tvl-depot/users/wpcarro/scratch/blockchain/main.py
William Carroll 9098920f0a feat(wpcarro/scratch): create a proof-of-concept blockchain server
> You cannot get educated by this self-propagating system in which people study
> to pass exams, and teach others to pass exams, but nobody knows anything.  You
> learn something by doing it yourself, by asking questions, by thinking, and by
> experimenting.
> - Richard Feynman

In the spirit of learning by doing, I decided to implement a simple blockchain
server. More work remains, but I'm tired after working on this for ~2-3h. I'd
like to reimplement this from memory using a statically typed language like
Haskell. I'd also like to implement node
discovery (https://en.bitcoin.it/wiki/Satoshi_Client_Node_Discovery) because
that is still something I don't quite understand. But I'm signing-off for
now...

Change-Id: I74f424e7f52ffbf81eaad420d7d5205da66d33b5
Reviewed-on: https://cl.tvl.fyi/c/depot/+/4802
Tested-by: BuildkiteCI
Reviewed-by: wpcarro <wpcarro@gmail.com>
Autosubmit: wpcarro <wpcarro@gmail.com>
2022-01-08 06:00:26 +00:00

263 lines
7.6 KiB
Python

from flask import Flask, jsonify, request
from hashlib import sha256
from datetime import datetime
from urllib.parse import urlparse
import json
import requests
import uuid
################################################################################
# Helper Functions
################################################################################
def hash(x):
return sha256(x).hexdigest()
def is_pow_valid(guess, prev_proof):
"""
Return true if the hash of `guess` + `prev_proof` has 4x leading zeros.
"""
return hash(str(guess + prev_proof).encode("utf8"))[:4] == "0000"
################################################################################
# Classes
################################################################################
class Node(object):
def __init__(self, host="0.0.0.0", port=8000):
self.app = Flask(__name__)
self.define_api()
self.identifier = str(uuid.uuid4())
self.blockchain = Blockchain()
self.neighbors = set()
def add_neighbors(self, urls=None):
for url in urls:
parsed = urlparse(url)
if not parsed.netloc:
raise ValueError("Must pass valid URLs for neighbors")
self.neighbors.add(parsed.netloc)
def decode_chain(chain_json):
return Blockchain(
blocks=[
Block(
index=block["index"],
ts=block["ts"],
transactions=[
Transaction(
origin=tx["origin"],
target=tx["target"],
amount=tx["amount"])
for tx in block["ts"]
],
proof=block["proof"],
prev_hash=block["prev_hash"])
for block in chain_json["blocks"]
],
transactions=[
Transaction(
origin=tx["origin"],
target=tx["target"],
amount=tx["amount"])
for tx in chain_json["transactions"]
])
def resolve_conflicts(self):
auth_chain, auth_length = self.blockchain, len(self.blockchain)
for neighbor in self.neighbors:
res = requests.get(f"http://{neighbor}/chain")
if res.status_code == 200 and res.json()["length"] > auth_length:
decoded_chain = decode_chain(res.json()["chain"])
if Blockchain.is_valid(decoded_chain):
auth_length = res.json()["length"]
auth_chain = decoded_chain
self.blockchain = auth_chain
def define_api(self):
def msg(x):
return jsonify({"message": x})
############################################################################
# /
############################################################################
@self.app.route("/healthz", methods={"GET"})
def healthz():
return "ok"
@self.app.route("/reset", methods={"GET"})
def reset():
self.blockchain = Blockchain()
return msg("Success")
@self.app.route("/mine", methods={"GET"})
def mine():
# calculate POW
proof = self.blockchain.prove_work()
# reward miner
self.blockchain.add_transaction(
origin="0", # zero signifies that this is a newly minted coin
target=self.identifier,
amount=1)
# publish new block
self.blockchain.add_block(proof=proof)
return msg("Success")
############################################################################
# /transactions
############################################################################
@self.app.route("/transactions/new", methods={"POST"})
def new_transaction():
payload = request.get_json()
self.blockchain.add_transaction(
origin=payload["origin"],
target=payload["target"],
amount=payload["amount"])
return msg("Success")
############################################################################
# /blocks
############################################################################
@self.app.route("/chain", methods={"GET"})
def view_blocks():
return jsonify({
"length": len(self.blockchain),
"chain": self.blockchain.dictify(),
})
############################################################################
# /nodes
############################################################################
@self.app.route("/node/neighbors", methods={"GET"})
def view_neighbors():
return jsonify({"neighbors": list(self.neighbors)})
@self.app.route("/node/register", methods={"POST"})
def register_nodes():
payload = request.get_json()["neighbors"]
payload = set(payload) if payload else set()
self.add_neighbors(payload)
return msg("Success")
@self.app.route("/node/resolve", methods={"GET"})
def resolve_nodes():
self.resolve_conflicts()
return msg("Success")
def run(self):
self.app.run(host="0.0.0.0", port=8000)
class Blockchain(object):
def __init__(self, blocks=None, transactions=None):
self.blocks = blocks or []
self.transactions = transactions or []
self.add_block()
def __len__(self):
return len(self.blocks)
def __iter__(self):
for block in self.blocks:
yield block
def prove_work(self):
guess, prev_proof = 0, self.blocks[-1].proof or 0
while not is_pow_valid(guess, prev_proof):
guess += 1
return guess
def add_block(self, prev_hash=None, proof=None):
b = Block(
index=len(self),
transactions=self.transactions,
prev_hash=self.blocks[-1].hash() if self.blocks else None,
proof=proof)
self.blocks.append(b)
return b
def adopt_blocks(self, json_blocks):
pass
def add_transaction(self, origin=None, target=None, amount=None):
tx = Transaction(origin=origin, target=target, amount=amount)
self.transactions.append(tx)
@staticmethod
def is_valid(chain):
prev_block = next(chain)
for block in chain:
if block.prev_hash != prev_block.hash() or not is_pow_valid(prev_block.proof, block.proof):
return False
prev_block = block
return True
def dictify(self):
return {
"blocks": [block.dictify() for block in self.blocks],
"transactions": [tx.dictify() for tx in self.transactions],
}
class Block(object):
def __init__(self, index=None, ts=None, transactions=None, proof=None, prev_hash=None):
self.index = index
self.ts = ts or str(datetime.now())
self.transactions = transactions
self.proof = proof
self.prev_hash = prev_hash
def hash(self):
return sha256(self.jsonify().encode()).hexdigest()
def dictify(self):
return {
"index": self.index,
"ts": self.ts,
"transactions": [tx.dictify() for tx in self.transactions],
"proof": self.proof,
"prev_hash": self.prev_hash,
}
def jsonify(self):
return json.dumps(self.dictify(), sort_keys=True)
class Transaction(object):
def __init__(self, origin=None, target=None, amount=None):
if None in {origin, target, amount}:
raise ValueError("To create a Transaction, you must provide origin, target, and amount")
self.origin = origin
self.target = target
self.amount = amount
def dictify(self):
return {
"origin": self.origin,
"target": self.target,
"amount": self.amount,
}
def jsonify(self):
return json.dumps(self.dictify(), sort_keys=True)
################################################################################
# Main
################################################################################
def run():
Node(host="0.0.0.0", port=8000).run()
if __name__ == "__main__":
run()