monero/tests/functional_tests/blockchain.py

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#!/usr/bin/env python3
# Copyright (c) 2018-2023, The Monero Project
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#
# All rights reserved.
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# permitted provided that the following conditions are met:
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# 1. Redistributions of source code must retain the above copyright notice, this list of
# conditions and the following disclaimer.
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# 2. Redistributions in binary form must reproduce the above copyright notice, this list
# of conditions and the following disclaimer in the documentation and/or other
# materials provided with the distribution.
#
# 3. Neither the name of the copyright holder nor the names of its contributors may be
# used to endorse or promote products derived from this software without specific
# prior written permission.
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
# EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
# MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
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from __future__ import print_function
import time
"""Test daemon blockchain RPC calls
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Test the following RPCs:
- get_info
- generateblocks
- misc block retrieval
- pop_blocks
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- [TODO: many tests still need to be written]
"""
from framework.daemon import Daemon
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class BlockchainTest():
def run_test(self):
self.reset()
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self._test_generateblocks(5)
self._test_alt_chains()
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def reset(self):
print('Resetting blockchain')
daemon = Daemon()
res = daemon.get_height()
daemon.pop_blocks(res.height - 1)
daemon.flush_txpool()
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def _test_generateblocks(self, blocks):
assert blocks >= 2
print("Test generating", blocks, 'blocks')
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daemon = Daemon()
# check info/height before generating blocks
res_info = daemon.get_info()
height = res_info.height
prev_block = res_info.top_block_hash
res_height = daemon.get_height()
assert res_height.height == height
assert int(res_info.wide_cumulative_difficulty, 16) == (res_info.cumulative_difficulty_top64 << 64) + res_info.cumulative_difficulty
cumulative_difficulty = int(res_info.wide_cumulative_difficulty, 16)
# we should not see a block at height
ok = False
try: daemon.getblock(height = height)
except: ok = True
assert ok
res = daemon.get_fee_estimate()
assert res.fee == 1200000
assert res.quantization_mask == 10000
res = daemon.get_fee_estimate(10)
assert res.fee <= 1200000
# generate blocks
res_generateblocks = daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', blocks)
# check info/height after generateblocks blocks
assert res_generateblocks.height == height + blocks - 1
res_info = daemon.get_info()
assert res_info.height == height + blocks
assert res_info.top_block_hash != prev_block
res_height = daemon.get_height()
assert res_height.height == height + blocks
# get the blocks, check they have the right height
res_getblock = []
for n in range(blocks):
res_getblock.append(daemon.getblock(height = height + n))
block_header = res_getblock[n].block_header
daemon, wallet: new pay for RPC use system Daemons intended for public use can be set up to require payment in the form of hashes in exchange for RPC service. This enables public daemons to receive payment for their work over a large number of calls. This system behaves similarly to a pool, so payment takes the form of valid blocks every so often, yielding a large one off payment, rather than constant micropayments. This system can also be used by third parties as a "paywall" layer, where users of a service can pay for use by mining Monero to the service provider's address. An example of this for web site access is Primo, a Monero mining based website "paywall": https://github.com/selene-kovri/primo This has some advantages: - incentive to run a node providing RPC services, thereby promoting the availability of third party nodes for those who can't run their own - incentive to run your own node instead of using a third party's, thereby promoting decentralization - decentralized: payment is done between a client and server, with no third party needed - private: since the system is "pay as you go", you don't need to identify yourself to claim a long lived balance - no payment occurs on the blockchain, so there is no extra transactional load - one may mine with a beefy server, and use those credits from a phone, by reusing the client ID (at the cost of some privacy) - no barrier to entry: anyone may run a RPC node, and your expected revenue depends on how much work you do - Sybil resistant: if you run 1000 idle RPC nodes, you don't magically get more revenue - no large credit balance maintained on servers, so they have no incentive to exit scam - you can use any/many node(s), since there's little cost in switching servers - market based prices: competition between servers to lower costs - incentive for a distributed third party node system: if some public nodes are overused/slow, traffic can move to others - increases network security - helps counteract mining pools' share of the network hash rate - zero incentive for a payer to "double spend" since a reorg does not give any money back to the miner And some disadvantages: - low power clients will have difficulty mining (but one can optionally mine in advance and/or with a faster machine) - payment is "random", so a server might go a long time without a block before getting one - a public node's overall expected payment may be small Public nodes are expected to compete to find a suitable level for cost of service. The daemon can be set up this way to require payment for RPC services: monerod --rpc-payment-address 4xxxxxx \ --rpc-payment-credits 250 --rpc-payment-difficulty 1000 These values are an example only. The --rpc-payment-difficulty switch selects how hard each "share" should be, similar to a mining pool. The higher the difficulty, the fewer shares a client will find. The --rpc-payment-credits switch selects how many credits are awarded for each share a client finds. Considering both options, clients will be awarded credits/difficulty credits for every hash they calculate. For example, in the command line above, 0.25 credits per hash. A client mining at 100 H/s will therefore get an average of 25 credits per second. For reference, in the current implementation, a credit is enough to sync 20 blocks, so a 100 H/s client that's just starting to use Monero and uses this daemon will be able to sync 500 blocks per second. The wallet can be set to automatically mine if connected to a daemon which requires payment for RPC usage. It will try to keep a balance of 50000 credits, stopping mining when it's at this level, and starting again as credits are spent. With the example above, a new client will mine this much credits in about half an hour, and this target is enough to sync 500000 blocks (currently about a third of the monero blockchain). There are three new settings in the wallet: - credits-target: this is the amount of credits a wallet will try to reach before stopping mining. The default of 0 means 50000 credits. - auto-mine-for-rpc-payment-threshold: this controls the minimum credit rate which the wallet considers worth mining for. If the daemon credits less than this ratio, the wallet will consider mining to be not worth it. In the example above, the rate is 0.25 - persistent-rpc-client-id: if set, this allows the wallet to reuse a client id across runs. This means a public node can tell a wallet that's connecting is the same as one that connected previously, but allows a wallet to keep their credit balance from one run to the other. Since the wallet only mines to keep a small credit balance, this is not normally worth doing. However, someone may want to mine on a fast server, and use that credit balance on a low power device such as a phone. If left unset, a new client ID is generated at each wallet start, for privacy reasons. To mine and use a credit balance on two different devices, you can use the --rpc-client-secret-key switch. A wallet's client secret key can be found using the new rpc_payments command in the wallet. Note: anyone knowing your RPC client secret key is able to use your credit balance. The wallet has a few new commands too: - start_mining_for_rpc: start mining to acquire more credits, regardless of the auto mining settings - stop_mining_for_rpc: stop mining to acquire more credits - rpc_payments: display information about current credits with the currently selected daemon The node has an extra command: - rpc_payments: display information about clients and their balances The node will forget about any balance for clients which have been inactive for 6 months. Balances carry over on node restart.
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assert abs(block_header.timestamp - time.time()) < 60 # within 60 seconds
assert block_header.height == height + n
assert block_header.orphan_status == False
assert block_header.depth == blocks - n - 1
assert block_header.prev_hash == prev_block, prev_block
assert int(block_header.wide_difficulty, 16) == (block_header.difficulty_top64 << 64) + block_header.difficulty
assert int(block_header.wide_cumulative_difficulty, 16) == (block_header.cumulative_difficulty_top64 << 64) + block_header.cumulative_difficulty
assert block_header.reward >= 600000000000 # tail emission
cumulative_difficulty += int(block_header.wide_difficulty, 16)
assert cumulative_difficulty == int(block_header.wide_cumulative_difficulty, 16)
assert block_header.block_size > 0
assert block_header.block_weight >= block_header.block_size
assert block_header.long_term_weight > 0
prev_block = block_header.hash
# we should not see a block after that
ok = False
try: daemon.getblock(height = height + blocks)
except: ok = True
assert ok
# getlastblockheader and by height/hash should return the same block
res_getlastblockheader = daemon.getlastblockheader()
assert res_getlastblockheader.block_header == block_header
res_getblockheaderbyhash = daemon.getblockheaderbyhash(prev_block)
assert res_getblockheaderbyhash.block_header == block_header
res_getblockheaderbyheight = daemon.getblockheaderbyheight(height + blocks - 1)
assert res_getblockheaderbyheight.block_header == block_header
# getting a block template after that should have the right height, etc
res_getblocktemplate = daemon.getblocktemplate('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm')
assert res_getblocktemplate.height == height + blocks
assert res_getblocktemplate.reserved_offset > 0
assert res_getblocktemplate.prev_hash == res_info.top_block_hash
assert res_getblocktemplate.expected_reward >= 600000000000
assert len(res_getblocktemplate.blocktemplate_blob) > 0
assert len(res_getblocktemplate.blockhashing_blob) > 0
assert int(res_getblocktemplate.wide_difficulty, 16) == (res_getblocktemplate.difficulty_top64 << 64) + res_getblocktemplate.difficulty
# diff etc should be the same
assert res_getblocktemplate.prev_hash == res_info.top_block_hash
res_getlastblockheader = daemon.getlastblockheader()
# pop a block
res_popblocks = daemon.pop_blocks(1)
assert res_popblocks.height == height + blocks - 1
res_info = daemon.get_info()
assert res_info.height == height + blocks - 1
# getlastblockheader and by height/hash should return the previous block
block_header = res_getblock[blocks - 2].block_header
block_header.depth = 0 # this will be different, ignore it
res_getlastblockheader = daemon.getlastblockheader()
assert res_getlastblockheader.block_header == block_header
res_getblockheaderbyhash = daemon.getblockheaderbyhash(block_header.hash)
assert res_getblockheaderbyhash.block_header == block_header
res_getblockheaderbyheight = daemon.getblockheaderbyheight(height + blocks - 2)
assert res_getblockheaderbyheight.block_header == block_header
# we should not see the popped block anymore
ok = False
try: daemon.getblock(height = height + blocks - 1)
except: ok = True
assert ok
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# get transactions
res = daemon.get_info()
assert res.height == height + blocks - 1
nblocks = height + blocks - 1
res = daemon.getblockheadersrange(0, nblocks - 1)
assert len(res.headers) == nblocks
assert res.headers[-1] == block_header
txids = [x.miner_tx_hash for x in res.headers]
res = daemon.get_transactions(txs_hashes = txids)
assert len(res.txs) == nblocks
assert not 'missed_txs' in res or len(res.missed_txs) == 0
running_output_index = 0
for i in range(len(txids)):
tx = res.txs[i]
assert tx.tx_hash == txids[i]
assert not tx.double_spend_seen
assert not tx.in_pool
assert tx.block_height == i
if i > 0:
for idx in tx.output_indices:
assert idx == running_output_index
running_output_index += 1
res_out = daemon.get_outs([{'amount': 0, 'index': idx} for idx in tx.output_indices], get_txid = True)
assert len(res_out.outs) == len(tx.output_indices)
for out in res_out.outs:
assert len(out.key) == 64
assert len(out.mask) == 64
assert not out.unlocked
assert out.height == i
assert out.txid == txids[i]
for i in range(height + nblocks - 1):
res_sum = daemon.get_coinbase_tx_sum(i, 1)
res_header = daemon.getblockheaderbyheight(i)
assert res_sum.emission_amount == res_header.block_header.reward
assert res_sum.emission_amount_top64 == 0
assert res_sum.emission_amount == int(res_sum.wide_emission_amount, 16)
assert res_sum.fee_amount == int(res_sum.wide_fee_amount, 16)
res = daemon.get_coinbase_tx_sum(0, 1)
assert res.emission_amount == 17592186044415
assert res.emission_amount_top64 == 0
assert res.fee_amount == 0
assert res.fee_amount_top64 == 0
sum_blocks = height + nblocks - 1
res = daemon.get_coinbase_tx_sum(0, sum_blocks)
extrapolated = 17592186044415 + 17592186044415 * 2 * (sum_blocks - 1)
assert res.emission_amount < extrapolated and res.emission_amount > extrapolated - 1e12
assert res.fee_amount == 0
sum_blocks_emission = res.emission_amount
res = daemon.get_coinbase_tx_sum(1, sum_blocks)
assert res.emission_amount == sum_blocks_emission - 17592186044415
assert res.fee_amount == 0
res = daemon.get_output_distribution([0, 1, 17592186044415], 0, 0)
assert len(res.distributions) == 3
for a in range(3):
assert res.distributions[a].amount == [0, 1, 17592186044415][a]
assert res.distributions[a].start_height == 0
assert res.distributions[a].base == 0
assert len(res.distributions[a].distribution) == height + nblocks - 1
assert res.distributions[a].binary == False
for i in range(height + nblocks - 1):
assert res.distributions[a].distribution[i] == (1 if i > 0 and a == 0 else 1 if a == 2 and i == 0 else 0)
res = daemon.get_output_histogram([], min_count = 0, max_count = 0)
assert len(res.histogram) == 2
for i in range(2):
assert res.histogram[i].amount in [0, 17592186044415]
assert res.histogram[i].total_instances in [height + nblocks - 2, 1]
assert res.histogram[i].unlocked_instances == 0
assert res.histogram[i].recent_instances == 0
res = daemon.get_fee_estimate()
assert res.fee == 1200000
assert res.quantization_mask == 10000
res = daemon.get_fee_estimate(10)
assert res.fee <= 1200000
def _test_alt_chains(self):
print('Testing alt chains')
daemon = Daemon()
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res = daemon.get_alt_blocks_hashes()
starting_alt_blocks = res.blks_hashes if 'blks_hashes' in res else []
res = daemon.get_info()
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root_block_hash = res.top_block_hash
height = res.height
prev_hash = res.top_block_hash
res_template = daemon.getblocktemplate('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm')
nonce = 0
# 5 siblings
alt_blocks = [None] * 5
for i in range(len(alt_blocks)):
res = daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1, prev_block = prev_hash, starting_nonce = nonce)
assert res.height == height
assert len(res.blocks) == 1
txid = res.blocks[0]
res = daemon.getblockheaderbyhash(txid)
nonce = res.block_header.nonce
print('mined ' + ('alt' if res.block_header.orphan_status else 'tip') + ' block ' + str(height) + ', nonce ' + str(nonce))
assert res.block_header.prev_hash == prev_hash
assert res.block_header.orphan_status == (i > 0)
alt_blocks[i] = txid
nonce += 1
print('mining 3 on 1')
# three more on [1]
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chain1 = []
res = daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 3, prev_block = alt_blocks[1], starting_nonce = nonce)
assert res.height == height + 3
assert len(res.blocks) == 3
blk_hash = res.blocks[2]
res = daemon.getblockheaderbyhash(blk_hash)
nonce = res.block_header.nonce
assert not res.block_header.orphan_status
nonce += 1
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chain1.append(blk_hash)
chain1.append(res.block_header.prev_hash)
print('Checking alt blocks match')
res = daemon.get_alt_blocks_hashes()
assert len(res.blks_hashes) == len(starting_alt_blocks) + 4
for txid in alt_blocks:
assert txid in res.blks_hashes or txid == alt_blocks[1]
print('mining 4 on 3')
# 4 more on [3], the chain will reorg when we mine the 4th
top_block_hash = blk_hash
prev_block = alt_blocks[3]
for i in range(4):
res = daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1, prev_block = prev_block)
assert res.height == height + 1 + i
assert len(res.blocks) == 1
prev_block = res.blocks[-1]
res = daemon.getblockheaderbyhash(res.blocks[-1])
assert res.block_header.orphan_status == (i < 3)
res = daemon.get_info()
assert res.height == ((height + 4) if i < 3 else height + 5)
assert res.top_block_hash == (top_block_hash if i < 3 else prev_block)
res = daemon.get_info()
assert res.height == height + 5
assert res.top_block_hash == prev_block
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print('Checking alt blocks match')
res = daemon.get_alt_blocks_hashes()
blks_hashes = res.blks_hashes
assert len(blks_hashes) == len(starting_alt_blocks) + 7
for txid in alt_blocks:
assert txid in blks_hashes or txid == alt_blocks[3]
for txid in chain1:
assert txid in blks_hashes
res = daemon.get_alternate_chains()
assert len(res.chains) == 4
tips = [chain.block_hash for chain in res.chains]
for txid in tips:
assert txid in blks_hashes
for chain in res.chains:
assert chain.length in [1, 4]
assert chain.length == len(chain.block_hashes)
assert chain.height == height + chain.length - 1 # all happen start at the same height
assert chain.main_chain_parent_block == root_block_hash
for txid in [alt_blocks[0], alt_blocks[2], alt_blocks[4]]:
assert len([chain for chain in res.chains if chain.block_hash == txid]) == 1
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print('Saving blockchain explicitely')
daemon.save_bc()
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if __name__ == '__main__':
BlockchainTest().run_test()