Module src.onionrproofs
Onionr - Private P2P Communication
Proof of work module
Expand source code
'''
Onionr - Private P2P Communication
Proof of work module
'''
'''
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
'''
import multiprocessing, time, math, threading, binascii, sys, json
import nacl.encoding, nacl.hash, nacl.utils
import config, logger
from onionrblocks import onionrblockapi, storagecounter
from onionrutils import bytesconverter
from onionrcrypto import hashers
from .blocknoncestart import BLOCK_NONCE_START_INT
config.reload()
def getDifficultyModifier():
'''returns the difficulty modifier for block storage based
on a variety of factors, currently only disk use.
'''
percentUse = storagecounter.StorageCounter().get_percent()
difficultyIncrease = math.floor(4 * percentUse) # difficulty increase is a step function
return difficultyIncrease
def getDifficultyForNewBlock(data):
'''
Get difficulty for block. Accepts size in integer, Block instance, or str/bytes full block contents
'''
if isinstance(data, onionrblockapi.Block):
dataSizeInBytes = len(bytesconverter.str_to_bytes(data.getRaw()))
else:
dataSizeInBytes = len(bytesconverter.str_to_bytes(data))
minDifficulty = config.get('general.minimum_send_pow', 4)
totalDifficulty = max(minDifficulty, math.floor(dataSizeInBytes / 1000000.0)) + getDifficultyModifier()
return totalDifficulty
return retData
def getHashDifficulty(h: str):
'''
Return the amount of leading zeroes in a hex hash string (hexHash)
'''
return len(h) - len(h.lstrip('0'))
def hashMeetsDifficulty(hexHash):
'''
Return bool for a hash string to see if it meets pow difficulty defined in config
'''
hashDifficulty = getHashDifficulty(hexHash)
try:
expected = int(config.get('general.minimum_block_pow'))
except TypeError:
raise ValueError('Missing general.minimum_block_pow config')
return hashDifficulty >= expected
class POW:
def __init__(self, metadata, data, threadCount = 1, minDifficulty=0):
self.foundHash = False
self.difficulty = 0
self.data = data
self.metadata = metadata
self.threadCount = threadCount
self.hashing = False
json_metadata = json.dumps(metadata).encode()
try:
self.data = self.data.encode()
except AttributeError:
pass
if minDifficulty > 0:
self.difficulty = minDifficulty
else:
# Calculate difficulty. Dumb for now, may use good algorithm in the future.
self.difficulty = getDifficultyForNewBlock(bytes(json_metadata + b'\n' + self.data))
logger.info('Computing POW (difficulty: %s)...' % (self.difficulty,))
self.mainHash = '0' * 64
self.puzzle = self.mainHash[0:min(self.difficulty, len(self.mainHash))]
for i in range(max(1, threadCount)):
t = threading.Thread(name = 'thread%s' % i, target = self.pow, args = (True,))
t.start()
def pow(self, reporting = False):
startTime = math.floor(time.time())
self.hashing = True
self.reporting = reporting
iFound = False # if current thread is the one that found the answer
nonce = BLOCK_NONCE_START_INT
while self.hashing:
self.metadata['pow'] = nonce
payload = json.dumps(self.metadata).encode() + b'\n' + self.data
token = hashers.sha3_hash(payload)
try:
# on some versions, token is bytes
token = token.decode()
except AttributeError:
pass
if self.puzzle == token[0:self.difficulty]:
self.hashing = False
iFound = True
self.result = payload
break
nonce += 1
if iFound:
endTime = math.floor(time.time())
if self.reporting:
logger.debug('Found token after %s seconds: %s' % (endTime - startTime, token), timestamp=True)
def shutdown(self):
self.hashing = False
self.puzzle = ''
def changeDifficulty(self, newDiff):
self.difficulty = newDiff
def getResult(self):
'''
Returns the result then sets to false, useful to automatically clear the result
'''
try:
retVal = self.result
except AttributeError:
retVal = False
self.result = False
return retVal
def waitForResult(self):
'''
Returns the result only when it has been found, False if not running and not found
'''
result = False
try:
while True:
result = self.getResult()
if not self.hashing:
break
else:
time.sleep(1)
except KeyboardInterrupt:
self.shutdown()
logger.warn('Got keyboard interrupt while waiting for POW result, stopping')
return resultSub-modules
src.onionrproofs.blocknoncestartsrc.onionrproofs.subprocesspow-
Onionr - Private P2P Communication …
Functions
def getDifficultyForNewBlock(data)-
Get difficulty for block. Accepts size in integer, Block instance, or str/bytes full block contents
Expand source code
def getDifficultyForNewBlock(data): ''' Get difficulty for block. Accepts size in integer, Block instance, or str/bytes full block contents ''' if isinstance(data, onionrblockapi.Block): dataSizeInBytes = len(bytesconverter.str_to_bytes(data.getRaw())) else: dataSizeInBytes = len(bytesconverter.str_to_bytes(data)) minDifficulty = config.get('general.minimum_send_pow', 4) totalDifficulty = max(minDifficulty, math.floor(dataSizeInBytes / 1000000.0)) + getDifficultyModifier() return totalDifficulty return retData def getDifficultyModifier()-
returns the difficulty modifier for block storage based on a variety of factors, currently only disk use.
Expand source code
def getDifficultyModifier(): '''returns the difficulty modifier for block storage based on a variety of factors, currently only disk use. ''' percentUse = storagecounter.StorageCounter().get_percent() difficultyIncrease = math.floor(4 * percentUse) # difficulty increase is a step function return difficultyIncrease def getHashDifficulty(h)-
Return the amount of leading zeroes in a hex hash string (hexHash)
Expand source code
def getHashDifficulty(h: str): ''' Return the amount of leading zeroes in a hex hash string (hexHash) ''' return len(h) - len(h.lstrip('0')) def hashMeetsDifficulty(hexHash)-
Return bool for a hash string to see if it meets pow difficulty defined in config
Expand source code
def hashMeetsDifficulty(hexHash): ''' Return bool for a hash string to see if it meets pow difficulty defined in config ''' hashDifficulty = getHashDifficulty(hexHash) try: expected = int(config.get('general.minimum_block_pow')) except TypeError: raise ValueError('Missing general.minimum_block_pow config') return hashDifficulty >= expected
Classes
class POW (metadata, data, threadCount=1, minDifficulty=0)-
Expand source code
class POW: def __init__(self, metadata, data, threadCount = 1, minDifficulty=0): self.foundHash = False self.difficulty = 0 self.data = data self.metadata = metadata self.threadCount = threadCount self.hashing = False json_metadata = json.dumps(metadata).encode() try: self.data = self.data.encode() except AttributeError: pass if minDifficulty > 0: self.difficulty = minDifficulty else: # Calculate difficulty. Dumb for now, may use good algorithm in the future. self.difficulty = getDifficultyForNewBlock(bytes(json_metadata + b'\n' + self.data)) logger.info('Computing POW (difficulty: %s)...' % (self.difficulty,)) self.mainHash = '0' * 64 self.puzzle = self.mainHash[0:min(self.difficulty, len(self.mainHash))] for i in range(max(1, threadCount)): t = threading.Thread(name = 'thread%s' % i, target = self.pow, args = (True,)) t.start() def pow(self, reporting = False): startTime = math.floor(time.time()) self.hashing = True self.reporting = reporting iFound = False # if current thread is the one that found the answer nonce = BLOCK_NONCE_START_INT while self.hashing: self.metadata['pow'] = nonce payload = json.dumps(self.metadata).encode() + b'\n' + self.data token = hashers.sha3_hash(payload) try: # on some versions, token is bytes token = token.decode() except AttributeError: pass if self.puzzle == token[0:self.difficulty]: self.hashing = False iFound = True self.result = payload break nonce += 1 if iFound: endTime = math.floor(time.time()) if self.reporting: logger.debug('Found token after %s seconds: %s' % (endTime - startTime, token), timestamp=True) def shutdown(self): self.hashing = False self.puzzle = '' def changeDifficulty(self, newDiff): self.difficulty = newDiff def getResult(self): ''' Returns the result then sets to false, useful to automatically clear the result ''' try: retVal = self.result except AttributeError: retVal = False self.result = False return retVal def waitForResult(self): ''' Returns the result only when it has been found, False if not running and not found ''' result = False try: while True: result = self.getResult() if not self.hashing: break else: time.sleep(1) except KeyboardInterrupt: self.shutdown() logger.warn('Got keyboard interrupt while waiting for POW result, stopping') return resultMethods
def changeDifficulty(self, newDiff)-
Expand source code
def changeDifficulty(self, newDiff): self.difficulty = newDiff def getResult(self)-
Returns the result then sets to false, useful to automatically clear the result
Expand source code
def getResult(self): ''' Returns the result then sets to false, useful to automatically clear the result ''' try: retVal = self.result except AttributeError: retVal = False self.result = False return retVal def pow(self, reporting=False)-
Expand source code
def pow(self, reporting = False): startTime = math.floor(time.time()) self.hashing = True self.reporting = reporting iFound = False # if current thread is the one that found the answer nonce = BLOCK_NONCE_START_INT while self.hashing: self.metadata['pow'] = nonce payload = json.dumps(self.metadata).encode() + b'\n' + self.data token = hashers.sha3_hash(payload) try: # on some versions, token is bytes token = token.decode() except AttributeError: pass if self.puzzle == token[0:self.difficulty]: self.hashing = False iFound = True self.result = payload break nonce += 1 if iFound: endTime = math.floor(time.time()) if self.reporting: logger.debug('Found token after %s seconds: %s' % (endTime - startTime, token), timestamp=True) def shutdown(self)-
Expand source code
def shutdown(self): self.hashing = False self.puzzle = '' def waitForResult(self)-
Returns the result only when it has been found, False if not running and not found
Expand source code
def waitForResult(self): ''' Returns the result only when it has been found, False if not running and not found ''' result = False try: while True: result = self.getResult() if not self.hashing: break else: time.sleep(1) except KeyboardInterrupt: self.shutdown() logger.warn('Got keyboard interrupt while waiting for POW result, stopping') return result