GalleryShare - Share a folder on your computer with a friend

Just yesterday, I was browsing my repositories on both my personal git server (git.starbeamrainbowlabs.com) and GitHub, and I stumbled across a program I wrote a while ago and then completely forgot about. It lets you share a directory of files and pictures via http. The picture above is from the wallpapers folder on my laptop here!

On further inspection, I discovered that it didn't require too much work to tidy it up for a release, so I spent an hour or two tidying up a few things, and here is version 0.1! My, it's been far too long since I've blogged about a release of something on here....

If you want to share things yourself, you can download the latest version over here.

In the future, I might add an optional graphical interface to make it even easier for people to use :D

It's actually quite simple. It's powered by the System.Net.HttpServer class (so Windows users will either need to install mono or give it administrative privileges, which is a real shame) since I originally wrote it before I put the GlidingSquirrel together, though it does have it's own routing system of my own devising.

The pages it serves themselves are actually plain XML files, which are rendered with XSLT by the user's browser. This keeps the content that GalleryShare has to dynamically generate simple, and has the added benefit that it can be generated with C&csharp;'s System.Xml.XmlWriter class. It's practically a browser-side templating system, which also has the added benefit of providing an XML-based API for others to consume.

Thumbnails are generated with C♯'s inbuilt System.Drawing image handling functions - I did initially want to use Magick.NET (C♯ bindings for the awesome ImageMagick library) has the System.Drawing classes appear to be a bit funny about the images they'll accept, but Linux support doesn't seem to have landed just yet.

Are you interested in a more in-depth look at how GalleryShare renders thumbnails, or outputs XML? Perhaps the XSLT has caught your eye. Let me know in the comments below!

Further Reading

• GalleryShare on GitHub
• The latest release of GalleryShare on GitHub
• XSLT Tutorial
• ImageMagick
• Magick.NET

/r/dailyprogrammer hard challenge #322: Static HTTP 1.0 server

Recently I happened to stumble across the dailyprogrammer subreddit's latest challenge. It was for a static HTTP 1.0 server, and while I built something similar for my networking ACW, I thought I'd give this one a go to create an extendable http server that I can use in other projects. If you want to follow along, you can find the challenge here!

My language of choice, as you might have guessed, was C♯ (I know that C♯ has a HttpServer class inbuilt already, but to listen on 0.0.0.0 on Windows it requires administrative privileges).

It ended up going rather well, actually. In a little less than 24 hours after reading the post, I had myself a working solution, and I thought I'd share here how I built it. Let's start with a class diagram:

(Above: A class diagram for the GlidingSquirrel. Is this diagram better than the last one I drew?)

I'm only showing properties on here, as I'll be showing you the methods attached to each class later. It's a pretty simple design, actually - HttpServer deals with all the core HTTP and networking logic, FileHttpServer handles the file system calls (and can be swapped out for your own class), and HttpRequest, HttpResponse, HttpMethod, HttpResponseCode all store the data parsed out from the raw request coming in, and the data we're about to send back out again.

With a general idea as to how it's put together, lets dive into how it actually works. HttpServer would probably be a good place to start:

public abstract class HttpServer
{
    public static readonly string Version = "0.1-alpha";

    public readonly IPAddress BindAddress;
    public readonly int Port;

    public string BindEndpoint { /* ... */ }

    protected TcpListener server;

    private Mime mimeLookup = new Mime();
    public Dictionary<string, string> MimeTypeOverrides = new Dictionary<string, string>() {
        [".html"] = "text/html"
    };

    public HttpServer(IPAddress inBindAddress, int inPort)
    { /* ... */ }
    public HttpServer(int inPort) : this(IPAddress.IPv6Any, inPort)
    {
    }

    public async Task Start() { /* ... */ }

    public string LookupMimeType(string filePath) { /* ... */ }

    protected async void HandleClientThreadRoot(object transferredClient) { /* ... */ }

    public async Task HandleClient(TcpClient client) { /* ... */ }

    protected abstract Task setup();

    public abstract Task HandleRequest(HttpRequest request, HttpResponse response);
}

(Full version)

It's heavily abbreviated because there's actually quite a bit of code to get through here, but you get the general idea. The start method is the main loop that accepts the TcpClients, and calls HandleClientThreadRoot for each client it accepts. I decided to use the inbuilt ThreadPool class to do the threading for me here:

TcpClient nextClient = await server.AcceptTcpClientAsync();
ThreadPool.QueueUserWorkItem(new WaitCallback(HandleClientThreadRoot), nextClient);

C♯ handles all the thread spawning and killing for me internally this way, which is rather nice. Next, HandleClientThreadRoot sets up a net to catch any errors that are thrown by the next stage (as we're now in a new thread, which can make debugging a nightmare otherwise), and then calls the main HandleClient:

try
{
    await HandleClient(client);
}
catch(Exception error)
{
    Console.WriteLine(error);
}
finally
{
    client.Close();
}

No matter what happens, the client's connection will always get closed. HandleClient is where the magic start to happen. It attaches a StreamReader and a StreamWriter to the client:

StreamReader source = new StreamReader(client.GetStream());
StreamWriter destination = new StreamWriter(client.GetStream()) { AutoFlush = true };

...and calls a static method on HttpRequest to read in and decode the request:

HttpRequest request = await HttpRequest.FromStream(source);
request.ClientAddress = client.Client.RemoteEndPoint as IPEndPoint;

More on that later. With the request decoded, HandleClient hands off the request to the abstract method HandleRequest - but not before setting up a secondary safety net first:

try
{
    await HandleRequest(request, response);
}
catch(Exception error)
{
    response.ResponseCode = new HttpResponseCode(503, "Server Error Occurred");
    await response.SetBody(
        $"An error ocurred whilst serving your request to '{request.Url}'. Details:\n\n" +
        $"{error.ToString()}"
    );
}

This secondary safety net means that we can send a meaningful error message back to the requesting client in the case that the abstract request handler throws an exception for some reason. In the future, I'll probably make this customisable - after all, you don't always want to let the client know exactly what crashed inside the server's internals!

The FileHttpServer class that handles the file system logic is quite simple, actually. The magic is in it's implementation of the abstract HandleRequest method that the HttpServer itself exposes:

public override async Task HandleRequest(HttpRequest request, HttpResponse response)
{
    if(request.Url.Contains(".."))
    {
        response.ResponseCode = HttpResponseCode.BadRequest;
        await response.SetBody("Error the requested path contains dangerous characters.");
        return;
    }

    string filePath = getFilePathFromRequestUrl(request.Url);
    if(!File.Exists(filePath))
    {
        response.ResponseCode = HttpResponseCode.NotFound;
        await response.SetBody($"Error: The file path '{request.Url}' could not be found.\n");
        return;
    }

    FileInfo requestFileStat = null;
    try {
        requestFileStat = new FileInfo(filePath);
    }
    catch(UnauthorizedAccessException error) {
        response.ResponseCode = HttpResponseCode.Forbidden;
        await response.SetBody(
            "Unfortunately, the server was unable to access the file requested.\n" + 
            "Details:\n\n" + 
            error.ToString() + 
            "\n"
        );
        return;
    }

    response.Headers.Add("content-type", LookupMimeType(filePath));
    response.Headers.Add("content-length", requestFileStat.Length.ToString());

    if(request.Method == HttpMethod.GET)
    {
        response.Body = new StreamReader(filePath);
    }
}

With all the helper methods and properties on HttpResponse, it's much shorter than it would otherwise be! Let's go through it step by step.

if(request.Url.Contains(".."))

This first step is a quick check for anything obvious that could be used against the server to break out of the web root. There are probably other dangerous things you can do(or try to do, anyway!) to a web server to attempt to trick it into returning arbitrary files, but I can't think of any of the top of my head that aren't covered further down. If you can, let me know in the comments!

string filePath = getFilePathFromRequestUrl(request.Url);

Next, we translate the raw path received in the request into a path to a file on disk. Let's take a look inside that method:

protected string getFilePathFromRequestUrl(string requestUrl)
{
    return $"{WebRoot}{requestUrl}";
}

It's rather simplistic, I know. I can't help but feel that there's something I missed here.... Let me know if you can think of anything. (If you're interested about the dollar syntax there - it's called an interpolated string, and is new in C♯ 6! Fancy name, I know. Check it out!)

if(!File.Exists(filePath))
{
    response.ResponseCode = HttpResponseCode.NotFound;
    await response.SetBody($"Error: The file path '{request.Url}' could not be found.\n");
    return;
}

Another obvious check. Can't have the server crashing every time it runs into a 404! A somewhat interesting note here: File.Exists only checks to see if there's a file that exists under the specified path. To check for the existence of a directory, you have to use Directory.Exists - which would make directory listing rather easy to implement. I might actually try that later - with an option to turn it off, of course.

FileInfo requestFileStat = null;
try {
    requestFileStat = new FileInfo(filePath);
}
catch(UnauthorizedAccessException error) {
    response.ResponseCode = HttpResponseCode.Forbidden;
    await response.SetBody(
        "Unfortunately, the server was unable to access the file requested.\n" + 
        "Details:\n\n" + 
        error.ToString() + 
        "\n"
    );
    return;
}

Ok, on to something that might be a bit more unfamiliar. The FileInfo class can be used to get, unsurprisingly, information about a file. You can get all sorts of statistics about a file or directory with it, such as the last modified time, whether it's read-only from the perspective of the current user, etc. We're only interested in the size of the file though for the next few lines:

response.Headers.Add("content-type", LookupMimeType(filePath));
response.Headers.Add("content-length", requestFileStat.Length.ToString());

These headers are important, as you might expect. Browsers to tend to like to know the type of content they are receiving - and especially it's size.

if(request.Method == HttpMethod.GET)
{
    response.Body = new StreamReader(filePath);
}

Lastly, we send the file's contents back to the user in the response - but only if it's a GET request. This rather neatly takes care of HEAD requests - but might cause issues elsewhere. I'll probably end up changing it if it does become an issue.

Anyway, now that we've covered everything right up to sending the response back to the client, let's end our tour with a look at the request parsing system. It's a bit backwards, but it does seem to work in an odd sort of way! It all starts in HttpRequest.FromStream.

public static async Task<HttpRequest> FromStream(StreamReader source)
{
    HttpRequest request = new HttpRequest();

    // Parse the first line
    string firstLine = await source.ReadLineAsync();
    var firstLineData = ParseFirstLine(firstLine);

    request.HttpVersion = firstLineData.httpVersion;
    request.Method = firstLineData.requestMethod;
    request.Url = firstLineData.requestPath;

    // Extract the headers
    List<string> rawHeaders = new List<string>();
    string nextLine;
    while((nextLine = source.ReadLine()).Length > 0)
        rawHeaders.Add(nextLine);

    request.Headers = ParseHeaders(rawHeaders);

    // Store the source stream as the request body now that we've extracts the headers
    request.Body = source;

    return request;
}

It looks deceptively simple at first glance. To start with, I read in the first line, extract everything useful from it, and attach them to a new request object. Then, I read in all the headers I can find, parse those too, and attach them to the request object we're building.

Finally, I attach the StreamReader to the request itself, as it's now pointing at the body of the request from the user. I haven't actually tested this, as I don't actually use it anywhere just yet, but it's a nice reminder just in case I do end up needing it :-)

Now, let's take a look at the cream on the cake - the method that parses the first line of the incoming request. I'm quite pleased with this actually, as it's my first time using a brand new feature of C♯:

public static (float httpVersion, HttpMethod requestMethod, string requestPath) ParseFirstLine(string firstLine)
{
    List<string> lineParts = new List<string>(firstLine.Split(' '));

    float httpVersion = float.Parse(lineParts.Last().Split('/')[1]);
    HttpMethod httpMethod = MethodFromString(lineParts.First());

    lineParts.RemoveAt(0); lineParts.RemoveAt(lineParts.Count - 1);
    string requestUrl = lineParts.Aggregate((string one, string two) => $"{one} {two}");

    return (
        httpVersion,
        httpMethod,
        requestUrl
    );
}

Monodevelop, my C♯ IDE, appears to go absolutely nuts over this with red squiggly lines everywhere, but it still compiles just fine :D

As I was writing this, a thought popped into my head that a tuple would be perfect here. After reading somewhere a month or two ago about a new tuple syntax that's coming to C♯ I thought I'd get awesomely distracted and take a look before continuing, and what I found was really cool. In C♯ 7 (the latest and quite possibly greatest version of C♯ to come yet!), there's a new feature called value tuples, which let's you dynamically declare tuples like I have above. They're already fully supported by the C♯ compiler, so you can use them today! Just try to ignore your editor if it gets as confused as mine did... :P

If you're interested in learning more about them, I'll leave a few links at the bottom of this post. Anyway, back to the GlidingSquirrel! Other than the new value tuples in the above, there's not much going on, actually. A few linq calls take care of the heavy lifting quite nicely.

And finally, here's my header parsing method.

public static Dictionary<string, string> ParseHeaders(List<string> rawHeaders)
{
    Dictionary<string, string> result = new Dictionary<string, string>();

    foreach(string header in rawHeaders)
    {
        string[] parts = header.Split(':');
        KeyValuePair<string, string> nextHeader = new KeyValuePair<string, string>(
            parts[0].Trim().ToLower(),
            parts[1].Trim()
        );
        if(result.ContainsKey(nextHeader.Key))
            result[nextHeader.Key] = $"{result[nextHeader.Key]},{nextHeader.Value}";
        else
            result[nextHeader.Key] = nextHeader.Value;
    }

    return result;
}

While I have attempted to build in support for multiple definitions of the same header according to the spec, I haven't actually encountered a time when it's actually been needed. Again, this is one of those things I've built in now for later - as I do intend on updating this and adding more features later - and perhaps even work it into another secret project I might post about soon.

Lastly, I'll leave you with a link to the repository I'm storing the code for the GlidingSquirrel, and a few links for your enjoyment:

GlidingSquirrel

Sources and Further Reading

• /r/dailyprogrammer hard challenge #322: static http server
• Tuples in C# 7
• Tackling Tuples: Understanding the New C# 7 Value Type
• The HTTP Specification on devdocs.io
• What's new in C♯ 7
• Net Neutrality concerns explained by StackOverflow

Take up a Hobby!

(Above: My piano keyboard! It's an absolutely delightful Challen.)

I can recommend taking up a hobby. In my case, it's playing the piano. It's important to do something other than writing code. You might not think so now (I didn't a few years ago), but I can see the wisdom in those words now - I'm so glad that I didn't stop playing the piano (silent pianos get thrown away, after all! ¹).

It might be a musical instrument. Or playing board games with friends. Or woodworking. Anything that doesn't (normally) involve a computer! It's sometimes helpful to get away from that nasty problem you're trying to figure out a solution for and come back to it later. I quite often find that the solution comes much more easily :-)

What's your hobby? Post a comment below!

Share files from your host machine with virtual machine guests with 9p and virtual machine manager

(Infinity symbol source, Virtual Machine Manager logo traced from the logo on the official site automatically with Inkscape)

Recently I've been looking at Virtual Machine Manager with qemu and KVM to set up a few virtual machines for my next year at university. During this learning and planning process, I've discovered a way (source) to setup an environment such that you can share a folder on your host machine (optionally read-only) with a guest machine running inside a virtual machine with a technology called 9p, and I wanted to share how I did it here.

To start make sure your virtual machine is powered off, and go to Add Hardware → Filesystem, and fill in the boxes:

• Source path - The path on the host system to the folder you can to share.
• Target path - The path at which the guest will see it. Note that this isn't a place on the guest file system, from what I can tell - see below.
• Export filesystem as readonly mount - Check this box to make the share read-only.

Next, click "Finish", and start your virtual machine. Next, open a terminal on the guest machine and type something similar to this:

sudo mkdir /mnt/host_files
sudo mount -t 9p -o trans=virtio,version=9p2000.L /target /mnt/host_files

...this should mount the host share at /tmp/share to the path /mnt/host_files on the guest machine.

Found this different sort of post useful? Got something to add? Post about it in the comments!

Debug your systemd services with journalctl

The chances are that if you're using linux, you will probably have run into systemd. If you find yourself in the situation where you've got a systemd service that keeps dying and you don't know why (I've been there before several times!), and there's nothing helpful in /var/log, before you give up, you might want to give journalctl a try. It's systemd's way of capturing the output of a service and storing it in it's logging system (or something).

When I first found out about it, I read that apparently journalctl -xe servicename would show me the logs for any given service. It turned out that it wasn't the case (it just threw a nasty error), so I went trawling through the man pages and found the correct command-line switch. If you've got a service called rocketbooster.service, and you want to see if systemd has any logs stored for it, then you can execute this command:

journalctl --unit rocketbooster.service

...or for short

journalctl -u rocketbooster.service

It should open the logs (if there are any) in less - with the oldest logs at the top, so you might need to scroll all the way down to the bottom to see anything that's relevant to your problem (shift + G will take you to the bottom of the file).

I've found that systemd has a habit of rotating the logs too - and journalctl doesn't appear to know how to access the rotated logs, so it's best if you use this command as soon as possible after failure (suggestions on how to access these rotated logs are welcome! Post down in the comment :D).

I thought I'd document it here in case it was useful to anyone - and so I don't forget myself! :P

Access your home linux box from anywhere with SSH tunnels

(Header by GDJ from openclipart.org. Source page)

....and other things! Recently, I bought a Raspberry Pi 3. Now that the rest of the components have arrived, I've got a rather nice little home server that's got a 1 terabyte WD PiDrive attached to it to provide lots of lovely shared storage, which is rather nice.

However, within a few weeks I was faced with a problem. How do I access my new box to configure it from my internship when I'm on lunch? Faced with such a challenge, I did what anyone would, and took to the internet to find a solution.

It didn't take long. A while ago I heard about these things called 'SSH tunnels', which, while not designed for a high throughput, are more than adequate for a low-intensity SSH connection that runs a few kilobytes a second in either direction. After reading this excellent answer by erik on the Unix & Linux StackExchange, I had an understanding of how SSH tunnels work, and was ready to put together a solution. You should go and read that answer if you'd like to understand SSH tunnels too - it explains it much better than I ever could :P

With that knowledge in hand, I went about planning the SSH tunnel. I already have a server a public IP address (it's hosting this website!), so I needed a reverse tunnel to allow me to access a port local to my linux box at home (called elessar - a virtual cookie for anyone who gets the reference!) from starbeamrainbowlabs.com.

Important! Ask yourself whether it's moral and ethical to set up an ssh tunnel before you think about following along with this article! If you find yourself behind a firewall or something similar, then the chances are that it's there for a good reason - and you might get into trouble if you try and circumvent it. I won't be held responsible for any loss or damages of any description caused by the reading of this post.

First job: create a limited account on starbeamrainbowlabs.com for elessar to SSH into. That's easy:

sudo useradd --system ssh-tunnel

Then, with a few quick lines in /etc/ssh/sshd_config:

Match User ssh-tunnel
    ForceCommand echo 'This account can only be used for ssh tunnelling.'

....we can prevent the ssh-tunnel user from being abused to gain shell access to the server (let me know if there are any further measures I can put in place here).

Now that I had a user account to ssh in as, I could set up a public / private keypair to authenticate with starbeamrainbowlabs.com, and cook up an SSH command for elessar that would set up the appropriate tunnel. After fiddling around a bit, I came up with this that did the job:

ssh -TN -R30582:localhost:5724 ssh-tunnel@starbeamrainbowlabs.com

Very cool. So with that command executing on elessar, I could ssh into elessar from starbeamrainbowlabs.com! In short, it sets up a tunnel that will make port 30582 on starbeamrainbowlabs.com tunnel through to port 5724 on elessar - the port on elessar that has SSH running on it, without allocating a pseudo-tty to save resources. explainshell.com can, well, explain it in more detail if you're interested.

Having an SSH command that would set up the tunnel is nice, but it's not very useful, since I have to execute it first before I can actually SSH into elessar from afar.

The solution was actually a little bit complicated. First, I wrote a simple systemd service file (systemd is what I have installed, since it's vanilla raspbian - this should be easily adaptable to other systems and setups) to start the SSH tunnel automagically on boot:

[Unit]
Description=SSH tunnel from starbeamrainbowlabs.com to local ssh server.

[Service]
Type=simple
ExecStart=/usr/bin/ssh -TN -R30582:localhost:5724 ssh-tunnel@starbeamrainbowlabs.com

[Install]
WantedBy=network-online.target

I quickly realised that there were a few flaws with this approach. Firstly, it tried to start the SSH connection before my router had connected to the internet, since my router starts faster than the box that initialises the fibre connection to my ISP. Secondly, it fails to retry when the connection dies.

The first problem can be solved relatively easily, by wrapping the ssh command in a clever bit of shell scripting:

/bin/sh -c 'until ping -c1 starbeamrainbowlabs.com &>/dev/null && sleep 5; do :; done && /usr/bin/ssh -TN -R30582:localhost:5724 ssh-tunnel@starbeamrainbowlabs.com

The above tries to ping starbeamrainbowlabs.com every 5 seconds until it succeeds, and only then does it attempt to open the SSH connection. This solves the first problem. To solve the second, we need to look at autossh. Autossh is a small tool that monitors an ssh connection in a variety of configurable ways and restarts the connection if ever dies for whatever reason. You can install it with your favourite package manager:

sudo apt install autossh

Substitute apt with whatever package manager you use on your system. With it installed, we can use a command like this:

autossh -o "UserKnownHostsFile /home/ssh-tunnel/.ssh/known_hosts" -o "IdentityFile /home/ssh-tunnel/.ssh/ssh-tunnel_ed25519" -o "PubkeyAuthentication=yes" -o "PasswordAuthentication=no" -o "ServerAliveInterval 900" -TN -R30582:localhost:5724 -p 7261 ssh-tunnel@starbeamrainbowlabs.com

to automatically start our ssh tunnel, and restart it if anything goes wrong. Note all the extra settings I had to specify here. This is because even though I had many of them specified in ~/.ssh/config for the ssh-tunnel user, because of systemd's weird environment when it starts a service, I found I had to specify everything in the command line with absolute paths (ugh).

Basically, the above tells autossh where the known_hosts file is (important for automation!), that it should only attempt public / private keypair authentication and not password authentication, that it should check the server's still there every 15 minutes, and all the other things we figured out above.

Finally, I combined the solutions I came up with for both problems, which left me with this:

[Unit]
Description=SSH tunnel from starbeamrainbowlabs.com to local ssh server.

[Service]
Type=simple
ExecStart=/bin/sh -c 'until ping -c1 starbeamrainbowlabs.com &>/dev/null && sleep 5; do :; done && /usr/bin/autossh -o "UserKnownHostsFile /home/pi/.ssh/known_hosts" -o "IdentityFile /home/pi/.ssh/ssh-tunnel_ed25519" -o "PubkeyAuthentication=yes" -o "PasswordAuthentication=no" -o "ServerAliveInterval 900" -TN -R30582:localhost:5724 -p 7261 ssh-tunnel@starbeamrainbowlabs.com'

[Install]
WantedBy=network-online.target

Here's a version that utilises the -f parameter of autossh to put the autossh into the background, which eliminates the sh parent process:

[Unit]
Description=SSH tunnel from starbeamrainbowlabs.com to local ssh server.

[Service]
Type=forking
Environment=AUTOSSH_PIDFILE=/var/run/sbrl-ssh-tunnel/ssh-tunnel.pid
PIDFile=/var/run/sbrl-ssh-tunnel/ssh-tunnel.pid
ExecStartPre=/bin/mkdir -p /var/run/sbrl-ssh-tunnel
ExecStartPre=-/bin/chown ssh-tunnel:ssh-tunnel /var/run/sbrl-ssh-tunnel
ExecStart=/bin/sh -c 'until ping -c1 starbeamrainbowlabs.com &>/dev/null && sleep 5; do :; done && /usr/bin/autossh -f -o "UserKnownHostsFile /home/pi/.ssh/known_hosts" -o "IdentityFile /home/pi/.ssh/ssh-tunnel_ed25519" -o "PubkeyAuthentication=yes" -o "PasswordAuthentication=no" -o "ServerAliveInterval 900" -TN -R30582:localhost:5724 -p 7261 ssh-tunnel@starbeamrainbowlabs.com'

[Install]
WantedBy=network-online.target

I ended up further modifying the above to set up an additional tunnel to allow elessar to send emails via the postfix email server that's running on starbeamrainbowlabs.com. Let me know if you'd be interested in a tutorial on this!

Sources and Futher Reading

• SSH Tunnelling for Fun and Profit: Autossh by cytopia over at Everything CLI

Learn your terminal (or command line)

Enter stage left: the terminal (or command line, on windows). That window with strange white text on a black background. You might not see it, but every operating system has one - humming away in the background, just waiting to be used, but epic arcane skills are needed to navigate this bizarre and perhaps dated window into your computer.... or so it seems.

When you think of your computer, you will probably think of a GUI (a.k.a. goo-ey), with windows, a cursor, and perhaps a few buttons. GUIs make it easy for newcomers to easily find their way around a computer by referencing things that exist in the real world (e.g. folders and files, a floppy disk on the save button, etc.), but they can be inherently slower to use - especially for long series of perhaps repetitive tasks that stay essentially the same.

A terminal (linux and friends) or a command line (windows) is another view into your computer. It's a way of controlling your computer with text. Text that follows particular set of rules, that can be saved and repeated at will through the use of scripts. It's built on commands, each of which does one thing and one thing well. On their own they're mildly useful, but together they form a powerful framework that can perform almost any task. It's certainly different (and there's a little bit of learning curve, to be sure), but not as hard or arcane as you might think it currently.

A knowledge of the terminal or command line on your computer can be rather useful - especially so for those involved in computer science or technical support. How long would it take you to flatten a large set of deeply nested folders with a GUI? Or convert and recompress few folders worth of videos? Or even renew all your ssl certificates on your web server? All of these things can be automated through the use of a terminal or command line.

Even if you're just a casual computer user who's not into programming, it's still worth at least looking into. Perhaps it'll save you some time! Perhaps it'll save you from asking your friend where something is on their computer when you can't find it. Maybe it'll even save you if your computer suddenly decides it doesn't want to boot up properly. And you'll look cool doing it too :P (What better reason is there?)

If I've somehow managed to convince you to dive in and take up the challenge learning, then I'll end this somewhat different post with a collection of places you can go to get started.

• Linux
  • Computer Literacy 101 on linuxcommand.org - A linux terminal tutorial. Uses bash. Your prompt might differ, but the concept is the same.
  • Using the terminal in the Ubuntu Documentation. Ubuntu specific, but again, the concept is the same. Read Computer Literacy 101 first.
  • An Introduction to the Linux Terminal by Mitchell Anicas in the Digital Ocean Community - mainly aimed at servers, but still useful.
  • explainshell.com - Enter a linux command on this website, and it'll tell you what each part of it does. Really useful for dissecting those long and complex one-liners.
  • Linux Commands - A practical reference on pixelbeat.org
  • Linux Terminal Command Reference by Alexio on community.linuxmint.com
• Windows
  • Introduction to the Windows Command Prompt by Lawrence Abrams on BleepingComputer.com
  • A getting started guide on dosprompt.info
  • Command-line reference A-Z on the Microsoft TechNet - A list of core windows commands and links to their help pages

Make your linux learning experience painless with tldr-pages!

If you've been learning linux for a little while, you'll probably have encountered man pages. They are the complete documentation of all the tools, commands(, and kernel functions) available on the system you're currently on (read them online here!). If you have encountered them, you'll also know that they usually are somewhat... verbose.

Enter stage left: tldr-pages!

tldr-pages is an ongoing effort to create a repository of simplified man pages, that document the most common usages of a command. How about this, for the tar command?

# tar

> Archiving utility.
> Often combined with a compression method, such as gzip or bzip.

- Create an archive from files:

`tar cf {{target.tar}} {{file1 file2 file3}}`

- Create a gzipped archive:

`tar czf {{target.tar.gz}} {{file1 file2 file3}}`

- Extract an archive in a target folder:

`tar xf {{source.tar}} -C {{folder}}`

- Extract a gzipped archive in the current directory:

`tar xzf {{source.tar.gz}}`

- Extract a bzipped archive in the current directory:

`tar xjf {{source.tar.bz2}}`

- Create a compressed archive, using archive suffix to determine the compression program:

`tar caf {{target.tar.xz}} {{file1 file2 file3}}`

- List the contents of a tar file:

`tar tvf {{source.tar}}`

...or this for git reset?

# git reset

> Undo commits or unstage changes, by resetting the current git HEAD to the specified state.
> If a path is passed, it works as "unstage"; if a commit hash or branch is passed, it works as "uncommit".

- Unstage everything:

`git reset`

- Unstage specific file(s):

`git reset {{path/to/file(s)}}`

- Unstage portions of a file:

`git reset -p {{path/to/file}}`

- Undo the last commit, keeping its changes (and any further uncommitted changes) in the filesystem:

`git reset HEAD~`

- Undo the last two commits, adding their changes to the index, i.e. staged for commit:

`git reset --soft HEAD~2`

- Discard any uncommitted changes, staged or not (for only unstaged changes, use `git checkout`):

`git reset --hard`

- Reset the repository to a given commit, discarding committed, staged and uncommitted changes since then:

`git reset --hard {{commit}}`

For those learning linux and the terminal, I think it's an invaluable tool. It helps you out by showing you how to perform common tasks. As you get more experienced though, it becomes useful in another way: showing you how to do those things that you don't do often enough to remember off the top of your head.

I'm probably a bit biased, since I've been contributing to the project for a while (and the nice folks over there recently promoted me to the rank of maintainer :D), so you should check it out for yourself! There's even an online client that you can use without installing anything :-) Once you're ready to install a client directly in your terminal, there's an extensive list of clients documented on the repository wiki, with one available for every environment and platform.

If you encounter a command that hasn't been documented yet, then they've also made it easy to contribute a page yourself.

I think the idea is rather cool, actually - as you've probably guessed by now! Let me know what you think of it in the comments.

Weekend Challenge: Detecting and Decoding Morse Code in an Audio File

Recently I received a message in morse code from a family member using this site. It said that the sender had hidden the message, so I was presented with 2 options: I could sit and decode the message by listening to it over and over again, or write a program to do it for me.

Naturally, as a computer science student and enthusiast, I chose the second option. My first problem: Capture a recording of the target morse code. This was easy - the audio-recorder package in the ubuntu repositories solved that one easily, as it has an option to record the audio output of my laptop.

Second problem: Figure out how to read the recording in and extract the samples in C♯. This one wasn't so easy. Amidst issues with flatpak and Monodevelop (flatpak is terrible!), I eventually found the NAudio (Codeplex, GitHub, NuGet) package to do the job. After some digging, I discovered that NAudio is actually really powerful! It's got some pretty advanced functions for handling audio that I'll have to explore at a later date.

Anyway, with a plan of action I set to work. - decided to work in reverse, so the first thing I needed was a chart that converted morse code into the latin alphabet. Wikipedia to the rescue:

(Source, Direct link, My Mirror)

With a handy-dandy conversion chart, it was relatively simple to create a class to handle the conversion from dots and dashes to the latin alphabet automatically:

using System;
using System.Collections.Generic;

namespace SBRL.Algorithms.MorseCodeTranslator
{
    /// <summary>
    /// A simple class to translate a morse code string into a normal string.
    /// </summary>
    /// <license>Mozilla Public License version 2.0</license>
    /// <origin></origin>
    /// <author>Starbeamrainbowlabs (https://starbeamrainbowlabs.com/)</author>
    /// <changelog>
    /// v0.1 - 26th May 2017:
    ///      - Creation! 😁
    /// </changelog>
    public static class MorseDecoder
    {
        /// <summary>
        /// The morse code lookup table. Use the methods in this class is possible,
        /// rather than accessing this lookup table directly!
        /// </summary>
        public static Dictionary<string, char> morseCodeLookup = new Dictionary<string, char>()
        {
            [".-"] = 'a',
            ["-..."] = 'b',
            ["-.-."] = 'c',
            ["-.."] = 'd',
            ["."] = 'e',
            ["..-."] = 'f',
            ["--."] = 'g',
            ["...."] = 'h',
            [".."] = 'i',
            [".---"] = 'j',
            ["-.-"] = 'k',
            [".-.."] = 'l',
            ["--"] = 'm',
            ["-."] = 'n',
            ["---"] = 'o',
            [".--."] = 'p',
            ["--.-"] = 'q',
            [".-."] = 'r',
            ["..."] = 's',
            ["-"] = 't',
            ["..-"] = 'u',
            ["...-"] = 'v',
            [".--"] = 'w',
            ["-..-"] = 'x',
            ["-.--"] = 'y',
            ["--.."] = 'z',
            [".----"] = '1',
            ["..---"] = '2',
            ["...--"] = '3',
            ["....-"] = '4',
            ["....."] = '5',
            ["-...."] = '6',
            ["--..."] = '7',
            ["---.."] = '8',
            ["----."] = '9',
            ["-----"] = '0',
        };

        /// <summary>
        /// Translates a single letter from morse code.
        /// </summary>
        /// <param name="morseSource">The morse code to translate.</param>
        /// <returns>The translated letter.</returns>
        public static char TranslateLetter(string morseSource)
        {
            return morseCodeLookup[morseSource.Trim()];
        }

        /// <summary>
        /// Translates a string of space-separated morse code strings from morse code.
        /// </summary>
        /// <param name="morseSource">The morse code to translate.</param>
        /// <returns>The translated word.</returns>
        public static string TranslateWord(string morseSource)
        {
            string result = string.Empty;

            string[] morseLetters = morseSource.Split(" ".ToCharArray());

            foreach(string morseLetter in morseLetters)
                result += TranslateLetter(morseLetter);

            return result;
        }

        /// <summary>
        /// Translates a list of morse-encoded words.
        /// </summary>
        /// <param name="morseSources">The morse-encoded words to decipher.</param>
        /// <returns>The decoded text.</returns>
        public static string TranslateText(IEnumerable<string> morseSources)
        {
            string result = string.Empty;
            foreach(string morseSource in morseSources)
                result += $"{TranslateWord(morseSource)} ";
            return result.Trim();
        }
    }
}

That was easy! The next challenge to tackle was considerably more challenging though: Read in the audio file and analyse the samples. I came up with that I think is a rather ingenious design. It's best explained with a diagram:

1. Read the raw samples into a buffer. If there isn't enough space to hold it all at once, then we handle it in chunks.
2. Move a sliding-window along the raw buffer, with a width of 100 samples and sliding along 25 samples at a time. Extracts the maximum value from the window each time and places it in the windowed buffer.
3. Analyse the windowed buffer and extract context-free tokens that mark the start or end of a tone.
4. Convert the context-free tokens into ones that hold the starting point and length of the tones.
5. Analyse the contextual tokens to extract the morse code as a string
6. Decipher the morse code string

It's a pretty complicated problem when you first think about it, but breaking it down into steps as I did in the above diagram really helps in figuring out how you're going to tackle it. I, however, ended up drawing the diagram after Id finished writing the program.... I appear to find it easy to break things down in my head - it's only when it gets too big to remember all at once or if I'm working with someone else that I draw diagrams :P

Having drawn up an algorithm and 6 steps I needed to follow to create the program, I spent a happy afternoon writing some C♯. While the remainder of the algorithm is not too long (only ~202 lines), it's a bit too long to explain bit by bit here. I have uploaded the full program to a repository on my personal git server, which you can find here: sbrl/AudioMorseDecoder.

If you're confused about any part of it, ask away in the comments below! Binaries available on request.

I'll leave you with a pair of challenging messages of my own to decode. Try not to use my decoder - write your own!

Message A (easy), Message B (hard) (hard message generated with cwwav)

Let's build a weighted random number generator!

Ever wondered how random loot in a dungeon is generated? Or how the rooms in a procedurally generated castle might be picked? Perhaps you need to skew the number of times an apple is picked by your game engine over a banana. If you've considered any of these things, then you want a weighted random number generator. In this post, I'll be showing you how I built one, and how you can build one too.

If you're interested in trying to build one for yourself first though, then look away now! Come back when you're done (or stuck) to see my solution.

To start with, let's consider what a weighted random number generator actually is. Let's say we've got 3 rewards for a treasure chest: a cool-looking shield, a health potion, and a fancy ring. We want to give the player 1 of the 3 when they option the chest, making sure that the health potion is more common than the others. We can represent that as a ratio: $3 : 4 : 3$.

(Above: The ratio between the different items. See below for the explanation of the math!).

In order to pick one of the 3 items using the ratio, we need to normalise the ratio so that it's between $0$ and $1$. That's rather easy, as far as maths goes: All we have to do is convert each part of the ratio into a fraction, and that into a decimal. Let's calculate the denominator of the fraction first. That's easy-peasy too - we just add up all the parts of the ratio, as we want to represent each part as a fraction of a whole: $3 + 4 + 3 = 10$. With our denominator sorted, we can convert each part into a fraction:

$$ \frac{3}{10} + \frac{4}{10} + \frac{3}{10} = 1 $$

Fractions are nice, but it's be better to have that as a decimal:

$$ 0.3 + 0.4 + 0.3 = 10 $$

That's much better. Now, with the initial theory out of the way, let's start writing a class for it.

using System;
using System.Collections.Generic;
using System.Linq;

namespace SBRL.Algorithms
{
    public class WeightedRandom<ItemType>
    {
        protected Random rand = new Random();

        protected Dictionary<double, ItemType> weights = new Dictionary<double, ItemType>();

        /// <summary>
        /// Creates a new weighted random number generator.
        /// </summary>
        /// <param name="items">The dictionary of weights and their corresponding items.</param>
        public WeightedRandom(IDictionary<double, ItemType> items)
        {
            if(items.Count == 0)
                throw new ArgumentException("Error: The items dictionary provided is empty!");

            double totalWeight = items.Keys.Aggregate((double a, double b) => a + b);
            foreach(KeyValuePair<double, ItemType> itemData in items)
                weights.Add(itemData.Key / totalWeight, itemData.Value);
        }
    }
}

I've created a template class here, to allow the caller to provide us with any type of item (so long as they are all the same). That's what the <ItemType> bit is on the end of the class name - it's the same syntax behind the List class:

List<TreasureReward> rewards = new List<TreasureReward>() {
    TreasureReward.FromFile("./treasure/coolsword.txt"),
    TreasureReward.FromFile("./treasure/healthpotion.txt"),
    TreasureReward.FromFile("./treasure/fancyring.txt"),
};

Next, let's go through that constructor bit by bit. First, we make sure that we actually have some weights in the first place:

if(items.Count == 0)
    throw new ArgumentException("Error: The items dictionary provided is empty!");

Then, it's more Linq to the rescue in calculating the total of the weights we've been provided with:

double totalWeight = items.Keys.Aggregate((double a, double b) => a + b);

Finally, we loop over each of the items in the provided dictionary, dividing them by the sum of the weights and adding them to our internal dictionary of normalised weights.

foreach(KeyValuePair<double, ItemType> itemData in items)
    weights.Add(itemData.Key / totalWeight, itemData.Value);

Now that we've got our items loaded and the weights normalised, we can start picking things from our dictionary. For this part, I devised a sort of 'sliding window' algorithm to work out which item to pick. It's best explained through a series of whiteboard images:

Basically, I have 2 variables: lower and higher. When I loop over each of the weights, I do the following things:

1. Add the current normalised weight to higher
2. Check if the target is between lower and higher a. If it is, then return the current item b. If not, then keep going
3. Bring lower up to the same value as higher
4. Loop around again until we find the weight in which the target lies.

With that in mind, here's the code I cooked up:

/// <summary>
/// Picks a new random item from the list provided at initialisation, based
/// on the weights assigned to them.
/// </summary>
/// <returns>A random item, picked according to the assigned weights.</returns>
public ItemType Next()
{
    double target = rand.NextDouble();

    double lower = 0;
    double higher = 0;
    foreach(KeyValuePair<double, ItemType> weightData in weights)
    {
        higher += weightData.Key;
        if(target >= lower && target <= higher)
            return weightData.Value;
        lower += weightData.Key;
    }

    throw new Exception($"Error: Unable to find the weight that matches {target}");
}

That pretty much completes the class. While it seems daunting at first, it's actually quite easy once you get your head around it. Personally, I find whiteboards very useful in that regard! Here's the completed class:

(License: MPL-2.0)

Found this interesting? Got stuck? Have a suggestion for another cool algorithm I could implement? Comment below!