#!/usr/bin/env python # # Electrum - lightweight Bitcoin client # Copyright (C) 2012 thomasv@ecdsa.org # # 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 . import threading, time, Queue, os, sys, shutil from util import user_dir, appdata_dir, print_error from bitcoin import * class WalletVerifier(threading.Thread): """ Simple Payment Verification """ def __init__(self, interface, config): threading.Thread.__init__(self) self.daemon = True self.config = config self.interface = interface self.transactions = {} # requested verifications (with height sent by the requestor) self.interface.register_channel('verifier') self.verified_tx = config.get('verified_tx3',{}) # height, timestamp of verified transactions self.merkle_roots = config.get('merkle_roots',{}) # hashed by me self.targets = config.get('targets',{}) # compute targets self.lock = threading.Lock() self.pending_headers = [] # headers that have not been verified self.height = 0 self.local_height = 0 self.running = False self.headers_url = 'http://headers.electrum.org/blockchain_headers' def get_confirmations(self, tx): """ return the number of confirmations of a monitored transaction. """ with self.lock: if tx in self.verified_tx: height, timestamp, pos = self.verified_tx[tx] conf = (self.local_height - height + 1) else: conf = 0 if conf <= 0: timestamp = None return conf, timestamp def get_height(self, tx_hash): with self.lock: v = self.verified_tx.get(tx_hash) height = v[0] if v else None return height def add(self, tx_hash, tx_height): """ add a transaction to the list of monitored transactions. """ assert tx_height > 0 with self.lock: if tx_hash not in self.transactions.keys(): self.transactions[tx_hash] = tx_height def stop(self): with self.lock: self.running = False self.interface.poke('verifier') def is_running(self): with self.lock: return self.running def run(self): self.init_headers_file() self.set_local_height() with self.lock: self.running = True requested_merkle = [] requested_chunks = [] requested_headers = [] all_chunks = False # subscribe to block headers self.interface.send([ ('blockchain.headers.subscribe',[])], 'verifier') while self.is_running(): # request missing chunks if not all_chunks and self.height and not requested_chunks: if self.local_height + 50 < self.height: min_index = (self.local_height + 1)/2016 max_index = (self.height + 1)/2016 for i in range(min_index, max_index + 1): print_error( "requesting chunk", i ) self.interface.send([ ('blockchain.block.get_chunk',[i])], 'verifier') requested_chunks.append(i) break else: all_chunks = True print_error("downloaded all chunks") # request missing tx if all_chunks: for tx_hash, tx_height in self.transactions.items(): if tx_hash not in self.verified_tx: if self.merkle_roots.get(tx_hash) is None and tx_hash not in requested_merkle: print_error('requesting merkle', tx_hash) self.interface.send([ ('blockchain.transaction.get_merkle',[tx_hash, tx_height]) ], 'verifier') requested_merkle.append(tx_hash) # process pending headers if self.pending_headers and all_chunks: done = [] for header in self.pending_headers: if self.verify_header(header): done.append(header) else: # request previous header i = header.get('block_height') - 1 if i not in requested_headers: print_error("requesting header %d"%i) self.interface.send([ ('blockchain.block.get_header',[i])], 'verifier') requested_headers.append(i) # no point continuing break if done: self.interface.trigger_callback('updated') for header in done: self.pending_headers.remove(header) try: r = self.interface.get_response('verifier',timeout=1) except Queue.Empty: continue if not r: continue if r.get('error'): print_error('Verifier received an error:', r) continue # 3. handle response method = r['method'] params = r['params'] result = r['result'] if method == 'blockchain.transaction.get_merkle': tx_hash = params[0] self.verify_merkle(tx_hash, result) requested_merkle.remove(tx_hash) elif method == 'blockchain.block.get_chunk': index = params[0] self.verify_chunk(index, result) requested_chunks.remove(index) elif method in ['blockchain.headers.subscribe', 'blockchain.block.get_header']: self.pending_headers.append(result) if method == 'blockchain.block.get_header': requested_headers.remove(result.get('block_height')) else: self.height = result.get('block_height') self.interface.poke('synchronizer') self.pending_headers.sort(key=lambda x: x.get('block_height')) # print "pending headers", map(lambda x: x.get('block_height'), self.pending_headers) def verify_merkle(self, tx_hash, result): tx_height = result.get('block_height') pos = result.get('pos') self.merkle_roots[tx_hash] = self.hash_merkle_root(result['merkle'], tx_hash, pos) header = self.read_header(tx_height) if not header: return assert header.get('merkle_root') == self.merkle_roots[tx_hash] # we passed all the tests header = self.read_header(tx_height) timestamp = header.get('timestamp') with self.lock: self.verified_tx[tx_hash] = (tx_height, timestamp, pos) print_error("verified %s"%tx_hash) self.config.set_key('verified_tx3', self.verified_tx, True) self.interface.trigger_callback('updated') def verify_chunk(self, index, hexdata): data = hexdata.decode('hex') height = index*2016 num = len(data)/80 print_error("validating headers %d"%height) if index == 0: previous_hash = ("0"*64) else: prev_header = self.read_header(index*2016-1) if prev_header is None: raise previous_hash = self.hash_header(prev_header) bits, target = self.get_target(index) for i in range(num): height = index*2016 + i raw_header = data[i*80:(i+1)*80] header = self.header_from_string(raw_header) _hash = self.hash_header(header) assert previous_hash == header.get('prev_block_hash') assert bits == header.get('bits') assert eval('0x'+_hash) < target previous_header = header previous_hash = _hash self.save_chunk(index, data) def verify_header(self, header): # add header to the blockchain file # if there is a reorg, push it in a stack height = header.get('block_height') prev_header = self.read_header(height -1) if not prev_header: # return False to request previous header return False prev_hash = self.hash_header(prev_header) bits, target = self.get_target(height/2016) _hash = self.hash_header(header) try: assert prev_hash == header.get('prev_block_hash') assert bits == header.get('bits') assert eval('0x'+_hash) < target except: # this can be caused by a reorg. print_error("verify header failed"+ repr(header)) # undo verifications with self.lock: items = self.verified_tx.items()[:] for tx_hash, item in items: tx_height, timestamp = item if tx_height >= height: print_error("redoing", tx_hash) with self.lock: self.verified_tx.pop(tx_hash) if tx_hash in self.merkle_roots: self.merkle_roots.pop(tx_hash) # return False to request previous header. return False self.save_header(header) print_error("verify header:", _hash, height) return True def header_to_string(self, res): s = int_to_hex(res.get('version'),4) \ + rev_hex(res.get('prev_block_hash')) \ + rev_hex(res.get('merkle_root')) \ + int_to_hex(int(res.get('timestamp')),4) \ + int_to_hex(int(res.get('bits')),4) \ + int_to_hex(int(res.get('nonce')),4) return s def header_from_string(self, s): hex_to_int = lambda s: eval('0x' + s[::-1].encode('hex')) h = {} h['version'] = hex_to_int(s[0:4]) h['prev_block_hash'] = hash_encode(s[4:36]) h['merkle_root'] = hash_encode(s[36:68]) h['timestamp'] = hex_to_int(s[68:72]) h['bits'] = hex_to_int(s[72:76]) h['nonce'] = hex_to_int(s[76:80]) return h def hash_header(self, header): return rev_hex(Hash(self.header_to_string(header).decode('hex')).encode('hex')) def hash_merkle_root(self, merkle_s, target_hash, pos): h = hash_decode(target_hash) for i in range(len(merkle_s)): item = merkle_s[i] h = Hash( hash_decode(item) + h ) if ((pos >> i) & 1) else Hash( h + hash_decode(item) ) return hash_encode(h) def path(self): wdir = self.config.get('blockchain_headers_path', user_dir()) if wdir and not os.path.exists( wdir ): os.mkdir(wdir) return os.path.join( wdir, 'blockchain_headers') def init_headers_file(self): filename = self.path() if os.path.exists(filename): return try: import urllib, socket socket.setdefaulttimeout(30) print_error("downloading ", self.headers_url ) urllib.urlretrieve(self.headers_url, filename) except: print_error( "download failed. creating file", filename ) open(filename,'wb+').close() def save_chunk(self, index, chunk): filename = self.path() f = open(filename,'rb+') f.seek(index*2016*80) h = f.write(chunk) f.close() self.set_local_height() def save_header(self, header): data = self.header_to_string(header).decode('hex') assert len(data) == 80 height = header.get('block_height') filename = self.path() f = open(filename,'rb+') f.seek(height*80) h = f.write(data) f.close() self.set_local_height() def set_local_height(self): name = self.path() if os.path.exists(name): h = os.path.getsize(name)/80 - 1 if self.local_height != h: self.local_height = h def read_header(self, block_height): name = self.path() if os.path.exists(name): f = open(name,'rb') f.seek(block_height*80) h = f.read(80) f.close() if len(h) == 80: h = self.header_from_string(h) return h def get_target(self, index): max_target = 0x00000000FFFF0000000000000000000000000000000000000000000000000000 if index == 0: return 0x1d00ffff, max_target first = self.read_header((index-1)*2016) last = self.read_header(index*2016-1) nActualTimespan = last.get('timestamp') - first.get('timestamp') nTargetTimespan = 14*24*60*60 nActualTimespan = max(nActualTimespan, nTargetTimespan/4) nActualTimespan = min(nActualTimespan, nTargetTimespan*4) bits = last.get('bits') # convert to bignum MM = 256*256*256 a = bits%MM if a < 0x8000: a *= 256 target = (a) * pow(2, 8 * (bits/MM - 3)) # new target new_target = min( max_target, (target * nActualTimespan)/nTargetTimespan ) # convert it to bits c = ("%064X"%new_target)[2:] i = 31 while c[0:2]=="00": c = c[2:] i -= 1 c = eval('0x'+c[0:6]) if c > 0x800000: c /= 256 i += 1 new_bits = c + MM * i return new_bits, new_target