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dcb98466b4
Add the capability to simulate network splits to the RPC test framework and use it to do more extensive testing of 'getchaintips'.
90 lines
4.0 KiB
Python
Executable File
90 lines
4.0 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# Test fee estimation code
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#
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from test_framework import BitcoinTestFramework
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from bitcoinrpc.authproxy import AuthServiceProxy, JSONRPCException
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from util import *
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class EstimateFeeTest(BitcoinTestFramework):
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def setup_network(self):
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self.nodes = []
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self.nodes.append(start_node(0, self.options.tmpdir,
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["-debug=mempool", "-debug=estimatefee"]))
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# Node1 mines small-but-not-tiny blocks, and allows free transactions.
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# NOTE: the CreateNewBlock code starts counting block size at 1,000 bytes,
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# so blockmaxsize of 2,000 is really just 1,000 bytes (room enough for
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# 6 or 7 transactions)
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self.nodes.append(start_node(1, self.options.tmpdir,
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["-blockprioritysize=1500", "-blockmaxsize=2000",
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"-debug=mempool", "-debug=estimatefee"]))
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connect_nodes(self.nodes[1], 0)
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# Node2 is a stingy miner, that
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# produces very small blocks (room for only 3 or so transactions)
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node2args = [ "-blockprioritysize=0", "-blockmaxsize=1500",
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"-debug=mempool", "-debug=estimatefee"]
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self.nodes.append(start_node(2, self.options.tmpdir, node2args))
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connect_nodes(self.nodes[2], 0)
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self.is_network_split = False
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self.sync_all()
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def run_test(self):
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# Prime the memory pool with pairs of transactions
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# (high-priority, random fee and zero-priority, random fee)
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min_fee = Decimal("0.001")
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fees_per_kb = [];
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for i in range(12):
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(txid, txhex, fee) = random_zeropri_transaction(self.nodes, Decimal("1.1"),
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min_fee, min_fee, 20)
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tx_kbytes = (len(txhex)/2)/1000.0
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fees_per_kb.append(float(fee)/tx_kbytes)
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# Mine blocks with node2 until the memory pool clears:
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count_start = self.nodes[2].getblockcount()
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while len(self.nodes[2].getrawmempool()) > 0:
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self.nodes[2].setgenerate(True, 1)
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self.sync_all()
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all_estimates = [ self.nodes[0].estimatefee(i) for i in range(1,20) ]
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print("Fee estimates, super-stingy miner: "+str([str(e) for e in all_estimates]))
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# Estimates should be within the bounds of what transactions fees actually were:
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delta = 1.0e-6 # account for rounding error
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for e in filter(lambda x: x >= 0, all_estimates):
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if float(e)+delta < min(fees_per_kb) or float(e)-delta > max(fees_per_kb):
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raise AssertionError("Estimated fee (%f) out of range (%f,%f)"%(float(e), min_fee_kb, max_fee_kb))
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# Generate transactions while mining 30 more blocks, this time with node1:
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for i in range(30):
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for j in range(random.randrange(6-4,6+4)):
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(txid, txhex, fee) = random_transaction(self.nodes, Decimal("1.1"),
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Decimal("0.0"), min_fee, 20)
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tx_kbytes = (len(txhex)/2)/1000.0
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fees_per_kb.append(float(fee)/tx_kbytes)
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self.nodes[1].setgenerate(True, 1)
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self.sync_all()
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all_estimates = [ self.nodes[0].estimatefee(i) for i in range(1,20) ]
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print("Fee estimates, more generous miner: "+str([ str(e) for e in all_estimates]))
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for e in filter(lambda x: x >= 0, all_estimates):
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if float(e)+delta < min(fees_per_kb) or float(e)-delta > max(fees_per_kb):
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raise AssertionError("Estimated fee (%f) out of range (%f,%f)"%(float(e), min_fee_kb, max_fee_kb))
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# Finish by mining a normal-sized block:
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while len(self.nodes[0].getrawmempool()) > 0:
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self.nodes[0].setgenerate(True, 1)
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self.sync_all()
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final_estimates = [ self.nodes[0].estimatefee(i) for i in range(1,20) ]
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print("Final fee estimates: "+str([ str(e) for e in final_estimates]))
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if __name__ == '__main__':
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EstimateFeeTest().main()
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