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10d61505fe77880d6989115defa5e08417f3de2d [test] remove confusing p2p property (gzhao408) 549d30faf04612d9589c81edf9770c99e3221885 scripted-diff: replace p2p with p2ps[0] in p2p_invalid_tx (gzhao408) 7a0de46aeafb351cffa3410e1aae9809fd4698ad [doc] sample code for test framework p2p objects (gzhao408) 784f757994c1306bb6584b14c0c78617d6248432 [refactor] clarify tests by referencing p2p objects directly (gzhao408) Pull request description: The `TestNode` has a `p2p` property which is an alias for `p2ps[0]`. I think this should be removed because it can be confusing and misleading (to both the test writer and reviewer), especially if a TestNode has multiple p2ps connected (which is the case for many tests). Another example is when a test has multiple subtests that connect 1 p2p and use the `p2p` property to reference it. If the subtests don't completely clean up after themselves, the subtests may affect one another. The best way to refer to a connected p2p is use the object returned by `add_p2p_connection` like this: ```py p2p_conn = node.add_p2p_connection(P2PInterface()) ``` A good example is [p2p_invalid_locator.py](https://github.com/bitcoin/bitcoin/blob/master/test/functional/p2p_invalid_locator.py), which cleans up after itself (waits in both `wait_for_disconnect` and in `disconnect_p2ps`) but wouldn't need so much complexity if it just referenced the connections directly. If there is only one connected, it's not really that tedious to just use `node.p2ps[0]` instead of `node.p2p` (and it can always be aliased inside the test itself). ACKs for top commit: robot-dreams: utACK 10d61505fe77880d6989115defa5e08417f3de2d jnewbery: utACK 10d61505fe77880d6989115defa5e08417f3de2d guggero: Concept ACK 10d61505. Tree-SHA512: 5965548929794ec660dae03467640cb2156d7d826cefd26d3a126472cbc2494b855c1d26bbb7b412281fbdc92b9798b9765a85c27bc1a97f7798f27f64db6f13
256 lines
12 KiB
Python
Executable File
256 lines
12 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2014-2020 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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"""Test mining RPCs
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- getmininginfo
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- getblocktemplate proposal mode
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- submitblock"""
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import copy
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from decimal import Decimal
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from test_framework.blocktools import (
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create_coinbase,
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)
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from test_framework.messages import (
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CBlock,
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CBlockHeader,
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BLOCK_HEADER_SIZE,
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)
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from test_framework.p2p import P2PDataStore
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.util import (
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assert_equal,
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assert_raises_rpc_error,
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)
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def assert_template(node, block, expect, rehash=True):
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if rehash:
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block.hashMerkleRoot = block.calc_merkle_root()
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rsp = node.getblocktemplate(template_request={
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'data': block.serialize().hex(),
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'mode': 'proposal',
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})
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assert_equal(rsp, expect)
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class MiningTest(BitcoinTestFramework):
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def set_test_params(self):
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self.num_nodes = 2
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self.setup_clean_chain = True
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self.supports_cli = False
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def mine_chain(self):
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self.log.info('Create some old blocks')
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for _ in range(200):
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self.bump_mocktime(156)
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self.nodes[0].generate(1)
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mining_info = self.nodes[0].getmininginfo()
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assert_equal(mining_info['blocks'], 200)
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assert_equal(mining_info['currentblocktx'], 0)
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assert_equal(mining_info['currentblocksize'], 1000)
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self.restart_node(0)
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self.connect_nodes(0, 1)
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self.connect_nodes(1, 0)
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def run_test(self):
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self.mine_chain()
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node = self.nodes[0]
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def assert_submitblock(block, result_str_1, result_str_2=None):
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block.solve()
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result_str_2 = result_str_2 or 'duplicate-invalid'
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assert_equal(result_str_1, node.submitblock(hexdata=block.serialize().hex()))
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assert_equal(result_str_2, node.submitblock(hexdata=block.serialize().hex()))
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self.log.info('getmininginfo')
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mining_info = node.getmininginfo()
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assert_equal(mining_info['blocks'], 200)
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assert_equal(mining_info['chain'], self.chain)
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assert 'currentblocksize' not in mining_info
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assert 'currentblocktx' not in mining_info
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assert_equal(mining_info['difficulty'], Decimal('4.656542373906925E-10'))
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assert_equal(mining_info['networkhashps'], Decimal('0.01282051282051282'))
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assert_equal(mining_info['pooledtx'], 0)
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# Mine a block to leave initial block download
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node.generatetoaddress(1, node.get_deterministic_priv_key().address)
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tmpl = node.getblocktemplate()
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self.log.info("getblocktemplate: Test capability advertised")
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assert 'proposal' in tmpl['capabilities']
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assert 'coinbasetxn' not in tmpl
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next_height = int(tmpl["height"])
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coinbase_tx = create_coinbase(height=next_height)
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# sequence numbers must not be max for nLockTime to have effect
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coinbase_tx.vin[0].nSequence = 2**32 - 2
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coinbase_tx.rehash()
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block = CBlock()
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block.nVersion = tmpl["version"]
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block.hashPrevBlock = int(tmpl["previousblockhash"], 16)
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block.nTime = tmpl["curtime"]
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block.nBits = int(tmpl["bits"], 16)
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block.nNonce = 0
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block.vtx = [coinbase_tx]
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self.log.info("getblocktemplate: Test valid block")
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assert_template(node, block, None)
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self.log.info("submitblock: Test block decode failure")
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assert_raises_rpc_error(-22, "Block decode failed", node.submitblock, block.serialize()[:-15].hex())
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self.log.info("getblocktemplate: Test bad input hash for coinbase transaction")
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bad_block = copy.deepcopy(block)
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bad_block.vtx[0].vin[0].prevout.hash += 1
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bad_block.vtx[0].rehash()
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assert_template(node, bad_block, 'bad-cb-missing')
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self.log.info("submitblock: Test invalid coinbase transaction")
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assert_raises_rpc_error(-22, "Block does not start with a coinbase", node.submitblock, bad_block.serialize().hex())
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self.log.info("getblocktemplate: Test truncated final transaction")
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assert_raises_rpc_error(-22, "Block decode failed", node.getblocktemplate, {
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'data': block.serialize()[:-1].hex(),
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'mode': 'proposal',
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})
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self.log.info("getblocktemplate: Test duplicate transaction")
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bad_block = copy.deepcopy(block)
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bad_block.vtx.append(bad_block.vtx[0])
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assert_template(node, bad_block, 'bad-txns-duplicate')
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assert_submitblock(bad_block, 'bad-txns-duplicate', 'bad-txns-duplicate')
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self.log.info("getblocktemplate: Test invalid transaction")
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bad_block = copy.deepcopy(block)
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bad_tx = copy.deepcopy(bad_block.vtx[0])
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bad_tx.vin[0].prevout.hash = 255
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bad_tx.rehash()
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bad_block.vtx.append(bad_tx)
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assert_template(node, bad_block, 'bad-txns-inputs-missingorspent')
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assert_submitblock(bad_block, 'bad-txns-inputs-missingorspent')
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self.log.info("getblocktemplate: Test nonfinal transaction")
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bad_block = copy.deepcopy(block)
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bad_block.vtx[0].nLockTime = 2**32 - 1
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bad_block.vtx[0].rehash()
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assert_template(node, bad_block, 'bad-txns-nonfinal')
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assert_submitblock(bad_block, 'bad-txns-nonfinal')
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self.log.info("getblocktemplate: Test bad tx count")
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# The tx count is immediately after the block header
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bad_block_sn = bytearray(block.serialize())
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assert_equal(bad_block_sn[BLOCK_HEADER_SIZE], 1)
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bad_block_sn[BLOCK_HEADER_SIZE] += 1
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assert_raises_rpc_error(-22, "Block decode failed", node.getblocktemplate, {
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'data': bad_block_sn.hex(),
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'mode': 'proposal',
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})
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self.log.info("getblocktemplate: Test bad bits")
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bad_block = copy.deepcopy(block)
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bad_block.nBits = 469762303 # impossible in the real world
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assert_template(node, bad_block, 'bad-diffbits')
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self.log.info("getblocktemplate: Test bad merkle root")
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bad_block = copy.deepcopy(block)
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bad_block.hashMerkleRoot += 1
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assert_template(node, bad_block, 'bad-txnmrklroot', False)
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assert_submitblock(bad_block, 'bad-txnmrklroot', 'bad-txnmrklroot')
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self.log.info("getblocktemplate: Test bad timestamps")
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bad_block = copy.deepcopy(block)
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bad_block.nTime = 2**31 - 1
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assert_template(node, bad_block, 'time-too-new')
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assert_submitblock(bad_block, 'time-too-new', 'time-too-new')
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bad_block.nTime = 0
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assert_template(node, bad_block, 'time-too-old')
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assert_submitblock(bad_block, 'time-too-old', 'time-too-old')
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self.log.info("getblocktemplate: Test not best block")
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bad_block = copy.deepcopy(block)
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bad_block.hashPrevBlock = 123
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assert_template(node, bad_block, 'inconclusive-not-best-prevblk')
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assert_submitblock(bad_block, 'prev-blk-not-found', 'prev-blk-not-found')
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self.log.info('submitheader tests')
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assert_raises_rpc_error(-22, 'Block header decode failed', lambda: node.submitheader(hexdata='xx' * BLOCK_HEADER_SIZE))
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assert_raises_rpc_error(-22, 'Block header decode failed', lambda: node.submitheader(hexdata='ff' * (BLOCK_HEADER_SIZE-2)))
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assert_raises_rpc_error(-25, 'Must submit previous header', lambda: node.submitheader(hexdata=super(CBlock, bad_block).serialize().hex()))
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block.nTime += 1
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block.solve()
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def filter_tip_keys(chaintips):
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"""
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Dash chaintips rpc returns extra info in each tip (difficulty, chainwork, and
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forkpoint). Filter down to relevant ones checked in this test.
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"""
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check_keys = ["hash", "height", "branchlen", "status"]
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filtered_tips = []
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for tip in chaintips:
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filtered_tips.append({k: tip[k] for k in check_keys})
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return filtered_tips
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def chain_tip(b_hash, *, status='headers-only', branchlen=1):
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return {'hash': b_hash, 'height': 202, 'branchlen': branchlen, 'status': status}
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assert chain_tip(block.hash) not in filter_tip_keys(node.getchaintips())
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node.submitheader(hexdata=block.serialize().hex())
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assert chain_tip(block.hash) in filter_tip_keys(node.getchaintips())
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node.submitheader(hexdata=CBlockHeader(block).serialize().hex()) # Noop
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assert chain_tip(block.hash) in filter_tip_keys(node.getchaintips())
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bad_block_root = copy.deepcopy(block)
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bad_block_root.hashMerkleRoot += 2
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bad_block_root.solve()
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assert chain_tip(bad_block_root.hash) not in filter_tip_keys(node.getchaintips())
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node.submitheader(hexdata=CBlockHeader(bad_block_root).serialize().hex())
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assert chain_tip(bad_block_root.hash) in filter_tip_keys(node.getchaintips())
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# Should still reject invalid blocks, even if we have the header:
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assert_equal(node.submitblock(hexdata=bad_block_root.serialize().hex()), 'bad-txnmrklroot')
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assert_equal(node.submitblock(hexdata=bad_block_root.serialize().hex()), 'bad-txnmrklroot')
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assert chain_tip(bad_block_root.hash) in filter_tip_keys(node.getchaintips())
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# We know the header for this invalid block, so should just return early without error:
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node.submitheader(hexdata=CBlockHeader(bad_block_root).serialize().hex())
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assert chain_tip(bad_block_root.hash) in filter_tip_keys(node.getchaintips())
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bad_block_lock = copy.deepcopy(block)
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bad_block_lock.vtx[0].nLockTime = 2**32 - 1
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bad_block_lock.vtx[0].rehash()
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bad_block_lock.hashMerkleRoot = bad_block_lock.calc_merkle_root()
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bad_block_lock.solve()
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assert_equal(node.submitblock(hexdata=bad_block_lock.serialize().hex()), 'bad-txns-nonfinal')
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assert_equal(node.submitblock(hexdata=bad_block_lock.serialize().hex()), 'duplicate-invalid')
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# Build a "good" block on top of the submitted bad block
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bad_block2 = copy.deepcopy(block)
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bad_block2.hashPrevBlock = bad_block_lock.sha256
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bad_block2.solve()
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assert_raises_rpc_error(-25, 'bad-prevblk', lambda: node.submitheader(hexdata=CBlockHeader(bad_block2).serialize().hex()))
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# Should reject invalid header right away
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bad_block_time = copy.deepcopy(block)
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bad_block_time.nTime = 1
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bad_block_time.solve()
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assert_raises_rpc_error(-25, 'time-too-old', lambda: node.submitheader(hexdata=CBlockHeader(bad_block_time).serialize().hex()))
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# Should ask for the block from a p2p node, if they announce the header as well:
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peer = node.add_p2p_connection(P2PDataStore())
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peer.wait_for_getheaders(timeout=5) # Drop the first getheaders
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peer.send_blocks_and_test(blocks=[block], node=node)
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# Must be active now:
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assert chain_tip(block.hash, status='active', branchlen=0) in filter_tip_keys(node.getchaintips())
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# Building a few blocks should give the same results
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node.generatetoaddress(10, node.get_deterministic_priv_key().address)
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assert_raises_rpc_error(-25, 'time-too-old', lambda: node.submitheader(hexdata=CBlockHeader(bad_block_time).serialize().hex()))
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assert_raises_rpc_error(-25, 'bad-prevblk', lambda: node.submitheader(hexdata=CBlockHeader(bad_block2).serialize().hex()))
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node.submitheader(hexdata=CBlockHeader(block).serialize().hex())
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node.submitheader(hexdata=CBlockHeader(bad_block_root).serialize().hex())
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assert_equal(node.submitblock(hexdata=block.serialize().hex()), 'duplicate') # valid
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if __name__ == '__main__':
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MiningTest().main()
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