Learn Blockchains by Building One

Daniel Flymen Daniel Flymen
February 15, 2019 FinTech

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The fastest way to learn how Blockchains work is to build one

You’re here because, like me, you’re psyched about the rise of Cryptocurrencies. And you want to know how Blockchains work—the fundamental technology behind them.

But understanding Blockchains isn’t easy—or at least wasn’t for me. I trudged through dense videos, followed porous tutorials, and dealt with the amplified frustration of too few examples.

I like learning by doing. It forces me to deal with the subject matter at a code level, which gets it sticking. If you do the same, at the end of this guide you’ll have a functioning Blockchain with a solid grasp of how they work.

Before you get started…

Remember that a blockchain is an immutable, sequential chain of records called Blocks. They can contain transactions, files or any data you like, really. But the important thing is that they’re chained together using hashes.

If you aren’t sure what a hash is, here’s an explanation.

Who is this guide aimed at? You should be comfy reading and writing some basic Python, as well as have some understanding of how HTTP requests work, since we’ll be talking to our Blockchain over HTTP.

What do I need? Make sure that Python 3.6+ (along with pip) is installed. You’ll also need to install Flask and the wonderful Requests library:

pip install Flask==0.12.2 requests==2.18.4 

Oh, you’ll also need an HTTP Client, like Postman or cURL. But anything will do.

Where’s the final code? The source code is available here.


Step 1: Building a Blockchain

Open up your favourite text editor or IDE, personally I ❤️ PyCharm. Create a new file, called blockchain.py. We’ll only use a single file, but if you get lost, you can always refer to the source code.

Representing a Blockchain

We’ll create a Blockchain class whose constructor creates an initial empty list (to store our blockchain), and another to store transactions. Here’s the blueprint for our class:

experfy-blog

Blueprint of our Blockchain Class

Our Blockchain class is responsible for managing the chain. It will store transactions and have some helper methods for adding new blocks to the chain. Let’s start fleshing out some methods.

What does a Block look like?

Each Block has an index, a timestamp (in Unix time), a list of transactions, a proof (more on that later), and the hash of the previous Block.

Here’s an example of what a single Block looks like:

experfy-blog

Example of a Block in our Blockchain

At this point, the idea of a chain should be apparent—each new block contains within itself, the hash of the previous Block. This is crucial because it’s what gives blockchains immutability: If an attacker corrupted an earlier Block in the chain then all subsequent blocks will contain incorrect hashes.

Does this make sense? If it doesn’t, take some time to let it sink in—it’s the core idea behind blockchains.

Adding Transactions to a Block

We’ll need a way of adding transactions to a Block. Our new_transaction()method is responsible for this, and it’s pretty straight-forward:

experfy-blog

After new_transaction() adds a transaction to the list, it returns the index of the block which the transaction will be added to—the next one to be mined.This will be useful later on, to the user submitting the transaction.

Creating new Blocks

When our Blockchain is instantiated we’ll need to seed it with a genesis block—a block with no predecessors. We’ll also need to add a “proof” to our genesis block which is the result of mining (or proof of work). We’ll talk more about mining later.

In addition to creating the genesis block in our constructor, we’ll also flesh out the methods for new_block(), new_transaction() and hash():

experfy-blogexperfy-blogexperfy-blogexperfy-blog

The above should be straight-forward—I’ve added some comments and docstrings to help keep it clear. We’re almost done with representing our blockchain. But at this point, you must be wondering how new blocks are created, forged or mined.

Understanding Proof of Work

A Proof of Work algorithm (PoW) is how new Blocks are created or mined on the blockchain. The goal of PoW is to discover a number which solves a problem. The number must be difficult to find but easy to verify—computationally speaking—by anyone on the network. This is the core idea behind Proof of Work.

We’ll look at a very simple example to help this sink in.

Let’s decide that the hash of some integer x multiplied by another y must end in 0. So, hash(x * y) = ac23dc...0. And for this simplified example, let’s fix x = 5. Implementing this in Python:

from hashlib import sha256
x = 5
y = 0  # We don't know what y should be yet...
while sha256(f'{x*y}'.encode()).hexdigest()[-1] != "0":
y += 1
print(f'The solution is y = {y}')

The solution here is y = 21. Since, the produced hash ends in 0:

hash(5 * 21) = 1253e9373e...5e3600155e860

In Bitcoin, the Proof of Work algorithm is called Hashcash. And it’s not too different from our basic example above. It’s the algorithm that miners race to solve in order to create a new block. In general, the difficulty is determined by the number of characters searched for in a string. The miners are then rewarded for their solution by receiving a coin—in a transaction.

The network is able to easily verify their solution.

Implementing basic Proof of Work

Let’s implement a similar algorithm for our blockchain. Our rule will be similar to the example above:

Find a number p that when hashed with the previous block’s solution a hash with 4 leading 0s is produced.

experfy-blogexperfy-blogexperfy-blog

To adjust the difficulty of the algorithm, we could modify the number of leading zeroes. But 4 is sufficient. You’ll find out that the addition of a single leading zero makes a mammoth difference to the time required to find a solution.

Our class is almost complete and we’re ready to begin interacting with it using HTTP requests.


Step 2: Our Blockchain as an API

We’re going to use the Python Flask Framework. It’s a micro-framework and it makes it easy to map endpoints to Python functions. This allows us talk to our blockchain over the web using HTTP requests.

We’ll create three methods:

  • /transactions/new to create a new transaction to a block
  • /mine to tell our server to mine a new block.
  • /chain to return the full Blockchain.

Setting up Flask

Our “server” will form a single node in our blockchain network. Let’s create some boilerplate code:

experfy-blogexperfy-blogexperfy-blog

A brief explanation of what we’ve added above:

  • Line 15: Instantiates our Node. Read more about Flask here.
  • Line 18: Create a random name for our node.
  • Line 21: Instantiate our Blockchain class.
  • Line 24–26: Create the /mine endpoint, which is a GET request.
  • Line 28–30: Create the /transactions/new endpoint, which is a POSTrequest, since we’ll be sending data to it.
  • Line 32–38: Create the /chain endpoint, which returns the full Blockchain.
  • Line 40–41: Runs the server on port 5000.

The Transactions Endpoint

This is what the request for a transaction will look like. It’s what the user sends to the server:

{
"sender": "my address",
"recipient": "someone else's address",
"amount": 5
}

Since we already have our class method for adding transactions to a block, the rest is easy. Let’s write the function for adding transactions:

experfy-blogexperfy-blog

A method for creating Transactions

The Mining Endpoint

Our mining endpoint is where the magic happens, and it’s easy. It has to do three things:

  1. Calculate the Proof of Work
  2. Reward the miner (us) by adding a transaction granting us 1 coin
  3. Forge the new Block by adding it to the chain

experfy-blogexperfy-blog

Note that the recipient of the mined block is the address of our node. And most of what we’ve done here is just interact with the methods on our Blockchain class. At this point, we’re done, and can start interacting with our blockchain.

Step 3: Interacting with our Blockchain

You can use plain old cURL or Postman to interact with our API over a network.

Fire up the server:

$ python blockchain.py
* Running on http://127.0.0.1:5000/ (Press CTRL+C to quit)

Let’s try mining a block by making a GET request to http://localhost:5000/mine:

Using Postman to make a GET request

Let’s create a new transaction by making a POST request tohttp://localhost:5000/transactions/new with a body containing our transaction structure:

Using Postman to make a POST request

If you aren’t using Postman, then you can make the equivalent request using cURL:

$ curl -X POST -H "Content-Type: application/json" -d '{
"sender": "d4ee26eee15148ee92c6cd394edd974e",
"recipient": "someone-other-address",
"amount": 5
}' "http://localhost:5000/transactions/new"

I restarted my server, and mined two blocks, to give 3 in total. Let’s inspect the full chain by requesting http://localhost:5000/chain:

{
  "chain": [
    {
      "index": 1,
      "previous_hash": 1,
      "proof": 100,
      "timestamp": 1506280650.770839,
      "transactions": []
    },
    {
      "index": 2,
      "previous_hash": "c099bc…bfb7",
      "proof": 35293,
      "timestamp": 1506280664.717925,
      "transactions": [
        {
          "amount": 1,
          "recipient": "8bbcb347e0634905b0cac7955bae152b",
          "sender": "0"
        }
      ]
    },
    {
      "index": 3,
      "previous_hash": "eff91a…10f2",
      "proof": 35089,
      "timestamp": 1506280666.1086972,
      "transactions": [
        {
          "amount": 1,
          "recipient": "8bbcb347e0634905b0cac7955bae152b",
          "sender": "0"
        }
      ]
    }
  ],
  "length": 3
}

Step 4: Consensus

This is very cool. We’ve got a basic Blockchain that accepts transactions and allows us to mine new Blocks. But the whole point of Blockchains is that they should be decentralized. And if they’re decentralized, how on earth do we ensure that they all reflect the same chain? This is called the problem of Consensus, and we’ll have to implement a Consensus Algorithm if we want more than one node in our network.

Registering new Nodes

Before we can implement a Consensus Algorithm, we need a way to let a node know about neighbouring nodes on the network. Each node on our network should keep a registry of other nodes on the network. Thus, we’ll need some more endpoints:

  1. /nodes/register to accept a list of new nodes in the form of URLs.
  2. /nodes/resolve to implement our Consensus Algorithm, which resolves any conflicts—to ensure a node has the correct chain.

We’ll need to modify our Blockchain’s constructor and provide a method for registering nodes:

experfy-blog

A method for adding neighbouring nodes to our Network

Note that we’ve used a set() to hold the list of nodes. This is a cheap way of ensuring that the addition of new nodes is idempotent—meaning that no matter how many times we add a specific node, it appears exactly once.

Implementing the Consensus Algorithm

As mentioned, a conflict is when one node has a different chain to another node. To resolve this, we’ll make the rule that the longest valid chain is authoritative. In other words, the longest chain on the network is the de-factoone. Using this algorithm, we reach Consensus amongst the nodes in our network.

experfy-blogexperfy-blogexperfy-blog 

The first method valid_chain() is responsible for checking if a chain is valid by looping through each block and verifying both the hash and the proof.

resolve_conflicts() is a method which loops through all our neighbouring nodes, downloads their chains and verifies them using the above method. If a valid chain is found, whose length is greater than ours, we replace ours.

Let’s register the two endpoints to our API, one for adding neighbouring nodes and the another for resolving conflicts:

experfy-blogexperfy-blog

At this point you can grab a different machine if you like, and spin up different nodes on your network. Or spin up processes using different ports on the same machine. I spun up another node on my machine, on a different port, and registered it with my current node. Thus, I have two nodes: http://localhost:5000 and http://localhost:5001.

Registering a new Node

I then mined some new Blocks on node 2, to ensure the chain was longer. Afterward, I called GET /nodes/resolve on node 1, where the chain was replaced by the Consensus Algorithm:

Consensus Algorithm at Work

And that’s a wrap… Go get some friends together to help test out your Blockchain.


I hope that this has inspired you to create something new. I’m ecstatic about Cryptocurrencies because I believe that Blockchains will rapidly change the way we think about economies, governments and record-keeping.

Update: I’m planning on following up with a Part 2, where we’ll extend our Blockchain to have a Transaction Validation Mechanism as well as discuss some ways in which you can productionize your Blockchain.

First appeared in Hackernoon

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