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#!/usr/bin/env python3
# Copyright (c) 2018 The Monero Project
#
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from __future__ import print_function
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import time
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import os
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import math
import monotonic
import util_resources
import multiprocessing
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""" Test daemon mining RPC calls
Test the following RPCs :
- start_mining
- stop_mining
- mining_status
"""
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from framework . daemon import Daemon
from framework . wallet import Wallet
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class MiningTest ( ) :
def run_test ( self ) :
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self . reset ( )
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self . create ( )
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self . mine ( True )
self . mine ( False )
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self . submitblock ( )
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self . reset ( )
self . test_randomx ( )
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def reset ( self ) :
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print ( ' Resetting blockchain ' )
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daemon = Daemon ( )
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res = daemon . get_height ( )
daemon . pop_blocks ( res . height - 1 )
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daemon . flush_txpool ( )
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def create ( self ) :
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print ( ' Creating wallet ' )
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wallet = Wallet ( )
# close the wallet if any, will throw if none is loaded
try : wallet . close_wallet ( )
except : pass
res = wallet . restore_deterministic_wallet ( seed = ' velvet lymph giddy number token physics poetry unquoted nibs useful sabotage limits benches lifestyle eden nitrogen anvil fewest avoid batch vials washing fences goat unquoted ' )
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def mine ( self , via_daemon ) :
print ( " Test mining via " + ( " daemon " if via_daemon else " wallet " ) )
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cores_init = multiprocessing . cpu_count ( ) # RX init uses all cores
cores_mine = 1 # Mining uses a parametric number of cores
time_pi_single_cpu = self . measure_cpu_power_get_time ( cores_mine )
time_pi_all_cores = self . measure_cpu_power_get_time ( cores_init )
# This is the last measurement, since it takes very little time and can be placed timewise-closer to the mining itself.
available_ram = self . get_available_ram ( ) # So far no ideas how to use this var, other than printing it
start = monotonic . monotonic ( )
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daemon = Daemon ( )
wallet = Wallet ( )
# check info/height/balance before generating blocks
res_info = daemon . get_info ( )
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initial_height = res_info . height
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res_getbalance = wallet . get_balance ( )
prev_balance = res_getbalance . balance
res_status = daemon . mining_status ( )
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if via_daemon :
res = daemon . start_mining ( ' 42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm ' , threads_count = 1 )
else :
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res = wallet . start_mining ( threads_count = cores_mine )
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res_status = daemon . mining_status ( )
assert res_status . active == True
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assert res_status . threads_count == cores_mine
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assert res_status . address == ' 42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm '
assert res_status . is_background_mining_enabled == False
assert res_status . block_reward > = 600000000000
# wait till we mined a few of them
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target_height = initial_height + 5
height = initial_height
"""
Randomx init has high variance on CI machines due to noisy neighbors ,
taking up resources in parallel ( including by our own jobs ) .
Mining is organized in the following scheme :
1 ) first loop ' s pass: RandomX init and mining
2 ) every next pass : only mining
Pass 1 ) takes much more time than pass 2 )
Pass 1 ) uses all cores , pass 2 ) just one ( currently )
For the above reasons both passes need separate timeouts and adjustments .
After the first pass , the timeout is being reset to a lower value .
"""
def calc_timeout ( seconds_constant , time_pi , cores ) :
"""
The time it took to calculate pi under certain conditions
is proportional to the time it will take to calculate the real job .
The number of cores used decreases the time almost linearly .
"""
timeout = float ( seconds_constant ) * time_pi / float ( cores )
return timeout
timeout_base_init = 60 # RX init needs more time
timeout_base_mine = 20
timeout_init = calc_timeout ( timeout_base_init , time_pi_all_cores , cores_init )
timeout_mine = calc_timeout ( timeout_base_mine , time_pi_single_cpu , cores_mine )
msg = " Timeout for {} adjusted for the currently available CPU power, is {:.1f} s "
print ( msg . format ( " init, " , timeout_init ) )
print ( msg . format ( " mining, " , timeout_mine ) )
timeout = timeout_init
rx_inited = False # Gets initialized in the first pass of the below loop
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while height < target_height :
seen_height = height
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for _ in range ( int ( math . ceil ( timeout ) ) ) :
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time . sleep ( 1 )
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seconds_passed = monotonic . monotonic ( ) - start
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height = daemon . get_info ( ) . height
if height > seen_height :
break
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else :
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assert False , ' Failed to mine successor to block %d (initial block = %d ) after %d s. RX initialized = %r ' % ( seen_height , initial_height , round ( seconds_passed ) , rx_inited )
if not rx_inited :
rx_inited = True
timeout = timeout_mine # Resetting the timeout after first mined block and RX init
self . print_time_taken ( start , " RX init + mining 1st block " )
else :
self . print_time_taken ( start , " mining iteration " )
self . print_time_taken ( start , " mining total " )
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if via_daemon :
res = daemon . stop_mining ( )
else :
res = wallet . stop_mining ( )
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res_status = daemon . mining_status ( )
assert res_status . active == False
res_info = daemon . get_info ( )
new_height = res_info . height
wallet . refresh ( )
res_getbalance = wallet . get_balance ( )
balance = res_getbalance . balance
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assert balance > = prev_balance + ( new_height - initial_height ) * 600000000000
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if via_daemon :
res = daemon . start_mining ( ' 42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm ' , threads_count = 1 , do_background_mining = True )
else :
res = wallet . start_mining ( threads_count = 1 , do_background_mining = True )
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res_status = daemon . mining_status ( )
assert res_status . active == True
assert res_status . threads_count == 1
assert res_status . address == ' 42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm '
assert res_status . is_background_mining_enabled == True
assert res_status . block_reward > = 600000000000
# don't wait, might be a while if the machine is busy, which it probably is
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if via_daemon :
res = daemon . stop_mining ( )
else :
res = wallet . stop_mining ( )
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res_status = daemon . mining_status ( )
assert res_status . active == False
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def measure_cpu_power_get_time ( self , cores ) :
print ( " Measuring the currently available CPU power... " )
time_pi = util_resources . get_time_pi_seconds ( cores )
print ( " Time taken to calculate Pi on {} core(s) was {:.2f} s. " . format ( cores , time_pi ) )
return time_pi
def get_available_ram ( self ) :
available_ram = util_resources . available_ram_gb ( )
threshold_ram = 3
print ( " Available RAM = " , round ( available_ram , 1 ) , " GB " )
if available_ram < threshold_ram :
print ( " Warning! Available RAM = " , round ( available_ram , 1 ) ,
" GB is less than the reasonable threshold = " , threshold_ram ,
" . The RX init might exceed the calculated timeout. " )
return available_ram
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def submitblock ( self ) :
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print ( " Test submitblock " )
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daemon = Daemon ( )
res = daemon . get_height ( )
height = res . height
res = daemon . generateblocks ( ' 42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm ' , 5 )
assert len ( res . blocks ) == 5
hashes = res . blocks
blocks = [ ]
for block_hash in hashes :
res = daemon . getblock ( hash = block_hash )
assert len ( res . blob ) > 0 and len ( res . blob ) % 2 == 0
blocks . append ( res . blob )
res = daemon . get_height ( )
assert res . height == height + 5
res = daemon . pop_blocks ( 5 )
res = daemon . get_height ( )
assert res . height == height
for i in range ( len ( hashes ) ) :
block_hash = hashes [ i ]
assert len ( block_hash ) == 64
res = daemon . submitblock ( blocks [ i ] )
res = daemon . get_height ( )
assert res . height == height + i + 1
assert res . hash == block_hash
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def print_time_taken ( self , start , msg_context ) :
seconds_passed = monotonic . monotonic ( ) - start
print ( " Time taken for " , msg_context , " = " , round ( seconds_passed , 1 ) , " s. " )
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def test_randomx ( self ) :
print ( " Test RandomX " )
daemon = Daemon ( )
wallet = Wallet ( )
res = daemon . get_height ( )
daemon . pop_blocks ( res . height - 1 )
daemon . flush_txpool ( )
epoch = int ( os . environ [ ' SEEDHASH_EPOCH_BLOCKS ' ] )
lag = int ( os . environ [ ' SEEDHASH_EPOCH_LAG ' ] )
address = ' 42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm '
# check we can generate blocks, and that the seed hash changes when expected
res = daemon . getblocktemplate ( address )
first_seed_hash = res . seed_hash
daemon . generateblocks ( address , 1 + lag )
res = daemon . mining_status ( )
assert res . active == False
assert res . pow_algorithm == ' RandomX '
res = daemon . getblocktemplate ( address )
seed_hash = res . seed_hash
t0 = time . time ( )
daemon . generateblocks ( address , epoch - 3 )
t0 = time . time ( ) - t0
res = daemon . get_info ( )
assert res . height == lag + epoch - 1
res = daemon . getblocktemplate ( address )
assert seed_hash == res . seed_hash
t0 = time . time ( )
daemon . generateblocks ( address , 1 )
t0 = time . time ( ) - t0
res = daemon . get_info ( )
assert res . height == lag + epoch
daemon . generateblocks ( address , 1 )
res = daemon . getblocktemplate ( address )
assert seed_hash != res . seed_hash
new_seed_hash = res . seed_hash
t0 = time . time ( )
daemon . generateblocks ( address , epoch - 1 )
t0 = time . time ( ) - t0
res = daemon . getblocktemplate ( address )
assert new_seed_hash == res . seed_hash
daemon . generateblocks ( address , 1 )
res = daemon . getblocktemplate ( address )
assert new_seed_hash != res . seed_hash
new_seed_hash = res . seed_hash
t0 = time . time ( )
daemon . generateblocks ( address , epoch - 1 )
t0 = time . time ( ) - t0
res = daemon . getblocktemplate ( address )
assert new_seed_hash == res . seed_hash
daemon . generateblocks ( address , 1 )
res = daemon . getblocktemplate ( address )
assert new_seed_hash != res . seed_hash
#print('First mining: ' + str(t0))
# pop all these blocks, and feed them again to monerod
print ( ' Recreating the chain ' )
res = daemon . get_info ( )
height = res . height
assert height == lag + epoch * 3 + 1
block_hashes = [ x . hash for x in daemon . getblockheadersrange ( 0 , height - 1 ) . headers ]
assert len ( block_hashes ) == height
blocks = [ ]
for i in range ( len ( block_hashes ) ) :
res = daemon . getblock ( height = i )
assert res . block_header . hash == block_hashes [ i ]
blocks . append ( res . blob )
daemon . pop_blocks ( height )
res = daemon . get_info ( )
assert res . height == 1
res = daemon . getblocktemplate ( address )
assert first_seed_hash == res . seed_hash
t0 = time . time ( )
for h in range ( len ( block_hashes ) ) :
res = daemon . submitblock ( blocks [ h ] )
t0 = time . time ( ) - t0
res = daemon . get_info ( )
assert height == res . height
res = daemon . getblocktemplate ( address )
assert new_seed_hash != res . seed_hash
res = daemon . pop_blocks ( 1 )
res = daemon . getblocktemplate ( address )
assert new_seed_hash == res . seed_hash
#print('Submit: ' + str(t0))
# start mining from the genesis block again
print ( ' Mining from genesis block again ' )
res = daemon . get_height ( )
top_hash = res . hash
res = daemon . getblockheaderbyheight ( 0 )
genesis_block_hash = res . block_header . hash
t0 = time . time ( )
daemon . generateblocks ( address , height - 2 , prev_block = genesis_block_hash )
t0 = time . time ( ) - t0
res = daemon . get_info ( )
assert res . height == height - 1
assert res . top_block_hash == top_hash
#print('Second mining: ' + str(t0))
# that one will cause a huge reorg
print ( ' Adding one to reorg ' )
res = daemon . generateblocks ( address , 1 )
assert len ( res . blocks ) == 1
new_top_hash = res . blocks [ 0 ]
res = daemon . get_info ( )
assert res . height == height
assert res . top_block_hash == new_top_hash
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class Guard :
def __enter__ ( self ) :
pass
def __exit__ ( self , exc_type , exc_value , traceback ) :
daemon = Daemon ( )
try : daemon . stop_mining ( )
except : pass
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if __name__ == ' __main__ ' :
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with Guard ( ) as guard :
MiningTest ( ) . run_test ( )