to dry-configurable:
Config#finalize! finalize itself recurively and (optionally) allow freezing of setting values#update, which I followed up with support for anything implicitly convertible to a hash.I then released these as dry-configurable 0.15.0.
Last but definitely not least, I started work on one of the last big efforts we need in place before 2.0: making Hanami slices act as much as possible like complete, miniature Hanami applications. I’m going to talk about this a lot more in future posts, but for now, I can point you to a few PRs:
Hanami::SliceName (a preliminary, minor refactoring to fix some slice and application name determination responsibilities that had somehow found their way into our configuration class).Apart from opening up some really interesting possibilities around making slices fully a portable, mountable abstraction (imagine bringing in slices from gems!), even for our shorter-term needs, this work looks valuable, since I think it should provide a pathway for having application-wide settings kept on the application class, while still allowing per-slice customisation of those settings in whichever slices require them.
The overall slice structure is also something that’s barely changed since I put it in place way back in late 2019. Now it’s going to get the spit and polish it deserves. Hopefully I’ll be able to share more progress on this next month :) See you then!
Back in March of 2020, I decided to take up the habit of writing monthly status updates for my open source software development. 22 updates and 25k words later, I’m happy to be celebrating two years of status updates!
As each month ticks around, I can find it hard to break away from cutting code and write my updates, but every time I get to publishing, I’m really happy to have captured my progress and thinking.
After all, these posts now help remind me I managed to do all of the following over the last two years (and these were just the highlights!):
Hanami::SliceConfigurable to make it possible for similar components to integrate (Mar 2022)This is a lot! To add some extra colour here, a big difference betwen now and pre-2020 is that I’ve been working on OSS exclusively in my personal time (nights and weekends), and I’ve also been slugging away at a single large goal (Hanami 2.0, if you hadn’t heard!), and the combination of this can make the whole thing feel a little thankless. These monthly updates are timely punctuation and a valuable reminder that I am moving forward.
They also capture a lot of in-the-moment thinking that’d otherwise be lost to the sands of time. What I’ve grown to realise with my OSS work is that it’s as much about the process as anything else. For community-driven projects like dry-rb and Hanami, the work will be done when it’s done, and there’s not particularly much we can do to hurry it. However, what we should never forget is to make that work-in-progress readily accessible to our community, to bring people along for the ride, and to share whatever lessons we discover along the way. The passing of each month is a wonderful opportunity for me to do this 😀
Finally, a huge thank you from me to anyone who reads these updates. Hearing from folks and knowing there are people out there following along is a huge encouragement to me.
So, let’s keep this going. I’m looking forward to another year of updates, and—checks calendar–writing April’s post in the next week or so!
When we’re writing a method in Ruby and receiving objects as arguments, a helpful principle to follow is “don’t mutate what you don’t own.”
Why is this? Those arguments come from places that we as the method authors can’t know, and a well-behaved method shouldn’t alter the external environment unexpectedly.
Consider the following method, which takes an array of numbers and appends a new, incremented number:
def append_number(arr)
last_number = arr.last || 0
arr << last_num + 1
end
If we pass in an array, we’ll get a new number appended in the returned array:
my_arr = [1, 2]
my_new_arr = append_number(my_arr) # => [1, 2, 3]
But we’ll also quickly discover that this has been achieved by mutating our original array:
my_arr = [1, 2]
my_new_arr = append_number(arr) # => [1, 2, 3]
my_arr # => [1, 2, 3]
We can confirm by an object equality check that this is still the one same array:
my_new_arr.eql?(my_arr) # => true
This behavior is courtesy of Ruby’s Array#<< method (aka #append or #push), which appends the given object to the receiver (that is, self), before then returning that same self. This kind of self-mutating behaviour is common across both the Array and Hash classes, and while it can provide some conveniences in local use (such as a chain of #<< calls to append multiple items to the same array), it can lead to surprising results when that array or hash comes from anywhere non-local.
Imagine our example above is part of a much larger application. In this case, my_arr will most likely come from somewhere far removed and well outside the purview of append_number or whatever class contains it. As the authors of append_number, we have no idea how that original array might otherwise be used! For this reason, the courteous approach to take is not to mutate the array, but instead create and return a new copy:
def append_number(arr)
last_number = arr.last || 0
# There are many ways we can achieve the copy; here's just one
arr + [last_number]
end
This way, the caller of our method can trust their original values to go unchanged, which is what they would likely expect, especially if our method doesn’t give any hint that it will mutate.
my_arr = [1, 2]
my_new_arr = append_number(arr) # => [1, 2, 3]
my_arr # => [1, 2]
This is a very simple example, but the same princple applies for all kinds of mutable objects passed to your methods.
A more telling story here comes from earlier days of Ruby, around how we handled options hashes passed to methods. We used to do things like this:
def my_method(options = {})
some_opt = options.delete(:some_opt)
# Do something with some_opt...
end
my_method(some_opt: "some value")
Using trailing options hashes like this was how we provided “keyword arguments” before Ruby had them as a language feature. Now the trouble with the method above is that we’re mutating that options hash by deleting the :some_opt key. So if the user of our method had code like this:
common_options = {some_opt: "some value"}
first_result = my_method(common_options)
second_result = my_method(common_options)
We’d find ourselves in trouble by the time we call my_method the second time, because at that point the common_options hash will no longer have some_opt:, since the first invocation of my_method deleted it — oops!
This is a great illustration of why modern Ruby’s keyword arguments work the way they do. When we accept a splatted keyword hash argument like **options, Ruby ensures it comes into the method as a new hash, which means that operations like options.delete(:some_opt) do in fact become local in scope, and therefore safe to use.
So now that we’ve covered both arrays and hashes now as Ruby’s most common “container” objects, what about the other kinds of application-specific structures that we might encounter in real world codebases? Objects representing domain models of various kinds, an instance of an ActiveRecord::Base subclass, even? Even in those cases, this principle still holds true. Our code is easier to understand and test when we can reduce the number of dimenstions to its behaviour, and mutating passed-in objects is a big factor in this, especially if you think about methods calling other methods and so on. There are ways we can design our applications to make this a natural approach to take, even for rich domain objects, but that is a topic for another day!
Until then, hopefully this walkthrough here can serve as a reminder to keep our methods courteous, to respect mutable values provided from outside, and wherever possible, leave them undisturbed and unmutated. Salubrious!
Bonus content! In preparing this post, I thought about whether it might be helpful to note that Ruby is a “pass by reference” language, since that’s the key underlying behavior that can result in these accidental mutations. However, my intuition here was actually back to front! Thanks to this wonderful stackoverflow answer, I was reminded that Ruby is in fact a “pass by value” language, but that all values are references.
We installed 5.94kW of solar PV in late 2017, with an ABB PVI-6000TL-OUTD inverter, and also a nice energy efficient Sanden heat pump hot water service to replace our crusty old conventional electric hot water system. In the four years since then we’ve generated something like 24MWh of electricity, but were actually only able to directly use maybe 45% of that – the rest was exported to the grid.
The plan had always been to get batteries once we are able to afford to do so, and this actually happened in August 2021, when we finally got a single 10kWh Redflow ZCell zinc bromine flow battery installed. We went with Redflow for several reasons:
Our primary reasons for wanting battery storage were to ensure we’re using renewable energy rather than fossil fuels, to try to actually use all our local power generation locally, and to attain some degree of disaster resilience.
Being in Tasmania, most of our grid power is from renewable sources anyway (hydro), so the renewable energy argument may seem a little weak at first, unless you cast your mind back to the time some idiot decided to deplete our dams by selling a whole lot of hydro-generated power to Victoria in an El Niño year, then the Basslink cable broke and Tasmania had to fire up a bunch of diesel generators to get through winter. Good times.
On the local generation and use front, as I mentioned at the start of this post, we’ve previously exported more than half the energy we generated, but the feed-in tariff we get from Aurora (the power company) is only $0.06501 per kWh. Compare that to the rate we pay for grid energy ($0.29852/kWh peak or $0.139/kWh off-peak). Say we exported 13.2MWh in the last four years, we would have received about $858 worth of credit… But then when we drew power back from the grid at night, or on cloudy days, we would have paid somewhere between $1834-$3940 for that same amount of power. Treating the grid as a proxy for battery storage does not make any sort of financial sense.
As for disaster resilience, we don’t often have grid outages, but we do have them, and that can be a problem. Notably, all our potable water comes from rainwater tanks attached to the house and shed, and the pumps that push that water to the taps are electric, so if the grid is down we don’t have running water. Sure, I can get water out of the tanks with a bucket or a jug, and that’s fine for a little drinking or handwashing, but it’s not good long term. Then there’s our fridges and freezer – at any given time we’re likely to have a lot of stored frozen meat from animals we farm. We don’t want to lose that in a potential extended grid outage, as could happen in bushfire season or during a severe weather event. Also, it’s nice to still have power for our local network and NBN kit, so we can check the TasNetworks Power Outages page to find out WTF is going on.
Complete grid independence would be nice, and with our current power utilisation and a single Redflow battery we could almost do it in the height of summer, or even on some good days in spring or autumn, where we can generate all we need to run the house during the day and charge the battery to 100%, then draw it down overnight. The kink is that Redflow batteries need to undergo a maintenance cycle at least every three days where they are completely discharged for a few hours. If you’re grid connected you don’t really notice this, because the maintenance cycle commences at sunset and once the battery is drained you’re just using grid power again until the sun comes up, but it does mean we can’t be grid independent even if we theoretically have enough PV generation to do so, until we get a second battery (with more than one ZCell, the maintenance cycles are interleaved so at least one battery will always have some power in it).
The other problem with grid independence is that as much as Tasmania is excellent for solar PV generation in summer, it sucks in winter. Looking at our generation and usage figures for 2019, from mid-May to mid-August we were only able to generate 17% of the power we used, and I’ve seen days where we only generated 1-2kW in the entire day. Compare that with summer when we’ve peaked above 40kW some days in December.
Still, if the grid went away for a long time in the warmer half of the year with our current setup, it’d be irritating every few nights, but I reckon we’d manage OK. Of course, there would be some adjustments required to minimise our utilisation: I’d set the blockout timer on the Sanden so the hot water only heated during daylight hours, I’d turn most of our computer equipment off overnight, we’d try to avoid using the microwave at the same time as any other chunky electrical appliance so as not to pull more than 3kW continuously from the ZCell, there’s some lights we usually leave on that we’d just turn off, and so forth. In the colder half of the year, well, I guess we’d try to eat all the frozen food quickly then limp along as best as possible. We would still have some power, some of the time.
When we originally had the PV installed, it was AC coupled, i.e. the solar panels were connected to the inverter, and the inverter was connected to the grid, along with our loads. Our choice of inverter (ABB) was partly because it was Selectronic certified, and at the time we knew Redflow to be working with Selectronic battery inverters. Once we finally got to contacting Murray Roberts from Lifestyle Electrical Services in order to get a quote and talk about installation, circumstances had changed. It turns out that the Selectronic kit just doesn’t like flow batteries with their need to be completely discharged periodically. Victron Energy gear on the other hand works really well with – and is fully supported for use with – Redflow’s ZCell batteries. Lesson learned: with changing technology it doesn’t always pay to plan too far in advance.
Murray initially proposed a setup which would have hooked straightforwardly into our AC coupled solar, i.e. the ABB inverter and PV cells would remain connected as is, then there’d be a Victron energy meter to measure what was coming from the PV and from the grid, a Victron MultiPlus II inverter/charger to charge the battery and pull from the battery to run some loads, plus a Victron Cerbo GX and GX Touch to provide monitoring and control. Some of our power circuits to the house would be hooked up as Essential House Loads (i.e. to be supported by the battery during a grid outage), and some would be Non-Essential House Loads, i.e. powered by the grid and/or PV, but without battery backup. The Victron Cerbo GX and the Redflow ZCell Battery Management System (BMS) are internet connected to hook up with Victron’s VRM portal, which provides handy monitoring tools and graphs, and to allow remote support and assistance and firmware updates. The initial proposal looked something like this:
That configuration would have involved the least messing around, and met our goals of:
But, it still fundamentally relied on the grid. With AC coupled solar, if the grid goes down your inverter automatically goes into anti-islanding mode, and won’t give you any power from your PV array even if the grid is down during the day and the sun is shining on your panels. Your first thought here may be “wait, if the grid is down but I still have sunlight, surely I should still have power”, and that’s an understandable reaction, but anti-islanding is actually a safety feature. If the juice goes from the PV cells to the inverter to the grid and your loads, and you’re exporting power while a power company employee is doing maintenance works on the grid side, you could electrocute them. This would not be a good thing.
A perhaps less obvious problem with this setup is that you can’t black start the site during an extended grid outage. If the grid is down and the inverter is thus in anti-islanding mode, you have no way to get power to restart the system and recharge the battery from empty (unless you’ve also got a generator). “But the grid never goes down for that long…” you might say, until you look at the outages really severe bushfires can cause (think: East Gippsland in the 2019-2020 Black Summer bushfires).
After some further discussion, Murray proposed getting rid of the ABB inverter, and doing DC coupled solar instead, with a Victron MPPT RS hooked up to the PV, two MultiPlus IIs, so that we could handle up to 10kW of power (that’s the maximum limit of all loads and grid export), with all house loads hooked up as Essential, so they can be supplied by whatever combination of grid, solar and battery power is available at any given time. Voilà:
One thing that’s missing in the above diagram is a manual changeover switch we had installed later, so that if there’s ever a fault in the Victron cluster that requires major works, but the grid is still up, we can manually switch all our loads back over to the grid side for the duration. Not that I expect to need that functionality, but better to have it than not just in case.
The 10kW maximum has proven to be fine, by the way – we just don’t ever put anything like that much power through the system at once. During the day we might pull 400-700W continuously with spikes from 1-3kW or occasionally 4-5kW when multiple heavier loads come on. I think the highest we’ve managed was 7kW very briefly one time with a panel heater and the microwave and the hot water and the clothes dryer and gods only know what else was on at the time, the point is it’s not easy to get the load that high. Note that we currently have a gas stove and oven – if we switched that to electric we might want to be a bit cautious about running lots of other heavy loads while cooking, but I suspect we’d still be fine in general.
Rhys, one of Murray’s crew, did a fantastic job of installing all the kit over several days, then Murray came out to do the final commissioning and bring the system online on August 31, 2021. Here’s a couple of pictures:
The transparent box in the above photo contains the Cerbo GX and the ZCell BMS, along with a little 12V backup power supply so that those things keep running if the grid fails and the ZCell is at 0% State of Charge (SoC). The ethernet switch above the sub board hooks up to the network point I installed previously when I was using a Raspberry Pi to monitor the ABB inverter’s generation. It’s Power-over-Ethernet, run from a UPS in my office which also keeps the NBN box and router alive, so the whole system still has internet access for about an hour even if all other power sources are dead (handy if there were some sort of fault and we needed remote assistance).
Here’s what the main switchboard looks like now. The leftmost switch (“Main switch (grid supply)”) turns grid power on/off to the sub board under the house, which goes from there to the Multis’ AC input. The AC out comes back up here to the right-hand switch (“Victron Sub Board Backup Supply”) and thence to all the loads (the various switches in the middle).
Inside the house there’s a neat little touchscreen console (the Victron GX Touch), which connects via an HDMI cable in the wall to the Cerbo under the house. This shows you what everything is doing at any given time, provides notifications of alarms (e.g.: “Grid Lost”) and has a series of menus for configuring the system. The exact same console is also accessible via a web browser or mobile phone, either over the local network, or remotely via the VRM portal.
Three days after everything was up and running, we went out to run some errands and came back home in the afternoon to discover the Cable PI device in our kitchen beeping like mad. All the power was still on in the house. I called Murray in a bit of a panic thinking something was broken, but it turned out we were experiencing an actual grid outage over a large area – all the way from Grove to Leslie Vale, 802 properties were without power due to wires down in strong wind, and the PV was powering our house. We didn’t feel a thing. The UPS in my office noticed a small dip for a second or two when the grid failed, but the microwave clock was still on, and other computer gear not hooked up to a UPS remained up during the cutover. And the battery kept on charging – it was at 65% SoC when the grid went out and up to 83% by the time the grid came back.
This was just awesome.
A few days after that, suddenly, at 19:39 on September 6, we were without power. The grid was up, but the Victron kit had shut down. This was not awesome. It happened during the ZCell’s regular maintenance cycle, and at the time we got a warning in the BMS logs, and a battery high voltage warning from the MPPT. It was unclear then exactly what the problem was though – our MPPT RS was a newer model so maybe it was different somehow from what had been previously tested? Also, we discovered the DVCC setting still needed to be turned on, so maybe that was the issue. Anyway, I power cycled the Victron kit and everything was fine again until a couple of weeks later on September 19, when the system shut down again during a maintenance cycle, and again coinciding with battery high voltage warnings.
Because of the previous shutdown, Murray had been in contact with Simon Hackett from Redflow, and Simon subsequently enabled the “DC-coupled PV – feed in excess” setting. The assumption here was that the extra power being delivered from the ZCell during the maintenance discharge wasn’t absorbed by our house loads, i.e. it was trying to discharge at 1kW, but our loads were utilising less than that, and there was nowhere for the excess to go, hence the shutdown. Enabling “DC-coupled PV – feed in excess” allows power from the DC bus to be sent to the grid if necessary, which turns out to be the case at our site. A second ZCell would mitigate this because the one under maintenance would simply be able to dump to the other (assuming it wasn’t already full), but we only have one battery so far.
At this point, after those two final settings changes (and a firmware update) the system was operating exactly as it should. Everything was configured correctly, and we could survive grid outages if there was charge in the battery and/or the sun was up. Our electricity meter was replaced on September 21 so we could switch to Tariff 93 Peak & Off-Peak billing. There were no further unexpected shutdowns. Everything was totally fine, except we were still seeing these weird battery high voltage warnings during the ZCell maintenance cycle, reported by both the BMS and the MPPT.
This is something neither Murray nor Simon had seen before. What followed was several weeks of troubleshooting and analysis, which I found absolutely fascinating.
I was keeping detailed notes of what happened during each maintenance cycle, and what I saw in the BMS logs, and on the Cerbo console. Several maintenance cycles later I discovered a correlation between the battery high voltage warnings, and sudden large changes in AC loads, notably when a 2400W panel heater in our bedroom turned itself on and off overnight. Also, the high voltage warnings seemed to be more likely to occur if we went into maintenance with a high state of charge, versus a low state of charge.
Simon, who knows and understands how the ZCell behaves during maintenance, explained about the Energy Extraction Device, which is part of the unit whose purpose is to deliberately drain the battery down to zero for maintenance in a timely fashion. He wondered if there was some issue where very high power demands at short notice, while the the EED was active, were causing the DC bus voltage to fluctuate and in turn cause the MPPT to respond in an unusual manner. We experimented with changing settings on the BMS to activate the EED later than usual in the maintenance cycle (“Start maintenance when SoC below x%”), and also experimented with limiting inverter output on the Multis, and tweaking the maximum charge voltage.
After a few more cycles of observation, the suspicion became that the MPPT itself wasn’t at fault, rather it was just being the messenger. Maybe these odd voltage spikes had always happened at other sites too, but the new MPPT RS units were doing a better job of noticing them?
Later in October, Simon noticed that we were seeing spikes very close to when the battery was nearly completely empty. At that point in time, the EED was telling the Multis that it had a 10 amp output capacity, but if the Multis tried to draw on that to handle a sudden rise in load (as from our panel heater for example), the battery voltage would collapse, and the system would oscillate a bit between those two states. That behaviour was fixed with a small firmware change which I believe later landed in the BMS 1.1.11 release. Unfortunately, that change by itself didn’t make the high voltage warnings go away.
A few days after that, we suddenly had a slew of #201 – Internal DC voltage errors from the MPPT, so we were back to being concerned that maybe there was something wrong with that piece of equipment, especially given those errors began to crop up more often as time passed.
Victron’s documentation ominously stated that this error meant “a measurement circuit inside the unit is broken” and the unit “is really broken, not safe for use, and if it hadn’t stopped working already then it would have stopped working soon”. Clearly a replacement or repair was in order, but I’ll get to that later.
On November 4, looking at the logs I’d collected from November 2, Simon noticed that one of the high battery voltage warnings happened at quite a high state of charge (72%), which meant it wasn’t really about the battery running out of energy and having the voltage collapse. It looked like it was the EED being over-drawn, regardless of how much energy was still in the battery. It turns out there’s a thing that the ZCell does to handle surge demand when the EED is on, called an “EED switchback”. ZCells internally have three contactors, for Charge, Discharge and EED (also known as Strip). In normal operation, the C and D contactors are on, and E is off, so the battery can be charged or discharged at will, and the EED is doing nothing. During maintenance, the EED comes on, but it can’t deliver more than 20 amps. If the site pulls more than the EED can supply, the battery goes back to normal operation (C and D on, E off) while the high demand is present. Once the high demand goes away, it switches the EED back on, to keep discharging at the normal rate of 1kW. But, by default, that switchback process only happens five times per battery maintenance cycle so as to avoid the potential for excessive cycling of the contactors in weird edge cases.
Looking at our overnight load with the panel heater on, there’s loads of spikes from below 1kW to above 1kW, so we were getting through that switchback limit very quickly. After that, with the high load from the panel heater, it was entirely possible that the Multi cluster would try to pull more power than the EED could provide, and the EED would shut down in response, resulting in weirdness on the DC bus. Simon’s suspicion for why this hadn’t been seen before was that it needed at least four casual factors to be present at once:
If we were to change or remove any one of those factors, we wouldn’t see the problem. So, as a test, Simon changed the switchback limit from 5 to 50, and I watched what happened during the next maintenance cycle. The status page of the BMS web interface shows, among other things, the current state of the contactors. Here’s an example with C and D on, and E off:
The ZBM logs also show the contactor state over time. Here’s a snippet I’ve colourised to make the state changes obvious:
If we take the above section of ZBM logs from 2021-11-08 23:15 to 23:29, it looks like we had “_ D E” up until 23:17, then switched to “C D _” from 23:18 to 23:26, then finally to “_ _ E” at 23:27. Based on this I’d imagine we had one switchback event that lasted eight minutes. But I had earlier noticed on the status page that the contactors seemed to be toggling more rapidly, so I wrote a little script to scrape the BMS REST API once per second and dump that to a file, which shows Charge and EED toggling on/off about ten times in that window:
2021-11-08T23:14:28+11:00 "_ D E" 2021-11-08T23:17:59+11:00 "C D _" 2021-11-08T23:18:29+11:00 "C D E" 2021-11-08T23:18:34+11:00 "_ D E" 2021-11-08T23:18:56+11:00 "C D _" 2021-11-08T23:19:14+11:00 "C D E" 2021-11-08T23:19:20+11:00 "_ D E" 2021-11-08T23:19:54+11:00 "C D _" 2021-11-08T23:20:17+11:00 "C D E" 2021-11-08T23:20:18+11:00 "_ D E" 2021-11-08T23:20:49+11:00 "C D _" 2021-11-08T23:21:19+11:00 "C D E" 2021-11-08T23:21:22+11:00 "_ D E" 2021-11-08T23:21:46+11:00 "C D _" 2021-11-08T23:21:51+11:00 "_ D _" 2021-11-08T23:21:54+11:00 "C D _" 2021-11-08T23:22:23+11:00 "C D E" 2021-11-08T23:22:26+11:00 "_ D E" 2021-11-08T23:22:43+11:00 "C D E" 2021-11-08T23:22:45+11:00 "C D _" 2021-11-08T23:23:26+11:00 "C D E" 2021-11-08T23:23:30+11:00 "_ D E" 2021-11-08T23:23:43+11:00 "C D _" 2021-11-08T23:24:30+11:00 "C D E" 2021-11-08T23:24:34+11:00 "_ D E" 2021-11-08T23:24:43+11:00 "C D _" 2021-11-08T23:25:35+11:00 "C D E" 2021-11-08T23:25:39+11:00 "_ D E" 2021-11-08T23:25:49+11:00 "C D _" 2021-11-08T23:26:40+11:00 "C D E" 2021-11-08T23:26:44+11:00 "_ D E" 2021-11-08T23:26:49+11:00 "_ _ E"
On the assumption we were hitting way more switchbacks than expected, Simon just went and set the maximum switchback count to 999. A few days later, taking the log from my script, I saw something like 150-160 switchbacks, but given we’d set the limit way high, that fixed all the high voltage warnings, except for one, right at the very end of the maintenance cycle when the discharge limit from the ZCell drops from 10 amps to 0 amps.
Simon discussed this final spike with the folks who built the EED, and found that when current draw from the EED stops, there is a voltage spike, of very low energy, for 10ms, and it can rise as high as 64V during that period before dropping back to the expected 57V. It’s normal for the EED to do this, and as there’s no real energy in it, it won’t be damaging anything. The thing about our site seems to be the new MPPT RS, with a new voltage sensing circuit that’s actually capable of noticing the spike, whereas the other gear (the MultiPlus IIs) misses it because it’s so short. The advice from the electrical engineer was to try adding more capacitors on the DC bus to absorb the spike. We already had two 47,000uF capacitors on there, so Murray went and ordered two more.
With the high battery voltage warnings out of the way, we were back to the #201 Internal DC voltage errors from the MPPT. On the assumption the unit was indeed faulty in that regard we requested a replacement, but Victron came back and said the problem could be fixed by replacing two resistors on the main board of the unit. I guess that makes sense – if you can fix a problem with $2 worth of resistors, that’s three orders of magnitude cheaper than replacing the whole unit.
By then we were getting into December, and what with pandemic-related shipping delays and the Christmas holiday period, it was later in January before we were able to get the additional capacitors installed on the DC bus, and replace the resistors in the MPPT’s voltage sensing circuit. The additional capacitors went just fine, the replacement resistors not so much. Once the MPPT was powered back up it claimed there was zero volts coming from the PV, even though the sun was shining, and the LCD display started flickering strangely. Something was definitely broken here, so we powered it back down, and Simon arranged for a replacement unit to be sent out, which took another few weeks, which is a damn shame in January/February, being prime solar PV generation time.
The delay did however allow me to spend some time messing around with scheduled charges to see if there was a cost benefit to grid-charging the battery during off-peak times, then drawing it back down during peak, because the reality is we’re going to want to do this in winter when there’s not much sun, so why not try it out in advance? TL;DR: Yes, it’s worth grid charging the battery off-peak, provided you use all that power during peak times, but it’s a bit irritating trying to figure out exactly what you’ll save. In one of my tests it was the difference between paying $3.85 for about 20kWh of usable electricity in a 24 hour period versus paying $4.70, so it’s not insignificant.
Rhys came out and installed the replacement MPPT on February 11, and was done by the middle of the day. Everything was running beautifully again, but when the unit came online there were ten instances of the dreaded #201 Internal DC Voltage Error, along with a #27 Charger Short Circuit. I used the VictronConnect app on my phone to see if I could get any more information directly from the MPPT. It told me there was a firmware update available from v1.05 to v1.08, so I went looking for information about that, and discovered that Victron’s error code documentation had been updated since I first saw it back in late October. In addition to the ominous warnings about broken measurement circuits it now also said:
“Make sure to update the firmware to at least v1.08, in previous firmwares the limits were too strict. And it could trigger falsely during MPPT start-up in the morning and MPPT shutdown in the evening.”
So I updated the firmware, and writing this now, two and a half months later, we’ve not seen a single #201 since. Could this have always been a firmware issue? Maybe, given the “accepted answer” on this Victron Community forum post says that firmware version v1.08 “solves the vast majority of MPPT RS, and Inverter RS, Error 201 issues”. Or maybe it was both – maybe we had a broken bit of kit and broken firmware too. Either way, it’s fixed now.
I continued to monitor regular maintenance cycles, and also deliberately forced maintenance a couple of times with a high state of charge to try to stress it as much as I could. During those periods I saw something like 3-10 switchbacks, so Simon set our switchback limit back down from 999 to 30. I understand a future Redflow firmware update will change this default for everyone to somewhere between 25-50, and I’m very happy that this unexpected testing at our site resulted in firmware improvements that will presumably benefit other ZCell users too.
By late April we’d been through 33 maintenance cycles since the extra capacitors went in, with 26 of those occurring since the new MPPT was installed. There had been only three occasions when the BMS briefly noticed alleged high battery voltages in that time. The MPPT was completely silent until April 20 when we got three battery high voltage warnings within an 8 minute interval right at the end of the maintenance cycle, when the battery was almost completely empty. But the weather had also started to get cold, and those errors coincide with a spike from our panel heater, which is consistent with our earlier observations about load spikes with the EED on being “difficult” and really just points to replacing the panel heater with a heat pump. Heat pump are way more energy efficient, have much smoother load, and can also be used for cooling in summer (they’re called “reverse cycle air conditioners” on the mainland).
That’s about the end of the story. The system is brilliant, and we could not be happier with the support we’ve received from Simon at Redflow, who’s been extremely generous with his time and knowledge, and Murray and Rhys of Lifestyle Electrical Services. Thanks for everything guys, I’ve learned a lot. In the eight months the system has been running we’ve generated 4631kWh of electricity and “only” sent 588kWh to the grid, which means we’ve used 87% of what we generated locally – much better than the pre-battery figure of 45%. I suspect we’ve reduced the amount of power we pull from the grid by about 30% too, but I’ll have to wait until we have a full year’s worth of data to be sure. We’ve also survived or shortened at least five grid outages with durations from a few minutes to a few hours.
The next thing to do is get a second ZCell, and possibly eventually think about a third. Given our current generation capability, two ZCells would allow us to store and utilise 100% of our generated power locally. We’d also have the ability to handle grid outages at any time, because with two batteries the maintenance cycles interleave and they can be configured to always ensure there’s a minimum amount of charge somewhere. A third would allow us to look at Standby Power System (SPS) mode where one battery is fully charged, then put into hibernation where it can remain for months. This sounds like a great way to have backup storage available for grid outages in the middle of winter when there’s no sunlight.
In summer I scheduled charges of the battery to 15% between the hours of 04:00 and 08:00, and 30% between the hours of 15:00-17:00. Peak electricity hours during daylight savings are 08:00-11:00 and 17:00-22:00, and I found that a 15% charge overnight from the grid was enough to have a bit in the battery for the morning peak before the PV really got going. The afternoon charge was there mostly just in case we had a cloudy day – we’d usually get way more charge than that from the sun anyway. Now that we’re off daylight savings, peak hours change to 07:00-10:00 and 16:00-21:00, so I’ve set it to a 30% charge from 03:00-07:00 and a 50% charge from 14:00-16:00, which seems to be about right given our general peak utilisation and decreasing sunlight. I’m unlikely to set the afternoon charge higher than 50% because I don’t want to potentially go into a maintenance cycle with the battery very full, but I may re-evaluate that as we get deeper into winter.
It’s worth mentioning that during a scheduled charge, the power will come from wherever the Victron gear can find it, so if the sun is shining, you’ll be charging from the PV, not the grid. One thing to note is that during the scheduled charge period, the battery will not be used to support loads, even if it’s currently got a higher SoC than your limit. Some power will trickle away slowly though, I assume to run the pumps and supporting electronics of the battery itself.
My choice of timing for the overnight charge (four hours up to the start of the morning peak) is me wanting to have some power in the battery for as long as possible overnight in case of outages, without potentially interfering with maintenance cycles, which typically will have finished some time in the wee hours.
I also set up a 15% charge on weekend mornings. This doesn’t save us any money at all (actually it’ll be costing us a couple of tens of cents) because weekends are all off-peak power. The reason is again to have some opportunistic grid backup. Before I set this up we had an outage at 07:45 one Saturday morning with the battery empty, and had to wait until about 09:30 for the PV to bring the battery up to 10% again before everything came back online. Still, that then got us through the remainder of the grid outage which finished at about 10:15.
On the Battery Maintenance screen of the ZCell BMS, I’ve got “Immediate maintenance for batteries with an EED” turned off, and “Start Maintenance When SoC Below 25%” enabled. This is to try to reduce the amount of time the EED runs, to limit switchbacks caused by our spiky load. In summer I also set “Daily SoC Limit Before Maintenance” to 50%, so the battery would not let itself be charged more than half way on those long hot days with late sunsets and early sunrises. This was to minimise maintenance cycle time, because I’d previously seen occasions where we went into maintenance with 100% SoC, and the cycle didn’t finish before the following morning when the sun came up. I also had a couple of times where I guess some timeout expired and the ZCell went into its final chemical maintenance state while it still had a few percent of charge. Not letting it get very full on maintenance days avoids these situations. Now that we’re getting towards winter I’ve removed that limit because the nights are longer and I expect our evening power utilisation to be higher, i.e. we should naturally use up whatever power we’re able to generate in plenty of time during winter maintenance cycles.
It’s also worth checking the latitude and longitude are set correctly on the Site Configuration page, because that’s how the BMS figures out when the sun sets and thus when to start maintenance by default.
The VRM portal is a remote monitoring and management web interface which Victron provides gratis for users of their hardware. It provides a realtime view of the same live utilisation information you can get from the Cerbo console, plus handy graphs of solar, grid and battery consumption.
It also provides detailed graphs of just about anything you can think of from any of the system components. It’s extremely useful. Without this I never would have been able to correlate the battery high voltage warnings with load spikes and changes in the ZCell discharge current limits.
The data for the advanced graphs is stored for at least six months, and the solar yield and consumption data is stored for at least 5 years. The alarm logs don’t hang around that long – I suspect it may just be showing the last 1000 entries. Somewhat irritatingly, most of these are usually low battery alarms that we don’t care about (you see a lot of them during maintenance cycles).
The ZCell BMS and Victron Cerbo GX both need to be connected to the internet for firmware updates, remote support, and to work with the VRM portal. They don’t need to be connected 100% of the time, but they do want the connection for those reasons. The system will operate just fine if the internet is down though, and you don’t have to use the VRM portal if you don’t want to. I’ve put everything on a separate network, so I can access the BMS and the Cerbo console from my desktop/laptop/phone, but the BMS and Cerbo can’t do the reverse. It’s not that I don’t trust Redflow or Victron, it’s just sensible to keep systems that allow any form of remote access isolated from the rest of your internal network.
The BMS and Cerbo both provide WiFi APs for initial configuration. I’ve since turned those off. I can use the wired connection to the BMS to turn the WiFi back on if I ever need it, and I can do the same for the Cerbo from its console.
The Cerbo and MPPT both speak Bluetooth, so you can use the VictronConnect app to talk to them from your phone, to view status and update firmware.
The ZCell BMS has a REST API, which is documented in the online help available from its web interface. This is how I was able to write a few scripts to log the battery state of charge, the contactor state, and the voltage and warning indicator status:
A bunch of Victron stuff is open source, notably Venus OS, which is the software that runs on the Cerbo. It looks fairly straightforward to get root on these things. It’s also possible to hook up the Victron kit to Home Assistant. I haven’t tried actually doing any of these things yet myself.
Having switched to Tariff 93 and gotten a fancy new electricity meter, we were able to use the Aurora Plus service from the power company. This provides a web interface and mobile phone app for viewing your power usage down to the hour, colour coded to indicate peak and off-peak usage and solar feed in. You also get a monthly, rather than quarterly bill. This all sounded pretty neat, so I signed up.
Aside from having used it to confirm that the figures I get from the VRM Portal and the power company actually match, it’s turned out to not be especially great.
While the electricity meter records usage information every 15 minutes, it’s only sent back to Aurora once per day, so the usage data is never actually live. Sure, you can see history, but this is useless for adjusting your power consumption on the fly. Compare that with the VRM Portal or Cerbo console, where I can see at a glance how much power is being used and how much solar is being generated right now and decide to turn appliances on or off appropriately.
Also, it nags you to give them money. It’s continually telling me I have a big red negative dollar balance, and periodically notifies me to “top up now to get ahead of your monthly bill”. No. I will pay the bill by the due date listed on the bill, after the bill actually arrives.
Finally, it costs eleven cents a day for the privilege of having the service. Under the circumstances I think I’m going to cancel it and just go back to quarterly billing.
Update 2022-06-17: I never got around to cancelling (you can’t do it online – you actually have to call and speak to someone), but I just received a notification saying “From 1 July 2022 you will no longer be charged 11c/day for aurora+”, so I’ve decided to keep it.
We’ve done this a number of times over the last decade, from OSDC to LCA. The idea is to provide a free psychologist or counsellor at an in-person conference. Attendees can do an anonymous booking by taking a stickynote (with the timeslot) from a signup sheet, and thus get a free appointment.
Many people find it difficult taking the first (very important) step towards getting professional help, and we’ve received good feedback that this approach indeed assists.
So far we’ve always focused on open source conferences. Now we’re moving into information security! First BrisSEC 2022 (Friday 29 April at the Hilton in Brisbane, QLD) and then AusCERT 2022 (10-13 May at the Star Hotel, Gold Coast QLD). The awesome and geek friendly Dr Carla Rogers will be at both events.
How does this get funded? Well, we’ve crowdfunded some, nudged sponsors, most mostly it gets picked up by the conference organisers (aka indirectly by the sponsors, mostly).
If you’re a conference organiser, or would like a particular upcoming conference to offer this service, do drop us a line and we’re happy to chase it up for you and help the organisers to make it happen. We know how to run that now.
In-person is best. But for virtual conferences, sure contact us as well.
The post Free psychologist service at conferences: April 2022 update first appeared on BlueHackers.org.The hack day didn’t go as well as I hoped, but didn’t go too badly. There was smaller attendance than hoped and the discussion was mostly about things other than FLOSS. But everyone who attended had fun and learned interesting things so generally I think it counts as a success. There was discussion on topics including military hardware, viruses (particularly Covid), rocketry, and literature. During the discussion one error in a Wikipedia page was discussed and hopefully we can get that fixed.
I think that everyone who attended will be interested in more such meetings. Overall I think this is a reasonable start to the Hack Day meetings, when I previously ran such meetings they often ended up being more social events than serious hacking events and that’s OK too.
One conclusion that we came to regarding meetings is that they should always be well announced in email and that the iCal file isn’t useful for everyone. Discussion continues on the best methods of announcing meetings but I anticipate that better email will get more attendance.
My OSS work in March was a bit of a grind, but I made progress nonetheless. I worked mostly on relocating and refactoring the Hanami action and view integration code.
For some context, it was back in May 2020 that I first write the action/view integration code for Hanami 2.0. Back then, there were a couple of key motivators:
Hanami::View within a slice would give you a view class fully integrated with the Hanami application.Since then, we’ve learnt a few things:
Once I finished my work on the concrete slice classes last month, I decided that now was the time to address these concerns, to bring the action and view class integrations back into the hanami gem, and to take a different approach to activating the integration code.
The work in progress is over in this PR, and thankfully, it’s nearly done!
The impact within Hanami 2 applications will be fairly minimal: the biggest change is that your base action and view classes will now inherit from application variants:
# slices/main/lib/action/base.rb
require "hanami/application/action"
module Main
module Action
class Base < Hanami::Application::Action
# Previously, this inherited from Hanami::Action
end
end
end
By using this explicit application superclass for actions and views, we hopefully make it easier for our users to understand and distinguish between the integrated and standalone variants of these classes. This distinct superclass should also provide us a clear place to hang extra API documentation relating to the integrated behavior of actions and views.
More importantly for the overall experience, Hanami::Application::Action and Hanami::Application::View are both now kept within the core hanami gem. While the framework heads into this final stretch of work before 2.0 final, this will allow us to keep together the aspects of the integration that tend to change together, giving us our best chance at providing a tested, reliable, streamlined actions and views experience.
This is a pragmatic move above all else — we’re a team with little time, so the more we can do to give ourselves confidence in this integrated experience working properly, like having all the code and tests together in one place, the quicker we should be able to get to the 2.0 release. Longer term, we’ll want to provide a first-class integration story for third party components, and I believe we can lead the way in how we deliver that via our actions and views, but that’s now firmly a post-2.0 concern in my mind.
In the meantime, I did take this opportunity to rethink and provide some better hooks for classes like Hanami::Application::View to integrate with the rest of the framework, chiefly via a new Hanami::SliceConfigurable module. You can see how it works by checking out the code for Hanami::Application::View itself:
# frozen_string_literal: true
require "hanami/view"
require_relative "../slice_configurable"
require_relative "view/slice_configured_view"
module Hanami
class Application
class View < Hanami::View
extend Hanami::SliceConfigurable
def self.configure_for_slice(slice)
extend SliceConfiguredView.new(slice)
end
end
end
end
Any class that extends Hanami::SliceConfigurable will have its own .configure_for_slice(slice) method called whenever it is sublcassed within a module namespace that happens to match the namespace managed by an Hanami slice. Using the slice object passed to that hook, that class can then read any slice- or application-level config to set itself up to integrate with the application.
In the example above, we extend a slice-specific instance of SliceConfiguredView, which will copy across application level view configs, as well configure the view’s part namespaces to match the slice’s namespace. The reason we build a module instance here (this module builder pattern is a whole technique that I’ll gladly go into one day, but it’s a little out of scope for these monthly updates) is so that we don’t have to keep any trace of the slice as state on the class after we’re done using it for configuration, making it so the resulting class is as standalone as possible, and not offering any way for its users to inadvertently couple themselves to the whole slice instance.
Overall, this change is feeling quite settled now. All the code has been moved in and refactored, and all that’s left is a final polishing pass before merge, which I hope I can get done this week! A huge thank you to Sean Collins for his original work in proposing an adjustment to our action integration code. It was Sean’s feedback and exploratory work here that got me off the fence here, and made it so easy to get started with these changes!
That’s it for me for now. See you all again next month, hopefully with some more continued core framework polishing.
Background
In 2018 Intel x86 microprocessors were particularly susceptible to the Meltdown security vulnerabilities, whereby any system that allowed out-of-order execution was potentially vulnerable to an attack where a process could read memory that it was not authorised to do so [1]. As this vulnerability did not affect AMD processors, suggestions were raised that AMD could be a more effective choice for HPC environments. In the same year, as a topic at International Supercomputing Conference, the European Processor Initiative (EPI), a program to develop processors for domestic supercomputers, based on ARM (Advanced RISC Machine) and RISC-V, "European Processor Accelerator" system-on-a-chip [2]. With the benefits of four years of hindsight, it is valuable to consider the current trends in microprocessor architecture.
A wide analysis was recently presented at HPCAsia2021 [3] that conducts a detailed analysis of the trends of the last 27 year from over 10,000 computers from the Top500, with even more detailed analysis of 28 systems from 2009 to 2019. Of particular note in this context is the steady growth in recent years of heterogeneous supercomputers i.e., systems with GPGPUs to 28% of the Top500 with an increase of 1% per annum. The authors note: "We expect this increasing trend will continue, particularly for addressing technological limitations controlling the power consumption", a claim that could certainly be justified with the use of Nvidia GPUs or Intel Xeon Phi (discontinued as of 2020) as co-processors. At the time most systems were clustered around 1 GB per core with only three contemporary systems at 2 GB per CPU core, there was a wide variation in compute performance and parallel file system storage, and an increasing use among the most powerful systems of burst buffer storage to overcome the performance gap between memory and the file system.
Recent Developments
It is also necessary to explore trend changes in microprocessor architecture, which are not covered by the HPCAsia paper, especially over the last eighteen months. In particular, there is an increasing growth of AMD EPYC processors, increasing its share almost five-fold in the top 500 in the June 2021 list compared to a year earlier, and present in half of the 58 new entries on the June 2021 list [4]. Also of note is AMD's HPC Fund for COVID-19 research, which includes a donation system with EPYC processors and Instinct accelerators. Specifically, AMD systems made up 49 of the systems compared to 11 a year ago, include 3 new entrants in the top 10, however none of these are systems with Instinct accelerators [5]. Intel is still dominant of course, with 431 systems in the Top 500 in July 2021, albeit down from 470 the previous year.
In the November 2021 list, there was one new entry in to the top 10 list, an AMD system (the Microsoft Azure system, "Voyager-EUS2") with NVIDIA A100 GPUs. In November 2021, AMD had four systems, Fujitsu one (albeit the first), Sunway one, IBM Power 9 two, and Intel Xeon two [6]. The total Top500 share for AMD rose to 73 for AMD for November 2021, and Intel's reduced to 401, although Intel added 42 new systems to AMDs 28 (however, AMDs core count of the new entries was higher). Much of this trend is driven by the EPYC Milan series, launched in March 2021, which compares strongly to Intel's Ice Lake, which came out a month later. Among accelerators, Nvidia's share in November 2021 was 143, roughly stable compared to the previous values of 138 and 141; Nvidia GPUs are in seven of the top 10 clusters and 14 of the top 20. It also can be stated with complete certainty that another AMD system, LUMI from a European consortium, will be in the top 10 at the next release [7]
Whilst the European Union's home-grown ARM/RISC-V exascale systems are not planned to be released in the public until 2023, it remains within its planned timeline, with the completion of stage one at the end of 2021 which included Rhea general-purpose processor, using ARM Neoverse V1 and with 29 RISC-V cores [8], with an emphasises on security, power utilisation, and integration with the European automotive industry. The EPI team heavily advocates the capacity of the open-source RISC-V acceleration to transform the HPC space, with a number of architectures including long-vector processing units, stencil and tensor accelerators, and variable precision accelerators.
At the moment, however, ARM-based systems only make up six computers in the Top500; however, that includes the world's top system, Fugaku, which is the world's first exascale system and has held the number one position since June 2020. Of the six ARM-based systems, five use Fujitsu processors, while the other one uses Marvell’s ThunderX2, a now-cancelled line. The prospect of ARM/RISC-V processors increasing their share in HPC depends very much on assembly-level or compiler software development. Complex Instruction Set Computers (CISC), such as x86, provide a more comprehensive set of tools but at a cost of flexibility and power-consumption. RISC systems, in contrast, have a smaller instruction set and, whilst requiring more cycles to achieve the same task in most cases, can flexibly add new criteria and have a much lower power consumption for the same tasks.
In terms of SPEC (Standard Performance Evaluation Corporation) SPECspeed2017 and SPECrate2017 tests AMD's Milan outperforms Intel's Ice Lake in each of the 16 tests conducted in one and two socket versions, and for integer and floating point performance ratings [9]; this is perhaps unsurprising given that Milan offers more cores per processor (64 vs 40, albeit with individual cores at c25% lower speeds), increased PCIe lanes, very large L3 cache (up to 768 MB on the Milan-X with 3D-Cache) etc. The L3 cache will be particularly significant for simulation applications based on many data points and rapid read-writes, such as molecular modelling, climate and weather simulations, computational fluid dynamics, finite element analysis, etc. Further, the Milan also offers up to 42% lower power usage and 50% less rack space requirements.
Whilst the Intel Ice Lake is a very significant advance from its Cannon Lake and Whiskey Lake predecessors, essentially it seems to be a generation behind AMD Epyc. However, it is worth noting that since Ice Lake, Intel's server generation has been upgraded to Rocket Lake with Sapphire Rapids promised in 2022 (Adler Lake, the equivalent desktop system is already available). Nevertheless, a comparison between Rocket Lake (Intel Core i9-11900T) and AMD's Milan Zen 3 (Epyc 75F3) server specifications also reveals that the AMD Milan is ahead. The Sapphire Rapids (originally expected last quarter 2021) does promise 64GB of L4 cache, this is obviously a far cry from Milan-X's 768 MB.
Perhaps it should be expected that Intel would offer heavy discounts to provide a more competitive offering, given the advantage to AMD systems on many baseline costs as well as performance (after all, Intel tried very hard in the US Supreme Court to invalidate AMD and other x86 licenses). Another advantage that is notable is that Intel offers a greater variety of Ice Lake systems compared to Milan systems, thus providing greater specialisation for diverse workloads which extends over other micro-architectures. For example, Intel's Alder Lake microprocessors are superior to equivalent AMD's Ryzen 5000 series on desktop systems [10]. Whilst this advantage has led to some rather up-beat end-of-year remarks from Intel, it would be wrong to automatically make the same comparison on server systems or, for that matter, to market share. Whilst in the past AMD has struggled financially, this has not been the case for some years, with obvious benefits to consumers: "AMD has literally never been in a stronger position to face Intel’s challenge. The company has now been profitable every year since 2018... What we actually have for the first time in at least 20 years is two financially stable and healthy x86 CPU design firms slugging it out for your dollars." [11]
Whilst both AMD and Intel use the same ISA, the implantation in micro-architecture is different. This initiates another area that Intel systems always enjoy an advantage due to market share is with extensions to the x86 instruction set architecture (e.g., AVX SIMD 256, AVX SIMD 512, for Intel, XOP for AMD, etc) and hardware-assisted virtualisation. For example, in the previous generation of micro-architecture extensions AMD adopted an over-clocking approach to replicate the performance of extensions on Intel micro-architectures [12]. As it turned out (c.f., Meltdown) Intel's own performance metrics were on less than secure foundations. Today, whilst AMD does make an effort to incorporate the instruction set extensions from Intel it is quite possible that performance can be suboptimal, ranging from "lower performance" to "export this environment variable for compatibility" for particular applications. One example of this has been seen with Gaussian and MATLAB applications, which requires an additional environment variable. These differences, and requirements for environment modifications, are most evident in software that makes use of the Intel MKL [13]. Note that with hardware-assisted virtualisation (e.g., Intel HAXM) competitors do not even pretend to aim for compatibility.
Overall, it must be said that whilst Intel's market position certainly remains in a majority in major HPC systems and it provides solid products with incremental improvements and a diverse range, the Milan-series of EPYC processors from Intel have kept match with comparable Intel systems and, with the enormous L3 cache, have really considered pinpointed where "big data" problems are in HPC systems. This has been a known problem for quite a while, between memory and the processor. Whilst many systems have talked about various solutions (such as reviving the old PDP-11 core memory idea with cache NVM), this is really the first architecture that has addressed the problem at scale. It would be unwise to overlook this opportunity as certainly does not take advantage of this problem the University of Melbourne's flagship supercomputer would lose significant ground and fall out from being a world-class system. All other things being roughly equal, any microarchitecture that deals with the processor-memory gap - Intel, AMD, or ARM - should be considered as a priority.
Certainly, a heterogeneous system in terms of processors is possible, as long as system engineers are aware of the potential need for build switches and multiple builds. This is no simple task; specific builds for heterogeneous systems that take advantage of the specific architecture is an often overlooked hurdle, especially when the software in question has a complex collection of dependent builds.
GPUs and Accelerators
In the GPU and accelerator space, the release of AMD's Instinct MI210 and MI210X in November 2021 can be compared very favourably to Nvidia's A100 with 80GB GPU released in November 2020 [14], although one can expect that Nvidia will have a major release with "Ampere Next" (aka "Hopper"), expected in March 2022, although it would require a very significant improvement (around fivefold across 64-bit floating point vector and matrix compute) to close the performance gap. Implied research [15] suggests that: "Coming to the performance numbers, the 'GPU-N' (presumably Hopper GH100) produces 24.2 TFLOPs of FP32 (24% increase over A100) and 779 TFLOPs FP16 (2.5x increase over A100) which sounds really close to the 3x gains that were rumored for GH100 over A100. Compared to AMD's CDNA 2 'Aldebaran' GPU on the Instinct MI250X accelerator, the FP32 performance is less than half (95.7 TFLOPs vs 24.2 TFLOPs) but the FP16 performance is 2.15x higher." [16]
For their own part, albeit delayed by a year more than than expected, Intel will certainly be launching the "Ponte Vecchio" Xe HPC GPU, although the promise of "petaflops in your palm" is quite plausible from released specifications. "What stands out almost immediately is the amount of L2 cache leveraged by Ponte Vecchio: 408MB vs just 16MB on the Instinct MI200 and 40MB on the A100. However, in terms of raw compute, AMD has a lot more vector units: 7,040 across 110 CUs, resulting in an overall throughput of 95.7 TFLOPs, compared to just 19.5 TFLOPs on the NVIDIA A100. However, each of Intel’s CUs will be better fed with much higher cache hit rates and wider XMX matrix units. The MI250X has an 8192-bit wide bus paired with 128GB of HBM2e memory capable of transfer rates of up to 3.2TB/s. Intel hasn’t shared any details regarding the bus width or memory configuration of PVC just yet." [17]
At the same time, technical management must keep a careful eye on the development of stage 2 of the European Processor Initiative and prepare in their mind that the next dominant processor type in high performance computing may very well not only be based on ARM/RISC-V systems, but even provided with open-source principles. This would be an extraordinary achievement as the consumer benefits of competitive performance without vendor-lockin would be enormous. There is even an international shift in this regard [18]; the European Union's EPI is explicitly aimed at reducing reliance on foreign technologies, which other major international powers are also engaging. In 2021, Russia revealed a programme based around RISC-V parts, combined with that country's Elbrus, and the People's Republic of China also has a RISC-V chip family (XiangShan) for personal computers, following the use of their Matrix-2000 and Sunway SW26010 RISC processors as a response to US sanctions on the export of Intel Xeon Phi systems.
Summary
* Heterogeneous systems (CPU/GPU) are now normal in HPC and this will expand to include other architectures.
* AMD Zen CPUs are increasing as a proportion of the Top500 and are overcoming MLK/AVX-512 concerns.
* RISC systems are currently a very small percentage, but include the top system. RISC-V will be important in the future.
* Despite very competitive hardware offerings from AMD and Intel, GPUs are still overwhelming dominated by Nvidia.
References
[1] CVE-2017-5754 Detail
https://www.cve.org/CVERecord?id=CVE-2017-5754
[2] Lev Lafayette, New Developments in Supercomputing, Presentation to Linux Users of Victoria, September 4, 2018
http://levlafayette.com/files/2018luvsupercomputers.pdf
[3] Awais Khan, Hyogi Sim, Sudharshan S. Vazhkudai, Ali R. Butt, Youngjae Kim. An Analysis of System Balance and Architectural Trends Based on Top500 Supercomputers. HPCAsia2021: International Conference on High Performance Computing in Asia-Pacific Region, Association for Computing Machinery, 2021
[4] AMD Leads High Performance Computing Towards Exascale and Beyond, June 28, 2021
https://ir.amd.com/news-events/press-releases/detail/1012/amd-leads-high...
[5] AMD Quadrupled EPYC’s Top 500 Supercomputer Share In A Year, June 28, 2021
https://www.crn.com/news/components-peripherals/amd-quadrupled-epyc-s-to...
[6] November 2021 Top 500
https://www.top500.org/lists/top500/2021/11/
[7] Kurt Lust, EasyBuild on LUMI, a pre-exascale supercomputer, Proceedings of the 7th EasyBuild User Meeting, 24-28 January, 2022
[8] EPI Announces Successful Conclusion of European Processor Initiative Phase One, December 22, 2021
https://www.hpcwire.com/off-the-wire/epi-announces-successful-conclusion...
[9] AMD 3rd Gen Epyc CPUs Put Intel Xeon SPS on Ice in the Datacenter, NextPlatform, July 29, 2021
https://www.nextplatform.com/2021/07/29/amd-3rd-gen-epyc-cpus-put-intel-...
Nota Bene: Article sponsored by AMD.
[10] Paul Alcorn, CPU Benchmarks and Hierarchy 2022: Intel and AMD Processors Ranked, Tom's Hardware, January 8, 2022
https://www.tomshardware.com/reviews/cpu-hierarchy,4312.html
[11] Joel Hruska, Intel’s CEO is Wrong About AMD, ExtremeTech, January 19, 2022
https://www.extremetech.com/computing/330685-intels-ceo-is-wrong-about-amd
[12] Joel Hruska, Analyzing Bulldozer: Why AMD’s chip is so disappointing, ExtremeTech, October 24, 2011
https://www.extremetech.com/computing/100583-analyzing-bulldozers-scalin...
[13] Mingru Yang, MKL has bad performances on an AMD CPU, Nov 18, 2019
https://sites.google.com/a/uci.edu/mingru-yang/programming/mkl-has-bad-p...
[14] AMD Instinct MI200 Series Accelerator, December 2021
https://www.amd.com/system/files/documents/amd-instinct-mi200-datasheet.pdf
[15] Yaosheng Fu, Evgeny Bolotin, Niladrish Chatterjee et al, ACM Transactions on Architecture and Code Optimization, Volume 19 Issue 1 March 2022
(pre-release available online December 2021)
https://doi.org/10.1145/3484505
[16] Hassan Mujtaba, Mysterious NVIDIA ‘GPU-N’ Could Be Next-Gen Hopper GH100 In Disguise, December 21, 2021
https://wccftech.com/mysterious-nvidia-gpu-n-could-be-next-gen-hopper-gh...
[17] Areej Syed, Intel Ponte Vecchio Specs. HarwareTimes, November 15, 2021
https://www.hardwaretimes.com/intel-ponte-vecchio-specs-1024-cores-408mb...
[18] Gareth Halfacree, First RISC-V computer chip lands at the European Processor Initiative, The Register, 22 Sep, 2021
https://www.theregister.com/2021/09/22/first_riscv_epi_chip/
The March 2022 meeting went reasonably well. Everyone seemed to have fun and learn useful things about computers. After 2 hours my Internet connection dropped out which stopped the people who were using VMs from doing the tutorial. Fortunately most people seemed ready for a break so we ended the meeting. The early and abrupt ending of the meeting was a disappointment but it wasn’t too bad, the meeting would probably only have gone for another half hour otherwise.
The BigBlueButton system was shown to be effective for training when one person got confused with the Debian package configuration options for Postfix and they were able to share the window with everyone else to get advice. I was also confused by that stage.
The main feature of the meeting was training in setting up a mailserver with Postfix, here are the lecture notes for it [1]. The consensus at the end of the meeting was that people wanted more of that for the April meeting. So for the April meeting I will add to the Postfix Training to include SpamAssassin, SPF, DKIM, and DMARC. For the start of the next meeting instead of providing bare Debian installations for the VMs I’ll provide a basic Postfix/Dovecot setup so people can get straight into SpamAssassin etc.
For the May meeting training on SE Linux was requested.
Towards the end of the meeting we discussed Matrix and federated social media. LUV has a Matrix server and I can give accounts to anyone who’s involved in FOSS in the Australia and New Zealand area. For Mastodon the NZOSS Mastodon server [2] seems like a good option. I have an account there to try Mastodon, my Mastodon address is @etbe@mastodon.nzoss.nz .
We are going to make Matrix a primary communication method for the Flounder group, the room is #flounder:luv.asn.au . My Matrix address is @etbe:luv.asn.au .
We now have a mailing list see https://lists.linux.org.au/mailman/listinfo/flounder for information, the address to post to the list is flounder@lists.linux.org.au..
We also have a new URL for the blog and events. See the right sidebar for the link to the iCal file which can be connected to Google Calendar and most online calendaring systems.
The 2022 eResearch New Zealand conference was held on the 9th to 11th of February, co-hosted by New Zealand eScience Infrastructure (NeSI), REANNZ, and Genomics Aotearoa, and preceded by Carpentaries Connect, a community of institutions and universities that run Software Carpentry, Data Carpentry, and Library Carpentry workshops.
A brief presentation was given to the conference on the HPC Certification Forum and, in particular, a call for participation from New Zealand. The key elements of the presentation included identifying the growth of large datasets and complex problems, the demand for training by researchers, the formation and history of the HPC Certification Forum to provide an "HPC driving license", and the relationship between examinable material by the Forum and the delivery of content by institutions.
Aotearoa-New Zealand is identified as a country that could make a significant contribution to the HPC Certification Forum. In the past, it has made significant strides in reviewing and reviving the HPC Carpentry, and at least one institution (University of Waikato) has taught HPC usage to research scientists outside of specialist computer science courses. The range of potential participation was provided and encouraged to attendees.
We just had the first Flounder meeting which went well. Had some interesting discussion of storage technology, I learnt a few new things. Some people did the ZFS training and BTRFS training and we had lots of interesting discussion.
Andrew Pam gave a summary of new things in Linux and talked about the sites lwn.net, gamingonlinux.com, and cnx-software.com that he uses to find Linux news. One thing he talked about is the latest developments with SteamDeck which is driving Linux support in Steam games. The site protondb.com tracks Linux support in Steam games.
We had some discussion of BPF, for an introduction to that technology see the BPF lecture from LCA 2022.
The next meeting (Saturday 5th of March 1PM Melbourne time) will focus on running your own mail server which is always of interest to people who are interested in system administration and which is probably of more interest than usual because of Google forcing companies with “a legacy G Suite subscription” to transition to a more expensive “Business family” offering.
I “recently” wrote about obtaining a new (to me, actually quite old) computer over in The Apple Power Macintosh 7200/120 PC Compatible (Part 1). This post is a bit of a detour, but may help others understand why some images they download from the internet don’t work.
Disk partitioning is (of course) a way to divide up a single disk into multiple volumes (partitions) for different uses. While the idea is similar, computer platforms over the ages have done this in a variety of different ways, with varying formats on disk, and varying limitations. The ones that you’re most likely to be familiar with are the MBR partitioning scheme (from the IBM PC), and the GPT partitioning scheme (common for UEFI systems such as the modern PC and Mac). One you’re less likely to be familiar with is the Apple Partition Map scheme.
The way all IBM PCs and compatibles worked from the introduction of MS-DOS 2.0 in 1983 until some time after 2005 was the Master Boot Record partitioning scheme. It was outrageously simple: of the first 512 byte sector of a disk, the first 446 bytes was for the bootstrapping code (the “boot sector”), the last 2 bytes were for the magic two bytes telling the BIOS this disk was bootable, and the other 64 bytes were four entries of 16 bytes, each describing a disk partition. The Wikipedia page is a good overview of what it all looks like. Since “four partitions should be enough for anybody” wasn’t going to last, DOS 3.2 introduced “extended partitions” which was just using one of those 4 partitions as another similar data structure that could point to more partitions.
In the 1980s (similar to today), the Macintosh was, of course, different. The Apple Partition Map is significantly more flexible than the MBR on PCs. For a start, you could have more than four partitions! You could actually have a lot more than four partitions, as the Apple Partition Map is a single 512-byte sector for each partition, and the partition map is itself a partition. Instead of being block 0 (like the MBR is), it actually starts at block 1, and is contiguous (The Driver Descriptor Record is what’s at block 0). So, once created, it’s hard to extend. Typically it’d be created as 64×512-byte entries, for 32kb… which turns out is actually about enough for anyone.
The Inside Macintosh reference on the SCSI Manager goes through more detail as to these structures. If you’re wondering what language all the coding examples are in, it’s Pascal – which was fairly popular for writing Macintosh applications in back in the day.
But the actual partition map isn’t the “interesting” part of all this (and yes, the quotation marks are significant here), because Macs are pretty darn finicky about what disks to boot off, which gets to be interesting if you’re trying to find a CD-ROM image on the internet from which to boot, and then use to install an Operating System from.
… the preferred programming language changes.
I never programmed a 1980s Macintosh actually in the 1980s. It was sometime in the early 1990s that I first experienced Microsoft Basic for the Macintosh. I’d previously (unknowingly at the time as it was branded Commodore) experienced Microsoft BASIC on the Commodore 16, Commodore 64, and even the Apple ][, but the Macintosh version was something else. It let you do some pretty neat things such as construct a GUI with largely the same amount of effort as it took to construct a Text based UI on the micros I was familiar with.
Okay, to be fair, I’d also dabbled in Microsoft QBasic that came bundled with MS-DOS of the era, which let you do a whole bunch of graphics – so you could theoretically construct a GUI with it. Something I did attempt to do. Programming on the Mac was so much easier to construct a GUI.
Of course, Microsoft Basic wasn’t the preferred way to program on the Macintosh. At that time it was largely Pascal, with C being something that also existed – but you were going to see Pascal in Inside Macintosh. It was probably somewhat fortuitous that I’d poked at Pascal a bit as something alternate to look at in the high school computing classes. I can only remember using TurboPascal on DOS systems and never actually writing Pascal on the Macintosh.
By the middle part of the 1990s though, I was firmly incompetently writing C on the Mac. No doubt the quality of my code increased after I’d done some university courses actually covering the language rather than the only practical way I had to attempt to write anything useful being looking at Inside Macintosh examples in Pascal and “C for Dummies” which was very not-Macintosh. Writing C on UNIX/Linux was a lot easier – everything was made for it, including Actual Documentation!
Anyway, in the early 2000s I ran MacOS X for a bit on my white iBook G3, and did a (very) small amount of any GUI / Project Builder (the precursor to Xcode) related development – instead largely focusing on command line / X11 things. The latest coolness being to use Objective-C to program applications (unless you were bringing over your Classic MacOS Carbon based application, then you could still write C). Enter some (incompetent) Objective-C coding!
Then Apple went to x86, so the hardware ceased being interesting, and I had no reason to poke at it even as a side effect of having hardware that could run the software stack. Enter a long-ass time of Debian, Ubuntu, and Fedora on laptops.
Come 2022 though, and (for reasons I should really write up), I’m poking at a Mac again and it’s now Swift as the preferred way to write apps. So, I’m (incompetently) hacking away at Swift code. I have to admit, it’s pretty nice. I’ve managed to be somewhat productive in a relative short amount of time, and all the affordances in the language gear towards the kind of safety that is a PITA when coding in C.
So this is my WIP utility to be able to import photos from a Shotwell database into the macOS Photos app:
There’s a lot of rough edges and unknowns left, including how to actually do the import (it looks like there’s going to be Swift code doing AppleScript things as the PhotoKit API is inadequate). But hey, some incompetent hacking in not too much time has a kind-of photo browser thing going on that feels pretty snappy.
Recently I read Michael Snoyman’s post on combining Axum, Hyper, Tonic and Tower. While his solution worked, it irked me – it seemed like there should be a much tighter solution possible.
I can deep dive into the code in a later post perhaps, but I think there are four points of difference. One, since the post was written Axum has started boxing its routes : so the enum dispatch approach taken, which delivers low overheads actually has no benefits today.
Two, while writing out the entire type by hand has some benefits, async code is much more pithy.
Thirdly, the code in the post is entirely generic, except the routing function itself.
And fourth, the outer Service<AddrStream> is an unnecessary layer to abstract over: given the similar constraints – the inner Service must take Request<..>, it is possible to just not use a couple of helpers and instead work directly with Service<Request...>.
So, onto a pithier version.
First, the app server code itself.
use std::{convert::Infallible, net::SocketAddr};
use axum::routing::get;
use hyper::{server::conn::AddrStream, service::make_service_fn};
use hyper::{Body, Request};
use tonic::async_trait;
use demo::echo_server::{Echo, EchoServer};
use demo::{EchoReply, EchoRequest};
struct MyEcho;
#[async_trait]
impl Echo for MyEcho {
async fn echo(
&self,
request: tonic::Request<EchoRequest>,
) -> Result<tonic::Response<EchoReply>, tonic::Status> {
Ok(tonic::Response::new(EchoReply {
message: format!("Echoing back: {}", request.get_ref().message),
}))
}
}
#[tokio::main]
async fn main() {
let addr = SocketAddr::from(([0, 0, 0, 0], 3000));
let axum_service = axum::Router::new().route("/", get(|| async { "Hello world!" }));
let grpc_service = tonic::transport::Server::builder()
.add_service(EchoServer::new(MyEcho))
.into_service();
let both_service =
demo_router::Router::new(axum_service, grpc_service, |req: &Request<Body>| {
Ok::<bool, Infallible>(
req.headers().get("content-type").map(|x| x.as_bytes())
== Some(b"application/grpc"),
)
});
let make_service = make_service_fn(move |_conn: &AddrStream| {
let both_service = both_service.clone();
async { Ok::<_, Infallible>(both_service) }
});
let server = hyper::Server::bind(&addr).serve(make_service);
if let Err(e) = server.await {
eprintln!("server error: {}", e);
}
}
Note the Router: it takes the two services and Fn to determine which to use on any given request. Then we just drop that composed service into make_service_fn and we’re done.
Next up we have the Router implementation. This is generic across any two Service<Request<...>> types as long as they are both Into<Bytes> for their Data, and Into<Box<dyn Error>> for errors.
use std::{future::Future, pin::Pin, task::Poll};
use http_body::combinators::UnsyncBoxBody;
use hyper::{body::HttpBody, Body, Request, Response};
use tower::Service;
#[derive(Clone)]
pub struct Router<First, Second, F> {
first: First,
second: Second,
discriminator: F,
}
impl<First, Second, F> Router<First, Second, F> {
pub fn new(first: First, second: Second, discriminator: F) -> Self {
Self {
first,
second,
discriminator,
}
}
}
impl<First, Second, FirstBody, FirstBodyError, SecondBody, SecondBodyError, F, FErr>
Service<Request<Body>> for BinaryRouter<First, Second, F>
where
First: Service<Request<Body>, Response = Response<FirstBody>>,
First::Error: Into<Box<dyn std::error::Error + Send + Sync>> + 'static,
First::Future: Send + 'static,
First::Response: 'static,
Second: Service<Request<Body>, Response = Response<SecondBody>>,
Second::Error: Into<Box<dyn std::error::Error + Send + Sync>> + 'static,
Second::Future: Send + 'static,
Second::Response: 'static,
F: Fn(&Request<Body>) -> Result<bool, FErr>,
FErr: Into<Box<dyn std::error::Error + Send + Sync>> + Send + 'static,
FirstBody: HttpBody<Error = FirstBodyError> + Send + 'static,
FirstBody::Data: Into<bytes::Bytes>,
FirstBodyError: Into<Box<dyn std::error::Error + Send + Sync>> + 'static,
SecondBody: HttpBody<Error = SecondBodyError> + Send + 'static,
SecondBody::Data: Into<bytes::Bytes>,
SecondBodyError: Into<Box<dyn std::error::Error + Send + Sync>> + 'static,
{
type Response = Response<
UnsyncBoxBody<
<hyper::Body as HttpBody>::Data,
Box<dyn std::error::Error + Send + Sync + 'static>,
>,
>;
type Error = Box<dyn std::error::Error + Send + Sync + 'static>;
type Future =
Pin<Box<dyn Future<Output = Result<Self::Response, Self::Error>> + Send + 'static>>;
fn poll_ready(
&mut self,
cx: &mut std::task::Context<'_>,
) -> std::task::Poll<Result<(), Self::Error>> {
match self.first.poll_ready(cx) {
Poll::Ready(Ok(())) => match self.second.poll_ready(cx) {
Poll::Ready(Ok(())) => Poll::Ready(Ok(())),
Poll::Ready(Err(e)) => Poll::Ready(Err(e.into())),
Poll::Pending => Poll::Pending,
},
Poll::Ready(Err(e)) => Poll::Ready(Err(e.into())),
Poll::Pending => Poll::Pending,
}
}
fn call(&mut self, req: Request<Body>) -> Self::Future {
let discriminant = { (self.discriminator)(&req) };
let (first, second) = if matches!(discriminant, Ok(false)) {
(Some(self.first.call(req)), None)
} else if matches!(discriminant, Ok(true)) {
(None, Some(self.second.call(req)))
} else {
(None, None)
};
let f = async {
Ok(match discriminant.map_err(Into::into)? {
true => second
.unwrap()
.await
.map_err(Into::into)?
.map(|b| b.map_data(Into::into).map_err(Into::into).boxed_unsync()),
false => first
.unwrap()
.await
.map_err(Into::into)?
.map(|b| b.map_data(Into::into).map_err(Into::into).boxed_unsync()),
})
};
Box::pin(f)
}
}
Interesting things here – I use boxed_unsync to abstract over the body concrete type, and I implement the future using async code rather than as a separate struct. It becomes much smaller even after a few bits of extra type constraining.
One thing that flummoxed me for a little was the need to capture the future for the underlying response outside of the async block. Failing to do so provokes a 'static requirement which was tricky to debug. Fortunately there is a bug on making this easier to diagnose in rustc already. The underlying problem is that if you create the async block, and then dereference self, the type for impl of .first has to live an arbitrary time. Whereas by capturing the future immediately, only the impl of the future has to live an arbitrary time, and that doesn’t then require changing the signature of the function.
This is almost worth turning into a crate – I couldn’t see an existing one when I looked, though it does end up rather small – < 100 lines. What do you all think?
The first meeting will start at 1PM Australian Eastern time (Melbourne/Sydney) which is +1100 on Saturday the 5th of February.
I will start the video chat an hour early in case someone makes a timezone mistake and gets there an hour before it starts. If anyone else joins early we will have random chat until the start time (deliberately avoiding topics worthy of the main meeting). The link http://b.coker.com.au will redirect to the meeting URL on the day.
The first scheduled talk is a summary and discussion of free software related news. Anyone who knows of something new that excites them is welcome to speak about it.
The main event is discussion of storage technology and hands-on training on BTRFS and ZFS for those who are interested. Here are the ZFS training notes and here are the BTRFS training notes. Feel free to do the training exercises on your own VM before the meeting if you wish.
Then discussion of the future of the group and the use of FOSS social media. While social media is never going to be compulsory some people will want to use it to communicate and we could run some servers for software that is considered good (lots of server capacity is available).
Finally we have to plan future meetings and decide on which communication methods are desired.
The BBB instance to be used for the video conference is sponsored by NZOSS and Catalyst Cloud.
Since PM Scott Morrison did not announce the federal election date last week, it will now be held somewhere between March and May (see the post from ABC’s Antony Green for details). Various aspects of elections are covered in the Civics & Citizenship Australian Curriculum in Years 4, 5 and 6. Students are interested in […]
The post Covering the federal election, before the election first appeared on OpenSTEM Pty Ltd.Flounder is a new free software users group based in the Australia/NZ area. Flounder stands for FLOSS (Free Libre Open Source Software) down under.
Here is my blog post describing the initial idea, the comment from d3Xt3r suggested the name. Flounder is a group of fish that has species native to Australia and NZ.
The main aim is to provide educational benefits to free software users via an online meeting that can’t be obtained by watching YouTube videos etc in a scope that is larger than one country. When the pandemic ends we will keep running this as there are benefits to be obtained from a meeting of a wide geographic scope that can’t be obtained by meetings in a single city. People from other countries are welcome to attend but they aren’t the focus of the meeting.
Until we get a better DNS name the address http://b.coker.com.au will redirect to the BBB instance used for online meetings (the meeting address isn’t yet setup so it redirects to the blog). The aim is that there will always be a short URL for the meeting so anyone who has one device lose contact can quickly type the URL into their backup device.
The first meeting will be on the 5th of Feb 2022 at 1PM Melbourne time +1100. When we get a proper domain I’ll publish a URL for an iCal file with entries for all meetings. I will also find some suitable way for meeting times to be localised (I’m sure there’s a WordPress plugin for that).
For the hands-on part of the meetings there will be virtual machine images you can download to run on your own system (tested with KVM, should work with other VM systems) and the possibility of logging in to a running VM. The demonstration VMs will have public IPv6 addresses and will also be available through different ports on a single IPv4 address, having IPv6 on your workstation will be convenient for you but you can survive without it.
Linux Australia has a list of LUGs in Australia, is there a similar list for NZ? One thing I’d like to see is a list of links for iCal files for all the meetings and also an iCal aggregator that for all iCal feeds of online meetings. I’ll host it myself if necessary, but it’s probably best to do it via Linux Australia (Linux Australasia?) if possible.
I’m attending the https://linux.conf.au/ conference online this weekend, which is always a good opportunity for some sideline hacking.
I found something boneheaded doing that today.
There have been a few times while inventing the OpenHMD Rift driver where I’ve noticed something strange and followed the thread until it made sense. Sometimes that leads to improvements in the driver, sometimes not.
In this case, I wanted to generate a graph of how long the computer vision processing takes – from the moment each camera frame is captured until poses are generated for each device.
To do that, I have a some logging branches that output JSON events to log files and I write scripts to process those. I used that data and produced:
Two things caught my eye in this graph. The first is the way the baseline latency (pink lines) increases from ~20ms to ~58ms. The 2nd is the quantisation effect, where pose latencies are clearly moving in discrete steps.
Neither of those should be happening.
Camera frames are being captured from the CV1 sensors every 19.2ms, and it takes that 17-18ms for them to be delivered across the USB. Depending on how many IR sources the cameras can see, figuring out the device poses can take a different amount of time, but the baseline should always hover around 17-18ms because the fast “device tracking locked” case take as little as 1ms.
Did you see me mention 19.2ms as the interframe period? Guess what the spacing on those quantisation levels are in the graph? I recognised it as implying that something in the processing is tied to frame timing when it should not be.
This 2nd graph helped me pinpoint what exactly was going on. This graph is cut from the part of the session where the latency has jumped up. What it shows is a ~1 frame delay between when the frame is received (frame-arrival-finish-local-ts) before the initial analysis even starts!
That could imply that the analysis thread is just busy processing the previous frame and doesn’t get start working on the new one yet – but the graph says that fast analysis is typically done in 1-10ms at most. It should rarely be busy when the next frame arrives.
This is where I found the bone headed code – a rookie mistake I wrote when putting in place the image analysis threads early on in the driver development and never noticed.
There are 3 threads involved:
These 3 threads communicate using frame worker queues passing frames between each other. Each analysis thread does this pseudocode:
while driver_running:
Pop a frame from the queue
Process the frame
Sleep for new frame notification
The problem is in the 3rd line. If the driver is ever still processing the frame in line 2 when a new frame arrives – say because the computer got really busy – the thread sleeps anyway and won’t wake up until the next frame arrives. At that point, there’ll be 2 frames in the queue, but it only still processes one – so the analysis gains a 1 frame latency from that point on. If it happens a second time, it gets later by another frame! Any further and it starts reclaiming frames from the queues to keep the video capture thread fed – but it only reclaims one frame at a time, so the latency remains!
The fix is simple:
while driver_running:
Pop a frame
Process the frame
if queue_is_empty():
sleep for new frame notification
Doing that for both the fast and long analysis threads changed the profile of the pose latency graph completely.
This is a massive win! To be clear, this has been causing problems in the driver for at least 18 months but was never obvious from the logs alone. A single good graph is worth a thousand logs.
What does this mean in practice?
The way the fusion filter I’ve built works, in between pose updates from the cameras, the position and orientation of each device are predicted / updated using the accelerometer and gyro readings. Particularly for position, using the IMU for prediction drifts fairly quickly. The longer the driver spends ‘coasting’ on the IMU, the less accurate the position tracking is. So, the sooner the driver can get a correction from the camera to the fusion filter the less drift we’ll get – especially under fast motion. Particularly for the hand controllers that get waved around.
Poses are now being updated up to 40ms earlier and the baseline is consistent with the USB transfer delay.
You can also visibly see the effect of the JPEG decoding support I added over Christmas. The ‘red’ camera is directly connected to USB3, while the ‘khaki’ camera is feeding JPEG frames over USB2 that then need to be decoded, adding a few ms delay.
The latency reduction is nicely visible in the pose graphs, where the ‘drop shadow’ effect of pose updates tailing fusion predictions largely disappears and there are fewer large gaps in the pose observations when long analysis happens (visible as straight lines jumping from point to point in the trace):
Yes, the blog is still on. January 2004 I moved to WordPress, and it is still here January 2022. I didn’t write much last year (neither here, not experimenting with the Hey blog). I didn’t post anything to Instagram last year either from what I can tell, just a lot of stories.
August 16 2021, I realised I was 1,000 days till May 12 2024, which is when I become 40. As of today, that leads 850 days. Did I squander the last 150 days? I’m back to writing almost daily in the Hobonichi Techo (I think last year and the year before were mostly washouts; I barely scribbled anything offline).
I got a new Apple Watch Series 7 yesterday. I can say I used the Series 4 well (79% battery life), purchased in the UK when I broke my Series 0 in Edinburgh airport.
TripIt stats for last year claimed 95 days on the road. This is of course, a massive joke, but I’m glad I did get to visit London, Lisbon, New York, San Francisco, Los Angeles without issue. I spent a lot of time in Kuantan, a bunch of Langkawi trips, and also, I stayed for many months at the Grand Hyatt Kuala Lumpur during the May lockdowns (I practically stayed there all lockdown).
With 850 days to go till I’m 40, I have plenty I would like to achieve. I think I’ll write a lot more here. And elsewhere. Get back into the habit of doing. And publishing by learning and doing. No fear. Not that I wasn’t doing, but its time to be prolific with what’s been going on.
The post This thing is still on? first appeared on Colin Charles Agenda.
Blockchain. Cryptocurrency. Ethereum. NFTs. DAOs. Smart Contracts. web3. It’s impossible to avoid the blockchain hype machine these days, but it’s often just as difficult to decipher what it all means.
On top of that, discourse around web3 is extremely polarising: everyone involved is very keen to a) pick a team, and b) get you to join their team. If you haven’t picked a team, you must be secretly with the other team.
Max Read made a compelling argument that the web3 debate is in fact two different debates:
But, OK, what is the root disagreement, exactly? The way I read it there are two broad “is web3 bullshit?” debates, not just one, centered around the following questions:
Can the blockchain do anything that other currently existing technology cannot do and/or do anything better or more efficiently than other currently existing technology?
Will the blockchain form the architecture of the internet of the future (i.e. “web3”), and/or will blockchain-native companies and organizations become important and powerful?
Max Read — Is web3 bullshit?
I’m inclined to agree with Max’s analysis here: there’s a technical question, and there’s a business/cultural question. It’s hard to separate the two when every day sees new headlines about millions of dollars being stolen or scammed; or thousands of people putting millions of dollars into highly optimistic ventures. There are extreme positives and extreme negatives happening all the time in the web3 world.
With that in mind, I want to take a step back from the day-to-day excitement of cryptocurrency and web3, and look at some of the driving philosophies espoused by the movement.
There are a lot of differing viewpoints on web3, every individual has a slightly different take on it. There are three broad themes that stand out, however.
Blockchain-based technology is inherently distributed (with some esoteric caveats, but we can safely ignore them for now). In a world where the web centres around a handful of major services, where we’ve seen the harm that the likes of Facebook and YouTube can inflict on society, it’s not surprising that decentralisation would be a powerful theme drawing in anyone looking for an alternative.
Decentralisation isn’t new to the Internet, of course: it’s right there in the name. This giant set of “interconnected networks” has been decentralised from the very beginning. It’s not perfect, of course: oppressive governments can take control of the borders of their portion of the Internet, and we’ve come to rely on a handful of web services to handle the trickier parts of using the web. But fundamentally, that decentralised architecture is still there. I can still set up a web site hosted on my home computer, which anyone in the world could access.
I don’t do that, however, for the same reason that web3 isn’t immune from centralised services: Centralisation is convenient. Just as we have Facebook, or Google, or Amazon as giant centralised services on the current web, we can already see similar services appearing for web3. For payments, Coinbase has established itself as a hugely popular place exchange cryptocurrencies and traditional currencies. For NFTs, OpenSea is the service where you’ll find nearly every NFT collection. MetaMask keeps all of your crypto-based keys, tokens, and logins in a single “crypto wallet”.
Centralisation is convenient.
While web3 proponents give a lot of credence to the decentralised nature of cryptocurrency being a driver of popularity, I’m not so sure. At best, I’m inclined to think that decentralisation is table stakes these days: you can’t even get started as a global movement without a strong commitment to decentralisation.
But if decentralisation isn’t the key, what is?
When we talk about ownership in web3, NFTs are clearly the flavour of the month, but recent research indicates that the entire NFT market is massively artificially inflated.
Rather than taking pot-shots at the NFT straw man, I think it’s more interesting to look at the idea of ownership in terms of attribution. The more powerful element of this philosophy isn’t about who owns something, it’s who created it. NFTs do something rather novel with attribution, allowing royalty payments to the original artist every time an NFT is resold. I love this aspect: royalties shouldn’t just be for movie stars, they should be for everyone.
Comparing that to the current web, take the 3 paragraphs written by Max Read that I quoted above. I was certainly under no technical obligation to show that it was a quote, to attribute it to him, or to link to the source. In fact, it would have been easier for me to just paste his words into this post, and pretend they were my own. I didn’t, of course, because I feel an ethical obligation to properly attribute the quote.
In a world where unethical actors will automatically copy/paste your content for SEO juice (indeed, I expect this blog post to show up on a bunch of these kinds of sites); where massive corporations will consume everything they can find about you, in order to advertise more effectively to you, it’s not at all surprising that people are looking for a technical solution for taking back control of their data, and for being properly attributed for their creations.
The interesting element of this philosophy isn’t about who owns something, it’s who created it.
That’s not to say that existing services discourage attribution: a core function of Twitter is retweets, a core function of Tumblr is reblogging. WordPress still supports trackbacks, even if many folks turn them off these days.
These are all blunt instruments, though, aimed at attributing an entire piece, rather than a more targeted approach. What I’d really like is a way to easily quote and attribute a small chunk of a post: 3 paragraphs (or blocks, if you want to see where I’m heading 
), inserted into my post, linking back to where I got them from. If someone chooses to quote some of this post, I’d love to receive a pingback just for that quote, so it can be seen in the right context.
The functionality provide by Twitter and Tumblr is less of a technologically-based enforcement of attribution, and more of an example of paving the cow path: by and large, people want to properly attribute others, providing the tools to do so can easily become a fundamental part of how any software is used.
These tools only work so long as there’s an incentive to use them, however. web3 certainly provides the tools to attribute others, but much like SEO scammers copy/pasting blog posts, the economics of the NFT bubble is clearly a huge incentive to ignore those tools and ethical obligations, to the point that existing services have had to build additional features just to detect this abuse.
With every major blockchain also being a cryptocurrency, monetisation is at the heart of the entire web3 movement. Every level of the web3 tech stack involves a cryptocurrency-based protocol. This naturally permeates through the entire web3 ecosystem, where money becomes a major driving factor for every web3-based project.
And so, it’s impossible to look at web3 applications without also considering the financial aspect. When you have to pay just to participate, you have to ask whether every piece of content you create is “worth it”.
Again, let’s go back to the 3 paragraphs I quote above. In a theoretical web3 world, I’d publish this post on a blockchain in some form or another, and that act would also likely include noting that I’d quoted 3 blocks of text attributed to Max Read. I’d potentially pay some amount of money to Max, along with the fees that every blockchain charges in order to perform a transaction. While this process is potentially helpful to the original author at a first glance, I suspect the second and third order effects will be problematic. Having only just clicked the Publish button a few seconds earlier, I’m already some indeterminate amount of money out of pocket. Which brings me back to the question, is this post “worth it”? Will enough people tip/quote/remix/whatever me, to cover the cost of publishing? When every creative work must be viewed through a lens of financial impact, it fundamentally alters that creative process.
When you have to pay just to participate, you have to ask whether every piece of content you create is “worth it”.
Ultimately, we live in a capitalist society, and everyone deserves the opportunity to profit off their work. But by baking monetisation into the underlying infrastructure of web3, it becomes impossible to opt-out. You either have the money to participate without being concerned about the cost, or you’re going to need to weigh up every interaction by whether or not you can afford it.
After breaking it all down, we can see that it’s not all black-and-white. There are some positive parts of web3, and some negative parts. Not that different to the web of today, in fact. 
That’s not to say that either approach is the correct one: instead, we should be looking to learn from both, and produce something better.
I’ve long been a proponent of leveraging the massive install base of WordPress to provide distributed services to anyone. Years ago, I spoke about an idea called “Connected WordPress” that would do exactly that. While the idea didn’t gain a huge amount of traction at the time, the DNA of the Connected WordPress concept shares a lot of similar traits to the decentralised nature of web3.
I’m a big fan of decentralised technologies as a way for individuals to claw back power over their own data from the governments and massive corporations that would prefer to keep it all centralised, and I absolutely think we should be exploring ways to make the existing web more resistant to censorship.
At the same time, we have to acknowledge that there are certainly benefits to centralisation. As long as people have the freedom to choose how and where they participate, and centralised services are required to play nicely with self hosted sites, is there a practical difference?
I quite like how Solid allows you have it both ways, whilst maintaining control over your own data.
Here’s the thing about attribution: you can’t enforce it with technology alone. Snapchat have indirectly demonstrated exactly this problem: in order to not lose a message, people would screenshot or record the message on their phone. In response, Snapchat implemented a feature to notify the other party when you screenshot a message from them. To avoid this, people will now use a second phone to take a photo or video of the message. While this example isn’t specifically about attribution, it demonstrates the problem that there’s no way to technologically restrict how someone interacts with content that you’ve published, once they’ve been granted access.
Instead of worrying about technical restrictions, then, we should be looking at how attribution can be made easier.
IndieWeb is a great example of how this can be done in a totally decentralised fashion.
I’m firmly of the opinion that monetisation of the things you create should be opt-in, rather than opt-out.
Modern society is currently obsessed with monetising everything, however. It comes in many different forms: hustle culture, side gigs, transforming hobbies into businesses, meme stocks, and cryptocurrencies: they’re all symptoms of this obsession.
I would argue that, rather than accepting as fait accompli that the next iteration of the web will be monetised to the core, we should be pushing back against this approach. Fundamentally, we should be looking to build for a post scarcity society, rather than trying to introduce scarcity where there previously was none.
While we work towards that future, we should certainly be easier for folks to monetise their work, but the current raft of cryptocurrencies just aren’t up to the task of operating as… currencies.
Well, that depends on what your priorities are. The conversations around web3 are taking up a lot of air right now, so it’s possible to get the impression web3 will be imminently replacing everything. It’s important to keep perspective on this, though. While there’s a lot of money in the web3 ecosystem right now, it’s dwarfed by the sheer size of the existing web.
If you’re excited about the hot new tech, and feeling inspired by the ideas espoused in web3 circles? Jump right in! I’m certain you’ll find something interesting to work on.
Always wanted to get into currency speculation, but didn’t want to deal with all those pesky “regulations” and “safeguards”? Boy howdy, are cryptocurrencies or NFTs the place for you. (Please don’t pretend that this paragraph is investment advice, it is nothing of the sort.)
Want to continue building stuff on the web, and you’re willing to learn new things when you need them, but are otherwise happy with your trajectory? Just keep on doing what you’re doing. Even if web3 does manage to live up to the hype, it’ll take a long time for it to be adopted by the mainstream. You’ll have years to adapt.
There are some big promises associated with web3, many of which sound very similar to the promises that were made around web 2.0, particularly around open APIs, and global interoperability. We saw what happened when those kinds of tools go wrong, and web3 doesn’t really solve those problems. It may exacerbate them in some ways, since it’s impossible to delete your data from a blockchain.
That said, (and I say this as a WordPress Core developer), just because a particular piece of software is not the optimal technical solution doesn’t mean it won’t become the most popular. Market forces can be a far stronger factor that technical superiority. There are many legitimate complaints about blockchain (including performance, bloat, fit for purpose, and security) that have been levelled against WordPress in the past, but WordPress certainly isn’t slowing down. I’m not even close to convinced that blockchain is the right technology to base the web on, but I’ve been doing this for too long to bet everything against it.
Markets can remain irrational a lot longer than you and I can remain solvent.
—A. Gary Shilling
As for me, well… 
I remain sceptical of web3 as it’s currently defined, but I think there’s room to change it, and to adopt the best bits into the existing web. Web 1.0 didn’t magically disappear when Web 2.0 rolled in, it adapted. Maybe we’ll look back in 10 years and say this was a time when the web fundamentally changed. Or, maybe we’ll refer to blockchain in the same breath as pets.com, and other examples from the dotcom boom of the 1990’s.
The Net interprets censorship as damage and routes around it.
—John Gilmore
This quote was originally referring to Usenet, but it’s stayed highly relevant in the decades since. I think it applies here, too: if the artificial scarcity built into web3 behaves too much like censorship, preventing people from sharing what they want to share, the internet (or, more accurately, the billions of people who interact with the internet) will just… go around it. It won’t all be smooth sailing, but we’ll continue to experiment, evolve, and adapt as it changes.
Personally, I think now is a great time for us to be embracing the values and ideals of projects like Solid, and IndieWeb. Before web3 referred to blockchains, it was more commonly used in reference to the Semantic Web, which is far more in line with WordPress’ ideals, whilst also matching many of the values prioritised by the new web3. As a major driver of the Open Web, WordPress can help people own their content in a sustainable way, engage with others on their own terms, and build communities that don’t depend on massive corporations or hand-wavy magical tech solutions.
Don’t get too caught up in the drama of whatever is the flavour of the month. I’m optimistic about the long term resilience of the internet, and I think you should be, too. 
Once again time has passed, and another update on Oculus Rift support feels due! As always, it feels like I’ve been busy with work and not found enough time for Rift CV1 hacking. Nevertheless, looking back over the history since I last wrote, there’s quite a lot to tell!
In general, the controller tracking is now really good most of the time. Like, wildly-swing-your-arms-and-not-lose-track levels (most of the time). The problems I’m hunting now are intermittent and hard to identify in the moment while using the headset – hence my enthusiasm over the last updates for implementing stream recording and a simulation setup. I’ll get back to that.
Since I last wrote, the tracking improvements have mostly come from identifying and rejecting incorrect measurements. That is, if I have 2 sensors active and 1 sensor says the left controller is in one place, but the 2nd sensor says it’s somewhere else, we’ll reject one of those – choosing the pose that best matches what we already know about the controller. The last known position, the gravity direction the IMU is detecting, and the last known orientation. The tracker will now also reject observations for a time if (for example) the reported orientation is outside the range we expect. The IMU gyroscope can track the orientation of a device for quite a while, so can be relied on to identify strong pose priors once we’ve integrated a few camera observations to get the yaw correct.
It works really well, but I think improving this area is still where most future refinements will come. That and avoiding incorrect pose extractions in the first place.
The above plot is a sample of headset tracking, showing the extracted poses from the computer vision vs the pose priors / tracking from the Kalman filter. As you can see, there are excursions in both position and orientation detected from the video, but these are largely ignored by the filter, producing a steadier result.
This plot shows the left controller being tracked during a Beat Saber session. The controller tracking plot is quite different, because controllers move a lot more than the headset, and have fewer LEDs to track against. There are larger gaps here in the timeline while the vision re-acquires the device – and in those gaps you can see the Kalman filter interpolating using IMU input only (sometimes well, sometimes less so).
Another nice thing I did is changes in the way the search for a tracked device is made in a video frame. Before starting looking for a particular device it always now gets the latest estimate of the previous device position from the fusion filter. Previously, it would use the estimate of the device pose as it was when the camera exposure happened – but between then and the moment we start analysis more IMU observations and other camera observations might arrive and be integrated into the filter, which will have updated the estimate of where the device was in the frame.
This is the bit where I think the Kalman filter is particularly clever: Estimates of the device position at an earlier or later exposure can improve and refine the filter’s estimate of where the device was when the camera captured the frame we’re currently analysing! So clever. That mechanism (lagged state tracking) is what allows the filter to integrate past tracking observations once the analysis is done – so even if the video frame search take 150ms (for example), it will correct the filter’s estimate of where the device was 150ms in the past, which ripples through and corrects the estimate of where the device is now.
To improve the identification of devices better, I measured the actual angle from which LEDs are visible (about 75 degrees off axis) and measured the size. The pose matching now has a better idea of which LEDs should be visible for a proposed orientation and what pixel size we expect them to have at a particular distance.
I fixed a bug in the output pose smoothing filter where it would glitch as you turned completely around and crossed the point where the angle jumps from +pi to -pi or vice versa.
I got a wide-angle hi-res webcam and took photos of a checkerboard pattern through the lens of my headset, then used OpenCV and panotools to calculate new distortion and chromatic aberration parameters for the display. For me, this has greatly improved. I’m waiting to hear if that’s true for everyone, or if I’ve just fixed it for my headset.
Config blocks! A long time ago, I prototyped code to create a persistent OpenHMD configuration file store in ~/.config/openhmd. The rift-kalman-filter branch now uses that to store the configuration blocks that it reads from the controllers. The first time a controller is seen, it will load the JSON calibration block as before, but it will now store it in that directory – removing a multiple second radio read process on every subsequent startup.
To go along with that, I have an experimental rift-room-config branch that creates a rift-room-config.json file and stores the camera positions after the first startup. I haven’t pushed that to the rift-kalman-filter branch yet, because I’m a bit worried it’ll cause surprising problems for people. If the initial estimate of the headset pose is wrong, the code will back-project the wrong positions for the cameras, which will get written to the file and cause every subsequent run of OpenHMD to generate bad tracking until the file is removed. The goal is to have a loop that monitors whether the camera positions seem stable based on the tracking reports, and to use averaging and resetting to correct them if not – or at least to warn the user that they should re-run some (non-existent) setup utility.
The final big ticket item was a rewrite of how the USB video frame capture thread collects pixels and passes them to the analysis threads. This now does less work in the USB thread, so misses fewer frames, and also I made it so that every frame is now searched for LEDs and blob identities tracked with motion vectors, even when no further analysis will be done on that frame. That means that when we’re running late, it better preserves LED blob identities until the analysis threads can catch up – increasing the chances of having known LEDs to directly find device positions and avoid searching. This rewrite also opened up a path to easily support JPEG decode – which is needed to support Rift Sensors connected on USB 2.0 ports.
I mentioned the recording simulator continues to progress. Since the tracking problems are now getting really tricky to figure out, this tool is becoming increasingly important. So far, I have code in OpenHMD to record all video and tracking data to a .mkv file. Then, there’s a simulator tool that loads those recordings. Currently it is capable of extracting the data back out of the recording, parsing the JSON and decoding the video, and presenting it to a partially implemented simulator that then runs the same blob analysis and tracking OpenHMD does. The end goal is a Godot based visualiser for this simulation, and to be able to step back and forth through time examining what happened at critical moments so I can improve the tracking for those situations.
To make recordings, there’s the rift-debug-gstreamer-record branch of OpenHMD. If you have GStreamer and the right plugins (gst-plugins-good) installed, and you set env vars like this, each run of OpenHMD will generate a recording in the target directory (make sure the target dir exists):
export OHMD_TRACE_DIR=/home/user/openhmd-traces/
export OHMD_FULL_RECORDING=1
The next things that are calling to me are to improve the room configuration estimation and storage as mentioned above – to detect when the poses a camera is reporting don’t make sense because it’s been bumped or moved.
I’d also like to add back in tracking of the LEDS on the back of the headset headband, to support 360 tracking. I disabled those because they cause me trouble – the headband is adjustable relative to the headset, so the LEDs don’t appear where the 3D model says they should be and that causes jitter and pose mismatches. They need special handling.
One last thing I’m finding exciting is a new person taking an interest in Rift S and starting to look at inside-out tracking for that. That’s just happened in the last few days, so not much to report yet – but I’ll be happy to have someone looking at that while I’m still busy over here in CV1 land!
As always, if you have any questions, comments or testing feedback – hit me up at thaytan@noraisin.net or on @thaytan Twitter/IRC.
Thank you to the kind people signed up as Github Sponsors for this project!
Let’s say you’re someone who happens to discover an AWS account number, and would like to take a stab at guessing what IAM users might be valid in that account. Tricky problem, right? Not with this One Weird Trick!
In your own AWS account, create a KMS key and try to reference an ARN
representing an IAM user in the other account as the principal. If the policy
is accepted by PutKeyPolicy, then that IAM account exists, and if the error
says “Policy contains a statement with one or more invalid principals” then the
user doesn’t exist.
As an example, say you want to guess at IAM users in AWS account 111111111111.
Then make sure this statement is in your key policy:
{
"Sid": "Test existence of user",
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::111111111111:user/bob"
},
"Action": "kms:DescribeKey",
"Resource": "*"
}
If that policy is accepted, then the account has an IAM user named bob.
Otherwise, the user doesn’t exist. Scripting this is left as an exercise for
the reader.
Sadly, wildcards aren’t accepted in the username portion of the ARN, otherwise
you could do some funky searching with ...:user/a*, ...:user/b*, etc. You
can’t have everything; where would you put it all?
I did mention this to AWS as an account enumeration risk. They’re of the opinion that it’s a good thing you can know what users exist in random other AWS accounts. I guess that means this is a technique you can put in your toolbox safe in the knowledge it’ll work forever.
Given this is intended behaviour, I assume you don’t need to use a key policy for this, but that’s where I stumbled over it. Also, you can probably use it to enumerate roles and anything else that can be a principal, but since I don’t see as much use for that, I didn’t bother exploring it.
There you are, then. If you ever need to guess at IAM users in another AWS account, now you can!
For a long time computer manufacturers have tried to differentiate themselves and their products from their competitors with fancy names with odd capitalisation and spelling. But as an author, using these names does a disservice to the reader: how are they to know that DEC is pronounced as if it was written Dec ("deck").
It's time we pushed back, and wrote for our readers, not for corporations.
It's time to use standard English rules for these Corporate Fancy Names. Proper names begin with a capital, unlike "ciscoSystems®" (so bad that Cisco itself moved away from it). Words are separated by spaces, so "Cisco Systems". Abbreviations and acronyms are written in lower case if they are pronounced as a word, in upper case if each letter is pronounced: so "ram" and "IBM®".
So from here on in I'll be using the following:
I'd encourage you to try this in your own writing. It does look odd for the first time, but the result is undeniably more readable. If we are not writing to be understood by our audience then we are nothing more than an unpaid member of some corporation's marketing team.
I gave the talk On The Use and Misuse of Decorators as part of PyConline AU 2021, the second in annoyingly long sequence of not-in-person PyCon AU events. Here’s some code samples that you might be interested in:
@property implementationThis shows a demo of @property-style getters. Setters are left as an exercise :)
def demo_property(f):
f.is_a_property = True
return f
class HasProperties:
def __getattribute__(self, name):
ret = super().__getattribute__(name)
if hasattr(ret, "is_a_property"):
return ret()
else:
return ret
class Demo(HasProperties):
@demo_property
def is_a_property(self):
return "I'm a property"
def is_a_function(self):
return "I'm a function"
a = Demo()
print(a.is_a_function())
print(a.is_a_property)
@run (The Scoped Block)@run is a decorator that will run the body of the decorated function, and then store the result of that function in place of the function’s name. It makes it easier to assign the results of complex statements to a variable, and get the advantages of functions having less leaky scopes than if or loop blocks.
def run(f):
return f()
@run
def hello_world():
return "Hello, World!"
print(hello_world)
@apply (Multi-line stream transformers)def apply(transformer, iterable_):
def _applicator(f):
return(transformer(f, iterable_))
return _applicator
@apply(map, range(100)
def fizzbuzzed(i):
if i % 3 == 0 and i % 5 == 0:
return "fizzbuzz"
if i % 3 == 0:
return "fizz"
elif i % 5 == 0:
return "buzz"
else:
return str(i)
def html(f):
builder = HtmlNodeBuilder("html")
f(builder)
return builder.build()
class HtmlNodeBuilder:
def __init__(self, tag_name):
self.tag_name = tag_name
self.nodes = []
def node(self, f):
builder = HtmlNodeBuilder(f.__name__)
f(builder)
self.nodes.append(builder.build())
def text(self, text):
self.nodes.append(text)
def build(self):
nodes = "\n".join(self.nodes)
return f"<{self.tag_name}>\n{nodes}\n</{self.tag_name}>"
@html
def document(b):
@b.node
def head(b):
@b.node
def title(b):
b.text("Hello, World!")
@b.node
def body(b):
for i in range(10, 0, -1):
@b.node
def p(b):
b.text(f"{i}")
This is an incomplete implementation of a code registry for handling simple text processing tasks:
```python
def register(self, input, output):
def _register_code(f):
self.registry[(input, output)] = f
return f
return _register_code
in_type = (iterable[str], (WILDCARD, ) out_type = (Counter, (WILDCARD, frequency))
@registry.register(in_type, out_type) def count_strings(strings):
return Counter(strings)
@registry.register( (iterable[str], (WILDCARD, )), (iterable[str], (WILDCARD, lowercase)) ) def words_to_lowercase(words): …
@registry.register( (iterable[str], (WILDCARD, )), (iterable[str], (WILDCARD, no_punctuation)) ) def words_without_punctuation(words): …
def find_steps( self, input_type, input_attrs, output_type, output_attrs ):
hand_wave()
def give_me(self, input, output_type, output_attrs):
steps = self.find_steps(
type(input), (), output_type, output_attrs
)
temp = input
for step in steps:
temp = step(temp)
return temp
A while ago, I wrote a post about how to build and test my Oculus CV1 tracking code in SteamVR using the SteamVR-OpenHMD driver. I have updated those instructions and moved them to https://noraisin.net/diary/?page_id=1048 – so use those if you’d like to try things out.
The pandemic continues to sap my time for OpenHMD improvements. Since my last post, I have been working on various refinements. The biggest visible improvements are:
Adding velocity and acceleration reporting is needed in VR apps that support throwing things. It means that throwing objects and using gravity-grab to fetch objects works in Half-Life: Alyx, making it playable now.
The rewrite to the pose transformation code fixed problems where the rotation of controller models in VR didn’t match the rotation applied in the real world. Controllers would appear attached to the wrong part of the hand, and rotate around the wrong axis. Movements feel more natural now.
My focus going forward is on fixing glitches that are caused by tracking losses or outliers. Those problems happen when the computer vision code either fails to match what the cameras see to the device LED models, or when it matches incorrectly.
Tracking failure leads to the headset view or controllers ‘flying away’ suddenly. Incorrect matching leads to controllers jumping and jittering to the wrong pose, or swapping hands. Either condition is very annoying.
Unfortunately, as the tracking has improved the remaining problems get harder to understand and there is less low-hanging fruit for improvement. Further, when the computer vision runs at 52Hz, it’s impossible to diagnose the reasons for a glitch in real time.
I’ve built a branch of OpenHMD that uses GStreamer to record the CV1 camera video, plus IMU and tracking logs into a video file.
To go with those recordings, I’ve been working on a replay and simulation tool, that uses the Godot game engine to visualise the tracking session. The goal is to show, frame-by-frame, where OpenHMD thought the cameras, headset and controllers were at each point in the session, and to be able to step back and forth through the recording.
Right now, I’m working on the simulation portion of the replay, that will use the tracking logs to recreate all the poses.
I’ve been asked more than once what it was like at the beginning of Ubuntu, before it was a company, when an email from someone I’d never heard of came into my mailbox.
We’re coming up on 20 years now since Ubuntu was founded, and I had cause to do some spelunking into IMAP archives recently… while there I took the opportunity to grab the very first email I received.
The Ubuntu long shot succeeded wildly. Of course, we liked to joke about how spammy those emails where: cold-calling a raft of Debian developers with job offers, some of them were closer to phishing attacks :). This very early one – I was the second employee (though I started at 4 days a week to transition my clients gradually) – was less so.
I think its interesting though to note how explicit a gamble this was framed as: a time limited experiment, funded for a year. As the company scaled this very rapidly became a hiring problem and the horizon had to be pushed out to 2 years to get folk to join.
And of course, while we started with arch in earnest, we rapidly hit significant usability problems, some of which were solvable with porcelain and shallow non-architectural changes, and we built initially patches, and then the bazaar VCS project to tackle those. But others were not: for instance, I recall exceeding the 32K hard link limit on ext3 due to a single long history during a VCS conversion. The sum of these challenges led us to create the bzr project, a ground up rethink of our version control needs, architecture, implementation and user-experience. While ultimately git has conquered all, bzr had – still has in fact – extremely loyal advocates, due to its laser sharp focus on usability.
Anyhow, here it is: one of the original no-name-here-yet, aka Ubuntu, introductory emails (with permission from Mark, of course). When I clicked through to the website Mark provided there was a link there to a fantastical website about a space tourist… not what I had expected to be reading in Adelaide during LCA 2004.
From: Mark Shuttleworth <xxx@xxx>
To: Robert Collins <xxx@xxx>
Date: Thu, 15 Jan 2004, 04:30
Tom Lord gave me your email address, I believe he’s
already sent you the email that I sent him so I’m sure
you have some background.
In short, I am going to fund some open source
development for a year. This is part of a new project
that I will be getting off the ground in the coming
weeks. I don’t know where it will lead, it’s flying in
the face of a stiff breeze but I think at the end of
the day it will at least fund a few very good open
source developers for a full year to work on the
projects they like most.
One of the pieces of the puzzle is high end source
code management. I’ll be looking to build an
infrastructure that will manage source code for
between 100 and 8000 open source projects (yes,
there’s a big difference between the two, I don’t know
at which end of the spectrum we will be at the end of
the year but our infrastructure will have to at least
be capable of scaling to the latter within two years)
with upwards of 2000 developers, drawing code from a
variety of sources, playing with it and spitting it
out regularly in nice packages.
Arch and Subversion seem to be the two leading
contenders for “next generation open source sccm”. I’d
be interested in your thoughts on the two of them, and
how they stack up. I’m looking to hire one person who
will lead that part of the effort. They’ll work alone
from home, and be responsible for two things. First,
extending the tool (arch or svn) in ways that help the
project. Such extensions will be released under an
open source licence, and hopefully embraced by the
tools maintainers and included in the mainline code
for the tool. And second, they will be responsible for
our large-scale implementation of SCCM, using that
tool, and building the management scripts and other
infrastructure to support such a large, and hopefully
highly automated, set of repositories.
Would you be interested in this position? What
attributes and experience do you think would make you
a great person to have on the team? What would your
salary expectation be, as a monthly figure, for a one
year contract full time?
I’m currently on your continent, well, just off it. On
Lizard Island, up North. Am headed today for Brisbane,
then on the 17th to Launceston via Melbourne. If you
happen to be on any of those stops, would you be
interested in meeting up to discuss it further?
If you’re curious you can find out a bit more about me
at www.markshuttleworth.com. This project is much
lower key than some of what you’ll find there. It’s a
very long shot indeed. But if at worst all that
happens is a bunch of open source work gets funded at
my expense I’ll feel it was money well spent.
Cheers,
Mark
=====
—
“Good judgement comes from experience, and often experience
comes from bad judgement” – Rita Mae Brown
I have always liked cryptography, and public-key cryptography in particularly. When Pretty Good Privacy (PGP) first came out in 1991, I not only started using it, also but looking at the documentation and the code to see how it worked. I created my own implementation in C using very small keys, just to better understand.
Cryptography has been running a race against both faster and cheaper computing power. And these days, with banking and most other aspects of our lives entirely relying on secure communications, it’s a very juicy target for bad actors.
About 5 years ago, the National (USA) Institute for Science and Technology (NIST) initiated a search for cryptographic algorithmic that should withstand a near-future world where quantum computers with a significant number of qubits are a reality. There have been a number of rounds, which mid 2020 saw round 3 and the finalists.
This submission caught my eye some time ago: Classic McEliece, and out of the four finalists it’s the only one that is not lattice-based [wikipedia link].
For Public Key Encryption and Key Exchange Mechanism, Prof Bill Buchanan thinks that the winner will be lattice-based, but I am not convinced.
Tiny side-track, you may wonder where does the McEleice name come from? From mathematician Robert McEleice (1942-2019). McEleice developed his cryptosystem in 1978. So it’s not just named after him, he designed it. For various reasons that have nothing to do with the mathematical solidity of the ideas, it didn’t get used at the time. He’s done plenty cool other things, too. From his Caltech obituary:
He made fundamental contributions to the theory and design of channel codes for communication systems—including the interplanetary telecommunication systems that were used by the Voyager, Galileo, Mars Pathfinder, Cassini, and Mars Exploration Rover missions.
Back to lattices, there are both unknowns (aspects that have not been studied in exhaustive depth) and recent mathematical attacks, both of which create uncertainty – in the crypto sphere as well as for business and politics. Given how long it takes for crypto schemes to get widely adopted, the latter two are somewhat relevant, particularly since cyber security is a hot topic.
Lattices are definitely interesting, but given what we know so far, it is my feeling that systems based on lattices are more likely to be proven breakable than Classic McEleice, which come to this finalists’ table with 40+ years track record of in-depth analysis. Mind that all finalists are of course solid at this stage – but NIST’s thoughts on expected developments and breakthroughs is what is likely to decide the winner. NIST are not looking for shiny, they are looking for very very solid in all possible ways.
Prof Buchanan recently published implementations for the finalists, and did some benchmarks where we can directly compare them against each other.
We can see that Classic McEleice’s key generation is CPU intensive, but is that really a problem? The large size of its public key may be more of a factor (disadvantage), however the small ciphertext I think more than offsets that disadvantage.
As we’re nearing the end of the NIST process, in my opinion, fast encryption/decryption and small cyphertext, combined with the long track record of in-depth analysis, may still see Classic McEleice come out the winner.
The post Classic McEleice and the NIST search for post-quantum crypto first appeared on Lentz family blog.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.
First up, visit the PurpleAir Map, find the sensor you care about, click “get this widget�, and then “JSON�. That will give you the URL to set as the resource key in purpleair.yaml.
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
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. 🤷�♂�
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).
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:
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.
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.
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.
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.
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.
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.
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
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.
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.
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.
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.
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.
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.
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.
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.
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:
Releases published also in the usual places:
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.
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!)
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.
The post World bipolar day 2021 first appeared on BlueHackers.org.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!
This post documented an older method of building SteamVR-OpenHMD. I moved them to a page here. That version will be kept up to date for any future changes, so go there.
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:
git clone --recursive https://github.com/ChristophHaag/SteamVR-OpenHMD.git
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 ../../
meson to build and register the SteamVR-OpenHMD binaries. You may need tmeson first (see below):meson -Dbuildtype=release build ninja -C build ./install_files_to_build.sh ./register.sh
./build/subprojects/openhmd/openhmd_simple_example
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):
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.
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.
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.
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.
These lack of updates are also likely because I’ve been quite caught up with stuff.
Monday I had a steak from Bay Leaf Steakhouse for dinner. It was kind of weird eating it from packs, but then I’m reminded you could do this in economy class. Tuesday I wanted to attempt to go vegetarian and by the time I was done with a workout, the only place was a chap fan shop (Leong Heng) where I had a mixture of Chinese and Indian chap fan. The Indian stall is run by an ex-Hyatt staff member who immediately recognised me! Wednesday, Alice came to visit, so we got to Hanks, got some alcohol, and managed a smorgasbord of food from Pickers/Sate Zul/Lila Wadi. Night ended very late, and on Thursday, visited Hai Tian for their famous salted egg squid and prawns in a coconut shell. Friday was back to being normal, so I grabbed a pizza from Mint Pizza (this time I tried their Aussie variant). Saturday, today, I hit up Rasa Sayang for some matcha latte, but grabbed food from Classic Pilot Cafe, which Faeeza owns! It was the famous salted egg chicken, double portion, half rice.
As for workouts, I did sign up for Mantas but found it pretty hard to do, timezone wise. I did spend a lot of time jogging on the beach (this has been almost a daily affair). Monday I also did 2 MD workouts, Tuesday 1 MD workout, Wednesday half a MD workout, Thursday I did a Ping workout at Pwrhouse (so good!), Friday 1 MD workout, and Saturday an Audrey workout at Pwrhouse and 1 MD workout.
Wednesday I also found out that Rasmus passed away. Frankly, there are no words.
Thursday, my Raspberry Pi 400 arrived. I set it up in under ten minutes, connecting it to the TV here. It “just works”. I made a video, which I should probably figure out how to upload to YouTube after I stitch it together. I have to work on using it a lot more.
COVID-19 cases are through the roof in Malaysia. This weekend we’ve seen two days of case breaking records, with today being 5,728 (yesterday was something close). Nutty. Singapore suspended the reciprocal green lane (RGL) agreement with Malaysia for the next 3 months.
I’ve managed to finish Bridgerton. I like the score. Finding something on Netflix is proving to be more difficult, regardless of having a VPN. Honestly, this is why Cable TV wins… linear programming that you’re just fed.
Stock market wise, I’ve been following the GameStop short squeeze, and even funnier is the Top Glove one, that they’re trying to repeat in Malaysia. Bitcoin seems to be doing “reasonably well” and I have to say, I think people are starting to realise decentralised services have a future. How do we get there?
What an interesting week, I look forward to more productive time. I’m still writing in my Hobonichi Techo, so at least that’s where most personal stuff ends up, I guess?
The post Life with Rona 2.0 – Days 4, 5, 6, 7, 8 and 9 first appeared on Colin Charles Agenda.
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!
What an unplanned day. I woke up in time to do an MD workout, despite feeling a little sore. So maybe I was about 10 minutes late and I missed the first set, but his workouts are so long, and I think there were seven sets anyway. Had a good brunch shortly thereafter.
Did a bit of reading, and then I decided to do a beach boardwalk walk… turns out they were policing the place, and you can’t hit the boardwalk. But the beach is fair game? So I went back to the hotel, dropped off my slippers, and went for a beach jog. Pretty nutty.
Came back to read a little more and figured I might as well do another MD workout. Then I headed out for dinner, trying out a new place — Mint Pizza. Opened 20.12.2020, and they’re empty, and their pizza is actually pretty good. Lamb and BBQ chicken, they did half-and-half.
Twitter was discussing Raspberry Pi’s, and all I could see is a lot of misinformation, which is truly shocking. The irony is that open source has been running the Internet for so long, and progressive web apps have come such a long way…
Back in the day when I did OpenOffice.org or Linux training even, we always did say you should learn concepts and not tools. From the time we ran Linux installfests in the late-90s in Sunway Pyramid (back then, yes, Linux was hard, and you had winmodems), but I had forgotten that I even did stuff for school teachers and NGOs back in 2002… I won’t forget PC Gemilang either…
Anyway, I placed an order again for another Raspberry Pi 400. I am certain that most people talk so much crap, without realising that Malaysia isn’t a developed nation and most people can’t afford a Mac let alone a PC. Laptops aren’t cheap. And there are so many other issues…. Saying Windows is still required in 2021 is the nuttiest thing I’ve heard in a long time. Easy to tweet, much harder to think about TCO, and realise where in the journey Malaysia is.
Maybe the best thing was that Malaysian Twitter learned about technology. I doubt many realised the difference between a Pi board vs the 400, but hey, the fact that they talked about tech is still a win (misinformed, but a win).
The post Life with Rona 2.0 – Day 3 first appeared on Colin Charles Agenda.
Today is the first day that in the state of Pahang, we have to encounter what many Malaysians are referring to as the Movement Control Order 2.0 (MCO 2.0). I think everyone finally agrees with the terminology that this is a lockdown now, because I remember back in the day when I was calling it that, I’d definitely offend a handful of journalists.
This is one interesting change for me compared to when I last wrote Life with Rona — Day 56 of being indoors and not even leaving my household, in Kuala Lumpur. I am now not in the state, I am living in a hotel, and I am obviously moving around a little more since we have access to the beach.
KL/Selangor and several other states have already been under the MCO 2.0 since January 13 2021, and while it was supposed to end on January 26, it seems like they’ve extended and harmonised the dates for Peninsular Malaysia to end on February 4 2021. I guess everyone got the “good news” yesterday. The Prime Minister announced some kind of aid last week, but it is still mostly a joke.
Today was the 2nd day I woke up at around 2.30pm because I went to bed at around 8am. First day I had a 23.5 hour uptime, and the today was less brutal, but working from 1-8am with the PST timezone is pretty brutal. Consequently, I barely got too much done, and had one meal, vegetarian, two packs that included rice. I did get to walk by the beach (between Teluk Cempedak and Teluk Cempedak 2), did quite a bit of exercise there and I think even the monkeys are getting hungry… lots of stray cats and monkeys. Starbucks closes at 7pm, and I rocked up at 7.10pm (this was just like yesterday, when I arrived at 9.55pm and was told they wouldn’t grant me a coffee!).
While writing this entry, I did manage to get into a long video call with some friends and I guess it was good catching up with people in various states. It also is what prevented me from publishing this entry!
I did wake up reasonable early today because I had pre-ordered room service to arrive at 9am. There is a fixed menu at the hotel for various cuisines (RM48/pax, thankfully gratis for me) and I told them I prefer not having to waste, so just give me what I want which is off menu items anyway. Roti telur double telur (yes, I know it is a roti jantan) with some banjir dhal and sambal and a bit of fruit on the side with two teh tariks. They delivered as requested. I did forget to ask for a jar of honey but that is OK, there is always tomorrow.
I spent most of the day vacillating, and wouldn’t consider it productive by any measure. Just chit chats and napping. It did rain today after a long time, so the day seemed fairly dreary.
When I finally did awaken from my nap, I went for a run on the beach. I did it barefoot. I have no idea if this is how it is supposed to be done, or if you are to run nearer the water or further up above, but I did move around between the two quite often. The beach is still pretty dead, but it is expected since no one is allowed to go unless you’re a hotel guest.
The hotel has closed 3/4 of their villages (blocks) and moved everyone to the village I’m staying in (for long stay guests…). I’m thankful I have a pretty large suite, it is a little over 980sqft, and the ample space, while smaller than my home, is still welcome.
Post beach run, I did a workout with MD via Instagram. It was strength/HIIT based, and I burnt a tonne, because he gave us one of his signature 1.5h classes. It was longer than the 80 minute class he normally charges RM50 for (I still think this is undervaluing his service, but he really does care and does it for the love of seeing his students grow!).
Post-workout I decided to head downtown to find some dinner. Everything at the Teluk Cemepdak block of shops was closed, so they’re not even bothered with doing takeaway. Sg. Lembing steakhouse seemed to have cars parked, Vanggey was empty (Crocodile Rock was open, can’t say if there was a crowd, because the shared parking lot was empty), there was a modest queue at Sate Zul, and further down, Lena was closed, Pickers was open for takeaway but looked pretty closed, Tjantek was open surprisingly, and then I thought I’d give Nusantara a try again, this time for food, but their chef had just gone home at about 8pm. Oops. So I drove to LAN burger, initially ordering just one chicken double special; however they looked like they could use the business so I added on a beef double special. They now accept Boost payments so have joined the e-wallet era. One less place to use cash, which is also why I really like Kuantan. On the drive back, Classic Pilot Cafe was also open and I guess I’ll be heading there too during this lockdown.
Came back to the room to finish both burgers in probably under 15 minutes. While watching the first episode of Bridgerton on Netflix. I’m not sure what really captivates, but I will continue on (I still haven’t finished the first episode). I need to figure out how to use the 2 TVs that I have in this room — HDMI cable? Apple TV? Not normally using a TV, all this is clearly more complex than I care to admit.
I soaked longer than expected, ended up a prune, but I’m sure it will give me good rest!
One thought to leave with:
“Learn to enjoy every minute of your life. Be happy now. Don’t wait for something outside of yourself to make you happy in the future.” — Earl Nightingale
The post Life with Rona 2.0 – Days 1 & 2 first appeared on Colin Charles Agenda.
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:
| + | add, subtract, disjoint union, zero |
| × | multiply, divide, cartesian product, one |
| ^ | power, root, logarithm |
| ◢ | sin, cos, sin-1, cos-1, hypot, atan2 |
| δ | differential, integral |
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!
Problem Number 4
Some services work against their customers, and actively prevent site owners from controlling their own content.
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.
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.
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.
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!
This post is part of a series, talking about the WordPress Importers, their history, where they are now, and where they could go in the future.
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.
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:
These reasons are also why it would help to implement a schema for the future:
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.
With a well defined schema, we can start to expand what data will be included in a WXR file.
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.
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:
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.
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.
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.
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.
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.
This post is part of a series, talking about the WordPress Importers, their history, where they are now, and where they could go in the future.
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.
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.
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.
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.
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):
Given these priorities, what are some options?
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.
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 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.
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:
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.
This post is part of a series, talking about the WordPress Importers, their history, where they are now, and where they could go in the future.
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 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.
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.
Problem Number 4
Some services work against their customers, and actively prevent site owners from controlling their own content.
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.
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.
Problem Number 3
To import from a modern CMS service into WordPress, your importer needs to map from service features to WordPress plugins.
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.
Problem Number 2
WXR doesn’t contain a full export of a WordPress site.
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.
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.
Problem Number 1
We can’t depend on regular importer maintenance in the future.
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.
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.
This post is part of a series, talking about the WordPress Importers, their history, where they are now, and where they could go in the future.
The uBITX uses an Arduino internally. This article describes how to update its software.
The connector on the back is a Mini-B USB connector, so you'll need a "Mini-B to A" USB cable. This is not the same cable as used with older Android smartphones. The Mini-B connector was used with a lot of cameras a decade ago.
You'll also need a computer. I use a laptop with Fedora Linux installed.
In Fedora all the required software is installed with sudo dnf install arduino git. Add yourself to the users and lock groups with sudo usermod -a -G users,lock $USER (on Debian-style systems use sudo usermod -a -G dialout,lock $USER). You'll need to log out and log in again for that to have an effect (if you want to see which groups you are already in, then use the id command).
Run arduino as your ordinary non-root user to create the directories used by the Arduino IDE. You can quit the IDE once it starts.
$ cd ~/Arduino $ git clone https://github.com/afarhan/ubitxv6.git ubitx_v6.1_code
Plug in the USB cable and turn on the radio. Running dmesg will show the Arduino appearing as a "USB serial" device:
usb 1-1: new full-speed USB device number 6 using xhci_hcd usb 1-1: New USB device found, idVendor=1a86, idProduct=7523, bcdDevice= 2.64 usb 1-1: New USB device strings: Mfr=0, Product=2, SerialNumber=0 usb 1-1: Product: USB Serial usbcore: registered new interface driver ch341 usbserial: USB Serial support registered for ch341-uart ch341 1-1:1.0: ch341-uart converter detected usb 1-1: ch341-uart converter now attached to ttyUSB1
If you want more information about the USB device then use:
$ lsusb -d 1a86:7523 Bus 001 Device 006: ID 1a86:7523 QinHeng Electronics CH340 serial converter
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.
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.
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.
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.
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:
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.
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.
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!
The next things on my todo list are:
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.
Another year comes to a close, and this is the 4th year running I’m in Kuala Lumpur — 2017, 2018, 2019, and 2020… Wow. Maybe the biggest difference is that I’ve been in Malaysia for 306 days, thanks to the novel coronavirus. I have never spent this much time in Malaysia, in my entire life… I want to say KL, but I’ve managed to zip my way around to Kuantan (a lot), Penang, and Malacca. I can’t believe I flew back on February 29 2020 from Tokyo, and never got on a plane again! What a grounded globalist I’ve become.
My travel stats are of course, pretty dismal. 39 days out of the country. Apparently I did a total of 13 trips, 92 days of travel (I don’t know if all my local trips are counted frankly), 60,766km, 17 cities, and still 7 countries :) I don’t even want to compare to what it was like in 2019.
I ended that by saying, “I welcome 2020 with arms wide open.”. I’m not so sure how I feel about 2020. There is life beyond travel. COVID and our reaction to it, really worries me.
KL has some pretty good food. Kuantan has some pretty good people. While in KL, I visited a spin studio at least once per day. I did a total of 272 spin classes over 366 days! Not to forget there was 56 days of complete lockdown, and studios didn’t open till about maybe mid-June… Sure I did do some spin in London and Paris too, but the bulk of all this happened while I was here in KL.
I became reasonably friendlier, I became vulnerable, and like every time you do that, you’re chances of happiness and getting hurt probably straddle 50:50. Madonna – The Power of Good-bye can be apt.
This is not to say I didn’t enjoy 2020. Glass half full. I really did. Carpe diem. Simplicity is best. If you can follow KISS principles in engineering, why would you pour your entire thought process out and overwhelm the other party?
Anyway, I still look forward to 2021, with wide open arms, and while I really do think the COVID mess isn’t going away and things are going to be worse for many, I will still be focused on the most positive aspects of 2021. And I’ll work on being my old self again ;-)
I also ended the year with a haircut (number 1/0.5 on the sides) on Monday 28 December 2020. Somewhat of an experiment (does CoQ10 help speed up hair growth?) but also somewhat of a reaction to saying goodbye to December 2020.
The post Ciao, 2020 first appeared on Colin Charles Agenda.
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.
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.
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"
While I hope to update this site again soon, here’s a photo I captured over the weekend in my back yard. The red flowering plant is attracting wattlebirds and honey-eaters. This wattlebird stayed still long enough for me to take this shot. After a little bit of editing, I think it has turned out rather well.
Photo taken with: Canon 7D Mark II & Canon 55-250mm lens.
Edited in Lightroom and Photoshop (to remove a sun glare spot off the eye).
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.
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!)
Tumblr textposts thread, probably?
— yana(@exaltiora) August 26, 2019
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:
@applydef 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.javapublic 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}")
This was easily a late April 2020 roundup, stuck in BBEdit, which may still be vaguely relevant.
The post Links on Rona #2 first appeared on Colin Charles Agenda.
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
Earlier today I launched this site. It is the result of a lot of work over the past few weeks. It began as an idea to publicise some of my photos, and morphed into the site you see now, including a store and blog that I’ve named “Photekgraddft”.
In the weirdly named blog, I want to talk about photography, the stories behind some of my more interesting shots, the gear and software I use, my technology career, my recent ADHD diagnosis and many other things.
This scares me quite a lot. I’ve never really put myself out onto the internet before. If you Google me, you’re not going to find anything much. Google Images has no photos of me. I’ve always liked it that way. Until now.
ADHD’ers are sometimes known for “oversharing”, one of the side-effects of the inability to regulate emotions well. I’ve always been the opposite, hiding, because I knew I was different, but didn’t understand why.
The combination of the COVID-19 pandemic and my recent ADHD diagnosis have given me a different perspective. I now know why I hid. And now I want to engage, and be engaged, in the world.
If I can be a force for positive change, around people’s knowledge and opinion of ADHD, then I will.
If talking about Business Analysis (my day job), and sharing my ideas for optimising organisations helps anyone at all, then I will.
If I can show my photos and brighten someone’s day by allowing them to enjoy a sunset, or a flying bird, then I will.
And if anyone buys any of my photos, then I will be shocked!
So welcome to my little vanity project. I hope it can be something positive, for me, if for noone else in this new, odd world in which we now find ourselves living together.
Photo: Rain on leaves
Video: A Foggy Autumn Morning
Photo: Walking the dog on a cold Autumn morning
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.
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:
n”;e” (which is almost always 65,537, for various unimportant reasons);d”;p” and “q”;dmp1” and “dmq1”; andiqmp”.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 – nAgMBAA – eECEDKtuwD17gpagnASq1zQTY – dECCQDVTYVsjjF7IQ – pIJANUYZsIjRsR3 – qAgkAkahDUXL0RS – dmp1ECCB78r2SnsJC9 – dmq1AghaOK3FsKoELg== – iqmpRemember 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----- MIIEogIBAAKCAQEAu6Inch7+mWtKn+leB9uCG3MaJIxRyvC/5KTz2fR+h+GOhqj4 SZJobiVB4FrE5FgC7AnlH6qeRi9MI0s6dt5UWZ5oNIeWSaOOeNO+EJDUkSVf67wj SNGXlSjGAkPZ0nRJiDjhuPvQmdW53hOaBLk5udxPEQbenpXAzbLJ7wH5ouLQ3nQw HwpwDNQhF6zRO8WoscpDVThOAM+s4PS7EiK8ZR4hu2toon8Ynadlm95V45wR0VlW zywgbkZCKa1IMrDCscB6CglQ10M3Xzya3iTzDtQxYMVqhDrA7uBYRxA0y1sER+Rb yhEh03xz3AWemJVLCQuU06r+FABXJuY/QuAVvQIDAQABAoIBAFqwWVhzWqNUlFEO PoCVvCEAVRZtK+tmyZj9kU87ORz8DCNR8A+/T/JM17ZUqO2lDGSBs9jGYpGRsr8s USm69BIM2ljpX95fyzDjRu5C0jsFUYNi/7rmctmJR4s4uENcKV5J/++k5oI0Jw4L c1ntHNWUgjK8m0UTJIlHbQq0bbAoFEcfdZxd3W+SzRG3jND3gifqKxBG04YDwloy tu+bPV2jEih6p8tykew5OJwtJ3XsSZnqJMwcvDciVbwYNiJ6pUvGq6Z9kumOavm9 XU26m4cWipuK0URWbHWQA7SjbktqEpxsFrn5bYhJ9qXgLUh/I1+WhB2GEf3hQF5A pDTN4oECgYEA7Kp6lE7ugFBDC09sKAhoQWrVSiFpZG4Z1gsL9z5YmZU/vZf0Su0n 9J2/k5B1GghvSwkTqpDZLXgNz8eIX0WCsS1xpzOuORSNvS1DWuzyATIG2cExuRiB jYWIJUeCpa5p2PdlZmBrnD/hJ4oNk4oAVpf+HisfDSN7HBpN+TJfcAUCgYEAyvY7 Y4hQfHIdcfF3A9eeCGazIYbwVyfoGu70S/BZb2NoNEPymqsz7NOfwZQkL4O7R3Wl Rm0vrWT8T5ykEUgT+2ruZVXYSQCKUOl18acbAy0eZ81wGBljZc9VWBrP1rHviVWd OVDRZNjz6nd6ZMrJvxRa24TvxZbJMmO1cgSW1FkCgYAoWBd1WM9HiGclcnCZknVT UYbykCeLO0mkN1Xe2/32kH7BLzox26PIC2wxF5seyPlP7Ugw92hOW/zewsD4nLze v0R0oFa+3EYdTa4BvgqzMXgBfvGfABJ1saG32SzoWYcpuWLLxPwTMsCLIPmXgRr1 qAtl0SwF7Vp7O/C23mNukQKBgB89DOEB7xloWv3Zo27U9f7nB7UmVsGjY8cZdkJl 6O4LB9PbjXCe3ywZWmJqEbO6e83A3sJbNdZjT65VNq9uP50X1T+FmfeKfL99X2jl RnQTsrVZWmJrLfBSnBkmb0zlMDAcHEnhFYmHFuvEnfL7f1fIoz9cU6c+0RLPY/L7 n9dpAoGAXih17mcmtnV+Ce+lBWzGWw9P4kVDSIxzGxd8gprrGKLa3Q9VuOrLdt58 ++UzNUaBN6VYAe4jgxGfZfh+IaSlMouwOjDgE/qzgY8QsjBubzmABR/KWCYiRqkj qpWCgo1FC1Gn94gh/+dW2Q8+NjYtXWNqQcjRP4AKTBnPktEvdMA= -----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.
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.
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 YYYYYYYYYYYYYYYYYYYYYyYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY 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 JJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJ MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMM -----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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>> b64 += <<EOF
gff0GJCOMZ65pMSy3A3cSAtjlKnb4fWzuHD5CFbusN4WhCT/tNxGNSpzvxd8GIDs
nY7exs9L230oCCpedVgcbayHCbkChEfoPzL1e1jXjgCwCTgt8GjeEFqc1gXNEaUn
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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.
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.
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.
Technically the pieces aren’t 100% aligned with the underlying DER, because of how base64 works. I felt it was easier to understand if I stuck to chopping up the base64, rather than decoding into DER and then chopping up the DER. ↩
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.
Should you find the Jekyll exporter not working on your Debian WordPress install:
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.
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).
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.
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.
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:
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:
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!
The OpenSTEM® materials are ideally suited to online teaching. In these times of new challenges and requirements, there are a lot of technological possibilities. Schools and teachers are increasingly being asked to deliver material online to students. Our materials can assist with that process, especially for Humanities and Science subjects from Prep/Kindy/Foundation to Year 6. […]
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