I'm currently involved in developing a product (developed in C#) that'll be available for downloading and installing for free but in a very limited version. To get access to all the features the user has to pay a license fee and receive a key. That key will then be entered into the application to "unlock" the full version.

As using a license key like that is kind of usual I'm wondering :

  1. How's that usually solved?
  2. How can I generate the key and how can it be validated by the application?
  3. How can I also avoid having a key getting published on the Internet and used by others that haven't paid the license (a key that basically isn't "theirs").

I guess I should also tie the key to the version of application somehow so it'll be possible to charge for new keys in feature versions.

Anything else I should think about in this scenario?


15 Answers 15


Caveat: you can't prevent users from pirating, but only make it easier for honest users to do the right thing.

Assuming you don't want to do a special build for each user, then:

  • Generate yourself a secret key for the product
  • Take the user's name
  • Concatentate the users name and the secret key and hash with (for example) SHA1
  • Unpack the SHA1 hash as an alphanumeric string. This is the individual user's "Product Key"
  • Within the program, do the same hash, and compare with the product key. If equal, OK.

But, I repeat: this won't prevent piracy

I have recently read that this approach is not cryptographically very sound. But this solution is already weak (as the software itself has to include the secret key somewhere), so I don't think this discovery invalidates the solution as far as it goes.

Just thought I really ought to mention this, though; if you're planning to derive something else from this, beware.

  • 20
    if the program includes the secret key (as implied by the steps above), cracking it is trivial Dec 8, 2010 at 14:49
  • 2
    edited to be more obvious; cannot over-emphasize something that fundamental ;-) Dec 10, 2010 at 15:09
  • 36
    Use an asymmetric cryptographic method (such as RSA) for generating and decoding the product key to avoid embedding the secret in the code. Jun 19, 2012 at 6:43
  • 12
    I would think that by the time someone is hacking your code (possibly at the assembly level) to find your secret key, they are probably also at the level that they can just bypass your checks entirely. I don't think there's a method of registration so secure that it can survive a good hacker running the program locally. As the original comment said, it's really all about anything that makes it one step harder than simply copying the file. A lot of games these days have given up on copy protection and simply take the game content online, in which case the code is out of the hacker's hands.
    – JamieB
    Dec 4, 2012 at 22:56
  • 3
    @Brent.Longborough Only the author (or party which is generating licence keys) has it. Look up asymmetric cryptography.
    – Luke
    Jul 18, 2019 at 19:00

There are many ways to generate license keys, but very few of those ways are truly secure. And it's a pity, because for companies, license keys have almost the same value as real cash.

Ideally, you would want your license keys to have the following properties:

  1. Only your company should be able to generate license keys for your products, even if someone completely reverse engineers your products (which WILL happen, I speak from experience). Obfuscating the algorithm or hiding an encryption key within your software is really out of the question if you are serious about controlling licensing. If your product is successful, someone will make a key generator in a matter of days from release.

  2. A license key should be useable on only one computer (or at least you should be able to control this very tightly)

  3. A license key should be short and easy to type or dictate over the phone. You don't want every customer calling the technical support because they don't understand if the key contains a "l" or a "1". Your support department would thank you for this, and you will have lower costs in this area.

So how do you solve these challenges ?

  1. The answer is simple but technically challenging: digital signatures using public key cryptography. Your license keys should be in fact signed "documents", containing some useful data, signed with your company's private key. The signatures should be part of the license key. The product should validate the license keys with the corresponding public key. This way, even if someone has full access to your product's logic, they cannot generate license keys because they don't have the private key. A license key would look like this: BASE32(CONCAT(DATA, PRIVATE_KEY_ENCRYPTED(HASH(DATA)))) The biggest challenge here is that the classical public key algorithms have large signature sizes. RSA512 has an 1024-bit signature. You don't want your license keys to have hundreds of characters. One of the most powerful approaches is to use elliptic curve cryptography (with careful implementations to avoid the existing patents). ECC keys are like 6 times shorter than RSA keys, for the same strength. You can further reduce the signature sizes using algorithms like the Schnorr digital signature algorithm (patent expired in 2008 - good :) )

  2. This is achievable by product activation (Windows is a good example). Basically, for a customer with a valid license key, you need to generate some "activation data" which is a signed message embedding the computer's hardware id as the signed data. This is usually done over the internet, but only ONCE: the product sends the license key and the computer hardware id to an activation server, and the activation server sends back the signed message (which can also be made short and easy to dictate over the phone). From that moment on, the product does not check the license key at startup, but the activation data, which needs the computer to be the same in order to validate (otherwise, the DATA would be different and the digital signature would not validate). Note that the activation data checking do not require verification over the Internet: it is sufficient to verify the digital signature of the activation data with the public key already embedded in the product.

  3. Well, just eliminate redundant characters like "1", "l", "0", "o" from your keys. Split the license key string into groups of characters.

  • 12
    Couldn't they just edit the software adding/removing code such that the check is skipped totally?
    – Pacerier
    Nov 13, 2014 at 18:55
  • 5
    I would like to point out how vastly superior this answer is to the other hashy thing. Feb 27, 2019 at 22:50
  • 7
    It's worth noting that even with assymetric cryptography private/public keys, it's still possible to generate fake licenses, by simply replacing the public key shipped in the software with another public key, and using its corresponding private key for signing the fake license. This is why we have and need trusted Certificate Authorities BTW, who bind public keys to identities. So while this might add one more hoop to jump through, it doesn't by itself guarantee #1.
    – Saeb Amini
    Dec 14, 2019 at 5:31
  • 2
    @Saeb Amini, trusted Certificate Authorities would secure the public key only the user would not have ability to add new certificates to the store. The hacker could register his certificate as trusted CA, replace the public key in the program with the one signed by his certificate. This makes the hacking just a little bit harder. Jun 16, 2021 at 7:40
  • 2
    @Pacerier I think the benefit of having a secure license key vs modifying the EXE is that it means the hacker would have to distribute the illicitly modified software instead of just distributing the keys they generated themselves. If your EXE is signed that seems like a pretty significant advantage. Sep 9, 2022 at 18:34

Simple answer - No matter what scheme you use it can be cracked.

Don't punish honest customers with a system meant to prevent hackers, as hackers will crack it regardless.

A simple hashed code tied to their email or similar is probably good enough. Hardware based IDs always become an issue when people need to reinstall or update hardware.

Good thread on the issue: http://discuss.joelonsoftware.com/default.asp?biz.5.82298.34

  • 5
    agreed, you don't want to upset the users that are actually purchasing your product! (pay heed m$, apple, etc...)
    – Jason
    Mar 1, 2009 at 15:02
  • 4
    MS, Apple, etc can get away with it as they are big and provide core products that is hard to get elsewhere or have a large market shadow they can use to force people. The small dev can't.
    – schooner
    Mar 1, 2009 at 15:38
  • 6
    a pub/priv key signing scheme cannot be "cracked" to produce new valid keys for users who want to run signed code downloaded from the publishers site, instead of cracked software. whereas a hash/symmetric scheme can be cracked to produce new valid license keys indistinguishable from invalid ones. Huge difference. Mar 18, 2019 at 15:16
  • 2
    Thread link is now dead. Here is archived version -> web.archive.org/web/20181006064951/http://…
    – Tim Holt
    Jan 28, 2021 at 22:51

When generating the key, don't forget to concatenate the version and build number to the string you calculate the hash on. That way there won't be a single key that unlocks all everything you ever released.

After you find some keys or patches floating in astalavista.box.sk you'll know that you succeeded in making something popular enough that somebody bothered to crack. Rejoice!

  • 13
    "don't forget to concatenate the version and build number to the string you calculate the hash on" - but won't that make the key break when the user updates to a minor patch release?
    – thomthom
    Sep 24, 2015 at 22:17
  • 5
    @thomthom How about then to associate a maximum version to a key? The version idea itself is plausible and adds more security Oct 27, 2015 at 7:05
  • 2
    @MarvinThobejane to associate a max ver you can sign the max ver allowed, and have the code iterate it's version a bit. but no >= ops allowed in sigs. Feb 27, 2019 at 22:52
  • 1
    For expensive software, they just send you a new license file every six months when they send out the upgrade announcement.
    – Rick
    May 5, 2021 at 13:31

I'm one of the developers behind the Cryptolens software licensing platform and have been working on licensing systems since the age of 14. In this answer, I have included some tips based on experience acquired over the years.

The best way of solving this is by setting up a license key server that each instance of the application will call in order to verify a license key.

Benefits of a license key server

The advantages with a license key server is that:

  1. you can always update or block a license key with immediate effect.
  2. each license key can be locked to certain number of machines (this helps to prevent users from publishing the license key online for others to use).


Although verifying licenses online gives you more control over each instance of the application, internet connection is not always present (especially if you target larger enterprises), so we need another way of performing the license key verification.

The solution is to always sign the license key response from the server using a public-key cryptosystem such as RSA or ECC (possibly better if you plan to run on embedded systems). Your application should only have the public key to verify the license key response.

So in case there's no internet connection, you can use the previous license key response instead. Make sure to store both the date and the machine identifier in the response and check that it's not too old (eg. you allow users to be offline at most 30 days, etc) and that the license key response belongs to the correct device.

Note you should always check the certificate of license key response, even if you are connected to the internet), in order to ensure that it has not been changed since it left the server (this still has to be done even if your API to the license key server uses https)

Protecting secret algorithms

Most .NET applications can be reverse engineered quite easily (there is both a diassembler provided by Microsoft to get the IL code and some commercial products can even retrieve the source code in eg. C#). Of course, you can always obfuscate the code, but it's never 100% secure.

I most cases, the purpose of any software licensing solution is to help honest people being honest (i.e. that honest users who are willing to pay don't forget to pay after a trial expires, etc).

However, you may still have some code that you by no means want to leak out to the public (eg. an algorithm to predict stock prices, etc). In this case, the only way to go is to create an API endpoint that your application will call each time the method should be executed. It requires internet connection but it ensures that your secret code is never executed by the client machine.


If you don't want to implement everything yourself, I would recommend to take a look at this tutorial (part of Cryptolens)

  • 1
    One question about restricting the saved license key to not being too old: Since the PC might not be connected to the internet, their date and time can always be changed back to stay on the same valid date? May 8, 2020 at 17:33
  • Can't users bypass the online license server by defining a loopback host in Windows? I've seen many applications being pirated like that, Resharper and Matlab being the ones that I can remember. May 8, 2020 at 17:35
  • 2
    @AmirMahdiNassiri For question 1: If the PC is permanently offline, you could use a real-time clock (RTC) dongle as a trusted source for time. For question 2: Since the response is signed with vendor's private key (and verified with the public key inside the application), an adversary would need to re-sign the file without knowing the private key,which, at the time of writing, is not possible with 2048bit RSA keys.
    – Artem
    May 10, 2020 at 12:56
  • @Artem The public key is part of the application binary? Is it possible that it may be swapped out for another public key and just make a feign license server with the corresponding private key?
    – huggie
    Aug 4, 2022 at 3:23
  • 1
    @huggie That's right, the public key is part of the application binary. You are right that it can be swapped by an adversary. To prevent this, I would recommend to obfuscate the application. This will make it difficult but not impossible for an adversary to swap the public key. For sensitive code, I would recommend to expose it through an API endpoint that the application can access.
    – Artem
    Aug 5, 2022 at 13:25

Besides what has already been stated....

Any use of .NET applications are inherently breakable because of the intermediate language issues. A simple disassembly of the .NET code will open your product to anyone. They can easily bypass your licensing code at that point.

You can't even use hardware values to create a key anymore. Virtual machines now allow someone to create an image of a 'licensed' machine and run it on any platform they choose.

If it's expensive software there are other solutions. If it's not, just make it difficult enough for the casual hacker. And accept the fact that there will be unlicensed copies out there eventually.

If your product is complicated, the inherent support issues will be create some protection for you.

  • 11
    +1 for preventing weakness on Hardware values because of Virtual Machines. Jan 2, 2012 at 16:36
  • 3
    That's what strong-naming for .NET and Authenticode for PE signing is for. If someone has decompiled, modified and rebuilt your library it won't be signed and the application will simply not run. The .NET virtual machine won't allow it. Jul 30, 2015 at 0:01
  • 2
    Signing is for validating the origin of the program you will run. If the user dont care about the origin because he know it is modified and cracked, the cracker would strip out the signature, or even sign it with his own signature. Signing does stop mixing trustable assemblies with untrustable assemblies. Feb 19, 2016 at 18:37
  • a mobile app can be used as a jury-rigged hardware dongle for expensive software.... just pay using the app, and embed a signing key in the app's secure element. then you can activate using the desktop + app... deactivating the other desktop. colocating some critical section code areas in the app and/or in online homomorphic computation services can help prevent trivial decompilation. Feb 27, 2019 at 22:57

The C# / .NET engine we use for licence key generation is now maintained as open source:


It's based on a "Partial Key Verification" system which means only a subset of the key that you use to generate the key has to be compiled into your distributable. You create the keys your self, so the licence implementation is unique to your software.

As stated above, if your code can be decompiled, it's relatively easy to circumvent most licencing systems.

  • 1
    Would you be willing to do a tutorial for using this product? I found their wiki a bit lacking. Nov 11, 2014 at 19:29
  • The project has now been open sourced on GitHub if that helps (answer edited with link).
    – gbro3n
    Jan 20, 2015 at 11:36
  • I do not recommend Partial Key Verification. It can be broken and when it breaks, it does so catastrophically (keygen.sh/blog/how-to-generate-license-keys-in-2021). I recommend using secure public key cryptography, like EdDSA or RSA.
    – ezekg
    Apr 3, 2022 at 1:31

I strongly believe, that only public key cryptography based licensing system is the right approach here, because you don't have to include essential information required for license generation into your sourcecode.

In the past, I've used Treek's Licensing Library many times, because it fullfills this requirements and offers really good price. It uses the same license protection for end users and itself and noone cracked that until now. You can also find good tips on the website to avoid piracy and cracking.

  • Would public key cryptography necessitate using an online activation service? I mean, if it's not in the source code (I presume you mean the executable as well), where else could it be?
    – Dan W
    Oct 31, 2015 at 9:21
  • No, you don't have to use online activation service. You can generate license files completely offline. Nov 10, 2015 at 12:24
  • 1
    The key is in the fact, that you're placing only public key to code, which can't be used for license generation. Only for its verification. Nov 10, 2015 at 15:29

I don't know how elaborate you want to get

but i believe that .net can access the hard drive serial number.

you could have the program send you that and something eles ( like user name and mac address of the nic)

you compute a code based off that and email them back the key.

they will keep them from switching machines after they have the key.

  • 6
    And keep them from replacing a dead HD amoung other thigns, leading to frustration. There is no easy answer unfortunately, you need to balance trust with basic licensing mechanicsms.
    – schooner
    Mar 1, 2009 at 17:55
  • Worked many years as a software engineer with a product that used the serial number off the hd, it was completely insecure to those that knew how to update it.
    – oden
    Mar 5, 2016 at 5:18
  • I was implying to use this number with other things (mac address, FQDN ) maybe throw them all in a hash. The point is to make it slightly more difficult to spoof all this data than it is to reverse enginer the software in the first place and remove the check becuase thats always an option.
    – Crash893
    Mar 16, 2016 at 1:05

I've used Crypkey in the past. It's one of many available.

You can only protect software up to a point with any licensing scheme.


You can use a free third party solution to handle this for you such as Quantum-Key.Net It's free and handles payments via paypal through a web sales page it creates for you, key issuing via email and locks key use to a specific computer to prevent piracy.

Your should also take care to obfuscate/encrypt your code or it can easily be reverse engineered using software such as De4dot and .NetReflector. A good free code obfuscator is ConfuserEx wich is fast and simple to use and more effective than expensive alternatives.

You should run your finished software through De4Dot and .NetReflector to reverse-engineer it and see what a cracker would see if they did the same thing and to make sure you have not left any important code exposed or undisguised.

Your software will still be crackable but for the casual cracker it may well be enough to put them off and these simple steps will also prevent your code being extracted and re-used.


How to use ConfuserEx?



  • FWIW, quantum-key.net seems not to be operating anymore. They are not verifying PayPal accounts, nor are the forums accessible. Also, ConfuserEx and de4dot have been archived on GitHub.
    – skst
    Mar 29 at 3:09

The only way to do everything you asked for is to require an internet access and verification with a server. The application needs to sign in to the server with the key, and then you need to store the session details, like the IP address. This will prevent the key from being used on several different machines. This is usually not very popular with the users of the application, and unless this is a very expensive and complicated application it's not worth it.

You could just have a license key for the application, and then check client side if the key is good, but it is easy to distribute this key to other users, and with a decompiler new keys can be generated.

  • 6
    i worked at a company that used an internet based licensing scheme. every time the program started it went online to validate, i think the company spent more $$ on infrastructure and developers for their licensing solution than they would've lost from piracy (they were a niche product).
    – Jason
    Mar 1, 2009 at 15:05
  • 3
    furthemore, the technical support costs were huge. many, MANY times a user would legitmately use another computer to try and run the software but the hash was different which led to massive amounts of tech support. in short, what schooner said - don't punish honest users.
    – Jason
    Mar 1, 2009 at 15:07
  • 1
    It seems your company was a little overzealous by requiring validation on startup every time.
    – jugg1es
    May 12, 2013 at 1:44
  • @Jason, Well, they should up the price of the product.
    – Pacerier
    Nov 13, 2014 at 18:56
  • 2
    @Pacerier: Wrong answer. Nov 23, 2017 at 18:46

I've implemented internet-based one-time activation on my company's software (C# .net) that requires a license key that refers to a license stored in the server's database. The software hits the server with the key and is given license information that is then encrypted locally using an RSA key generated from some variables (a combination of CPUID and other stuff that won't change often) on the client computer and then stores it in the registry.

It requires some server-side coding, but it has worked really well for us and I was able to use the same system when we expanded to browser-based software. It also gives your sales people great info about who, where and when the software is being used. Any licensing system that is only handled locally is fully vulnerable to exploitation, especially with reflection in .NET. But, like everyone else has said, no system is wholly secure.

In my opinion, if you aren't using web-based licensing, there's no real point to protecting the software at all. With the headache that DRM can cause, it's not fair to the users who have actually paid for it to suffer.

  • 1
    But the main problem with web licensing is that the licensing service becomes a prime target for DDoS attacks.. Which either paralyze the service or inflate cloud costs.
    – Tadas S
    Jul 10, 2014 at 16:23
  • 5
    That's like saying that there's no point in having a website because it's vulnerable to DDoS attacks...
    – jugg1es
    Jul 12, 2014 at 17:58
  • @jugg1es Nowhere in his comment did he say "there's no point". He simply pointed out the fact that it's a vulnerability that should be considered. Dec 8, 2014 at 14:39
  • And the checks can still be removed in the client. No check, no webbased licensing...
    – azarai
    Dec 26, 2014 at 16:03
  • 1
    Do you mean actual application code with "required information"? Code that would be necessary to run the app? Otherwise i'd think it will still result in calling isLicensed check methods in ones code.
    – azarai
    Dec 27, 2014 at 17:47

I know this is an old question, but I referenced this when I was re-writing my licensing process for one of my applications.

After reading a lot of opinions out there and relying on past experience with license codes I came up with this process.

public static class LicenseGenerator
    private static string validChars = "ACEFHJKMNPRSTUVWXYZ234579";
    private static Random rnd = new Random(Guid.NewGuid().GetHashCode());

    /// <summary>
    /// Generate a license code
    /// </summary>
    /// <param name="length">length of each phrase</param>
    /// <param name="number">number of phrases separated by a '-'</param>
    /// <returns></returns>
    public static string GetNewCode(int length, int number)
        string license = string.Empty;

        for (int numberOfPhrases = 0; numberOfPhrases < number; numberOfPhrases++)
            license += getPhrase(length);
            if (numberOfPhrases < number)
                license += "-";

        return license.TrimEnd('-');

    /// <summary>
    /// generate a phrase
    /// </summary>
    /// <param name="length">length of phrase</param>
    /// <returns></returns>
    private static string getPhrase(int length)
        string phrase = string.Empty;

        for (int loop = 0; loop < length; loop++)
            phrase += validChars[rnd.Next(validChars.Length)];

        return phrase;

You really don't want to provide a code that has similar letters; it makes for a mess when the end user goes to enter it in. Letters like 6 and G, B and 8, L, I, and 1. Of course if you do want them, you can always add them back in... The above code will generate a license like xxxx-xxxx-xxxx-xxxx using the characters in "validChars". Calling GetNewCode(4, 4) will return a code like above.

I'm using Azure functions to register then validate the code. When my app registers the code, it generates an encrypted hash with things that are unique to the install, device and/or user. That is provided to the registration function and is stored with the key in the DB in Azure.

The validate regenerates the key and provides it with the license code, IP address (which in my case will not change and if it does then it will need to be updated anyway), and the regenerated hash then the Azure function returns if the application is licensed. I do store a "temporary" key on their server that allows the app to run for a period of time without talking back up.

Of course, my app must be on the net for it to work regardless.

So, the end result is a simple key for the end user to type in and an easy process to manage the license on the backend. I can also invalidate a license if need be.


I solved it by interfacing my program with a discord server, where it checks in a specific chat if the product key entered by the user exists and is still valid. In this way to receive a product key the user would be forced to hack discord and it is very difficult.

  • This is a terrible idea, don't do this! Besides using Discord as a glorified database, all it takes is a single server/bot misconfiguration or change to Discord's API to completely break or defeat your validation. Also, given that webhooks can't read messages, this method would likely require embedding your client tokens in the program itself, which are extremely easy to intercept. Sure, you could proxy requests to Discord through something like API Gateway or your own server, but at that point, why not just use an actual database? Apr 28, 2021 at 6:27
  • Aside from the completely valid points mentioned by @Hoppeduppeanut A hacker could use something like Fiddler to see the urls that you are requesting on discord then put an entry in the windows hosts file to redirect requests made to discord to their own server or localhost where they've put a copy of the discord page with any product key they want embedded within it.
    – Damo
    Mar 20, 2023 at 11:03

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