def test_calculate(self):
        rewards = []
        ratios = [0.25, 0.05, 0.3, 0.15, 0.25]
        total_reward = 1000

        for i, ratio in enumerate(ratios, start=1):
            rl0 = RewardLog(
                address="addr" + str(i),
                type="D",
                staking_balance=total_reward * ratio,
                current_balance=0,
            )
            rl0.ratio = ratio
            rl0.ratio4 = ratio
            rewards.append(rl0)

        rewards.append(RewardLog("addrdummy", "D", 0, 0).skip("skipped for testing", 4))

        phaseMapping = CalculatePhaseMapping()
        new_rewards = phaseMapping.calculate(rewards, {"addr2": "addr1"})

        # filter out skipped records
        new_rewards = list(rl for rl in new_rewards if not rl.skipped)

        # check new ratios sum up to 1
        # old and new reward amount is the same
        ratio_sum = sum(rl.ratio5 for rl in new_rewards)

        # payment address for address2 is address1
        payment_address_set = set(rl.paymentaddress for rl in new_rewards)
        self.assertEqual(4, len(payment_address_set))

        self.assertAlmostEqual(1.0, ratio_sum, delta=ALMOST_ZERO)

        # ratio of records having payment address addr1 must be 0.30 (0.25+0.05)
        self.assertAlmostEqual(
            0.30,
            sum(
                rl.ratio
                for rl in list(
                    filter(
                        lambda rl: rl.paymentaddress == "addr1",
                        filter(lambda rl: not rl.skipped, new_rewards),
                    )
                )
            ),
            delta=ALMOST_ZERO,
        )
예제 #2
0
    def test_process_payouts(self):

        logger.debug("")  # Console formatting
        factory = ProviderFactory(provider='prpc')
        parser = BakingYamlConfParser(self.baking_config,
                                      None,
                                      None,
                                      None,
                                      None,
                                      block_api=factory,
                                      api_base_url=None)
        parser.parse()
        parser.process()

        cfg_dict = parser.get_conf_obj()
        baking_cfg = BakingConf(cfg_dict)

        srvc_fee_calc = ServiceFeeCalculator(
            baking_cfg.get_full_supporters_set(),
            baking_cfg.get_specials_map(), baking_cfg.get_service_fee())
        rules_model = RulesModel(baking_cfg.get_excluded_set_tob(),
                                 baking_cfg.get_excluded_set_toe(),
                                 baking_cfg.get_excluded_set_tof(),
                                 baking_cfg.get_dest_map())
        payment_calc = PhasedPaymentCalculator(
            baking_cfg.get_founders_map(), baking_cfg.get_owners_map(),
            srvc_fee_calc,
            baking_cfg.get_min_delegation_amount() * MUTEZ, rules_model)

        rewardApi = factory.newRewardApi(
            default_network_config_map[CURRENT_TESTNET],
            baking_cfg.get_baking_address(), "")

        # Simulate logic in payment_producer
        reward_logs = []
        attempts = 0
        exiting = False
        while not exiting and attempts < 2:
            attempts += 1
            try:
                # Reward data
                # Fetch cycle 90 of delphinet for tz1gtHbmBF3TSebsgJfJPvUB2e9x8EDeNm6V
                reward_model = rewardApi.get_rewards_for_cycle_map(
                    PAYOUT_CYCLE)

                # Calculate rewards - payment_producer.py
                reward_logs, total_amount = payment_calc.calculate(
                    reward_model)

                # Check total reward amount matches sums of records
                self.assertTrue(
                    total_amount,
                    sum([rl.amount for rl in reward_logs if rl.payable]))

                exiting = True

            except ApiProviderException as e:
                logger.error(
                    "{:s} error at payment producer loop: '{:s}', will try again."
                    .format("RPC", str(e)))
                sleep(5)

        #
        # The next 3 phases happen in payment_consumer.py
        #

        # Merge payments to same address
        phaseMerge = CalculatePhaseMerge()
        reward_logs = phaseMerge.calculate(reward_logs)

        # Handle remapping of payment to alternate address
        phaseMapping = CalculatePhaseMapping()
        reward_logs = phaseMapping.calculate(reward_logs,
                                             baking_cfg.get_dest_map())

        # Filter zero-balance addresses based on config
        phaseZeroBalance = CalculatePhaseZeroBalance()
        reward_logs = phaseZeroBalance.calculate(
            reward_logs, baking_cfg.get_reactivate_zeroed())

        # Filter out non-payable items
        reward_logs = [pi for pi in reward_logs if pi.payable]
        reward_logs.sort(key=cmp_to_key(cmp_by_type_balance))

        # TRD Calculated Results
        # tz1V9SpwXaGFiYdDfGJtWjA61EumAH3DwSyT type: D, stake bal:   62657.83, cur bal:   62657.83, ratio: 0.327420, fee_ratio: 0.000000, amount:   0.000000, fee_amount: 0.000000, fee_rate: 0.00, payable: N, skipped: Y, at-phase: 1, desc: Excluded by configuration, pay_addr: tz1V9SpwXaGFiYdDfGJtWjA61EumAH3DwSyT
        # tz1YTMY7Zewx6AMM2h9eCwc8TyXJ5wgn9ace type: D, stake bal:   55646.70, cur bal:   55646.70, ratio: 0.432340, fee_ratio: 0.000000, amount: 102.988160, fee_amount: 0.000000, fee_rate: 0.00, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1YTMY7Zewx6AMM2h9eCwc8TyXJ5wgn9ace
        # tz1T5woJN3r7SV5v2HGDyA5kurhbD9Y8ZKHZ type: D, stake bal:   25689.88, cur bal:   25689.88, ratio: 0.179635, fee_ratio: 0.019959, amount:  42.791010, fee_amount: 4.754557, fee_rate: 0.10, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1T5woJN3r7SV5v2HGDyA5kurhbD9Y8ZKHZ
        # tz1fgX6oRWQb4HYHUT6eRjW8diNFrqjEfgq7 type: D, stake bal:   24916.33, cur bal:   24916.33, ratio: 0.193584, fee_ratio: 0.000000, amount:  46.113902, fee_amount: 0.000000, fee_rate: 0.00, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1fgX6oRWQb4HYHUT6eRjW8diNFrqjEfgq7
        # tz1RRzfechTs3gWdM58y6xLeByta3JWaPqwP type: D, stake bal:    6725.43, cur bal:    6725.43, ratio: 0.047027, fee_ratio: 0.005225, amount:  11.202382, fee_amount: 1.244709, fee_rate: 0.10, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1RMmSzPSWPSSaKU193Voh4PosWSZx1C7Hs
        # tz1L1XQWKxG38wk1Ain1foGaEZj8zeposcbk type: D, stake bal:     981.64, cur bal:     981.64, ratio: 0.007627, fee_ratio: 0.000000, amount:   1.816762, fee_amount: 0.000000, fee_rate: 0.00, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1L1XQWKxG38wk1Ain1foGaEZj8zeposcbk
        # tz1L1XQWKxG38wk1Ain1foGaEZj8zeposcbk type: O, stake bal:   14750.53, cur bal:       0.00, ratio: 0.114602, fee_ratio: 0.000000, amount:  27.299548, fee_amount: 0.000000, fee_rate: 0.00, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1L1XQWKxG38wk1Ain1foGaEZj8zeposcbk
        # tz1fgX6oRWQb4HYHUT6eRjW8diNFrqjEfgq7 type: F, stake bal:       0.00, cur bal:       0.00, ratio: 0.006296, fee_ratio: 0.000000, amount:   1.499816, fee_amount: 0.000000, fee_rate: 0.00, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1fgX6oRWQb4HYHUT6eRjW8diNFrqjEfgq7
        # tz1YTMY7Zewx6AMM2h9eCwc8TyXJ5wgn9ace type: F, stake bal:       0.00, cur bal:       0.00, ratio: 0.018889, fee_ratio: 0.000000, amount:   4.499450, fee_amount: 0.000000, fee_rate: 0.00, payable: Y, skipped: N, at-phase: 0, desc: , pay_addr: tz1YTMY7Zewx6AMM2h9eCwc8TyXJ5wgn9ace

        # Final records before creating transactions
        # These values are known to be correct
        cr = {}
        cr["tz1T5woJN3r7SV5v2HGDyA5kurhbD9Y8ZKHZ"] = {
            "type": "D",
            "amount": 42791010,
            "pay_addr": "tz1T5woJN3r7SV5v2HGDyA5kurhbD9Y8ZKHZ"
        }
        cr["tz1RRzfechTs3gWdM58y6xLeByta3JWaPqwP"] = {
            "type": "D",
            "amount": 11202382,
            "pay_addr": "tz1RMmSzPSWPSSaKU193Voh4PosWSZx1C7Hs"
        }
        cr["tz1YTMY7Zewx6AMM2h9eCwc8TyXJ5wgn9ace"] = {
            "type": "M",
            "amount": 107487610,
            "pay_addr": "tz1YTMY7Zewx6AMM2h9eCwc8TyXJ5wgn9ace"
        }
        cr["tz1fgX6oRWQb4HYHUT6eRjW8diNFrqjEfgq7"] = {
            "type": "M",
            "amount": 47613718,
            "pay_addr": "tz1fgX6oRWQb4HYHUT6eRjW8diNFrqjEfgq7"
        }
        cr["tz1L1XQWKxG38wk1Ain1foGaEZj8zeposcbk"] = {
            "type": "M",
            "amount": 29116310,
            "pay_addr": "tz1L1XQWKxG38wk1Ain1foGaEZj8zeposcbk"
        }

        # Verify that TRD calculated matches known values
        for r in reward_logs:

            # We know this address should be skipped
            if r.address == "tz1V9SpwXaGFiYdDfGJtWjA61EumAH3DwSyT":
                self.assertEqual(r.skipped, 1)
                self.assertEqual(r.amount, 0)
                continue

            # All others we can compare normally
            cmp = cr[r.address]

            self.assertEqual(r.type, cmp["type"])
            self.assertEqual(r.amount, (cmp["amount"]))
            self.assertEqual(r.paymentaddress, cmp["pay_addr"])
예제 #3
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    def _consume_batch(self, payment_batch):
        try:
            payment_items = payment_batch.batch

            if len(payment_items) == 0:
                logger.debug("Batch is empty, ignoring...")
                return True

            if payment_items[0].type == EXIT_PAYMENT_TYPE:
                logger.warn("Exit signal received. Terminating...")
                return False

            sleep(1)

            pymnt_cycle = payment_batch.cycle

            logger.info("Starting payments for cycle {}".format(pymnt_cycle))

            # Filter out non-payable items
            payment_items = [pi for pi in payment_items if pi.payable]
            already_paid_items = [
                pi for pi in payment_items if pi.paid.is_processed()
            ]
            payment_items = [
                pi for pi in payment_items if not pi.paid.is_processed()
            ]

            # Handle remapping of payment to alternate address
            phaseMapping = CalculatePhaseMapping()
            payment_items = phaseMapping.calculate(payment_items,
                                                   self.dest_map)

            # Merge payments to same address
            phaseMerge = CalculatePhaseMerge()
            payment_items = phaseMerge.calculate(payment_items)

            # Filter zero-balance addresses based on config
            phaseZeroBalance = CalculatePhaseZeroBalance()
            payment_items = phaseZeroBalance.calculate(payment_items,
                                                       self.reactivate_zeroed)

            payment_items.sort(key=functools.cmp_to_key(cmp_by_type_balance))

            batch_payer = BatchPayer(
                self.node_addr,
                self.key_name,
                self.client_manager,
                self.delegator_pays_ra_fee,
                self.delegator_pays_xfer_fee,
                self.network_config,
                self.plugins_manager,
                self.dry_run,
            )

            # 3- do the payment
            (
                payment_logs,
                total_attempts,
                total_payout_amount,
                number_future_payable_cycles,
            ) = batch_payer.pay(payment_items, dry_run=self.dry_run)

            # override batch data
            payment_batch.batch = payment_logs

            # 4- count failed payments
            nb_paid, nb_failed, nb_unknown = count_and_log_failed(payment_logs)

            # 5- create payment report file
            report_file = self.create_payment_report(nb_failed, payment_logs,
                                                     pymnt_cycle,
                                                     already_paid_items)

            # 5.1- modify calculations report
            if total_attempts > 0:
                self.add_transaction_fees_to_calculation_report(
                    payment_logs, pymnt_cycle)

            # 6- Clean failure reports
            self.clean_failed_payment_reports(pymnt_cycle, nb_failed == 0)

            # 7- notify batch producer
            if nb_failed == 0:
                if payment_batch.producer_ref:
                    payment_batch.producer_ref.on_success(payment_batch)
            else:
                if payment_batch.producer_ref:
                    payment_batch.producer_ref.on_fail(payment_batch)

            # 8- send notification via plugins
            if total_attempts > 0:

                subject = "Reward Payouts for Cycle {:d}".format(pymnt_cycle)

                status = ""
                if nb_failed == 0 and nb_unknown == 0:
                    status = status + "Completed Successfully!"
                else:
                    status = status + "attempted"
                    if nb_failed > 0:
                        status = status + ", {:d} failed".format(nb_failed)
                    if nb_unknown > 0:
                        status = (status +
                                  ", {:d} injected but final state not known".
                                  format(nb_unknown))
                subject = subject + " " + status

                admin_message = "The current payout account balance is expected to last for the next {:d} cycle(s)!".format(
                    number_future_payable_cycles)

                # Payout notification receives cycle, rewards total, number of delegators
                self.plugins_manager.send_payout_notification(
                    pymnt_cycle, total_payout_amount,
                    (nb_paid + nb_failed + nb_unknown))

                # Admin notification receives subject, message, CSV report, raw log objects
                self.plugins_manager.send_admin_notification(
                    subject, admin_message, [report_file], payment_logs)

            # 9- publish anonymous stats
            if self.publish_stats and self.args and not self.dry_run:
                stats_dict = self.create_stats_dict(
                    self.key_name,
                    nb_failed,
                    nb_unknown,
                    pymnt_cycle,
                    payment_logs,
                    total_attempts,
                )
                stats_publisher(stats_dict)
            else:
                logger.info("Anonymous statistics disabled{:s}".format(
                    ", (Dry run)" if self.dry_run else ""))

        except Exception:
            logger.error("Error at reward payment", exc_info=True)

        return True
예제 #4
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def test_batch_payer_total_payout_amount():
    factory = ProviderFactory(provider="prpc")
    parser = BakingYamlConfParser(baking_config,
                                  None,
                                  None,
                                  None,
                                  None,
                                  block_api=factory,
                                  api_base_url=None)
    parser.parse()
    parser.process()

    cfg_dict = parser.get_conf_obj()
    baking_cfg = BakingConf(cfg_dict)

    srvc_fee_calc = ServiceFeeCalculator(
        baking_cfg.get_full_supporters_set(),
        baking_cfg.get_specials_map(),
        baking_cfg.get_service_fee(),
    )
    rules_model = RulesModel(
        baking_cfg.get_excluded_set_tob(),
        baking_cfg.get_excluded_set_toe(),
        baking_cfg.get_excluded_set_tof(),
        baking_cfg.get_dest_map(),
    )
    payment_calc = PhasedPaymentCalculator(
        baking_cfg.get_founders_map(),
        baking_cfg.get_owners_map(),
        srvc_fee_calc,
        baking_cfg.get_min_delegation_amount() * MUTEZ,
        rules_model,
    )

    rewardApi = factory.newRewardApi(
        default_network_config_map[CURRENT_TESTNET],
        baking_cfg.get_baking_address(), "")

    # Simulate logic in payment_producer
    reward_logs = []
    attempts = 0
    exiting = False
    while not exiting and attempts < 2:
        attempts += 1

        # Reward data
        # Fetch cycle 51 of granadanet for tz1gtHbmBF3TSebsgJfJPvUB2e9x8EDeNm6V
        reward_model = rewardApi.get_rewards_for_cycle_map(
            PAYOUT_CYCLE, RewardsType.ACTUAL)

        # Calculate rewards - payment_producer.py
        reward_model.computed_reward_amount = reward_model.total_reward_amount
        reward_logs, total_amount = payment_calc.calculate(reward_model)

        # Check total reward amount matches sums of records
        assert total_amount == sum(
            [rl.amount for rl in reward_logs if rl.payable])
        exiting = True

    # Merge payments to same address
    phaseMerge = CalculatePhaseMerge()
    reward_logs = phaseMerge.calculate(reward_logs)

    # Handle remapping of payment to alternate address
    phaseMapping = CalculatePhaseMapping()
    reward_logs = phaseMapping.calculate(reward_logs,
                                         baking_cfg.get_dest_map())

    # Filter zero-balance addresses based on config
    phaseZeroBalance = CalculatePhaseZeroBalance()
    reward_logs = phaseZeroBalance.calculate(
        reward_logs, baking_cfg.get_reactivate_zeroed())

    # Filter out non-payable items
    reward_logs = [
        payment_item for payment_item in reward_logs if payment_item.payable
    ]
    reward_logs.sort(key=cmp_to_key(cmp_by_type_balance))

    batch_payer = BatchPayer(
        node_url=node_endpoint,
        pymnt_addr="tz1gtHbmBF3TSebsgJfJPvUB2e9x8EDeNm6V",
        clnt_mngr=ClientManager(node_endpoint, PRIVATE_SIGNER_URL),
        delegator_pays_ra_fee=True,
        delegator_pays_xfer_fee=True,
        network_config=network,
        plugins_manager=PluginManager(baking_cfg.get_plugins_conf(),
                                      dry_run=True),
        dry_run=True,
    )

    # Fix the endpoint auto port assignment because
    # https://mainnet-tezos.giganode.io:8732 cannot be reached
    batch_payer.clnt_mngr.node_endpoint = node_endpoint

    # Do the payment
    (
        payment_logs,
        total_attempts,
        total_payout_amount,
        number_future_payable_cycles,
    ) = batch_payer.pay(reward_logs, dry_run=True)

    assert total_attempts == 3
    assert total_payout_amount == 238211030
    assert (PAYMENT_ADDRESS_BALANCE //
            total_payout_amount) - 1 == number_future_payable_cycles
예제 #5
0
def test_batch_payer_total_payout_amount():
    factory = ProviderFactory(provider="prpc")
    parser = BakingYamlConfParser(
        baking_config, None, None, None, None, block_api=factory, api_base_url=None
    )
    parser.parse()
    parser.process()

    cfg_dict = parser.get_conf_obj()
    baking_cfg = BakingConf(cfg_dict)

    srvc_fee_calc = ServiceFeeCalculator(
        baking_cfg.get_full_supporters_set(),
        baking_cfg.get_specials_map(),
        baking_cfg.get_service_fee(),
    )
    rules_model = RulesModel(
        baking_cfg.get_excluded_set_tob(),
        baking_cfg.get_excluded_set_toe(),
        baking_cfg.get_excluded_set_tof(),
        baking_cfg.get_dest_map(),
    )
    payment_calc = PhasedPaymentCalculator(
        baking_cfg.get_founders_map(),
        baking_cfg.get_owners_map(),
        srvc_fee_calc,
        int(baking_cfg.get_min_delegation_amount() * MUTEZ_PER_TEZ),
        rules_model,
    )

    rewardApi = factory.newRewardApi(
        default_network_config_map[CURRENT_TESTNET], baking_cfg.get_baking_address(), ""
    )

    # Simulate logic in payment_producer
    reward_logs = []
    attempts = 0
    exiting = False
    while not exiting and attempts < 2:
        attempts += 1

        # Reward data
        # Fetch cycle 51 of granadanet for tz1gtHbmBF3TSebsgJfJPvUB2e9x8EDeNm6V
        reward_model = rewardApi.get_rewards_for_cycle_map(
            PAYOUT_CYCLE, RewardsType.ACTUAL
        )

        # Calculate rewards - payment_producer.py
        reward_model.computed_reward_amount = reward_model.total_reward_amount
        reward_logs, total_amount = payment_calc.calculate(reward_model)

        # Check total reward amount matches sums of records
        # diff of 1 expected due to floating point arithmetic
        assert (
            total_amount - sum([rl.adjusted_amount for rl in reward_logs if rl.payable])
            <= 1
        )
        exiting = True

    # Merge payments to same address
    phaseMerge = CalculatePhaseMerge()
    reward_logs = phaseMerge.calculate(reward_logs)

    # Handle remapping of payment to alternate address
    phaseMapping = CalculatePhaseMapping()
    reward_logs = phaseMapping.calculate(reward_logs, baking_cfg.get_dest_map())

    # Filter zero-balance addresses based on config
    phaseZeroBalance = CalculatePhaseZeroBalance()
    reward_logs = phaseZeroBalance.calculate(
        reward_logs, baking_cfg.get_reactivate_zeroed()
    )

    # Filter out non-payable items
    reward_logs = [payment_item for payment_item in reward_logs if payment_item.payable]
    reward_logs.sort(key=cmp_to_key(cmp_by_type_balance))

    batch_payer = BatchPayer(
        node_url=node_endpoint,
        pymnt_addr="tz1N4UfQCahHkRShBanv9QP9TnmXNgCaqCyZ",
        clnt_mngr=ClientManager(node_endpoint, PRIVATE_SIGNER_URL),
        delegator_pays_ra_fee=True,
        delegator_pays_xfer_fee=True,
        network_config=network,
        plugins_manager=PluginManager(baking_cfg.get_plugins_conf(), dry_run=True),
        dry_run=True,
    )

    # Do the payment
    (
        _,
        total_attempts,
        total_payout_amount,
        number_future_payable_cycles,
    ) = batch_payer.pay(reward_logs, dry_run=True)

    # Payment does not have status done, paid or injected thus the total payout amount is zero
    assert total_payout_amount == 0
    assert number_future_payable_cycles == 2
    assert total_attempts == 3

    # Check the adjusted amount
    assert reward_logs[0].adjusted_amount == 40418486
    assert reward_logs[1].adjusted_amount == 10581272
    assert reward_logs[2].adjusted_amount == 109732835
    assert reward_logs[3].adjusted_amount == 48362127
    assert reward_logs[4].adjusted_amount == 29116310