Example #1
0
 def freshen_addresses(self, c):
     self.cur_address_throttle = time.time()
     if self.cur_address_throttle - self.address_throttle < 30:
         return
     self.address_throttle=time.time()
     print "ATTEMPTING TO FRESHEN ADDRESS."
     self.address = yield deferral.retry('Error getting a dynamic address from dashd:', 5)(lambda: self.dashd.rpc_getnewaddress('p2pool'))()
     new_pubkey = dash_data.address_to_pubkey_hash(self.address, self.net)
     self.pubkeys.popleft()
     self.pubkeys.addkey(new_pubkey)
     print " Updated payout pool:"
     for i in range(len(self.pubkeys.keys)):
         print '    ...payout %d: %s(%f)' % (i, dash_data.pubkey_hash_to_address(self.pubkeys.keys[i], self.net),self.pubkeys.keyweights[i],)
     self.pubkeys.updatestamp(c)
     print " Next address rotation in : %fs" % (time.time()-c+self.args.timeaddresses)
Example #2
0
 def freshen_addresses(self, c):
     self.cur_address_throttle = time.time()
     if self.cur_address_throttle - self.address_throttle < 30:
         return
     self.address_throttle=time.time()
     print "ATTEMPTING TO FRESHEN ADDRESS."
     self.address = yield deferral.retry('Error getting a dynamic address from dashd:', 5)(lambda: self.dashd.rpc_getnewaddress('p2pool'))()
     new_pubkey = dash_data.address_to_pubkey_hash(self.address, self.net)
     self.pubkeys.popleft()
     self.pubkeys.addkey(new_pubkey)
     print " Updated payout pool:"
     for i in xrange(len(self.pubkeys.keys)):
         print '    ...payout %d: %s(%f)' % (i, dash_data.pubkey_hash_to_address(self.pubkeys.keys[i], self.net),self.pubkeys.keyweights[i],)
     self.pubkeys.updatestamp(c)
     print " Next address rotation in : %fs" % (time.time()-c+self.args.timeaddresses)
Example #3
0
    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 = dash_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' + dash_data.aux_pow_coinbase_type.pack(dict(
                merkle_root=dash_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 = [dash_data.hash256(dash_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

        if desired_share_target is None:
            desired_share_target = 2**256-1
            local_hash_rate = self._estimate_local_hash_rate()
            if local_hash_rate is not None:
                desired_share_target = min(desired_share_target,
                    dash_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

            local_addr_rates = self.get_local_addr_rates()
            lookbehind = 3600//self.node.net.SHARE_PERIOD
            block_subsidy = self.node.dashd_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,
                        dash_data.average_attempts_to_target((dash_data.target_to_average_attempts(self.node.dashd_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,
                    payee=self.current_work.value['payee'],
                    payee_amount=self.current_work.value['payee_amount'],
                ),
                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.node.net.PARENT.SUBSIDY_FUNC(self.current_work.value['bits'].bits, self.current_work.value['height']),
                payee_address=self.current_work.value['payee_address'],
            )

        packed_gentx = dash_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,
                    dash_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 = dash_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! Difficulty: %.06f Share difficulty: %.06f Total block value: %.6f %s including %i transactions' % (
                    dash_data.target_to_difficulty(target),
                    dash_data.target_to_difficulty(share_info['bits'].target),
                    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[dash_data.pubkey_hash_to_address(pubkey_hash, self.node.net.PARENT)]=share_info['bits']

        ba = dict(
            version=min(self.current_work.value['version'], 3),
            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 = dash_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(dash_data.block_header_type.pack(header))
            pow_hash = self.node.net.PARENT.POW_FUNC(dash_data.block_header_type.pack(header))
            try:
                if pow_hash <= header['bits'].target or p2pool.DEBUG:
                    if self.node.dashd_work.value['masternode_payments']:
                        helper.submit_block(dict(header=header, txs=[new_gentx] + other_transactions, votes=self.node.dashd_work.value['votes']), False, self.node.factory, self.node.dashd, self.node.dashd_work, self.node.net)
                    else:
                        helper.submit_block(dict(header=header, txs=[new_gentx] + other_transactions), False, self.node.factory, self.node.dashd, self.node.dashd_work, self.node.net)
                    if pow_hash <= header['bits'].target:
                        print
                        print 'GOT BLOCK FROM MINER! Passing to dashd! %s%064x' % (self.node.net.PARENT.BLOCK_EXPLORER_URL_PREFIX, header_hash)
                        print
            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'] == dash_data.check_merkle_link(dash_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'),
                            dash_data.aux_pow_type.pack(dict(
                                merkle_tx=dict(
                                    tx=new_gentx,
                                    block_hash=header_hash,
                                    merkle_link=merkle_link,
                                ),
                                merkle_link=dash_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(dash_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(dash_data.target_to_average_attempts(target), not on_time, user)
                self.recent_shares_ts_work.append((time.time(), dash_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=dash_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=dash_data.target_to_average_attempts(target), pubkey_hash=pubkey_hash))

            return on_time

        return ba, got_response
Example #4
0
    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 = dash_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' + dash_data.aux_pow_coinbase_type.pack(
                dict(
                    merkle_root=dash_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 = [
            dash_data.hash256(dash_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

        if desired_share_target is None:
            desired_share_target = 2**256 - 1
            local_hash_rate = self._estimate_local_hash_rate()
            if local_hash_rate is not None:
                desired_share_target = min(
                    desired_share_target,
                    dash_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

            local_addr_rates = self.get_local_addr_rates()
            lookbehind = 3600 // self.node.net.SHARE_PERIOD
            block_subsidy = self.node.dashd_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,
                        dash_data.average_attempts_to_target(
                            (dash_data.target_to_average_attempts(
                                self.node.dashd_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 = dash_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,
                    dash_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 = dash_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 Block %s Total value: %.6f %s including %i transactions' % (
                    dash_data.pubkey_hash_to_address(pubkey_hash,
                                                     self.node.net.PARENT),
                    dash_data.target_to_difficulty(target),
                    dash_data.target_to_difficulty(share_info['bits'].target),
                    self.current_work.value['height'],
                    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[dash_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 = dash_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(
                dash_data.block_header_type.pack(header))
            pow_hash = self.node.net.PARENT.POW_FUNC(
                dash_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.dashd,
                        self.node.dashd_work, self.node.net)
                    if pow_hash <= header['bits'].target:
                        print
                        print 'GOT BLOCK FROM MINER! Passing to dashd! %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'] == dash_data.check_merkle_link(
                dash_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'),
                                dash_data.aux_pow_type.pack(
                                    dict(
                                        merkle_tx=dict(
                                            tx=new_gentx,
                                            block_hash=header_hash,
                                            merkle_link=merkle_link,
                                        ),
                                        merkle_link=dash_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(
                    dash_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(
                    dash_data.target_to_average_attempts(target), not on_time,
                    user)
                self.recent_shares_ts_work.append(
                    (time.time(),
                     dash_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=dash_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=dash_data.target_to_average_attempts(target),
                         pubkey_hash=pubkey_hash))

            return on_time

        return ba, got_response
Example #5
0
def main(args, net, datadir_path, merged_urls, worker_endpoint):
    try:
        print 'p2pool (version %s)' % (p2pool.__version__,)
        print
        
        @defer.inlineCallbacks
        def connect_p2p():
            # connect to dashd over dash-p2p
            print '''Testing dashd P2P connection to '%s:%s'...''' % (args.dashd_address, args.dashd_p2p_port)
            factory = dash_p2p.ClientFactory(net.PARENT)
            reactor.connectTCP(args.dashd_address, args.dashd_p2p_port, factory)
            def long():
                print '''    ...taking a while. Common reasons for this include all of dashd's connection slots being used...'''
            long_dc = reactor.callLater(5, long)
            yield factory.getProtocol() # waits until handshake is successful
            if not long_dc.called: long_dc.cancel()
            print '    ...success!'
            print
            defer.returnValue(factory)
        
        if args.testnet: # establish p2p connection first if testnet so dashd can work without connections
            factory = yield connect_p2p()
        
        # connect to dashd over JSON-RPC and do initial getmemorypool
        url = '%s://%s:%i/' % ('https' if args.dashd_rpc_ssl else 'http', args.dashd_address, args.dashd_rpc_port)
        print '''Testing dashd RPC connection to '%s' with username '%s'...''' % (url, args.dashd_rpc_username)
        dashd = jsonrpc.HTTPProxy(url, dict(Authorization='Basic ' + base64.b64encode(args.dashd_rpc_username + ':' + args.dashd_rpc_password)), timeout=30)
        yield helper.check(dashd, net)
        temp_work = yield helper.getwork(dashd, net)
        
        dashd_getinfo_var = variable.Variable(None)
        @defer.inlineCallbacks
        def poll_warnings():
            dashd_getinfo_var.set((yield deferral.retry('Error while calling getinfo:')(dashd.rpc_getinfo)()))
        yield poll_warnings()
        deferral.RobustLoopingCall(poll_warnings).start(20*60)
        
        print '    ...success!'
        print '    Current block hash: %x' % (temp_work['previous_block'],)
        print '    Current block height: %i' % (temp_work['height'] - 1,)
        print
        
        if not args.testnet:
            factory = yield connect_p2p()
        
        print 'Determining payout address...'
        pubkeys = keypool()
        if args.pubkey_hash is None and args.address != 'dynamic':
            address_path = os.path.join(datadir_path, 'cached_payout_address')
            
            if os.path.exists(address_path):
                with open(address_path, 'rb') as f:
                    address = f.read().strip('\r\n')
                print '    Loaded cached address: %s...' % (address,)
            else:
                address = None
            
            if address is not None:
                res = yield deferral.retry('Error validating cached address:', 5)(lambda: dashd.rpc_validateaddress(address))()
                if not res['isvalid'] or not res['ismine']:
                    print '    Cached address is either invalid or not controlled by local dashd!'
                    address = None
            
            if address is None:
                print '    Getting payout address from dashd...'
                address = yield deferral.retry('Error getting payout address from dashd:', 5)(lambda: dashd.rpc_getaccountaddress('p2pool'))()
            
            with open(address_path, 'wb') as f:
                f.write(address)
            
            my_pubkey_hash = dash_data.address_to_pubkey_hash(address, net.PARENT)
            print '    ...success! Payout address:', dash_data.pubkey_hash_to_address(my_pubkey_hash, net.PARENT)
            print
            pubkeys.addkey(my_pubkey_hash)
        elif args.address != 'dynamic':
            my_pubkey_hash = args.pubkey_hash
            print '    ...success! Payout address:', dash_data.pubkey_hash_to_address(my_pubkey_hash, net.PARENT)
            print
            pubkeys.addkey(my_pubkey_hash)
        else:
            print '    Entering dynamic address mode.'

            if args.numaddresses < 2:
                print ' ERROR: Can not use fewer than 2 addresses in dynamic mode. Resetting to 2.'
                args.numaddresses = 2
                keys = []
                keyweights = []
                stamp = time.time()
                payouttotal = 0.0

                def addkey(self, n):
                    self.keys.append(n)
                    self.keyweights.append(random.uniform(0,100.0))
                def delkey(self, n):
                    try:
                        i=self.keys.index(n)
                        self.keys.pop(i)
                        self.keyweights.pop(i)
                    except:
                        pass

                def weighted(self):
                    choice=random.uniform(0,sum(self.keyweights))
                    tot = 0.0
                    ind = 0
                    for i in (self.keyweights):
                        tot += i
                        if tot >= choice:
                            return ind
                        ind += 1
                    return ind

                def popleft(self):
                    if (len(self.keys) > 0):
                        dummyval=self.keys.pop(0)
                    if (len(self.keyweights) > 0):
                        dummyval=self.keyweights.pop(0)

                def updatestamp(self, n):
                    self.stamp = n

                def paytotal(self):
                    self.payouttotal = 0.0
                    for i in range(len(pubkeys.keys)):
                        self.payouttotal += node.get_current_txouts().get(dash_data.pubkey_hash_to_script2(pubkeys.keys[i]), 0)*1e-8
                    return self.payouttotal

                def getpaytotal(self):
                    return self.payouttotal

            pubkeys = keypool()
            for i in range(args.numaddresses):
                address = yield deferral.retry('Error getting a dynamic address from dashd:', 5)(lambda: dashd.rpc_getnewaddress('p2pool'))()
                new_pubkey = dash_data.address_to_pubkey_hash(address, net.PARENT)
                pubkeys.addkey(new_pubkey)

            pubkeys.updatestamp(time.time())

            my_pubkey_hash = pubkeys.keys[0]

            for i in range(len(pubkeys.keys)):
                print '    ...payout %d: %s' % (i, dash_data.pubkey_hash_to_address(pubkeys.keys[i], net.PARENT),)
        
        print "Loading shares..."
        shares = {}
        known_verified = set()
        def share_cb(share):
            share.time_seen = 0 # XXX
            shares[share.hash] = share
            if len(shares) % 1000 == 0 and shares:
                print "    %i" % (len(shares),)
        ss = p2pool_data.ShareStore(os.path.join(datadir_path, 'shares.'), net, share_cb, known_verified.add)
        print "    ...done loading %i shares (%i verified)!" % (len(shares), len(known_verified))
        print
        
        
        print 'Initializing work...'
        
        node = p2pool_node.Node(factory, dashd, shares.values(), known_verified, net)
        yield node.start()
        
        for share_hash in shares:
            if share_hash not in node.tracker.items:
                ss.forget_share(share_hash)
        for share_hash in known_verified:
            if share_hash not in node.tracker.verified.items:
                ss.forget_verified_share(share_hash)
        node.tracker.removed.watch(lambda share: ss.forget_share(share.hash))
        node.tracker.verified.removed.watch(lambda share: ss.forget_verified_share(share.hash))
        
        def save_shares():
            for share in node.tracker.get_chain(node.best_share_var.value, min(node.tracker.get_height(node.best_share_var.value), 2*net.CHAIN_LENGTH)):
                ss.add_share(share)
                if share.hash in node.tracker.verified.items:
                    ss.add_verified_hash(share.hash)
        deferral.RobustLoopingCall(save_shares).start(60)
        
        print '    ...success!'
        print
        
        
        print 'Joining p2pool network using port %i...' % (args.p2pool_port,)
        
        @defer.inlineCallbacks
        def parse(host):
            port = net.P2P_PORT
            if ':' in host:
                host, port_str = host.split(':')
                port = int(port_str)
            defer.returnValue(((yield reactor.resolve(host)), port))
        
        addrs = {}
        if os.path.exists(os.path.join(datadir_path, 'addrs')):
            try:
                with open(os.path.join(datadir_path, 'addrs'), 'rb') as f:
                    addrs.update(dict((tuple(k), v) for k, v in json.loads(f.read())))
            except:
                print >>sys.stderr, 'error parsing addrs'
        for addr_df in map(parse, net.BOOTSTRAP_ADDRS):
            try:
                addr = yield addr_df
                if addr not in addrs:
                    addrs[addr] = (0, time.time(), time.time())
            except:
                log.err()
        
        connect_addrs = set()
        for addr_df in map(parse, args.p2pool_nodes):
            try:
                connect_addrs.add((yield addr_df))
            except:
                log.err()
        
        node.p2p_node = p2pool_node.P2PNode(node,
            port=args.p2pool_port,
            max_incoming_conns=args.p2pool_conns,
            addr_store=addrs,
            connect_addrs=connect_addrs,
            desired_outgoing_conns=args.p2pool_outgoing_conns,
            advertise_ip=args.advertise_ip,
            external_ip=args.p2pool_external_ip,
        )
        node.p2p_node.start()
        
        def save_addrs():
            with open(os.path.join(datadir_path, 'addrs'), 'wb') as f:
                f.write(json.dumps(node.p2p_node.addr_store.items()))
        deferral.RobustLoopingCall(save_addrs).start(60)
        
        print '    ...success!'
        print
        
        if args.upnp:
            @defer.inlineCallbacks
            def upnp_thread():
                while True:
                    try:
                        is_lan, lan_ip = yield ipdiscover.get_local_ip()
                        if is_lan:
                            pm = yield portmapper.get_port_mapper()
                            yield pm._upnp.add_port_mapping(lan_ip, args.p2pool_port, args.p2pool_port, 'p2pool', 'TCP')
                    except defer.TimeoutError:
                        pass
                    except:
                        if p2pool.DEBUG:
                            log.err(None, 'UPnP error:')
                    yield deferral.sleep(random.expovariate(1/120))
            upnp_thread()
        
        # start listening for workers with a JSON-RPC server
        
        print 'Listening for workers on %r port %i...' % (worker_endpoint[0], worker_endpoint[1])
        
        wb = work.WorkerBridge(node, my_pubkey_hash, args.donation_percentage, merged_urls, args.worker_fee, args, pubkeys, dashd)
        web_root = web.get_web_root(wb, datadir_path, dashd_getinfo_var)
        caching_wb = worker_interface.CachingWorkerBridge(wb)
        worker_interface.WorkerInterface(caching_wb).attach_to(web_root, get_handler=lambda request: request.redirect('/static/'))
        web_serverfactory = server.Site(web_root)
        
        
        serverfactory = switchprotocol.FirstByteSwitchFactory({'{': stratum.StratumServerFactory(caching_wb)}, web_serverfactory)
        deferral.retry('Error binding to worker port:', traceback=False)(reactor.listenTCP)(worker_endpoint[1], serverfactory, interface=worker_endpoint[0])
        
        with open(os.path.join(os.path.join(datadir_path, 'ready_flag')), 'wb') as f:
            pass
        
        print '    ...success!'
        print
        
        
        # done!
        print 'Started successfully!'
        print 'Go to http://127.0.0.1:%i/ to view graphs and statistics!' % (worker_endpoint[1],)
        if args.donation_percentage > 1.1:
            print '''Donating %.1f%% of work towards P2Pool's development. Thanks for the tip!''' % (args.donation_percentage,)
        elif args.donation_percentage < .9:
            print '''Donating %.1f%% of work towards P2Pool's development. Please donate to encourage further development of P2Pool!''' % (args.donation_percentage,)
        else:
            print '''Donating %.1f%% of work towards P2Pool's development. Thank you!''' % (args.donation_percentage,)
            print 'You can increase this amount with --give-author argument! (or decrease it, if you must)'
        print
        
        
        if hasattr(signal, 'SIGALRM'):
            signal.signal(signal.SIGALRM, lambda signum, frame: reactor.callFromThread(
                sys.stderr.write, 'Watchdog timer went off at:\n' + ''.join(traceback.format_stack())
            ))
            signal.siginterrupt(signal.SIGALRM, False)
            deferral.RobustLoopingCall(signal.alarm, 30).start(1)
        
        if args.irc_announce:
            from twisted.words.protocols import irc
            class IRCClient(irc.IRCClient):
                nickname = 'p2pool%02i' % (random.randrange(100),)
                channel = net.ANNOUNCE_CHANNEL
                def lineReceived(self, line):
                    if p2pool.DEBUG:
                        print repr(line)
                    irc.IRCClient.lineReceived(self, line)
                def signedOn(self):
                    self.in_channel = False
                    irc.IRCClient.signedOn(self)
                    self.factory.resetDelay()
                    self.join(self.channel)
                    @defer.inlineCallbacks
                    def new_share(share):
                        if not self.in_channel:
                            return
                        if share.pow_hash <= share.header['bits'].target and abs(share.timestamp - time.time()) < 10*60:
                            yield deferral.sleep(random.expovariate(1/60))
                            message = '\x02%s BLOCK FOUND by %s! %s%064x' % (net.NAME.upper(), dash_data.script2_to_address(share.new_script, net.PARENT), net.PARENT.BLOCK_EXPLORER_URL_PREFIX, share.header_hash)
                            if all('%x' % (share.header_hash,) not in old_message for old_message in self.recent_messages):
                                self.say(self.channel, message)
                                self._remember_message(message)
                    self.watch_id = node.tracker.verified.added.watch(new_share)
                    self.recent_messages = []
                def joined(self, channel):
                    self.in_channel = True
                def left(self, channel):
                    self.in_channel = False
                def _remember_message(self, message):
                    self.recent_messages.append(message)
                    while len(self.recent_messages) > 100:
                        self.recent_messages.pop(0)
                def privmsg(self, user, channel, message):
                    if channel == self.channel:
                        self._remember_message(message)
                def connectionLost(self, reason):
                    node.tracker.verified.added.unwatch(self.watch_id)
                    print 'IRC connection lost:', reason.getErrorMessage()
            class IRCClientFactory(protocol.ReconnectingClientFactory):
                protocol = IRCClient
            reactor.connectTCP("irc.freenode.net", 6667, IRCClientFactory(), bindAddress=(worker_endpoint[0], 0))
        
        @defer.inlineCallbacks
        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/dash_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 range(len(pubkeys.keys)):
                            curtot = node.get_current_txouts().get(dash_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.dashd_work.value['bits'].target / real_att_s),
                        )
                        
                        for warning in p2pool_data.get_warnings(node.tracker, node.best_share_var.value, net, dashd_getinfo_var.value, node.dashd_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()
        status_thread()
    except:
        reactor.stop()
        log.err(None, 'Fatal error:')
Example #6
0
def get_web_root(wb, datadir_path, dashd_getinfo_var, stop_event=variable.Event(), static_dir=None):
    node = wb.node
    start_time = time.time()
    
    web_root = resource.Resource()
    
    def get_users():
        height, last = node.tracker.get_height_and_last(node.best_share_var.value)
        weights, total_weight, donation_weight = node.tracker.get_cumulative_weights(node.best_share_var.value, min(height, 720), 65535*2**256)
        res = {}
        for script in sorted(weights, key=lambda s: weights[s]):
            res[dash_data.script2_to_address(script, node.net.PARENT)] = weights[script]/total_weight
        return res
    
    def get_current_scaled_txouts(scale, trunc=0):
        txouts = node.get_current_txouts()
        total = sum(txouts.itervalues())
        results = dict((script, value*scale//total) for script, value in txouts.iteritems())
        if trunc > 0:
            total_random = 0
            random_set = set()
            for s in sorted(results, key=results.__getitem__):
                if results[s] >= trunc:
                    break
                total_random += results[s]
                random_set.add(s)
            if total_random:
                winner = math.weighted_choice((script, results[script]) for script in random_set)
                for script in random_set:
                    del results[script]
                results[winner] = total_random
        if sum(results.itervalues()) < int(scale):
            results[math.weighted_choice(results.iteritems())] += int(scale) - sum(results.itervalues())
        return results
    
    def get_patron_sendmany(total=None, trunc='0.01'):
        if total is None:
            return 'need total argument. go to patron_sendmany/<TOTAL>'
        total = int(float(total)*1e8)
        trunc = int(float(trunc)*1e8)
        return json.dumps(dict(
            (dash_data.script2_to_address(script, node.net.PARENT), value/1e8)
            for script, value in get_current_scaled_txouts(total, trunc).iteritems()
            if dash_data.script2_to_address(script, node.net.PARENT) is not None
        ))
    
    def get_global_stats():
        # averaged over last hour
        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)
        
        nonstale_hash_rate = p2pool_data.get_pool_attempts_per_second(node.tracker, node.best_share_var.value, lookbehind)
        stale_prop = p2pool_data.get_average_stale_prop(node.tracker, node.best_share_var.value, lookbehind)
        diff = dash_data.target_to_difficulty(wb.current_work.value['bits'].target)
        return dict(
            pool_nonstale_hash_rate=nonstale_hash_rate,
            pool_hash_rate=nonstale_hash_rate/(1 - stale_prop),
            pool_stale_prop=stale_prop,
            min_difficulty=dash_data.target_to_difficulty(node.tracker.items[node.best_share_var.value].max_target),
            network_block_difficulty=diff,
            network_hashrate=(diff * 2**32 // node.net.PARENT.BLOCK_PERIOD),
        )
    
    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(dash_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] = dash_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=dash_data.target_to_average_attempts(node.tracker.items[node.best_share_var.value].max_target),
            attempts_to_block=dash_data.target_to_average_attempts(node.dashd_work.value['bits'].target),
            block_value=node.dashd_work.value['subsidy']*1e-8,
            warnings=p2pool_data.get_warnings(node.tracker, node.best_share_var.value, node.net, dashd_getinfo_var.value, node.dashd_work.value),
            donation_proportion=wb.donation_percentage/100,
            version=p2pool.__version__,
            protocol_version=p2p.Protocol.VERSION,
            fee=wb.worker_fee,
        )
    
    class WebInterface(deferred_resource.DeferredResource):
        def __init__(self, func, mime_type='application/json', args=()):
            deferred_resource.DeferredResource.__init__(self)
            self.func, self.mime_type, self.args = func, mime_type, args
        
        def getChild(self, child, request):
            return WebInterface(self.func, self.mime_type, self.args + (child,))
        
        @defer.inlineCallbacks
        def render_GET(self, request):
            request.setHeader('Content-Type', self.mime_type)
            request.setHeader('Access-Control-Allow-Origin', '*')
            res = yield self.func(*self.args)
            defer.returnValue(json.dumps(res) if self.mime_type == 'application/json' else res)
    
    def decent_height():
        return min(node.tracker.get_height(node.best_share_var.value), 720)
    web_root.putChild('rate', WebInterface(lambda: p2pool_data.get_pool_attempts_per_second(node.tracker, node.best_share_var.value, decent_height())/(1-p2pool_data.get_average_stale_prop(node.tracker, node.best_share_var.value, decent_height()))))
    web_root.putChild('difficulty', WebInterface(lambda: dash_data.target_to_difficulty(node.tracker.items[node.best_share_var.value].max_target)))
    web_root.putChild('users', WebInterface(get_users))
    web_root.putChild('user_stales', WebInterface(lambda: dict((dash_data.pubkey_hash_to_address(ph, node.net.PARENT), prop) for ph, prop in
        p2pool_data.get_user_stale_props(node.tracker, node.best_share_var.value, node.tracker.get_height(node.best_share_var.value)).iteritems())))
    web_root.putChild('fee', WebInterface(lambda: wb.worker_fee))
    web_root.putChild('current_payouts', WebInterface(lambda: dict((dash_data.script2_to_address(script, node.net.PARENT), value/1e8) for script, value in node.get_current_txouts().iteritems())))
    web_root.putChild('patron_sendmany', WebInterface(get_patron_sendmany, 'text/plain'))
    web_root.putChild('global_stats', WebInterface(get_global_stats))
    web_root.putChild('local_stats', WebInterface(get_local_stats))
    web_root.putChild('peer_addresses', WebInterface(lambda: ' '.join('%s%s' % (peer.transport.getPeer().host, ':'+str(peer.transport.getPeer().port) if peer.transport.getPeer().port != node.net.P2P_PORT else '') for peer in node.p2p_node.peers.itervalues())))
    web_root.putChild('peer_txpool_sizes', WebInterface(lambda: dict(('%s:%i' % (peer.transport.getPeer().host, peer.transport.getPeer().port), peer.remembered_txs_size) for peer in node.p2p_node.peers.itervalues())))
    web_root.putChild('pings', WebInterface(defer.inlineCallbacks(lambda: defer.returnValue(
        dict([(a, (yield b)) for a, b in
            [(
                '%s:%i' % (peer.transport.getPeer().host, peer.transport.getPeer().port),
                defer.inlineCallbacks(lambda peer=peer: defer.returnValue(
                    min([(yield peer.do_ping().addCallback(lambda x: x/0.001).addErrback(lambda fail: None)) for i in xrange(3)])
                ))()
            ) for peer in list(node.p2p_node.peers.itervalues())]
        ])
    ))))
    web_root.putChild('peer_versions', WebInterface(lambda: dict(('%s:%i' % peer.addr, peer.other_sub_version) for peer in node.p2p_node.peers.itervalues())))
    web_root.putChild('payout_addr', WebInterface(lambda: dash_data.pubkey_hash_to_address(wb.my_pubkey_hash, node.net.PARENT)))
    web_root.putChild('payout_addrs', WebInterface(lambda: list(('%s' % dash_data.pubkey_hash_to_address(add, node.net.PARENT)) for add in wb.pubkeys.keys)))
    def height_from_coinbase(coinbase):
        opcode = ord(coinbase[0]) if len(coinbase) > 0 else 0
        if opcode >= 1 and opcode <= 75: 
            return pack.IntType(opcode*8).unpack(coinbase[1:opcode+1])
        if opcode == 76: 
            return pack.IntType(8).unpack(coinbase[1:2])
        if opcode == 77: 
            return pack.IntType(8).unpack(coinbase[1:3])
        if opcode == 78: 
            return pack.IntType(8).unpack(coinbase[1:5])
        if opcode >= 79 and opcode <= 96:
           return opcode - 80
        return None
    web_root.putChild('recent_blocks', WebInterface(lambda: [dict(
        ts=s.timestamp,
        hash='%064x' % s.header_hash,
        number=height_from_coinbase(s.share_data['coinbase']),
        share='%064x' % s.hash,
    ) for s in node.tracker.get_chain(node.best_share_var.value, min(node.tracker.get_height(node.best_share_var.value), 24*60*60//node.net.SHARE_PERIOD)) if s.pow_hash <= s.header['bits'].target]))
    web_root.putChild('uptime', WebInterface(lambda: time.time() - start_time))
    web_root.putChild('stale_rates', WebInterface(lambda: p2pool_data.get_stale_counts(node.tracker, node.best_share_var.value, decent_height(), rates=True)))
    
    new_root = resource.Resource()
    web_root.putChild('web', new_root)
    
    stat_log = []
    if os.path.exists(os.path.join(datadir_path, 'stats')):
        try:
            with open(os.path.join(datadir_path, 'stats'), 'rb') as f:
                stat_log = json.loads(f.read())
        except:
            log.err(None, 'Error loading stats:')
    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(dash_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=dash_data.target_to_average_attempts(node.tracker.items[node.best_share_var.value].max_target),
            attempts_to_block=dash_data.target_to_average_attempts(node.dashd_work.value['bits'].target),
            block_value=node.dashd_work.value['subsidy']*1e-8,
        ))
        
        with open(os.path.join(datadir_path, 'stats'), 'wb') as f:
            f.write(json.dumps(stat_log))
    x = deferral.RobustLoopingCall(update_stat_log)
    x.start(5*60)
    stop_event.watch(x.stop)
    new_root.putChild('log', WebInterface(lambda: stat_log))
    
    def get_share(share_hash_str):
        if int(share_hash_str, 16) not in node.tracker.items:
            return None
        share = node.tracker.items[int(share_hash_str, 16)]
        
        return dict(
            parent='%064x' % share.previous_hash,
            far_parent='%064x' % share.share_info['far_share_hash'],
            children=['%064x' % x for x in sorted(node.tracker.reverse.get(share.hash, set()), key=lambda sh: -len(node.tracker.reverse.get(sh, set())))], # sorted from most children to least children
            type_name=type(share).__name__,
            local=dict(
                verified=share.hash in node.tracker.verified.items,
                time_first_seen=start_time if share.time_seen == 0 else share.time_seen,
                peer_first_received_from=share.peer_addr,
            ),
            share_data=dict(
                timestamp=share.timestamp,
                target=share.target,
                max_target=share.max_target,
                payout_address=dash_data.script2_to_address(share.new_script, node.net.PARENT),
                donation=share.share_data['donation']/65535,
                stale_info=share.share_data['stale_info'],
                nonce=share.share_data['nonce'],
                desired_version=share.share_data['desired_version'],
                absheight=share.absheight,
                abswork=share.abswork,
            ),
            block=dict(
                hash='%064x' % share.header_hash,
                header=dict(
                    version=share.header['version'],
                    previous_block='%064x' % share.header['previous_block'],
                    merkle_root='%064x' % share.header['merkle_root'],
                    timestamp=share.header['timestamp'],
                    target=share.header['bits'].target,
                    nonce=share.header['nonce'],
                ),
                gentx=dict(
                    hash='%064x' % share.gentx_hash,
                    coinbase=share.share_data['coinbase'].ljust(2, '\x00').encode('hex'),
                    value=share.share_data['subsidy']*1e-8,
                    last_txout_nonce='%016x' % share.contents['last_txout_nonce'],
                ),
                other_transaction_hashes=['%064x' % x for x in share.get_other_tx_hashes(node.tracker)],
            ),
        )

    def get_share_address(share_hash_str):
        if int(share_hash_str, 16) not in node.tracker.items:
            return None
        share = node.tracker.items[int(share_hash_str, 16)]
        return dash_data.script2_to_address(share.new_script, node.net.PARENT)

    new_root.putChild('payout_address', WebInterface(lambda share_hash_str: get_share_address(share_hash_str)))
    new_root.putChild('share', WebInterface(lambda share_hash_str: get_share(share_hash_str)))
    new_root.putChild('heads', WebInterface(lambda: ['%064x' % x for x in node.tracker.heads]))
    new_root.putChild('verified_heads', WebInterface(lambda: ['%064x' % x for x in node.tracker.verified.heads]))
    new_root.putChild('tails', WebInterface(lambda: ['%064x' % x for t in node.tracker.tails for x in node.tracker.reverse.get(t, set())]))
    new_root.putChild('verified_tails', WebInterface(lambda: ['%064x' % x for t in node.tracker.verified.tails for x in node.tracker.verified.reverse.get(t, set())]))
    new_root.putChild('best_share_hash', WebInterface(lambda: '%064x' % node.best_share_var.value))
    new_root.putChild('my_share_hashes', WebInterface(lambda: ['%064x' % my_share_hash for my_share_hash in wb.my_share_hashes]))
    def get_share_data(share_hash_str):
        if int(share_hash_str, 16) not in node.tracker.items:
            return ''
        share = node.tracker.items[int(share_hash_str, 16)]
        return p2pool_data.share_type.pack(share.as_share())
    new_root.putChild('share_data', WebInterface(lambda share_hash_str: get_share_data(share_hash_str), 'application/octet-stream'))
    new_root.putChild('currency_info', WebInterface(lambda: dict(
        symbol=node.net.PARENT.SYMBOL,
        block_explorer_url_prefix=node.net.PARENT.BLOCK_EXPLORER_URL_PREFIX,
        address_explorer_url_prefix=node.net.PARENT.ADDRESS_EXPLORER_URL_PREFIX,
        tx_explorer_url_prefix=node.net.PARENT.TX_EXPLORER_URL_PREFIX,
    )))
    new_root.putChild('version', WebInterface(lambda: p2pool.__version__))
    
    hd_path = os.path.join(datadir_path, 'graph_db')
    hd_data = _atomic_read(hd_path)
    hd_obj = {}
    if hd_data is not None:
        try:
            hd_obj = json.loads(hd_data)
        except Exception:
            log.err(None, 'Error reading graph database:')
    dataview_descriptions = {
        'last_hour': graph.DataViewDescription(150, 60*60),
        'last_day': graph.DataViewDescription(300, 60*60*24),
        'last_week': graph.DataViewDescription(300, 60*60*24*7),
        'last_month': graph.DataViewDescription(300, 60*60*24*30),
        'last_year': graph.DataViewDescription(300, 60*60*24*365.25),
    }
    hd = graph.HistoryDatabase.from_obj({
        'local_hash_rate': graph.DataStreamDescription(dataview_descriptions, is_gauge=False),
        'local_dead_hash_rate': graph.DataStreamDescription(dataview_descriptions, is_gauge=False),
        'local_share_hash_rates': graph.DataStreamDescription(dataview_descriptions, is_gauge=False,
            multivalues=True, multivalue_undefined_means_0=True,
            default_func=graph.make_multivalue_migrator(dict(good='local_share_hash_rate', dead='local_dead_share_hash_rate', orphan='local_orphan_share_hash_rate'),
                post_func=lambda bins: [dict((k, (v[0] - (sum(bin.get(rem_k, (0, 0))[0] for rem_k in ['dead', 'orphan']) if k == 'good' else 0), v[1])) for k, v in bin.iteritems()) for bin in bins])),
        'pool_rates': graph.DataStreamDescription(dataview_descriptions, multivalues=True,
            multivalue_undefined_means_0=True),
        'current_payout': graph.DataStreamDescription(dataview_descriptions),
        'current_payouts': graph.DataStreamDescription(dataview_descriptions, multivalues=True),
        'peers': graph.DataStreamDescription(dataview_descriptions, multivalues=True, default_func=graph.make_multivalue_migrator(dict(incoming='incoming_peers', outgoing='outgoing_peers'))),
        'miner_hash_rates': graph.DataStreamDescription(dataview_descriptions, is_gauge=False, multivalues=True),
        'miner_dead_hash_rates': graph.DataStreamDescription(dataview_descriptions, is_gauge=False, multivalues=True),
        'desired_version_rates': graph.DataStreamDescription(dataview_descriptions, multivalues=True,
            multivalue_undefined_means_0=True),
        'traffic_rate': graph.DataStreamDescription(dataview_descriptions, is_gauge=False, multivalues=True),
        'getwork_latency': graph.DataStreamDescription(dataview_descriptions),
        'memory_usage': graph.DataStreamDescription(dataview_descriptions),
    }, hd_obj)
    x = deferral.RobustLoopingCall(lambda: _atomic_write(hd_path, json.dumps(hd.to_obj())))
    x.start(100)
    stop_event.watch(x.stop)
    @wb.pseudoshare_received.watch
    def _(work, dead, user):
        t = time.time()
        hd.datastreams['local_hash_rate'].add_datum(t, work)
        if dead:
            hd.datastreams['local_dead_hash_rate'].add_datum(t, work)
        if user is not None:
            hd.datastreams['miner_hash_rates'].add_datum(t, {user: work})
            if dead:
                hd.datastreams['miner_dead_hash_rates'].add_datum(t, {user: work})
    @wb.share_received.watch
    def _(work, dead, share_hash):
        t = time.time()
        if not dead:
            hd.datastreams['local_share_hash_rates'].add_datum(t, dict(good=work))
        else:
            hd.datastreams['local_share_hash_rates'].add_datum(t, dict(dead=work))
        def later():
            res = node.tracker.is_child_of(share_hash, node.best_share_var.value)
            if res is None: res = False # share isn't connected to sharechain? assume orphaned
            if res and dead: # share was DOA, but is now in sharechain
                # move from dead to good
                hd.datastreams['local_share_hash_rates'].add_datum(t, dict(dead=-work, good=work))
            elif not res and not dead: # share wasn't DOA, and isn't in sharechain
                # move from good to orphan
                hd.datastreams['local_share_hash_rates'].add_datum(t, dict(good=-work, orphan=work))
        reactor.callLater(200, later)
    @node.p2p_node.traffic_happened.watch
    def _(name, bytes):
        hd.datastreams['traffic_rate'].add_datum(time.time(), {name: bytes})
    def add_point():
        if node.tracker.get_height(node.best_share_var.value) < 10:
            return None
        lookbehind = min(node.net.CHAIN_LENGTH, 60*60//node.net.SHARE_PERIOD, node.tracker.get_height(node.best_share_var.value))
        t = time.time()
        
        pool_rates = p2pool_data.get_stale_counts(node.tracker, node.best_share_var.value, lookbehind, rates=True)
        pool_total = sum(pool_rates.itervalues())
        hd.datastreams['pool_rates'].add_datum(t, pool_rates)
        
        current_txouts = node.get_current_txouts()
        my_current_payouts = 0.0
        for add in wb.pubkeys.keys:
             my_current_payouts += current_txouts.get(dash_data.pubkey_hash_to_script2(add), 0)*1e-8
        hd.datastreams['current_payout'].add_datum(t, my_current_payouts)
        miner_hash_rates, miner_dead_hash_rates = wb.get_local_rates()
        current_txouts_by_address = dict((dash_data.script2_to_address(script, node.net.PARENT), amount) for script, amount in current_txouts.iteritems())
        hd.datastreams['current_payouts'].add_datum(t, dict((user, current_txouts_by_address[user]*1e-8) for user in miner_hash_rates if user in current_txouts_by_address))
        
        hd.datastreams['peers'].add_datum(t, 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),
        ))
        
        vs = p2pool_data.get_desired_version_counts(node.tracker, node.best_share_var.value, lookbehind)
        vs_total = sum(vs.itervalues())
        hd.datastreams['desired_version_rates'].add_datum(t, dict((str(k), v/vs_total*pool_total) for k, v in vs.iteritems()))
        try:
            hd.datastreams['memory_usage'].add_datum(t, memory.resident())
        except:
            if p2pool.DEBUG:
                traceback.print_exc()
    x = deferral.RobustLoopingCall(add_point)
    x.start(5)
    stop_event.watch(x.stop)
    @node.dashd_work.changed.watch
    def _(new_work):
        hd.datastreams['getwork_latency'].add_datum(time.time(), new_work['latency'])
    new_root.putChild('graph_data', WebInterface(lambda source, view: hd.datastreams[source].dataviews[view].get_data(time.time())))
    
    if static_dir is None:
        static_dir = os.path.join(os.path.dirname(os.path.abspath(sys.argv[0])), 'web-static')
    web_root.putChild('static', static.File(static_dir))
    
    return web_root