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442 lines
19 KiB
442 lines
19 KiB
#!/usr/bin/env python3
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# Copyright (c) 2014-2022 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 fee estimation code."""
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from copy import deepcopy
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from decimal import Decimal
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import os
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import random
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import time
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from test_framework.messages import (
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COIN,
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)
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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_greater_than,
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assert_greater_than_or_equal,
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assert_raises_rpc_error,
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satoshi_round,
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)
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from test_framework.wallet import MiniWallet
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MAX_FILE_AGE = 60
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SECONDS_PER_HOUR = 60 * 60
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def small_txpuzzle_randfee(
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wallet, from_node, conflist, unconflist, amount, min_fee, fee_increment, batch_reqs
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):
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"""Create and send a transaction with a random fee using MiniWallet.
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The function takes a list of confirmed outputs and unconfirmed outputs
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and attempts to use the confirmed list first for its inputs.
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It adds the newly created outputs to the unconfirmed list.
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Returns (raw transaction, fee)."""
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# It's best to exponentially distribute our random fees
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# because the buckets are exponentially spaced.
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# Exponentially distributed from 1-128 * fee_increment
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rand_fee = float(fee_increment) * (1.1892 ** random.randint(0, 28))
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# Total fee ranges from min_fee to min_fee + 127*fee_increment
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fee = min_fee - fee_increment + satoshi_round(rand_fee)
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utxos_to_spend = []
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total_in = Decimal("0.00000000")
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while total_in <= (amount + fee) and len(conflist) > 0:
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t = conflist.pop(0)
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total_in += t["value"]
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utxos_to_spend.append(t)
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while total_in <= (amount + fee) and len(unconflist) > 0:
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t = unconflist.pop(0)
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total_in += t["value"]
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utxos_to_spend.append(t)
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if total_in <= amount + fee:
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raise RuntimeError(f"Insufficient funds: need {amount + fee}, have {total_in}")
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tx = wallet.create_self_transfer_multi(
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utxos_to_spend=utxos_to_spend,
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fee_per_output=0,
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)["tx"]
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tx.vout[0].nValue = int((total_in - amount - fee) * COIN)
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tx.vout.append(deepcopy(tx.vout[0]))
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tx.vout[1].nValue = int(amount * COIN)
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tx.rehash()
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txid = tx.hash
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tx_hex = tx.serialize().hex()
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batch_reqs.append(from_node.sendrawtransaction.get_request(hexstring=tx_hex, maxfeerate=0))
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unconflist.append({"txid": txid, "vout": 0, "value": total_in - amount - fee})
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unconflist.append({"txid": txid, "vout": 1, "value": amount})
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return (tx.get_vsize(), fee)
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def check_raw_estimates(node, fees_seen):
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"""Call estimaterawfee and verify that the estimates meet certain invariants."""
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delta = 1.0e-6 # account for rounding error
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for i in range(1, 26):
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for _, e in node.estimaterawfee(i).items():
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feerate = float(e["feerate"])
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assert_greater_than(feerate, 0)
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if feerate + delta < min(fees_seen) or feerate - delta > max(fees_seen):
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raise AssertionError(
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f"Estimated fee ({feerate}) out of range ({min(fees_seen)},{max(fees_seen)})"
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)
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def check_smart_estimates(node, fees_seen):
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"""Call estimatesmartfee and verify that the estimates meet certain invariants."""
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delta = 1.0e-6 # account for rounding error
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last_feerate = float(max(fees_seen))
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all_smart_estimates = [node.estimatesmartfee(i) for i in range(1, 26)]
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mempoolMinFee = node.getmempoolinfo()["mempoolminfee"]
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minRelaytxFee = node.getmempoolinfo()["minrelaytxfee"]
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for i, e in enumerate(all_smart_estimates): # estimate is for i+1
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feerate = float(e["feerate"])
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assert_greater_than(feerate, 0)
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assert_greater_than_or_equal(feerate, float(mempoolMinFee))
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assert_greater_than_or_equal(feerate, float(minRelaytxFee))
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if feerate + delta < min(fees_seen) or feerate - delta > max(fees_seen):
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raise AssertionError(
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f"Estimated fee ({feerate}) out of range ({min(fees_seen)},{max(fees_seen)})"
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)
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if feerate - delta > last_feerate:
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raise AssertionError(
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f"Estimated fee ({feerate}) larger than last fee ({last_feerate}) for lower number of confirms"
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)
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last_feerate = feerate
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if i == 0:
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assert_equal(e["blocks"], 2)
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else:
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assert_greater_than_or_equal(i + 1, e["blocks"])
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def check_estimates(node, fees_seen):
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check_raw_estimates(node, fees_seen)
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check_smart_estimates(node, fees_seen)
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def make_tx(wallet, utxo, feerate):
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"""Create a 1in-1out transaction with a specific input and feerate (sat/vb)."""
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return wallet.create_self_transfer(
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utxo_to_spend=utxo,
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fee_rate=Decimal(feerate * 1000) / COIN,
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)
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class EstimateFeeTest(BitcoinTestFramework):
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def set_test_params(self):
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self.num_nodes = 3
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# Force fSendTrickle to true (via whitelist.noban)
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self.extra_args = [
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["-whitelist=noban@127.0.0.1"],
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["-whitelist=noban@127.0.0.1", "-blockmaxweight=68000"],
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["-whitelist=noban@127.0.0.1", "-blockmaxweight=32000"],
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]
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def setup_network(self):
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"""
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We'll setup the network to have 3 nodes that all mine with different parameters.
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But first we need to use one node to create a lot of outputs
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which we will use to generate our transactions.
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"""
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self.add_nodes(3, extra_args=self.extra_args)
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# Use node0 to mine blocks for input splitting
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# Node1 mines small blocks but that are bigger than the expected transaction rate.
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# NOTE: the CreateNewBlock code starts counting block weight at 4,000 weight,
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# (68k weight is room enough for 120 or so transactions)
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# Node2 is a stingy miner, that
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# produces too small blocks (room for only 55 or so transactions)
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def transact_and_mine(self, numblocks, mining_node):
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min_fee = Decimal("0.00001")
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# We will now mine numblocks blocks generating on average 100 transactions between each block
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# We shuffle our confirmed txout set before each set of transactions
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# small_txpuzzle_randfee will use the transactions that have inputs already in the chain when possible
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# resorting to tx's that depend on the mempool when those run out
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for _ in range(numblocks):
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random.shuffle(self.confutxo)
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batch_sendtx_reqs = []
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for _ in range(random.randrange(100 - 50, 100 + 50)):
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from_index = random.randint(1, 2)
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(tx_bytes, fee) = small_txpuzzle_randfee(
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self.wallet,
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self.nodes[from_index],
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self.confutxo,
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self.memutxo,
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Decimal("0.005"),
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min_fee,
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min_fee,
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batch_sendtx_reqs,
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)
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tx_kbytes = tx_bytes / 1000.0
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self.fees_per_kb.append(float(fee) / tx_kbytes)
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for node in self.nodes:
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node.batch(batch_sendtx_reqs)
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self.sync_mempools(wait=0.1)
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mined = mining_node.getblock(self.generate(mining_node, 1)[0], True)["tx"]
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# update which txouts are confirmed
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newmem = []
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for utx in self.memutxo:
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if utx["txid"] in mined:
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self.confutxo.append(utx)
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else:
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newmem.append(utx)
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self.memutxo = newmem
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def initial_split(self, node):
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"""Split two coinbase UTxOs into many small coins"""
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self.confutxo = self.wallet.send_self_transfer_multi(
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from_node=node,
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utxos_to_spend=[self.wallet.get_utxo() for _ in range(2)],
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num_outputs=2048)['new_utxos']
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while len(node.getrawmempool()) > 0:
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self.generate(node, 1, sync_fun=self.no_op)
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def sanity_check_estimates_range(self):
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"""Populate estimation buckets, assert estimates are in a sane range and
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are strictly increasing as the target decreases."""
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self.fees_per_kb = []
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self.memutxo = []
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self.log.info("Will output estimates for 1/2/3/6/15/25 blocks")
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for _ in range(2):
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self.log.info(
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"Creating transactions and mining them with a block size that can't keep up"
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)
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# Create transactions and mine 10 small blocks with node 2, but create txs faster than we can mine
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self.transact_and_mine(10, self.nodes[2])
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check_estimates(self.nodes[1], self.fees_per_kb)
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self.log.info(
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"Creating transactions and mining them at a block size that is just big enough"
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)
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# Generate transactions while mining 10 more blocks, this time with node1
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# which mines blocks with capacity just above the rate that transactions are being created
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self.transact_and_mine(10, self.nodes[1])
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check_estimates(self.nodes[1], self.fees_per_kb)
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# Finish by mining a normal-sized block:
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while len(self.nodes[1].getrawmempool()) > 0:
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self.generate(self.nodes[1], 1)
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self.log.info("Final estimates after emptying mempools")
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check_estimates(self.nodes[1], self.fees_per_kb)
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def test_feerate_mempoolminfee(self):
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high_val = 3 * self.nodes[1].estimatesmartfee(1)["feerate"]
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self.restart_node(1, extra_args=[f"-minrelaytxfee={high_val}"])
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check_estimates(self.nodes[1], self.fees_per_kb)
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self.restart_node(1)
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def sanity_check_rbf_estimates(self, utxos):
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"""During 5 blocks, broadcast low fee transactions. Only 10% of them get
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confirmed and the remaining ones get RBF'd with a high fee transaction at
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the next block.
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The block policy estimator should return the high feerate.
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"""
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# The broadcaster and block producer
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node = self.nodes[0]
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miner = self.nodes[1]
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# In sat/vb
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low_feerate = 1
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high_feerate = 10
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# Cache the utxos of which to replace the spender after it failed to get
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# confirmed
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utxos_to_respend = []
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txids_to_replace = []
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assert_greater_than_or_equal(len(utxos), 250)
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for _ in range(5):
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# Broadcast 45 low fee transactions that will need to be RBF'd
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txs = []
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for _ in range(45):
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u = utxos.pop(0)
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tx = make_tx(self.wallet, u, low_feerate)
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utxos_to_respend.append(u)
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txids_to_replace.append(tx["txid"])
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txs.append(tx)
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# Broadcast 5 low fee transaction which don't need to
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for _ in range(5):
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tx = make_tx(self.wallet, utxos.pop(0), low_feerate)
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txs.append(tx)
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batch_send_tx = [node.sendrawtransaction.get_request(tx["hex"]) for tx in txs]
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for n in self.nodes:
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n.batch(batch_send_tx)
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# Mine the transactions on another node
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self.sync_mempools(wait=0.1, nodes=[node, miner])
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for txid in txids_to_replace:
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miner.prioritisetransaction(txid=txid, fee_delta=-COIN)
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self.generate(miner, 1)
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# RBF the low-fee transactions
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while len(utxos_to_respend) > 0:
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u = utxos_to_respend.pop(0)
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tx = make_tx(self.wallet, u, high_feerate)
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node.sendrawtransaction(tx["hex"])
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txs.append(tx)
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dec_txs = [res["result"] for res in node.batch([node.decoderawtransaction.get_request(tx["hex"]) for tx in txs])]
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self.wallet.scan_txs(dec_txs)
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# Mine the last replacement txs
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self.sync_mempools(wait=0.1, nodes=[node, miner])
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self.generate(miner, 1)
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# Only 10% of the transactions were really confirmed with a low feerate,
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# the rest needed to be RBF'd. We must return the 90% conf rate feerate.
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high_feerate_kvb = Decimal(high_feerate) / COIN * 10 ** 3
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est_feerate = node.estimatesmartfee(2)["feerate"]
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assert_equal(est_feerate, high_feerate_kvb)
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def test_old_fee_estimate_file(self):
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# Get the initial fee rate while node is running
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fee_rate = self.nodes[0].estimatesmartfee(1)["feerate"]
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# Restart node to ensure fee_estimate.dat file is read
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self.restart_node(0)
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assert_equal(self.nodes[0].estimatesmartfee(1)["feerate"], fee_rate)
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fee_dat = self.nodes[0].chain_path / "fee_estimates.dat"
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# Stop the node and backdate the fee_estimates.dat file more than MAX_FILE_AGE
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self.stop_node(0)
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last_modified_time = time.time() - (MAX_FILE_AGE + 1) * SECONDS_PER_HOUR
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os.utime(fee_dat, (last_modified_time, last_modified_time))
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# Start node and ensure the fee_estimates.dat file was not read
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self.start_node(0)
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assert_equal(self.nodes[0].estimatesmartfee(1)["errors"], ["Insufficient data or no feerate found"])
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def test_estimate_dat_is_flushed_periodically(self):
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fee_dat = self.nodes[0].chain_path / "fee_estimates.dat"
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os.remove(fee_dat) if os.path.exists(fee_dat) else None
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# Verify that fee_estimates.dat does not exist
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assert_equal(os.path.isfile(fee_dat), False)
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# Verify if the string "Flushed fee estimates to fee_estimates.dat." is present in the debug log file.
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# If present, it indicates that fee estimates have been successfully flushed to disk.
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with self.nodes[0].assert_debug_log(expected_msgs=["Flushed fee estimates to fee_estimates.dat."], timeout=1):
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# Mock the scheduler for an hour to flush fee estimates to fee_estimates.dat
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self.nodes[0].mockscheduler(SECONDS_PER_HOUR)
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# Verify that fee estimates were flushed and fee_estimates.dat file is created
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assert_equal(os.path.isfile(fee_dat), True)
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# Verify that the estimates remain the same if there are no blocks in the flush interval
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block_hash_before = self.nodes[0].getbestblockhash()
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fee_dat_initial_content = open(fee_dat, "rb").read()
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with self.nodes[0].assert_debug_log(expected_msgs=["Flushed fee estimates to fee_estimates.dat."], timeout=1):
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# Mock the scheduler for an hour to flush fee estimates to fee_estimates.dat
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self.nodes[0].mockscheduler(SECONDS_PER_HOUR)
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# Verify that there were no blocks in between the flush interval
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assert_equal(block_hash_before, self.nodes[0].getbestblockhash())
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fee_dat_current_content = open(fee_dat, "rb").read()
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assert_equal(fee_dat_current_content, fee_dat_initial_content)
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# Verify that the estimates remain the same after shutdown with no blocks before shutdown
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self.restart_node(0)
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fee_dat_current_content = open(fee_dat, "rb").read()
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assert_equal(fee_dat_current_content, fee_dat_initial_content)
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# Verify that the estimates are not the same if new blocks were produced in the flush interval
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with self.nodes[0].assert_debug_log(expected_msgs=["Flushed fee estimates to fee_estimates.dat."], timeout=1):
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# Mock the scheduler for an hour to flush fee estimates to fee_estimates.dat
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self.generate(self.nodes[0], 5, sync_fun=self.no_op)
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self.nodes[0].mockscheduler(SECONDS_PER_HOUR)
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fee_dat_current_content = open(fee_dat, "rb").read()
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assert fee_dat_current_content != fee_dat_initial_content
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fee_dat_initial_content = fee_dat_current_content
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# Generate blocks before shutdown and verify that the fee estimates are not the same
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self.generate(self.nodes[0], 5, sync_fun=self.no_op)
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self.restart_node(0)
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fee_dat_current_content = open(fee_dat, "rb").read()
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assert fee_dat_current_content != fee_dat_initial_content
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def test_acceptstalefeeestimates_option(self):
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# Get the initial fee rate while node is running
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fee_rate = self.nodes[0].estimatesmartfee(1)["feerate"]
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self.stop_node(0)
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fee_dat = self.nodes[0].chain_path / "fee_estimates.dat"
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# Stop the node and backdate the fee_estimates.dat file more than MAX_FILE_AGE
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last_modified_time = time.time() - (MAX_FILE_AGE + 1) * SECONDS_PER_HOUR
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os.utime(fee_dat, (last_modified_time, last_modified_time))
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# Restart node with -acceptstalefeeestimates option to ensure fee_estimate.dat file is read
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self.start_node(0,extra_args=["-acceptstalefeeestimates"])
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assert_equal(self.nodes[0].estimatesmartfee(1)["feerate"], fee_rate)
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def run_test(self):
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self.log.info("This test is time consuming, please be patient")
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self.log.info("Splitting inputs so we can generate tx's")
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# Split two coinbases into many small utxos
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self.start_node(0)
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self.wallet = MiniWallet(self.nodes[0])
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self.initial_split(self.nodes[0])
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self.log.info("Finished splitting")
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# Now we can connect the other nodes, didn't want to connect them earlier
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# so the estimates would not be affected by the splitting transactions
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self.start_node(1)
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self.start_node(2)
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self.connect_nodes(1, 0)
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self.connect_nodes(0, 2)
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self.connect_nodes(2, 1)
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self.sync_all()
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self.log.info("Testing estimates with single transactions.")
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self.sanity_check_estimates_range()
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self.log.info("Test fee_estimates.dat is flushed periodically")
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self.test_estimate_dat_is_flushed_periodically()
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# check that the effective feerate is greater than or equal to the mempoolminfee even for high mempoolminfee
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self.log.info(
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"Test fee rate estimation after restarting node with high MempoolMinFee"
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)
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self.test_feerate_mempoolminfee()
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self.log.info("Test acceptstalefeeestimates option")
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self.test_acceptstalefeeestimates_option()
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self.log.info("Test reading old fee_estimates.dat")
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self.test_old_fee_estimate_file()
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self.log.info("Restarting node with fresh estimation")
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self.stop_node(0)
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fee_dat = os.path.join(self.nodes[0].datadir, self.chain, "fee_estimates.dat")
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os.remove(fee_dat)
|
|
self.start_node(0)
|
|
self.connect_nodes(0, 1)
|
|
self.connect_nodes(0, 2)
|
|
|
|
self.log.info("Testing estimates with RBF.")
|
|
self.sanity_check_rbf_estimates(self.confutxo + self.memutxo)
|
|
|
|
self.log.info("Testing that fee estimation is disabled in blocksonly.")
|
|
self.restart_node(0, ["-blocksonly"])
|
|
assert_raises_rpc_error(
|
|
-32603, "Fee estimation disabled", self.nodes[0].estimatesmartfee, 2
|
|
)
|
|
|
|
|
|
if __name__ == "__main__":
|
|
EstimateFeeTest().main()
|