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sample_armory_code.py
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sample_armory_code.py
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from __future__ import print_function
import sys
from armoryengine.BDM import BDM_BLOCKCHAIN_READY, TheBDM
from armoryengine.ArmoryUtils import RightNow
sys.path.append('..')
sys.path.append('.')
from armoryengine import *
from math import sqrt
from time import sleep
# Run at least one of the LoadBlockchain's if running anything after it
run_WalletCreate = False
run_LoadBlockchain_Async = False
run_LoadBlockchain_Block = True
run_WalletRescan = False
run_DiffChangeList = True
run_UniqueAddresses = False
run_CumulativeSize = True
run_TrafficCamera = False
run_SatoshiDice = False
################################################################################
if run_WalletCreate:
# NOTE:
# ALL ADDRESSES THROUGHOUT EVERYTHING ARE IN 20-BYTE BINARY FORM (hash160/addr20)
# Use hash160_to_addrStr() and addrStr_to_hash160() to convert...
print('\n\nCreating a new C++ wallet, add a few addresses...')
cppWallet = Cpp.BtcWallet()
cppWallet.addAddress_1_( hex_to_binary('11b366edfc0a8b66feebae5c2e25a7b6a5d1cf31') ) # hash160 (hex)
cppWallet.addAddress_1_( addrStr_to_hash160('1EbAUHsitefy3rSECh8eK2fdAWTUbpVUDN')[1] ) # addrStr
cppWallet.addAddress_1_('\x1b~\xa7*\x85\t\x12\xb7=\xd4G\xf3\xbd\xc1\x00\xf1\x00\x8b\xde\xb0') # hash160 (bin)
print('Addresses in this wallet:')
for i in range(cppWallet.getNumAddr()):
print('\t', hash160_to_addrStr(cppWallet.getAddrByIndex(i).getAddrStr20()))
print('\n\nRegistering the wallet with the BlockDataManager & loading...')
cppWallet.registerWallet()
################################################################################
if run_LoadBlockchain_Async:
"""
By setting blocking=False, most calls to TheBDM will return immediately,
after queuing the BDM to execute the operation in the background. You have
to check back later to see when it's done. However, even when blocking is
false, any functions that return data must block so the data can be
returned. If you are in asynchronous mode, and don't want to ever wait
for anything, always check TheBDM.getState()==BDM_BLOCKCHAIN_READY before
requesting data that will force blocking.
"""
start = RightNow()
TheBDM.setBlocking(False)
TheBDM.setOnlineMode(True)
sleep(2)
print('Waiting for blockchain loading to finish', end=' ')
while not TheBDM.getState()==BDM_BLOCKCHAIN_READY:
print('.', end=' ')
sys.stdout.flush()
sleep(2)
print('Loading blockchain took %0.1f sec' % (RightNow() - start))
topBlock = TheBDM.getTopBlockHeight()
print('\n\nCurrent Top Block is:', topBlock)
TheBDM.blockchain().top().pprint()
################################################################################
if run_LoadBlockchain_Block:
start = RightNow()
TheBDM.setBlocking(True)
TheBDM.setOnlineMode(True)
# The setOnlineMode should block until blockchain loading is complete
print('Loading blockchain took %0.1f sec' % (RightNow() - start))
topBlock = TheBDM.getTopBlockHeight()
print('\n\nCurrent Top Block is:', topBlock)
TheBDM.blockchain().top().pprint()
################################################################################
if run_WalletRescan:
print('Inducing a rescan by adding a new address and requesting...')
cppWallet.addAddress_1_( hex_to_binary('0cdcd0f388a31b11ff11b1d8d7a9f978b37bc7af') )
TheBDM.scanBlockchainForTx(cppWallet)
print('\n\nBalance of this wallet:', coin2str(cppWallet.getSpendableBalance()))
print('Unspent outputs:')
unspentTxOuts = cppWallet.getSpendableTxOutList() #IGNOREZC isnt defined in this script
for utxo in unspentTxOuts:
utxo.pprintOneLine(topBlock)
print('\n\nTransaction history of this wallet:')
ledger = cppWallet.getTxLedger()
for le in ledger:
le.pprintOneLine()
################################################################################
if run_DiffChangeList:
print('\n\n')
print('-'*80)
print('Now for something completely different...')
start = RightNow()
print('\n\nCollect all difficulty changes...')
print('Block'.rjust(10), 'Difficulty'.rjust(14), '\t', 'Date')
prevDiff = 0
maxDiff = hex_to_int('ff'*32)
minDiff = maxDiff
minDiffBlk = hex_to_int('ff'*32)
for h in xrange(0,topBlock+1):
header = TheBDM.blockchain().getHeaderByHeight(h)
currDiff = header.getDifficulty()
thisHash = header.getThisHash()
thisDiff = binary_to_int(thisHash);
if thisDiff < minDiff:
minDiff = thisDiff
minDiffBlk = h
if not prevDiff==currDiff:
print(str(h).rjust(10), end=' ')
print(('%0.1f'%currDiff).rjust(14), end=' ')
print('\t', unixTimeToFormatStr(header.getTimestamp()))
prevDiff = currDiff
from math import log
print('Took %0.1f seconds to collect difficulty list' % (RightNow()-start))
print('\nBlock with the lowest difficulty:')
print(' Block Num: ', minDiffBlk)
print(' Block Hash: ', int_to_hex(minDiff, 32, BIGENDIAN))
print(' Equiv Difficult:', maxDiff/(minDiff * 2**32))
print(' Equiv Diff bits:', log(maxDiff/minDiff)/log(2))
print(' Block Header (hex): ')
print(' ', binary_to_hex(TheBDM.blockchain().getHeaderByHeight(minDiffBlk).serialize()))
################################################################################
if run_CumulativeSize:
f = open('blksizelist.txt','w')
cumul = 0
for h in xrange(0,topBlock+1):
if h%10000 == 0:
print('\tAccumulated %d blocks' % h)
header = TheBDM.blockchain().getHeaderByHeight(h)
cumul += header.getBlockSize()
if (h%2016==0) or h+1>=topBlock:
f.write('%d %d\n' % (h,cumul))
f.close()
################################################################################
if run_UniqueAddresses:
start = RightNow()
allAddr = set()
totalTxOutEver = 0
for h in xrange(0,topBlock+1):
if h%10000 == 0:
print('\tScanned %d blocks' % h)
header = TheBDM.blockchain().getHeaderByHeight(h)
txList = header.getTxRefPtrList()
for txref in txList:
tx = txref.getTxCopy()
for nout in range(tx.getNumTxOut()):
txout = tx.getTxOut(nout)
if txout.isStandard():
allAddr.add(txout.getRecipientAddr())
totalTxOutEver += 1
print('Took %0.1f seconds to count all addresses' % (RightNow()-start))
print('There are %d unique addresses in the blockchain!' % len(allAddr))
print('There are %d standard TxOuts in all blocks' % totalTxOutEver)
################################################################################
if run_TrafficCamera:
# will fill this in later
pass
################################################################################
if run_SatoshiDice:
print('\n\nLet look at all the bets ever placed at SatoshiDice.com')
# First, get the Satoshi dice page so we can extract the addresses and payouts
import urllib
httppage = urllib.urlopen('http://www.satoshidice.com').read().split('\n')
# Given this line is part of the wager/addr table, get all the data from it
def extractLineData(line):
line2 = line.replace('<','~').replace('>','~').replace('=','~').replace(' ','~')
pcs = line2.split('~')
out = []
ltflag = False
for pc in pcs:
if pc=='lessthan':
ltflag = True
if ltflag and pc.isdigit():
out.append(pc)
ltflag = False
if pc.startswith('1dice') or pc.endswith('%') or pc.endswith('x'):
out.append(pc)
return out
# We have a webpage and a method to process the relevant lines
diceTargetMap = {}
dicePctWinMap = {}
diceWinMultMap = {}
diceLoseMultMap = {}
diceBetsMadeMap = {}
diceBetsPaidOut = {}
diceBetsMadeMapList = {}
WIN, LOSE, REFUND = 0,1,2
for line in httppage:
if 'lessthan' in line and '1dice' in line:
targ,addr,winr,mult,hous,rtrn = extractLineData(line)
diceAddr = addrStr_to_hash160(addr)[1]
diceTargetMap[diceAddr] = int(targ)
dicePctWinMap[diceAddr] = float(winr[:-1])/100.0
diceWinMultMap[diceAddr] = float(mult[:-1])
diceLoseMultMap[diceAddr] = 0.005 # looks to be a static 0.5% now, spread is all in the win mult
diceBetsMadeMap[diceAddr] = 0
diceBetsPaidOut[diceAddr] = [0, 0, 0]
diceBetsMadeMapList[diceAddr] = []
betsIn = {}
sdRecvAmt = 0
sdRtrnAmt = 0
sdFeePaid = 0
totalBets = 0
def getTxFee(tx):
btcIn, btcOut = 0,0
for i in range(tx.getNumTxIn()):
btcIn += TheBDM.getSentValue(tx.getTxIn(i))
for i in range(tx.getNumTxOut()):
btcOut += tx.getTxOut(i).getValue()
return (btcIn - btcOut)
# Approximation of a bet's variance isn't good enough for me. Assume fair
# odds, compute exactly! These are the stats for SatoshiDice.com bank acct
def computeWagerStats(amt, diceAddr):
# SD loses money on winning bets, gains money on losing bets
#afterFee = amt - 0.0005e8
#winAmt = afterFee - diceWinMultMap[diceAddr]*amt
#winPct = diceTargetMap[diceAddr] / 65536.0;
#losAmt = afterFee - diceLoseMultMap[diceAddr]*amt
#losPct = 1-winPct
# Modified calculation to produce theoretical numbers assuming better
# game design
payout = 0.97
afterFee = amt
winAmt = afterFee - payout*amt
winPct = diceTargetMap[diceAddr] / 65536.0;
losAmt = afterFee - ((1-payout)/2)*amt
losPct = 1-winPct
avg = winPct*winAmt + losPct*losAmt
var = (winPct*(winAmt-avg)**2) + (losPct*(losAmt-avg)**2)
#print amt, diceTargetMap[diceAddr], diceWinMultMap[diceAddr], diceLoseMultMap[diceAddr]
#print winAmt, winPct, losAmt, losPct
#print avg, var, sqrt(var)
#print coin2str(avg), coin2str(var), coin2str(sqrt(var))
#print '\n'
return [avg, var]
completedIn = 0.0
completedOut = 0.0
totalAvgSum = 0.0
totalVarSum = 0.0
firstSDTxPassed = False
totalSDBytes = 0
totalBCBytes = 0
totalSDTx = 0
totalBCTx = 0
fileAllBets = open('sdAllBets.txt','w')
try:
for h in xrange(175000,topBlock+1):
if h%10000 == 0:
print('\tSearched %d blocks' % h)
header = TheBDM.blockchain().getHeaderByHeight(h)
txList = header.getTxRefPtrList()
for txref in txList:
tx = txref.getTxCopy()
# Check every TxOut in this transaction for SatoshiDice bets
txHash = tx.getThisHash()
if firstSDTxPassed:
totalBCBytes += tx.getSize()
totalBCTx += 1
thisIsAWager = False
for nout in range(tx.getNumTxOut()):
txout = tx.getTxOut(nout)
if txout.isStandard():
if txout.getRecipientAddr() in dicePctWinMap:
# This is a SatoshiDice bet!
firstSDTxPassed = True
# Add this to the total tx/byte count, first time
if not thisIsAWager:
totalSDBytes += tx.getSize()
totalSDTx += 1
thisIsAWager = True
totalBets += 1
diceAddr = txout.getRecipientAddr()
betAmt = txout.getValue()
betWin = betAmt * diceWinMultMap[diceAddr]
betLos = betAmt * diceLoseMultMap[diceAddr]
firstTxIn = tx.getTxIn(0)
bettorAddr = TheBDM.getSenderAddr20(firstTxIn)
## Create the serialized OutPoint, store the tx
outpointStr = txHash + int_to_binary(nout, widthBytes=4)
betsIn[outpointStr] = [betAmt, betWin, betLos, diceAddr, bettorAddr]
sdRecvAmt += betAmt
diceBetsMadeMap[diceAddr] += 1
winPct = diceTargetMap[diceAddr] / 65536.0;
losPct = 1-winPct
winMult = diceWinMultMap[diceAddr]
losMult = diceLoseMultMap[diceAddr]
fileAllBets.write('%s %d %f %f %f %f\n' % (coin2str(betAmt), diceTargetMap[diceAddr], winPct, winMult, losPct, losMult))
for nin in range(tx.getNumTxIn()):
txin = tx.getTxIn(nin)
op = txin.getOutPoint()
opStr = op.getTxHash() + int_to_binary(op.getTxOutIndex(), widthBytes=4)
returned = -1
if opStr in betsIn:
betAmt, betWin, betLos, diceAddr, addr160 = betsIn[opStr]
for nout in range(tx.getNumTxOut()):
if addr160 == tx.getTxOut(nout).getRecipientAddr():
returned = tx.getTxOut(nout).getValue()
sdRtrnAmt += returned
sdFeePaid += getTxFee(tx)
completedIn += betAmt
completedOut += returned
avg, var = computeWagerStats(betAmt, diceAddr)
totalAvgSum += avg
totalVarSum += var
diceBetsMadeMapList[diceAddr].append(betAmt)
totalSDBytes += tx.getSize()
totalSDTx += 1
break
if returned==-1:
print('Did not find recip, failed...')
continue
else:
if returned <= betLos*1.25:
diceBetsPaidOut[diceAddr][LOSE] += 1
elif abs(returned - betAmt) < betLos/2.0:
diceBetsPaidOut[diceAddr][REFUND] += 1
else:
diceBetsPaidOut[diceAddr][WIN] += 1
del betsIn[opStr]
break
except:
raise
print('Unaccounted-for Bets:')
i = 0
unacctBTC = 0
for key,val in betsIn.iteritems():
txid = binary_to_hex(key[:32 ])
outidx = binary_to_int(key[ 32:])
betAmt = val[0]
sdAddr = val[3]
recip1 = val[4]
#print i, hex_switchEndian(txid), '%03d'%outidx, coin2str(betAmt),
#print hash160_to_addrStr(sdAddr)[:8], hash160_to_addrStr(recip1)[:8]
i += 1
unacctBTC += betAmt
print('Results:', unixTimeToFormatStr(RightNow()))
print('')
print('Address'.rjust(10), end=' ')
print('Target'.rjust(8), end=' ')
print('Should Win'.rjust(12), '|', end=' ')
print('#Bets'.rjust(8), '|', end=' ')
print('Win'.center(16), '|', end=' ')
print('Lose'.center(16), '|', end=' ')
print('Refunds'.center(17), '|', end=' ')
print('Accounted-for')
print('-'*118)
totalBets = 0
diceAddrList = []
for a160,ct in diceBetsMadeMap.iteritems():
diceAddrList.append([a160, diceTargetMap[a160]])
diceAddrList.sort(key=(lambda x: x[1]))
for a160,targ in diceAddrList:
total = diceBetsMadeMap[a160]
winners = diceBetsPaidOut[a160][WIN]
losers = diceBetsPaidOut[a160][LOSE]
refunds = diceBetsPaidOut[a160][REFUND]
total2 = winners+losers
print(hash160_to_addrStr(a160)[:9].rjust(10), end=' ')
print(str(targ).rjust(8), end=' ')
print(('%0.5f' % (targ/65536.)).rjust(12), end=' ')
print('|', str(total).rjust(8), end=' ')
print('|', str(winners).rjust(6), ('(%0.5f)'%(winners/float(total2))).rjust(8), end=' ')
print('|', str(losers).rjust(6), ('(%0.5f)'%(losers/float(total2))).rjust(8), end=' ')
print('|', str(refunds).rjust(6), ('(%0.5f)'%(refunds/float(total2))).rjust(8), end=' ')
print('|', '(%0.3f)'.rjust(10) % ((winners+losers+refunds)/float(total)))
totalBets += total
print('-'*118)
print(' '*32, '|', str(totalBets).rjust(8), '|')
print('')
print('-'*118)
print('Total Bets Made: ', totalBets)
print('Cumulative Wagers: ', coin2str(sdRecvAmt), 'BTC')
print('Cumulative Rewards: ', coin2str(sdRtrnAmt), 'BTC')
print('Cumulative Fees Paid: ', coin2str(sdFeePaid), 'BTC')
print('Cumulative Unreturned: ', coin2str(unacctBTC), 'BTC')
print('----')
print('SD Profit/Loss From Games: ', coin2str(sdRecvAmt - sdRtrnAmt), 'BTC')
print('SD Profit/Loss With Fees: ', coin2str(sdRecvAmt - (sdRtrnAmt + sdFeePaid)), 'BTC')
#f = open('bethist.txt','w')
#for a160,targ in diceAddrList:
#f.write(str(targ)+'\n')
#f.write(' '.join([coin2str(b) for b in diceBetsMadeMapList[a160]]))
#f.write('\n')
#f.close()
BtoMB = lambda x: float(x)/(1024*1024.)
print('Since Satoshi Dice started, there have been:')
print('Blockchain Tx: %d : SatoshiDice Tx: %d (%0.1f%%)' % (totalBCTx, totalSDTx, 100*float(totalSDTx)/totalBCTx))
print('Blockchain MB: %0.1f : SatoshiDice Tx: %0.1f (%0.1f%%)' % (BtoMB(totalBCBytes), BtoMB(totalSDBytes), 100*float(totalSDBytes)/totalBCBytes))