Merge pull request #28 from sr-gi/27-zmq-bitcoinrpc-simulators

Created a tinny bitcoind simulator with zmq pub capabilities
2025-12-19 15:14:26 +01:00 · 2019-08-20 11:50:39 +01:00
parent 4e07344652 157456f164
commit 0f214a30c9
6 changed files with 389 additions and 0 deletions
--- a/pisa/tools.py
+++ b/pisa/tools.py
@@ -1,3 +1,4 @@
 import re
 from pisa.utils.authproxy import JSONRPCException
 from pisa.rpc_errors import RPC_INVALID_ADDRESS_OR_KEY
 from http.client import HTTPException
@@ -55,3 +56,7 @@ def in_correct_network(bitcoin_cli, network):
    return correct_network
 def check_txid_format(txid):
    # TODO: #12-check-txid-regexp
    return isinstance(txid, str) and re.search(r'^[0-9A-Fa-f]{64}$', txid) is not None
--- a/tests/simulator/init.py
+++ b/tests/simulator/init.py
--- a/tests/simulator/appointment_test.py
+++ b/tests/simulator/appointment_test.py
@@ -0,0 +1,52 @@
 import os
 import json
 import requests
 import time
 from hashlib import sha256
 from binascii import hexlify, unhexlify
 from apps.cli.blob import Blob
 from pisa import HOST, PORT
 from pisa.utils.authproxy import AuthServiceProxy
 from pisa.conf import BTC_RPC_USER, BTC_RPC_PASSWD, BTC_RPC_HOST, BTC_RPC_PORT
 PISA_API = "http://{}:{}".format(HOST, PORT)
 def generate_dummy_appointment(dispute_txid):
    r = requests.get(url=PISA_API+'/get_block_count', timeout=5)
    current_height = r.json().get("block_count")
    dummy_appointment_data = {"tx": hexlify(os.urandom(32)).decode('utf-8'),
                              "tx_id": dispute_txid, "start_time": current_height + 5,
                              "end_time": current_height + 10, "dispute_delta": 20}
    cipher = "AES-GCM-128"
    hash_function = "SHA256"
    locator = sha256(unhexlify(dummy_appointment_data.get("tx_id"))).hexdigest()
    blob = Blob(dummy_appointment_data.get("tx"), cipher, hash_function)
    encrypted_blob = blob.encrypt((dummy_appointment_data.get("tx_id")), debug=False, logging=False)
    appointment = {"locator": locator, "start_time": dummy_appointment_data.get("start_time"),
                   "end_time": dummy_appointment_data.get("end_time"),
                   "dispute_delta": dummy_appointment_data.get("dispute_delta"),
                   "encrypted_blob": encrypted_blob, "cipher": cipher, "hash_function": hash_function}
    return appointment
 dispute_txid = hexlify(os.urandom(32)).decode('utf-8')
 appointment = generate_dummy_appointment(dispute_txid)
 print("Sending appointment (locator: {}) to PISA".format(appointment.get("locator")))
 r = requests.post(url=PISA_API, json=json.dumps(appointment), timeout=5)
 print(r, r.reason)
 print("Sleeping 10 sec")
 time.sleep(10)
 bitcoin_cli = AuthServiceProxy("http://%s:%s@%s:%d" % (BTC_RPC_USER, BTC_RPC_PASSWD, BTC_RPC_HOST, BTC_RPC_PORT))
 print("Triggering PISA with dispute tx")
 bitcoin_cli.sendrawtransaction(dispute_txid)
--- a/tests/simulator/bitcoin_sim_tests.py
+++ b/tests/simulator/bitcoin_sim_tests.py
@@ -0,0 +1,109 @@
 import os
 import binascii
 from pisa.utils.authproxy import AuthServiceProxy, JSONRPCException
 from pisa.conf import BTC_RPC_USER, BTC_RPC_PASSWD, BTC_RPC_HOST, BTC_RPC_PORT
 from pisa.tools import check_txid_format
 bitcoin_cli = AuthServiceProxy("http://%s:%s@%s:%d" % (BTC_RPC_USER, BTC_RPC_PASSWD, BTC_RPC_HOST, BTC_RPC_PORT))
 # Help should always return 0
 assert(bitcoin_cli.help() == 0)
 # getblockhash should return a blockid (which matches the txid format)
 block_hash = bitcoin_cli.getblockhash(0)
 assert(check_txid_format(block_hash))
 # Check that the values are within range and of the proper format (all should fail)
 values = [-1, 500, None, '', '111', [], 1.1]
 print("getblockhash fails ({}):".format(len(values)))
 for v in values:
    try:
        block_hash = bitcoin_cli.getblockhash(v)
        assert False
    except JSONRPCException as e:
        print('\t{}'.format(e))
 # getblock should return a list of transactions and the height
 block = bitcoin_cli.getblock(block_hash)
 assert(isinstance(block.get('tx'), list))
 assert(len(block.get('tx')) != 0)
 assert(isinstance(block.get('height'), int))
 # Some fails
 values += ["a"*64, binascii.hexlify(os.urandom(32)).decode()]
 print("\ngetblock fails ({}):".format(len(values)))
 for v in values:
    try:
        block = bitcoin_cli.getblock(v)
        assert False
    except JSONRPCException as e:
        print('\t{}'.format(e))
 # decoderawtransaction should only return if the given transaction matches a txid format
 coinbase_tx = block.get('tx')[0]
 tx = bitcoin_cli.decoderawtransaction(coinbase_tx)
 assert(isinstance(tx, dict))
 assert(isinstance(tx.get('txid'), str))
 assert(check_txid_format(tx.get('txid')))
 # Therefore should also work for a random formatted 32-byte hex in our simulation
 random_tx = binascii.hexlify(os.urandom(32)).decode()
 tx = bitcoin_cli.decoderawtransaction(random_tx)
 assert(isinstance(tx, dict))
 assert(isinstance(tx.get('txid'), str))
 assert(check_txid_format(tx.get('txid')))
 # But it should fail for not proper formatted one
 values = [1, None, '', "a"*63, "b"*65, [], binascii.hexlify(os.urandom(31)).hex()]
 print("\ndecoderawtransaction fails ({}):".format(len(values)))
 for v in values:
    try:
        block = bitcoin_cli.decoderawtransaction(v)
        assert False
    except JSONRPCException as e:
        print('\t{}'.format(e))
 # sendrawtransaction should only allow txids that the simulator has not mined yet
 bitcoin_cli.sendrawtransaction(binascii.hexlify(os.urandom(32)).decode())
 # Any data not matching the txid format or that matches with an already mined transaction should fail
 values += [coinbase_tx]
 print("\nsendrawtransaction fails ({}):".format(len(values)))
 for v in values:
    try:
        block = bitcoin_cli.sendrawtransaction(v)
        assert False
    except JSONRPCException as e:
        print('\t{}'.format(e))
 # getrawtransaction should work for existing transactions, and fail for non-existing ones
 tx = bitcoin_cli.getrawtransaction(coinbase_tx)
 assert(isinstance(tx, dict))
 assert(isinstance(tx.get('confirmations'), int))
 print("\nsendrawtransaction fails ({}):".format(len(values)))
 for v in values:
    try:
        block = bitcoin_cli.sendrawtransaction(v)
        assert False
    except JSONRPCException as e:
        print('\t{}'.format(e))
 # getblockcount should always return a positive integer
 bc = bitcoin_cli.getblockcount()
 assert (isinstance(bc, int))
 assert (bc >= 0)
 print("\nAll tests passed!")
--- a/tests/simulator/bitcoind_sim.py
+++ b/tests/simulator/bitcoind_sim.py
@@ -0,0 +1,211 @@
 from pisa.conf import FEED_PROTOCOL, FEED_ADDR, FEED_PORT
 from flask import Flask, request, Response, abort
 from tests.simulator.zmq_publisher import ZMQPublisher
 from threading import Thread
 from pisa.rpc_errors import *
 from pisa.tools import check_txid_format
 import logging
 import binascii
 import json
 import os
 import time
 app = Flask(__name__)
 HOST = 'localhost'
 PORT = '18443'
@app.route('/', methods=['POST'])
 def process_request():
    """
    process_requests simulates the bitcoin-rpc server run by bitcoind. The available commands are limited to the ones
    we'll need to use in pisa. The model we will be using is pretty simplified to reduce the complexity of simulating
    bitcoind:
    Raw transactions:       raw transactions will actually be transaction ids (txids). Pisa will, therefore, receive
                            encrypted blobs that encrypt ids instead of real transactions.
    decoderawtransaction:   querying for the decoding of a raw transaction will return a dictionary with a single
                            field: "txid", which will match with the txid provided in the request
    sendrawtransaction:     sending a rawtransaction will notify our mining simulator to include such transaction in a
                            subsequent block.
    getrawtransaction:      requesting a rawtransaction from a txid will return a dictionary containing a single field:
                            "confirmations", since rawtransactions are only queried to check whether a transaction has
                            made it to a block or not.
    getblockcount:          the block count will be get from the mining simulator by querying how many blocks have been
                            emited so far.
    getblock:               querying for a block will return a dictionary with a three fields: "tx" representing a list
                            of transactions, "height" representing the block height and "hash" representing the block
                            hash. Both will be got from the mining simulator.
    getblockhash:           a block hash is only queried by pisad on bootstrapping to check the network bitcoind is
                            running on.
    help:                   help is only used as a sample command to test if bitcoind is running when bootstrapping
                            pisad. It will return a 200/OK with no data.
    """
    global mempool
    request_data = request.get_json()
    method = request_data.get('method')
    response = {"id": 0, "result": 0, "error": None}
    no_param_err = {"code": RPC_MISC_ERROR, "message": "JSON value is not a {} as expected"}
    if method == "decoderawtransaction":
        txid = get_param(request_data)
        if isinstance(txid, str):
            if check_txid_format(txid):
                response["result"] = {"txid": txid}
            else:
                response["error"] = {"code": RPC_DESERIALIZATION_ERROR, "message": "TX decode failed"}
        else:
            response["error"] = no_param_err
            response["error"]["message"] = response["error"]["message"].format("string")
    elif method == "sendrawtransaction":
        # TODO: A way of rejecting transactions should be added to test edge cases.
        txid = get_param(request_data)
        if isinstance(txid, str):
            if check_txid_format(txid):
                if txid not in mempool and txid not in list(mined_transactions.keys()):
                    mempool.append(txid)
                else:
                    response["error"] = {"code": RPC_VERIFY_ALREADY_IN_CHAIN,
                                         "message": "Transaction already in block chain"}
            else:
                response["error"] = {"code": RPC_DESERIALIZATION_ERROR, "message": "TX decode failed"}
        else:
            response["error"] = no_param_err
            response["error"]["message"] = response["error"]["message"].format("string")
    elif method == "getrawtransaction":
        txid = get_param(request_data)
        if isinstance(txid, str):
            block = blocks.get(mined_transactions.get(txid))
            if block:
                response["result"] = {"confirmations": len(blockchain) - block.get('height')}
            else:
                response["error"] = {'code': RPC_INVALID_ADDRESS_OR_KEY,
                                     'message': 'No such mempool or blockchain transaction. Use gettransaction for '
                                                'wallet transactions.'}
        else:
            response["error"] = no_param_err
            response["error"]["message"] = response["error"]["message"].format("string")
    elif method == "getblockcount":
        response["result"] = len(blockchain)
    elif method == "getblock":
        blockid = get_param(request_data)
        if isinstance(blockid, str):
            block = blocks.get(blockid)
            if block:
                block["hash"] = blockid
                response["result"] = block
            else:
                response["error"] = {"code": RPC_INVALID_ADDRESS_OR_KEY, "message": "Block not found"}
        else:
            response["error"] = no_param_err
            response["error"]["message"] = response["error"]["message"].format("string")
    elif method == "getblockhash":
        height = get_param(request_data)
        if isinstance(height, int):
            if 0 <= height <= len(blockchain):
                response["result"] = blockchain[height]
            else:
                response["error"] = {"code": RPC_INVALID_PARAMETER, "message": "Block height out of range"}
        else:
            response["error"] = no_param_err
            response["error"]["message"] = response["error"]["message"].format("integer")
    elif method == "help":
        pass
    else:
        return abort(404, "Method not found")
    return Response(json.dumps(response), status=200, mimetype='application/json')
 def get_param(request_data):
    param = None
    params = request_data.get("params")
    if isinstance(params, list) and len(params) > 0:
        param = params[0]
    return param
 def load_data():
    pass
 def simulate_mining():
    global mempool, mined_transactions, blocks, blockchain
    prev_block_hash = None
    while True:
        block_hash = binascii.hexlify(os.urandom(32)).decode('utf-8')
        coinbase_tx_hash = binascii.hexlify(os.urandom(32)).decode('utf-8')
        txs_to_mine = [coinbase_tx_hash]
        if len(mempool) != 0:
            # We'll mine up to 100 txs per block
            txs_to_mine += mempool[:99]
            mempool = mempool[99:]
        # Keep track of the mined transaction (to respond to getrawtransaction)
        for tx in txs_to_mine:
            mined_transactions[tx] = block_hash
        blocks[block_hash] = {"tx": txs_to_mine, "height": len(blockchain), "previousblockhash": prev_block_hash}
        mining_simulator.publish_data(binascii.unhexlify(block_hash))
        blockchain.append(block_hash)
        prev_block_hash = block_hash
        print("New block mined: {}".format(block_hash))
        print("\tTransactions: {}".format(txs_to_mine))
        time.sleep(10)
 if __name__ == '__main__':
    mining_simulator = ZMQPublisher(topic=b'hashblock', feed_protocol=FEED_PROTOCOL, feed_addr=FEED_ADDR,
                                    feed_port=FEED_PORT)
    mempool = []
    mined_transactions = {}
    blocks = {}
    blockchain = []
    mining_thread = Thread(target=simulate_mining)
    mining_thread.start()
    # Setting Flask log to ERROR only so it does not mess with out logging
    logging.getLogger('werkzeug').setLevel(logging.ERROR)
    app.run(host=HOST, port=PORT)
--- a/tests/simulator/zmq_publisher.py
+++ b/tests/simulator/zmq_publisher.py
@@ -0,0 +1,12 @@
 import zmq
 class ZMQPublisher:
    def __init__(self, topic, feed_protocol, feed_addr, feed_port):
        self.topic = topic
        self.context = zmq.Context()
        self.socket = self.context.socket(zmq.PUB)
        self.socket.bind("%s://%s:%s" % (feed_protocol, feed_addr, feed_port))
    def publish_data(self, data):
        self.socket.send_multipart([self.topic, data])