+++ title = "Gradecoin" sort_by = "weight" +++ # Welcome to Gradecoin! Blockchains are incredibly simple yet can appear very complicated, we will see how they work and practice programming _production_ cryptography code. This server is the sandbox for the PA1, it's currently running the Gradecoin application. Gradecoin is the faux currency we will use to simulate a blockchain network. At the end of the simulation, the amount of Gradecoin you hold will be your PA1 grade. **A quick summary**: authenticate yourself to the system using public key encryption. Craft [Transaction](@/transaction_docs.md) proposals and tag them using [JWTs](@/JWT.md). When there are enough transactions then you can propose [Blocks](@/block_docs.md) in the same way. Blocks need to be _mined_ beforehand using Proof-of-work, or brute force. Gradecoin offers 3 endpoints at [/register](/register), [/block](/block) and [/transaction](/transaction). You can only send GET requests to /block and /transaction without authorization. The server is programmed in [RESTful](https://www.service-architecture.com/articles/web-services/representational_state_transfer_rest.html) architecture, there are no `DELETE`, `PUT` or `UPDATE` operations, though. Gradecoin uses a Proof-of-work block accepting mechanism. It uses single round [Blake2s](https://www.blake2.net/) hashing which produces 256-bit (64 hexadecimal characters) output. The [target](https://wiki.bitcoinsv.io/index.php/Target) hash is _24 bits_ or _6 hexadecimal characters_ of 0. During testing, I could mine a block on average around 2-7 minutes. > We're expecting you to use existing tools and implementations. Standards are hard. [Don't roll your own crypto](https://www.reddit.com/r/crypto/comments/2coqsy/dont_roll_your_own/). Feel free to ask questions. Collaborate. You might ask, > But if nobody has any Gradecoin then how do we have transactions? There is a bank! Their public key is `31415926535897932384626433832795028841971693993751058209749445923` and they have some amount of Gradecoin preloaded. It's also the only account that you can send transactions requests _to_ yourself. # Coinbase The first transactions of a block is called the `coinbase`. They are the **author** of the block proposal and if the block is accepted then they get compensated for their efforts with some Gradecoin. # Public Key Signatures Gradecoin uses 2048 bit RSA keyspairs. # Services ## /register - Student creates their own 2048 bit RSA `keypair` - Downloads `Gradecoin`'s Public Key from [Moodle](https://odtuclass.metu.edu.tr/my/) - Encrypts their JSON wrapped `Public Key`, `Student ID` and one time `passwd` using Gradecoin's Public Key - Their public key is now in our database and can be used to sign their JWT's during requests ## /transaction - You can offer a [Transaction](/transaction) - POST request - The request should have `Authorization` - The request header should be signed by the Public Key of the `by` field in the transaction - fetch the list of `Transaction`s - GET request ## /block - offer a [`schema::Block`] - POST request - The request should have `Authorization` - The [`schema::Block::transaction_list`] of the block should be a subset of [`schema::Db::pending_transactions`] - fetch the last accepted [`schema::Block`] - GET request `Authorization`: The request header should have Bearer JWT.Token signed with Student Public Key # Questions ## This all sound complicated! - I've drawn inspiration from [actual Bitcoin transactions](https://explorer.bitcoin.com/btc) and [warp](https://github.com/seanmonstar/warp/blob/master/examples/todos.rs). The simplicity of the system is how little interfaces it has. - Don't know where to start? Gradecoin uses RESTful API; simple `curl` commands or even your browser will work! [This website can help as well](https://curl.trillworks.com/). - [JWT Debugger](https://jwt.io) and the corresponding [RFC](https://tools.ietf.org/html/rfc7519) - Remember that you are absolutely encouraged to grab off-the-shelf implementations for every cryptography primitive you will use. You can start by finding a code snippet to generate a RSA keypair? ## I found a bug! Thank you! Please [let me know](mailto:yigit@ceng.metu.edu.tr) so we can solve it. ## I hacked the server! That wasn't supposed to happen :( I did not place any intentional vulnerabilities to the system so if you cracked something, it was not intended. Please don't abuse it and let me know so I can patch it. ## Submission? At the end of the _simulation_, your Gradecoin balance will be your grade. I will also expect a unique client programmed in either; - c - c++ - perl - rust - python - random assortment of bash scripts If your favourite programming language is missing please let me know 🤷? ## Can my friends play? Sadly, no. Student's who are enrolled to the class will receive one-time-passwords for authentication. ## How and or Why? - [Built](https://xkcd.com/2314/), with [Rust](https://xkcd.com/2418/)