def run_test(self): node = self.nodes[0] node1 = self.nodes[1] ro = node.extkeyimportmaster( 'abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb' ) assert (ro['account_id'] == 'aaaZf2qnNr5T7PWRmqgmusuu5ACnBcX2ev') assert (node.getwalletinfo()['total_balance'] == 100000) # Start staking node.walletsettings('stakelimit', {'height': 1}) node.reservebalance(False) assert (self.wait_for_height(node, 1)) # stop staking node.reservebalance(True, 10000000) node1.reservebalance(True, 10000000) ro = node1.extkeyimportmaster( 'drip fog service village program equip minute dentist series hawk crop sphere olympic lazy garbage segment fox library good alley steak jazz force inmate' ) assert (ro['account_id'] == 'ahL1QdHhzNCtZWJzv36ScfPipJP1cUzAD8') extAddrTo = node1.getnewextaddress('test label') assert ( extAddrTo == 'pparszNYZ1cpWxnNieFqHCV2rtXmG74a4WAXHHhXaRATzzU6kMixjy1rXDM1UM4LVgkXRpLNM1rQNvkgLf7kUeMXiyaBMK8aSR3td4b4cX4epnHF' ) ro = node1.filteraddresses() assert (len(ro) == 1) assert (ro[0]['label'] == 'test label') ro = node1.getaddressinfo(extAddrTo) assert (ro['ismine'] == True) assert (ro['isextkey'] == True) ro = node1.dumpprivkey(extAddrTo) assert ( ro == 'xparFnnG7xJkEekTjWGumcEY1BKgryY4txW5Ce56KQPBJG7u3cNsUHxGgjVwHGEaxUGDAjT4SXv7fkWkp4TFaFHjaoZVh8Zricnwz3DjAxtqtmi' ) txnHash = node.sendtoaddress(extAddrTo, 10) ro = node.getmempoolentry(txnHash) assert (ro['height'] == 1) # start staking node.walletsettings('stakelimit', {'height': 2}) node.reservebalance(False) assert (self.wait_for_height(node, 2)) # stop staking ro = node.reservebalance(True, 10000000) ro = node1.listtransactions() assert (len(ro) == 1) assert (ro[0]['address'] == 'pkGv5xgviEAEjwpRPeEt8c9cvraw2umKYo') assert (ro[0]['amount'] == 10) ro = node1.getwalletinfo() assert (ro['total_balance'] == 10) block2_hash = node.getblockhash(2) ro = node.getblock(block2_hash) assert (txnHash in ro['tx']) txnHash2 = node.sendtoaddress(extAddrTo, 20, '', '', False, 'narration test') assert (self.wait_for_mempool(node1, txnHash2)) ro = node1.listtransactions() assert (len(ro) == 2) assert (ro[1]['address'] == 'pbo5e7tsLJBdUcCWteTTkGBxjW8Xy12o1V') assert (ro[1]['amount'] == 20) assert ('narration test' in ro[1].values()) ro = node.listtransactions() assert ('narration test' in ro[-1].values()) extAddrTo0 = node.getnewextaddress() txnHashes = [] for k in range(24): v = round(0.01 * float(k + 1), 5) node1.syncwithvalidationinterfacequeue() txnHash = node1.sendtoaddress(extAddrTo0, v, '', '', False) txnHashes.append(txnHash) for txnHash in txnHashes: assert (self.wait_for_mempool(node, txnHash)) ro = node.listtransactions('*', 24) assert (len(ro) == 24) assert [isclose(ro[0]['amount'], 0.01)] assert [isclose(ro[23]['amount'], 0.24)] assert [ro[23]['address'] == 'pm23xKs3gy6AhZZ7JZe61Rn1m8VB83P49d'] # start staking ro = node.walletsettings('stakelimit', {'height': 3}) ro = node.reservebalance(False) assert (self.wait_for_height(node, 3)) block3_hash = node.getblockhash(3) ro = node.getblock(block3_hash) for txnHash in txnHashes: assert (txnHash in ro['tx']) # Test bech32 encoding ek_b32 = 'tpep1q3ehtcetqqqqqqesj04mypkmhnly5rktqmcpmjuq09lyevcsjxrgra6x8trd52vp2vpsk6kf86v3npg6x66ymrn5yrqnclxtqrlfdlw3j4f0309dhxct8kc68paxt' assert (node.getnewextaddress('lbl_b32', '', True) == ek_b32) assert (ek_b32 in json.dumps(node.filteraddresses()))
def run_test(self): nodes = self.nodes nodes[0].extkeyimportmaster( 'abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb' ) assert (nodes[0].getwalletinfo()['total_balance'] == 100000) nodes[1].extkeyimportmaster( 'pact mammal barrel matrix local final lecture chunk wasp survey bid various book strong spread fall ozone daring like topple door fatigue limb olympic', '', 'true') nodes[1].getnewextaddress('lblExtTest') nodes[1].rescanblockchain() assert (nodes[1].getwalletinfo()['total_balance'] == 25000) address0 = nodes[0].getnewaddress() address1 = nodes[1].getnewaddress() nodes[0].smsgaddlocaladdress(address0) nodes[1].smsgaddaddress( address0, nodes[0].smsglocalkeys()['wallet_keys'][0]['public_key']) text = 'Some text to test' ro = nodes[1].smsgsend(address1, address0, text, True, 10, True) assert (ro['result'] == 'Not Sent.') assert (isclose(ro['fee'], 0.00159000)) assert (nodes[0].smsggetfeerate() == 50000) assert (nodes[1].smsggetfeerate() == 50000) ro = nodes[0].walletsettings('stakingoptions', {'smsgfeeratetarget': 0.001}) assert (float(ro['stakingoptions']['smsgfeeratetarget']) == 0.001) self.stakeBlocks(49) assert (nodes[0].smsggetfeerate() == 50000) ro = nodes[1].smsgsend(address1, address0, text, True, 10) assert (ro['result'] == 'Sent.') assert ('msgid' in ro) assert ('txid' in ro) assert (isclose(ro['fee'], 0.00159000)) self.stakeBlocks(1) assert (nodes[0].smsggetfeerate() == 61939) ro = nodes[1].smsgsend(address1, address0, text, True, 10, True) assert (ro['result'] == 'Not Sent.') assert (isclose(ro['fee'], 0.00189080)) ro = nodes[1].getblock(nodes[1].getblockhash(50), 2) assert (ro['tx'][0]['vout'][0]['smsgfeerate'] * COIN == 61939) assert (ro['tx'][0]['vout'][0]['smsgdifficulty'] == '1f0fffff') ro = nodes[0].walletsettings( 'stakingoptions', { 'smsgdifficultytarget': '000000000000bfffffffffffffffffffffffffffffffffffffffffffffffffff', 'smsgfeeratetarget': 0.001 }) assert (float(ro['stakingoptions']['smsgfeeratetarget']) == 0.001) assert ( ro['stakingoptions']['smsgdifficultytarget'] == '000000000000bfffffffffffffffffffffffffffffffffffffffffffffffffff') self.sync_all() self.stakeBlocks(1) assert (nodes[0].smsggetfeerate() == 61939) ro = nodes[1].getrawtransaction( nodes[1].getblockreward(51)['coinstake'], True) block_51_smsgfeerate = ro['vout'][0]['smsgfeerate'] * COIN block_51_smsgdifficulty = int(ro['vout'][0]['smsgdifficulty'], 16) assert (block_51_smsgfeerate > 61939) assert (block_51_smsgdifficulty < 0x1f0fffff) self.waitForSmsgExchange(1, 1, 0) ro = nodes[0].smsginbox('all') assert (len(ro['messages']) == 1) assert (ro['messages'][0]['text'] == text) self.log.info('Verify node settings survive a restart') self.stop_node(0) self.start_node(0, self.extra_args[0]) connect_nodes(self.nodes[0], 1) ro = nodes[0].walletsettings('stakingoptions') assert (float(ro['stakingoptions']['smsgfeeratetarget']) == 0.001) assert ( ro['stakingoptions']['smsgdifficultytarget'] == '000000000000bfffffffffffffffffffffffffffffffffffffffffffffffffff') self.stakeBlocks(1) ro = nodes[1].getblock(nodes[1].getblockhash(52), 2) assert (ro['tx'][0]['vout'][0]['smsgfeerate'] * COIN > block_51_smsgfeerate) assert (int(ro['tx'][0]['vout'][0]['smsgdifficulty'], 16) < block_51_smsgdifficulty)
def run_test(self): nodes = self.nodes ro = nodes[0].extkeyimportmaster( 'abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb' ) assert (ro['account_id'] == 'aaaZf2qnNr5T7PWRmqgmusuu5ACnBcX2ev') assert (nodes[0].getwalletinfo()['total_balance'] == 100000) nodes[1].extkeyimportmaster(nodes[1].mnemonic('new')['master']) nodes[2].extkeyimportmaster( 'sección grito médula hecho pauta posada nueve ebrio bruto buceo baúl mitad' ) addrTo256 = nodes[2].getnewaddress('256 test', 'True', 'False', 'True') assert ( addrTo256 == 'tpl16a6gjrpfwkqrf8fveajkek07l6a0pxgaayk4y6gyq9zlkxxk2hqqmld6tr') [nodes[0].sendtoaddress(addrTo256, 1000) for i in range(4)] self.log.info('Test reserve balance') nodes[0].walletsettings('stakelimit', {'height': 1}) assert (isclose(nodes[0].getwalletinfo()['reserve'], 10000000.0)) ro = nodes[0].reservebalance(True, 100) assert (ro['reserve'] == True) assert (isclose(ro['amount'], 100.0)) ro = nodes[0].getwalletinfo() assert (ro['reserve'] == 100) ro = nodes[0].reservebalance(False) assert (ro['reserve'] == False) assert (ro['amount'] == 0) ro = nodes[0].getwalletinfo() assert (ro['reserve'] == 0) assert (self.wait_for_height(nodes[0], 1)) ro = nodes[0].reservebalance(True, 10000000) addrTo = nodes[1].getnewaddress() txnHash = nodes[0].sendtoaddress(addrTo, 10) ro = nodes[0].getmempoolentry(txnHash) assert (ro['height'] == 1) ro = nodes[0].listtransactions() fPass = False for txl in ro: if txl['address'] == addrTo and txl['amount'] == -10 and txl[ 'category'] == 'send': fPass = True break assert (fPass), "node0, listtransactions failed." assert (self.wait_for_mempool(nodes[1], txnHash)) ro = nodes[1].listtransactions() assert (len(ro) == 1) assert (ro[0]['address'] == addrTo) assert (ro[0]['amount'] == 10) assert (ro[0]['category'] == 'receive') self.stakeBlocks(1) block2_hash = nodes[0].getblockhash(2) ro = nodes[0].getblock(block2_hash) assert (txnHash in ro['tx']) addrReward = nodes[0].getnewaddress() ro = nodes[0].walletsettings('stakingoptions', {'rewardaddress': addrReward}) assert (ro['stakingoptions']['rewardaddress'] == addrReward) addrReward_stakeonly = nodes[0].validateaddress( addrReward, True)['stakeonly_address'] try: ro = nodes[0].walletsettings( 'stakingoptions', {'rewardaddress': addrReward_stakeonly}) raise AssertionError('Should have failed.') except JSONRPCException as e: assert ('Invalid rewardaddress' in e.error['message']) self.stakeBlocks(1) block3_hash = nodes[0].getblockhash(3) coinstakehash = nodes[0].getblock(block3_hash)['tx'][0] ro = nodes[0].getrawtransaction(coinstakehash, True) fFound = False for vout in ro["vout"]: try: addr0 = vout['scriptPubKey']['addresses'][0] except: continue if addr0 == addrReward: fFound = True assert (vout['valueSat'] == 39637) break assert (fFound) self.log.info('Test staking pkh256 outputs') nodes[2].walletsettings('stakelimit', {'height': 1}) nodes[2].reservebalance(False) assert (nodes[2].getstakinginfo()['weight'] == 400000000000) self.stakeBlocks(1, nStakeNode=2) self.log.info('Test rewardaddress') addrRewardExt = nodes[0].getnewextaddress() ro = nodes[0].walletsettings('stakingoptions', {'rewardaddress': addrRewardExt}) assert (ro['stakingoptions']['rewardaddress'] == addrRewardExt) self.stakeBlocks(1) block5_hash = nodes[0].getblockhash(5) coinstakehash = nodes[0].getblock(block5_hash)['tx'][0] ro = nodes[0].getrawtransaction(coinstakehash, True) fFound = False for vout in ro["vout"]: try: addr0 = vout['scriptPubKey']['addresses'][0] ro = nodes[0].getaddressinfo(addr0) if ro['from_ext_address_id'] == 'xXZRLYvJgbJyrqJhgNzMjEvVGViCdGmVAt': assert (addr0 == 'pgaKYsNmHTuQB83FguN44WW4ADKmwJwV7e') fFound = True assert (vout['valueSat'] == 39637) except: continue assert (fFound) addrRewardSx = nodes[0].getnewstealthaddress() ro = nodes[0].walletsettings('stakingoptions', {'rewardaddress': addrRewardSx}) assert (ro['stakingoptions']['rewardaddress'] == addrRewardSx) self.stakeBlocks(1) block6_hash = nodes[0].getblockhash(6) coinstakehash = nodes[0].getblock(block6_hash)['tx'][0] ro = nodes[0].getrawtransaction(coinstakehash, True) fFound = False for vout in ro['vout']: try: addr0 = vout['scriptPubKey']['addresses'][0] ro = nodes[0].getaddressinfo(addr0) if ro['from_stealth_address'] == addrRewardSx: fFound = True assert (vout['valueSat'] == 39637) except: continue assert (fFound) self.log.info('Test clearing rewardaddress') ro = nodes[0].walletsettings('stakingoptions', {}) self.stakeBlocks(1) coinstakehash = nodes[0].getblock(nodes[0].getblockhash(7))['tx'][0] ro = nodes[0].getrawtransaction(coinstakehash, True) for output in ro['vout'][1:]: assert (output['type'] == 'standard') assert (output['value'] > 1.0)
def run_test(self): nodes = self.nodes ro = nodes[0].extkeyimportmaster( 'abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb' ) assert (ro['account_id'] == 'aaaZf2qnNr5T7PWRmqgmusuu5ACnBcX2ev') assert (nodes[0].getwalletinfo()['total_balance'] == 100000) addrs = [] pubkeys = [] ro = nodes[0].getnewaddress() addrs.append(ro) ro = nodes[0].getaddressinfo(ro) pubkeys.append(ro['pubkey']) ro = nodes[0].getnewaddress() addrs.append(ro) ro = nodes[0].getaddressinfo(ro) pubkeys.append(ro['pubkey']) nodes[1].extkeyimportmaster( 'drip fog service village program equip minute dentist series hawk crop sphere olympic lazy garbage segment fox library good alley steak jazz force inmate' ) ro = nodes[1].getnewaddress() addrs.append(ro) ro = nodes[1].getaddressinfo(ro) pubkeys.append(ro['pubkey']) nodes[2].extkeyimportmaster(nodes[2].mnemonic('new', '', 'french')['mnemonic']) ro = nodes[2].getnewaddress() addrs.append(ro) ro = nodes[2].getaddressinfo(ro) pubkeys.append(ro['pubkey']) v = [addrs[0], addrs[1], pubkeys[2]] msAddr = nodes[0].addmultisigaddress(2, v)['address'] ro = nodes[0].getaddressinfo(msAddr) assert (ro['isscript'] == True) scriptPubKey = ro['scriptPubKey'] redeemScript = ro['hex'] ro = nodes[0].sendtoaddress(msAddr, 10) mstxid = ro ro = nodes[0].gettransaction(mstxid) hexfund = ro['hex'] ro = nodes[0].decoderawtransaction(hexfund) fundscriptpubkey = '' fundoutid = -1 for vout in ro['vout']: if not isclose(vout['value'], 10.0): continue fundoutid = vout['n'] fundscriptpubkey = vout['scriptPubKey']['hex'] assert (fundoutid >= 0), "fund output not found" addrTo = nodes[2].getnewaddress() inputs = [{ "txid": mstxid, "vout": fundoutid, "scriptPubKey": fundscriptpubkey, "redeemScript": redeemScript, "amount": 10.0, }] outputs = {addrTo: 2, msAddr: 7.99} hexRaw = nodes[0].createrawtransaction(inputs, outputs) vk0 = nodes[0].dumpprivkey(addrs[0]) signkeys = [ vk0, ] ro = nodes[0].signrawtransactionwithkey(hexRaw, signkeys, inputs) hexRaw1 = ro['hex'] vk1 = nodes[0].dumpprivkey(addrs[1]) signkeys = [ vk1, ] ro = nodes[0].signrawtransactionwithkey(hexRaw1, signkeys, inputs) hexRaw2 = ro['hex'] txnid_spendMultisig = nodes[0].sendrawtransaction(hexRaw2) self.stakeBlocks(1) block1_hash = nodes[0].getblockhash(1) ro = nodes[0].getblock(block1_hash) assert (txnid_spendMultisig in ro['tx']) msAddr256 = nodes[0].addmultisigaddress(2, v, "", False, True)['address'] ro = nodes[0].getaddressinfo(msAddr256) assert (ro['isscript'] == True) ro = nodes[0].addmultisigaddress(2, v, "", True, True)['address'] msAddr256 = ro assert ( msAddr256 == "tpj1vtll9wnsd7dxzygrjp2j5jr5tgrjsjmj3vwjf7vf60f9p50g5ddqmasmut") ro = nodes[0].getaddressinfo(msAddr256) assert (ro['isscript'] == True) scriptPubKey = ro['scriptPubKey'] redeemScript = ro['hex'] mstxid2 = nodes[0].sendtoaddress(msAddr256, 9) hexfund = nodes[0].gettransaction(mstxid2)['hex'] ro = nodes[0].decoderawtransaction(hexfund) fundscriptpubkey = '' fundoutid = -1 for vout in ro['vout']: if not isclose(vout['value'], 9.0): continue fundoutid = vout['n'] fundscriptpubkey = vout['scriptPubKey']['hex'] assert ('OP_SHA256' in vout['scriptPubKey']['asm']) assert (fundoutid >= 0), "fund output not found" inputs = [{ "txid": mstxid2, "vout": fundoutid, "scriptPubKey": fundscriptpubkey, "redeemScript": redeemScript, "amount": 9.0, # Must specify amount }] addrTo = nodes[2].getnewaddress() outputs = {addrTo: 2, msAddr256: 6.99} hexRaw = nodes[0].createrawtransaction(inputs, outputs) vk0 = nodes[0].dumpprivkey(addrs[0]) signkeys = [ vk0, ] ro = nodes[0].signrawtransactionwithkey(hexRaw, signkeys, inputs) hexRaw1 = ro['hex'] ro = nodes[0].decoderawtransaction(hexRaw1) vk1 = nodes[0].dumpprivkey(addrs[1]) signkeys = [ vk1, ] ro = nodes[0].signrawtransactionwithkey(hexRaw1, signkeys, inputs) hexRaw2 = ro['hex'] txnid_spendMultisig2 = nodes[0].sendrawtransaction(hexRaw2) self.stakeBlocks(1) block2_hash = nodes[0].getblockhash(2) ro = nodes[0].getblock(block2_hash) assert (txnid_spendMultisig2 in ro['tx']) ro = nodes[0].getaddressinfo(msAddr) scriptPubKey = ro['scriptPubKey'] redeemScript = ro['hex'] opts = {"recipe": "abslocktime", "time": 946684800, "addr": msAddr} ro = nodes[0].buildscript(opts) scriptTo = ro['hex'] outputs = [ { 'address': 'script', 'amount': 8, 'script': scriptTo }, ] mstxid3 = nodes[0].sendtypeto('part', 'part', outputs) ro = nodes[0].gettransaction(mstxid3) hexfund = ro['hex'] ro = nodes[0].decoderawtransaction(hexfund) fundscriptpubkey = '' fundoutid = -1 for vout in ro['vout']: if not isclose(vout['value'], 8.0): continue fundoutid = vout['n'] fundscriptpubkey = vout['scriptPubKey']['hex'] assert ('OP_CHECKLOCKTIMEVERIFY' in vout['scriptPubKey']['asm']) assert (fundoutid >= 0), "fund output not found" inputs = [{ "txid": mstxid3, "vout": fundoutid, "scriptPubKey": fundscriptpubkey, "redeemScript": redeemScript, "amount": 8.0, # Must specify amount }] addrTo = nodes[2].getnewaddress() outputs = {addrTo: 2, msAddr: 5.99} locktime = 946684801 hexRaw = nodes[0].createrawtransaction(inputs, outputs, locktime) vk0 = nodes[0].dumpprivkey(addrs[0]) signkeys = [ vk0, ] ro = nodes[0].signrawtransactionwithkey(hexRaw, signkeys, inputs) hexRaw1 = ro['hex'] ro = nodes[0].decoderawtransaction(hexRaw1) vk1 = nodes[0].dumpprivkey(addrs[1]) signkeys = [ vk1, ] ro = nodes[0].signrawtransactionwithkey(hexRaw1, signkeys, inputs) hexRaw2 = ro['hex'] txnid_spendMultisig3 = nodes[0].sendrawtransaction(hexRaw2) self.stakeBlocks(1) block3_hash = nodes[0].getblockhash(3) ro = nodes[0].getblock(block3_hash) assert (txnid_spendMultisig3 in ro['tx']) self.log.info("Coldstake script") stakeAddr = nodes[0].getnewaddress() addrTo = nodes[0].getnewaddress() opts = { "recipe": "ifcoinstake", "addrstake": stakeAddr, "addrspend": msAddr } ro = nodes[0].buildscript(opts) scriptTo = ro['hex'] outputs = [{'address': 'script', 'amount': 1, 'script': scriptTo}] txFundId = nodes[0].sendtypeto('part', 'part', outputs) hexfund = nodes[0].gettransaction(txFundId)['hex'] ro = nodes[0].decoderawtransaction(hexfund) for vout in ro['vout']: if not isclose(vout['value'], 1.0): continue fundoutn = vout['n'] fundscriptpubkey = vout['scriptPubKey']['hex'] assert ('OP_ISCOINSTAKE' in vout['scriptPubKey']['asm']) assert (fundoutn >= 0), "fund output not found" ro = nodes[0].getaddressinfo(msAddr) assert (ro['isscript'] == True) scriptPubKey = ro['scriptPubKey'] redeemScript = ro['hex'] inputs = [{ 'txid': txFundId, 'vout': fundoutn, 'scriptPubKey': fundscriptpubkey, 'redeemScript': redeemScript, 'amount': 1.0, }] outputs = {addrTo: 0.99} hexRaw = nodes[0].createrawtransaction(inputs, outputs) sig0 = nodes[0].createsignaturewithwallet(hexRaw, inputs[0], addrs[0]) sig1 = nodes[0].createsignaturewithwallet(hexRaw, inputs[0], addrs[1]) self.log.info( 'Test createsignaturewithwallet without providing prevout details') outpoint_only = {'txid': txFundId, 'vout': fundoutn} sig1_check1 = nodes[0].createsignaturewithwallet( hexRaw, outpoint_only, addrs[1]) assert (sig1 == sig1_check1) addr1_privkey = nodes[0].dumpprivkey(addrs[1]) sig1_check2 = nodes[0].createsignaturewithkey(hexRaw, inputs[0], addr1_privkey) assert (sig1 == sig1_check2) try: sig1_check3 = nodes[0].createsignaturewithkey( hexRaw, outpoint_only, addr1_privkey) assert ( False), 'createsignaturewithkey passed with no redeemscript' except JSONRPCException as e: assert ('"redeemScript" is required' in e.error['message']) outpoint_only['redeemScript'] = redeemScript sig1_check3 = nodes[0].createsignaturewithkey(hexRaw, outpoint_only, addr1_privkey) assert (sig1 == sig1_check3) witnessStack = [ "", sig0, sig1, redeemScript, ] hexRawSigned = nodes[0].tx( [hexRaw, 'witness=0:' + ':'.join(witnessStack)]) ro = nodes[0].verifyrawtransaction(hexRawSigned) assert (ro['complete'] == True) ro = nodes[0].signrawtransactionwithwallet(hexRaw) assert (ro['complete'] == True) assert (ro['hex'] == hexRawSigned) txid = nodes[0].sendrawtransaction(hexRawSigned) self.stakeBlocks(1) block4_hash = nodes[0].getblockhash(4) ro = nodes[0].getblock(block4_hash) assert (txid in ro['tx']) self.log.info("Test combinerawtransaction") unspent0 = nodes[0].listunspent() unspent2 = nodes[2].listunspent() inputs = [unspent0[0], unspent2[0]] outputs = { nodes[0].getnewaddress(): satoshi_round(unspent0[0]['amount'] + unspent2[0]['amount'] - Decimal(0.1)) } rawtx = nodes[0].createrawtransaction(inputs, outputs) rawtx0 = nodes[0].signrawtransactionwithwallet(rawtx) assert (rawtx0['complete'] == False) rawtx2 = nodes[2].signrawtransactionwithwallet( rawtx0['hex']) # Keeps signature from node0 assert (rawtx2['complete']) rawtx2 = nodes[2].signrawtransactionwithwallet(rawtx) assert (rawtx2['complete'] == False) rawtx_complete = nodes[0].combinerawtransaction( [rawtx0['hex'], rawtx2['hex']]) nodes[0].sendrawtransaction(rawtx_complete)
def test_cttx(self): nodes = self.nodes # Test confidential transactions addrA_sx = nodes[0].getnewstealthaddress() # party A addrB_sx = nodes[1].getnewstealthaddress() # party B outputs = [ { 'address': addrA_sx, 'type': 'blind', 'amount': 100, }, { 'address': addrB_sx, 'type': 'blind', 'amount': 100, }, ] ro = nodes[0].createrawparttransaction([], outputs) ro = nodes[0].fundrawtransactionfrom('standard', ro['hex'], {}, ro['amounts']) rawtx = ro['hex'] ro = nodes[0].signrawtransactionwithwallet(rawtx) assert (ro['complete'] == True) ro = nodes[0].sendrawtransaction(ro['hex']) txnid = ro self.stakeBlocks(1) ro = nodes[0].getwalletinfo() assert (isclose(ro['blind_balance'], 100.0)) ro = nodes[0].filtertransactions() n = getIndexAtProperty(ro, 'txid', txnid) assert (n > -1) assert (isclose(ro[n]['amount'], -100.00203200)) ro = nodes[1].getwalletinfo() assert (isclose(ro['blind_balance'], 100.0)) ro = nodes[1].filtertransactions() n = getIndexAtProperty(ro, 'txid', txnid) assert (n > -1) assert (isclose(ro[n]['amount'], 100.0)) # Initiate A -> B # A has address (addrB_sx) of B amountA = 7.0 amountB = 7.0 secretA = os.urandom(32) secretAHash = sha256(secretA) lockTime = int(time.time()) + 10000 # future locktime destA = nodes[0].derivefromstealthaddress(addrA_sx) pkh0_0 = b58decode(destA['address'])[1:-4] ro = nodes[0].derivefromstealthaddress(addrA_sx, destA['ephemeral_pubkey']) privKeyA = ro['privatekey'] pubKeyA = ro['pubkey'] destB = nodes[0].derivefromstealthaddress(addrB_sx) pkh1_0 = b58decode(destB['address'])[1:-4] ro = nodes[1].derivefromstealthaddress(addrB_sx, destB['ephemeral_pubkey']) privKeyB = ro['privatekey'] pubKeyB = ro['pubkey'] scriptInitiate = CreateAtomicSwapScript(payTo=pkh1_0, refundTo=pkh0_0, lockTime=lockTime, secretHash=secretAHash) p2sh_initiate = script_to_p2sh_part(scriptInitiate) outputs = [ { 'address': p2sh_initiate, 'pubkey': destB['pubkey'], 'type': 'blind', 'amount': amountA, }, ] ro = nodes[0].createrawparttransaction([], outputs) ro = nodes[0].fundrawtransactionfrom('blind', ro['hex'], {}, ro['amounts']) output_amounts_i = ro['output_amounts'] ro = nodes[0].signrawtransactionwithwallet(ro['hex']) assert (ro['complete'] == True) rawtx_i = ro['hex'] rawtx_i_refund = createRefundTxCT(nodes[0], rawtx_i, output_amounts_i, scriptInitiate, lockTime, privKeyA, pubKeyA, addrA_sx) ro = nodes[0].testmempoolaccept([ rawtx_i_refund, ]) assert ('64: non-final' in ro[0]['reject-reason']) txnid1 = nodes[0].sendrawtransaction(rawtx_i) self.stakeBlocks(1) # Party A sends B rawtx_i/txnid1, script and output_amounts_i # auditcontract # Party B extracts the secrethash and verifies the txn: ro = nodes[1].decoderawtransaction(rawtx_i) n = getOutputByAddr(ro, p2sh_initiate) valueCommitment = ro['vout'][n]['valueCommitment'] amount = output_amounts_i[str(n)]['value'] blind = output_amounts_i[str(n)]['blind'] assert (nodes[1].verifycommitment(valueCommitment, blind, amount)['result'] == True) # Participate B -> A # needs address and publickey from A, amount and secretAHash lockTimeP = int(time.time()) + 10000 # future locktime scriptParticipate = CreateAtomicSwapScript(payTo=pkh0_0, refundTo=pkh1_0, lockTime=lockTimeP, secretHash=secretAHash) p2sh_participate = script_to_p2sh_part(scriptParticipate) outputs = [ { 'address': p2sh_participate, 'pubkey': destA['pubkey'], 'type': 'blind', 'amount': amountB, }, ] ro = nodes[1].createrawparttransaction([], outputs) ro = nodes[1].fundrawtransactionfrom('blind', ro['hex'], {}, ro['amounts']) output_amounts_p = ro['output_amounts'] ro = nodes[1].signrawtransactionwithwallet(ro['hex']) rawtx_p = ro['hex'] rawtx_p_refund = createRefundTxCT(nodes[1], rawtx_p, output_amounts_p, scriptParticipate, lockTime, privKeyB, pubKeyB, addrB_sx) ro = nodes[1].testmempoolaccept([ rawtx_p_refund, ]) assert ('64: non-final' in ro[0]['reject-reason']) txnid_p = nodes[0].sendrawtransaction(rawtx_p) self.stakeBlocks(1) assert (txnid_p in nodes[0].getblock(nodes[0].getblockhash( nodes[0].getblockcount()))['tx']) # B sends output_amounts to A # Party A Redeem/Claim from participate txn # Party A spends the funds from the participate txn, and to do so must reveal secretA rawtxclaimA = createClaimTxCT(nodes[0], rawtx_p, output_amounts_p, scriptParticipate, secretA, privKeyA, pubKeyA, addrA_sx) txnidAClaim = nodes[0].sendrawtransaction(rawtxclaimA) # Party B claims from initiate txn # Get secret from txnidAClaim #ro = nodes[1].getrawtransaction(txnidAClaim, True) #print('ro', json.dumps(ro, indent=4, default=jsonDecimal)) rawtxclaimB = createClaimTxCT(nodes[1], rawtx_i, output_amounts_i, scriptInitiate, secretA, privKeyB, pubKeyB, addrB_sx) txnidBClaim = nodes[0].sendrawtransaction(rawtxclaimB) nodes[0].getmempoolentry(txnidAClaim) nodes[0].getmempoolentry(txnidBClaim) # Test Refund expired initiate tx secretA = os.urandom(32) secretAHash = sha256(secretA) lockTime = int(time.time()) - 100000 # past locktime amountA = 7.1 scriptInitiate = CreateAtomicSwapScript(payTo=pkh1_0, refundTo=pkh0_0, lockTime=lockTime, secretHash=secretAHash) p2sh_initiate = script_to_p2sh_part(scriptInitiate) outputs = [ { 'address': p2sh_initiate, 'pubkey': destB['pubkey'], 'type': 'blind', 'amount': amountA, }, ] ro = nodes[0].createrawparttransaction([], outputs) ro = nodes[0].fundrawtransactionfrom('blind', ro['hex'], {}, ro['amounts']) r2 = nodes[0].verifyrawtransaction(ro['hex']) assert (r2['complete'] == False) output_amounts_i = ro['output_amounts'] ro = nodes[0].signrawtransactionwithwallet(ro['hex']) assert (ro['complete'] == True) rawtx_i = ro['hex'] r2 = nodes[0].verifyrawtransaction(rawtx_i) assert (r2['complete'] == True) rawtx_i_refund = createRefundTxCT(nodes[0], rawtx_i, output_amounts_i, scriptInitiate, lockTime, privKeyA, pubKeyA, addrA_sx) ro = nodes[0].testmempoolaccept([ rawtx_i_refund, ]) assert ('missing-inputs' in ro[0]['reject-reason']) txnid1 = nodes[0].sendrawtransaction(rawtx_i) ro = nodes[0].getwalletinfo() assert (ro['unconfirmed_blind'] > 6.0 and ro['unconfirmed_blind'] < 7.0) txnidRefund = nodes[0].sendrawtransaction(rawtx_i_refund) nodes[0].getmempoolentry(txnidRefund) ro = nodes[0].getwalletinfo() assert (ro['unconfirmed_blind'] > 14.0 and ro['unconfirmed_blind'] < 14.1)
def test_standardtx(self): nodes = self.nodes addrA_0 = nodes[0].getnewaddress() # party A addrB_0 = nodes[1].getnewaddress() # party B # Initiate A -> B # A has address (addrB_0) of B amountA = 5.0 amountB = 5.0 pkh0_0 = b58decode(addrA_0)[1:-4] pkh1_0 = b58decode(addrB_0)[1:-4] secretA = os.urandom(32) secretAHash = sha256(secretA) lockTime = int(time.time()) + 10000 # future locktime scriptInitiate = CreateAtomicSwapScript(payTo=pkh1_0, refundTo=pkh0_0, lockTime=lockTime, secretHash=secretAHash) p2sh_initiate = script_to_p2sh_part(scriptInitiate) rawtxInitiate = nodes[0].createrawtransaction([], {p2sh_initiate: amountA}) rawtxInitiate = nodes[0].fundrawtransaction(rawtxInitiate)['hex'] ro = nodes[0].signrawtransactionwithwallet(rawtxInitiate) assert (ro['complete'] == True) rawtxInitiate = ro['hex'] rawtx1refund = createRefundTx(nodes[0], rawtxInitiate, scriptInitiate, lockTime, addrA_0, addrA_0) nodes[0].sendrawtransaction(rawtxInitiate) self.stakeBlocks(1) ro = nodes[0].getblockchaininfo() assert (ro['mediantime'] < lockTime) try: txnidrefund = nodes[0].sendrawtransaction(rawtx1refund) assert (False) except JSONRPCException as e: assert ('non-final' in e.error['message']) # Party A sends B rawtxInitiate/txnid1 and script # auditcontract # Party B extracts the secrethash and verifies the txn: assert (len(scriptInitiate) == 97) extractedSecretAHash = scriptInitiate[7:7 + 32] assert (extractedSecretAHash == secretAHash) tx1 = nodes[1].decoderawtransaction(rawtxInitiate) self.log.info("Verify txn " + tx1['txid']) # TODO # Participate B -> A # needs address from A, amount and secretAHash lockTimeP = int(time.time()) + 10000 # future locktime scriptParticipate = CreateAtomicSwapScript(payTo=pkh0_0, refundTo=pkh1_0, lockTime=lockTimeP, secretHash=secretAHash) p2sh_participate = script_to_p2sh_part(scriptParticipate) rawtx_p = nodes[1].createrawtransaction([], {p2sh_participate: amountB}) rawtx_p = nodes[1].fundrawtransaction(rawtx_p)['hex'] ro = nodes[1].signrawtransactionwithwallet(rawtx_p) assert (ro['complete'] == True) rawtx_p = ro['hex'] rawtxRefundP = createRefundTx(nodes[1], rawtx_p, scriptParticipate, lockTimeP, addrB_0, addrB_0) txnidParticipate = nodes[1].sendrawtransaction(rawtx_p) self.sync_all() self.stakeBlocks(1) assert (txnidParticipate in nodes[0].getblock(nodes[0].getblockhash( nodes[0].getblockcount()))['tx']) ro = nodes[0].getblockchaininfo() assert (ro['mediantime'] < lockTimeP) try: txnidrefund = nodes[1].sendrawtransaction(rawtxRefundP) assert (False) except JSONRPCException as e: assert ('non-final' in e.error['message']) # auditcontract # Party A verifies the participate txn from B # Party A Redeem/Claim from participate txn # Party A spends the funds from the participate txn, and to do so must reveal secretA rawtxclaimA = createClaimTx(nodes[0], rawtx_p, scriptParticipate, secretA, addrA_0, addrA_0) txnidAClaim = nodes[0].sendrawtransaction(rawtxclaimA) # Party B Redeem/Claim from initiate txn # Get secret from txnidAClaim #ro = nodes[1].getrawtransaction(txnidAClaim, True) #print('ro', json.dumps(ro, indent=4, default=jsonDecimal)) rawtxclaimB = createClaimTx(nodes[1], rawtxInitiate, scriptInitiate, secretA, addrB_0, addrB_0) txnidBClaim = nodes[0].sendrawtransaction( rawtxclaimB) # send from staking node to avoid syncing self.stakeBlocks(1) last_block_txns = nodes[0].getblock(nodes[0].getblockhash( nodes[0].getblockcount()))['tx'] assert (txnidAClaim in last_block_txns) assert (txnidBClaim in last_block_txns) ftxB = nodes[1].filtertransactions() assert (ftxB[0]['confirmations'] == 1) assert (ftxB[0]['outputs'][0]['amount'] < 5.0 and ftxB[-1]['outputs'][0]['amount'] > 4.9) assert (isclose(ftxB[1]['outputs'][0]['amount'], -5.0)) # Test Refund expired initiate tx lockTime = int(time.time()) - 100000 # past locktime scriptInitiate2 = CreateAtomicSwapScript(payTo=pkh1_0, refundTo=pkh0_0, lockTime=lockTime, secretHash=secretAHash) p2sh_initiate = script_to_p2sh_part(scriptInitiate2) rawtxInitiate = nodes[0].createrawtransaction([], {p2sh_initiate: 6.0}) rawtxInitiate = nodes[0].fundrawtransaction(rawtxInitiate)['hex'] ro = nodes[0].signrawtransactionwithwallet(rawtxInitiate) assert (ro['complete'] == True) rawtxInitiate = ro['hex'] rawtx2refund = createRefundTx(nodes[0], rawtxInitiate, scriptInitiate2, lockTime, addrA_0, addrA_0) txnid2 = nodes[0].sendrawtransaction(rawtxInitiate) self.stakeBlocks(1) ro = nodes[0].getblockchaininfo() assert (ro['mediantime'] > lockTime) txnidrefund = nodes[0].sendrawtransaction(rawtx2refund) ftxA = nodes[0].filtertransactions() n = getIndexAtProperty(ftxA, 'txid', txnidrefund) assert (n > -1) assert (ftxA[n]['outputs'][0]['amount'] > 5.9 and ftxA[n]['outputs'][0]['amount'] < 6.0)
def run_test(self): nodes = self.nodes txnHashes = [] ro = nodes[0].extkeyimportmaster('abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb') assert(ro['account_id'] == 'aaaZf2qnNr5T7PWRmqgmusuu5ACnBcX2ev') assert(nodes[0].getwalletinfo()['total_balance'] == 100000) ro = nodes[1].extkeyimportmaster('drip fog service village program equip minute dentist series hawk crop sphere olympic lazy garbage segment fox library good alley steak jazz force inmate') sxAddrTo1 = nodes[1].getnewstealthaddress() assert(sxAddrTo1 == 'TetbYTGv5LiqyFiUD3a5HHbpSinQ9KiRYDGAMvRzPfz4RnHMbKGAwDr1fjLGJ5Eqg1XDwpeGyqWMiwdK3qM3zKWjzHNpaatdoHVzzA') ro = nodes[1].getaddressinfo(sxAddrTo1) assert(ro['ismine'] == True) assert(ro['isstealthaddress'] == True) assert(ro['account'] == 'ahL1QdHhzNCtZWJzv36ScfPipJP1cUzAD8') assert(ro['scan_path'] == "m/0'/0'") assert(ro['spend_path'] == "m/0'/1'") txnHash = nodes[0].sendtoaddress(sxAddrTo1, 1) txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[1], txnHash)) ro = nodes[1].listtransactions() assert(len(ro) == 1) assert(ro[0]['stealth_address'] == sxAddrTo1) assert(isclose(ro[0]['amount'], 1)) ro = nodes[1].getaddressinfo(ro[0]['address']) assert(ro['ismine'] == True) assert(ro['from_stealth_address'] == sxAddrTo1) # Test imported sx address ro = nodes[1].importstealthaddress('7pJLDnLxoYmkwpMNDX69dWGT7tuZ45LHgMajQDD8JrXb9LHmzfBA', '7uk8ELaUsop2r4vMg415wEGBfRd1MmY7JiXX7CRhwuwq5PaWXQ9N', 'importedAddr', '5', '0xaaaa') sxAddrTo2 = '32eEcCuGkGjP82BTF3kquiCDjZWmZiyhqe7C6isbv6MJZSKAeWNx5g436QuhGNc6DNYpboDm3yNiqYmTmkg76wYr5JCKgdEUPqLCWaMW' assert(ro['stealth_address'] == sxAddrTo2) ro = nodes[1].liststealthaddresses() sro = str(ro) assert(sxAddrTo1 in sro) assert(sxAddrTo2 in sro) txnHash = nodes[0].sendtoaddress(sxAddrTo2, 0.2) txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[1], txnHash)) ro = nodes[1].listtransactions() sxAddrTo3 = nodes[1].getnewstealthaddress() assert(sxAddrTo3 == 'TetcV5ZNzM6hT6Tz8Vc5t6FM74nojY8oFdeCnPr9Vyx6QNqrR7LKy87aZ1ytGGqBSAJ9CpWDj81pPwYPYHjg6Ks8GKXvGyLoBdTDYQ') txnHash = nodes[0].sendtoaddress(sxAddrTo3, 0.3, '', '', False, 'narration test') txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[1], txnHash)) ro = nodes[1].listtransactions() assert(ro[-1]['stealth_address'] == sxAddrTo3) assert(isclose(ro[-1]['amount'], 0.3)) assert('narration test' in str(ro[-1])) # - Test encrypted narrations on sent wtx (from sending nodes[0]) ro = nodes[0].listtransactions() assert('narration test' in str(ro[-1])) oRoot2 = nodes[2].mnemonic('new') assert('mnemonic' in oRoot2) ro = nodes[2].extkeyimportmaster(oRoot2['mnemonic']) assert('Success.' in ro['result']) sxAddrTo2_1 = nodes[2].getnewstealthaddress('lbl test 3 bits', '3') ro = nodes[2].importstealthaddress('7uk8ELaUsop2r4vMg415wEGBfRd1MmY7JiXX7CRhwuwq5PaWXQ9N', # secrets are backwards '7pJLDnLxoYmkwpMNDX69dWGT7tuZ45LHgMajQDD8JrXb9LHmzfBA', 'importedAddr', '9', '0xabcd') sxAddrTo2_2 = '9xFM875J9ApSymuT9Yuz6mqmy36JE1tNANGZmvS6hXFoQaV7ZLx8ZGjT2WULbuxwY4EsmNhHivLd4f8SRkxSjGjUED51SA4WqJRysUk9f' assert(ro['stealth_address'] == sxAddrTo2_2) nodes[2].encryptwallet('qwerty234') ro = nodes[2].walletpassphrase('qwerty234', 300) ro = nodes[2].reservebalance(True, 10000000) ro = nodes[2].walletlock() # Test send to locked wallet txnHash = nodes[0].sendtoaddress(sxAddrTo2_1, 0.4, '', '', False, 'narration test node2') txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[2], txnHash)) ro = nodes[2].listtransactions() assert(isclose(ro[-1]['amount'], 0.4)) assert('narration test node2' in str(ro[-1])) txnHash = nodes[0].sendtoaddress(sxAddrTo2_2, 0.5, '', '', False, 'test 5') txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[2], txnHash)) ro = nodes[2].listtransactions() assert(isclose(ro[-1]['amount'], 0.5)) assert('test 5' in str(ro[-1])) txnHash = nodes[0].sendtoaddress(sxAddrTo2_2, 0.6, '', '', False, 'test 6') txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[2], txnHash)) ro = nodes[2].listtransactions() assert(isclose(ro[-1]['amount'], 0.6)) assert('test 6' in str(ro[-1])) ro = nodes[2].walletpassphrase('qwerty234', 400) self.stakeBlocks(1) block1_hash = nodes[0].getblockhash(1) ro = nodes[0].getblock(block1_hash) for txnHash in txnHashes: assert(txnHash in ro['tx']) self.sync_all() ro = nodes[2].getwalletinfo() txnHash = nodes[2].sendtoaddress(sxAddrTo3, 1.4, '', '', False, 'node2 -> node1') txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[1], txnHash)) ro = nodes[1].listtransactions() assert(isclose(ro[-1]['amount'], 1.4)) assert('node2 -> node1' in str(ro[-1])) assert_raises_rpc_error(-8, 'Spend secret must be different to scan secret.', nodes[0].importstealthaddress, '57F59BA2F9D9146635380FA453E4EED7E44290F0AAAE657C300AB0E51184151E', '57F59BA2F9D9146635380FA453E4EED7E44290F0AAAE657C300AB0E51184151E', '', '9', '0xabcd', True) # Test bech32 encoding ro = nodes[0].importstealthaddress('57F59BA2F9D9146635380FA453E4EED7E44290F0AAAE657C300AB0E51184151E', 'F4708BD9B3D367F02EA6581AC446F12AA24350F1E0DEE309FACB561C2D81877A', 'importedAddr1b32', '9', '0xabcd', True) sx1_b32 = 'tps1qqpt67v3g652e5mvqv3hl60zkj3424l0chhvsc0ervrltujd7dgl6uspqfd2hf5dglxt285yp9d9h3nym39cdzdpr5ndcm940lhmg6z3tjuvzqqfe5qs2gep0t' assert(ro['stealth_address'] == sx1_b32) ro = nodes[0].getnewstealthaddress('importedAddr2b32', '', '', True) sx2_b32 = 'tps1qqpxdqs29p7sadu3fqpc808aw93a25k9zjy6f5hzgyf3vluy3n4f4ygpqwkkfhujgzgq83y55enleldy9lh7tkv6dmkaxjrjtyaswjcx3mjyyqqqhefkp7' assert(ro == sx2_b32) flat = json.dumps(nodes[0].filteraddresses()) assert(sx1_b32 in flat and sx2_b32 in flat) ro = nodes[1].createrawtransaction([], {sx1_b32:0.1}) ro = nodes[1].fundrawtransaction(ro) ro = nodes[1].signrawtransactionwithwallet(ro['hex']) assert(ro['complete'] == True) txnHash = nodes[1].sendrawtransaction(ro['hex']) txnHashes.append(txnHash) assert(self.wait_for_mempool(nodes[0], txnHash)) ro = nodes[0].filtertransactions({ 'use_bech32': True }) assert(ro[0]['outputs'][0]['stealth_address'] == sx1_b32) ro = nodes[0].derivefromstealthaddress(sx2_b32) assert(len(ro) == 4) assert(len(ro['pubkey']) == 66) assert(len(ro['ephemeral_pubkey']) == 66) recover = nodes[0].derivefromstealthaddress(sx2_b32, ro['ephemeral_pubkey']) assert(recover['pubkey'] == ro['pubkey']) assert(recover['ephemeral_pubkey'] == ro['ephemeral_pubkey']) assert(len(recover['privatekey']) > 0) replay = nodes[0].derivefromstealthaddress(sx2_b32, ro['ephemeral_privatekey']) assert(replay['pubkey'] == ro['pubkey']) assert(replay['ephemeral_pubkey'] == ro['ephemeral_pubkey']) self.log.info('Test v2 stealth address') sxAddrV2 = [] for i in range(6): sxAddrV2.append(nodes[1].getnewstealthaddress('addr v2 {}'.format(i), '0', '0', True, True)) # Import should recover both stealth addresses, despite only detecting txns for the second and sixth. nodes[0].sendtoaddress(sxAddrV2[1], 2.0) self.stakeBlocks(1) nodes[0].sendtoaddress(sxAddrV2[5], 2.0) self.stakeBlocks(1) self.log.info('Test rescan lookahead') nodes[1].createwallet('test_import') w_import = nodes[1].get_wallet_rpc('test_import') w_import.extkeyimportmaster('drip fog service village program equip minute dentist series hawk crop sphere olympic lazy garbage segment fox library good alley steak jazz force inmate') wi_info = w_import.getwalletinfo() w1 = nodes[1].get_wallet_rpc('') w1_info = w1.getwalletinfo() # Imported wallet should be missing imported sx addr assert(wi_info['txcount'] == w1_info['txcount'] - 1) wi_ls = w_import.liststealthaddresses() w1_ls = w1.liststealthaddresses() w1_ls_flat = self.dumpj(w1_ls) for sx in wi_ls[0]['Stealth Addresses']: assert(sx['Address'] in w1_ls_flat)
def run_test(self): nodes = self.nodes ro = nodes[0].extkeyimportmaster( 'abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb' ) assert (ro['account_id'] == 'aaaZf2qnNr5T7PWRmqgmusuu5ACnBcX2ev') assert (nodes[0].getwalletinfo()['total_balance'] == 100000) nodes[3].extkeyimportmaster( 'pact mammal barrel matrix local final lecture chunk wasp survey bid various book strong spread fall ozone daring like topple door fatigue limb olympic', '', 'true') nodes[3].getnewextaddress('lblExtTest') nodes[3].rescanblockchain() assert (nodes[3].getwalletinfo()['total_balance'] == 25000) txnHashes = [] nodes[1].extkeyimportmaster( 'drip fog service village program equip minute dentist series hawk crop sphere olympic lazy garbage segment fox library good alley steak jazz force inmate' ) sxAddrTo1_1 = nodes[1].getnewstealthaddress('lblsx11') assert ( sxAddrTo1_1 == 'TetbYTGv5LiqyFiUD3a5HHbpSinQ9KiRYDGAMvRzPfz4RnHMbKGAwDr1fjLGJ5Eqg1XDwpeGyqWMiwdK3qM3zKWjzHNpaatdoHVzzA' ) txnHash = nodes[0].sendparttoblind(sxAddrTo1_1, 3.4, '', '', False, 'node0 -> node1 p->b') txnHashes.append(txnHash) ro = nodes[0].listtransactions() assert (len(ro) == 10) assert (ro[9]['narration'] == 'node0 -> node1 p->b') ro = nodes[0].getwalletinfo() assert (isclose(ro['total_balance'], 99996.597968)) assert (self.wait_for_mempool(nodes[1], txnHash)) sync_mempools([nodes[0], nodes[1]]) ro = nodes[1].getwalletinfo() assert (isclose(ro['unconfirmed_blind'], 3.4)) ro = nodes[1].transactionblinds(txnHash) assert (len(ro) == 2) ro = nodes[1].listtransactions() assert (len(ro) == 2) assert (ro[1]['narration'] == 'node0 -> node1 p->b') self.stakeBlocks(2) nodes[2].extkeyimportmaster(nodes[2].mnemonic('new')['master']) sxAddrTo2_1 = nodes[2].getnewstealthaddress('lblsx21') txnHash3 = nodes[1].sendblindtoblind(sxAddrTo2_1, 0.2, '', '', False, 'node1 -> node2 b->b') ro = nodes[1].getwalletinfo() assert (ro['blind_balance'] < 3.2 and ro['blind_balance'] > 3.1) ro = nodes[1].listtransactions() assert (len(ro) == 3) fFound = False for e in ro: if e['category'] == 'send': assert (e['type'] == 'blind') assert (isclose(e['amount'], -0.2)) fFound = True assert (fFound) assert (self.wait_for_mempool(nodes[2], txnHash3)) ro = nodes[2].getwalletinfo() assert (isclose(ro['unconfirmed_blind'], 0.2)) ro = nodes[2].listtransactions() assert (len(ro) == 1) e = ro[0] assert (e['category'] == 'receive') assert (e['type'] == 'blind') assert (isclose(e['amount'], 0.2)) assert (e['stealth_address'] == sxAddrTo2_1) txnHash4 = nodes[1].sendblindtopart(sxAddrTo2_1, 0.5, '', '', False, 'node1 -> node2 b->p') ro = nodes[1].getwalletinfo() assert (ro['blind_balance'] < 2.7 and ro['blind_balance'] > 2.69) ro = nodes[1].listtransactions() assert (len(ro) == 4) fFound = False for e in ro: if e['category'] == 'send' and e['type'] == 'standard': assert (isclose(e['amount'], -0.5)) fFound = True assert (fFound) assert (self.wait_for_mempool(nodes[2], txnHash4)) ro = nodes[2].getwalletinfo() assert (isclose(ro['unconfirmed_balance'], 0.5)) assert (isclose(ro['unconfirmed_blind'], 0.2)) ro = nodes[2].listtransactions() assert (len(ro) == 2) sxAddrTo2_3 = nodes[2].getnewstealthaddress('n2 sx+prefix', '4', '0xaaaa') ro = nodes[2].validateaddress(sxAddrTo2_3) assert (ro['isvalid'] == True) assert (ro['isstealthaddress'] == True) assert (ro['prefix_num_bits'] == 4) assert (ro['prefix_bitfield'] == '0x000a') txnHash5 = nodes[0].sendparttoblind(sxAddrTo2_3, 0.5, '', '', False, 'node0 -> node2 p->b') assert (self.wait_for_mempool(nodes[2], txnHash5)) ro = nodes[2].listtransactions() assert (ro[-1]['txid'] == txnHash5) ro = nodes[0].getwalletinfo() # Some of the balance will have staked assert (isclose(ro['balance'] + ro['staked_balance'], 99996.09874074)) availableBalance = ro['balance'] # Check node0 can spend remaining coin addrTo0_2 = nodes[0].getnewaddress() txnHash2 = nodes[0].sendtoaddress(addrTo0_2, availableBalance, '', '', True, 'node0 spend remaining') txnHashes.append(txnHash2) nodes[0].syncwithvalidationinterfacequeue() assert (isclose(nodes[0].getwalletinfo()['total_balance'], 99996.09670674)) assert (isclose(nodes[1].getwalletinfo()['blind_balance'], 2.69580200)) unspent = nodes[2].listunspentblind(minconf=0) assert (len(unspent[0]['stealth_address'])) assert (len(unspent[0]['label'])) self.log.info('Test lockunspent') unspent = nodes[1].listunspentblind(minconf=0) assert (nodes[1].lockunspent(False, [unspent[0]]) == True) assert (len(nodes[1].listlockunspent()) == 1) assert (len(nodes[1].listunspentblind(minconf=0)) < len(unspent)) assert (nodes[1].lockunspent(True, [unspent[0]]) == True) assert (len(nodes[1].listunspentblind(minconf=0)) == len(unspent)) outputs = [ { 'address': sxAddrTo2_3, 'amount': 2.691068, 'subfee': True }, ] ro = nodes[1].sendtypeto('blind', 'part', outputs, 'comment_to', 'comment_from', 4, 64, True) feePerKB = (1000.0 / ro['bytes']) * float(ro['fee']) assert (feePerKB > 0.001 and feePerKB < 0.004) ro = nodes[1].sendtypeto('blind', 'blind', outputs, 'comment_to', 'comment_from', 4, 64, True) feePerKB = (1000.0 / ro['bytes']) * float(ro['fee']) assert (feePerKB > 0.001 and feePerKB < 0.004) nodes[1].sendtypeto('blind', 'part', outputs) try: ro = nodes[1].sendtypeto('blind', 'blind', outputs) raise AssertionError('Should have failed.') except JSONRPCException as e: assert ('Insufficient blinded funds' in e.error['message']) self.log.info( 'Test sending to normal addresses which the wallet knows a pubkey for' ) addrPlain = nodes[0].getnewaddress() addrLong = nodes[0].getnewaddress('', False, False, True) outputs = [{ 'address': addrPlain, 'amount': 1.0 }, { 'address': addrLong, 'amount': 1.0 }] nodes[0].sendtypeto('part', 'blind', outputs) self.log.info('Test sending all blind to blind') bal0 = nodes[0].getwalletinfo() assert (isclose(bal0['blind_balance'], 2.0)) outputs = [{ 'address': sxAddrTo1_1, 'amount': bal0['blind_balance'], 'subfee': True }] nodes[0].sendtypeto('blind', 'blind', outputs) self.sync_all() self.stakeBlocks(1, nStakeNode=3) self.log.info('Test sending all blind to part') bal1 = nodes[1].getwalletinfo() assert (isclose(bal1['blind_balance'], 2.002582)) outputs = [{ 'address': sxAddrTo1_1, 'amount': bal1['blind_balance'], 'subfee': True }] nodes[1].sendtypeto('blind', 'part', outputs) bal1 = nodes[1].getwalletinfo() assert (isclose(bal1['blind_balance'], 0.00000001)) ro = nodes[2].getblockstats(nodes[2].getblockchaininfo()['blocks']) assert (ro['height'] == 3) self.log.info('Test gettxoutsetinfobyscript') ro = nodes[0].gettxoutsetinfobyscript() assert (ro['height'] == 3) assert (ro['paytopubkeyhash']['num_blinded'] > 5)
def run_test(self): # Check that capricoinplus has been built with USB device enabled config = configparser.ConfigParser() if not self.options.configfile: self.options.configfile = os.path.dirname( __file__) + "/../config.ini" config.read_file(open(self.options.configfile)) if not config["components"].getboolean("ENABLE_USBDEVICE"): raise SkipTest( "capricoinplusd has not been built with usb device enabled.") nodes = self.nodes nodes[0].extkeyimportmaster( 'abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb' ) assert (nodes[0].getwalletinfo()['total_balance'] == 100000) ro = nodes[1].listdevices() assert (len(ro) == 1) assert (ro[0]['vendor'] == 'Debug') assert (ro[0]['product'] == 'Device') ro = nodes[1].getdeviceinfo() assert (ro['device'] == 'debug') ro = nodes[1].getdevicepublickey('0') assert (ro['address'] == 'praish9BVxVdhykpqBYEs6L65AQ7iKd9z1') assert (ro['path'] == "m/44'/1'/0'/0") ro = nodes[1].getdevicepublickey('0/1') assert (ro['address'] == 'peWvjy33QptC2Gz3ww7jTTLPjC2QJmifBR') assert (ro['path'] == "m/44'/1'/0'/0/1") ro = nodes[1].getdevicexpub("m/44'/1'/0'", "") assert ( ro == 'pparszKXPyRegWYwPacdPduNPNEryRbZDCAiSyo8oZYSsbTjc6FLP4TCPEX58kAeCB6YW9cSdR6fsbpeWDBTgjbkYjXCoD9CNoFVefbkg3exzpQE' ) message = 'This is just a test message' sig = nodes[1].devicesignmessage('0/1', message) assert (True == nodes[1].verifymessage( 'peWvjy33QptC2Gz3ww7jTTLPjC2QJmifBR', sig, message)) ro = nodes[1].initaccountfromdevice('test_acc') assert ( ro['extkey'] == 'pparszKXPyRegWYwPacdPduNPNEryRbZDCAiSyo8oZYSsbTjc6FLP4TCPEX58kAeCB6YW9cSdR6fsbpeWDBTgjbkYjXCoD9CNoFVefbkg3exzpQE' ) assert (ro['path'] == "m/44'/1'/0'") ro = nodes[1].extkey('list', 'true') assert (len(ro) == 1) assert (ro[0]['path'] == "m/44h/1h/0h") assert ( ro[0]['epkey'] == 'pparszKXPyRegWYwPacdPduNPNEryRbZDCAiSyo8oZYSsbTjc6FLP4TCPEX58kAeCB6YW9cSdR6fsbpeWDBTgjbkYjXCoD9CNoFVefbkg3exzpQE' ) assert (ro[0]['label'] == 'test_acc') assert (ro[0]['hardware_device'] == '0xffff 0x0001') ro = nodes[1].extkey('account') n = getIndexAtProperty(ro['chains'], 'use_type', 'stealth_spend') assert (n > -1) assert (ro['chains'][n]['path'] == "m/0h/444445h") addr1_0 = nodes[1].getnewaddress('lbl1_0') ro = nodes[1].filteraddresses() assert (len(ro) == 1) assert (ro[0]['path'] == 'm/0/0') assert (ro[0]['owned'] == 'true') assert (ro[0]['label'] == 'lbl1_0') va_addr1_0 = nodes[1].getaddressinfo(addr1_0) assert (va_addr1_0['ismine'] == True) assert (va_addr1_0['iswatchonly'] == False) assert (va_addr1_0['isondevice'] == True) assert (va_addr1_0['path'] == 'm/0/0') try: nodes[1].getnewstealthaddress() raise AssertionError('Should have failed.') except JSONRPCException as e: pass extaddr1_0 = nodes[1].getnewextaddress() txnid0 = nodes[0].sendtoaddress(addr1_0, 6) txnid1 = nodes[0].sendtoaddress(extaddr1_0, 6) self.stakeBlocks(1) block_txns = nodes[0].getblock(nodes[0].getblockhash( nodes[0].getblockcount()))['tx'] assert (txnid0 in block_txns) assert (txnid1 in block_txns) ro = nodes[1].getwalletinfo() assert (isclose(ro['balance'], 12.0)) addr0_0 = nodes[0].getnewaddress() hexRaw = nodes[1].createrawtransaction([], {addr0_0: 10}) hexFunded = nodes[1].fundrawtransaction(hexRaw)['hex'] txDecoded = nodes[1].decoderawtransaction(hexFunded) ro = nodes[1].devicesignrawtransaction(hexFunded) assert (ro['complete'] == True) txnid1 = nodes[1].sendrawtransaction(ro['hex']) self.sync_all() self.stakeBlocks(1) ro = nodes[1].devicesignrawtransaction(hexFunded) assert (ro['errors'][0]['error'] == 'Input not found or already spent') prevtxns = [] for vin in txDecoded['vin']: rtx = nodes[1].getrawtransaction(vin['txid'], True) prev_out = rtx['vout'][vin['vout']] prevtxns.append({ 'txid': vin['txid'], 'vout': vin['vout'], 'scriptPubKey': prev_out['scriptPubKey']['hex'], 'amount': prev_out['value'] }) ro = nodes[1].devicesignrawtransaction(hexFunded, prevtxns, ['0/0', '2/0']) assert (ro['complete'] == True) ro = nodes[1].listunspent() assert (ro[0]['ondevice'] == True) txnid2 = nodes[1].sendtoaddress(addr0_0, 0.1) self.sync_all() assert (nodes[0].filtertransactions()[0]['txid'] == txnid2) hwsxaddr = nodes[1].devicegetnewstealthaddress() assert ( hwsxaddr == 'tps1qqpdwu7gqjqz9s9wfek843akvkzvw0xq3tkzs93sj4ceq60cp54mvzgpqf4tp6d7h0nza2xe362am697dax24hcr33yxqwvq58l5cf6j6q5hkqqqgykgrc' ) hwsxaddr2 = nodes[1].devicegetnewstealthaddress( 'lbl2 4bits', '4', '0xaaaa', True) assert ( hwsxaddr2 == 'tps1qqpewyspjp93axk82zahx5xfjyprpvypfgnp95n9aynxxw3w0qs63acpq0s5z2rwk0raczg8jszl9qy5stncud76ahr5etn9hqmp30e3e86w2qqypgh9sgv0' ) ro = nodes[1].getaddressinfo(hwsxaddr2) assert (ro['prefix_num_bits'] == 4) assert (ro['prefix_bitfield'] == '0x000a') assert (ro['isondevice'] == True) ro = nodes[1].liststealthaddresses() assert (len(ro[0]['Stealth Addresses']) == 2) ro = nodes[1].filteraddresses() assert (len(ro) == 3) txnid3 = nodes[0].sendtoaddress(hwsxaddr, 0.1, '', '', False, 'test msg') self.stakeBlocks(1) ro = nodes[1].listtransactions() assert (len(ro) == 5) assert ('test msg' in self.dumpj(ro[4])) ro = nodes[1].listunspent() inputs = [] for output in ro: if output['txid'] == txnid3: inputs.append({'txid': txnid3, 'vout': output['vout']}) break assert (len(inputs) > 0) hexRaw = nodes[1].createrawtransaction(inputs, {addr0_0: 0.09}) ro = nodes[1].devicesignrawtransaction(hexRaw) assert (ro['complete'] == True) # import privkey in node2 rootkey = nodes[2].extkeyaltversion( 'xparFdrwJK7K2nfYzrkEqAKr5EcJNdY4c6ZNoLFFx1pMXQSQpo5MAufjogrS17RkqsLAijZJaBDHhG3G7SuJjtsTmRRTEKZDzGMnVCeX59cQCiR' ) ro = nodes[2].extkey('import', rootkey, 'master key', True) ro = nodes[2].extkey('setmaster', ro['id']) assert (ro['result'] == 'Success.') ro = nodes[2].extkey('deriveaccount', 'test account') ro = nodes[2].extkey('setdefaultaccount', ro['account']) assert (ro['result'] == 'Success.') ro = nodes[1].extkey('account') n = getIndexAtProperty(ro['chains'], 'use_type', 'stealth_spend') assert (n > -1) assert (ro['chains'][n]['path'] == "m/0h/444445h") addrtest = nodes[2].getnewaddress() ro = nodes[1].getdevicepublickey('0/0') assert (addrtest == ro['address']) addrtest = nodes[2].getnewstealthaddress('', '0', '', True, True) assert (addrtest == hwsxaddr) addrtest2 = nodes[2].getnewstealthaddress('lbl2 4bits', '4', '0xaaaa', True, True) assert (addrtest2 == hwsxaddr2) extaddr2_0 = nodes[2].getnewextaddress() assert (extaddr1_0 == extaddr2_0) # Ensure account matches after node restarts account1 = nodes[1].extkey('account') self.restart_node(1) account1_r = nodes[1].extkey('account') assert (json.dumps(account1) == json.dumps(account1_r)) # Test for coverage assert (nodes[1].promptunlockdevice()['sent'] is True) assert (nodes[1].unlockdevice('123')['unlocked'] is True) assert_raises_rpc_error( -8, 'Neither a pin nor a passphraseword was provided.', nodes[1].unlockdevice) assert ('complete' in nodes[1].devicebackup()) assert ('complete' in nodes[1].deviceloadmnemonic())