def update_stat_log(): while stat_log and stat_log[0]['time'] < time.time() - 24*60*60: stat_log.pop(0) lookbehind = 3600//node.net.SHARE_PERIOD if node.tracker.get_height(node.best_share_var.value) < lookbehind: return None global_stale_prop = p2pool_data.get_average_stale_prop(node.tracker, node.best_share_var.value, lookbehind) (stale_orphan_shares, stale_doa_shares), shares, _ = wb.get_stale_counts() miner_hash_rates, miner_dead_hash_rates = wb.get_local_rates() my_current_payout=0.0 for add in wb.pubkeys.keys: my_current_payout+=node.get_current_txouts().get(mogwai_data.pubkey_hash_to_script2(add), 0)*1e-8 stat_log.append(dict( time=time.time(), pool_hash_rate=p2pool_data.get_pool_attempts_per_second(node.tracker, node.best_share_var.value, lookbehind)/(1-global_stale_prop), pool_stale_prop=global_stale_prop, local_hash_rates=miner_hash_rates, local_dead_hash_rates=miner_dead_hash_rates, shares=shares, stale_shares=stale_orphan_shares + stale_doa_shares, stale_shares_breakdown=dict(orphan=stale_orphan_shares, doa=stale_doa_shares), current_payout=my_current_payout, peers=dict( incoming=sum(1 for peer in node.p2p_node.peers.itervalues() if peer.incoming), outgoing=sum(1 for peer in node.p2p_node.peers.itervalues() if not peer.incoming), ), attempts_to_share=mogwai_data.target_to_average_attempts(node.tracker.items[node.best_share_var.value].max_target), attempts_to_block=mogwai_data.target_to_average_attempts(node.mogwaid_work.value['bits'].target), block_value=node.mogwaid_work.value['subsidy']*1e-8, )) with open(os.path.join(datadir_path, 'stats'), 'wb') as f: f.write(json.dumps(stat_log))
def status_thread(): last_str = None last_time = 0 while True: yield deferral.sleep(3) try: height = node.tracker.get_height(node.best_share_var.value) this_str = 'P2Pool: %i shares in chain (%i verified/%i total) Peers: %i (%i incoming)' % ( height, len(node.tracker.verified.items), len(node.tracker.items), len(node.p2p_node.peers), sum(1 for peer in node.p2p_node.peers.itervalues() if peer.incoming), ) + (' FDs: %i R/%i W' % (len(reactor.getReaders()), len(reactor.getWriters())) if p2pool.DEBUG else '') datums, dt = wb.local_rate_monitor.get_datums_in_last() my_att_s = sum(datum['work']/dt for datum in datums) my_shares_per_s = sum(datum['work']/dt/mogwai_data.target_to_average_attempts(datum['share_target']) for datum in datums) this_str += '\n Local: %sH/s in last %s Local dead on arrival: %s Expected time to share: %s' % ( math.format(int(my_att_s)), math.format_dt(dt), math.format_binomial_conf(sum(1 for datum in datums if datum['dead']), len(datums), 0.95), math.format_dt(1/my_shares_per_s) if my_shares_per_s else '???', ) if height > 2: (stale_orphan_shares, stale_doa_shares), shares, _ = wb.get_stale_counts() stale_prop = p2pool_data.get_average_stale_prop(node.tracker, node.best_share_var.value, min(60*60//net.SHARE_PERIOD, height)) real_att_s = p2pool_data.get_pool_attempts_per_second(node.tracker, node.best_share_var.value, min(height - 1, 60*60//net.SHARE_PERIOD)) / (1 - stale_prop) paystr = '' paytot = 0.0 for i in xrange(len(pubkeys.keys)): curtot = node.get_current_txouts().get(mogwai_data.pubkey_hash_to_script2(pubkeys.keys[i]), 0) paytot += curtot*1e-8 paystr += "(%.4f)" % (curtot*1e-8,) paystr += "=%.4f" % (paytot,) this_str += '\n Shares: %i (%i orphan, %i dead) Stale rate: %s Efficiency: %s Current payout: %s %s' % ( shares, stale_orphan_shares, stale_doa_shares, math.format_binomial_conf(stale_orphan_shares + stale_doa_shares, shares, 0.95), math.format_binomial_conf(stale_orphan_shares + stale_doa_shares, shares, 0.95, lambda x: (1 - x)/(1 - stale_prop)), paystr, net.PARENT.SYMBOL, ) this_str += '\n Pool: %sH/s Stale rate: %.1f%% Expected time to block: %s' % ( math.format(int(real_att_s)), 100*stale_prop, math.format_dt(2**256 / node.mogwaid_work.value['bits'].target / real_att_s), ) for warning in p2pool_data.get_warnings(node.tracker, node.best_share_var.value, net, mogwaid_getinfo_var.value, node.mogwaid_work.value): print >>sys.stderr, '#'*40 print >>sys.stderr, '>>> Warning: ' + warning print >>sys.stderr, '#'*40 if gc.garbage: print '%i pieces of uncollectable cyclic garbage! Types: %r' % (len(gc.garbage), map(type, gc.garbage)) if this_str != last_str or time.time() > last_time + 15: print this_str last_str = this_str last_time = time.time() except: log.err()
def got_response(header, user, coinbase_nonce): assert len(coinbase_nonce) == self.COINBASE_NONCE_LENGTH new_packed_gentx = packed_gentx[:-self.COINBASE_NONCE_LENGTH - 4] + coinbase_nonce + packed_gentx[ -4:] if coinbase_nonce != '\0' * self.COINBASE_NONCE_LENGTH else packed_gentx new_gentx = mogwai_data.tx_type.unpack( new_packed_gentx ) if coinbase_nonce != '\0' * self.COINBASE_NONCE_LENGTH else gentx header_hash = self.node.net.PARENT.BLOCKHASH_FUNC( mogwai_data.block_header_type.pack(header)) pow_hash = self.node.net.PARENT.POW_FUNC( mogwai_data.block_header_type.pack(header)) try: if pow_hash <= header['bits'].target or p2pool.DEBUG: helper.submit_block( dict(header=header, txs=[new_gentx] + other_transactions), False, self.node.factory, self.node.mogwaid, self.node.mogwaid_work, self.node.net) if pow_hash <= header['bits'].target: print print 'GOT BLOCK FROM MINER! Passing to mogwaid! %s%064x' % ( self.node.net.PARENT.BLOCK_EXPLORER_URL_PREFIX, header_hash) print # New block found self.node.factory.new_block.happened(header_hash) except: log.err(None, 'Error while processing potential block:') user, _, _, _ = self.get_user_details(user) assert header['previous_block'] == ba['previous_block'] assert header['merkle_root'] == mogwai_data.check_merkle_link( mogwai_data.hash256(new_packed_gentx), merkle_link) assert header['bits'] == ba['bits'] on_time = self.new_work_event.times == lp_count for aux_work, index, hashes in mm_later: try: if pow_hash <= aux_work['target'] or p2pool.DEBUG: df = deferral.retry( 'Error submitting merged block: (will retry)', 10, 10)(aux_work['merged_proxy'].rpc_getauxblock)( pack.IntType(256, 'big').pack( aux_work['hash']).encode('hex'), mogwai_data.aux_pow_type.pack( dict( merkle_tx=dict( tx=new_gentx, block_hash=header_hash, merkle_link=merkle_link, ), merkle_link=mogwai_data. calculate_merkle_link(hashes, index), parent_block_header=header, )).encode('hex'), ) @df.addCallback def _(result, aux_work=aux_work): if result != (pow_hash <= aux_work['target']): print >> sys.stderr, 'Merged block submittal result: %s Expected: %s' % ( result, pow_hash <= aux_work['target']) else: print 'Merged block submittal result: %s' % ( result, ) @df.addErrback def _(err): log.err(err, 'Error submitting merged block:') except: log.err(None, 'Error while processing merged mining POW:') if pow_hash <= share_info[ 'bits'].target and header_hash not in received_header_hashes: last_txout_nonce = pack.IntType( 8 * self.COINBASE_NONCE_LENGTH).unpack(coinbase_nonce) share = get_share(header, last_txout_nonce) print 'GOT SHARE! %s %s prev %s age %.2fs%s' % ( user, p2pool_data.format_hash(share.hash), p2pool_data.format_hash(share.previous_hash), time.time() - getwork_time, ' DEAD ON ARRIVAL' if not on_time else '', ) self.my_share_hashes.add(share.hash) if not on_time: self.my_doa_share_hashes.add(share.hash) self.node.tracker.add(share) self.node.set_best_share() try: if (pow_hash <= header['bits'].target or p2pool.DEBUG) and self.node.p2p_node is not None: self.node.p2p_node.broadcast_share(share.hash) except: log.err(None, 'Error forwarding block solution:') self.share_received.happened( mogwai_data.target_to_average_attempts(share.target), not on_time, share.hash) if pow_hash > target: print 'Worker %s submitted share with hash > target:' % ( user, ) print ' Hash: %56x' % (pow_hash, ) print ' Target: %56x' % (target, ) elif header_hash in received_header_hashes: print >> sys.stderr, 'Worker %s submitted share more than once!' % ( user, ) else: received_header_hashes.add(header_hash) self.pseudoshare_received.happened( mogwai_data.target_to_average_attempts(target), not on_time, user) self.recent_shares_ts_work.append( (time.time(), mogwai_data.target_to_average_attempts(target))) while len(self.recent_shares_ts_work) > 50: self.recent_shares_ts_work.pop(0) self.local_rate_monitor.add_datum( dict(work=mogwai_data.target_to_average_attempts(target), dead=not on_time, user=user, share_target=share_info['bits'].target)) self.local_addr_rate_monitor.add_datum( dict(work=mogwai_data.target_to_average_attempts(target), pubkey_hash=pubkey_hash)) return on_time
def get_local_stats(): if node.tracker.get_height(node.best_share_var.value) < 10: return None lookbehind = min(node.tracker.get_height(node.best_share_var.value), 3600//node.net.SHARE_PERIOD) global_stale_prop = p2pool_data.get_average_stale_prop(node.tracker, node.best_share_var.value, lookbehind) my_unstale_count = sum(1 for share in node.tracker.get_chain(node.best_share_var.value, lookbehind) if share.hash in wb.my_share_hashes) my_orphan_count = sum(1 for share in node.tracker.get_chain(node.best_share_var.value, lookbehind) if share.hash in wb.my_share_hashes and share.share_data['stale_info'] == 'orphan') my_doa_count = sum(1 for share in node.tracker.get_chain(node.best_share_var.value, lookbehind) if share.hash in wb.my_share_hashes and share.share_data['stale_info'] == 'doa') my_share_count = my_unstale_count + my_orphan_count + my_doa_count my_stale_count = my_orphan_count + my_doa_count my_stale_prop = my_stale_count/my_share_count if my_share_count != 0 else None my_work = sum(mogwai_data.target_to_average_attempts(share.target) for share in node.tracker.get_chain(node.best_share_var.value, lookbehind - 1) if share.hash in wb.my_share_hashes) actual_time = (node.tracker.items[node.best_share_var.value].timestamp - node.tracker.items[node.tracker.get_nth_parent_hash(node.best_share_var.value, lookbehind - 1)].timestamp) share_att_s = my_work / actual_time miner_hash_rates, miner_dead_hash_rates = wb.get_local_rates() (stale_orphan_shares, stale_doa_shares), shares, _ = wb.get_stale_counts() miner_last_difficulties = {} for addr in wb.last_work_shares.value: miner_last_difficulties[addr] = mogwai_data.target_to_difficulty(wb.last_work_shares.value[addr].target) return dict( my_hash_rates_in_last_hour=dict( note="DEPRECATED", nonstale=share_att_s, rewarded=share_att_s/(1 - global_stale_prop), actual=share_att_s/(1 - my_stale_prop) if my_stale_prop is not None else 0, # 0 because we don't have any shares anyway ), my_share_counts_in_last_hour=dict( shares=my_share_count, unstale_shares=my_unstale_count, stale_shares=my_stale_count, orphan_stale_shares=my_orphan_count, doa_stale_shares=my_doa_count, ), my_stale_proportions_in_last_hour=dict( stale=my_stale_prop, orphan_stale=my_orphan_count/my_share_count if my_share_count != 0 else None, dead_stale=my_doa_count/my_share_count if my_share_count != 0 else None, ), miner_hash_rates=miner_hash_rates, miner_dead_hash_rates=miner_dead_hash_rates, miner_last_difficulties=miner_last_difficulties, efficiency_if_miner_perfect=(1 - stale_orphan_shares/shares)/(1 - global_stale_prop) if shares else None, # ignores dead shares because those are miner's fault and indicated by pseudoshare rejection efficiency=(1 - (stale_orphan_shares+stale_doa_shares)/shares)/(1 - global_stale_prop) if shares else None, peers=dict( incoming=sum(1 for peer in node.p2p_node.peers.itervalues() if peer.incoming), outgoing=sum(1 for peer in node.p2p_node.peers.itervalues() if not peer.incoming), ), shares=dict( total=shares, orphan=stale_orphan_shares, dead=stale_doa_shares, ), uptime=time.time() - start_time, attempts_to_share=mogwai_data.target_to_average_attempts(node.tracker.items[node.best_share_var.value].max_target), attempts_to_block=mogwai_data.target_to_average_attempts(node.mogwaid_work.value['bits'].target), block_value=node.mogwaid_work.value['subsidy']*1e-8, warnings=p2pool_data.get_warnings(node.tracker, node.best_share_var.value, node.net, mogwaid_getinfo_var.value, node.mogwaid_work.value), donation_proportion=wb.donation_percentage/100, version=p2pool.__version__, protocol_version=p2p.Protocol.VERSION, fee=wb.worker_fee, )
def get_work(self, pubkey_hash, desired_share_target, desired_pseudoshare_target): global print_throttle if (self.node.p2p_node is None or len(self.node.p2p_node.peers) == 0) and self.node.net.PERSIST: raise jsonrpc.Error_for_code(-12345)( u'p2pool is not connected to any peers') if self.node.best_share_var.value is None and self.node.net.PERSIST: raise jsonrpc.Error_for_code(-12345)( u'p2pool is downloading shares') if self.merged_work.value: tree, size = mogwai_data.make_auxpow_tree(self.merged_work.value) mm_hashes = [ self.merged_work.value.get(tree.get(i), dict(hash=0))['hash'] for i in xrange(size) ] mm_data = '\xfa\xbemm' + mogwai_data.aux_pow_coinbase_type.pack( dict( merkle_root=mogwai_data.merkle_hash(mm_hashes), size=size, nonce=0, )) mm_later = [ (aux_work, mm_hashes.index(aux_work['hash']), mm_hashes) for chain_id, aux_work in self.merged_work.value.iteritems() ] else: mm_data = '' mm_later = [] tx_hashes = [ mogwai_data.hash256(mogwai_data.tx_type.pack(tx)) for tx in self.current_work.value['transactions'] ] tx_map = dict(zip(tx_hashes, self.current_work.value['transactions'])) previous_share = self.node.tracker.items[ self.node.best_share_var. value] if self.node.best_share_var.value is not None else None if previous_share is None: share_type = p2pool_data.Share else: previous_share_type = type(previous_share) if previous_share_type.SUCCESSOR is None or self.node.tracker.get_height( previous_share.hash) < self.node.net.CHAIN_LENGTH: share_type = previous_share_type else: successor_type = previous_share_type.SUCCESSOR counts = p2pool_data.get_desired_version_counts( self.node.tracker, self.node.tracker.get_nth_parent_hash( previous_share.hash, self.node.net.CHAIN_LENGTH * 9 // 10), self.node.net.CHAIN_LENGTH // 10) upgraded = counts.get(successor_type.VERSION, 0) / sum( counts.itervalues()) if upgraded > .65: print 'Switchover imminent. Upgraded: %.3f%% Threshold: %.3f%%' % ( upgraded * 100, 95) # Share -> NewShare only valid if 95% of hashes in [net.CHAIN_LENGTH*9//10, net.CHAIN_LENGTH] for new version if counts.get(successor_type.VERSION, 0) > sum(counts.itervalues()) * 95 // 100: share_type = successor_type else: share_type = previous_share_type local_addr_rates = self.get_local_addr_rates() if desired_share_target is None: desired_share_target = 2**256 - 1 local_hash_rate = local_addr_rates.get(pubkey_hash, 0) if local_hash_rate > 0.0: desired_share_target = min( desired_share_target, mogwai_data.average_attempts_to_target( local_hash_rate * self.node.net.SHARE_PERIOD / 0.0167) ) # limit to 1.67% of pool shares by modulating share difficulty lookbehind = 3600 // self.node.net.SHARE_PERIOD block_subsidy = self.node.mogwaid_work.value['subsidy'] if previous_share is not None and self.node.tracker.get_height( previous_share.hash) > lookbehind: expected_payout_per_block = local_addr_rates.get(pubkey_hash, 0)/p2pool_data.get_pool_attempts_per_second(self.node.tracker, self.node.best_share_var.value, lookbehind) \ * block_subsidy*(1-self.donation_percentage/100) # XXX doesn't use global stale rate to compute pool hash if expected_payout_per_block < self.node.net.PARENT.DUST_THRESHOLD: desired_share_target = min( desired_share_target, mogwai_data.average_attempts_to_target( (mogwai_data.target_to_average_attempts( self.node.mogwaid_work.value['bits'].target) * self.node.net.SPREAD) * self.node.net.PARENT.DUST_THRESHOLD / block_subsidy)) if True: share_info, gentx, other_transaction_hashes, get_share = share_type.generate_transaction( tracker=self.node.tracker, share_data=dict( previous_share_hash=self.node.best_share_var.value, coinbase=(script.create_push_script([ self.current_work.value['height'], ] + ([mm_data] if mm_data else []) + []) + self.current_work.value['coinbaseflags'] + self.node.net.COINBASEEXT)[:100], nonce=random.randrange(2**32), pubkey_hash=pubkey_hash, subsidy=self.current_work.value['subsidy'], donation=math.perfect_round( 65535 * self.donation_percentage / 100), stale_info=( lambda (orphans, doas), total, (orphans_recorded_in_chain, doas_recorded_in_chain ): 'orphan' if orphans > orphans_recorded_in_chain else 'doa' if doas > doas_recorded_in_chain else None)( *self.get_stale_counts()), desired_version=(share_type.SUCCESSOR if share_type.SUCCESSOR is not None else share_type).VOTING_VERSION, payment_amount=self.current_work.value['payment_amount'], packed_payments=self.current_work.value['packed_payments'], ), block_target=self.current_work.value['bits'].target, desired_timestamp=int(time.time() + 0.5), desired_target=desired_share_target, ref_merkle_link=dict(branch=[], index=0), desired_other_transaction_hashes_and_fees=zip( tx_hashes, self.current_work.value['transaction_fees']), net=self.node.net, known_txs=tx_map, base_subsidy=self.current_work.value['subsidy'], ) packed_gentx = mogwai_data.tx_type.pack(gentx) other_transactions = [ tx_map[tx_hash] for tx_hash in other_transaction_hashes ] mm_later = [ (dict(aux_work, target=aux_work['target'] if aux_work['target'] != 'p2pool' else share_info['bits'].target), index, hashes) for aux_work, index, hashes in mm_later ] if desired_pseudoshare_target is None: target = 2**256 - 1 local_hash_rate = self._estimate_local_hash_rate() if local_hash_rate is not None: target = min( target, mogwai_data.average_attempts_to_target(local_hash_rate * 1) ) # limit to 1 share response every second by modulating pseudoshare difficulty else: target = desired_pseudoshare_target target = max(target, share_info['bits'].target) for aux_work, index, hashes in mm_later: target = max(target, aux_work['target']) target = math.clip(target, self.node.net.PARENT.SANE_TARGET_RANGE) getwork_time = time.time() lp_count = self.new_work_event.times merkle_link = mogwai_data.calculate_merkle_link( [None] + other_transaction_hashes, 0) if print_throttle is 0.0: print_throttle = time.time() else: current_time = time.time() if (current_time - print_throttle) > 5.0: print 'New work for worker %s! Difficulty: %.06f Share difficulty: %.06f (speed %.06f) Total block value: %.6f %s including %i transactions' % ( mogwai_data.pubkey_hash_to_address(pubkey_hash, self.node.net.PARENT), mogwai_data.target_to_difficulty(target), mogwai_data.target_to_difficulty( share_info['bits'].target), local_addr_rates.get(pubkey_hash, 0), self.current_work.value['subsidy'] * 1e-8, self.node.net.PARENT.SYMBOL, len(self.current_work.value['transactions']), ) print_throttle = time.time() #need this for stats self.last_work_shares.value[mogwai_data.pubkey_hash_to_address( pubkey_hash, self.node.net.PARENT)] = share_info['bits'] ba = dict( version=self.current_work.value['version'], previous_block=self.current_work.value['previous_block'], merkle_link=merkle_link, coinb1=packed_gentx[:-self.COINBASE_NONCE_LENGTH - 4], coinb2=packed_gentx[-4:], timestamp=self.current_work.value['time'], bits=self.current_work.value['bits'], share_target=target, ) received_header_hashes = set() def got_response(header, user, coinbase_nonce): assert len(coinbase_nonce) == self.COINBASE_NONCE_LENGTH new_packed_gentx = packed_gentx[:-self.COINBASE_NONCE_LENGTH - 4] + coinbase_nonce + packed_gentx[ -4:] if coinbase_nonce != '\0' * self.COINBASE_NONCE_LENGTH else packed_gentx new_gentx = mogwai_data.tx_type.unpack( new_packed_gentx ) if coinbase_nonce != '\0' * self.COINBASE_NONCE_LENGTH else gentx header_hash = self.node.net.PARENT.BLOCKHASH_FUNC( mogwai_data.block_header_type.pack(header)) pow_hash = self.node.net.PARENT.POW_FUNC( mogwai_data.block_header_type.pack(header)) try: if pow_hash <= header['bits'].target or p2pool.DEBUG: helper.submit_block( dict(header=header, txs=[new_gentx] + other_transactions), False, self.node.factory, self.node.mogwaid, self.node.mogwaid_work, self.node.net) if pow_hash <= header['bits'].target: print print 'GOT BLOCK FROM MINER! Passing to mogwaid! %s%064x' % ( self.node.net.PARENT.BLOCK_EXPLORER_URL_PREFIX, header_hash) print # New block found self.node.factory.new_block.happened(header_hash) except: log.err(None, 'Error while processing potential block:') user, _, _, _ = self.get_user_details(user) assert header['previous_block'] == ba['previous_block'] assert header['merkle_root'] == mogwai_data.check_merkle_link( mogwai_data.hash256(new_packed_gentx), merkle_link) assert header['bits'] == ba['bits'] on_time = self.new_work_event.times == lp_count for aux_work, index, hashes in mm_later: try: if pow_hash <= aux_work['target'] or p2pool.DEBUG: df = deferral.retry( 'Error submitting merged block: (will retry)', 10, 10)(aux_work['merged_proxy'].rpc_getauxblock)( pack.IntType(256, 'big').pack( aux_work['hash']).encode('hex'), mogwai_data.aux_pow_type.pack( dict( merkle_tx=dict( tx=new_gentx, block_hash=header_hash, merkle_link=merkle_link, ), merkle_link=mogwai_data. calculate_merkle_link(hashes, index), parent_block_header=header, )).encode('hex'), ) @df.addCallback def _(result, aux_work=aux_work): if result != (pow_hash <= aux_work['target']): print >> sys.stderr, 'Merged block submittal result: %s Expected: %s' % ( result, pow_hash <= aux_work['target']) else: print 'Merged block submittal result: %s' % ( result, ) @df.addErrback def _(err): log.err(err, 'Error submitting merged block:') except: log.err(None, 'Error while processing merged mining POW:') if pow_hash <= share_info[ 'bits'].target and header_hash not in received_header_hashes: last_txout_nonce = pack.IntType( 8 * self.COINBASE_NONCE_LENGTH).unpack(coinbase_nonce) share = get_share(header, last_txout_nonce) print 'GOT SHARE! %s %s prev %s age %.2fs%s' % ( user, p2pool_data.format_hash(share.hash), p2pool_data.format_hash(share.previous_hash), time.time() - getwork_time, ' DEAD ON ARRIVAL' if not on_time else '', ) self.my_share_hashes.add(share.hash) if not on_time: self.my_doa_share_hashes.add(share.hash) self.node.tracker.add(share) self.node.set_best_share() try: if (pow_hash <= header['bits'].target or p2pool.DEBUG) and self.node.p2p_node is not None: self.node.p2p_node.broadcast_share(share.hash) except: log.err(None, 'Error forwarding block solution:') self.share_received.happened( mogwai_data.target_to_average_attempts(share.target), not on_time, share.hash) if pow_hash > target: print 'Worker %s submitted share with hash > target:' % ( user, ) print ' Hash: %56x' % (pow_hash, ) print ' Target: %56x' % (target, ) elif header_hash in received_header_hashes: print >> sys.stderr, 'Worker %s submitted share more than once!' % ( user, ) else: received_header_hashes.add(header_hash) self.pseudoshare_received.happened( mogwai_data.target_to_average_attempts(target), not on_time, user) self.recent_shares_ts_work.append( (time.time(), mogwai_data.target_to_average_attempts(target))) while len(self.recent_shares_ts_work) > 50: self.recent_shares_ts_work.pop(0) self.local_rate_monitor.add_datum( dict(work=mogwai_data.target_to_average_attempts(target), dead=not on_time, user=user, share_target=share_info['bits'].target)) self.local_addr_rate_monitor.add_datum( dict(work=mogwai_data.target_to_average_attempts(target), pubkey_hash=pubkey_hash)) return on_time return ba, got_response