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#!/usr/bin/env python3
# Copyright (c) 2015-2016 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
from test_framework.test_framework import ComparisonTestFramework
from test_framework.util import *
from test_framework.comptool import TestManager, TestInstance, RejectResult
from test_framework.blocktools import *
import time
from test_framework.key import CECKey
from test_framework.script import CScript, SignatureHash, SIGHASH_ALL, OP_TRUE, OP_FALSE
class PreviousSpendableOutput(object):
def __init__(self, tx = CTransaction(), n = -1):
self.tx = tx
self.n = n # the output we're spending
'''
This reimplements tests from the bitcoinj/FullBlockTestGenerator used
by the pull-tester.
We use the testing framework in which we expect a particular answer from
each test.
'''
class FullBlockTest(ComparisonTestFramework):
''' Can either run this test as 1 node with expected answers, or two and compare them.
Change the "outcome" variable from each TestInstance object to only do the comparison. '''
def __init__(self):
super().__init__()
self.num_nodes = 1
self.block_heights = {}
self.coinbase_key = CECKey()
self.coinbase_key.set_secretbytes(b"horsebattery")
self.coinbase_pubkey = self.coinbase_key.get_pubkey()
self.block_time = int(time.time())+1
self.tip = None
self.blocks = {}
def run_test(self):
test = TestManager(self, self.options.tmpdir)
test.add_all_connections(self.nodes)
NetworkThread().start() # Start up network handling in another thread
test.run()
def add_transactions_to_block(self, block, tx_list):
[ tx.rehash() for tx in tx_list ]
block.vtx.extend(tx_list)
block.hashMerkleRoot = block.calc_merkle_root()
block.rehash()
return block
# Create a block on top of self.tip, and advance self.tip to point to the new block
# if spend is specified, then 1 satoshi will be spent from that to an anyone-can-spend output,
# and rest will go to fees.
def next_block(self, number, spend=None, additional_coinbase_value=0, script=None):
if self.tip == None:
base_block_hash = self.genesis_hash
else:
base_block_hash = self.tip.sha256
# First create the coinbase
height = self.block_heights[base_block_hash] + 1
coinbase = create_coinbase(height, self.coinbase_pubkey)
coinbase.vout[0].nValue += additional_coinbase_value
if (spend != None):
coinbase.vout[0].nValue += spend.tx.vout[spend.n].nValue - 1 # all but one satoshi to fees
coinbase.rehash()
block = create_block(base_block_hash, coinbase, self.block_time)
if (spend != None):
tx = CTransaction()
tx.vin.append(CTxIn(COutPoint(spend.tx.sha256, spend.n), b"", 0xffffffff)) # no signature yet
# This copies the java comparison tool testing behavior: the first
# txout has a garbage scriptPubKey, "to make sure we're not
# pre-verifying too much" (?)
tx.vout.append(CTxOut(0, CScript([random.randint(0,255), height & 255])))
if script == None:
tx.vout.append(CTxOut(1, CScript([OP_TRUE])))
else:
tx.vout.append(CTxOut(1, script))
# Now sign it if necessary
scriptSig = b""
scriptPubKey = bytearray(spend.tx.vout[spend.n].scriptPubKey)
if (scriptPubKey[0] == OP_TRUE): # looks like an anyone-can-spend
scriptSig = CScript([OP_TRUE])
else:
# We have to actually sign it
(sighash, err) = SignatureHash(spend.tx.vout[spend.n].scriptPubKey, tx, 0, SIGHASH_ALL)
scriptSig = CScript([self.coinbase_key.sign(sighash) + bytes(bytearray([SIGHASH_ALL]))])
tx.vin[0].scriptSig = scriptSig
# Now add the transaction to the block
block = self.add_transactions_to_block(block, [tx])
block.solve()
self.tip = block
self.block_heights[block.sha256] = height
self.block_time += 1
assert number not in self.blocks
self.blocks[number] = block
return block
def get_tests(self):
self.genesis_hash = int(self.nodes[0].getbestblockhash(), 16)
self.block_heights[self.genesis_hash] = 0
spendable_outputs = []
# save the current tip so it can be spent by a later block
def save_spendable_output():
spendable_outputs.append(self.tip)
# get an output that we previous marked as spendable
def get_spendable_output():
return PreviousSpendableOutput(spendable_outputs.pop(0).vtx[0], 0)
# returns a test case that asserts that the current tip was accepted
def accepted():
return TestInstance([[self.tip, True]])
# returns a test case that asserts that the current tip was rejected
def rejected(reject = None):
if reject is None:
return TestInstance([[self.tip, False]])
else:
return TestInstance([[self.tip, reject]])
# move the tip back to a previous block
def tip(number):
self.tip = self.blocks[number]
# add transactions to a block produced by next_block
def update_block(block_number, new_transactions):
block = self.blocks[block_number]
old_hash = block.sha256
self.add_transactions_to_block(block, new_transactions)
block.solve()
# Update the internal state just like in next_block
self.tip = block
self.block_heights[block.sha256] = self.block_heights[old_hash]
del self.block_heights[old_hash]
self.blocks[block_number] = block
return block
# creates a new block and advances the tip to that block
block = self.next_block
# Create a new block
block(0)
save_spendable_output()
yield accepted()
# Now we need that block to mature so we can spend the coinbase.
test = TestInstance(sync_every_block=False)
for i in range(99):
block(1000 + i)
test.blocks_and_transactions.append([self.tip, True])
save_spendable_output()
yield test
# Start by building a couple of blocks on top (which output is spent is
# in parentheses):
# genesis -> b1 (0) -> b2 (1)
out0 = get_spendable_output()
block(1, spend=out0)
save_spendable_output()
yield accepted()
out1 = get_spendable_output()
b2 = block(2, spend=out1)
yield accepted()
# so fork like this:
#
# genesis -> b1 (0) -> b2 (1)
# \-> b3 (1)
#
# Nothing should happen at this point. We saw b2 first so it takes priority.
tip(1)
b3 = block(3, spend=out1)
txout_b3 = PreviousSpendableOutput(b3.vtx[1], 1)
yield rejected()
# Now we add another block to make the alternative chain longer.
#
# genesis -> b1 (0) -> b2 (1)
# \-> b3 (1) -> b4 (2)
out2 = get_spendable_output()
block(4, spend=out2)
yield accepted()
# ... and back to the first chain.
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b3 (1) -> b4 (2)
tip(2)
block(5, spend=out2)
save_spendable_output()
yield rejected()
out3 = get_spendable_output()
block(6, spend=out3)
yield accepted()
# Try to create a fork that double-spends
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b7 (2) -> b8 (4)
# \-> b3 (1) -> b4 (2)
tip(5)
block(7, spend=out2)
yield rejected()
out4 = get_spendable_output()
block(8, spend=out4)
yield rejected()
# Try to create a block that has too much fee
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b9 (4)
# \-> b3 (1) -> b4 (2)
tip(6)
block(9, spend=out4, additional_coinbase_value=1)
yield rejected(RejectResult(16, b'bad-cb-amount'))
# Create a fork that ends in a block with too much fee (the one that causes the reorg)
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b10 (3) -> b11 (4)
# \-> b3 (1) -> b4 (2)
tip(5)
block(10, spend=out3)
yield rejected()
block(11, spend=out4, additional_coinbase_value=1)
yield rejected(RejectResult(16, b'bad-cb-amount'))
# Try again, but with a valid fork first
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b14 (5)
# (b12 added last)
# \-> b3 (1) -> b4 (2)
tip(5)
b12 = block(12, spend=out3)
save_spendable_output()
#yield TestInstance([[b12, False]])
b13 = block(13, spend=out4)
# Deliver the block header for b12, and the block b13.
# b13 should be accepted but the tip won't advance until b12 is delivered.
yield TestInstance([[CBlockHeader(b12), None], [b13, False]])
save_spendable_output()
out5 = get_spendable_output()
# b14 is invalid, but the node won't know that until it tries to connect
# Tip still can't advance because b12 is missing
block(14, spend=out5, additional_coinbase_value=1)
yield rejected()
yield TestInstance([[b12, True, b13.sha256]]) # New tip should be b13.
# Add a block with MAX_BLOCK_SIGOPS and one with one more sigop
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5) -> b16 (6)
# \-> b3 (1) -> b4 (2)
# Test that a block with a lot of checksigs is okay
lots_of_checksigs = CScript([OP_CHECKSIG] * (1000000 // 50 - 1))
tip(13)
block(15, spend=out5, script=lots_of_checksigs)
yield accepted()
# Test that a block with too many checksigs is rejected
out6 = get_spendable_output()
too_many_checksigs = CScript([OP_CHECKSIG] * (1000000 // 50))
block(16, spend=out6, script=too_many_checksigs)
yield rejected(RejectResult(16, b'bad-blk-sigops'))
# Attempt to spend a transaction created on a different fork
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5) -> b17 (b3.vtx[1])
# \-> b3 (1) -> b4 (2)
tip(15)
block(17, spend=txout_b3)
yield rejected(RejectResult(16, b'bad-txns-inputs-missingorspent'))
# Attempt to spend a transaction created on a different fork (on a fork this time)
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5)
# \-> b18 (b3.vtx[1]) -> b19 (6)
# \-> b3 (1) -> b4 (2)
tip(13)
block(18, spend=txout_b3)
yield rejected()
block(19, spend=out6)
yield rejected()
# Attempt to spend a coinbase at depth too low
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5) -> b20 (7)
# \-> b3 (1) -> b4 (2)
tip(15)
out7 = get_spendable_output()
block(20, spend=out7)
yield rejected(RejectResult(16, b'bad-txns-premature-spend-of-coinbase'))
# Attempt to spend a coinbase at depth too low (on a fork this time)
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5)
# \-> b21 (6) -> b22 (5)
# \-> b3 (1) -> b4 (2)
tip(13)
block(21, spend=out6)
yield rejected()
block(22, spend=out5)
yield rejected()
# Create a block on either side of MAX_BLOCK_SIZE and make sure its accepted/rejected
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5) -> b23 (6)
# \-> b24 (6) -> b25 (7)
# \-> b3 (1) -> b4 (2)
tip(15)
b23 = block(23, spend=out6)
old_hash = b23.sha256
tx = CTransaction()
script_length = MAX_BLOCK_SIZE - len(b23.serialize()) - 69
script_output = CScript([b'\x00' * script_length])
tx.vout.append(CTxOut(0, script_output))
tx.vin.append(CTxIn(COutPoint(b23.vtx[1].sha256, 1)))
b23 = update_block(23, [tx])
# Make sure the math above worked out to produce a max-sized block
assert_equal(len(b23.serialize()), MAX_BLOCK_SIZE)
yield accepted()
# Make the next block one byte bigger and check that it fails
tip(15)
b24 = block(24, spend=out6)
script_length = MAX_BLOCK_SIZE - len(b24.serialize()) - 69
script_output = CScript([b'\x00' * (script_length+1)])
tx.vout = [CTxOut(0, script_output)]
b24 = update_block(24, [tx])
assert_equal(len(b24.serialize()), MAX_BLOCK_SIZE+1)
yield rejected(RejectResult(16, b'bad-blk-length'))
b25 = block(25, spend=out7)
yield rejected()
# Create blocks with a coinbase input script size out of range
# genesis -> b1 (0) -> b2 (1) -> b5 (2) -> b6 (3)
# \-> b12 (3) -> b13 (4) -> b15 (5) -> b23 (6) -> b30 (7)
# \-> ... (6) -> ... (7)
# \-> b3 (1) -> b4 (2)
tip(15)
b26 = block(26, spend=out6)
b26.vtx[0].vin[0].scriptSig = b'\x00'
b26.vtx[0].rehash()
# update_block causes the merkle root to get updated, even with no new
# transactions, and updates the required state.
b26 = update_block(26, [])
yield rejected(RejectResult(16, b'bad-cb-length'))
# Extend the b26 chain to make sure bitcoind isn't accepting b26
b27 = block(27, spend=out7)
yield rejected()
# Now try a too-large-coinbase script
tip(15)
b28 = block(28, spend=out6)
b28.vtx[0].vin[0].scriptSig = b'\x00' * 101
b28.vtx[0].rehash()
b28 = update_block(28, [])
yield rejected(RejectResult(16, b'bad-cb-length'))
# Extend the b28 chain to make sure bitcoind isn't accepted b28
b29 = block(29, spend=out7)
# TODO: Should get a reject message back with "bad-prevblk", except
# there's a bug that prevents this from being detected. Just note
# failure for now, and add the reject result later.
yield rejected()
# b30 has a max-sized coinbase scriptSig.
tip(23)
b30 = block(30)
b30.vtx[0].vin[0].scriptSig = b'\x00' * 100
b30.vtx[0].rehash()
b30 = update_block(30, [])
yield accepted()
if __name__ == '__main__':
FullBlockTest().main()
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