I started with a very simple init.el when I started using Emacs.
Rather than learning it in a structured manner, I just decided to jump in at whatever end of the pool and figure it out as I go.

I may not know Emacs, but I do know what I want out of a general purpose text editor.
And bending Emacs to do my will, to do what I want it to do or behave in the manner I want it to behave. And Emacs to my eternal gratitude, is flexible to do all I want, thanks to the last forty six years worth of hard work and ideas of people from all over.

Want your screen to be a certain width, because you miss CGA screens? Emacs can do that.
Want your font to be monospaced, because it helps you write? Emacs can do that.
Want to tweak the space between your lines, because your font looks better that way? Emacs can do that.
Want to save your place in the file, so you can come back to where you were? Emacs can do that.
Themes? Want your editor to look a certain way? Emacs can do that.
Love Markdown? Emacs does that.

That’s just the core editor and that’s just me setting up my writing environment.
That’s just me scratching the surface.
I haven’t scratched the universe that is setting it up as an IDE, or using it as a Git frontend, or to read mail, or be an IRC client or play games or the million other things it can do.

As, for me, I have slowly branched out my use of Emacs too.
In addition to its use as a daily general purpose text editor, I use Emacs in three specific domains.

1. As an editor for all my blog posts, and prose writing. I use Markdown Mode to accomplish this.
2. As a second brain. To write down notes and references and ideas and to link them all together. A syntopical sort of linking. A Zettelkasten, in fact. Org Roam is the tool I am using to build this edifice.
3. And as a tool to manage my productivity, my day and my sanity using the awesome Org Mode.¹

Which brings me to my current conundrum.
All those tweaks I mentioned above?
They are all in a file called the init.el, which Emacs reads everytime it starts up.
And given my propensity to be a control freak, while at the same time verbosely documenting every change I make, my file had already grown to 300 lines and counting.
Going back to read stuff and change existing things meant scrolling up and down or searching across 300 odd lines.
And I quickly tired of that.

Which is when I learnt Emacs let me organise my init files too!
Between learning to load lisp files and how to organize my init files, I quickly divided my main file into a total of four files.

1. The base init.el file, containing things I thought were absolutely needed²
2. A miscellaneous file, that would hold everything else Emacs.³
3. A file to hold my Org Roam Zettelkasten settings.
4. A file to hold my Org Mode settings.

And then, within my base file, I called the other three, like so … ⁴

(load "~/.config/emacs/emacs-misc-settings.el")
(load "~/.config/emacs/emacs-org-mode-settings.el")
(load "~/.config/emacs/emacs-org-roam-settings.el")

And that gave me space to breathe :)
Everything is now properly organised.
I can just go look in the appropriate file (or add one) for the appropriate setting.
And life is peachy again.

Of course, once again, I am barely scratching the surface, compared to other folks’ vastly elaborate setups.
But this works for me, and I’m really happy!

Using Abdul Bari’s, Mastering Data Structures & Algorithms using C and C++ to grok the basics.
Now that I grok programming, understanding DSA should help me write and think better.

And writing rough notes or thoughts to myself here, keeps me accountable and on track.¹

Today’s topic?

The Basics of Recursion

• Types of Recursion
  1. Tail Recursion
  2. Head Recursion
  3. Tree Recursion
  4. Indirect Recursion
  5. Nested Recursion

Tail Recursion

• When a recursive call, is the last statement in a recursive function, that’s tail recursion

func(n)
{
	if (n>0)
	{
		blah … ;
		blah … ;
		blah … ;
		func(n-1);
	}
}

• All the operations in the examples above happen at call time. Not when the function returns

Tail Recursion vs Loops

• Tail recursion function can be written as a loop and vice versa
• Time taken by both, O(n)
• But the space taken by a loop is O(1) while a tail recursive function is O(n). The loop takes less space. Some compilers also do this under the hood (convert a tail recursive function into a loop)

Head Recursion

func(n)
{
	if (n>0)
	{
		func(n-1);
		blah … ;
		blah … ;
		blah … ;
	}
}

• In the example above, the recursion happens before anything else takes place.
• the recursion call is the first statement
• the rest of the function is processed, in the return process. (i.e. once the recursion call is done executing)

Head Recursion vs Loops

• Head recursion function and a loop that gives a corresponding output are not quiet convertible from one to the other. Some work required.

Tree Recursion

func(n)
{
	if (n>0)
	{
		blah … ;
		func(n-1);
		blah … ;
		func(n-1);
		blah … ;
	}
}

• If a function calls itself multiple times, then we have ourselves a tree recursion
• Time complexity? pretty complex. A simple thing like the one above would be O(2ⁿ), while the space complexity is O(n)

Indirect Recursion

void A (int n)
{
	if (something-something)
		{
			blah … ;
			B(n-1);
		}
}
void B (int n)
{
	if (something-something)
		{
			blah … ;
			a(n-1);
		}
}

• Two (or more) functions calling each other in a circular fashion. A -> B -> C -> A

Nested Recursion

void fun(int n)
{
	if (blah-something)
	{
		blah
		fun(fun(n-1))
	}	
}

• A recursive function passes a recursive call to itself as a parameter to the function.

P.S. Subscribe to my mailing list!
Forward these posts and letters to your friends and get them to subscribe!
P.P.S. Feed my insatiable reading habit.

We were using the mailman2 instance provided by Dreamhost for many years as the mailing list for dgplug. But, over the years many participants had trouble with receiving emails. In the last few years, most emails were landing in spam.

So, we took the chance to move to a new mailing list, and also started working on the site to have CoC properly defined. To make things easier, we will just follow the PSF Code of conduct https://www.python.org/psf/conduct/, most of our members are already parts of various upstream communities. So, this will be nothing new for them. We will be also updating our sites to add details of a separate team who will handle CoC violation reports.

Summer Training will start from 25th July, so remember to join in the new mailing list before that. See you all on IRC #dgplug channel on Libera server.

Sigstore allows software developers to quickly sign and verify the software they release. Many of the bigger projects use hardware-based OpenPGP keys to sign and release. But the steps used to make sure that the end-users are correctly verifying those signatures are long, and people make mistakes. Also, not every project has access to hardware smartcards, air-gapped private keys etc. Sigstore solves (or at least makes it way easier) these steps for most developers. It uses existing known (right now only 3) big OIDC providers using which one can sign and verify any data/software.

For this blog post, I will use the python tool called sigstore-python.

The first step is to create a virtual environment and then install the tool.

$ python3 -m venv .venv
$ source .venv/bin/activate
$ python -m pip install -r install/requirements.txt

Next, we create a file called message.txt with the data. This can be our actual release source code tarball.

$ echo "Kushal loves Python!" > message.txt

Signing the data

The next step is to actually sign the file.

$ python -m sigstore sign message.txt 
Waiting for browser interaction...
Using ephemeral certificate:
-----BEGIN CERTIFICATE-----
...
-----END CERTIFICATE-----

Transparency log entry created at index: 2844439
Signature written to file message.txt.sig
Certificate written to file message.txt.crt

The command will open up the default browser, and we will have the choice to select one of the 3 following OIDC providers.

This will also create message.txt.crt & message.txt.sig files in the same directory.

We can use the openssl command to see the contents of the certificate file.

$ openssl x509 -in message.txt.crt -noout -text
Certificate:
    Data:
        Version: 3 (0x2)
        Serial Number:
            3a:c4:2d:19:20:f0:bf:85:37:a6:01:0f:49:d1:b6:39:20:06:fd:77
        Signature Algorithm: ecdsa-with-SHA384
        Issuer: O = sigstore.dev, CN = sigstore-intermediate
        Validity
            Not Before: Jul  5 14:45:23 2022 GMT
            Not After : Jul  5 14:55:23 2022 GMT
        Subject: 
        Subject Public Key Info:
            Public Key Algorithm: id-ecPublicKey
                Public-Key: (384 bit)
                pub:
                    04:12:aa:88:fd:c7:1f:9e:62:78:46:2a:48:63:d3:
                    b6:92:8b:51:a4:eb:59:18:fb:18:a0:13:54:ac:d0:
                    a4:d8:20:ab:a3:f3:5e:f5:86:aa:34:9b:30:db:59:
                    1b:5c:3d:29:b1:5a:40:ff:55:2c:26:fc:42:58:95:
                    53:d6:23:e5:66:90:3c:32:8c:82:b7:fc:fd:f8:28:
                    2b:53:2d:5c:cb:df:2f:17:d0:f3:bc:26:d2:42:3d:
                    c0:b1:55:61:50:ff:18
                ASN1 OID: secp384r1
                NIST CURVE: P-384
        X509v3 extensions:
            X509v3 Key Usage: critical
                Digital Signature
            X509v3 Extended Key Usage: 
                Code Signing
            X509v3 Subject Key Identifier: 
                6C:F0:C0:63:B8:3D:BB:08:90:C3:03:45:FF:55:92:43:7D:47:19:38
            X509v3 Authority Key Identifier: 
                DF:D3:E9:CF:56:24:11:96:F9:A8:D8:E9:28:55:A2:C6:2E:18:64:3F
            X509v3 Subject Alternative Name: critical
                email:mail@kushaldas.in
            1.3.6.1.4.1.57264.1.1: 
                https://github.com/login/oauth
            CT Precertificate SCTs: 
                Signed Certificate Timestamp:
                    Version   : v1 (0x0)
                    Log ID    : 08:60:92:F0:28:52:FF:68:45:D1:D1:6B:27:84:9C:45:
                                67:18:AC:16:3D:C3:38:D2:6D:E6:BC:22:06:36:6F:72
                    Timestamp : Jul  5 14:45:23.112 2022 GMT
                    Extensions: none
                    Signature : ecdsa-with-SHA256
                                30:46:02:21:00:AB:A6:ED:59:3E:B7:C4:79:11:6A:92:
                                29:92:BF:54:45:6A:B6:1F:6F:1C:63:7C:D9:89:26:D4:
                                6B:EF:E3:3E:9F:02:21:00:AD:87:A7:BA:BA:7C:61:D2:
                                53:34:E0:D0:C4:BF:6A:6E:28:B4:02:82:AA:F8:FD:0B:
                                FB:3A:CD:B9:33:3D:F4:36
    Signature Algorithm: ecdsa-with-SHA384
    Signature Value:
        30:65:02:30:17:89:76:ef:a1:0e:97:5b:a3:fe:c0:34:13:36:
        3f:6f:2a:ba:e9:cd:bd:f2:74:d9:8c:13:2a:88:c9:96:b2:72:
        de:34:44:95:41:f8:b0:69:5b:f0:86:a7:05:cf:81:7f:02:31:
        00:d8:3a:12:89:39:4b:2c:ad:ff:5a:23:85:d9:c0:73:f0:b1:
        db:5c:65:f9:5d:ee:7a:bb:b8:08:01:44:7a:2e:9f:ba:2b:4b:
        df:6a:93:08:e9:44:2c:23:88:66:2c:f7:8f

Verifying the signature

We can verify the signature, just make sure that the certificate & signature files are in the same directory.

$ python -m sigstore verify message.txt 
OK: message.txt

Now, to test this with some real software releases, we will download the cosign RPM package and related certificate & signature files. The certificate in this case, is base64 encoded, so we decode that file first.

$ curl -sOL https://github.com/sigstore/cosign/releases/download/v1.9.0/cosign-1.9.0.x86_64.rpm
$ curl -sOL https://github.com/sigstore/cosign/releases/download/v1.9.0/cosign-1.9.0.x86_64.rpm-keyless.sig
$ curl -sOL https://github.com/sigstore/cosign/releases/download/v1.9.0/cosign-1.9.0.x86_64.rpm-keyless.pem
$ base64 -d cosign-1.9.0.x86_64.rpm-keyless.pem > cosign-1.9.0.x86_64.rpm.pem

Now let us verify the downloaded RPM package along with the email address and signing OIDC issuer URL. We are also printing the debug statements, so that we can see what is actually happening for verification.

$ SIGSTORE_LOGLEVEL=debug python -m sigstore verify --certificate cosign-1.9.0.x86_64.rpm.pem --signature cosign-1.9.0.x86_64.rpm-keyless.sig --cert-email keyless@projectsigstore.iam.gserviceaccount.com --cert-oidc-issuer https://accounts.google.com  cosign-1.9.0.x86_64.rpm

DEBUG:sigstore._cli:parsed arguments Namespace(subcommand='verify', certificate=PosixPath('cosign-1.9.0.x86_64.rpm.pem'), signature=PosixPath('cosign-1.9.0.x86_64.rpm-keyless.sig'), cert_email='keyless@projectsigstore.iam.gserviceaccount.com', cert_oidc_issuer='https://accounts.google.com', rekor_url='https://rekor.sigstore.dev', staging=False, files=[PosixPath('cosign-1.9.0.x86_64.rpm')])
DEBUG:sigstore._cli:Using certificate from: cosign-1.9.0.x86_64.rpm.pem
DEBUG:sigstore._cli:Using signature from: cosign-1.9.0.x86_64.rpm-keyless.sig
DEBUG:sigstore._cli:Verifying contents from: cosign-1.9.0.x86_64.rpm
DEBUG:sigstore._verify:Successfully verified signing certificate validity...
DEBUG:sigstore._verify:Successfully verified signature...
DEBUG:urllib3.connectionpool:Starting new HTTPS connection (1): rekor.sigstore.dev:443
DEBUG:urllib3.connectionpool:https://rekor.sigstore.dev:443 "POST /api/v1/index/retrieve/ HTTP/1.1" 200 69
DEBUG:urllib3.connectionpool:https://rekor.sigstore.dev:443 "GET /api/v1/log/entries/9ee91f2c5444e4ff77a3a18885f46fa2b6f7e629450904d67b5920333327b90d HTTP/1.1" 200 None
DEBUG:sigstore._verify:Successfully verified Rekor entry...
OK: cosign-1.9.0.x86_64.rpm

Oh, one more important thing. The maintainers of the tool are amazing about feedback. I had some trouble initially (a few weeks ago). They sat down with me to make sure that they could understand the problem & also solved the issue I had. You can talk to the team (and other users, including me) in the slack room.

I moved to Sweden a few months back. I met a lot of women like me who came from different countries. Many of them had flourishing careers in their respective countries. Teacher, architect, economist, marketing professional, HR, lawyer, you name it. But now, in this country, they cannot find a living for themselves. The reason being many but majorly the language. The majority of them do not have fluency in Swedish. Moving countries/ continents is complex. And what makes it more challenging than when you lose your individuality, financial independence, and career. I could feel their pain and more so since I am going through a somewhat similar kind of situation as them.

The only difference between them is that I had project Sigsum to support me (for my job
), PyLadies Stockholm and the greater Python Sweden community. So I thought, why not share some of my fortunes with them. Many of them wanted to build their career in tech. And we PyLadies may be a help to them. I shared my idea with our excellent PyLadies Stockholm organizer and Python Sweden Board chair, Christine. She gave me the green signal and the mantra “go do it” :). I started reaching out to companies and communities for spaces. Christine shared me with a few contacts. But it was so hard to get a place :(. Since it is midsummer, none of the offices was working as it is supposed to function. Finally, Sunet came to the rescue and provided the space for the meetup.

June twenty-first, 2022, was the date for our meetup. We had women coming from different educational and cultural backgrounds. One thing we all had in common was that we wanted to learn a new skill to give life a fresh start and do it together. We know it is an uphill battle, and we are ready for the struggle. After a little nudge from me, the group, which was hesitant to give their introduction initially, started sharing their projects and ideas with each other. The “Show and Tell” was a great success (and the 50 minutes session was extended to 1 hour and 30 minutes). How lovely is that? People shared such a variety of projects with us. Ranging from different Python libraries, web design projects, projects on the Password manager, and why what excites them about Python and what they want to achieve. After that, I talked about the program “Python for everyone” - > what is it? And why is it? And whom is it for? It was an up, close and personal session.

We are going to have another mingle in the first half of August. And our Python for Everyone sessions will begin with the Python 101 session on August second. In the meantime, we will focus on building the foundation, so we are ready for our sessions in August. Join us on our slack channel and stay connected.

June 14, 2022

Extending on my earlier post about the Kubernetes Release Team

I’m serving as the Enhancements Role Lead for the current Kubernetes 1.25 Release Team.

As a role lead this time, I have a group of five outstanding shadows that I am not only mentoring to become future leads, but I am also learning from them - both “how to teach” and “how to learn”

I haven’t posted in a long time (ups & downs & new roles & responsibilities & sometimes you don’t feel like doing anything at all & it literally takes all the energy even to do the required)

So, just adding that I was also an Enhancements Shadow on the Kubernetes 1.24 Release Team, and my former role lead, Grace Ngyuen, nominated me to be the next role lead at the conclusion of the previous release cycle.

When I look back on my time throughout these three cycles, I’m amazed at how much I’ve learned. It’s been a great experience. 🙂 Not only did I learn, but I also felt recognized.

Currently, We’re at Week 4 of the 1.25 release cycle, and it’s one of the busiest for the Enhancements role (as we’re almost approaching Enhancements Freeze in a week). I would say, we’re doing good so far! 😄

And one more thing before I finish up this small post!

I got to go to my first ever KubeCon event in person!

I had the opportunity to attend the KubeCon EU 2022 event in Valencia, Spain (my first ever international travel as well). I was astonished that so many people knew who I was (anything more than zero was “so many” for me) and that I already belonged to a tiny group of people. It was an incredible feeling.

I’m not a very photo photo person, but sharing some 🙂

But what is Network Time Security (NTS)? To understand NTS, first we have to get familiar with NTP.

NTP, Network Time Protocol is a networking protocol for clock synchronization. In simple terms this protocol helps your system to get correct time. RFC 5905 lays the ground rule for NTP.

Now, NTS is an improvement over NTP. It is made of two different parts.

• NTS key exchange: When using TLS the NTP client and server exchanges key materials.
• NTS authentication: This part ensures that the time synchronization packets are authenticated using the key materials from the step one.

NTS is defined in RFC 8915.

To read more on the subject I found this blog post from Netnod. While this is an useful resource, but this does not explain how to use NTS on my Fedora laptop, which uses chrony for time sync.

Which servers to use?

I am using servers from 2 providers - Netnod and Cloudflare. Since I am based in Sweden I will be using :

• sth1.nts.netnod.se
• sth2.nts.netnod.se

Both of above mentioned servers are for the users located near Stockholm.

For everyone who are not close enough to Stockholm they can use

• nts.netnod.se

I will further be using the NTS server from Cloudflare, because they have their servers at 180 cities around the globe.

• time.cloudflare.com

Update /etc/chrony.conf

I am adding the following configuration to my /etc/chrony.conf. My configuration adds the NTS servers to use and further disables NTP servers received by DHCP.

# Use public servers from the pool.ntp.org project.
# Please consider joining the pool (https://www.pool.ntp.org/join.html).

server sth1.nts.netnod.se iburst nts
server sth2.nts.netnod.se iburst nts
server nts.netnod.se iburst nts
server time.cloudflare.com iburst nts

# Use NTP servers from DHCP.
#sourcedir /run/chrony-dhcp

Now restart the chronyd service, sudo systemctl restart chronyd.

We can verify that the system is using NTS with the following command:

$ sudo chronyc -N authdata
Name/IP address             Mode KeyID Type KLen Last Atmp  NAK Cook CLen
=========================================================================
sth1.nts.netnod.se           NTS     1   15  256   24    0    0    8  100
sth2.nts.netnod.se           NTS     1   15  256   27    1    0    0    0
nts.netnod.se                NTS     1   15  256   24    0    0    8  100
time.cloudflare.com          NTS     1   15  256   24    0    0    8  100

The different headers are as follows:

• Name/IP address: Name of the server.
• Mode : Which authentication mechanism has been used. In our case it should be NTS.
• KeyID: it is a number starting at zero and incremented by one with each successful key establishment using the NTS-KE protocol,
• Type: Which algorithm is used for authentication. Here 15 means AEAD-AES-SIV-CMAC-256
• KLen: Length of the key in bits.
• Last: How long ago the last successful key establishment has been taken place. The time is mentioned in seconds. The letters m, h, d or y indicate minutes, hours, days, or years.
• Atmp: Number of attempts to perform the key establishment since the last successful key establishment. Any number larger than 1 indicates a problem with the network or server.
• NAK: If an NTS NAK was received since the last request.
• Cook: Number of NTS cookies chrony currently possesses.
• CLen: Length of the last cookie used in bytes.

Ubuntu 22.04 uses systemd-timesyncd, which still does not support NTS. One can follow the discussion here.

Yesterday, I came across a tweet by Sara Soueidan, which resonated with me. Mostly because I have had this discussion (or heated arguments) quite a few times with many folks. Please go and read her tweet thread since she mentions some really great points about why progressive enhancement is not anti-js. As someone who cares about security, privacy, and accessibility, I have always been an advocate of progressive enhancement. I always believe that a website (or any web-based solution) should be accessible even without JavaScript in the browser. And more often than not, people take me as someone who is anti-JavaScript. Well, let me explain with the help (a lot of help) of resources already created by other brilliant folks.

What is Progressive Enhancement?

Progressive enhancement is the idea of making a very simple, baseline foundation for a website that is accessible and usable by all users irrespective of their input/output devices, browsers (or user-agents), or the technology they are using. Then, once you have done that, you sprinkle more fancy animations and custom UI on top that might make it look more beautiful for users with the ideal devices.

I know I probably didn't do a perfect job explaining the idea of progressive enhancement. So honestly, just go and watch this video on progressive enhancement by Heydon Pickering.

So how to do this Progressive Enhancement?

If you saw the video by Heydon, I am sure you are starting to get some idea. Here I am going to reference another video titled Visual Styling vs. Semantic Meaning, which was created by Manuel Matuzović. I love how, in this video Manuel shares the idea of building first semantically and then visually styling it.

So I think a good way to do progressive enhancement according to me is:

1. Start with HTML - This is a very good place to start, because not only does this ensure that almost all browsers and user devices can render this, but also it helps you think semantically instead of based on the visual design. That already starts making your website not only good for different browsers, but also for screen reader and assistive technology users.

2. Add basic layout CSS progressively - This is the step where you start applying visual designs. But only the basic layouts. This progressively enhances the visual look of the website, and also you can add things like better focus styles, etc. Be careful and check caniuse.com to add CSS features that are well supported across most browsers in different versions. Remember what Heydon said? "A basic Layout is not a broken layout".

3. Add fancy CSS progressively - Add more recent CSS features for layouting and to progressively enhance the visual styling of your website. Here you can add much more newer features that make the design look even more perfect.

4. Add fancy JavaScript sparkles progressively - If there are animations, and interactions that you would like the user to have that is not possible by HTML & CSS, then start adding your JavaScript at this stage. JavaScript is often necessary for creating accessible custom UIs. So absolutely use when necessary to progressively enhance the experience of your users based on the user-agents they have.

SEE! I told you to add JavaScript! So no, progressive enhancement is not about being anti-JavaScript. It's about progressively adding JavaScript wherever necessary to enhance the features of the website, without blocking the basic content, layout and interactions for non-JavaScript users.

Well, why should I not write everything in JavaScript?

I know it's trendy these days to learn fancy new JavaScript frameworks and write fancy new interactive websites. So many of you at this point must be like, "Why won't we write everything in JavaScript? Maybe you hate JavaScript, that's why you are talking about these random HTML & CSS things. What are those? Is HTML even a programming language?"

Well firstly, I love JavaScript. I have contributed to many JavaScript projects, including jQuery. So no I don't hate JavaScript. But I love to use JavaScript for what JavaScript is supposed to be used for. And in most cases, layouting or loading basic content isn't one of them.

But who are these people who need websites to work without JavaScript?

• People who have devices with only older browsers. Remember, buying a new device isn't so easy in every part of the world and sometimes some devices may have user-agents that don't support fancy JavaScript. But they still have the right to read the content of the website.
• People who care about their security and privacy. A lot of security and privacy focused people prefer using a browser like Tor Browser with JavaScript disabled to avoid any kind of malicious JavaScript or JavaScript based tracking. Some users even use extensions like NoScript with common browsers (firefox, chrome, etc.) for similar reasons. But just because they care about their security and privacy doesn't mean they shouldn't have access to wesite content.
• People with not so great internet. Many parts of the world still don't have access to great internet and rely on 2G connections. Often loading a huge bundled JavaScript framework with all it's sparkles and features takes unrealistically long time. But they should still be able to access content from a website article.

So, yes. It's not about not using JavaScript. It's more about starting without JavaScript, and then adding your bells and whistles with JavaScript. That way people who don't use JavaScript can still access atleast the basic content.

See this amazing example of progressive enhancement using JavaScript by Adrian Roselli: https://twitter.com/aardrian/status/1527735474592284672

Here is another really great talk by Max Böck in id24: https://www.youtube.com/watch?v=8RdrRCq8VzU

select_for_update is the answer if you want to acquire a lock on the row. The lock is only released after the transaction is completed. This is similar to the Select for update statement in the SQL query.

>>> Dealership.objects.select_for_update().get(pk='iamid')
>>> # Here lock is only required on Dealership object
>>> Dealership.objects.select_related('oem').select_for_update(of=('self',))

select_for_update have these four arguments with these default value – nowait=False – skiplocked=False – of=() – nokey=False

Let's see what these all arguments mean

nowait

Think of the scenario where the lock is already acquired by another query, in this case, you want your query to wait or raise an error, This behavior can be controlled by nowait, If nowait=True we will raise the DatabaseError otherwise it will wait for the lock to be released.

skip_locked

As somewhat name implies, it helps to decide whether to consider a locked row in the evaluated query. If the skip_locked=true locked rows will not be considered.

nowait and skip_locked are mutually exclusive using both together will raise ValueError

of

In select_for_update when the query is evaluated, the lock is also acquired on the select related rows as in the query. If one doesn't wish the same, they can use of where they can specify fields to acquire a lock on

>>> Dealership.objects.select_related('oem').select_for_update(of=('self',))
# Just be sure we don't have any nullable relation with OEM

no_key

This helps you to create a weak lock. This means the other query can create new rows which refer to the locked rows (any reference relationship).

Few more important points to keep in mind select_for_update doesn't allow nullable relations, you have to explicitly exclude these nullable conditions. In auto-commit mode, select_for_update fails with error TransactionManagementError you have to add code in a transaction explicitly. I have struggled around these points :).

Here is all about select_for_update which you require to know to use in your code and to do changes to your database.

Cheers!

#Python #Django #ORM #Database

Anyone who has dealt with <form> tag in HTML might have come across the autocomplete attribute. Most developers just put autocomplete="on" or autocomplete="off" based on whether they want users to be able to autocomplete the form fields or not. But there's much more in the autocomplete attribute than many folks may know.

Browser settings

Most widely used browsers (Firefox, Chrome, Safari, etc.), by default, remember information that is submitted using a form. When the user later tries to fill another form, browsers look at the name or type attribute of the form field, and then offer to autocomplete or autofill based on the saved information from previous form submissions. I am assuming many of you might have experienced these autocompletion suggestions while filling up forms. Some browsers, like Firefox, look at the id attribute and sometimes even the value of the <label> associated with the input field.

Autofill detail tokens

For a long time, the only valid values for the autocomplete attribute were "on" or "off" based on whether the website developer wanted to allow the browser to automatically complete the input. However, in the case of "on", it was left entirely to the browser how they determine which value is expected by the input form. Now, for some time, the autocomplete tag allows for some other values, which are collectively as a group called autofill detail tokens.

<div>
  <label for="organization">Enter your credit card number</label>
  <input name="organization" id="organization" autocomplete="organization">
</div>

These values help tell the browser exactly what the input field expects without needing the browser to guess it. There is a big list of autofill detail tokens. Some of the common ones are "name", "email", "username", "organizations", "country", "cc-number", and so on. Check the WHATWG Standard for autofill detail tokens to understand what are the valid values, and how they are determined.

There are two different autofill detail tokens associated with passwords which have some interesting features apart from the autocompletion:

• "new-password" - This is supposed to be used for "new password field"s or for "confirm new password field"s. This helps separate a current password field from a new password field. Most browsers and most password managers, when they see this in autocomplete attribute, will avoid accidentaly filling existing passwords. Some even suggest a new randomly generated password for the field if autocomplete has "new-password" value.
• "current-password" - This is used by browsers and password managers to autofill or suggest autocompletion with the current saved password for that email/username for that website.

The above two tokens really help in intentionally separating new password fields from login password fields. Otherwise, the browsers and password managers don't have much to separate between the two different fields and may guess it wrong.

Privacy concerns

Now, all of the above points might already be giving privacy and security nightmares to many of you. Firstly, the above scenario works only if you are on the same computer, using the same accounts, and the same browsers. But there are a few things you can do to avoid autocompletion, or saving of the data when filling up the form.

• Use the browser in privacy/incognito mode. Most browsers will not save the form data submitted to a website when opened in incognito mode. They will, however still suggest autocompletion, based on the saved information from normal mode.
• If you already have autocomplete information saved from before, but want to remove now, you can. Most browsers allow you to clear form and search history from the browser.
• If you want to disable autofill and autocomplete, you can do that as well from browser settings. This will also tell the browsers to never remember the values entered into the form fields.

You can find the related information for different browsers here:

• Chrome: https://support.google.com/chrome/answer/142893?hl=en&co=GENIE.Platform%3DDesktop&oco=0
• Firefox: https://support.mozilla.org/en-US/kb/control-whether-firefox-automatically-fills-forms
• Safari: You need to uncheck the different options mentioned here to disable

Now, if you are a privacy-focused developer like me, you might be wondering, "Can't I as a developer help protect privacy?". Yes, we can! That's exactly what autocomplete="off" is still there for. We can still add that attribute to an entire <form> which will disable both remembering and autocompletion of all form data in that form. We can also add autocomplete="off" individually to specific <input>, <textarea>, <select> to disabled the remembering and autocompletion of specific fields instead of the entire form.

PS: Even with autocomplete="off", most browsers still offer to remember username and password. This is actually done for the same reason digital security trainers ask to use password managers: so that users don't use the same simple passwords everywhere because they have to remember. As a digital security trainer, I would still recommend not using your browser's save password feature, and instead using a password manager. The password managers actually follow the same rule of remembering and auto-filling even with autocomplete="off" for username and password fields.

Accessibility

So, as a privacy-focused developer, you might be wondering, "Well, I should just use autocomplete="off" in every <form> I write from today". Well, that raises some huge accessibility concerns. If you love standards, then look specifically at Understanding Success Criterion 1.3.5: Identify Input Purpose.

There are folks with different disabilities who really benefit from the autocomplete tag, which makes it super important for accessibility:

• People with disabilities related to memory, language or decision-making benefit immensely from the auto-filling of data and not need to remember every time to fill up a form
• People with disabilities who prefer images/icons for communication can use assistive technology to add icons associated with various different input fields. A lot of them can benefit from proper autocomplete values, if the name attribute is not eligible.
• People with motor disabilities benefit from not needing to manually input forms every time.

So, given that almost all browsers have settings to disable these features, it might be okay to not always use autocomplete="off". But, if there are fields that are essentially super sensitive, that you would never want the browser to save information about (e.g., government id, one time pin, credit card security code, etc.), you should use autocomplete="off" on the individual fields instead of the entire <form>. Even if you really really think that the entire form is super sensitive and you need to apply autocomplete="off" on the entire <form> element to protect your user's privacy, you should still at least use autofill detail tokens for the individual fields. This will ensure that the browser doesn't remember the data entered or suggest autofills, but will still help assistive technologies to programmatically determine the purpose of the fields.

Recommended further readings:

• https://developer.mozilla.org/en-US/docs/Web/HTML/Attributes/autocomplete
• https://developer.mozilla.org/en-US/docs/Web/Security/Securing_your_site/Turning_off_form_autocompletion
• https://www.w3.org/WAI/WCAG21/Understanding/identify-input-purpose.html
• https://www.w3.org/WAI/WCAG21/Techniques/html/H98
• https://www.htmhell.dev/tips/autocompleting-password-fields/

It has been ridiculously hard and I was about to pull my hair out at several points on this ordeal, but I finally managed to remove this stupid (revised to modest language here) DRM from my epub file. I took many side roads that lead me nowhere and spent quite some hours to find a working solution, so I'm writing this down in case I (or someone else) may need it again.

Why removing DRM from an ebook

First of all: I'm not saying you should do anything illegal (I'm also not saying that you shouldn't); however, a friend bought me an ebook as a gift. I told him about this book and that it was on top of my to-read pile, I just didn't buy it yet. So he purchased and gifted to me a digital copy and asked if I would lend it to him when done reading. Sure thing. Except that I couldn't. Bummer!

What I downloaded from the store was an acsm (for Adobe Content Server Message) file, which is needed to communicate with the Adobe Servers. It verifies that I'm authorized to download the (DRM protected) book, and to view the content on different devices that also use my Adobe ID.

A quick internet search...

revealed the following path that lay before me:

• install and authorize Adobe Digital Editions
• load the acsm in ADE to download the book
• export the book as DRM protected epub
• use calibre and the DeDRM plugin to remove the DRM protection

So far that sounded perfectly doable. Then I learned that Adobe Digital Editions is available for Windows, MacOS, Android ... of course there's no Linux app. I don't have a Windows or Apple machine, and I hate fiddling around with the phone, so wine it is.

However, on my main machine I also don't have wine - or rather I don't want to, because I hate to activate the multilib repositories. Wine is still all lib32. So I used another Ubuntu laptop that I keep for the dirty work of that kind.

Unfortunately (for my mental health) my Ubuntu distribution offers a calibre version 4.9x, while the latest DeDRM plugin requires calibre 5.x. Fine!, I think, I just use the latest DeDRM release that plays along with my calibre 4.9. Well, of course not! That would require calibre running on Python 2; mine runs on Python 3. There, I loose my hair.

So I end up installing the latest version from calibre-ebook.com. Should you have to do this, make sure to pick the "isolated" install, that does not require root.

This worked for me

We start with a fresh wine prefix to install our ADE:

export WINEPREFIX=~/.adewine
winecfg
winetricks -q adobe_diged4

Evoking winecfg will initialize the new prefix. Make sure to pick Windows 10 here - I'll tell you why in a bit.

When I started ADE and tried to open the acsm directly, it crashed. So I had to first manually authorize the laptop via the Help menu. An Adobe ID is required, create one if you don't have it already. Then we can load the acsm and get the DRM protected ebook. I could find the epub files in a new ADE sub-folder in my ~/Documents, but you can also save them to a different location in ADE.

To use calibre's DeDRM plugin to remove the protection, we need to extract the Adobe ID key from ADE, so make sure to have both installed. The DeDRM plugin is nice enough to offer a field for our wine prefix. However, this also means that a wine Python is going to be necessary. This is what you need to pick Windows 10 for in winecfg: Python 3.9 or 3.10 can easily be downloaded from https://www.python.org/, but installers only work on Windows 8.1 or higher (and nobody wants to use 8.1). Remember to pick the 32 bit version; it's still meant for the wine environment.

So we install Python 3.10 and the necessary dependencies to make the scripts work:

export WINEPREFIX=~/.adewine
wine ~/Downloads/python-3.10.2[...].exe

wine python -m pip install --upgrade pip
wine python -m pip install pyopenssl

Set the check on "Add Python to Path" during the installation of Python, to spare you some headaches

The scripts also require an OpenSSL distribution in your wine environment (I failed to install PyCrypto, the other viable option. Don't ask me why, because I don't know.). I did find a working package here. Make sure to pick version 1.1; this is what the DeDRM scripts use (and again choose the 32 bit variant, of course).

Having this set up, you should be able to add your Adobe ID key to the DeDRM plugin in the plugin's preferences dialog.

I actually didn't know that I would need all this, but after enough cursing I finally remembered to start calibre with calibre-debug -g, to actually learn why that stupid (kidding, it's great) script failed. Actually in the end I just located the python script to extract the ADE keys and ran it manually:

cd ~/.config/calibre/plugins/DeDRM/libraryfiles/
wine python adobekey.py

And this is where you have deserved a bottle of well chilled beer. Whether you managed to import the key to the DeDRM plugin directly, or manually extracted them with running adobekey.py for later file import; Now your plugin should be armed and ready to have your book(s) added to calibre, and DRM protection should be removed on import.

I also tried...

a tool called knock that promised to remove DRM protection, with neither wine nor Adobe Digital Editions (ADE) required. I saw very positive comments so I assume it can work somehow, but apparently I was too dumb to use it. It probably would have been easier to install via nix, but that's completely unknown territory for me, so I tried to install all dependencies manually in a virtual environment, and as with many click apps, it was a pain to use it in any way that differs the original intention.

The binary packaged release also failed for me, but maybe you are smarter than I was.

I want to spend more time in 2022 to “Do Less!”, take things as they come, take breaks and try to travel or work on mechanical keyboards during those breaks. The time off that I took in 2021 - first half of August and last half of December, gave me a lot of breathing space and time to rethink priorities especially the first one where I partially overcame burnout due to several factors (Thanks to VMware for the generous leaves!).

Last year, I started actively taking care of my health. I jogged for ~700kms in the last quarter (Oct-Dec) although I did not jog during the time I was travelling to Bangalore/Delhi/Kolkata. I want to continue the same trend and target atleast 3000kms of jogging and a 10km run in 2022.

2021 was also when I moved back to my hometown, Agartala, and that too after a span of 9 years. I spent a lot of time with close family members and friends from school. I plan to spend more time with people who I care about and who care about me, be it in Bangalore or Agartala.

Flatcar Container Linux recently announced the Stable support for ARM64.

Perfectly timed! I had a Raspberry Pi 4 lying around and had just ordered a few more to set up a home lab during the holidays. The newer Pis are yet to arrive, so better utilize the time writing a walkthrough on how to use Flatcar Container Linux on your Pis.

Hardware Requirements

• Goes without saying, a Raspberry Pi 4
• Form of storage, either USB and/or SD card. USB 3.0 drive recommended because of the much better performance for the price.
• Display (via micro HDMI/HDMI/Serial Cables), keyboard

⚠️ WARNING ⚠️
The UEFI firmware used in this guide is an UNOFFICIAL firmware. There is a possibility of damage caused due to the usage of this firmware. The author of this article would not be liable for any damage caused. Please follow this article at your own risk.

Update the EEPROM

The Raspberry PI 4 use an EEPROM to boot the system. Before proceeding ahead, it is recommended to update the EEPROM. Raspberry Pi OS automatically updates the bootloader on system boot. In case you are using Raspberry Pi OS already, then the bootloader may be already updated.

For manually updating the EEPROM, you can either use the Raspberry Pi Imager or the raspi-config. The former is the recommended method in the Raspberry Pi documentation.

We will also see later how the RPi4 UEFI firmware needs a recent version of EEPROM.

Using the Raspberry Pi Imager (Recommended)

• Install the Raspberry Pi Imager software. You can also look for the software in your distribution repository. Being a Fedora user I installed the software using dnf

dnf install rpi-imager

• Launch Raspberry Pi Imager.
• Select Misc utility images under Operating System.
• Select Bootloader.
• Select the boot-mode, SD, USB
• Select the appropriate storage, SD or USB
• Boot the Raspberry Pi with the new image and wait for at least 10 seconds.
• The green activity LED will blink with a steady pattern and the HDMI display will be green on success.
• Power off the Raspberry Pi and disconnect the storage.

Using the raspi-config

• Update the rpi-eeprom package.

sudo apt update
sudo apt full-upgrade
sudo apt install rpi-eeprom

• Run sudo raspi-config
• Select Advanced Options.
• Select Bootloader Version
• Select Latest for latest Stable Bootloader release.
• Reboot

Using the rpi-eeprom-update

• Update the rpi-eeprom package.

sudo apt update
sudo apt full-upgrade
sudo apt install rpi-eeprom

• Check if there are available updates.

sudo rpi-eeprom-update

• Install the update

# The update is pulled from the `default` release channel.
# The other available channels are: latest and beta
# You can update the channel by updating the value of
# `FIRMWARE_RELEASE_STATUS` in the `/etc/default/rpi-eeprom-update`
# file. This is useful usually in case when you want
# features yet to be made available on the default channel.

# Install the update
sudo rpi-eeprom-update -a

# A reboot is needed to apply the update
# To cancel the update, you can use: sudo rpi-eeprom-update -r
sudo reboot

Installing Flatcar

Install flatcar-install script

Flatcar provides a simple installer script that helps install Flatcar Container Linux on the target disk. The script is available on Github, and the first step would be to install the script in the host system.

mkdir -p ~/.local/bin
# You may also add `PATH` export to your shell profile, i.e bashrc, zshrc etc.
export PATH=$PATH:$HOME/.local/bin

curl -LO https://raw.githubusercontent.com/flatcar-linux/init/flatcar-master/bin/flatcar-install
chmod +x flatcar-install
mv flatcar-install ~/.local/bin

Install Flatcar on the target device

Now that we have the flatcar-install installed in our host machine. We would go ahead and install the Flatcar Container Linux image on the target device. The target device could be a USB or SD Card. In my case, I reused the existing SD Card which I used in the previous steps. You can use a separate storage device as well.

The options that we will be using with the scripts are:

# -d DEVICE   Install Flatcar Container Linux to the given device.
# -C CHANNEL  Release channel to use
# -B BOARD    Flatcar Container Linux Board to use
# -o OEM      OEM type to install (e.g. ami), using flatcar_production_<OEM>_image.bin.bz2
# -i IGNITION Insert an Ignition config to be executed on boot.

• The device would be the target device that you would like to use. You can use the lsblk command to find the appropriate disk. Here, I’m using /dev/sda which was in my case.
• With the given values of channel and board, the script would download the image, verify it with gpg, and then copy it bit for bit to disk.
• In our case, Flatcar does not yet ship Raspberry PI specific OEM images yet so the value will be an empty string ''.
• Pass the Ignition file, config.json in my case, to provision the Pi during boot.

{
  "ignition": {
    "config": {},
    "security": {
      "tls": {}
    },
    "timeouts": {},
    "version": "2.3.0"
  },
  "networkd": {},
  "passwd": {
    "users": [
      {
        "name": "core",
        "sshAuthorizedKeys": [
          <Insert your SSH Keys here>
        ]
      }
    ]
  },
  "storage": {
    "files": [
      {
        "filesystem": "OEM",
        "path": "/grub.cfg",
        "append": true,
        "contents": {
          "source": "data:,set%20linux_console%3D%22console%3DttyAMA0%2C115200n8%20console%3Dtty1%22%0Aset%20linux_append%3D%22flatcar.autologin%20usbcore.autosuspend%3D-1%22%0A",
          "verification": {}
        },
        "mode": 420
      }
    ],
    "filesystems": [
      {
        "mount": {
          "device": "/dev/disk/by-label/OEM",
          "format": "btrfs"
        },
        "name": "OEM"
      }
    ]
  },
  "systemd": {}
}

Write away!

sudo flatcar-install -d /dev/sda -C stable -B arm64-usr -o '' -i config.json

If you already have the image downloaded you can use the -f param to specify the path of the local image file.

sudo flatcar-install -d /dev/sda -C stable -B arm64-usr -o '' -i config.json -f flatcar_production_image.bin.bz2

Raspberry Pi 4 UEFI Firmware

rpi-uefi community ships a SBBR-compliant(UEFI+ACPI), ArmServerReady ARM64 firmware for Raspberry Pi 4. We would be using the same to UEFI boot Flatcar.

v1.17 of the pftf/RPi4 introduced two major changes:

• Firstly, it enabled firmware boot directly from the USB. This is particularly helpful if you are using the installation process using a USB device. To add a fun story, I dropped my Pi and broke the SD card slot. Until the Pi gets repaired, I’m making use of direct USB boot 😎
• Secondly, support for directly placing the Pi boot files into the EFI System Partition (ESP). This feature was not implemented in the firmware, rather from the upstream firmware from Raspberry Pi Foundation. This is why it is recommended to update the Pi EEPROM at the very beginning.

Let’s move ahead with the final steps.

• Place the UEFI firmware into the EFI System Partition.

efipartition=$(lsblk /dev/sda -oLABEL,PATH | awk '$1 == "EFI-SYSTEM" {print $2}')
mkdir /tmp/efipartition
sudo mount ${efipartition} /tmp/efipartition
pushd /tmp/efipartition
version=$(curl --silent "https://api.github.com/repos/pftf/RPi4/releases/latest" | jq -r .tag_name)
sudo curl -LO https://github.com/pftf/RPi4/releases/download/${version}/RPi4_UEFI_Firmware_${version}.zip
sudo unzip RPi4_UEFI_Firmware_${version}.zip
sudo rm RPi4_UEFI_Firmware_${version}.zip
popd
sudo umount /tmp/efipartition

• Remove the USB/SD from the host device and attach it into the Raspberry Pi 4 and boot.

Voilà! In no time, your Raspberry Pi would boot and present you with a Flatcar Container Linux prompt.

Further Reading

• rpi4-uefi.dev - RPi4 UEFI Firmware Official Website
• Raspberry Pi documentation

Photo by Anto Meneghini

Today, we are going to see how we can use | operator in our python code to achieve clean code.

Here is the code where we have used map and filter for a specific operation.

In [1]: arr = [11, 12, 14, 15, 18]
In [2]: list(map(lambda x: x * 2, filter(lambda x: x%2 ==1, arr)))
Out[2]: [22, 30]

The same code with Pipes.

In [1]: from pipe import select, where
In [2]: arr = [11, 12, 14, 15, 18]
In [3]: list(arr | where (lambda x: x%2 ==1) | select(lambda x:x *2))
Out[3]: [22, 30]

Pipes passes the result of one function to another function, have inbuilt pipes method like select, where, tee, traverse.

Install Pipe

>> pip install pipe

traverse

Recursively unfold iterable:

In [12]: arr = [[1,2,3], [3,4,[56]]]
In [13]: list(arr | traverse)
Out[13]: [1, 2, 3, 3, 4, 56]

select()

An alias for map().

In [1]: arr = [11, 12, 14, 15, 18]
In [2]: list(filter(lambda x: x%2 ==1, arr))
Out[2]: [11, 15]

where()

Only yields the matching items of the given iterable:

In [1]: arr = [11, 12, 14, 15, 18]
In [2]: list(arr | where(lambda x: x % 2 == 0))
Out[2]: [12, 14, 18]

sort()

Like Python's built-in “sorted” primitive. Allows cmp (Python 2.x only), key, and reverse arguments. By default, sorts using the identity function as the key.

In [1]:  ''.join("python" | sort)
Out[1]:  'hnopty'

reverse

Like Python's built-in “reversed” primitive.

In [1]:  list([1, 2, 3] | reverse)
Out[1]:   [3, 2, 1]

strip

Like Python's strip-method for str.

In [1]:  '  abc   ' | strip
Out[1]:  'abc'

That's all for today, In this blog you have seen how to install the Pipe and use the Pipe to write clean and short code using inbuilt pipes, you can check more over here

Cheers!

#100DaysToOffload #Python #DGPLUG

I have had the pleasure to talk with 30+ folks and help them in their journey in the field of computer science and/or growing in their career with Open Source Software. It has been an honour that so many wanted to talk to me and get my views.

For the month of December, I am going to take a break from the mentoring sessions as I will travelling on most weekends and will be out for vacation in the later half of the month.

Fret not, I will try to make up for the lost time by doubling up my commitment for January 2022. But, in case you need to urgently talk with me, drop me a ping on hey [at] nabarun [dot] dev and I will try to schedule something which works for both of us.

Wish you all a very happy December! 🎉

PS: Stay tuned to the RSS feed! There are many articles which are languishing in my drafts, I may publish a few of them.

The aim here is to read through the book and build the habit to spend some time to read through technical books everyday.

I’ll upload the notes from everyday, and after the finish of the chapter accumulate the notes into one.

November 16, 2021

pages: ~7

Notes

I read through the introduction section of the Linux Device Driver book.

• Introduced on how device drivers are more about mechanism than policy.
  • Difference between mechanism and policy
• Splitting the Kernel into process, memory, filesystems, network, and device control
• Loadable modules, (insmod & rmmod)
• Classes of Devices and modules (char, block and network)

November 03, 2021

Some of the very important notes (for myself) from the early sections of the book, The Missing README, A Guide for the New Software Engineer by Chris Riccomini and Dmitriy Ryaboy.

Getting to Concious Competence

Martin M. Broadwell defines four stages of competence in Teaching for Learning:

• unconcious imcompetence
• concious incompetence
• concious competence
• unconcious competence.

Specifically, unconcious incompetence means you are unable to perform a task correctly and are unaware of the gap.

Concious incompetence means you are unable to perform a task correctly but are aware of the gap.

Concious competence means you are capable of performing a task with effort.

Finally, unconcious competence means you are capable of performing a task effortlessly.

All engineers start out conciously or unconciously incompetent. Even if you know everything about software engineering (an impossible task), you’re going to have to learn practical skills like those covered in this book. Your goal is to get to concious competence as quickly as possible.

Cunningham’s Law And Bike-Shedding

We advise you to document, conventions, onboarding procedures, and other oral traditions on your team. You will get a lot of comments and corrections. Do not take the comments Personally.

The point is not to write a perfect document but rather to write enough to trigger a discussion that flashes out the details. This is a variation of Cunningham’s law, which states that “the best way to get the right answer on the internt is not to ask a question; it’s to post the wrong answer.”

Be prepared for trivial discussions to become drawn out, a phenomenon called bike-shedding. Bike-shedding is an allegory by C. Northcote Parkinson, describing a committee assigned to review designs for a power plant. The committee approves the plans within minutes, as they are too complex to actually discuss. They then spend 45 minutes discussing the materials for the bike shed next to the plant. Bike-shedding comes up a lot in technical work.

Mistakes are unavoidable (Learn by Doing!)

At one of Chris’s first internships, he was working on a project with a senior engineer. Chris finished some changes and needed to get them deployed. The senior engineer showed him how to check code into the revision control system, CVS. Chris followed the instructions, blindly running through steps that involved branching, tagging, and merging. Afterward, he continued with the rest of his day and went home.

The next morning, Chris strolled in cheerfully and greeted everyone. They did their best to respond in kind, but they were low. When Chris asked what was up, they informed him that he had managed to corrupt the entire CVS repository. All of the company’s code had been lost. They had been up the entire night desperately trying to recover what they could and were eventually able to get most of the code back (except for Chris’s commits and a few others).

Chris was pretty shaken by the whole thing. His manager pulled him aside and told him not to worry: Chris had done the right thing working with the senior engineer.

Mistakes happen. Every engineer has some version of a story like this. Do your best, and try to understand what you’re doing, but know that these things happen.

Disclaimer

One of these posts; not technical, written with a hot head, controversial topics. Don't read if that already annoys you.

The argument

I've had a hot discussion yesterday, and I'm not quite happy how it went. It's not important how we came there but the core argument was about why I think that less to no money should be spend on military and arms, while the same money should be spent on peace studies and education of diplomats - which I refer to as people who try to understand a different culture and initiate an exchange of values and ethics - not eloquent deceitful but open and direct, fair and square.

My opposition's opinion was different, claiming that we would never live in peace without an army enforcing the peace. That's an opinion that I could argue about all day long, but then he said what really is upsetting me; It's human nature to have wars and to only care for oneself.

I strongly disagree.

As for myself, I don't want that. Does this make me not a human? When we hear, read or see in the news what war crimes are committed, how people are forced to live (if they may live), what people are capable of doing to each other, we call this inhuman. What do we actually mean when we say so? Are the people committing these crimes not human people, or is it the act that is inhuman?

Again, my opponent argues that you should not call someone a liar, but rather say you lied - so to condemn the act of lying but not the person. Well, do we do that in other situations? May we call someone a murderer or a thief when they kill people or steal things? Is it a matter of frequency how often I eat meat while still calling myself a vegetarian?

Being human

The definition of what is or is not human may differ vastly. However, it is schizophenic that if we agree something is inhuman, to not take the consequences; As a human being stop acting inhuman!

Like being a vegetarian or not being a liar and murderer, for me being human is a continuous process that demands continuous work on ourselves. I have to work on myself to act how I want a human to act. When I think that the way meat is "produced" today on earth is inhuman, then I will have to change my diet. I have a vote, I can choose what to buy (or not to buy) or what to write on my blog. I can show people that I disagree and I can sit together with them, discuss differences of opinions and find a rational consent, because that's what I think how a human would act.

On a fun side note, my opponent also argued that animals also fight themselves, so this is just natural. Well, be an animal then.

This is the first post on my blog in a while. I guess this is coming after almost 2 years 9 months. Yes, never wrote those end-of-year review posts too.

A lot has happened.

• I left playing guitar at the end of 2018.
• I didn't work on my book after …

I've been playing around with containers for a few years now. I find them very useful. If you host your own, like I do, you probably write a lot of nginx configurations, maybe apache.

If that's the case, then you have your own solution to get certificates. I'm also assuming that you are using let's encrypt with certbot or something.

Well, I didn't want to anymore. It was time to consolidate. Here comes Traefik.

---
version: '2.3'

services:

traefik:
  container_name: traefik
  image: "traefik:latest"
  restart: unless-stopped
  mem_limit: 40m
  mem_reservation: 25m

volumes:
  - "/var/run/docker.sock:/var/run/docker.sock:ro"

command:
  - --entrypoints.web.address=:80
  - --entrypoints.websecure.address=:443

ports:
  - "80:80"
  - "443:443"

- --entrypoints.web.http.redirections.entryPoint.to=websecure
- --entrypoints.web.http.redirections.entryPoint.scheme=https

- --providers.docker

- --log.level=INFO

- --api.dashboard=true

- --metrics.prometheus=true

- --certificatesresolvers.cloudflareresolver.acme.email=<your@email.here>
- --certificatesresolvers.cloudflareresolver.acme.dnschallenge.provider=cloudflare
- --certificatesresolvers.cloudflareresolver.acme.storage=./acme.json

- "./traefik/acme.json:/acme.json"

environment:
  - CLOUDFLARE_EMAIL=<your-cloudflare@email.here>
  - CLOUDFLARE_API_KEY=<your-api-key-goes-here>

labels:
  - "traefik.http.routers.dashboard-api.rule=Host(`dashboard.your-host.here`)"
  - "traefik.http.routers.dashboard-api.service=api@internal"

- "traefik.http.routers.dashboard-api.middlewares=dashboard-auth-user"
- "traefik.http.middlewares.dashboard-auth-user.basicauth.users=<user>:$$pws5$$rWsEfeUw9$$uV45uwsGeaPbu8RSexB9/"
- "traefik.http.routers.dashboard-api.tls.certresolver=cloudflareresolver"

- "traefik.http.middlewares.frame-deny.headers.framedeny=true"
- "traefik.http.middlewares.browser-xss-filter.headers.browserxssfilter=true"
- "traefik.http.middlewares.ssl-redirect.headers.sslredirect=true"

traefik:
  container_name: traefik
  image: "traefik:latest"
  restart: unless-stopped
  mem_limit: 40m
  mem_reservation: 25m
  ports:
    - "80:80"
    - "443:443"
  command:
    - --entrypoints.web.address=:80
    - --entrypoints.websecure.address=:443
    - --entrypoints.web.http.redirections.entryPoint.to=websecure
    - --entrypoints.web.http.redirections.entryPoint.scheme=https
    - --providers.docker
    - --log.level=INFO
    - --api.dashboard=true
    - --metrics.prometheus=true
    - --certificatesresolvers.cloudflareresolver.acme.email=<your@email.here>
    - --certificatesresolvers.cloudflareresolver.acme.dnschallenge.provider=cloudflare
    - --certificatesresolvers.cloudflareresolver.acme.storage=./acme.json
  volumes:
    - "/var/run/docker.sock:/var/run/docker.sock:ro"
    - "./traefik/acme.json:/acme.json"
  environment:
    - CLOUDFLARE_EMAIL=<your-cloudflare@email.here>
    - CLOUDFLARE_API_KEY=<your-api-key-goes-here>
  labels:
    - "traefik.http.routers.dashboard-api.rule=Host(`dashboard.your-host.here`)"
    - "traefik.http.routers.dashboard-api.service=api@internal"
    - "traefik.http.routers.dashboard-api.middlewares=dashboard-auth-user"
    - "traefik.http.middlewares.dashboard-auth-user.basicauth.users=<user>:$$pws5$$rWsEfeUw9$$uV45uwsGeaPbu8RSexB9/"
    - "traefik.http.routers.dashboard-api.tls.certresolver=cloudflareresolver"
    - "traefik.http.middlewares.frame-deny.headers.framedeny=true"
    - "traefik.http.middlewares.browser-xss-filter.headers.browserxssfilter=true"
    - "traefik.http.middlewares.ssl-redirect.headers.sslredirect=true"

nginx:
  container_name: nginx
  image: nginxinc/nginx-unprivileged:alpine
  restart: unless-stopped
  mem_limit: 8m
  command: ["nginx", "-enable-prometheus-metrics", "-g", "daemon off;"]
  volumes:
    - "./blog/:/usr/share/nginx/html/blog:ro"
    - "./nginx/default.conf.template:/etc/nginx/templates/default.conf.template:ro"
  environment:
    - NGINX_BLOG_PORT=80
    - NGINX_BLOG_HOST=<blog.your-host.here>

server {

    listen       ${NGINX_BLOG_PORT};
    server_name  localhost;

    root   /usr/share/nginx/html/${NGINX_BLOG_HOST};

    location / {
	index  index.html;
	try_files $uri $uri/ =404;
    }
}

labels:
  - "traefik.http.routers.blog-http.rule=Host(`blog.your-host.here`)"

- "traefik.http.routers.blog-http.service=blog-http"
- "traefik.http.services.blog-http.loadbalancer.server.port=80"

- "traefik.http.routers.blog-http.middlewares=blog-main"
- "traefik.http.middlewares.blog-main.chain.middlewares=frame-deny,browser-xss-filter,ssl-redirect"

- "traefik.http.routers.blog-http.tls.certresolver=cloudflareresolver"

nginx:
  container_name: nginx
  image: nginxinc/nginx-unprivileged:alpine
  restart: unless-stopped
  mem_limit: 8m
  command: ["nginx", "-enable-prometheus-metrics", "-g", "daemon off;"]
  volumes:
    - "./blog/:/usr/share/nginx/html/blog:ro"
    - "./nginx/default.conf.template:/etc/nginx/templates/default.conf.template:ro"
  environment:
    - NGINX_BLOG_PORT=80
    - NGINX_BLOG_HOST=<blog.your-host.here>
  labels:
    - "traefik.http.routers.blog-http.rule=Host(`blog.your-host.here`)"
    - "traefik.http.routers.blog-http.service=blog-http"
    - "traefik.http.services.blog-http.loadbalancer.server.port=80"
    - "traefik.http.routers.blog-http.middlewares=blog-main"
    - "traefik.http.middlewares.blog-main.chain.middlewares=frame-deny,browser-xss-filter,ssl-redirect"
    - "traefik.http.routers.blog-http.tls.certresolver=cloudflareresolver"

---
version: '2.3'

services:

  traefik:
    container_name: traefik
    image: "traefik:latest"
    restart: unless-stopped
    mem_limit: 40m
    mem_reservation: 25m
    ports:
      - "80:80"
      - "443:443"
    command:
      - --entrypoints.web.address=:80
      - --entrypoints.websecure.address=:443
      - --entrypoints.web.http.redirections.entryPoint.to=websecure
      - --entrypoints.web.http.redirections.entryPoint.scheme=https
      - --providers.docker
      - --log.level=INFO
      - --api.dashboard=true
      - --metrics.prometheus=true
      - --certificatesresolvers.cloudflareresolver.acme.email=<your@email.here>
      - --certificatesresolvers.cloudflareresolver.acme.dnschallenge.provider=cloudflare
      - --certificatesresolvers.cloudflareresolver.acme.storage=./acme.json
    volumes:
      - "/var/run/docker.sock:/var/run/docker.sock:ro"
      - "./traefik/acme.json:/acme.json"
    environment:
      - CLOUDFLARE_EMAIL=<your-cloudflare@email.here>
      - CLOUDFLARE_API_KEY=<your-api-key-goes-here>
    labels:
      - "traefik.http.routers.dashboard-api.rule=Host(`dashboard.your-host.here`)"
      - "traefik.http.routers.dashboard-api.service=api@internal"
      - "traefik.http.routers.dashboard-api.middlewares=dashboard-auth-user"
      - "traefik.http.middlewares.dashboard-auth-user.basicauth.users=<user>:$$pws5$$rWsEfeUw9$$uV45uwsGeaPbu8RSexB9/"
      - "traefik.http.routers.dashboard-api.tls.certresolver=cloudflareresolver"
      - "traefik.http.middlewares.frame-deny.headers.framedeny=true"
      - "traefik.http.middlewares.browser-xss-filter.headers.browserxssfilter=true"
      - "traefik.http.middlewares.ssl-redirect.headers.sslredirect=true"

  nginx:
    container_name: nginx
    image: nginxinc/nginx-unprivileged:alpine
    restart: unless-stopped
    mem_limit: 8m
    command: ["nginx", "-enable-prometheus-metrics", "-g", "daemon off;"]
    volumes:
      - "./blog/:/usr/share/nginx/html/blog:ro"
      - "./nginx/default.conf.template:/etc/nginx/templates/default.conf.template:ro"
    environment:
      - NGINX_BLOG_PORT=80
      - NGINX_BLOG_HOST=<blog.your-host.here>
    labels:
      - "traefik.http.routers.blog-http.rule=Host(`blog.your-host.here`)"
      - "traefik.http.routers.blog-http.service=blog-http"
      - "traefik.http.services.blog-http.loadbalancer.server.port=80"
      - "traefik.http.routers.blog-http.middlewares=blog-main"
      - "traefik.http.middlewares.blog-main.chain.middlewares=frame-deny,browser-xss-filter,ssl-redirect"
      - "traefik.http.routers.blog-http.tls.certresolver=cloudflareresolver"

docker-compose up -d

As my followers well know, by now, I am a tinkerer at heart. Why do I do things ? No one knows ! I don't even know.

All I know, all I can tell you is that I like to see what can I do with the tools I have at hand. How can I bend them to my will. Why, you may ask. The answer is a bit complicated; part of who I am, part of what I do as a DevOps. End line is, this time I was curious.

I went down a road that taught me so much more about containers, docker, docker-compose and even Linux itself.

The question I had was simple, can I run a container only through Tor running in another container?

docker run -it -p 127.0.0.1:8118:8118 -d dperson/torproxy

curl -Lx http://localhost:8118 http://jsonip.com/

---
version: '3.9'
services:
  torproxy:
    image: dperson/torproxy
    container_name: torproxy
    restart: unless-stopped

air-gapped:
  image: ubuntu
  container_name: air-gapped
  restart: unless-stopped
  command:
    - bash
    - -c
    - sleep infinity
  networks:
    - no-internet

networks:
  no-internet:
    driver: bridge
    internal: true

docker-compose up -d

docker exec air-gapped apt-get update

Err:1 http://archive.ubuntu.com/ubuntu focal InRelease
  Temporary failure resolving 'archive.ubuntu.com'
Err:2 http://security.ubuntu.com/ubuntu focal-security InRelease
  Temporary failure resolving 'security.ubuntu.com'
Err:3 http://archive.ubuntu.com/ubuntu focal-updates InRelease
  Temporary failure resolving 'archive.ubuntu.com'
Err:4 http://archive.ubuntu.com/ubuntu focal-backports InRelease
  Temporary failure resolving 'archive.ubuntu.com'
Reading package lists...
W: Failed to fetch http://archive.ubuntu.com/ubuntu/dists/focal/InRelease  Temporary failure resolving 'archive.ubuntu.com'
W: Failed to fetch http://archive.ubuntu.com/ubuntu/dists/focal-updates/InRelease  Temporary failure resolving 'archive.ubuntu.com'
W: Failed to fetch http://archive.ubuntu.com/ubuntu/dists/focal-backports/InRelease  Temporary failure resolving 'archive.ubuntu.com'
W: Failed to fetch http://security.ubuntu.com/ubuntu/dists/focal-security/InRelease  Temporary failure resolving 'security.ubuntu.com'
W: Some index files failed to download. They have been ignored, or old ones used instead.

---
version: '3.9'
services:

  torproxy:
    image: dperson/torproxy
    container_name: torproxy
    restart: unless-stopped
    networks:
      - no-internet
      - internet

  air-gapped:
    image: ubuntu
    container_name: air-gapped
    restart: unless-stopped
    command:
      - bash
      - -c
      - sleep infinity
    networks:
      - no-internet

networks:
  no-internet:
    driver: bridge
    internal: true
  internet:
    driver: bridge
    internal: false

docker-compose up -d

docker exec -it air-gapped bash

echo 'Acquire::http::Proxy "http://torproxy:8118/";' > /etc/apt/apt.conf.d/proxy
echo "export HTTP_PROXY=http://torproxy:8118/" >> ~/.bashrc
echo "export HTTPS_PROXY=http://torproxy:8118/" >> ~/.bashrc
export HTTP_PROXY=http://torproxy:8118/
export HTTPS_PROXY=http://torproxy:8118/
apt-get update
apt-get upgrade -y
DEBIAN_FRONTEND=noninteractive apt-get install -y curl

env | grep HTTP

HTTPS_PROXY=http://torproxy:8118/
HTTP_PROXY=http://torproxy:8118/

curl https://jsonip.com/

I’m trying to post these roughly once a month. Here’s the Feb post.

Work I did (1 Mar 2021 - 31 Mar 2021)

Technical

• Started writing a PEP 517 build backend for Sphinx themes.
• Started writing sphinx-basic-ng, an attempt at modernising the Sphinx theme ecosystem.
• Released new versions of sphinx-autobuild.
• More updates to Furo.
• Made progress on installer’s implementation.
• Made progress on pip’s documentation rewrite.
• Started work on rewriting ScriptTest, to pay down pip’s technical debt.

Communication

• Talking to relevant folks about toml on PyPI (and moving it to… a specific GitHub repository).
• Finally sat down and did an “open source responsibility audit”.
• My open social weekends is still a thing, and has been great so far!
• Still collaborating on designing a lockfile format for Python.
• Added to The Executable Book Project’s GitHub organisation! ^>^
• Chatted with a few people about the state of Python and pip on Debian.

General notes

Looking back, I think I picked up a couple of new projects based on random brain waves I had! That’s perfectly timed, because I’ve decided to pivot away from my earlier approach of “yay, more responsibility!”.

What next?

This is getting increasingly harder to decide on, as my free time chunks are becoming smaller and I’m picking up bigger projects. :)

Technical

• Sphinx Theme PEP 517 stuff: Make the initial release.
• sphinx-basic-ng: Make the first usable release.
• pip: Clear some of the backlog on the pull request front.
• pip: More progress on the documentation rewrite.

Communication

• Spend more time looking into the Python lockfile standardisation effort.
• Write a blog post, on automated code formatting.
• Find more speaking opportunities, to talk about things that aren’t Python packaging!

Other commitments

A full time job, that pays my bills. :)

Alrighty! Let’s start doing this again. The plan is to get back to doing these roughly once a month again.

Work I did (1 Jan 2021 - 26 Feb 2021)

Technical

• Published the last version of pip that supports Python 2! 🎉
• Published a few releases of Furo – a Sphinx theme I wrote.
• Made some (unreleased) changes to sphinx-autobuild.
• Made some more progress on installer – a reusable library for Python (wheel) package installation.
• Rewrote get-pip.py and the generation pipeline for it.
• Started a rewrite of pip’s documentation. I’d love to get some feedback on this.

Communication

• I’m experimenting with a new thing: social weekends!
• I presented 2 talks at FOSDEM: in the Python devroom and Open Source Design devroom. Shout-out to Bernard Tyers, for all the help and the bazillion reminders to make sure I do all the things on time. :)
• Collaborating on designing a lockfile format for Python, that can hopefully be standardised for interoperability.

General notes

Onboarding in a new company, relocating internationally, settling into a new space has been… well, it’s all been a very interesting learning experience.

Given the fairly strict lockdown and the percentage of people wearing masks in my locality, I’ve spent a lots of time indoors. Looking forward to the social weekends experiment I’m doing.

What next?

Technical

• pip: Work on the documentation rewrite, hopefully to get it ready in time for the next release.
• pip: Clear some of the backlog on the pull request front.
• pip: General discussions for new features and enhancements.
• TOML: Work on writing that the compliance test suite.
• TOML: Bring toml for Python back from the dead.
• Furo: Make the first stable release.
• Start work on the other Sphinx theme I have in mind.

Communication

• Spend more time looking into the Python lockfile standardisation effort.
• Catch up on the Python-on-Debian saga, and see how I can contribute constructively.

Other commitments

Oh, I have a full time job at Bloomberg now. :)

I recently read this paper titled, Understanding Real-World Concurrency Bugs in Go (PDF), that studies concurrency bugs in Golang and comments on the new primitives for messages passing that the language is often known for.

I am not a very good Go programmer, so this was an informative lesson in various ways to achieve concurrency and synchronization between different threads of execution. It is also a good read for experienced Go developers as it points out some important gotchas to look out for when writing Go code. The fact that it uses real world examples from well known projects like Docker, Kubernetes, gRPC-Go, CockroachDB, BoltDB etc. makes it even more fun to read!

The authors analyzed a total of 171 concurrency bugs from several prominent Go open source projects and categorized them in two orthogonal dimensions, one each for the cause of the bug and the behavior. The cause is split between two major schools of concurrency

Along the cause dimension, we categorize bugs into those that are caused by misuse of shared memory and those caused by misuse of message passing

and the behavior dimension is similarly split into

we separate bugs into those that involve (any number of ) goroutines that cannot proceed (we call themblocking bugs) and those that do not involve any blocking (non-blocking bugs)

Interestingly, they chose the behavior to be blocking instead of deadlock since the former implies that atleast one thread of execution is blocked due to some concurrency bug, but the rest of them might continue execution, so it is not a deadlock situation.

Go has primitive shared memory protection mechanisms like Mutex, RWMutex etc. with a caveat

Write lock requests in Go have ahigher privilege than read lock requests.

as compared to pthread in C. Go also has a new primitive called sync.Once that can be used to guarantee that a function is executed only once. This can be useful in situations where some callable is shared across multiple threads of execution but it shouldn't be called more than once. Go also has sync.WaitGroups , which is similar to pthread_join to wait for various threads of executioun to finish executing.

Go also uses channels for the message passing between different threads of executions called Goroutunes. Channels can be buffered on un-buffered (default), the difference between them being that in a buffered channel the sender and receiver don't block on each other (until the buffered channel is full).

The study of the usage patterns of these concurrency primitives in various code bases along with the occurence of bugs in the codebase concluded that even though message passing was used at fewer places, it accounted for a larger number of bugs(58%).

Implication 1:With heavier usages of goroutines and newtypes of concurrency primitives, Go programs may potentiallyintroduce more concurrency bugs

Also, interesting to note is this observation in tha paper

Observation 5:All blocking bugs caused by message passing are related to Go’s new message passing semantics like channel. They can be difficult to detect especially when message passing operations are used together with other synchronization mechanisms

The authors also talk about various ways in which Go runtime can detect some of these concurrency bugs. Go runtime includes a deadlock detector which can detect when there are no goroutunes running in a thread, although, it cannot detect all the blocking bugs that authors found by manual inspection.

For shared memory bugs, Go also includes a data race detector which can be enbaled by adding -race option when building the program. It can find races in memory/data shared between multiple threads of execution and uses happened-before algorithm underneath to track objects and their lifecycle. Although, it can only detect a part of the bugs discovered by the authors, the patterns and classification in the paper can be leveraged to improve the detection and build more sophisticated checkers.

TLDR; Trying to learn new things I tried writing a URL shortner called shorty. This is a first draft and I am trying to approach it from first principle basis. Trying to break down everything to the simplest component.

I decided to write my own URL shortner and the reason for doing that was to dive a little more into golang and to learn more about systems. I have planned to not only document my learning but also find and point our different ways in which this application can be made scalable, resilient and robust.

A high level idea is to write a server which takes the big url and return me a short url for the same. I have one more requirement where I do want to provide a slug i.e a custom short url path for the same. So for some links like https://play.google.com/store/apps/details?id=me.farhaan.bubblefeed, I want to have a url like url.farhaan.me/linktray which is easy to remember and distribute.

The way I am thinking to implement this is by having two components, I want a CLI interface which talks to my Server. I don’t want a fancy UI for now because I want it to be exclusively be used through terminal. A Client-Server architecture, where my CLI client sends a request to the server with a URL and an optional slug. If a slug is present URL will have that slug in it and if it doesn’t it generates a random string and make the URL small. If you see from a higher level it’s not just a URL shortner but also a URL tagger.

The way a simple url shortner works:

Flow Diagram

A client makes a request to make a given URL short, server takes the URL and stores it to the database, server then generates a random string and maps the URL to the string and returns a URL like url.farhaan.me/<randomstring>.

Now when a client requests to url.farhaan.me/<randomstring>, it goest to the same server, it searches the original URL and redirects the request to a different website.

The slug implementation part is very straightforward, where given a word, I might have to search the database and if it is already present we raise an error but if it isn’t we add it in the database and return back the URL.

One optimization, since it’s just me who is going to use this, I can optimize my database to see if the long URL already exists and if it does then no need to create a new entry. But this should only happen in case of random string and not in case of slugs. Also this is a trade off between reducing the redundancy and latency of a request.

But when it comes to generating a random string, things get a tiny bit complicated. This generation of random strings, decides how many URLs you can store. There are various hashing algorithms that I can use to generate a string I can use md5, base10 or base64. I also need to make sure that it gives a unique hash and not repeated ones.

Unique hash can be maintained using a counter, the count either can be supplied from a different service which can help us to scale the system better or it can be internally generated, I have used database record number for the same.

If you look at this on a system design front. We are using the same Server to take the request and generate the URL and to redirect the request. This can be separated into two services where one service is required to generate the URL and the other just to redirect the URL. This way we increase the availability of the system. If one of the service goes down the other will still function.

The next step is to write and integrate a CLI system to talk to the server and fetch the URL. A client that can be used for an end user. I am also planning to integrate a caching mechanism in this but not something out of the shelf rather write a simple caching system with some cache eviction policy and use it.

Till then I will be waiting for the feedback. Happy Hacking.

I now have a Patreon open so that you folks can support me to do this stuff for longer time and sustain myself too. So feel free to subscribe to me and help me keeping doing this with added benefits.

TLDR; Link Tray is a utility we recently wrote to curate links from different places and share it with your friends. The blogpost has technical details and probably some productivity tips.

Link Bubble got my total attention when I got to know about it, I felt it’s a very novel idea, it helps to save time and helps you to curate the websites you visited. So on the whole, and believe me I am downplaying it when I say Link Bubble does two things:

1. Saves time by pre-opening the pages
2. Helps you to keep a track of pages you want to visit

It’s a better tab management system, what I felt weird was building a whole browser to do that. Obviously, I am being extremely naive when I am saying it because I don’t know what it takes to build a utility like that.

Now, since they discontinued it for a while and I never got a chance to use it. I thought let me try building something very similar, but my use case was totally different. Generally when I go through blogs or articles, I open the links mentioned in a different tab to come back to them later. This has back bitten me a lot of time because I just get lost in so many links.

I thought if there is a utility which could just capture the links on the fly and then I could quickly go through them looking at the title, it might ease out my job. I bounced off the same idea across to Abhishek and we ended up prototyping LinkTray.

Our first design was highly inspired by facebook messenger but instead of chatheads we have links opened. If you think about it the idea feels very beautiful but the design is “highly” not scalable. For example if you have as many as 10 links opened we had trouble in finding our links of interest which was a beautiful design problems we faced.

We quickly went to the whiteboard and put up a list of requirements, first principles; The ask was simple:

1. To share multiple links with multiple people with least transitions
2. To be able to see what you are sharing
3. To be able to curate links (add/remove/open links)

We took inspiration from an actual Drawer where we flick out a bunch of links and go through them. In a serendipitous moment the design came to us and that’s how link tray looks like the way it looks now.

Link Tray

Link Tray was a technical challenge as well. There is a plethora of things I learnt about the Android ecosystem and application development that I knew existed but never ventured into exploring it.

Link Tray is written in Java, and I was using a very loosely maintained library to get the overlay activity to work. Yes, the floating activity or application that we see is called an overlay activity, this allows the application to be opened over an already running application.

The library that I was using doesn’t have support for Android O and above. To figure that out it took me a few nights , also because I was hacking on the project during nights . After reading a lot of GitHub issues I figured out the problem and put in the support for the required operating system.

One of the really exciting features that I explored about Android is Services. I think I might have read most of the blogs out there and all the documentation available and I know that I still don't know enough. I was able to pick enough pointers to make my utility to work.

Just like Uncle Bob says make it work and then make it better. There was a persistent problem, the service needs to keep running in the background for it to work. This was not a functional issue but it was a performance issue for sure and our user of version 1.0 did have a problem with it. People got mislead because there was constant notification that LinkTray is running and it was annoying. This looked like a simple problem on the face but was a monster in the depth.

Architecture of Link Tray

The solution to the problem was simple stop the service when the tray is closed, and start the service when the link is shared back to link tray. Tried, the service did stop but when a new link was shared the application kept crashing. Later I figured out the bound service that is started by the library I am using is setting a bound flag to True but when they are trying to reset this flag , they were doing at the wrong place, this prompted me to write this StackOverflow answer to help people understand the lifecycle of service. Finally after a lot of logs and debugging session I found the issue and fixed it. It was one of the most exciting moment and it help me learn a lot of key concepts.

The other key learning, I got while developing Link Tray was about multi threading, what we are doing here is when a link is shared to link tray, we need the title of the page if it has and favicon for the website. Initially I was doing this on the main UI thread which is not only an anti-pattern but also a usability hazard. It was a network call which blocks the application till it was completed, I learnt how to make a network call on a different thread, and keep the application smooth.

Initially approach was to get a webview to work and we were literally opening the links in a browser and getting the title and favicon out, this was a very heavy process. Because we were literally spawning a browser to get information about links, in the initial design it made sense because we were giving an option to consume the links. Over time our design improved and we came to a point where we don’t give the option to consume but to curate. Hence we opted for web scraping, I used custom headers so that we don’t get caught by robot.txt. And after so much of effort it got to a place where it is stable and it is performing great.

It did take quite some time to reach a point where it is right now, it is full functional and stable. Do give it a go if you haven’t, you can shoot any queries to me.

Link to Link Tray: https://play.google.com/store/apps/details?id=me.farhaan.bubblefeed

Happy Hacking!

http://bikeshed.org/

What color should I paint the bike-shed?

[Published in Open Source For You (OSFY) magazine, October 2017 edition.]

This article is the eighth in the DevOps series. In this issue, we shall learn to set up Docker in the host system and use it with Ansible.

Introduction

Docker provides operating system level virtualisation in the form of containers. These containers allow you to run standalone applications in an isolated environment. The three important features of Docker containers are isolation, portability and repeatability. All along we have used Parabola GNU/Linux-libre as the host system, and executed Ansible scripts on target Virtual Machines (VM) such as CentOS and Ubuntu.

Docker containers are extremely lightweight and fast to launch. You can also specify the amount of resources that you need such as CPU, memory and network. The Docker technology was launched in 2013, and released under the Apache 2.0 license. It is implemented using the Go programming language. A number of frameworks have been built on top of Docker for managing these cluster of servers. The Apache Mesos project, Google’s Kubernetes, and the Docker Swarm project are popular examples. These are ideal for running stateless applications and help you to easily scale them horizontally.

Setup

The Ansible version used on the host system (Parabola GNU/Linux-libre x86_64) is 2.3.0.0. Internet access should be available on the host system. The ansible/ folder contains the following file:

ansible/playbooks/configuration/docker.yml

Installation

The following playbook is used to install Docker on the host system:

---
- name: Setup Docker
  hosts: localhost
  gather_facts: true
  become: true
  tags: [setup]

  tasks:
    - name: Update the software package repository
      pacman:
        update_cache: yes

    - name: Install dependencies
      package:
        name: "{{ item }}"
        state: latest
      with_items:
        - python2-docker
        - docker

    - service:
        name: docker
        state: started

    - name: Run the hello-world container
      docker_container:
        name: hello-world
        image: library/hello-world

The Parabola package repository is updated before proceeding to install the dependencies. The python2-docker package is required for use with Ansible. Hence, it is installed along with the docker package. The Docker daemon service is then started and the library/hello-world container is fetched and executed. A sample invocation and execution of the above playbook is shown below:

$ ansible-playbook playbooks/configuration/docker.yml -K --tags=setup
SUDO password: 

PLAY [Setup Docker] *************************************************************

TASK [Gathering Facts] **********************************************************
ok: [localhost]

TASK [Update the software package repository] ***********************************
changed: [localhost]

TASK [Install dependencies] *****************************************************
ok: [localhost] => (item=python2-docker)
ok: [localhost] => (item=docker)

TASK [service] ******************************************************************
ok: [localhost]

TASK [Run the hello-world container] ********************************************
changed: [localhost]

PLAY RECAP **********************************************************************
localhost                  : ok=5    changed=2    unreachable=0    failed=0   

With verbose ’-v’ option to ansible-playbook, you will see an entry for LogPath, such as /var/lib/docker/containers//-json.log. In this log file you will see the output of the execution of the hello-world container. This output is the same when you run the container manually as shown below:

$ sudo docker run hello-world

Hello from Docker!

This message shows that your installation appears to be working correctly.

To generate this message, Docker took the following steps:
 1. The Docker client contacted the Docker daemon.
 2. The Docker daemon pulled the "hello-world" image from the Docker Hub.
 3. The Docker daemon created a new container from that image which runs the
    executable that produces the output you are currently reading.
 4. The Docker daemon streamed that output to the Docker client, which sent it
    to your terminal.

To try something more ambitious, you can run an Ubuntu container with:
 $ docker run -it ubuntu bash

Share images, automate workflows, and more with a free Docker ID:
 https://cloud.docker.com/

For more examples and ideas, visit:
 https://docs.docker.com/engine/userguide/

Example

A Deep Learning (DL) Docker project is available (https://github.com/floydhub/dl-docker) with support for frameworks, libraries and software tools. We can use Ansible to build the entire DL container from the source code of the tools. The base OS of the container is Ubuntu 14.04, and will include the following software packages:

• Tensorflow
• Caffe
• Theano
• Keras
• Lasagne
• Torch
• iPython/Jupyter Notebook
• Numpy
• SciPy
• Pandas
• Scikit Learn
• Matplotlib
• OpenCV

The playbook to build the DL Docker image is given below:

- name: Build the dl-docker image
  hosts: localhost
  gather_facts: true
  become: true
  tags: [deep-learning]

  vars:
    DL_BUILD_DIR: "/tmp/dl-docker"
    DL_DOCKER_NAME: "floydhub/dl-docker"

  tasks:
    - name: Download dl-docker
      git:
        repo: https://github.com/saiprashanths/dl-docker.git 
        dest: "{{ DL_BUILD_DIR }}"

    - name: Build image and with buildargs
      docker_image:
         path: "{{ DL_BUILD_DIR }}"
         name: "{{ DL_DOCKER_NAME }}"
         dockerfile: Dockerfile.cpu
         buildargs:
           tag: "{{ DL_DOCKER_NAME }}:cpu"

We first clone the Deep Learning docker project sources. The docker_image module in Ansible helps us to build, load and pull images. We then use the Dockerfile.cpu file to build a Docker image targeting the CPU. If you have a GPU in your system, you can use the Dockerfile.gpu file. The above playbook can be invoked using the following command:

$ ansible-playbook playbooks/configuration/docker.yml -K --tags=deep-learning

Depending on the CPU and RAM you have, it will take considerable amount of time to build the image with all the software. So be patient!

Jupyter Notebook

The built dl-docker image contains Jupyter notebook which can be launched when you start the container. An Ansible playbook for the same is provided below:

- name: Start Jupyter notebook
  hosts: localhost
  gather_facts: true
  become: true
  tags: [notebook]

  vars:
    DL_DOCKER_NAME: "floydhub/dl-docker"

  tasks:
    - name: Run container for Jupyter notebook
      docker_container:
        name: "dl-docker-notebook"
        image: "{{ DL_DOCKER_NAME }}:cpu"
        state: started
        command: sh run_jupyter.sh

You can invoke the playbook using the following command:

$ ansible-playbook playbooks/configuration/docker.yml -K --tags=notebook

The Dockerfile already exposes the port 8888, and hence you do not need to specify the same in the above docker_container configuration. After you run the playbook, using the ‘docker ps’ command on the host system, you can obtain the container ID as indicated below:

$ sudo docker ps
CONTAINER ID        IMAGE                    COMMAND               CREATED             STATUS              PORTS                NAMES
a876ad5af751        floydhub/dl-docker:cpu   "sh run_jupyter.sh"   11 minutes ago      Up 4 minutes        6006/tcp, 8888/tcp   dl-docker-notebook

You can now login to the running container using the following command:

$ sudo docker exec -it a876 /bin/bash

You can then run an ‘ifconfig’ command to find the local IP address (“172.17.0.2” in this case), and then open http://172.17.0.2:8888 in a browser on your host system to see the Jupyter Notebook. A screenshot is shown in Figure 1:

TensorBoard

TensorBoard consists of a suite of visualization tools to understand the TensorFlow programs. It is installed and available inside the Docker container. After you login to the Docker container, at the root prompt, you can start Tensorboard by passing it a log directory as shown below:

# tensorboard --logdir=./log

You can then open http://172.17.0.2:6006/ in a browser on your host system to see the Tensorboard dashboard as shown in Figure 2:

Docker Image Facts

The docker_image_facts Ansible module provides useful information about a Docker image. We can use it to obtain the image facts for our dl-docker container as shown below:

- name: Get Docker image facts
  hosts: localhost
  gather_facts: true
  become: true
  tags: [facts]

  vars:
    DL_DOCKER_NAME: "floydhub/dl-docker"

  tasks:
    - name: Get image facts
      docker_image_facts:
        name: "{{ DL_DOCKER_NAME }}:cpu"

The above playbook can be invoked as follows:

$ ANSIBLE_STDOUT_CALLBACK=json ansible-playbook playbooks/configuration/docker.yml -K --tags=facts 

The ANSIBLE_STDOUT_CALLBACK environment variable is set to ‘json’ to produce a JSON output for readability. Some important image facts from the invocation of the above playbook are shown below:

"Architecture": "amd64", 
"Author": "Sai Soundararaj <saip@outlook.com>", 

"Config": {

"Cmd": [
   "/bin/bash"
], 

"Env": [
   "PATH=/root/torch/install/bin:/root/caffe/build/tools:/root/caffe/python:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin", 
   "CAFFE_ROOT=/root/caffe", 
   "PYCAFFE_ROOT=/root/caffe/python", 
   "PYTHONPATH=/root/caffe/python:", 
   "LUA_PATH=/root/.luarocks/share/lua/5.1/?.lua;/root/.luarocks/share/lua/5.1/?/init.lua;/root/torch/install/share/lua/5.1/?.lua;/root/torch/install/share/lua/5.1/?/init.lua;./?.lua;/root/torch/install/share/luajit-2.1.0-beta1/?.lua;/usr/local/share/lua/5.1/?.lua;/usr/local/share/lua/5.1/?/init.lua", 
   "LUA_CPATH=/root/torch/install/lib/?.so;/root/.luarocks/lib/lua/5.1/?.so;/root/torch/install/lib/lua/5.1/?.so;./?.so;/usr/local/lib/lua/5.1/?.so;/usr/local/lib/lua/5.1/loadall.so", 
   "LD_LIBRARY_PATH=/root/torch/install/lib:", 
   "DYLD_LIBRARY_PATH=/root/torch/install/lib:"
], 

"ExposedPorts": {
   "6006/tcp": {}, 
   "8888/tcp": {}
}, 

"Created": "2016-06-13T18:13:17.247218209Z", 
"DockerVersion": "1.11.1", 

"Os": "linux", 

"task": { "name": "Get image facts" }

You are encouraged to read the ‘Getting Started with Docker’ user guide available at http://docs.ansible.com/ansible/latest/guide_docker.html to know more about using Docker with Ansible.

[NOTE: This post originally appeared on deepsource.io, and has been posted here with due permission.]

In the early part of the last century, when David Hilbert was working on stricter formalization of geometry than Euclid, Georg Cantor had worked out a theory of different types of infinities, the theory of sets. This theory would soon unveil a series of confusing paradoxes, leading to a crisis in the Mathematics community  regarding the stability of the foundational principles of the math of that time.

Central to these paradoxes was the Russell’s paradox (or more generally, as we’d talk about later, the Epimenides Paradox). Let’s see what it is.

In those simpler times, you were allowed to define a set if you could describe it in English. And, owing to mathematicians’ predilection for self-reference, sets could contain other sets.

Russell then, came up with this:

\(R\)  is a set of all the sets which do not contain themselves.

The question was "Does \(R \) contain itself?" If it doesn’t, then according to the second half of the definition it should. But if it does, then it no longer meets the definition.

The same can symbolically be represented as:

Let \(R = \{ x \mid x \not \in x \} \), then \(R \in R \iff R \not \in R \)

Cue mind exploding.

“Grelling’s paradox” is a startling variant which uses adjectives instead of sets. If adjectives are divided into two classes, autological (self-descriptive) and heterological (non-self-descriptive), then, is ‘heterological’ heterological? Try it!

Epimenides Paradox

Or, the so-called Liar Paradox was another such paradox which shred apart whatever concept of ‘computability’ was, at that time - the notion that things could either be true or false.

Epimenides was a Cretan, who made one immortal statement:

“All Cretans are liars.”

If all Cretans are liars, and Epimenides was a Cretan, then he was lying when he said that “All Cretans are liars”. But wait, if he was lying then, how can we ‘prove’ that he wasn’t lying about lying? Ein?

⊕

This is what makes it a paradox: A statement so rudely violating the assumed dichotomy of statements into true and false, because if you tentatively think it’s true, it backfires on you and make you think that it is false. And a similar backfire occurs if you assume that the statement is false. Go ahead, try it!

If you look closely, there is one common culprit in all of these paradoxes, namely ‘self-reference’. Let’s look at it more closely.

Strange Loopiness

If self-reference, or what Douglas Hofstadter - whose prolific work on the subject matter has inspired this blog post - calls ‘Strange Loopiness’ was the source of all these paradoxes, it made perfect sense to just banish self-reference, or anything which allowed it to occur. Russell and Whitehead, two rebel mathematicians of the time, who subscribed to this point of view, set forward and undertook the mammoth exercise, namely “Principia Mathematica”, which we as we will see in a little while, was utterly demolished by Gödel’s findings.

The main thing which made it difficult to ban self-reference was that it was hard to pin point where exactly did the self-reference occur. It may as well be spread out over several steps, as in this ‘expanded’ version of Epimenides:

The next statement is a lie.

The previous statement is true.

Russell and Whitehead, in P.M. then, came up with a multi-hierarchy set theory to deal with this. The basic idea was that a set of the lowest ‘type’ could only contain ‘objects’ as members (not sets). A set of the next type could then only either contain objects, or sets of lower types. This, implicitly banished self-reference.

Since, all sets must have a type, a set ‘which contains all sets which are not members of themselves’ is not a set at all, and thus you can say that Russell’s paradox was dealt with.

Similarly, if an attempt is made towards applying the expanded Epimenides to this theory, it must fail as well, for the first sentence to make a reference to the second one, it has to be hierarchically above it - in which case, the second one can’t loop back to the first one.

Thirty one years after David Hilbert set before the academia to rigorously demonstrate that the system defined in Principia Mathematica was both consistent (contradiction-free) and complete (i.e. every true statement could be evaluated to true within the methods provided by P.M.), Gödel published his famous Incompleteness Theorem. By importing the Epimenides Paradox right into the heart of P.M., he proved that not just the axiomatic system developed by Russell and Whitehead, but none of the axiomatic systems whatsoever were complete without being inconsistent.

Clear enough, P.M. lost it’s charm in the realm of academics.

Before Gödel’s work too, P.M. wasn’t particularly loved as well.

Why?

It isn’t just limited to this blog post, but we humans, in general, have a diet for self-reference - and this quirky theory severely limits our ability to abstract away details - something which we love, not only as programmers, but as linguists too - so much so, that the preceding paragraph, “It isn’t … this blog … we humans …” would be doubly forbidden because the ‘right’ to mention ‘this blog post’ is limited only to something which is hierarchically above blog posts, ‘metablog-posts’. Secondly, me (presumably a human) belonging to the class ‘we’ can’t mention ‘we’ either.

Since, we humans, love self-reference so much, let’s discuss some ways in which it can be expressed in written form.

One way of making such a strange loop, and perhaps the ‘simplest’ is using the word ‘this’. Here:

• This sentence is made up of eight words.
• This sentence refers to itself, and is therefore useless.
• This blog post is so good.
• This sentence conveys you the meaning of ‘this’.
• This sentence is a lie. (Epimenides Paradox)

Another amusing trick for creating a self-reference without using the word ‘this sentence’ is to quote the sentence inside itself.

Someone may come up with:

The sentence ‘The sentence contains five words’ contains five words.

But, such an attempt must fail, for to quote a finite sentence inside itself would mean that the sentence is smaller than itself. However, infinite sentences can be self-referenced this way.

The sentence
    "The sentence
        "The sentence
                                ...etc
                                ...etc
        is infinitely long"
    is infinitely long"
is infinitely long"

There’s a third method as well, which you already saw in the title - the Quine method. The term ‘Quine’ was coined by Douglas Hofstadter in his book “Gödel Escher, Bach” (which heavily inspires this blog post). When using this, the self-reference is ‘generated’ by describing a typographical entity, isomorphic to the quine sentence itself. This description is carried in two parts - one is a set of ‘instructions’ about how to ‘build’ the sentence, and the other, the ‘template’ contains information about the construction materials required.

The Quine version of Epimenides would be:

“yields falsehood when preceded by it’s quotation” yields falsehood when preceded by it’s quotation

Before going on with ‘quining’, let’s take a moment and realize how awfully powerful our cognitive capacities are, and what goes in our head when a cognitive payload full of self-references is delivered - in order to decipher it, we not only need to know the language, but also need to work out the referent of the phrase analogous to ‘this sentence’ in that language. This parsing depends on our complex, yet totally assimilated ability to handle the language.

The idea of referring to itself is quite mind-blowing, and we keep doing it all the time — perhaps, why it feels so ‘easy’ for us to do so. But, we aren’t born that way, we grow that way. This could better be realized by telling someone much younger “This sentence is wrong.”. They’d probably be confused - What sentence is wrong?. The reason why it’s so simple for self-reference to occur, and hence allow paradoxes, in our language, is well, our language. It allows our brain to do the heavy lifting of what the author is trying to get through us, without being verbose.

Back to Quines.

Reproducing itself

Now, that we are aware of how ‘quines’ can manifest as self-reference, it would be interesting to see how the same technique can be used by a computer program to ‘reproduce’ itself.

To make it further interesting, we shall choose the language most apt for the purpose - brainfuck:

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Running that program above produces itself as the output. I agree, it isn’t the most descriptive program in the world, so written in Python below, is the nearest we can go to describe what’s happening inside those horrible chains of +’s and >’s:

THREE_QUOTES = '"' * 3

def eniuq(template): print(
  f'{template}({THREE_QUOTES}{template}{THREE_QUOTES})')

eniuq("""THREE_QUOTES = '"' * 3

def eniuq(template): print(
  f'{template}({THREE_QUOTES}{template}{THREE_QUOTES})')

eniuq""")

The first line generates """ on the fly, which marks multiline strings in Python.

Next two lines define the eniuq function, which prints the argument template twice - once, plain and then surrounded with triple quotes.

The last 4 lines cleverly call this function so that the output of the program is the source code itself.

Since we are printing in an order opposite of quining, the name of the function is ‘quine’ reversed -> eniuq (name stolen from Hofstadter again)

Remember the discussion about how self-reference capitalizes on the processor? What if ‘quining’ was a built-in feature of the language, providing what we in programmer lingo call ‘syntactic sugar’?

Let’s assume that an asterisk, * in the brainfuck interpreter would copy the instructions before executing them, what would then be the output of the following program?

*

It’d be an asterisk again. You could make an argument that this is silly, and should be counted as ‘cheating’. But, it’s the same as relying on the processor, like using “this sentence” to refer to this sentence - you rely on your brain to do the inference for you.

What if eniuq was a builtin keyword in Python? A perfect self-rep was then just be a call away:

eniuq('eniuq')

What if quine was a verb in the English language? We could reduce a lot of explicit cognitive processes required for inference. The Epimenides paradox would then be:

“yields falsehood if quined” yields falsehood if quined

Now, that we are talking about self-rep, here’s one last piece of entertainment for you.

The Tupper’s self-referential formula

This formula is defined through an inequality:

\({1 \over 2} < \left\lfloor \mathrm{mod}\left(\left\lfloor {y \over 17} \right\rfloor 2^{-17 \lfloor x \rfloor - \mathrm{mod}(\lfloor y\rfloor, 17)},2\right)\right\rfloor\)

If you take that absurd thing above, and move around in the cartesian plane for the coordinates \(0 \le x \le 106, k \le y \le k + 17\), where \(k\) is a 544 digit integer (just hold on with me here), color every pixel black for True, and white otherwise, you'd get:

This doesn't end here. If \(k\) is now replaced with another integer containing 291 digits, we get yours truly: