Data Wrangling

Have you ever had a bunch of text and wanted to do something with it? Good. That’s what data wrangling is all about! Specifically, adapting data from one format to another, until you end up with exactly what you wanted.

We’ve already seen basic data wrangling: journalctl | grep -i intel.

Let’s start from the beginning: we need a data source, and something to do with it. Logs often make for a good use-case, because you often want to investigate things about them, and reading the whole thing isn’t feasible. Let’s figure out who’s trying to log into my server by looking at my server’s log:

ssh myserver journalctl

That’s far too much stuff. Let’s limit it to ssh stuff:

ssh myserver journalctl | grep sshd

Notice that we’re using a pipe to stream a remote file through grep on our local computer! ssh is magical. This is still way more stuff than we wanted though. And pretty hard to read. Let’s do better:

ssh myserver journalctl | grep sshd | grep "Disconnected from"

There’s still a lot of noise here. There are a lot of ways to get rid of that, but let’s look at one of the most powerful tools in your toolkit: sed.

sed is a “stream editor” that builds on top of the old ed editor. In it, you basically give short commands for how to modify the file, rather than manipulate its contents directly (although you can do that too). There are tons of commands, but one of the most common ones is s: substitution. For example, we can write:

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed 's/.*Disconnected from //'

What we just wrote was a simple regular expression; a powerful construct that lets you match text against patterns. The s command is written on the form: s/REGEX/SUBSTITUTION/, where REGEX is the regular expression you want to search for, and SUBSTITUTION is the text you want to substitute matching text with.

Regular expressions

Regular expressions are common and useful enough that it’s worthwhile to take some time to understand how they work. Let’s start by looking at the one we used above: /.*Disconnected from /. Regular expressions are usually (though not always) surrounded by /. Most ASCII characters just carry their normal meaning, but some characters have “special” matching behavior. Exactly which characters do what vary somewhat between different implementations of regular expressions, which is a source of great frustration. Very common patterns are:

sed’s regular expressions are somewhat weird, and will require you to put a \ before most of these to give them their special meaning. Or you can pass -E.

So, looking back at /.*Disconnected from /, we see that it matches any text that starts with any number of characters, followed by the literal string “Disconnected from “. Which is what we wanted. But beware, regular expressions are trixy. What if someone tried to log in with the username “Disconnected from”? We’d have:

Jan 17 03:13:00 thesquareplanet.com sshd[2631]: Disconnected from invalid user Disconnected from 46.97.239.16 port 55920 [preauth]

What would we end up with? Well, * and + are, by default, “greedy”. They will match as much text as they can. So, in the above, we’d end up with just

46.97.239.16 port 55920 [preauth]

Which may not be what we wanted. In some regular expression implementations, you can just suffix * or + with a ? to make them non-greedy, but sadly sed doesn’t support that. We could switch to perl’s command-line mode though, which does support that construct:

perl -pe 's/.*?Disconnected from //'

We’ll stick to sed for the rest of this though, because it’s by far the more common tool for these kinds of jobs. sed can also do other handy things like print lines following a given match, do multiple substitutions per invocation, search for things, etc. But we won’t cover that too much here. sed is basically an entire topic in and of itself, but there are often better tools.

Okay, so we also have a suffix we’d like to get rid of. How might we do that? It’s a little tricky to match just the text that follows the username, especially if the username can have spaces and such! What we need to do is match the whole line:

 | sed -E 's/.*Disconnected from (invalid |authenticating )?user .* [^ ]+ port [0-9]+( \[preauth\])?$//'

Let’s look at what’s going on with a regex debugger. Okay, so the start is still as before. Then, we’re matching any of the “user” variants (there are two prefixes in the logs). Then we’re matching on any string of characters where the username is. Then we’re matching on any single word ([^ ]+; any non-empty sequence of non-space characters). Then the word “port” followed by a sequence of digits. Then possibly the suffix ` [preauth]`, and then the end of the line.

Notice that with this technique, as username of “Disconnected from” won’t confuse us any more. Can you see why?

There is one problem with this though, and that is that the entire log becomes empty. We want to keep the username after all. For this, we can use “capture groups”. Any text matched by a regex surrounded by parentheses is stored in a numbered capture group. These are available in the substitution (and in some engines, even in the pattern itself!) as \1, \2, \3, etc. So:

 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'

As you can probably imagine, you can come up with really complicated regular expressions. For example, here’s an article on how you might match an e-mail address. It’s not easy. And there’s lots of discussion. And people have written tests. And test matrices. You can even write a regex for determining if a given number is a prime number.

Regular expressions are notoriously hard to get right, but they are also very handy to have in your toolbox!

Back to data wrangling

Okay, so we now have

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'

We could do it just with sed, but why would we? For fun is why.

ssh myserver journalctl
 | sed -E
   -e '/Disconnected from/!d'
   -e 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'

This shows off some of sed’s capabilities. sed can also inject text (with the i command), explicitly print lines (with the p command), select lines by index, and lots of other things. Check man sed!

Anyway. What we have now gives us a list of all the usernames that have attempted to log in. But this is pretty unhelpful. Let’s look for common ones:

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'
 | sort | uniq -c

sort will, well, sort its input. uniq -c will collapse consecutive lines that are the same into a single line, prefixed with a count of the number of occurrences. We probably want to sort that too and only keep the most common logins:

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'
 | sort | uniq -c
 | sort -nk1,1 | tail -n10

sort -n will sort in numeric (instead of lexicographic) order. -k1,1 means “sort by only the first whitespace-separated column”. The ,n part says “sort until the nth field, where the default is the end of the line. In this particular example, sorting by the whole line wouldn’t matter, but we’re here to learn!

If we wanted the least common ones, we could use head instead of tail. There’s also sort -r, which sorts in reverse order.

Okay, so that’s pretty cool, but we’d sort of like to only give the usernames, and maybe not one per line?

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'
 | sort | uniq -c
 | sort -nk1,1 | tail -n10
 | awk '{print $2}' | paste -sd,

Let’s start with paste: it lets you combine lines (-s) by a given single-character delimiter (-d). But what’s this awk business?

awk – another editor

awk is a programming language that just happens to be really good at processing text streams. There is a lot to say about awk if you were to learn it properly, but as with many other things here, we’ll just go through the basics.

First, what does {print $2} do? Well, awk programs take the form of an optional pattern plus a block saying what to do if the pattern matches a given line. The default pattern (which we used above) matches all lines. Inside the block, $0 is set to the entire line’s contents, and $1 through $n are set to the nth field of that line, when separated by the awk field separator (whitespace by default, change with -F). In this case, we’re saying that, for every line, print the contents of the second field, which happens to be the username!

Let’s see if we can do something fancier. Let’s compute the number of single-use usernames that start with c and end with e:

 | awk '$1 == 1 && $2 ~ /^c[^ ]*e$/ { print $2 }' | wc -l

There’s a lot to unpack here. First, notice that we now have a pattern (the stuff that goes before {...}). The pattern says that the first field of the line should be equal to 1 (that’s the count from uniq -c), and that the second field should match the given regular expression. And the block just says to print the username. We then count the number of lines in the output with wc -l.

However, awk is a programming language, remember?

BEGIN { rows = 0 }
$1 == 1 && $2 ~ /^c[^ ]*e$/ { rows += $1 }
END { print rows }

BEGIN is a pattern that matches the start of the input (and END matches the end). Now, the per-line block just adds the count from the first field (although it’ll always be 1 in this case), and then we print it out at the end. In fact, we could get rid of grep and sed entirely, because awk can do it all, but we’ll leave that as an exercise to the reader.

Analyzing data

You can do math!

 | paste -sd+ | bc -l
echo "2*($(data | paste -sd+))" | bc -l

You can get stats in a variety of ways. st is pretty neat, but if you already have R:

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'
 | sort | uniq -c
 | awk '{print $1}' | R --slave -e 'x <- scan(file="stdin", quiet=TRUE); summary(x)'

R is another (weird) programming language that’s great at data analysis and plotting. We won’t go into too much detail, but suffice to say that summary prints summary statistics about a matrix, and we computed a matrix from the input stream of numbers, so R gives us the statistics we wanted!

If you just want some simple plotting, gnuplot is your friend:

ssh myserver journalctl
 | grep sshd
 | grep "Disconnected from"
 | sed -E 's/.*Disconnected from (invalid |authenticating )?user (.*) [^ ]+ port [0-9]+( \[preauth\])?$/\2/'
 | sort | uniq -c
 | sort -nk1,1 | tail -n10
 | gnuplot -p -e 'set boxwidth 0.5; plot "-" using 1:xtic(2) with boxes'

Data wrangling to make arguments

Sometimes you want to do data wrangling to find things to install or remove based on some longer list. The data wrangling we’ve talked about so far + xargs can be a powerful combo:

rustup toolchain list | grep nightly | grep -vE "nightly-x86|01-17" | sed 's/-x86.*//' | xargs rustup toolchain uninstall

Exercises

  1. If you are not familiar with Regular Expressions here is a short interactive tutorial that covers most of the basics
  2. How is sed s/REGEX/SUBSTITUTION/g different from the regular sed? What about /I or /m?
  3. To do in-place substitution it is quite tempting to do something like sed s/REGEX/SUBSTITUTION/ input.txt > input.txt. However this is a bad idea, why? Is this particular to sed?
  4. Implement a simple grep equivalent tool in a language you are familiar with using regex. If you want the output to be color highlighted like grep is, search for ANSI color escape sequences.
  5. Sometimes some operations like renaming files can be tricky with raw commands like mv . rename is a nifty tool to achieve this and has a sed-like syntax. Try creating a bunch of files with spaces in their names and use rename to replace them with underscores.
  6. Look for boot messages that are not shared between your past three reboots (see journalctl’s -b flag). You may want to just mash all the boot logs together in a single file, as that may make things easier.
  7. Produce some statistics of your system boot time over the last ten boots using the log timestamp of the messages
    Logs begin at ...
    

    and

    systemd[577]: Startup finished in ...
    
  8. Find the number of words (in /usr/share/dict/words) that contain at least three as and don’t have a 's ending. What are the three most common last two letters of those words? sed’s y command, or the tr program, may help you with case insensitivity. How many of those two-letter combinations are there? And for a challenge: which combinations do not occur?
  9. Find an online data set like this one or this one. Maybe another one from here. Fetch it using curl and extract out just two columns of numerical data. If you’re fetching HTML data, pup might be helpful. For JSON data, try jq. Find the min and max of one column in a single command, and the sum of the difference between the two columns in another.

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