Hush Full Node software. We were censored from Github, this is where all development happens now.
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691 lines
25 KiB
691 lines
25 KiB
#!/usr/bin/env python2
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# Copyright (c) 2016-2020 The Hush developers
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# Copyright (c) 2018 SuperNET developers
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# Distributed under the GPLv3 software license, see the accompanying
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# file COPYING or https://www.gnu.org/licenses/gpl-3.0.en.html
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.authproxy import JSONRPCException
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from test_framework.util import assert_equal, assert_greater_than, \
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initialize_chain_clean, initialize_chain, start_nodes, start_node, connect_nodes_bi, \
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stop_nodes, sync_blocks, sync_mempools, wait_bitcoinds, rpc_port, assert_raises
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import time
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from decimal import Decimal
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from random import choice
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from string import ascii_uppercase
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def assert_success(result):
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assert_equal(result['result'], 'success')
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def assert_error(result):
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assert_equal(result['result'], 'error')
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def generate_random_string(length):
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random_string = ''.join(choice(ascii_uppercase) for i in range(length))
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return random_string
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class CryptoConditionsTest (BitcoinTestFramework):
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def setup_chain(self):
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print("Initializing CC test directory "+self.options.tmpdir)
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self.num_nodes = 2
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initialize_chain_clean(self.options.tmpdir, self.num_nodes)
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def setup_network(self, split = False):
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print("Setting up network...")
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self.addr = "RWPg8B91kfK5UtUN7z6s6TeV9cHSGtVY8D"
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self.pubkey = "02676d00110c2cd14ae24f95969e8598f7ccfaa675498b82654a5b5bd57fc1d8cf"
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self.privkey = "UqMgxk7ySPNQ4r9nKAFPjkXy6r5t898yhuNCjSZJLg3RAM4WW1m9"
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self.addr1 = "RXEXoa1nRmKhMbuZovpcYwQMsicwzccZBp"
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self.pubkey1 = "024026d4ad4ecfc1f705a9b42ca64af6d2ad947509c085534a30b8861d756c6ff0"
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self.privkey1 = "UtdydP56pGTFmawHzHr1wDrc4oUwCNW1ttX8Pc3KrvH3MA8P49Wi"
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self.nodes = start_nodes(self.num_nodes, self.options.tmpdir,
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extra_args=[[
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# always give -ac_name as first extra_arg and port as third
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'-ac_name=REGTEST',
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'-conf='+self.options.tmpdir+'/node0/REGTEST.conf',
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'-port=64367',
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'-rpcport=64368',
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'-regtest',
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'-addressindex=1',
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'-spentindex=1',
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'-ac_supply=5555555',
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'-ac_reward=10000000000000',
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'-pubkey=' + self.pubkey,
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'-ac_cc=2',
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'-allowlist=127.0.0.1',
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'-debug',
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'--daemon',
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'-rpcuser=rt',
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'-rpcpassword=rt'
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],
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['-ac_name=REGTEST',
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'-conf='+self.options.tmpdir+'/node1/REGTEST.conf',
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'-port=64365',
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'-rpcport=64366',
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'-regtest',
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'-addressindex=1',
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'-spentindex=1',
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'-ac_supply=5555555',
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'-ac_reward=10000000000000',
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'-pubkey=' + self.pubkey1,
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'-ac_cc=2',
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'-allowlist=127.0.0.1',
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'-debug',
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'-addnode=127.0.0.1:64367',
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'--daemon',
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'-rpcuser=rt',
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'-rpcpassword=rt']]
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)
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self.is_network_split = split
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self.rpc = self.nodes[0]
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self.rpc1 = self.nodes[1]
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self.sync_all()
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print("Done setting up network")
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def send_and_mine(self, xtn, rpc_connection):
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txid = rpc_connection.sendrawtransaction(xtn)
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assert txid, 'got txid'
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# we need the tx above to be confirmed in the next block
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rpc_connection.generate(1)
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return txid
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def run_faucet_tests(self):
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rpc = self.rpc
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rpc1 = self.rpc1
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# basic sanity tests
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result = rpc.getwalletinfo()
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assert_greater_than(result['txcount'], 100)
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assert_greater_than(result['balance'], 0.0)
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balance = result['balance']
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faucet = rpc.faucetaddress()
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assert_equal(faucet['result'], 'success')
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# verify all keys look like valid AC addrs, could be better
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for x in ['myCCAddress(Faucet)', 'FaucetCCAddress', 'FaucetCCTokensAddress', 'myaddress', 'FaucetNormalAddress']:
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assert_equal(faucet[x][0], 'R')
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result = rpc.faucetaddress(self.pubkey)
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assert_success(result)
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# test that additional CCaddress key is returned
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for x in ['myCCAddress(Faucet)', 'FaucetCCAddress', 'FaucetCCTokensAddress', 'myaddress', 'FaucetNormalAddress']:
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assert_equal(result[x][0], 'R')
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# no funds in the faucet yet
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result = rpc.faucetget()
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assert_error(result)
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result = rpc.faucetinfo()
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assert_success(result)
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result = rpc.faucetfund("0")
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assert_error(result)
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result = rpc.faucetfund("-1")
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assert_error(result)
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# we need at least 1 + txfee to get
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result = rpc.faucetfund("2")
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assert_success(result)
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assert result['hex'], "hex key found"
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# broadcast the xtn
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result = rpc.sendrawtransaction(result['hex'])
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txid = result[0]
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assert txid, "found txid"
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# we need the tx above to be confirmed in the next block
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rpc.generate(1)
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self.sync_all()
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result = rpc.getwalletinfo()
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# minus one block reward
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balance2 = result['balance'] - 100000
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# make sure our balance is less now
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assert_greater_than(balance, balance2)
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result = rpc.faucetinfo()
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assert_success(result)
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assert_greater_than( result['funding'], 0 )
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# claiming faucet on second node
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faucetgethex = rpc1.faucetget()
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assert_success(faucetgethex)
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assert faucetgethex['hex'], "hex key found"
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balance1 = rpc1.getwalletinfo()['balance']
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# try to broadcast the faucetget transaction
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result = self.send_and_mine(faucetgethex['hex'], rpc1)
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assert txid, "transaction broadcasted"
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balance2 = rpc1.getwalletinfo()['balance']
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assert_greater_than(balance2, balance1)
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self.sync_all()
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def run_dice_tests(self):
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rpc = self.nodes[0]
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rpc1 = self.nodes[1]
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self.sync_all()
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# have to generate few blocks on second node to be able to place bets
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rpc1.generate(10)
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result = rpc1.getbalance()
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assert_greater_than(result, 100000)
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dice = rpc.diceaddress()
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assert_equal(dice['result'], 'success')
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for x in ['myCCAddress(Dice)', 'DiceCCAddress', 'DiceCCTokensAddress', 'myaddress', 'DiceNormalAddress']:
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assert_equal(dice[x][0], 'R')
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dice = rpc.diceaddress(self.pubkey)
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assert_equal(dice['result'], 'success')
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for x in ['myCCAddress(Dice)', 'DiceCCAddress', 'DiceCCTokensAddress', 'myaddress', 'DiceNormalAddress']:
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assert_equal(dice[x][0], 'R')
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# no dice created yet
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result = rpc.dicelist()
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assert_equal(result, [])
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# creating dice plan with too long name (>8 chars)
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result = rpc.dicefund("THISISTOOLONG", "10000", "10", "10000", "10", "5")
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assert_error(result)
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# creating dice plan with < 100 funding
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result = rpc.dicefund("LUCKY","10","1","10000","10","5")
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assert_error(result)
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# creating dice plan with 0 blocks timeout
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result = rpc.dicefund("LUCKY","10","1","10000","10","0")
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assert_error(result)
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# creating dice plan
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dicefundtx = rpc.dicefund("LUCKY","1000","1","800","10","5")
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diceid = self.send_and_mine(dicefundtx['hex'], rpc)
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# checking if it in plans list now
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result = rpc.dicelist()
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assert_equal(result[0], diceid)
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# set dice name for futher usage
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dicename = "LUCKY"
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# adding zero funds to plan
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result = rpc.diceaddfunds(dicename,diceid,"0")
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assert_error(result)
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# adding negative funds to plan
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result = rpc.diceaddfunds(dicename,diceid,"-1")
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assert_error(result)
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# adding funds to plan
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addfundstx = rpc.diceaddfunds(dicename,diceid,"1100")
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result = self.send_and_mine(addfundstx['hex'], rpc)
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# checking if funds added to plan
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result = rpc.diceinfo(diceid)
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assert_equal(result["funding"], "2100.00000000")
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# not valid dice info checking
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result = rpc.diceinfo("invalid")
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assert_error(result)
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# placing 0 amount bet
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result = rpc1.dicebet(dicename,diceid,"0","2")
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assert_error(result)
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# placing negative amount bet
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result = rpc1.dicebet(dicename,diceid,"-1","2")
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assert_error(result)
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# placing bet more than maxbet
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result = rpc1.dicebet(dicename,diceid,"900","2")
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assert_error(result)
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# placing bet with amount more than funding
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result = rpc1.dicebet(dicename,diceid,"3000","2")
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assert_error(result)
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# placing bet with potential won more than funding
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result = rpc1.dicebet(dicename,diceid,"750","9")
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assert_error(result)
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# placing 0 odds bet
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result = rpc1.dicebet(dicename,diceid,"1","0")
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assert_error(result)
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# placing negative odds bet
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result = rpc1.dicebet(dicename,diceid,"1","-1")
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assert_error(result)
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# placing bet with odds more than allowed
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result = rpc1.dicebet(dicename,diceid,"1","11")
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assert_error(result)
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# placing bet with not correct dice name
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result = rpc1.dicebet("nope",diceid,"100","2")
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assert_error(result)
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# placing bet with not correct dice id
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result = rpc1.dicebet(dicename,self.pubkey,"100","2")
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assert_error(result)
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# have to make some entropy for the next test
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entropytx = 0
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fundingsum = 1
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while entropytx < 110:
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fundingsuminput = str(fundingsum)
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fundinghex = rpc.diceaddfunds(dicename,diceid,fundingsuminput)
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result = self.send_and_mine(fundinghex['hex'], rpc)
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entropytx = entropytx + 1
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fundingsum = fundingsum + 1
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rpc.generate(2)
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self.sync_all()
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# valid bet placing
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placebet = rpc1.dicebet(dicename,diceid,"100","2")
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betid = self.send_and_mine(placebet["hex"], rpc1)
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assert result, "bet placed"
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# check bet status
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result = rpc1.dicestatus(dicename,diceid,betid)
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assert_success(result)
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# note initial dice funding state at this point.
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# TODO: track player balance somehow (hard to do because of mining and fees)
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diceinfo = rpc.diceinfo(diceid)
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funding = float(diceinfo['funding'])
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# # placing same amount bets with amount 1 and odds 1:3, checking if balance changed correct
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# losscounter = 0
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# wincounter = 0
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# betcounter = 0
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#
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# while (betcounter < 10):
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# placebet = rpc1.dicebet(dicename,diceid,"1","2")
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# betid = self.send_and_mine(placebet["hex"], rpc1)
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# time.sleep(3)
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# self.sync_all()
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# finish = rpc.dicefinish(dicename,diceid,betid)
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# self.send_and_mine(finish["hex"], rpc1)
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# self.sync_all()
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# time.sleep(3)
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# betresult = rpc1.dicestatus(dicename,diceid,betid)
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# betcounter = betcounter + 1
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# if betresult["status"] == "loss":
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# losscounter = losscounter + 1
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# elif betresult["status"] == "win":
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# wincounter = wincounter + 1
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# else:
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# pass
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#
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# # funding balance should increase if player loss, decrease if player won
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# fundbalanceguess = funding + losscounter - wincounter * 2
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# fundinfoactual = rpc.diceinfo(diceid)
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# assert_equal(round(fundbalanceguess),round(float(fundinfoactual['funding'])))
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def run_token_tests(self):
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rpc = self.nodes[0]
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result = rpc.tokenaddress()
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assert_success(result)
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for x in ['myCCAddress(Tokens)', 'TokensNormalAddress', 'TokensNormalAddress', 'myaddress','TokensCCAddress']:
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assert_equal(result[x][0], 'R')
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result = rpc.tokenaddress(self.pubkey)
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assert_success(result)
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for x in ['myCCAddress(Tokens)', 'TokensNormalAddress', 'TokensNormalAddress', 'myaddress','TokensCCAddress']:
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assert_equal(result[x][0], 'R')
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# there are no tokens created yet
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result = rpc.tokenlist()
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assert_equal(result, [])
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# trying to create token with negaive supply
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result = rpc.tokencreate("NUKE", "-1987420", "no bueno supply")
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assert_error(result)
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# creating token with name more than 32 chars
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result = rpc.tokencreate("NUKE123456789012345678901234567890", "1987420", "name too long")
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assert_error(result)
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# creating valid token
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result = rpc.tokencreate("DUKE", "1987.420", "Duke's custom token")
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assert_success(result)
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tokenid = self.send_and_mine(result['hex'], rpc)
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result = rpc.tokenlist()
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assert_equal(result[0], tokenid)
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# get token balance for token with pubkey
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result = rpc.tokenbalance(tokenid, self.pubkey)
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assert_success(result)
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assert_equal(result['balance'], 198742000000)
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assert_equal(result['tokenid'], tokenid)
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# get token balance for token without pubkey
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result = rpc.tokenbalance(tokenid)
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assert_success(result)
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assert_equal(result['balance'], 198742000000)
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assert_equal(result['tokenid'], tokenid)
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# this is not a valid assetid
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result = rpc.tokeninfo(self.pubkey)
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assert_error(result)
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# check tokeninfo for valid token
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result = rpc.tokeninfo(tokenid)
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assert_success(result)
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assert_equal(result['tokenid'], tokenid)
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assert_equal(result['owner'], self.pubkey)
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assert_equal(result['name'], "DUKE")
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assert_equal(result['supply'], 198742000000)
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assert_equal(result['description'], "Duke's custom token")
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# invalid numtokens ask
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result = rpc.tokenask("-1", tokenid, "1")
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assert_error(result)
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# invalid numtokens ask
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result = rpc.tokenask("0", tokenid, "1")
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assert_error(result)
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# invalid price ask
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result = rpc.tokenask("1", tokenid, "-1")
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assert_error(result)
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# invalid price ask
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result = rpc.tokenask("1", tokenid, "0")
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assert_error(result)
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# invalid tokenid ask
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result = rpc.tokenask("100", "deadbeef", "1")
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assert_error(result)
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# valid ask
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tokenask = rpc.tokenask("100", tokenid, "7.77")
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tokenaskhex = tokenask['hex']
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tokenaskid = self.send_and_mine(tokenask['hex'], rpc)
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result = rpc.tokenorders(tokenid)
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order = result[0]
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assert order, "found order"
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# invalid ask fillunits
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result = rpc.tokenfillask(tokenid, tokenaskid, "0")
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assert_error(result)
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# invalid ask fillunits
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result = rpc.tokenfillask(tokenid, tokenaskid, "-777")
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assert_error(result)
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# valid ask fillunits
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fillask = rpc.tokenfillask(tokenid, tokenaskid, "777")
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result = self.send_and_mine(fillask['hex'], rpc)
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txid = result[0]
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assert txid, "found txid"
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# should be no token orders
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result = rpc.tokenorders(tokenid)
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assert_equal(result, [])
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# checking ask cancellation
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testorder = rpc.tokenask("100", tokenid, "7.77")
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testorderid = self.send_and_mine(testorder['hex'], rpc)
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cancel = rpc.tokencancelask(tokenid, testorderid)
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self.send_and_mine(cancel["hex"], rpc)
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result = rpc.tokenorders(tokenid)
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assert_equal(result, [])
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# invalid numtokens bid
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result = rpc.tokenbid("-1", tokenid, "1")
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assert_error(result)
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# invalid numtokens bid
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result = rpc.tokenbid("0", tokenid, "1")
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assert_error(result)
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# invalid price bid
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result = rpc.tokenbid("1", tokenid, "-1")
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assert_error(result)
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# invalid price bid
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result = rpc.tokenbid("1", tokenid, "0")
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assert_error(result)
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# invalid tokenid bid
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result = rpc.tokenbid("100", "deadbeef", "1")
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assert_error(result)
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tokenbid = rpc.tokenbid("100", tokenid, "10")
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tokenbidhex = tokenbid['hex']
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tokenbidid = self.send_and_mine(tokenbid['hex'], rpc)
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result = rpc.tokenorders(tokenid)
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order = result[0]
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assert order, "found order"
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# invalid bid fillunits
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result = rpc.tokenfillbid(tokenid, tokenbidid, "0")
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assert_error(result)
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# invalid bid fillunits
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result = rpc.tokenfillbid(tokenid, tokenbidid, "-777")
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assert_error(result)
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# valid bid fillunits
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fillbid = rpc.tokenfillbid(tokenid, tokenbidid, "1000")
|
|
result = self.send_and_mine(fillbid['hex'], rpc)
|
|
txid = result[0]
|
|
assert txid, "found txid"
|
|
|
|
# should be no token orders
|
|
result = rpc.tokenorders(tokenid)
|
|
assert_equal(result, [])
|
|
|
|
# checking bid cancellation
|
|
testorder = rpc.tokenbid("100", tokenid, "7.77")
|
|
testorderid = self.send_and_mine(testorder['hex'], rpc)
|
|
cancel = rpc.tokencancelbid(tokenid, testorderid)
|
|
self.send_and_mine(cancel["hex"], rpc)
|
|
result = rpc.tokenorders(tokenid)
|
|
assert_equal(result, [])
|
|
|
|
# invalid token transfer amount (have to add status to CC code!)
|
|
randompubkey = "021a559101e355c907d9c553671044d619769a6e71d624f68bfec7d0afa6bd6a96"
|
|
result = rpc.tokentransfer(tokenid,randompubkey,"0")
|
|
assert_error(result)
|
|
|
|
# invalid token transfer amount (have to add status to CC code!)
|
|
result = rpc.tokentransfer(tokenid,randompubkey,"-1")
|
|
assert_error(result)
|
|
|
|
# valid token transfer
|
|
sendtokens = rpc.tokentransfer(tokenid,randompubkey,"1")
|
|
self.send_and_mine(sendtokens["hex"], rpc)
|
|
result = rpc.tokenbalance(tokenid,randompubkey)
|
|
assert_equal(result["balance"], 1)
|
|
|
|
def run_rewards_tests(self):
|
|
rpc = self.nodes[0]
|
|
result = rpc.rewardsaddress()
|
|
for x in ['myCCAddress(Rewards)', 'myaddress', 'RewardsCCAddress', 'RewardsCCTokensAddress', 'RewardsNormalAddress']:
|
|
assert_equal(result[x][0], 'R')
|
|
|
|
result = rpc.rewardsaddress(self.pubkey)
|
|
for x in ['myCCAddress(Rewards)', 'myaddress', 'RewardsCCAddress', 'RewardsCCTokensAddress', 'RewardsNormalAddress']:
|
|
assert_equal(result[x][0], 'R')
|
|
|
|
# no rewards yet
|
|
result = rpc.rewardslist()
|
|
assert_equal(result, [])
|
|
|
|
# looking up non-existent reward should return error
|
|
result = rpc.rewardsinfo("none")
|
|
assert_error(result)
|
|
|
|
# creating rewards plan with name > 8 chars, should return error
|
|
result = rpc.rewardscreatefunding("STUFFSTUFF", "7777", "25", "0", "10", "10")
|
|
assert_error(result)
|
|
|
|
# creating rewards plan with 0 funding
|
|
result = rpc.rewardscreatefunding("STUFF", "0", "25", "0", "10", "10")
|
|
assert_error(result)
|
|
|
|
# creating rewards plan with 0 maxdays
|
|
result = rpc.rewardscreatefunding("STUFF", "7777", "25", "0", "10", "0")
|
|
assert_error(result)
|
|
|
|
# creating rewards plan with > 25% APR
|
|
result = rpc.rewardscreatefunding("STUFF", "7777", "30", "0", "10", "10")
|
|
assert_error(result)
|
|
|
|
# creating valid rewards plan
|
|
result = rpc.rewardscreatefunding("STUFF", "7777", "25", "0", "10", "10")
|
|
assert result['hex'], 'got raw xtn'
|
|
fundingtxid = rpc.sendrawtransaction(result['hex'])
|
|
assert fundingtxid, 'got txid'
|
|
|
|
# confirm the above xtn
|
|
rpc.generate(1)
|
|
result = rpc.rewardsinfo(fundingtxid)
|
|
assert_success(result)
|
|
assert_equal(result['name'], 'STUFF')
|
|
assert_equal(result['APR'], "25.00000000")
|
|
assert_equal(result['minseconds'], 0)
|
|
assert_equal(result['maxseconds'], 864000)
|
|
assert_equal(result['funding'], "7777.00000000")
|
|
assert_equal(result['mindeposit'], "10.00000000")
|
|
assert_equal(result['fundingtxid'], fundingtxid)
|
|
|
|
# checking if new plan in rewardslist
|
|
result = rpc.rewardslist()
|
|
assert_equal(result[0], fundingtxid)
|
|
|
|
# creating reward plan with already existing name, should return error
|
|
result = rpc.rewardscreatefunding("STUFF", "7777", "25", "0", "10", "10")
|
|
assert_error(result)
|
|
|
|
# add funding amount must be positive
|
|
result = rpc.rewardsaddfunding("STUFF", fundingtxid, "-1")
|
|
assert_error(result)
|
|
|
|
# add funding amount must be positive
|
|
result = rpc.rewardsaddfunding("STUFF", fundingtxid, "0")
|
|
assert_error(result)
|
|
|
|
# adding valid funding
|
|
result = rpc.rewardsaddfunding("STUFF", fundingtxid, "555")
|
|
addfundingtxid = self.send_and_mine(result['hex'], rpc)
|
|
assert addfundingtxid, 'got funding txid'
|
|
|
|
# checking if funding added to rewardsplan
|
|
result = rpc.rewardsinfo(fundingtxid)
|
|
assert_equal(result['funding'], "8332.00000000")
|
|
|
|
# trying to lock funds, locking funds amount must be positive
|
|
result = rpc.rewardslock("STUFF", fundingtxid, "-5")
|
|
assert_error(result)
|
|
|
|
# trying to lock funds, locking funds amount must be positive
|
|
result = rpc.rewardslock("STUFF", fundingtxid, "0")
|
|
assert_error(result)
|
|
|
|
# trying to lock less than the min amount is an error
|
|
result = rpc.rewardslock("STUFF", fundingtxid, "7")
|
|
assert_error(result)
|
|
|
|
# locking funds in rewards plan
|
|
result = rpc.rewardslock("STUFF", fundingtxid, "10")
|
|
assert_success(result)
|
|
locktxid = result['hex']
|
|
assert locktxid, "got lock txid"
|
|
|
|
# locktxid has not been broadcast yet
|
|
result = rpc.rewardsunlock("STUFF", fundingtxid, locktxid)
|
|
assert_error(result)
|
|
|
|
# broadcast xtn
|
|
txid = rpc.sendrawtransaction(locktxid)
|
|
assert txid, 'got txid from sendrawtransaction'
|
|
|
|
# confirm the xtn above
|
|
rpc.generate(1)
|
|
|
|
# will not unlock since reward amount is less than tx fee
|
|
result = rpc.rewardsunlock("STUFF", fundingtxid, locktxid)
|
|
assert_error(result)
|
|
|
|
def run_oracles_tests(self):
|
|
rpc = self.nodes[0]
|
|
rpc1 = self.nodes[1]
|
|
|
|
result = rpc1.oraclesaddress()
|
|
|
|
result = rpc.oraclesaddress()
|
|
assert_success(result)
|
|
|
|
for x in ['OraclesCCAddress', 'OraclesNormalAddress', 'myCCAddress(Oracles)','OraclesCCTokensAddress', 'myaddress']:
|
|
assert_equal(result[x][0], 'R')
|
|
|
|
result = rpc.oraclesaddress(self.pubkey)
|
|
assert_success(result)
|
|
for x in ['OraclesCCAddress', 'OraclesNormalAddress', 'myCCAddress(Oracles)','OraclesCCTokensAddress', 'myaddress']:
|
|
assert_equal(result[x][0], 'R')
|
|
|
|
# there are no oracles created yet
|
|
result = rpc.oracleslist()
|
|
assert_equal(result, [])
|
|
|
|
# looking up non-existent oracle should return error.
|
|
result = rpc.oraclesinfo("none")
|
|
assert_error(result)
|
|
|
|
# attempt to create oracle with not valid data type should return error
|
|
result = rpc.oraclescreate("Test", "Test", "Test")
|
|
assert_error(result)
|
|
|
|
# attempt to create oracle with description > 32 symbols should return error
|
|
too_long_name = generate_random_string(33)
|
|
result = rpc.oraclescreate(too_long_name, "Test", "s")
|
|
|
|
|
|
# attempt to create oracle with description > 4096 symbols should return error
|
|
too_long_description = generate_random_string(4100)
|
|
result = rpc.oraclescreate("Test", too_long_description, "s")
|
|
assert_error(result)
|
|
# # valid creating oracles of different types
|
|
# # using such naming to re-use it for data publishing / reading (e.g. oracle_s for s type)
|
|
# valid_formats = ["s", "S", "d", "D", "c", "C", "t", "T", "i", "I", "l", "L", "h", "Ihh"]
|
|
# for f in valid_formats:
|
|
# result = rpc.oraclescreate("Test", "Test", f)
|
|
# assert_success(result)
|
|
# globals()["oracle_{}".format(f)] = self.send_and_mine(result['hex'], rpc)
|
|
|
|
def run_test (self):
|
|
print("Mining blocks...")
|
|
rpc = self.nodes[0]
|
|
rpc1 = self.nodes[1]
|
|
# utxos from block 1 become mature in block 101
|
|
rpc.generate(101)
|
|
self.sync_all()
|
|
rpc.getinfo()
|
|
rpc1.getinfo()
|
|
# this corresponds to -pubkey above
|
|
print("Importing privkeys")
|
|
rpc.importprivkey(self.privkey)
|
|
rpc1.importprivkey(self.privkey1)
|
|
self.run_faucet_tests()
|
|
self.sync_all()
|
|
self.run_rewards_tests()
|
|
self.sync_all()
|
|
self.run_dice_tests()
|
|
self.sync_all()
|
|
self.run_token_tests()
|
|
self.sync_all()
|
|
self.run_oracles_tests()
|
|
|
|
|
|
if __name__ == '__main__':
|
|
CryptoConditionsTest ().main()
|
|
|