mirror of
https://github.com/dashpay/dash.git
synced 2024-12-28 13:32:47 +01:00
85c807c9ea
We can't change "softforks", but it seems far more logical to use tags in an object rather than using an "id" field in an array. For example, to get the csv status before, you need to iterate the array to find the entry with 'id' field equal to "csv": jq '.bip9_softforks | map(select(.id == "csv"))[] | .status' Now: jq '.bip9_softforks.csv.status' There is no issue with fork names being incompatible with JSON tags, since we're selecting them ourselves. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
552 lines
19 KiB
Python
552 lines
19 KiB
Python
# Copyright (c) 2014-2015 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#
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# Helpful routines for regression testing
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#
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# Add python-bitcoinrpc to module search path:
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import os
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import sys
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from decimal import Decimal, ROUND_DOWN
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import json
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import random
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import shutil
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import subprocess
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import time
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import re
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import errno
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from . import coverage
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from .authproxy import AuthServiceProxy, JSONRPCException
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COVERAGE_DIR = None
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#Set Mocktime default to OFF.
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#MOCKTIME is only needed for scripts that use the
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#cached version of the blockchain. If the cached
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#version of the blockchain is used without MOCKTIME
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#then the mempools will not sync due to IBD.
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MOCKTIME = 0
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def enable_mocktime():
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#For backwared compatibility of the python scripts
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#with previous versions of the cache, set MOCKTIME
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#to Jan 1, 2014 + (201 * 10 * 60)
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global MOCKTIME
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MOCKTIME = 1388534400 + (201 * 10 * 60)
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def disable_mocktime():
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global MOCKTIME
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MOCKTIME = 0
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def get_mocktime():
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return MOCKTIME
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def enable_coverage(dirname):
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"""Maintain a log of which RPC calls are made during testing."""
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global COVERAGE_DIR
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COVERAGE_DIR = dirname
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def get_rpc_proxy(url, node_number, timeout=None):
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"""
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Args:
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url (str): URL of the RPC server to call
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node_number (int): the node number (or id) that this calls to
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Kwargs:
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timeout (int): HTTP timeout in seconds
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Returns:
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AuthServiceProxy. convenience object for making RPC calls.
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"""
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proxy_kwargs = {}
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if timeout is not None:
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proxy_kwargs['timeout'] = timeout
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proxy = AuthServiceProxy(url, **proxy_kwargs)
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proxy.url = url # store URL on proxy for info
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coverage_logfile = coverage.get_filename(
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COVERAGE_DIR, node_number) if COVERAGE_DIR else None
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return coverage.AuthServiceProxyWrapper(proxy, coverage_logfile)
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def p2p_port(n):
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return 11000 + n + os.getpid()%999
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def rpc_port(n):
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return 12000 + n + os.getpid()%999
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def check_json_precision():
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"""Make sure json library being used does not lose precision converting BTC values"""
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n = Decimal("20000000.00000003")
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satoshis = int(json.loads(json.dumps(float(n)))*1.0e8)
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if satoshis != 2000000000000003:
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raise RuntimeError("JSON encode/decode loses precision")
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def count_bytes(hex_string):
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return len(bytearray.fromhex(hex_string))
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def sync_blocks(rpc_connections, wait=1):
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"""
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Wait until everybody has the same block count
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"""
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while True:
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counts = [ x.getblockcount() for x in rpc_connections ]
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if counts == [ counts[0] ]*len(counts):
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break
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time.sleep(wait)
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def sync_mempools(rpc_connections, wait=1):
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"""
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Wait until everybody has the same transactions in their memory
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pools
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"""
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while True:
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pool = set(rpc_connections[0].getrawmempool())
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num_match = 1
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for i in range(1, len(rpc_connections)):
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if set(rpc_connections[i].getrawmempool()) == pool:
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num_match = num_match+1
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if num_match == len(rpc_connections):
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break
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time.sleep(wait)
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bitcoind_processes = {}
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def initialize_datadir(dirname, n):
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datadir = os.path.join(dirname, "node"+str(n))
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if not os.path.isdir(datadir):
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os.makedirs(datadir)
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with open(os.path.join(datadir, "bitcoin.conf"), 'w') as f:
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f.write("regtest=1\n")
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f.write("rpcuser=rt\n")
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f.write("rpcpassword=rt\n")
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f.write("port="+str(p2p_port(n))+"\n")
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f.write("rpcport="+str(rpc_port(n))+"\n")
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f.write("listenonion=0\n")
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return datadir
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def rpc_url(i, rpchost=None):
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return "http://rt:rt@%s:%d" % (rpchost or '127.0.0.1', rpc_port(i))
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def wait_for_bitcoind_start(process, url, i):
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'''
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Wait for bitcoind to start. This means that RPC is accessible and fully initialized.
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Raise an exception if bitcoind exits during initialization.
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'''
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while True:
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if process.poll() is not None:
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raise Exception('bitcoind exited with status %i during initialization' % process.returncode)
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try:
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rpc = get_rpc_proxy(url, i)
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blocks = rpc.getblockcount()
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break # break out of loop on success
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except IOError as e:
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if e.errno != errno.ECONNREFUSED: # Port not yet open?
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raise # unknown IO error
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except JSONRPCException as e: # Initialization phase
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if e.error['code'] != -28: # RPC in warmup?
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raise # unkown JSON RPC exception
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time.sleep(0.25)
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def initialize_chain(test_dir):
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"""
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Create (or copy from cache) a 200-block-long chain and
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4 wallets.
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"""
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if (not os.path.isdir(os.path.join("cache","node0"))
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or not os.path.isdir(os.path.join("cache","node1"))
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or not os.path.isdir(os.path.join("cache","node2"))
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or not os.path.isdir(os.path.join("cache","node3"))):
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#find and delete old cache directories if any exist
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for i in range(4):
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if os.path.isdir(os.path.join("cache","node"+str(i))):
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shutil.rmtree(os.path.join("cache","node"+str(i)))
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# Create cache directories, run bitcoinds:
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for i in range(4):
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datadir=initialize_datadir("cache", i)
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args = [ os.getenv("BITCOIND", "bitcoind"), "-server", "-keypool=1", "-datadir="+datadir, "-discover=0" ]
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if i > 0:
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args.append("-connect=127.0.0.1:"+str(p2p_port(0)))
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bitcoind_processes[i] = subprocess.Popen(args)
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if os.getenv("PYTHON_DEBUG", ""):
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print "initialize_chain: bitcoind started, waiting for RPC to come up"
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wait_for_bitcoind_start(bitcoind_processes[i], rpc_url(i), i)
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if os.getenv("PYTHON_DEBUG", ""):
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print "initialize_chain: RPC succesfully started"
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rpcs = []
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for i in range(4):
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try:
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rpcs.append(get_rpc_proxy(rpc_url(i), i))
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except:
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sys.stderr.write("Error connecting to "+url+"\n")
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sys.exit(1)
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# Create a 200-block-long chain; each of the 4 nodes
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# gets 25 mature blocks and 25 immature.
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# blocks are created with timestamps 10 minutes apart
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# starting from 2010 minutes in the past
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enable_mocktime()
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block_time = get_mocktime() - (201 * 10 * 60)
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for i in range(2):
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for peer in range(4):
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for j in range(25):
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set_node_times(rpcs, block_time)
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rpcs[peer].generate(1)
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block_time += 10*60
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# Must sync before next peer starts generating blocks
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sync_blocks(rpcs)
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# Shut them down, and clean up cache directories:
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stop_nodes(rpcs)
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wait_bitcoinds()
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disable_mocktime()
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for i in range(4):
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os.remove(log_filename("cache", i, "debug.log"))
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os.remove(log_filename("cache", i, "db.log"))
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os.remove(log_filename("cache", i, "peers.dat"))
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os.remove(log_filename("cache", i, "fee_estimates.dat"))
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for i in range(4):
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from_dir = os.path.join("cache", "node"+str(i))
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to_dir = os.path.join(test_dir, "node"+str(i))
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shutil.copytree(from_dir, to_dir)
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initialize_datadir(test_dir, i) # Overwrite port/rpcport in bitcoin.conf
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def initialize_chain_clean(test_dir, num_nodes):
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"""
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Create an empty blockchain and num_nodes wallets.
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Useful if a test case wants complete control over initialization.
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"""
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for i in range(num_nodes):
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datadir=initialize_datadir(test_dir, i)
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def _rpchost_to_args(rpchost):
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'''Convert optional IP:port spec to rpcconnect/rpcport args'''
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if rpchost is None:
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return []
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match = re.match('(\[[0-9a-fA-f:]+\]|[^:]+)(?::([0-9]+))?$', rpchost)
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if not match:
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raise ValueError('Invalid RPC host spec ' + rpchost)
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rpcconnect = match.group(1)
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rpcport = match.group(2)
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if rpcconnect.startswith('['): # remove IPv6 [...] wrapping
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rpcconnect = rpcconnect[1:-1]
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rv = ['-rpcconnect=' + rpcconnect]
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if rpcport:
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rv += ['-rpcport=' + rpcport]
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return rv
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def start_node(i, dirname, extra_args=None, rpchost=None, timewait=None, binary=None):
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"""
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Start a bitcoind and return RPC connection to it
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"""
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datadir = os.path.join(dirname, "node"+str(i))
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if binary is None:
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binary = os.getenv("BITCOIND", "bitcoind")
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args = [ binary, "-datadir="+datadir, "-server", "-keypool=1", "-discover=0", "-rest", "-mocktime="+str(get_mocktime()) ]
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if extra_args is not None: args.extend(extra_args)
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bitcoind_processes[i] = subprocess.Popen(args)
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if os.getenv("PYTHON_DEBUG", ""):
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print "start_node: bitcoind started, waiting for RPC to come up"
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url = rpc_url(i, rpchost)
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wait_for_bitcoind_start(bitcoind_processes[i], url, i)
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if os.getenv("PYTHON_DEBUG", ""):
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print "start_node: RPC succesfully started"
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proxy = get_rpc_proxy(url, i, timeout=timewait)
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if COVERAGE_DIR:
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coverage.write_all_rpc_commands(COVERAGE_DIR, proxy)
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return proxy
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def start_nodes(num_nodes, dirname, extra_args=None, rpchost=None, binary=None):
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"""
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Start multiple bitcoinds, return RPC connections to them
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"""
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if extra_args is None: extra_args = [ None for i in range(num_nodes) ]
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if binary is None: binary = [ None for i in range(num_nodes) ]
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rpcs = []
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try:
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for i in range(num_nodes):
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rpcs.append(start_node(i, dirname, extra_args[i], rpchost, binary=binary[i]))
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except: # If one node failed to start, stop the others
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stop_nodes(rpcs)
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raise
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return rpcs
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def log_filename(dirname, n_node, logname):
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return os.path.join(dirname, "node"+str(n_node), "regtest", logname)
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def stop_node(node, i):
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node.stop()
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bitcoind_processes[i].wait()
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del bitcoind_processes[i]
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def stop_nodes(nodes):
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for node in nodes:
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node.stop()
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del nodes[:] # Emptying array closes connections as a side effect
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def set_node_times(nodes, t):
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for node in nodes:
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node.setmocktime(t)
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def wait_bitcoinds():
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# Wait for all bitcoinds to cleanly exit
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for bitcoind in bitcoind_processes.values():
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bitcoind.wait()
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bitcoind_processes.clear()
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def connect_nodes(from_connection, node_num):
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ip_port = "127.0.0.1:"+str(p2p_port(node_num))
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from_connection.addnode(ip_port, "onetry")
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# poll until version handshake complete to avoid race conditions
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# with transaction relaying
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while any(peer['version'] == 0 for peer in from_connection.getpeerinfo()):
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time.sleep(0.1)
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def connect_nodes_bi(nodes, a, b):
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connect_nodes(nodes[a], b)
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connect_nodes(nodes[b], a)
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def find_output(node, txid, amount):
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"""
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Return index to output of txid with value amount
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Raises exception if there is none.
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"""
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txdata = node.getrawtransaction(txid, 1)
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for i in range(len(txdata["vout"])):
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if txdata["vout"][i]["value"] == amount:
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return i
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raise RuntimeError("find_output txid %s : %s not found"%(txid,str(amount)))
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def gather_inputs(from_node, amount_needed, confirmations_required=1):
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"""
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Return a random set of unspent txouts that are enough to pay amount_needed
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"""
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assert(confirmations_required >=0)
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utxo = from_node.listunspent(confirmations_required)
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random.shuffle(utxo)
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inputs = []
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total_in = Decimal("0.00000000")
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while total_in < amount_needed and len(utxo) > 0:
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t = utxo.pop()
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total_in += t["amount"]
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inputs.append({ "txid" : t["txid"], "vout" : t["vout"], "address" : t["address"] } )
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if total_in < amount_needed:
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raise RuntimeError("Insufficient funds: need %d, have %d"%(amount_needed, total_in))
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return (total_in, inputs)
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def make_change(from_node, amount_in, amount_out, fee):
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"""
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Create change output(s), return them
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"""
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outputs = {}
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amount = amount_out+fee
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change = amount_in - amount
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if change > amount*2:
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# Create an extra change output to break up big inputs
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change_address = from_node.getnewaddress()
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# Split change in two, being careful of rounding:
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outputs[change_address] = Decimal(change/2).quantize(Decimal('0.00000001'), rounding=ROUND_DOWN)
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change = amount_in - amount - outputs[change_address]
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if change > 0:
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outputs[from_node.getnewaddress()] = change
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return outputs
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def send_zeropri_transaction(from_node, to_node, amount, fee):
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"""
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Create&broadcast a zero-priority transaction.
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Returns (txid, hex-encoded-txdata)
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Ensures transaction is zero-priority by first creating a send-to-self,
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then using its output
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"""
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# Create a send-to-self with confirmed inputs:
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self_address = from_node.getnewaddress()
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(total_in, inputs) = gather_inputs(from_node, amount+fee*2)
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outputs = make_change(from_node, total_in, amount+fee, fee)
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outputs[self_address] = float(amount+fee)
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self_rawtx = from_node.createrawtransaction(inputs, outputs)
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self_signresult = from_node.signrawtransaction(self_rawtx)
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self_txid = from_node.sendrawtransaction(self_signresult["hex"], True)
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vout = find_output(from_node, self_txid, amount+fee)
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# Now immediately spend the output to create a 1-input, 1-output
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# zero-priority transaction:
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inputs = [ { "txid" : self_txid, "vout" : vout } ]
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outputs = { to_node.getnewaddress() : float(amount) }
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rawtx = from_node.createrawtransaction(inputs, outputs)
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signresult = from_node.signrawtransaction(rawtx)
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txid = from_node.sendrawtransaction(signresult["hex"], True)
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return (txid, signresult["hex"])
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def random_zeropri_transaction(nodes, amount, min_fee, fee_increment, fee_variants):
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"""
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Create a random zero-priority transaction.
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Returns (txid, hex-encoded-transaction-data, fee)
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"""
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from_node = random.choice(nodes)
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to_node = random.choice(nodes)
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fee = min_fee + fee_increment*random.randint(0,fee_variants)
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(txid, txhex) = send_zeropri_transaction(from_node, to_node, amount, fee)
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return (txid, txhex, fee)
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def random_transaction(nodes, amount, min_fee, fee_increment, fee_variants):
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"""
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Create a random transaction.
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Returns (txid, hex-encoded-transaction-data, fee)
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"""
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from_node = random.choice(nodes)
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to_node = random.choice(nodes)
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fee = min_fee + fee_increment*random.randint(0,fee_variants)
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(total_in, inputs) = gather_inputs(from_node, amount+fee)
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outputs = make_change(from_node, total_in, amount, fee)
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outputs[to_node.getnewaddress()] = float(amount)
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rawtx = from_node.createrawtransaction(inputs, outputs)
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signresult = from_node.signrawtransaction(rawtx)
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txid = from_node.sendrawtransaction(signresult["hex"], True)
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return (txid, signresult["hex"], fee)
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def assert_equal(thing1, thing2):
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if thing1 != thing2:
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raise AssertionError("%s != %s"%(str(thing1),str(thing2)))
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def assert_greater_than(thing1, thing2):
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if thing1 <= thing2:
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raise AssertionError("%s <= %s"%(str(thing1),str(thing2)))
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def assert_raises(exc, fun, *args, **kwds):
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try:
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fun(*args, **kwds)
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except exc:
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pass
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except Exception as e:
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raise AssertionError("Unexpected exception raised: "+type(e).__name__)
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else:
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raise AssertionError("No exception raised")
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def assert_is_hex_string(string):
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try:
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int(string, 16)
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except Exception as e:
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raise AssertionError(
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"Couldn't interpret %r as hexadecimal; raised: %s" % (string, e))
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def assert_is_hash_string(string, length=64):
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if not isinstance(string, basestring):
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raise AssertionError("Expected a string, got type %r" % type(string))
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elif length and len(string) != length:
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raise AssertionError(
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"String of length %d expected; got %d" % (length, len(string)))
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elif not re.match('[abcdef0-9]+$', string):
|
|
raise AssertionError(
|
|
"String %r contains invalid characters for a hash." % string)
|
|
|
|
def satoshi_round(amount):
|
|
return Decimal(amount).quantize(Decimal('0.00000001'), rounding=ROUND_DOWN)
|
|
|
|
# Helper to create at least "count" utxos
|
|
# Pass in a fee that is sufficient for relay and mining new transactions.
|
|
def create_confirmed_utxos(fee, node, count):
|
|
node.generate(int(0.5*count)+101)
|
|
utxos = node.listunspent()
|
|
iterations = count - len(utxos)
|
|
addr1 = node.getnewaddress()
|
|
addr2 = node.getnewaddress()
|
|
if iterations <= 0:
|
|
return utxos
|
|
for i in xrange(iterations):
|
|
t = utxos.pop()
|
|
inputs = []
|
|
inputs.append({ "txid" : t["txid"], "vout" : t["vout"]})
|
|
outputs = {}
|
|
send_value = t['amount'] - fee
|
|
outputs[addr1] = satoshi_round(send_value/2)
|
|
outputs[addr2] = satoshi_round(send_value/2)
|
|
raw_tx = node.createrawtransaction(inputs, outputs)
|
|
signed_tx = node.signrawtransaction(raw_tx)["hex"]
|
|
txid = node.sendrawtransaction(signed_tx)
|
|
|
|
while (node.getmempoolinfo()['size'] > 0):
|
|
node.generate(1)
|
|
|
|
utxos = node.listunspent()
|
|
assert(len(utxos) >= count)
|
|
return utxos
|
|
|
|
# Create large OP_RETURN txouts that can be appended to a transaction
|
|
# to make it large (helper for constructing large transactions).
|
|
def gen_return_txouts():
|
|
# Some pre-processing to create a bunch of OP_RETURN txouts to insert into transactions we create
|
|
# So we have big transactions (and therefore can't fit very many into each block)
|
|
# create one script_pubkey
|
|
script_pubkey = "6a4d0200" #OP_RETURN OP_PUSH2 512 bytes
|
|
for i in xrange (512):
|
|
script_pubkey = script_pubkey + "01"
|
|
# concatenate 128 txouts of above script_pubkey which we'll insert before the txout for change
|
|
txouts = "81"
|
|
for k in xrange(128):
|
|
# add txout value
|
|
txouts = txouts + "0000000000000000"
|
|
# add length of script_pubkey
|
|
txouts = txouts + "fd0402"
|
|
# add script_pubkey
|
|
txouts = txouts + script_pubkey
|
|
return txouts
|
|
|
|
def create_tx(node, coinbase, to_address, amount):
|
|
inputs = [{ "txid" : coinbase, "vout" : 0}]
|
|
outputs = { to_address : amount }
|
|
rawtx = node.createrawtransaction(inputs, outputs)
|
|
signresult = node.signrawtransaction(rawtx)
|
|
assert_equal(signresult["complete"], True)
|
|
return signresult["hex"]
|
|
|
|
# Create a spend of each passed-in utxo, splicing in "txouts" to each raw
|
|
# transaction to make it large. See gen_return_txouts() above.
|
|
def create_lots_of_big_transactions(node, txouts, utxos, fee):
|
|
addr = node.getnewaddress()
|
|
txids = []
|
|
for i in xrange(len(utxos)):
|
|
t = utxos.pop()
|
|
inputs = []
|
|
inputs.append({ "txid" : t["txid"], "vout" : t["vout"]})
|
|
outputs = {}
|
|
send_value = t['amount'] - fee
|
|
outputs[addr] = satoshi_round(send_value)
|
|
rawtx = node.createrawtransaction(inputs, outputs)
|
|
newtx = rawtx[0:92]
|
|
newtx = newtx + txouts
|
|
newtx = newtx + rawtx[94:]
|
|
signresult = node.signrawtransaction(newtx, None, None, "NONE")
|
|
txid = node.sendrawtransaction(signresult["hex"], True)
|
|
txids.append(txid)
|
|
return txids
|
|
|
|
def get_bip9_status(node, key):
|
|
info = node.getblockchaininfo()
|
|
return info['bip9_softforks'][key]
|