Beispiel #1
0
    def generate_job(self, push=False, flush=False, new_block=False):
        """ Creates a new job for miners to work on. Push will trigger an
        event that sends new work but doesn't force a restart. If flush is
        true a job restart will be triggered. """

        # aux monitors will often call this early when not needed at startup
        if not self._last_gbt:
            self.logger.warn("Cannot generate new job, missing last GBT info")
            return

        if self.merged_work:
            tree, size = bitcoin_data.make_auxpow_tree(self.merged_work)
            mm_hashes = [
                self.merged_work.get(tree.get(i), dict(hash=0))['hash']
                for i in xrange(size)
            ]
            mm_data = '\xfa\xbemm'
            mm_data += bitcoin_data.aux_pow_coinbase_type.pack(
                dict(
                    merkle_root=bitcoin_data.merkle_hash(mm_hashes),
                    size=size,
                    nonce=0,
                ))
            merged_data = {}
            for aux_work in self.merged_work.itervalues():
                data = dict(target=aux_work['target'],
                            hash=aux_work['hash'],
                            height=aux_work['height'],
                            index=mm_hashes.index(aux_work['hash']),
                            type=aux_work['type'],
                            hashes=mm_hashes)
                merged_data[aux_work['type']] = data
        else:
            merged_data = {}
            mm_data = None

        self.logger.info("Generating new block template with {} trans. "
                         "Diff {:,.4f}. Subsidy {:,.2f}. Height {:,}. "
                         "Merged chains: {}".format(
                             len(self._last_gbt['transactions']),
                             bits_to_difficulty(self._last_gbt['bits']),
                             self._last_gbt['coinbasevalue'] / 100000000.0,
                             self._last_gbt['height'],
                             ', '.join(merged_data.keys())))

        # here we recalculate the current merkle branch and partial
        # coinbases for passing to the mining clients
        coinbase = Transaction()
        coinbase.version = 2
        # create a coinbase input with encoded height and padding for the
        # extranonces so script length is accurate
        extranonce_length = (self.config['extranonce_size'] +
                             self.config['extranonce_serv_size'])
        coinbase.inputs.append(
            Input.coinbase(self._last_gbt['height'],
                           addtl_push=[mm_data] if mm_data else [],
                           extra_script_sig=b'\0' * extranonce_length))

        # Darkcoin payee amount
        if self._last_gbt.get('payee', '') != '':
            payout = self._last_gbt['coinbasevalue'] / 5
            self._last_gbt['coinbasevalue'] -= payout
            coinbase.outputs.append(
                Output.to_address(payout, self._last_gbt['payee']))
            self.logger.info(
                "Paying out masternode at addr {}. Payout {}. Blockval reduced to {}"
                .format(self._last_gbt['payee'], payout,
                        self._last_gbt['coinbasevalue']))

        # simple output to the proper address and value
        coinbase.outputs.append(
            Output.to_address(self._last_gbt['coinbasevalue'],
                              self.config['pool_address']))

        job_id = hexlify(struct.pack(str("I"), self._job_counter))
        bt_obj = BlockTemplate.from_gbt(
            self._last_gbt, coinbase, extranonce_length, [
                Transaction(unhexlify(t['data']), fees=t['fee'])
                for t in self._last_gbt['transactions']
            ])
        # add in our merged mining data
        if mm_data:
            hashes = [
                bitcoin_data.hash256(tx.raw) for tx in bt_obj.transactions
            ]
            bt_obj.merkle_link = bitcoin_data.calculate_merkle_link([None] +
                                                                    hashes, 0)
        bt_obj.merged_data = merged_data
        bt_obj.job_id = job_id
        bt_obj.diff1 = self.config['diff1']
        bt_obj.algo = self.config['algo']
        bt_obj.pow_block_hash = self.config['pow_block_hash']
        bt_obj.block_height = self._last_gbt['height']
        bt_obj.acc_shares = set()

        if push:
            if flush:
                self.logger.info("New work announced! Wiping previous jobs...")
                self.jobs.clear()
                self.latest_job = None
            else:
                self.logger.info("New work announced!")

        self._job_counter += 1
        self.jobs[job_id] = bt_obj
        self.latest_job = job_id
        if push:
            t = time.time()
            bt_obj.stratum_string()
            for idx, client in viewitems(self.stratum_manager.clients):
                try:
                    if client.authenticated:
                        client._push(bt_obj, flush=flush)
                except AttributeError:
                    pass
            self.logger.info(
                "New job enqueued for transmission to {} users in {}".format(
                    len(self.stratum_manager.clients),
                    time_format(time.time() - t)))
            if flush:
                self.server['work_restarts'].incr()
            self.server['work_pushes'].incr()

        self.server['new_jobs'].incr()

        if new_block:
            hex_bits = hexlify(bt_obj.bits)
            self.current_net['difficulty'] = bits_to_difficulty(hex_bits)
            self.current_net['subsidy'] = bt_obj.total_value
            self.current_net['height'] = bt_obj.block_height - 1
            self.current_net['prev_hash'] = bt_obj.hashprev_be_hex
            self.current_net['transactions'] = len(bt_obj.transactions)
Beispiel #2
0
    def found_block(self, address, worker, header, coinbase_raw, job):
        aux_data = job.merged_data[self.config['name']]
        self.block_stats['solves'] += 1
        self.logger.info("New {} Aux block at height {}".format(
            self.config['name'], aux_data['height']))
        aux_block = (
            pack.IntType(256, 'big').pack(aux_data['hash']).encode('hex'),
            bitcoin_data.aux_pow_type.pack(
                dict(
                    merkle_tx=dict(
                        tx=bitcoin_data.tx_type.unpack(coinbase_raw),
                        block_hash=bitcoin_data.hash256(header),
                        merkle_link=job.merkle_link,
                    ),
                    merkle_link=bitcoin_data.calculate_merkle_link(
                        aux_data['hashes'], aux_data['index']),
                    parent_block_header=bitcoin_data.block_header_type.unpack(
                        header),
                )).encode('hex'),
        )

        retries = 0
        while retries < 5:
            retries += 1
            new_height = aux_data['height'] + 1
            res = False
            try:
                res = self.coinserv.getauxblock(*aux_block)
            except (bitcoinrpc.CoinRPCException, socket.error,
                    ValueError) as e:
                self.logger.error(
                    "{} Aux block failed to submit to the server!".format(
                        self.config['name']),
                    exc_info=True)
                self.logger.error(getattr(e, 'error'))

            if res is True:
                self.logger.info("NEW {} Aux BLOCK ACCEPTED!!!".format(
                    self.config['name']))
                # Record it for the stats
                self.block_stats['accepts'] += 1
                self.recent_blocks.append(
                    dict(height=new_height, timestamp=int(time.time())))

                # submit it to our reporter if configured to do so
                if self.config['send']:
                    self.logger.info(
                        "Submitting {} new block to reporter".format(
                            self.config['name']))
                    # A horrible mess that grabs the required information for
                    # reporting the new block. Pretty failsafe so at least
                    # partial information will be reporter regardless
                    try:
                        hsh = self.coinserv.getblockhash(new_height)
                    except Exception:
                        self.logger.info("", exc_info=True)
                        hsh = ''
                    try:
                        block = self.coinserv.getblock(hsh)
                    except Exception:
                        self.logger.info("", exc_info=True)
                    try:
                        trans = self.coinserv.gettransaction(block['tx'][0])
                        amount = trans['details'][0]['amount']
                    except Exception:
                        self.logger.info("", exc_info=True)
                        amount = -1

                    self.block_stats['last_solve_hash'] = hsh
                    self.reporter.add_block(
                        address,
                        new_height,
                        int(amount * 100000000),
                        -1,
                        "%0.6X" %
                        bitcoin_data.FloatingInteger.from_target_upper_bound(
                            aux_data['target']).bits,
                        hsh,
                        merged=self.config['reporting_id'],
                        worker=worker)

                break  # break retry loop if success
            else:
                self.logger.error(
                    "{} Aux Block failed to submit to the server, "
                    "server returned {}!".format(self.config['name'], res),
                    exc_info=True)
            sleep(1)
        else:
            self.block_stats['rejects'] += 1

        self.block_stats['last_solve_height'] = aux_data['height'] + 1
        self.block_stats['last_solve_worker'] = "{}.{}".format(address, worker)
        self.block_stats['last_solve_time'] = datetime.datetime.utcnow()
Beispiel #3
0
    def found_block(self, address, worker, header, coinbase_raw, job, start):
        aux_data = job.merged_data[self.config['currency']]
        new_height = aux_data['height'] + 1
        self.block_stats['solves'] += 1
        stale = new_height <= self.current_net['height']

        self.logger.info("New {} Aux block at height {}".format(
            self.config['currency'], new_height))
        aux_block = (
            pack.IntType(256, 'big').pack(aux_data['hash']).encode('hex'),
            bitcoin_data.aux_pow_type.pack(
                dict(
                    merkle_tx=dict(
                        tx=bitcoin_data.tx_type.unpack(coinbase_raw),
                        block_hash=bitcoin_data.hash256(header),
                        merkle_link=job.merkle_link,
                    ),
                    merkle_link=bitcoin_data.calculate_merkle_link(
                        aux_data['hashes'], aux_data['index']),
                    parent_block_header=bitcoin_data.block_header_type.unpack(
                        header),
                )).encode('hex'),
        )

        retries = 0
        while retries < 5:
            retries += 1
            res = False
            try:
                res = self.call_rpc('getauxblock', *aux_block)
            except (CoinRPCException, socket.error, ValueError) as e:
                self.logger.error(
                    "{} Aux block failed to submit to the server!".format(
                        self.config['currency']),
                    exc_info=True)
                self.logger.error(getattr(e, 'error'))

            if res is True or res is None:
                # Record it for the stats
                self.block_stats['accepts'] += 1
                self.recent_blocks.append(
                    dict(height=new_height, timestamp=int(time.time())))

                # submit it to our reporter if configured to do so
                if self.config['send']:
                    if start:
                        submission_time = time.time() - start
                        self.manager.log_event(
                            "{name}.block_submission_{curr}:{t}|ms".format(
                                name=self.manager.config['procname'],
                                curr=self.config['currency'],
                                t=submission_time * 1000))
                    hsh = hexlify(
                        pack.IntType(256, 'big').pack(aux_data['hash']))
                    self.logger.info("{} BLOCK {}:{} accepted after {}".format(
                        self.config['currency'], hsh, new_height,
                        submission_time))

                    # A bit of a mess that grabs the required information for
                    # reporting the new block. Pretty failsafe so at least
                    # partial information will be reporter regardless
                    block = None
                    amount = 0
                    try:
                        block = self.call_rpc('getblock', hsh)
                    except Exception:
                        self.logger.info("", exc_info=True)
                    else:
                        try:
                            trans = self.call_rpc('gettxout', block['tx'][0],
                                                  0)
                            amount = trans['value']
                        except Exception:
                            self.logger.info("", exc_info=True)

                    self.block_stats['last_solve_hash'] = hsh
                    return dict(
                        address=address,
                        height=new_height,
                        total_subsidy=int(amount * 100000000),
                        fees=None,
                        hex_bits="%0.6X" %
                        bitcoin_data.FloatingInteger.from_target_upper_bound(
                            aux_data['target']).bits,
                        hex_hash=hsh,
                        currency=self.config['currency'],
                        merged=True,
                        algo=self.config['algo'],
                        worker=worker)

                break  # break retry loop if success
            else:
                self.logger.error(
                    "{} Aux Block height {} failed to submit to the server, "
                    "server returned {}!".format(self.config['currency'],
                                                 new_height, res),
                    exc_info=True)
            sleep(1)
        else:
            if stale:
                self.block_stats['stale'] += 1
            else:
                self.block_stats['rejects'] += 1

        self.block_stats['last_solve_height'] = aux_data['height'] + 1
        self.block_stats['last_solve_worker'] = "{}.{}".format(address, worker)
        self.block_stats['last_solve_time'] = datetime.datetime.utcnow()
Beispiel #4
0
    def generate_job(self,
                     push=False,
                     flush=False,
                     new_block=False,
                     network='main'):
        """ Creates a new job for miners to work on. Push will trigger an
        event that sends new work but doesn't force a restart. If flush is
        true a job restart will be triggered. """

        # aux monitors will often call this early when not needed at startup
        if not self._last_gbt:
            self.logger.warn("Cannot generate new job, missing last GBT info")
            return

        if self.auxmons:
            merged_work = {}
            auxdata = {}
            for auxmon in self.auxmons:
                # If this network hasn't pushed a job yet, skip it
                if auxmon.last_work['hash'] is None:
                    continue
                merged_work[auxmon.last_work['chainid']] = dict(
                    hash=auxmon.last_work['hash'],
                    target=auxmon.last_work['type'])

            tree, size = bitcoin_data.make_auxpow_tree(merged_work)
            mm_hashes = [
                merged_work.get(tree.get(i), dict(hash=0))['hash']
                for i in xrange(size)
            ]
            mm_data = '\xfa\xbemm'
            mm_data += bitcoin_data.aux_pow_coinbase_type.pack(
                dict(
                    merkle_root=bitcoin_data.merkle_hash(mm_hashes),
                    size=size,
                    nonce=0,
                ))

            for auxmon in self.auxmons:
                if auxmon.last_work['hash'] is None:
                    continue
                data = dict(target=auxmon.last_work['target'],
                            hash=auxmon.last_work['hash'],
                            height=auxmon.last_work['height'],
                            found_block=auxmon.found_block,
                            index=mm_hashes.index(auxmon.last_work['hash']),
                            type=auxmon.last_work['type'],
                            hashes=mm_hashes)
                auxdata[auxmon.config['currency']] = data
        else:
            auxdata = {}
            mm_data = None

        # here we recalculate the current merkle branch and partial
        # coinbases for passing to the mining clients
        coinbase = Transaction()
        coinbase.version = 2
        # create a coinbase input with encoded height and padding for the
        # extranonces so script length is accurate
        extranonce_length = (self.manager.config['extranonce_size'] +
                             self.manager.config['extranonce_serv_size'])
        coinbase.inputs.append(
            Input.coinbase(self._last_gbt['height'],
                           addtl_push=[mm_data] if mm_data else [],
                           extra_script_sig=b'\0' * extranonce_length))

        coinbase_value = self._last_gbt['coinbasevalue']

        # Payout Darkcoin masternodes
        mn_enforcement = self._last_gbt.get('enforce_masternode_payments',
                                            True)
        if (self.config['payout_drk_mn'] is True or mn_enforcement is True) \
                and self._last_gbt.get('payee', '') != '':
            # Grab the darkcoin payout amount, default to 20%
            payout = self._last_gbt.get('payee_amount', coinbase_value / 5)
            coinbase_value -= payout
            coinbase.outputs.append(
                Output.to_address(payout, self._last_gbt['payee']))
            self.logger.debug(
                "Created TX output for masternode at ({}:{}). Coinbase value "
                "reduced to {}".format(self._last_gbt['payee'], payout,
                                       coinbase_value))

        # simple output to the proper address and value
        coinbase.outputs.append(
            Output.to_address(coinbase_value, self.config['pool_address']))

        job_id = hexlify(struct.pack(str("I"), self._job_counter))

        bt_obj = BlockTemplate.from_gbt(
            self._last_gbt, coinbase, extranonce_length, [
                Transaction(unhexlify(t['data']), fees=t['fee'])
                for t in self._last_gbt['transactions']
            ])
        # add in our merged mining data
        if mm_data:
            hashes = [
                bitcoin_data.hash256(tx.raw) for tx in bt_obj.transactions
            ]
            bt_obj.merkle_link = bitcoin_data.calculate_merkle_link([None] +
                                                                    hashes, 0)
        bt_obj.merged_data = auxdata
        bt_obj.job_id = job_id
        bt_obj.diff1 = self.config['diff1']
        bt_obj.algo = self.config['algo']
        bt_obj.currency = self.config['currency']
        bt_obj.pow_block_hash = self.config['pow_block_hash']
        bt_obj.block_height = self._last_gbt['height']
        bt_obj.acc_shares = set()
        if flush:
            bt_obj.type = 0
        elif push:
            bt_obj.type = 1
        else:
            bt_obj.type = 2
        bt_obj.found_block = self.found_block

        # Push the fresh job to users after updating details
        self._job_counter += 1
        if flush:
            self.jobs.clear()
        self.jobs[job_id] = bt_obj
        self.latest_job = bt_obj

        self.new_job.job = bt_obj
        self.new_job.set()
        self.new_job.clear()
        event = ("{name}.jobmanager.new_job:1|c\n".format(
            name=self.manager.config['procname']))
        if push or flush:
            self.logger.info(
                "{}: New block template with {:,} trans. "
                "Diff {:,.4f}. Subsidy {:,.2f}. Height {:,}. Merged: {}".
                format("FLUSH" if flush else "PUSH",
                       len(self._last_gbt['transactions']),
                       bits_to_difficulty(self._last_gbt['bits']),
                       self._last_gbt['coinbasevalue'] / 100000000.0,
                       self._last_gbt['height'], ', '.join(auxdata.keys())))
            event += ("{name}.jobmanager.work_push:1|c\n".format(
                name=self.manager.config['procname']))

        # Stats and notifications now that it's pushed
        if flush:
            event += ("{name}.jobmanager.work_restart:1|c\n".format(
                name=self.manager.config['procname']))
            self.logger.info("New {} network block announced! Wiping previous"
                             " jobs and pushing".format(network))
        elif push:
            self.logger.info(
                "New {} network block announced, pushing new job!".format(
                    network))

        if new_block:
            hex_bits = hexlify(bt_obj.bits)
            self.current_net['difficulty'] = bits_to_difficulty(hex_bits)
            self.current_net['subsidy'] = bt_obj.total_value
            self.current_net['height'] = bt_obj.block_height - 1
            self.current_net['last_block'] = time.time()
            self.current_net['prev_hash'] = bt_obj.hashprev_be_hex
            self.current_net['transactions'] = len(bt_obj.transactions)

            event += ("{name}.{curr}.difficulty:{diff}|g\n"
                      "{name}.{curr}.subsidy:{subsidy}|g\n"
                      "{name}.{curr}.job_generate:{t}|g\n"
                      "{name}.{curr}.height:{height}|g".format(
                          name=self.manager.config['procname'],
                          curr=self.config['currency'],
                          diff=self.current_net['difficulty'],
                          subsidy=bt_obj.total_value,
                          height=bt_obj.block_height - 1,
                          t=(time.time() - self._last_gbt['update_time']) *
                          1000))
        self.manager.log_event(event)
    def generate_job(self, push=False, flush=False, new_block=False, network='main'):
        """ Creates a new job for miners to work on. Push will trigger an
        event that sends new work but doesn't force a restart. If flush is
        true a job restart will be triggered. """

        # aux monitors will often call this early when not needed at startup
        if not self._last_gbt:
            self.logger.warn("Cannot generate new job, missing last GBT info")
            return

        if self.auxmons:
            merged_work = {}
            auxdata = {}
            for auxmon in self.auxmons:
                if auxmon.last_work['hash'] is None:
                    continue
                merged_work[auxmon.last_work['chainid']] = dict(
                    hash=auxmon.last_work['hash'],
                    target=auxmon.last_work['type']
                )

            tree, size = bitcoin_data.make_auxpow_tree(merged_work)
            mm_hashes = [merged_work.get(tree.get(i), dict(hash=0))['hash']
                         for i in xrange(size)]
            mm_data = '\xfa\xbemm'
            mm_data += bitcoin_data.aux_pow_coinbase_type.pack(dict(
                merkle_root=bitcoin_data.merkle_hash(mm_hashes),
                size=size,
                nonce=0,
            ))

            for auxmon in self.auxmons:
                if auxmon.last_work['hash'] is None:
                    continue
                data = dict(target=auxmon.last_work['target'],
                            hash=auxmon.last_work['hash'],
                            height=auxmon.last_work['height'],
                            found_block=auxmon.found_block,
                            index=mm_hashes.index(auxmon.last_work['hash']),
                            type=auxmon.last_work['type'],
                            hashes=mm_hashes)
                auxdata[auxmon.config['currency']] = data
        else:
            auxdata = {}
            mm_data = None

        # here we recalculate the current merkle branch and partial
        # coinbases for passing to the mining clients
        coinbase = Transaction()
        coinbase.version = 2
        # create a coinbase input with encoded height and padding for the
        # extranonces so script length is accurate
        extranonce_length = (self.manager.config['extranonce_size'] +
                             self.manager.config['extranonce_serv_size'])
        coinbase.inputs.append(
            Input.coinbase(self._last_gbt['height'],
                           addtl_push=[mm_data] if mm_data else [],
                           extra_script_sig=b'\0' * extranonce_length))

        coinbase_value = self._last_gbt['coinbasevalue']

        # Payout Darkcoin masternodes
        mn_enforcement = self._last_gbt.get('enforce_masternode_payments', True)
        if (self.config['payout_drk_mn'] is True or mn_enforcement is True) \
                and self._last_gbt.get('payee', '') != '':
            # Grab the darkcoin payout amount, default to 20%
            payout = self._last_gbt.get('payee_amount', coinbase_value / 5)
            coinbase_value -= payout
            coinbase.outputs.append(
                Output.to_address(payout, self._last_gbt['payee']))
            self.logger.debug(
                "Created TX output for masternode at ({}:{}). Coinbase value "
                "reduced to {}".format(self._last_gbt['payee'], payout,
                                       coinbase_value))

        # simple output to the proper address and value
        coinbase.outputs.append(
            Output.to_address(coinbase_value, self.config['pool_address']))

        job_id = hexlify(struct.pack(str("I"), self._job_counter))
        bt_obj = BlockTemplate.from_gbt(self._last_gbt,
                                        coinbase,
                                        extranonce_length,
                                        [Transaction(unhexlify(t['data']), fees=t['fee'])
                                         for t in self._last_gbt['transactions']])
        # add in our merged mining data
        if mm_data:
            hashes = [bitcoin_data.hash256(tx.raw) for tx in bt_obj.transactions]
            bt_obj.merkle_link = bitcoin_data.calculate_merkle_link([None] + hashes, 0)
        bt_obj.merged_data = auxdata
        bt_obj.job_id = job_id
        bt_obj.diff1 = self.config['diff1']
        bt_obj.algo = self.config['algo']
        bt_obj.currency = self.config['currency']
        bt_obj.pow_block_hash = self.config['pow_block_hash']
        bt_obj.block_height = self._last_gbt['height']
        bt_obj.acc_shares = set()
        if flush:
            bt_obj.type = 0
        elif push:
            bt_obj.type = 1
        else:
            bt_obj.type = 2
        bt_obj.found_block = self.found_block

        # Push the fresh job to users after updating details
        self._job_counter += 1
        if flush:
            self.jobs.clear()
        self.jobs[job_id] = bt_obj
        self.latest_job = bt_obj

        self.new_job.job = bt_obj
        self.new_job.set()
        self.new_job.clear()
        event = ("{name}.jobmanager.new_job:1|c\n"
                 .format(name=self.manager.config['procname']))
        if push or flush:
            self.logger.info(
                "{}: New block template with {:,} trans. "
                "Diff {:,.4f}. Subsidy {:,.2f}. Height {:,}. Merged: {}"
                .format("FLUSH" if flush else "PUSH",
                        len(self._last_gbt['transactions']),
                        bits_to_difficulty(self._last_gbt['bits']),
                        self._last_gbt['coinbasevalue'] / 100000000.0,
                        self._last_gbt['height'],
                        ', '.join(auxdata.keys())))
            event += ("{name}.jobmanager.work_push:1|c\n"
                      .format(name=self.manager.config['procname']))

        # Stats and notifications now that it's pushed
        if flush:
            event += ("{name}.jobmanager.work_restart:1|c\n"
                      .format(name=self.manager.config['procname']))
            self.logger.info("New {} network block announced! Wiping previous"
                             " jobs and pushing".format(network))
        elif push:
            self.logger.info("New {} network block announced, pushing new job!"
                             .format(network))

        if new_block:
            hex_bits = hexlify(bt_obj.bits)
            self.current_net['difficulty'] = bits_to_difficulty(hex_bits)
            self.current_net['subsidy'] = bt_obj.total_value
            self.current_net['height'] = bt_obj.block_height - 1
            self.current_net['last_block'] = time.time()
            self.current_net['prev_hash'] = bt_obj.hashprev_be_hex
            self.current_net['transactions'] = len(bt_obj.transactions)

            event += (
                "{name}.{curr}.difficulty:{diff}|g\n"
                "{name}.{curr}.subsidy:{subsidy}|g\n"
                "{name}.{curr}.job_generate:{t}|g\n"
                "{name}.{curr}.height:{height}|g"
                .format(name=self.manager.config['procname'],
                        curr=self.config['currency'],
                        diff=self.current_net['difficulty'],
                        subsidy=bt_obj.total_value,
                        height=bt_obj.block_height - 1,
                        t=(time.time() - self._last_gbt['update_time']) * 1000))
        self.manager.log_event(event)
Beispiel #6
0
    def found_block(self, address, worker, header, coinbase_raw, job, start):
        aux_data = job.merged_data[self.config['currency']]
        new_height = aux_data['height'] + 1
        self.block_stats['solves'] += 1
        stale = new_height <= self.current_net['height']

        self.logger.info("New {} Aux block at height {}"
                         .format(self.config['currency'], new_height))
        aux_block = (
            pack.IntType(256, 'big').pack(aux_data['hash']).encode('hex'),
            bitcoin_data.aux_pow_type.pack(dict(
                merkle_tx=dict(
                    tx=bitcoin_data.tx_type.unpack(coinbase_raw),
                    block_hash=bitcoin_data.hash256(header),
                    merkle_link=job.merkle_link,
                ),
                merkle_link=bitcoin_data.calculate_merkle_link(aux_data['hashes'],
                                                               aux_data['index']),
                parent_block_header=bitcoin_data.block_header_type.unpack(header),
            )).encode('hex'),
        )

        retries = 0
        while retries < 5:
            retries += 1
            res = False
            try:
                res = self.call_rpc('getauxblock', *aux_block)
            except (CoinRPCException, socket.error, ValueError) as e:
                self.logger.error("{} Aux block failed to submit to the server!"
                                  .format(self.config['currency']), exc_info=True)
                self.logger.error(getattr(e, 'error'))

            if res is True:
                # Record it for the stats
                self.block_stats['accepts'] += 1
                self.recent_blocks.append(
                    dict(height=new_height, timestamp=int(time.time())))

                # submit it to our reporter if configured to do so
                if self.config['send']:
                    if start:
                        submission_time = time.time() - start
                        self.manager.log_event(
                            "{name}.block_submission_{curr}:{t}|ms"
                            .format(name=self.manager.config['procname'],
                                    curr=self.config['currency'],
                                    t=submission_time * 1000))
                    hsh = hexlify(pack.IntType(256, 'big').pack(aux_data['hash']))
                    self.logger.info(
                        "{} BLOCK {}:{} accepted after {}"
                        .format(self.config['currency'], hsh, new_height,
                                submission_time))

                    # A bit of a mess that grabs the required information for
                    # reporting the new block. Pretty failsafe so at least
                    # partial information will be reporter regardless
                    block = None
                    amount = 0
                    try:
                        block = self.call_rpc('getblock', hsh)
                    except Exception:
                        self.logger.info("", exc_info=True)
                    else:
                        try:
                            trans = self.call_rpc('gettxout', block['tx'][0], 0)
                            amount = trans['value']
                        except Exception:
                            self.logger.info("", exc_info=True)

                    self.block_stats['last_solve_hash'] = hsh
                    return dict(address=address,
                                height=new_height,
                                total_subsidy=int(amount * 100000000),
                                fees=None,
                                hex_bits="%0.6X" % bitcoin_data.FloatingInteger.from_target_upper_bound(aux_data['target']).bits,
                                hex_hash=hsh,
                                currency=self.config['currency'],
                                merged=True,
                                algo=self.config['algo'],
                                worker=worker)

                break  # break retry loop if success
            else:
                self.logger.error(
                    "{} Aux Block failed to submit to the server, "
                    "server returned {}!".format(self.config['currency'], res),
                    exc_info=True)
            sleep(1)
        else:
            if stale:
                self.block_stats['stale'] += 1
            else:
                self.block_stats['rejects'] += 1

        self.block_stats['last_solve_height'] = aux_data['height'] + 1
        self.block_stats['last_solve_worker'] = "{}.{}".format(address, worker)
        self.block_stats['last_solve_time'] = datetime.datetime.utcnow()
Beispiel #7
0
    def found_block(self, address, worker, header, coinbase_raw, job):
        aux_data = job.merged_data[self.config['name']]
        self.block_stats['solves'] += 1
        self.logger.info("New {} Aux block at height {}"
                         .format(self.config['name'], aux_data['height']))
        aux_block = (
            pack.IntType(256, 'big').pack(aux_data['hash']).encode('hex'),
            bitcoin_data.aux_pow_type.pack(dict(
                merkle_tx=dict(
                    tx=bitcoin_data.tx_type.unpack(coinbase_raw),
                    block_hash=bitcoin_data.hash256(header),
                    merkle_link=job.merkle_link,
                ),
                merkle_link=bitcoin_data.calculate_merkle_link(aux_data['hashes'],
                                                               aux_data['index']),
                parent_block_header=bitcoin_data.block_header_type.unpack(header),
            )).encode('hex'),
        )

        retries = 0
        while retries < 5:
            retries += 1
            new_height = aux_data['height'] + 1
            res = False
            try:
                res = self.coinserv.getauxblock(*aux_block)
            except (bitcoinrpc.CoinRPCException, socket.error, ValueError) as e:
                self.logger.error("{} Aux block failed to submit to the server!"
                                  .format(self.config['name']), exc_info=True)
                self.logger.error(getattr(e, 'error'))

            if res is True:
                self.logger.info("NEW {} Aux BLOCK ACCEPTED!!!".format(self.config['name']))
                # Record it for the stats
                self.block_stats['accepts'] += 1
                self.recent_blocks.append(
                    dict(height=new_height, timestamp=int(time.time())))

                # submit it to our reporter if configured to do so
                if self.config['send']:
                    self.logger.info("Submitting {} new block to reporter"
                                     .format(self.config['name']))
                    # A horrible mess that grabs the required information for
                    # reporting the new block. Pretty failsafe so at least
                    # partial information will be reporter regardless
                    try:
                        hsh = self.coinserv.getblockhash(new_height)
                    except Exception:
                        self.logger.info("", exc_info=True)
                        hsh = ''
                    try:
                        block = self.coinserv.getblock(hsh)
                    except Exception:
                        self.logger.info("", exc_info=True)
                    try:
                        trans = self.coinserv.gettransaction(block['tx'][0])
                        amount = trans['details'][0]['amount']
                    except Exception:
                        self.logger.info("", exc_info=True)
                        amount = -1

                    self.block_stats['last_solve_hash'] = hsh
                    self.reporter.add_block(
                        address,
                        new_height,
                        int(amount * 100000000),
                        -1,
                        "%0.6X" % bitcoin_data.FloatingInteger.from_target_upper_bound(aux_data['target']).bits,
                        hsh,
                        merged=self.config['reporting_id'],
                        worker=worker)

                break  # break retry loop if success
            else:
                self.logger.error(
                    "{} Aux Block failed to submit to the server, "
                    "server returned {}!".format(self.config['name'], res),
                    exc_info=True)
            sleep(1)
        else:
            self.block_stats['rejects'] += 1

        self.block_stats['last_solve_height'] = aux_data['height'] + 1
        self.block_stats['last_solve_worker'] = "{}.{}".format(address, worker)
        self.block_stats['last_solve_time'] = datetime.datetime.utcnow()
Beispiel #8
0
    def generate_job(self, push=False, flush=False, new_block=False):
        """ Creates a new job for miners to work on. Push will trigger an
        event that sends new work but doesn't force a restart. If flush is
        true a job restart will be triggered. """

        # aux monitors will often call this early when not needed at startup
        if not self._last_gbt:
            self.logger.warn("Cannot generate new job, missing last GBT info")
            return

        if self.merged_work:
            tree, size = bitcoin_data.make_auxpow_tree(self.merged_work)
            mm_hashes = [self.merged_work.get(tree.get(i), dict(hash=0))['hash']
                         for i in xrange(size)]
            mm_data = '\xfa\xbemm'
            mm_data += bitcoin_data.aux_pow_coinbase_type.pack(dict(
                merkle_root=bitcoin_data.merkle_hash(mm_hashes),
                size=size,
                nonce=0,
            ))
            merged_data = {}
            for aux_work in self.merged_work.itervalues():
                data = dict(target=aux_work['target'],
                            hash=aux_work['hash'],
                            height=aux_work['height'],
                            index=mm_hashes.index(aux_work['hash']),
                            type=aux_work['type'],
                            hashes=mm_hashes)
                merged_data[aux_work['type']] = data
        else:
            merged_data = {}
            mm_data = None

        self.logger.info("Generating new block template with {} trans. "
                         "Diff {:,.4f}. Subsidy {:,.2f}. Height {:,}. "
                         "Merged chains: {}"
                         .format(len(self._last_gbt['transactions']),
                                 bits_to_difficulty(self._last_gbt['bits']),
                                 self._last_gbt['coinbasevalue'] / 100000000.0,
                                 self._last_gbt['height'],
                                 ', '.join(merged_data.keys())))

        # here we recalculate the current merkle branch and partial
        # coinbases for passing to the mining clients
        coinbase = Transaction()
        coinbase.version = 2
        # create a coinbase input with encoded height and padding for the
        # extranonces so script length is accurate
        extranonce_length = (self.config['extranonce_size'] +
                             self.config['extranonce_serv_size'])
        coinbase.inputs.append(
            Input.coinbase(self._last_gbt['height'],
                           addtl_push=[mm_data] if mm_data else [],
                           extra_script_sig=b'\0' * extranonce_length))

        # Darkcoin payee amount
        if self._last_gbt.get('payee', '') != '':
            payout = self._last_gbt['coinbasevalue'] / 5
            self._last_gbt['coinbasevalue'] -= payout
            coinbase.outputs.append(
                Output.to_address(payout, self._last_gbt['payee']))
            self.logger.info("Paying out masternode at addr {}. Payout {}. Blockval reduced to {}"
                             .format(self._last_gbt['payee'], payout, self._last_gbt['coinbasevalue']))

        # simple output to the proper address and value
        coinbase.outputs.append(
            Output.to_address(self._last_gbt['coinbasevalue'], self.config['pool_address']))

        job_id = hexlify(struct.pack(str("I"), self._job_counter))
        bt_obj = BlockTemplate.from_gbt(self._last_gbt,
                                        coinbase,
                                        extranonce_length,
                                        [Transaction(unhexlify(t['data']), fees=t['fee'])
                                         for t in self._last_gbt['transactions']])
        # add in our merged mining data
        if mm_data:
            hashes = [bitcoin_data.hash256(tx.raw) for tx in bt_obj.transactions]
            bt_obj.merkle_link = bitcoin_data.calculate_merkle_link([None] + hashes, 0)
        bt_obj.merged_data = merged_data
        bt_obj.job_id = job_id
        bt_obj.diff1 = self.config['diff1']
        bt_obj.algo = self.config['algo']
        bt_obj.pow_block_hash = self.config['pow_block_hash']
        bt_obj.block_height = self._last_gbt['height']
        bt_obj.acc_shares = set()

        if push:
            if flush:
                self.logger.info("New work announced! Wiping previous jobs...")
                self.jobs.clear()
                self.latest_job = None
            else:
                self.logger.info("New work announced!")

        self._job_counter += 1
        self.jobs[job_id] = bt_obj
        self.latest_job = job_id
        if push:
            t = time.time()
            bt_obj.stratum_string()
            for idx, client in viewitems(self.stratum_manager.clients):
                try:
                    if client.authenticated:
                        client._push(bt_obj, flush=flush)
                except AttributeError:
                    pass
            self.logger.info("New job enqueued for transmission to {} users in {}"
                             .format(len(self.stratum_manager.clients),
                                     time_format(time.time() - t)))
            if flush:
                self.server['work_restarts'].incr()
            self.server['work_pushes'].incr()

        self.server['new_jobs'].incr()

        if new_block:
            hex_bits = hexlify(bt_obj.bits)
            self.current_net['difficulty'] = bits_to_difficulty(hex_bits)
            self.current_net['subsidy'] = bt_obj.total_value
            self.current_net['height'] = bt_obj.block_height - 1
            self.current_net['prev_hash'] = bt_obj.hashprev_be_hex
            self.current_net['transactions'] = len(bt_obj.transactions)
Beispiel #9
0
    def generate_job(self, push=False, flush=False, new_block=False):
        """ Creates a new job for miners to work on. Push will trigger an
        event that sends new work but doesn't force a restart. If flush is
        true a job restart will be triggered. """

        # aux monitors will often call this early when not needed at startup
        if self.last_gbt is None:
            return

        merged_work = self.net_state['merged_work']
        if self.net_state['merged_work']:
            tree, size = bitcoin_data.make_auxpow_tree(merged_work)
            mm_hashes = [
                merged_work.get(tree.get(i), dict(hash=0))['hash']
                for i in xrange(size)
            ]
            mm_data = '\xfa\xbemm'
            mm_data += bitcoin_data.aux_pow_coinbase_type.pack(
                dict(
                    merkle_root=bitcoin_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 merged_work.iteritems()]
        else:
            mm_later = []
            mm_data = None

        # here we recalculate the current merkle branch and partial
        # coinbases for passing to the mining clients
        coinbase = Transaction()
        coinbase.version = 2
        # create a coinbase input with encoded height and padding for the
        # extranonces so script length is accurate
        extranonce_length = (self.config['extranonce_size'] +
                             self.config['extranonce_serv_size'])
        coinbase.inputs.append(
            Input.coinbase(self.last_gbt['height'],
                           addtl_push=[mm_data] if mm_data else [],
                           extra_script_sig=b'\0' * extranonce_length))
        # simple output to the proper address and value
        coinbase.outputs.append(
            Output.to_address(self.last_gbt['coinbasevalue'],
                              self.config['pool_address']))
        job_id = hexlify(struct.pack(str("I"), self.net_state['job_counter']))
        logger.info(
            "Generating new block template with {} trans. Diff {}. Subsidy {}."
            .format(len(self.last_gbt['transactions']),
                    bits_to_difficulty(self.last_gbt['bits']),
                    self.last_gbt['coinbasevalue']))
        bt_obj = BlockTemplate.from_gbt(
            self.last_gbt, coinbase, extranonce_length, [
                Transaction(unhexlify(t['data']), fees=t['fee'])
                for t in self.last_gbt['transactions']
            ])
        bt_obj.mm_later = copy(mm_later)
        hashes = [bitcoin_data.hash256(tx.raw) for tx in bt_obj.transactions]
        bt_obj.merkle_link = bitcoin_data.calculate_merkle_link([None] +
                                                                hashes, 0)
        bt_obj.job_id = job_id
        bt_obj.block_height = self.last_gbt['height']
        bt_obj.acc_shares = set()

        if push:
            if flush:
                logger.info("New work announced! Wiping previous jobs...")
                self.net_state['jobs'].clear()
                self.net_state['latest_job'] = None
            else:
                logger.info("New work announced!")

        self.net_state['job_counter'] += 1
        self.net_state['jobs'][job_id] = bt_obj
        self.net_state['latest_job'] = job_id
        if push:
            for idx, client in viewitems(self.stratum_clients):
                try:
                    if flush:
                        client.new_block_event.set()
                    else:
                        client.new_work_event.set()
                except AttributeError:
                    pass

        if new_block:
            hex_bits = hexlify(bt_obj.bits)
            self.net_state['work']['difficulty'] = bits_to_difficulty(hex_bits)
            if self.config['send_new_block']:
                self.celery.send_task_pp('new_block', bt_obj.block_height,
                                         hex_bits, bt_obj.total_value)
Beispiel #10
0
    def submit_job(self, data):
        """ Handles recieving work submission and checking that it is valid
        , if it meets network diff, etc. Sends reply to stratum client. """
        params = data['params']
        # [worker_name, job_id, extranonce2, ntime, nonce]
        # ["slush.miner1", "bf", "00000001", "504e86ed", "b2957c02"]
        self.logger.debug(
            "Recieved work submit:\n\tworker_name: {0}\n\t"
            "job_id: {1}\n\textranonce2: {2}\n\t"
            "ntime: {3}\n\tnonce: {4} ({int_nonce})"
            .format(
                *params,
                int_nonce=struct.unpack(str("<L"), unhexlify(params[4]))))

        try:
            difficulty, jobid = self.job_mapper[data['params'][1]]
        except KeyError:
            # since we can't identify the diff we just have to assume it's
            # current diff
            self.send_error(self.STALE_SHARE)
            self.server_state['reject_stale'].incr(self.difficulty)
            return self.STALE_SHARE, self.difficulty

        # lookup the job in the global job dictionary. If it's gone from here
        # then a new block was announced which wiped it
        try:
            job = self.net_state['jobs'][jobid]
        except KeyError:
            self.send_error(self.STALE_SHARE)
            self.server_state['reject_stale'].incr(difficulty)
            return self.STALE_SHARE, difficulty

        # assemble a complete block header bytestring
        header = job.block_header(
            nonce=params[4],
            extra1=self.id,
            extra2=params[2],
            ntime=params[3])

        # Check a submitted share against previous shares to eliminate
        # duplicates
        share = (self.id, params[2], params[4], params[3])
        if share in job.acc_shares:
            self.logger.info("Duplicate share rejected from worker {}.{}!"
                             .format(self.address, self.worker))
            self.send_error(self.DUP_SHARE)
            self.server_state['reject_dup'].incr(difficulty)
            return self.DUP_SHARE, difficulty

        job_target = target_from_diff(difficulty, self.config['diff1'])
        hash_int = self.config['pow_func'](header)
        if hash_int >= job_target:
            self.logger.info("Low diff share rejected from worker {}.{}!"
                             .format(self.address, self.worker))
            self.send_error(self.LOW_DIFF)
            self.server_state['reject_low'].incr(difficulty)
            return self.LOW_DIFF, difficulty

        # we want to send an ack ASAP, so do it here
        self.send_success(self.msg_id)
        self.logger.debug("Valid share accepted from worker {}.{}!"
                          .format(self.address, self.worker))
        # Add the share to the accepted set to check for dups
        job.acc_shares.add(share)
        self.server_state['shares'].incr(difficulty)

        header_hash = sha256(sha256(header).digest()).digest()[::-1]
        header_hash_int = bitcoin_data.hash256(header)

        def check_merged_block(mm_later):
            aux_work, index, hashes = mm_later
            if hash_int <= aux_work['target']:
                monitor = aux_work['monitor']
                self.server_state['aux_state'][monitor.name]['solves'] += 1
                self.logger.log(36, "New {} Aux Block identified!".format(monitor.name))
                aux_block = (
                    pack.IntType(256, 'big').pack(aux_work['hash']).encode('hex'),
                    bitcoin_data.aux_pow_type.pack(dict(
                        merkle_tx=dict(
                            tx=bitcoin_data.tx_type.unpack(job.coinbase.raw),
                            block_hash=header_hash_int,
                            merkle_link=job.merkle_link,
                        ),
                        merkle_link=bitcoin_data.calculate_merkle_link(hashes, index),
                        parent_block_header=bitcoin_data.block_header_type.unpack(header),
                    )).encode('hex'),
                )

                retries = 0
                while retries < 5:
                    retries += 1
                    new_height = self.server_state['aux_state'][monitor.name]['height'] + 1
                    try:
                        res = aux_work['merged_proxy'].getauxblock(*aux_block)
                    except (CoinRPCException, socket.error, ValueError) as e:
                        self.logger.error("{} Aux block failed to submit to the server {}!"
                                          .format(monitor.name), exc_info=True)
                        self.logger.error(getattr(e, 'error'))

                    if res is True:
                        self.logger.info("NEW {} Aux BLOCK ACCEPTED!!!".format(monitor.name))
                        self.server_state['aux_state'][monitor.name]['block_solve'] = int(time())
                        self.server_state['aux_state'][monitor.name]['accepts'] += 1
                        self.server_state['aux_state'][monitor.name]['recent_blocks'].append(
                            dict(height=new_height, timestamp=int(time())))
                        if monitor.send:
                            self.logger.info("Submitting {} new block to celery".format(monitor.name))
                            try:
                                hsh = aux_work['merged_proxy'].getblockhash(new_height)
                            except Exception:
                                self.logger.info("", exc_info=True)
                                hsh = ''
                            try:
                                block = aux_work['merged_proxy'].getblock(hsh)
                            except Exception:
                                self.logger.info("", exc_info=True)
                            try:
                                trans = aux_work['merged_proxy'].gettransaction(block['tx'][0])
                                amount = trans['details'][0]['amount']
                            except Exception:
                                self.logger.info("", exc_info=True)
                                amount = -1
                            self.celery.send_task_pp(
                                'add_block',
                                self.address,
                                new_height,
                                int(amount * 100000000),
                                -1,
                                "%0.6X" % bitcoin_data.FloatingInteger.from_target_upper_bound(aux_work['target']).bits,
                                hsh,
                                merged=monitor.celery_id)
                        break  # break retry loop if success
                    else:
                        self.logger.error(
                            "{} Aux Block failed to submit to the server, "
                            "server returned {}!".format(monitor.name, res),
                            exc_info=True)
                    sleep(1)
                else:
                    self.server_state['aux_state'][monitor.name]['rejects'] += 1

        for mm in job.mm_later:
            spawn(check_merged_block, mm)

        # valid network hash?
        if hash_int > job.bits_target:
            return self.VALID_SHARE, difficulty

        block = hexlify(job.submit_serial(header))

        def submit_block(conn):

            retries = 0
            while retries < 5:
                retries += 1
                res = "failed"
                try:
                    res = conn.getblocktemplate({'mode': 'submit',
                                                 'data': block})
                except (CoinRPCException, socket.error, ValueError) as e:
                    self.logger.info("Block failed to submit to the server {} with submitblock!"
                                     .format(conn.name))
                    if getattr(e, 'error', {}).get('code', 0) != -8:
                        self.logger.error(getattr(e, 'error'), exc_info=True)
                    try:
                        res = conn.submitblock(block)
                    except (CoinRPCException, socket.error, ValueError) as e:
                        self.logger.error("Block failed to submit to the server {}!"
                                          .format(conn.name), exc_info=True)
                        self.logger.error(getattr(e, 'error'))

                if res is None:
                    self.net_state['work']['accepts'] += 1
                    self.net_state['work']['recent_blocks'].append(
                        dict(height=job.block_height, timestamp=int(time())))
                    hash_hex = hexlify(header_hash)
                    self.celery.send_task_pp(
                        'add_block',
                        self.address,
                        job.block_height,
                        job.total_value,
                        job.fee_total,
                        hexlify(job.bits),
                        hash_hex)
                    self.logger.info("NEW BLOCK ACCEPTED by {}!!!"
                                     .format(conn.name))
                    self.server_state['block_solve'] = int(time())
                    break  # break retry loop if success
                else:
                    self.logger.error(
                        "Block failed to submit to the server {}, "
                        "server returned {}!".format(conn.name, res),
                        exc_info=True)
                sleep(1)
                self.logger.info("Retry {} for connection {}".format(retries, conn.name))
            else:
                self.net_state['work']['rejects'] += 1
        for conn in self.net_state['live_connections']:
            # spawn a new greenlet for each submission to do them all async.
            # lower orphan chance
            spawn(submit_block, conn)

        try:
            self.logger.log(35, "Valid network block identified!")
            self.logger.info("New block at height %i" % self.net_state['work']['height'])
            self.logger.info("Block coinbase hash %s" % job.coinbase.lehexhash)
            self.logger.log(35, "New block hex dump:\n{}".format(block))
            self.logger.log(35, "Coinbase: {}".format(str(job.coinbase.to_dict())))
            for trans in job.transactions:
                self.logger.log(35, str(trans.to_dict()))
        except Exception:
            # because I'm paranoid...
            self.logger.error("Unexcpected exception in block logging!", exc_info=True)

        return self.BLOCK_FOUND, difficulty
    def submit_job(self, data):
        """ Handles recieving work submission and checking that it is valid
        , if it meets network diff, etc. Sends reply to stratum client. """
        params = data['params']
        # [worker_name, job_id, extranonce2, ntime, nonce]
        # ["slush.miner1", "bf", "00000001", "504e86ed", "b2957c02"]
        self.logger.debug(
            "Recieved work submit:\n\tworker_name: {0}\n\t"
            "job_id: {1}\n\textranonce2: {2}\n\t"
            "ntime: {3}\n\tnonce: {4} ({int_nonce})"
            .format(
                *params,
                int_nonce=struct.unpack(str("<L"), unhexlify(params[4]))))

        try:
            difficulty, jobid = self.job_mapper[data['params'][1]]
        except KeyError:
            # since we can't identify the diff we just have to assume it's
            # current diff
            self.send_error(self.STALE_SHARE)
            self.server_state['reject_stale'].incr(self.difficulty)
            return self.STALE_SHARE, self.difficulty

        # lookup the job in the global job dictionary. If it's gone from here
        # then a new block was announced which wiped it
        try:
            job = self.net_state['jobs'][jobid]
        except KeyError:
            self.send_error(self.STALE_SHARE)
            self.server_state['reject_stale'].incr(difficulty)
            return self.STALE_SHARE, difficulty

        # assemble a complete block header bytestring
        header = job.block_header(
            nonce=params[4],
            extra1=self.id,
            extra2=params[2],
            ntime=params[3])

        # Check a submitted share against previous shares to eliminate
        # duplicates
        share = (self.id, params[2], params[4], params[3])
        if share in job.acc_shares:
            self.logger.info("Duplicate share rejected from worker {}.{}!"
                             .format(self.address, self.worker))
            self.send_error(self.DUP_SHARE)
            self.server_state['reject_dup'].incr(difficulty)
            return self.DUP_SHARE, difficulty

        job_target = target_from_diff(difficulty, self.config['diff1'])
        hash_int = self.config['pow_func'](header)
        if hash_int >= job_target:
            self.logger.info("Low diff share rejected from worker {}.{}!"
                             .format(self.address, self.worker))
            self.send_error(self.LOW_DIFF)
            self.server_state['reject_low'].incr(difficulty)
            return self.LOW_DIFF, difficulty

        # we want to send an ack ASAP, so do it here
        self.send_success(self.msg_id)
        self.logger.debug("Valid share accepted from worker {}.{}!"
                          .format(self.address, self.worker))
        # Add the share to the accepted set to check for dups
        job.acc_shares.add(share)
        self.server_state['shares'].incr(difficulty)

        header_hash = sha256(sha256(header).digest()).digest()[::-1]
        header_hash_int = bitcoin_data.hash256(header)

        def check_merged_block(mm_later):
            aux_work, index, hashes = mm_later
            if hash_int <= aux_work['target']:
                monitor = aux_work['monitor']
                self.server_state['aux_state'][monitor.name]['solves'] += 1
                self.logger.log(36, "New {} Aux Block identified!".format(monitor.name))
                aux_block = (
                    pack.IntType(256, 'big').pack(aux_work['hash']).encode('hex'),
                    bitcoin_data.aux_pow_type.pack(dict(
                        merkle_tx=dict(
                            tx=bitcoin_data.tx_type.unpack(job.coinbase.raw),
                            block_hash=header_hash_int,
                            merkle_link=job.merkle_link,
                        ),
                        merkle_link=bitcoin_data.calculate_merkle_link(hashes, index),
                        parent_block_header=bitcoin_data.block_header_type.unpack(header),
                    )).encode('hex'),
                )
                retries = 0
                while retries < 5:
                    retries += 1
                    new_height = self.server_state['aux_state'][monitor.name]['height'] + 1
                    try:
                        res = aux_work['merged_proxy'].getauxblock(*aux_block)
                    except (CoinRPCException, socket.error, ValueError) as e:
                        self.logger.error("{} Aux block failed to submit to the server {}!"
                                          .format(monitor.name), exc_info=True)
                        self.logger.error(getattr(e, 'error'))

                    if res is True:
                        self.logger.info("NEW {} Aux BLOCK ACCEPTED!!!".format(monitor.name))
                        self.server_state['aux_state'][monitor.name]['block_solve'] = int(time())
                        if monitor.send:
                            self.logger.info("Submitting {} new block to celery".format(monitor.name))
                            try:
                                hsh = aux_work['merged_proxy'].getblockhash(new_height)
                            except Exception:
                                self.logger.info("", exc_info=True)
                                hsh = ''
                            try:
                                block = aux_work['merged_proxy'].getblock(hsh)
                            except Exception:
                                self.logger.info("", exc_info=True)
                            try:
                                trans = aux_work['merged_proxy'].gettransaction(block['tx'][0])
                                amount = trans['details'][0]['amount']
                            except Exception:
                                self.logger.info("", exc_info=True)
                                amount = -1
                            self.celery.send_task_pp(
                                'add_block',
                                self.address,
                                new_height,
                                int(amount * 100000000),
                                -1,
                                "%0.6X" % bitcoin_data.FloatingInteger.from_target_upper_bound(aux_work['target']).bits,
                                hsh,
                                merged=monitor.celery_id)
                        break  # break retry loop if success
                    else:
                        self.logger.error(
                            "{} Aux Block failed to submit to the server, "
                            "server returned {}!".format(monitor.name, res),
                            exc_info=True)
                sleep(1)

        for mm in job.mm_later:
            spawn(check_merged_block, mm)

        # valid network hash?
        if hash_int > job.bits_target:
            return self.VALID_SHARE, difficulty

        try:
            self.logger.log(35, "Valid network block identified!")
            self.logger.info("New block at height %i" % self.net_state['current_height'])
            self.logger.info("Block coinbase hash %s" % job.coinbase.lehexhash)
            block = hexlify(job.submit_serial(header))
            self.logger.log(35, "New block hex dump:\n{}".format(block))
            self.logger.log(35, "Coinbase: {}".format(str(job.coinbase.to_dict())))
            for trans in job.transactions:
                self.logger.log(35, str(trans.to_dict()))
        except Exception:
            # because I'm paranoid...
            self.logger.error("Unexcpected exception in block logging!", exc_info=True)

        def submit_block(conn):
            retries = 0
            while retries < 5:
                retries += 1
                res = "failed"
                try:
                    res = conn.getblocktemplate({'mode': 'submit',
                                                 'data': block})
                except (CoinRPCException, socket.error, ValueError) as e:
                    self.logger.info("Block failed to submit to the server {} with submitblock!"
                                     .format(conn.name))
                    if getattr(e, 'error', {}).get('code', 0) != -8:
                        self.logger.error(getattr(e, 'error'), exc_info=True)
                    try:
                        res = conn.submitblock(block)
                    except (CoinRPCException, socket.error, ValueError) as e:
                        self.logger.error("Block failed to submit to the server {}!"
                                          .format(conn.name), exc_info=True)
                        self.logger.error(getattr(e, 'error'))

                if res is None:
                    hash_hex = hexlify(header_hash)
                    self.celery.send_task_pp(
                        'add_block',
                        self.address,
                        self.net_state['current_height'] + 1,
                        job.total_value,
                        job.fee_total,
                        hexlify(job.bits),
                        hash_hex)
                    self.logger.info("NEW BLOCK ACCEPTED by {}!!!"
                                     .format(conn.name))
                    self.server_state['block_solve'] = int(time())
                    break  # break retry loop if success
                else:
                    self.logger.error(
                        "Block failed to submit to the server {}, "
                        "server returned {}!".format(conn.name, res),
                        exc_info=True)
                sleep(1)
                self.logger.info("Retry {} for connection {}".format(retries, conn.name))
        for conn in self.net_state['live_connections']:
            # spawn a new greenlet for each submission to do them all async.
            # lower orphan chance
            spawn(submit_block, conn)

        return self.BLOCK_FOUND, difficulty