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#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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# Copyright (c) 2019-2020 tecnovert
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# Distributed under the MIT software license, see the accompanying
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# file LICENSE or http://www.opensource.org/licenses/mit-license.php.
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import secrets
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import hashlib
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import unittest
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import basicswap.contrib.ed25519_fast as edf
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import basicswap.ed25519_fast_util as edu
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from coincurve.ed25519 import ed25519_get_pubkey
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from coincurve.ecdsaotves import (
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ecdsaotves_enc_sign,
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ecdsaotves_enc_verify,
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ecdsaotves_dec_sig,
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ecdsaotves_rec_enc_key)
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from coincurve.keys import (
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PrivateKey)
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from basicswap.ecc_util import i2b
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from basicswap.interface_btc import BTCInterface
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from basicswap.interface_xmr import XMRInterface
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from basicswap.util import (
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SerialiseNum,
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DeserialiseNum,
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make_int,
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format_amount,
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validate_amount)
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from basicswap.basicswap import (
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Coins,
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getExpectedSequence,
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decodeSequence,
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SEQUENCE_LOCK_BLOCKS,
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SEQUENCE_LOCK_TIME)
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class Test(unittest.TestCase):
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def test_serialise_num(self):
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def test_case(v, nb=None):
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b = SerialiseNum(v)
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if nb is not None:
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assert(len(b) == nb)
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assert(v == DeserialiseNum(b))
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test_case(0, 1)
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test_case(1, 1)
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test_case(16, 1)
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test_case(-1, 2)
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test_case(17, 2)
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test_case(500)
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test_case(-500)
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test_case(4194642)
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def test_sequence(self):
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time_val = 48 * 60 * 60
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encoded = getExpectedSequence(SEQUENCE_LOCK_TIME, time_val, Coins.PART)
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decoded = decodeSequence(encoded)
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assert(decoded >= time_val)
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assert(decoded <= time_val + 512)
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time_val = 24 * 60
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encoded = getExpectedSequence(SEQUENCE_LOCK_TIME, time_val, Coins.PART)
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decoded = decodeSequence(encoded)
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assert(decoded >= time_val)
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assert(decoded <= time_val + 512)
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blocks_val = 123
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encoded = getExpectedSequence(SEQUENCE_LOCK_BLOCKS, blocks_val, Coins.PART)
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decoded = decodeSequence(encoded)
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assert(decoded == blocks_val)
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def test_make_int(self):
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def test_case(vs, vf, expect_int):
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i = make_int(vs)
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assert(i == expect_int and isinstance(i, int))
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i = make_int(vf)
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assert(i == expect_int and isinstance(i, int))
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vs_out = format_amount(i, 8)
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# Strip
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for i in range(7):
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if vs_out[-1] == '0':
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vs_out = vs_out[:-1]
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if '.' in vs:
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assert(vs_out == vs)
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else:
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assert(vs_out[:-2] == vs)
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test_case('0', 0, 0)
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test_case('1', 1, 100000000)
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test_case('10', 10, 1000000000)
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test_case('0.00899999', 0.00899999, 899999)
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test_case('899999.0', 899999.0, 89999900000000)
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test_case('899999.00899999', 899999.00899999, 89999900899999)
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test_case('0.0', 0.0, 0)
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test_case('1.0', 1.0, 100000000)
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test_case('1.1', 1.1, 110000000)
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test_case('1.2', 1.2, 120000000)
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test_case('0.00899991', 0.00899991, 899991)
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test_case('0.0089999', 0.0089999, 899990)
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test_case('0.0089991', 0.0089991, 899910)
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test_case('0.123', 0.123, 12300000)
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test_case('123000.000123', 123000.000123, 12300000012300)
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try:
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make_int('0.123456789')
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assert(False)
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except Exception as e:
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assert(str(e) == 'Mantissa too long')
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validate_amount('0.12345678')
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# floor
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assert(make_int('0.123456789', r=-1) == 12345678)
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# Round up
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assert(make_int('0.123456789', r=1) == 12345679)
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def test_make_int12(self):
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def test_case(vs, vf, expect_int):
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i = make_int(vs, 12)
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assert(i == expect_int and isinstance(i, int))
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i = make_int(vf, 12)
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assert(i == expect_int and isinstance(i, int))
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vs_out = format_amount(i, 12)
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# Strip
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for i in range(7):
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if vs_out[-1] == '0':
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vs_out = vs_out[:-1]
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if '.' in vs:
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assert(vs_out == vs)
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else:
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assert(vs_out[:-2] == vs)
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test_case('0.123456789', 0.123456789, 123456789000)
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test_case('0.123456789123', 0.123456789123, 123456789123)
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try:
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make_int('0.1234567891234', 12)
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assert(False)
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except Exception as e:
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assert(str(e) == 'Mantissa too long')
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validate_amount('0.123456789123', 12)
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try:
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validate_amount('0.1234567891234', 12)
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assert(False)
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except Exception as e:
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assert('Too many decimal places' in str(e))
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try:
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validate_amount(0.1234567891234, 12)
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assert(False)
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except Exception as e:
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assert('Too many decimal places' in str(e))
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def test_ed25519(self):
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privkey = edu.get_secret()
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pubkey = edu.encodepoint(edf.scalarmult_B(privkey))
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privkey_bytes = i2b(privkey)
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pubkey_test = ed25519_get_pubkey(privkey_bytes)
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assert(pubkey == pubkey_test)
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def test_ecdsa_otves(self):
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coin_settings = {'rpcport': 0, 'rpcauth': 'none', 'blocks_confirmed': 1, 'conf_target': 1}
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ci = BTCInterface(coin_settings, 'regtest')
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vk_sign = i2b(ci.getNewSecretKey())
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vk_encrypt = i2b(ci.getNewSecretKey())
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pk_sign = ci.getPubkey(vk_sign)
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pk_encrypt = ci.getPubkey(vk_encrypt)
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sign_hash = secrets.token_bytes(32)
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cipher_text = ecdsaotves_enc_sign(vk_sign, pk_encrypt, sign_hash)
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assert(ecdsaotves_enc_verify(pk_sign, pk_encrypt, sign_hash, cipher_text))
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sig = ecdsaotves_dec_sig(vk_encrypt, cipher_text)
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assert(ci.verifySig(pk_sign, sign_hash, sig))
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recovered_key = ecdsaotves_rec_enc_key(pk_encrypt, cipher_text, sig)
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assert(vk_encrypt == recovered_key)
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def test_sign(self):
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coin_settings = {'rpcport': 0, 'rpcauth': 'none', 'blocks_confirmed': 1, 'conf_target': 1}
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ci = BTCInterface(coin_settings, 'regtest')
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vk = i2b(ci.getNewSecretKey())
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pk = ci.getPubkey(vk)
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message = 'test signing message'
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message_hash = hashlib.sha256(bytes(message, 'utf-8')).digest()
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eck = PrivateKey(vk)
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sig = eck.sign(message.encode('utf-8'))
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ci.verifySig(pk, message_hash, sig)
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def test_sign_compact(self):
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coin_settings = {'rpcport': 0, 'rpcauth': 'none', 'blocks_confirmed': 1, 'conf_target': 1}
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ci = BTCInterface(coin_settings, 'regtest')
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vk = i2b(ci.getNewSecretKey())
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pk = ci.getPubkey(vk)
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sig = ci.signCompact(vk, 'test signing message')
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assert(len(sig) == 64)
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ci.verifyCompact(pk, 'test signing message', sig)
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def test_dleag(self):
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coin_settings = {'rpcport': 0, 'walletrpcport': 0, 'walletrpcauth': 'none', 'blocks_confirmed': 1, 'conf_target': 1}
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ci = XMRInterface(coin_settings, 'regtest')
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key = i2b(ci.getNewSecretKey())
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proof = ci.proveDLEAG(key)
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assert(ci.verifyDLEAG(proof))
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def test_rate(self):
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scale_from = 8
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scale_to = 12
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amount_from = 100 * (10 ** scale_from)
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rate = 0.1 * (10 ** scale_to)
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amount_to = int((amount_from * rate) // (10 ** scale_from))
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assert('100.00000000' == format_amount(amount_from, scale_from))
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assert('10.000000000000' == format_amount(amount_to, scale_to))
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rate_check = int((amount_to / amount_from) * (10 ** scale_from))
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assert(rate == rate_check)
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scale_from = 12
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scale_to = 8
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amount_from = 1 * (10 ** scale_from)
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rate = 12 * (10 ** scale_to)
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amount_to = int((amount_from * rate) // (10 ** scale_from))
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assert('1.000000000000' == format_amount(amount_from, scale_from))
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assert('12.00000000' == format_amount(amount_to, scale_to))
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rate_check = int((amount_to / amount_from) * (10 ** scale_from))
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assert(rate == rate_check)
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if __name__ == '__main__':
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unittest.main()
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