class ArmoryDTest(TiabTest): def removeFileList(self, fileList): for f in fileList: if os.path.exists(f): os.remove(f) def armoryDTestCallback(self, action, args): if action == REFRESH_ACTION: self.walletIsScanned = True def setUp(self): self.verifyBlockHeight() self.fileA = os.path.join(self.armoryHomeDir, 'armory_%s_.wallet' % TEST_WALLET_ID) self.fileB = os.path.join(self.armoryHomeDir, 'armory_%s_backup.wallet' % TEST_WALLET_ID) self.fileAupd = os.path.join(self.armoryHomeDir, 'armory_%s_backup_unsuccessful.wallet' % TEST_WALLET_ID) self.fileBupd = os.path.join(self.armoryHomeDir, 'armory_%s_update_unsuccessful.wallet' % TEST_WALLET_ID) self.removeFileList([self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # We need a controlled test, so we script the all the normally-random stuff self.privKey = SecureBinaryData('\xaa'*32) self.privKey2 = SecureBinaryData('\x33'*32) self.chainstr = SecureBinaryData('\xee'*32) theIV = SecureBinaryData(hex_to_binary('77'*16)) self.passphrase = SecureBinaryData('A self.passphrase') self.passphrase2 = SecureBinaryData('A new self.passphrase') #register a callback TheBDM.registerCppNotification(self.armoryDTestCallback) #flag to check on wallet scan status self.walletIsScanned = False #create the wallet self.wallet = PyBtcWallet().createNewWallet(withEncrypt=False, \ plainRootKey=self.privKey, \ chaincode=self.chainstr, \ IV=theIV, \ shortLabel=TEST_WALLET_NAME, \ longLabel=TEST_WALLET_DESCRIPTION, armoryHomeDir = self.armoryHomeDir) self.jsonServer = Armory_Json_Rpc_Server(self.wallet) #register it self.wallet.registerWallet() #wait on scan for 2 min then raise if the scan hasn't finished yet i = 0 while not self.walletIsScanned: time.sleep(0.5) i += 1 if i >= 60*4: raise RuntimeError("Timeout waiting for TheBDM to register the wallet.") def tearDown(self): TheBDM.unregisterCppNotification(self.armoryDTestCallback) self.wallet.unregisterWallet() self.removeFileList([self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # Can't test with actual transactions in this environment. See ARMORY-34. # This wallet has no txs # def testListunspent(self): # actualResult = self.jsonServer.jsonrpc_listunspent() # self.assertEqual(actualResult, []) def testImportprivkey(self): originalLength = len(self.wallet.linearAddr160List) self.jsonServer.jsonrpc_importprivkey(binary_to_hex(self.privKey2.toBinStr())) self.assertEqual(len(self.wallet.linearAddr160List), originalLength+1) def testGettxout(self): txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 0) self.assertEquals(txOut['value'],TX_ID1_OUTPUT0_VALUE) txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 1) self.assertEquals(txOut['value'],TX_ID1_OUTPUT1_VALUE) def testGetreceivedbyaddress(self): a160 = hash160(self.wallet.getNextUnusedAddress().binPublicKey65.toBinStr()) testAddr = hash160_to_addrStr(a160) result = self.jsonServer.jsonrpc_getreceivedbyaddress(testAddr) self.assertEqual(result, 0) def testGetrawtransaction(self): actualRawTx = self.jsonServer.jsonrpc_getrawtransaction(TX_ID1) pyTx = PyTx().unserialize(hex_to_binary(actualRawTx)) self.assertEquals(TX_ID1, binary_to_hex(pyTx.getHash(), BIGENDIAN)) def testBackupWallet(self): backupTestPath = os.path.join(self.armoryHomeDir, 'armory_%s_.wallet.backup.test' % TEST_WALLET_ID) # Remove backupTestPath in case it exists backupFileList = [backupTestPath, self.fileB] self.removeFileList(backupFileList) # Remove the backup test path that is to be created after tear down. self.addCleanup(self.removeFileList, backupFileList) self.jsonServer.jsonrpc_backupwallet(backupTestPath) self.assertTrue(os.path.exists(backupTestPath)) self.wallet.backupWalletFile() self.assertTrue(os.path.exists(self.fileB)) def testDecoderawtransaction(self): actualDD = self.jsonServer.jsonrpc_decoderawtransaction(RAW_TX1) # Test specific values pulled from bitcoin daemon's output for the test raw TX expectScriptStr = 'OP_DUP OP_HASH160 PUSHDATA(20) [62d978319c7d7ac6cceed722c3d08aa81b371012] OP_EQUALVERIFY OP_CHECKSIG' self.assertEqual(actualDD['locktime'], 0) self.assertEqual(actualDD['version'], 1) self.assertEqual(len(actualDD['vin']), 1) self.assertEqual(actualDD['vin'][0]['sequence'], 4294967295L) self.assertEqual(actualDD['vin'][0]['scriptSig']['hex'], '4830450220081341a4e803c7c8e64c3a3fd285dca34c9f7c71c4dfc2b576d761c5783ce735022100eea66ba382d00e628d86fc5bc1928a93765e26fd8252c4d01efe22147c12b91a01410458fec9d580b0c6842cae00aecd96e89af3ff56f5be49dae425046e64057e0f499acc35ec10e1b544e0f01072296c6fa60a68ea515e59d24ff794cf8923cd30f4') self.assertEqual(actualDD['vin'][0]['vout'], 1) self.assertEqual(actualDD['vin'][0]['txid'], '04b865ecf5fca3a56f6ce73a571a09a668f4b7aa5a7547a5f51fae08eadcdbb5') self.assertEqual(len(actualDD['vout']), 2) self.assertEqual(actualDD['vout'][0]['value'], 20.0) self.assertEqual(actualDD['vout'][0]['n'], 0) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['reqSigs'], 1) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['hex'], '76a91462d978319c7d7ac6cceed722c3d08aa81b37101288ac') self.assertEqual(actualDD['vout'][0]['scriptPubKey']['addresses'], ['mpXd2u8fPVYdL1Nf9bZ4EFnqhkNyghGLxL']) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['asm'], expectScriptStr) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['type'], 'Standard (PKH)') self.assertEqual(actualDD['vout'][1]['scriptPubKey']['type'], 'Standard (PKH)') def testDumpprivkey(self): testPrivKey = self.privKey.toBinStr() hash160 = convertKeyDataToAddress(testPrivKey) addr58 = hash160_to_addrStr(hash160) # Verify that a bogus addrss Raises InvalidBitcoinAddress Exception result = self.jsonServer.jsonrpc_dumpprivkey('bogus', 'hex') self.assertEqual(result['Error Type'],'InvalidBitcoinAddress') result = self.jsonServer.jsonrpc_dumpprivkey(addr58, 'hex') self.assertEqual(result['Error Type'],'PrivateKeyNotFound') # verify that the first private key can be found firstHash160 = self.wallet.getNextUnusedAddress().getAddr160() firstAddr58 = hash160_to_addrStr(firstHash160) actualPrivateKeyHex = self.jsonServer.jsonrpc_dumpprivkey(firstAddr58, \ 'hex') actualPrivateKeyB58 = self.jsonServer.jsonrpc_dumpprivkey(firstAddr58, \ 'base58') self.privKey = self.wallet.getAddrByHash160(firstHash160).serializePlainPrivateKey() expectedPrivateKeyHex = binary_to_hex(self.privKey) expectedPrivateKeyB58 = privKey_to_base58(self.privKey) self.assertEqual(actualPrivateKeyHex, expectedPrivateKeyHex) self.assertEqual(actualPrivateKeyB58, expectedPrivateKeyB58) # Verify that a locked wallet Raises WalletUnlockNeeded Exception kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.wallet.changeWalletEncryption( securePassphrase=self.passphrase ) self.wallet.lock() result = self.jsonServer.jsonrpc_dumpprivkey(addr58, 'hex') self.assertEqual(result['Error Type'],'WalletUnlockNeeded') def testEncryptwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) # Verify that a locked wallet Raises WalletUnlockNeeded Exception # self.assertRaises(WalletUnlockNeeded, self.jsonServer.jsonrpc_encryptwallet, PASSPHRASE1) result = self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) print result def testUnlockwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) self.jsonServer.jsonrpc_walletpassphrase(PASSPHRASE1, UNLOCK_TIMEOUT) self.assertFalse(self.wallet.isLocked) time.sleep(UNLOCK_TIMEOUT+1) self.wallet.checkWalletLockTimeout() self.assertTrue(self.wallet.isLocked) def testGetWalletInfo(self): wltInfo = self.jsonServer.jsonrpc_getwalletinfo() self.assertEqual(wltInfo['name'], TEST_WALLET_NAME) self.assertEqual(wltInfo['description'], TEST_WALLET_DESCRIPTION) self.assertEqual(wltInfo['balance'], AmountToJSON(self.wallet.getBalance('Spend'))) self.assertEqual(wltInfo['keypoolsize'], self.wallet.addrPoolSize) self.assertEqual(wltInfo['numaddrgen'], len(self.wallet.addrMap)) self.assertEqual(wltInfo['highestusedindex'], self.wallet.highestUsedChainIndex) # This should always return 0 balance # Need to create our own test net to test with balances def testGetBalance(self): for ballanceType in ['spendable','spend', 'unconf', \ 'unconfirmed', 'total', 'ultimate','unspent', 'full']: self.assertEqual(self.jsonServer.jsonrpc_getbalance(ballanceType), AmountToJSON(self.wallet.getBalance(ballanceType)))
class ArmoryDTest(TiabTest): def removeFileList(self, fileList): for f in fileList: if os.path.exists(f): os.remove(f) def armoryDTestCallback(self, action, args): if action == REFRESH_ACTION: self.walletIsScanned = True def setUp(self): self.verifyBlockHeight() self.fileA = os.path.join(self.armoryHomeDir, 'armory_%s_.wallet' % TEST_WALLET_ID) self.fileB = os.path.join(self.armoryHomeDir, 'armory_%s_backup.wallet' % TEST_WALLET_ID) self.fileAupd = os.path.join( self.armoryHomeDir, 'armory_%s_backup_unsuccessful.wallet' % TEST_WALLET_ID) self.fileBupd = os.path.join( self.armoryHomeDir, 'armory_%s_update_unsuccessful.wallet' % TEST_WALLET_ID) self.removeFileList( [self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # We need a controlled test, so we script the all the normally-random stuff self.privKey = SecureBinaryData('\xaa' * 32) self.privKey2 = SecureBinaryData('\x33' * 32) self.chainstr = SecureBinaryData('\xee' * 32) theIV = SecureBinaryData(hex_to_binary('77' * 16)) self.passphrase = SecureBinaryData('A self.passphrase') self.passphrase2 = SecureBinaryData('A new self.passphrase') #register a callback TheBDM.registerCppNotification(self.armoryDTestCallback) #flag to check on wallet scan status self.walletIsScanned = False #create the wallet self.wallet = PyBtcWallet().createNewWallet(withEncrypt=False, \ plainRootKey=self.privKey, \ chaincode=self.chainstr, \ IV=theIV, \ shortLabel=TEST_WALLET_NAME, \ longLabel=TEST_WALLET_DESCRIPTION, armoryHomeDir = self.armoryHomeDir) self.jsonServer = Armory_Json_Rpc_Server(self.wallet) #register it self.wallet.registerWallet() #wait on scan for 2 min then raise if the scan hasn't finished yet i = 0 while not self.walletIsScanned: time.sleep(0.5) i += 1 if i >= 60 * 4: raise RuntimeError( "Timeout waiting for TheBDM to register the wallet.") def tearDown(self): TheBDM.unregisterCppNotification(self.armoryDTestCallback) self.wallet.unregisterWallet() self.removeFileList( [self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # Can't test with actual transactions in this environment. See ARMORY-34. # This wallet has no txs # def testListunspent(self): # actualResult = self.jsonServer.jsonrpc_listunspent() # self.assertEqual(actualResult, []) def testImportprivkey(self): originalLength = len(self.wallet.linearAddr160List) self.jsonServer.jsonrpc_importprivkey( binary_to_hex(self.privKey2.toBinStr())) self.assertEqual(len(self.wallet.linearAddr160List), originalLength + 1) # Requires Supernode @SkipTest def testGettxout(self): txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 0) self.assertEquals(txOut['value'], TX_ID1_OUTPUT0_VALUE) txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 1) self.assertEquals(txOut['value'], TX_ID1_OUTPUT1_VALUE) def testGetreceivedbyaddress(self): a160 = hash160( self.wallet.getNextUnusedAddress().binPublicKey65.toBinStr()) testAddr = hash160_to_addrStr(a160) result = self.jsonServer.jsonrpc_getreceivedbyaddress(testAddr) self.assertEqual(result, 0) # Requires Supernode @SkipTest def testGetrawtransaction(self): actualRawTx = self.jsonServer.jsonrpc_getrawtransaction(TX_ID1) pyTx = PyTx().unserialize(hex_to_binary(actualRawTx)) self.assertEquals(TX_ID1, binary_to_hex(pyTx.getHash(), BIGENDIAN)) def testBackupWallet(self): backupTestPath = os.path.join( self.armoryHomeDir, 'armory_%s_.wallet.backup.test' % TEST_WALLET_ID) # Remove backupTestPath in case it exists backupFileList = [backupTestPath, self.fileB] self.removeFileList(backupFileList) # Remove the backup test path that is to be created after tear down. self.addCleanup(self.removeFileList, backupFileList) self.jsonServer.jsonrpc_backupwallet(backupTestPath) self.assertTrue(os.path.exists(backupTestPath)) self.wallet.backupWalletFile() self.assertTrue(os.path.exists(self.fileB)) def testDecoderawtransaction(self): actualDD = self.jsonServer.jsonrpc_decoderawtransaction(RAW_TX1) # Test specific values pulled from bitcoin daemon's output for the test raw TX expectScriptStr = 'OP_DUP OP_HASH160 PUSHDATA(20) [62d978319c7d7ac6cceed722c3d08aa81b371012] OP_EQUALVERIFY OP_CHECKSIG' self.assertEqual(actualDD['locktime'], 0) self.assertEqual(actualDD['version'], 1) self.assertEqual(len(actualDD['vin']), 1) self.assertEqual(actualDD['vin'][0]['sequence'], 4294967295L) self.assertEqual( actualDD['vin'][0]['scriptSig']['hex'], '4830450220081341a4e803c7c8e64c3a3fd285dca34c9f7c71c4dfc2b576d761c5783ce735022100eea66ba382d00e628d86fc5bc1928a93765e26fd8252c4d01efe22147c12b91a01410458fec9d580b0c6842cae00aecd96e89af3ff56f5be49dae425046e64057e0f499acc35ec10e1b544e0f01072296c6fa60a68ea515e59d24ff794cf8923cd30f4' ) self.assertEqual(actualDD['vin'][0]['vout'], 1) self.assertEqual( actualDD['vin'][0]['txid'], '04b865ecf5fca3a56f6ce73a571a09a668f4b7aa5a7547a5f51fae08eadcdbb5') self.assertEqual(len(actualDD['vout']), 2) self.assertEqual(actualDD['vout'][0]['value'], 20.0) self.assertEqual(actualDD['vout'][0]['n'], 0) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['reqSigs'], 1) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['hex'], '76a91462d978319c7d7ac6cceed722c3d08aa81b37101288ac') self.assertEqual(actualDD['vout'][0]['scriptPubKey']['addresses'], ['mpXd2u8fPVYdL1Nf9bZ4EFnqhkNyghGLxL']) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['asm'], expectScriptStr) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['type'], 'Standard (PKH)') self.assertEqual(actualDD['vout'][1]['scriptPubKey']['type'], 'Standard (PKH)') def testDumpprivkey(self): testPrivKey = self.privKey.toBinStr() hash160 = convertKeyDataToAddress(testPrivKey) addr58 = hash160_to_addrStr(hash160) # Verify that a bogus addrss Raises InvalidBitcoinAddress Exception result = self.jsonServer.jsonrpc_dumpprivkey('bogus', 'hex') self.assertEqual(result['Error Type'], 'InvalidBitcoinAddress') result = self.jsonServer.jsonrpc_dumpprivkey(addr58, 'hex') self.assertEqual(result['Error Type'], 'PrivateKeyNotFound') # verify that the first private key can be found firstHash160 = self.wallet.getNextUnusedAddress().getAddr160() firstAddr58 = hash160_to_addrStr(firstHash160) actualPrivateKeyHex = self.jsonServer.jsonrpc_dumpprivkey(firstAddr58, \ 'hex') actualPrivateKeyB58 = self.jsonServer.jsonrpc_dumpprivkey(firstAddr58, \ 'base58') self.privKey = self.wallet.getAddrByHash160( firstHash160).serializePlainPrivateKey() expectedPrivateKeyHex = binary_to_hex(self.privKey) expectedPrivateKeyB58 = privKey_to_base58(self.privKey) self.assertEqual(actualPrivateKeyHex, expectedPrivateKeyHex) self.assertEqual(actualPrivateKeyB58, expectedPrivateKeyB58) # Verify that a locked wallet Raises WalletUnlockNeeded Exception kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.wallet.changeWalletEncryption(securePassphrase=self.passphrase) self.wallet.lock() result = self.jsonServer.jsonrpc_dumpprivkey(addr58, 'hex') self.assertEqual(result['Error Type'], 'WalletUnlockNeeded') def testEncryptwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) # Verify that a locked wallet Raises WalletUnlockNeeded Exception # self.assertRaises(WalletUnlockNeeded, self.jsonServer.jsonrpc_encryptwallet, PASSPHRASE1) result = self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) print result def testUnlockwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) self.jsonServer.jsonrpc_walletpassphrase(PASSPHRASE1, UNLOCK_TIMEOUT) self.assertFalse(self.wallet.isLocked) time.sleep(UNLOCK_TIMEOUT + 1) self.wallet.checkWalletLockTimeout() self.assertTrue(self.wallet.isLocked) def testGetWalletInfo(self): wltInfo = self.jsonServer.jsonrpc_getwalletinfo() self.assertEqual(wltInfo['name'], TEST_WALLET_NAME) self.assertEqual(wltInfo['description'], TEST_WALLET_DESCRIPTION) self.assertEqual(wltInfo['balance'], AmountToJSON(self.wallet.getBalance('Spend'))) self.assertEqual(wltInfo['keypoolsize'], self.wallet.addrPoolSize) self.assertEqual(wltInfo['numaddrgen'], len(self.wallet.addrMap)) self.assertEqual(wltInfo['highestusedindex'], self.wallet.highestUsedChainIndex) # This should always return 0 balance # Need to create our own test net to test with balances def testGetBalance(self): for ballanceType in ['spendable','spend', 'unconf', \ 'unconfirmed', 'total', 'ultimate','unspent', 'full']: self.assertEqual( self.jsonServer.jsonrpc_getbalance(ballanceType), AmountToJSON(self.wallet.getBalance(ballanceType)))
class ArmoryDTiabTest(TiabTest): def armoryDTiabTestCallback(self, action, args): if action == REFRESH_ACTION: for wltID in args: print wltID if wltID in self.wltIDs: self.numberOfWalletsScanned += 1 def setUp(self): self.verifyBlockHeight() # Load the primary file from the test net in a box self.fileA = os.path.join(self.tiab.tiabDirectory, 'tiab', 'armory', \ 'armory_%s_.wallet' % FIRST_WLT_NAME) self.wltA = PyBtcWallet().readWalletFile(self.fileA) self.fileB = os.path.join(self.tiab.tiabDirectory, 'tiab', 'armory', \ 'armory_%s_.wallet' % SECOND_WLT_NAME) self.wltB = PyBtcWallet().readWalletFile(self.fileB) self.fileC = os.path.join(self.tiab.tiabDirectory, 'tiab', 'armory', \ 'armory_%s_.wallet' % THIRD_WLT_NAME) self.wltC = PyBtcWallet().readWalletFile(self.fileC) self.jsonServer = Armory_Json_Rpc_Server(self.wltA, \ inWltMap={SECOND_WLT_NAME : self.wltB, \ THIRD_WLT_NAME : self.wltC}, \ armoryHomeDir=os.path.join(self.tiab.tiabDirectory, \ 'tiab','armory')) self.wltIDs = [self.wltA.uniqueIDB58, self.wltB.uniqueIDB58, self.wltC.uniqueIDB58] #register a callback TheBDM.registerCppNotification(self.armoryDTiabTestCallback) #flag to check on wallet scan status self.numberOfWalletsScanned = 0 self.wltA.registerWallet() time.sleep(0.5) self.wltB.registerWallet() time.sleep(0.5) self.wltC.registerWallet() time.sleep(0.5) #wait on scan for 20sec then raise if the scan hasn't finished yet i = 0 while self.numberOfWalletsScanned < 3: time.sleep(0.5) i += 1 if i >= 40: raise RuntimeError("self.numberOfWalletsScanned = %d" % self.numberOfWalletsScanned) def tearDown(self): TheBDM.unregisterCppNotification(self.armoryDTiabTestCallback) self.wltA.unregisterWallet() self.wltB.unregisterWallet() self.wltC.unregisterWallet() self.resetWalletFiles() def testActiveWallet(self): self.jsonServer.jsonrpc_setactivewallet(FIRST_WLT_NAME) result = self.jsonServer.jsonrpc_getactivewallet() self.assertEqual(result, FIRST_WLT_NAME) bogusResult = self.jsonServer.jsonrpc_setactivewallet('bogus wallet name') self.assertTrue('does not exist' in bogusResult) # Tests all of the address meta data functions at once def testAddressMetaData(self): testInput = {TIAB_WLT_1_ADDR_1: {'chain': 5, 'index': 2}, TIAB_WLT_1_ADDR_2: {'CrazyField': 'what', '1': 1, '2': 2}} self.jsonServer.jsonrpc_setaddressmetadata(testInput) testOutput1=self.jsonServer.jsonrpc_getaddressmetadata() self.assertEqual(testOutput1, testInput) self.jsonServer.jsonrpc_clearaddressmetadata() testOutput2=self.jsonServer.jsonrpc_getaddressmetadata() self.assertEqual(testOutput2, {}) def testListloadedwallets(self): result = self.jsonServer.jsonrpc_listloadedwallets() self.assertEqual(len(result.keys()), 3) self.assertTrue(FIRST_WLT_NAME in result.values()) self.assertTrue(SECOND_WLT_NAME in result.values()) self.assertTrue(THIRD_WLT_NAME in result.values()) def getPrivateKey(self, address): hash160 = addrStr_to_hash160(address)[1] if self.wltA.isLocked: self.wltA.unlock(securePassphrase=SecureBinaryData(PASSPHRASE1), tempKeyLifetime=1000000) return self.wltA.addrMap[hash160].binPrivKey32_Plain.toBinStr() # Test Create lockbox and list loaded lockbox at the same time. # Also test set and get active lockbox. def testLockboxMethods(self): self.assertEqual(self.jsonServer.jsonrpc_getactivelockbox(), None) addrFromFirstWlt = self.wltA.peekNextUnusedAddr().getPubKey().toHexStr() addrFromSecondWlt = self.wltB.peekNextUnusedAddr().getPubKey().toHexStr() addrFromThirdWlt = self.wltC.peekNextUnusedAddr().getPubKey().toHexStr() # This test should succeed. actualResult1 = self.jsonServer.jsonrpc_createlockbox(2, 3, \ addrFromFirstWlt, \ SECOND_WLT_NAME, \ THIRD_WLT_NAME) self.assertTrue(TWO_OF_THREE_LB_NAME in actualResult1.values()) # This test should fail because the first createlockbox() used the 2nd & # 3rd addresses. actualResult2 = self.jsonServer.jsonrpc_createlockbox(2, 3, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt) self.assertTrue(TWO_OF_THREE_LB_NAME in actualResult2['Error']) # This test should succeed. actualResult3 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromSecondWlt, \ addrFromThirdWlt) self.assertEqual(TWO_OF_TWO_LB_NAME, actualResult3['id']) listResult3 = self.jsonServer.jsonrpc_listloadedlockboxes() self.assertEqual(len(listResult3.keys()), 2) self.assertTrue(TWO_OF_TWO_LB_NAME in listResult3.values()) # This test should fail because of a bad wallet name. actualResult4 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_WLT_NAME) self.assertTrue(BAD_WLT_NAME in actualResult4['Error']) # This test should fail because of a malformed, uncompressed public key. actualResult5 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_PK_UNCOMP_1) self.assertTrue(BAD_PK_UNCOMP_1 in actualResult5['Error']) # This test should fail because of a malformed, compressed public key. actualResult6 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_PK_COMP_1) self.assertTrue(BAD_PK_COMP_1 in actualResult6['Error']) # This test should fail due to a compressed public key being used. foundUncompAddr = False actualResult7 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ GOOD_PK_COMP_1) self.assertTrue(GOOD_PK_COMP_1 in actualResult7['Error']) # This test should fail due to a malformed public key (incorrect length). actualResult8 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_PK) self.assertTrue(BAD_PK in actualResult8['Error']) # These tests should fail for various reasons related to the # of inputs. actualResult09 = self.jsonServer.jsonrpc_createlockbox(3, 2, \ addrFromFirstWlt, \ addrFromThirdWlt) self.assertTrue(ERRSTR09 in actualResult09['Error']) actualResult10 = self.jsonServer.jsonrpc_createlockbox(8, 8, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt, \ FIRST_WLT_NAME, \ SECOND_WLT_NAME, \ THIRD_WLT_NAME, \ GOOD_PK_UNCOMP_1, \ GOOD_PK_UNCOMP_2) self.assertTrue(ERRSTR10 in actualResult10['Error']) actualResult11 = self.jsonServer.jsonrpc_createlockbox(1, 8, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt, \ FIRST_WLT_NAME, \ SECOND_WLT_NAME, \ THIRD_WLT_NAME, \ GOOD_PK_UNCOMP_1, \ GOOD_PK_UNCOMP_2) self.assertTrue(ERRSTR11 in actualResult11['Error']) actualResult12 = self.jsonServer.jsonrpc_createlockbox(1, 4) self.assertTrue(ERRSTR12 in actualResult12['Error']) actualResult13 = self.jsonServer.jsonrpc_createlockbox(1, 2, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt) self.assertTrue(ERRSTR13 in actualResult13['Error']) actualResult14 = self.jsonServer.jsonrpc_createlockbox(1, 2, \ addrFromFirstWlt) self.assertTrue(ERRSTR14 in actualResult14['Error']) # These tests should succeed. self.jsonServer.jsonrpc_setactivelockbox(TWO_OF_TWO_LB_NAME) self.assertEqual(self.jsonServer.jsonrpc_getactivelockbox(), \ TWO_OF_TWO_LB_NAME) self.jsonServer.jsonrpc_setactivelockbox(TWO_OF_THREE_LB_NAME) self.assertEqual(self.jsonServer.jsonrpc_getactivelockbox(), \ TWO_OF_THREE_LB_NAME) def testVerifysignature(self): clearSignMessage = ASv1CS(self.getPrivateKey(TIAB_WLT_1_ADDR_1), \ TEST_MESSAGE) inMsg = '\"' + clearSignMessage + '\"' result = self.jsonServer.jsonrpc_verifysignature(inMsg) self.assertEqual(result['message'], TEST_MESSAGE) self.assertEqual(result['address'], TIAB_WLT_1_ADDR_1) # Requires Supernode @SkipTest def testReceivedfromsigner(self): clearSignMessage2 = ASv1CS(self.getPrivateKey(TIAB_WLT_1_ADDR_3), \ TEST_MESSAGE) inMsg2 = '\"' + clearSignMessage2 + '\"' result2 = self.jsonServer.jsonrpc_getreceivedfromsigner(inMsg2) self.assertEqual(result2['message'], TEST_MESSAGE) self.assertEqual(result2['amount'], 0) # Requires Supernode @SkipTest def testReceivedfromaddress(self): result = self.jsonServer.jsonrpc_getreceivedfromaddress(TIAB_WLT_3_ADDR_3) self.assertEqual(result, 0) result = self.jsonServer.jsonrpc_getreceivedfromaddress(TIAB_WLT_1_ADDR_2) self.assertEqual(result, EXPECTED_RECEIVED_FROM_TIAB_WLT_1_ADDR_2) def testGettransaction(self): tx = self.jsonServer.jsonrpc_gettransaction('db0ee46beff3a61f38bfc563f92c11449ed57c3d7d5cd5aafbe0114e5a9ceee4') self.assertEqual(tx, {'category': 'send', 'inputs': [{'fromtxid': '04b865ecf5fca3a56f6ce73a571a09a668f4b7aa5a7547a5f51fae08eadcdbb5', 'ismine': True, 'fromtxindex': 1, 'value': 1000.0, 'address': 'mtZ2d1jFZ9YNp3Ku5Fb2u8Tfu3RgimBHAD'}], 'direction': 'send', 'fee': 0.0001, 'totalinputs': 1000.0, 'outputs': [{'address': 'mpXd2u8fPVYdL1Nf9bZ4EFnqhkNyghGLxL', 'value': 20.0, 'ismine': False}, {'address': 'mgLjhTCUtbeLPP9fDkBnG8oztWgJaXZQjn', 'value': 979.9999, 'ismine': True}], 'txid': 'db0ee46beff3a61f38bfc563f92c11449ed57c3d7d5cd5aafbe0114e5a9ceee4', 'confirmations': 10, 'orderinblock': 1, 'mainbranch': True, 'numtxin': 1, 'numtxout': 2, 'netdiff': -20.0001, 'infomissing': False}) def testGetblock(self): block = self.jsonServer.jsonrpc_getblock('0000000064a1ad1f15981a713a6ef08fd98f69854c781dc7b8789cc5f678e01f') # This method is broken in a couple ways. # For no just verify that raw transaction is correct self.assertEqual(block['rawheader'], '02000000d8778a50d43d3e02c4c20bdd0ed97077a3c4bef3e86ce58975f6f43a00000000d25912cfc67228748494d421512c7a6cc31668fa82b72265261558802a89f4c2e0350153ffff001d10bcc285',) def testGetinfo(self): info = self.jsonServer.jsonrpc_getarmorydinfo() self.assertEqual(info['blocks'], TOP_TIAB_BLOCK) self.assertEqual(info['bdmstate'], BDM_BLOCKCHAIN_READY) self.assertEqual(info['walletversionstr'], '1.35') self.assertEqual(info['difficulty'], 1.0) self.assertEqual(info['balance'], FIRST_WLT_BALANCE) def testListtransactions(self): #takes a history page count now, not an amount of transactions to return txList = self.jsonServer.jsonrpc_listtransactions(0) self.assertTrue(len(txList)>10) self.assertEqual(txList[0], {'blockhash': '0000000064a1ad1f15981a713a6ef08fd98f69854c781dc7b8789cc5f678e01f', 'blockindex': 1, 'confirmations': 31, 'address': 'mtZ2d1jFZ9YNp3Ku5Fb2u8Tfu3RgimBHAD', 'category': 'receive', 'account': '', 'txid': '04b865ecf5fca3a56f6ce73a571a09a668f4b7aa5a7547a5f51fae08eadcdbb5', 'blocktime': 1392588256, 'amount': 1000.0, 'timereceived': 1392588256, 'time': 1392588256}) def testGetledgersimple(self): ledger = self.jsonServer.jsonrpc_getledgersimple(FIRST_WLT_NAME) self.assertTrue(len(ledger)>4) amountList = [row['amount'] for row in ledger] expectedAmountList = [20.0, 6.0, 10.0, 0.8, 30.0] self.assertEqual(amountList[:5], expectedAmountList) def testGetledger(self): ledger = self.jsonServer.jsonrpc_getledger(FIRST_WLT_NAME) self.assertTrue(len(ledger)>6) amountList = [row['amount'] for row in ledger] #expectedAmountList = [1000.0, 20.0, 30.0, 0.8, 10.0, 6.0, 20.0] expectedAmountList = [20.0, 6.0, 10.0, 0.8, 30.0, 20.0, 1000.0] self.assertEqual(amountList, expectedAmountList) self.assertEqual(ledger[0]['direction'], 'receive') self.assertEqual(len(ledger[0]['recipme']), 1) self.assertEqual(ledger[0]['recipme'][0]['amount'], 20.0) self.assertEqual(len(ledger[0]['recipother']), 1) self.assertEqual(ledger[0]['recipother'][0]['amount'], 0.8998) self.assertEqual(len(ledger[0]['senderme']), 0) self.assertEqual(ledger[0]['senderother'][0]['amount'], 11.8999) self.assertEqual(ledger[5]['direction'], 'send') self.assertEqual(len(ledger[5]['senderother']), 0) self.assertEqual(len(ledger[5]['senderme']), 1) self.assertEqual(ledger[5]['senderme'][0]['amount'], 1000.0) def testSendtoaddress(self): # Send 1 BTC serializedUnsignedTx = \ self.jsonServer.jsonrpc_createustxtoaddress(TIAB_WLT_3_ADDR_3, \ BTC_TO_SEND) unsignedTx = UnsignedTransaction().unserializeAscii(serializedUnsignedTx) # Should have 2 txouts to TIAB_WLT_3_ADDR_3 and the change self.assertEqual(len(unsignedTx.decorTxOuts), 2) foundTxOut = False for txout in unsignedTx.decorTxOuts: if script_to_addrStr(txout.binScript) == TIAB_WLT_3_ADDR_3: self.assertEqual(txout.value, JSONtoAmount(BTC_TO_SEND)) foundTxOut = True self.assertTrue(foundTxOut) # Test two paths through signing method and make sure they are equal # Wallets in the TIAB start out unencrypted f = open(TX_FILENAME, 'w') f.write(serializedUnsignedTx) f.close() serializedSignedTxUnencrypted = \ self.jsonServer.jsonrpc_signasciitransaction(TX_FILENAME) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.jsonServer.jsonrpc_walletpassphrase(PASSPHRASE1) serializedSignedTxEncrypted = \ self.jsonServer.jsonrpc_signasciitransaction(TX_FILENAME) # Other tests expect wallet to be unencrypted self.wltA.unlock(securePassphrase=SecureBinaryData(PASSPHRASE1), tempKeyLifetime=1000000) self.wltA.changeWalletEncryption() signedTxUnencrypted = UnsignedTransaction().unserializeAscii(serializedSignedTxUnencrypted) signedTxEncrypted = UnsignedTransaction().unserializeAscii(serializedSignedTxEncrypted) # check number of outputs 1 Btc goes to a single output and the other goes to change self.assertEqual(len(signedTxUnencrypted.decorTxOuts), 2) self.assertEqual(len(signedTxEncrypted.decorTxOuts), 2) self.assertEqual(signedTxUnencrypted.asciiID, signedTxEncrypted.asciiID) self.assertTrue(JSONtoAmount(BTC_TO_SEND) in [signedTxEncrypted.decorTxOuts[0].value, signedTxEncrypted.decorTxOuts[1].value]) self.assertTrue(JSONtoAmount(BTC_TO_SEND) in [signedTxUnencrypted.decorTxOuts[0].value, signedTxUnencrypted.decorTxOuts[1].value]) f = open(TX_FILENAME, 'w') f.write(signedTxEncrypted.serializeAscii()) f.close() txHexToBroadcast = self.jsonServer.jsonrpc_gethextxtobroadcast(TX_FILENAME) finalPyTx = PyTx().unserialize(hex_to_binary(txHexToBroadcast)) self.assertEqual(len(finalPyTx.outputs), 2) self.assertTrue(JSONtoAmount(BTC_TO_SEND) in [finalPyTx.outputs[0].value, finalPyTx.outputs[1].value]) def testSendmany(self): # Send 1 BTC serializedUnsignedTx = \ self.jsonServer.jsonrpc_createustxformany(None, ','.join([TIAB_WLT_3_ADDR_2, str(BTC_TO_SEND)]), \ ','.join([TIAB_WLT_3_ADDR_3, str(BTC_TO_SEND)])) unsignedTx = UnsignedTransaction().unserializeAscii(serializedUnsignedTx) # Should have 2 txouts to TIAB_WLT_3_ADDR_3 and the change self.assertEqual(len(unsignedTx.decorTxOuts), 3) txOutsFound = 0 for txout in unsignedTx.decorTxOuts: if script_to_addrStr(txout.binScript) in [TIAB_WLT_3_ADDR_2, TIAB_WLT_3_ADDR_3]: self.assertEqual(txout.value, JSONtoAmount(BTC_TO_SEND)) txOutsFound += 1 self.assertEqual(txOutsFound, 2) def testListUnspent(self): actualResult = self.jsonServer.jsonrpc_listunspent() tx1Found = False tx5Found = False for i in range(len(actualResult)): if actualResult[i]['txid'] == EXPECTED_UNSPENT_TX1_HEX: self.assertEqual(actualResult[i]['amount'], \ EXPECTED_UNSPENT_TX1_BAL) self.assertEqual(actualResult[i]['confirmations'], \ EXPECTED_UNSPENT_TX1_CONF) self.assertEqual(actualResult[i]['priority'], \ EXPECTED_UNSPENT_TX1_PRI) tx1Found = True elif actualResult[i]['txid'] == EXPECTED_UNSPENT_TX5_HEX: self.assertEqual(actualResult[i]['amount'], \ EXPECTED_UNSPENT_TX5_BAL) self.assertEqual(actualResult[i]['confirmations'], \ EXPECTED_UNSPENT_TX5_CONF) self.assertEqual(actualResult[i]['priority'], \ EXPECTED_UNSPENT_TX5_PRI) tx5Found = True self.assertTrue(tx1Found) self.assertTrue(tx5Found) def testListAddrUnspent(self): totStr = '%s,%s' % (TIAB_WLT_1_ADDR_3, TIAB_WLT_1_ADDR_8) actualResult = self.jsonServer.jsonrpc_listaddrunspent(totStr) self.assertEqual(actualResult['addrbalance'][TIAB_WLT_1_ADDR_3], \ TIAB_WLT_1_PK_UTXO_BAL_3) self.assertEqual(actualResult['addrbalance'][TIAB_WLT_1_ADDR_8], \ TIAB_WLT_1_PK_UTXO_BAL_8) # NB: Ideally, the TAB asserts would be against addresses with multiple # UTXOs. As is, this test case works but could be better. self.assertEqual(actualResult['totalbalance'], TIAB_WLT_1_PK_UTXO_BAL_3 + TIAB_WLT_1_PK_UTXO_BAL_8 ) self.assertEqual(actualResult['numutxo'], 2) def testGetNewAddress(self): actualResult = self.jsonServer.jsonrpc_getnewaddress() self.assertEqual(actualResult, EXPECTED_TIAB_NEXT_ADDR) def testGetBalance(self): balances = {'spendable' : FIRST_WLT_BALANCE, \ 'spend' : FIRST_WLT_BALANCE, \ 'unconf' : 0, \ 'unconfirmed' : 0, \ 'total' : FIRST_WLT_BALANCE, \ 'ultimate' : FIRST_WLT_BALANCE, \ 'unspent' : FIRST_WLT_BALANCE, \ 'full' : FIRST_WLT_BALANCE} for balanceType in balances.keys(): result = self.jsonServer.jsonrpc_getbalance(balanceType) self.assertEqual(result, AmountToJSON(self.wltA.getBalance(balanceType)))
class ArmoryDTiabTest(TiabTest): def armoryDTiabTestCallback(self, action, args): if action == REFRESH_ACTION: for wltID in args: print wltID if wltID in self.wltIDs: self.numberOfWalletsScanned += 1 def setUp(self): self.verifyBlockHeight() # Load the primary file from the test net in a box self.fileA = os.path.join(self.tiab.tiabDirectory, 'tiab', 'armory', \ 'armory_%s_.wallet' % FIRST_WLT_NAME) self.wltA = PyBtcWallet().readWalletFile(self.fileA) self.fileB = os.path.join(self.tiab.tiabDirectory, 'tiab', 'armory', \ 'armory_%s_.wallet' % SECOND_WLT_NAME) self.wltB = PyBtcWallet().readWalletFile(self.fileB) self.fileC = os.path.join(self.tiab.tiabDirectory, 'tiab', 'armory', \ 'armory_%s_.wallet' % THIRD_WLT_NAME) self.wltC = PyBtcWallet().readWalletFile(self.fileC) self.jsonServer = Armory_Json_Rpc_Server(self.wltA, \ inWltMap={SECOND_WLT_NAME : self.wltB, \ THIRD_WLT_NAME : self.wltC}, \ armoryHomeDir=os.path.join(self.tiab.tiabDirectory, \ 'tiab','armory')) self.wltIDs = [ self.wltA.uniqueIDB58, self.wltB.uniqueIDB58, self.wltC.uniqueIDB58 ] #register a callback TheBDM.registerCppNotification(self.armoryDTiabTestCallback) #flag to check on wallet scan status self.numberOfWalletsScanned = 0 self.wltA.registerWallet() time.sleep(0.5) self.wltB.registerWallet() time.sleep(0.5) self.wltC.registerWallet() time.sleep(0.5) #wait on scan for 20sec then raise if the scan hasn't finished yet i = 0 while self.numberOfWalletsScanned < 3: time.sleep(0.5) i += 1 if i >= 40: raise RuntimeError("self.numberOfWalletsScanned = %d" % self.numberOfWalletsScanned) def tearDown(self): TheBDM.unregisterCppNotification(self.armoryDTiabTestCallback) self.wltA.unregisterWallet() self.wltB.unregisterWallet() self.wltC.unregisterWallet() self.resetWalletFiles() def testActiveWallet(self): self.jsonServer.jsonrpc_setactivewallet(FIRST_WLT_NAME) result = self.jsonServer.jsonrpc_getactivewallet() self.assertEqual(result, FIRST_WLT_NAME) bogusResult = self.jsonServer.jsonrpc_setactivewallet( 'bogus wallet name') self.assertTrue('does not exist' in bogusResult) # Tests all of the address meta data functions at once def testAddressMetaData(self): testInput = { TIAB_WLT_1_ADDR_1: { 'chain': 5, 'index': 2 }, TIAB_WLT_1_ADDR_2: { 'CrazyField': 'what', '1': 1, '2': 2 } } self.jsonServer.jsonrpc_setaddressmetadata(testInput) testOutput1 = self.jsonServer.jsonrpc_getaddressmetadata() self.assertEqual(testOutput1, testInput) self.jsonServer.jsonrpc_clearaddressmetadata() testOutput2 = self.jsonServer.jsonrpc_getaddressmetadata() self.assertEqual(testOutput2, {}) def testListloadedwallets(self): result = self.jsonServer.jsonrpc_listloadedwallets() self.assertEqual(len(result.keys()), 3) self.assertTrue(FIRST_WLT_NAME in result.values()) self.assertTrue(SECOND_WLT_NAME in result.values()) self.assertTrue(THIRD_WLT_NAME in result.values()) def getPrivateKey(self, address): hash160 = addrStr_to_hash160(address)[1] if self.wltA.isLocked: self.wltA.unlock(securePassphrase=SecureBinaryData(PASSPHRASE1), tempKeyLifetime=1000000) return self.wltA.addrMap[hash160].binPrivKey32_Plain.toBinStr() # Test Create lockbox and list loaded lockbox at the same time. # Also test set and get active lockbox. def testLockboxMethods(self): self.assertEqual(self.jsonServer.jsonrpc_getactivelockbox(), None) addrFromFirstWlt = self.wltA.peekNextUnusedAddr().getPubKey().toHexStr( ) addrFromSecondWlt = self.wltB.peekNextUnusedAddr().getPubKey( ).toHexStr() addrFromThirdWlt = self.wltC.peekNextUnusedAddr().getPubKey().toHexStr( ) # This test should succeed. actualResult1 = self.jsonServer.jsonrpc_createlockbox(2, 3, \ addrFromFirstWlt, \ SECOND_WLT_NAME, \ THIRD_WLT_NAME) self.assertTrue(TWO_OF_THREE_LB_NAME in actualResult1.values()) # This test should fail because the first createlockbox() used the 2nd & # 3rd addresses. actualResult2 = self.jsonServer.jsonrpc_createlockbox(2, 3, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt) self.assertTrue(TWO_OF_THREE_LB_NAME in actualResult2['Error']) # This test should succeed. actualResult3 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromSecondWlt, \ addrFromThirdWlt) self.assertEqual(TWO_OF_TWO_LB_NAME, actualResult3['id']) listResult3 = self.jsonServer.jsonrpc_listloadedlockboxes() self.assertEqual(len(listResult3.keys()), 2) self.assertTrue(TWO_OF_TWO_LB_NAME in listResult3.values()) # This test should fail because of a bad wallet name. actualResult4 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_WLT_NAME) self.assertTrue(BAD_WLT_NAME in actualResult4['Error']) # This test should fail because of a malformed, uncompressed public key. actualResult5 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_PK_UNCOMP_1) self.assertTrue(BAD_PK_UNCOMP_1 in actualResult5['Error']) # This test should fail because of a malformed, compressed public key. actualResult6 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_PK_COMP_1) self.assertTrue(BAD_PK_COMP_1 in actualResult6['Error']) # This test should fail due to a compressed public key being used. foundUncompAddr = False actualResult7 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ GOOD_PK_COMP_1) self.assertTrue(GOOD_PK_COMP_1 in actualResult7['Error']) # This test should fail due to a malformed public key (incorrect length). actualResult8 = self.jsonServer.jsonrpc_createlockbox(2, 2, \ addrFromFirstWlt, \ BAD_PK) self.assertTrue(BAD_PK in actualResult8['Error']) # These tests should fail for various reasons related to the # of inputs. actualResult09 = self.jsonServer.jsonrpc_createlockbox(3, 2, \ addrFromFirstWlt, \ addrFromThirdWlt) self.assertTrue(ERRSTR09 in actualResult09['Error']) actualResult10 = self.jsonServer.jsonrpc_createlockbox(8, 8, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt, \ FIRST_WLT_NAME, \ SECOND_WLT_NAME, \ THIRD_WLT_NAME, \ GOOD_PK_UNCOMP_1, \ GOOD_PK_UNCOMP_2) self.assertTrue(ERRSTR10 in actualResult10['Error']) actualResult11 = self.jsonServer.jsonrpc_createlockbox(1, 8, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt, \ FIRST_WLT_NAME, \ SECOND_WLT_NAME, \ THIRD_WLT_NAME, \ GOOD_PK_UNCOMP_1, \ GOOD_PK_UNCOMP_2) self.assertTrue(ERRSTR11 in actualResult11['Error']) actualResult12 = self.jsonServer.jsonrpc_createlockbox(1, 4) self.assertTrue(ERRSTR12 in actualResult12['Error']) actualResult13 = self.jsonServer.jsonrpc_createlockbox(1, 2, \ addrFromFirstWlt, \ addrFromSecondWlt, \ addrFromThirdWlt) self.assertTrue(ERRSTR13 in actualResult13['Error']) actualResult14 = self.jsonServer.jsonrpc_createlockbox(1, 2, \ addrFromFirstWlt) self.assertTrue(ERRSTR14 in actualResult14['Error']) # These tests should succeed. self.jsonServer.jsonrpc_setactivelockbox(TWO_OF_TWO_LB_NAME) self.assertEqual(self.jsonServer.jsonrpc_getactivelockbox(), \ TWO_OF_TWO_LB_NAME) self.jsonServer.jsonrpc_setactivelockbox(TWO_OF_THREE_LB_NAME) self.assertEqual(self.jsonServer.jsonrpc_getactivelockbox(), \ TWO_OF_THREE_LB_NAME) def testVerifysignature(self): clearSignMessage = ASv1CS(self.getPrivateKey(TIAB_WLT_1_ADDR_1), \ TEST_MESSAGE) inMsg = '\"' + clearSignMessage + '\"' result = self.jsonServer.jsonrpc_verifysignature(inMsg) self.assertEqual(result['message'], TEST_MESSAGE) self.assertEqual(result['address'], TIAB_WLT_1_ADDR_1) # Requires Supernode @SkipTest def testReceivedfromsigner(self): clearSignMessage2 = ASv1CS(self.getPrivateKey(TIAB_WLT_1_ADDR_3), \ TEST_MESSAGE) inMsg2 = '\"' + clearSignMessage2 + '\"' result2 = self.jsonServer.jsonrpc_getreceivedfromsigner(inMsg2) self.assertEqual(result2['message'], TEST_MESSAGE) self.assertEqual(result2['amount'], 0) # Requires Supernode @SkipTest def testReceivedfromaddress(self): result = self.jsonServer.jsonrpc_getreceivedfromaddress( TIAB_WLT_3_ADDR_3) self.assertEqual(result, 0) result = self.jsonServer.jsonrpc_getreceivedfromaddress( TIAB_WLT_1_ADDR_2) self.assertEqual(result, EXPECTED_RECEIVED_FROM_TIAB_WLT_1_ADDR_2) def testGettransaction(self): tx = self.jsonServer.jsonrpc_gettransaction( 'db0ee46beff3a61f38bfc563f92c11449ed57c3d7d5cd5aafbe0114e5a9ceee4') self.assertEqual( tx, { 'category': 'send', 'inputs': [{ 'fromtxid': '04b865ecf5fca3a56f6ce73a571a09a668f4b7aa5a7547a5f51fae08eadcdbb5', 'ismine': True, 'fromtxindex': 1, 'value': 1000.0, 'address': 'mtZ2d1jFZ9YNp3Ku5Fb2u8Tfu3RgimBHAD' }], 'direction': 'send', 'fee': 0.0001, 'totalinputs': 1000.0, 'outputs': [{ 'address': 'mpXd2u8fPVYdL1Nf9bZ4EFnqhkNyghGLxL', 'value': 20.0, 'ismine': False }, { 'address': 'mgLjhTCUtbeLPP9fDkBnG8oztWgJaXZQjn', 'value': 979.9999, 'ismine': True }], 'txid': 'db0ee46beff3a61f38bfc563f92c11449ed57c3d7d5cd5aafbe0114e5a9ceee4', 'confirmations': 10, 'orderinblock': 1, 'mainbranch': True, 'numtxin': 1, 'numtxout': 2, 'netdiff': -20.0001, 'infomissing': False }) def testGetblock(self): block = self.jsonServer.jsonrpc_getblock( '0000000064a1ad1f15981a713a6ef08fd98f69854c781dc7b8789cc5f678e01f') # This method is broken in a couple ways. # For no just verify that raw transaction is correct self.assertEqual( block['rawheader'], '02000000d8778a50d43d3e02c4c20bdd0ed97077a3c4bef3e86ce58975f6f43a00000000d25912cfc67228748494d421512c7a6cc31668fa82b72265261558802a89f4c2e0350153ffff001d10bcc285', ) def testGetinfo(self): info = self.jsonServer.jsonrpc_getarmorydinfo() self.assertEqual(info['blocks'], TOP_TIAB_BLOCK) self.assertEqual(info['bdmstate'], BDM_BLOCKCHAIN_READY) self.assertEqual(info['walletversionstr'], '1.35') self.assertEqual(info['difficulty'], 1.0) self.assertEqual(info['balance'], FIRST_WLT_BALANCE) def testListtransactions(self): #takes a history page count now, not an amount of transactions to return txList = self.jsonServer.jsonrpc_listtransactions(0) self.assertTrue(len(txList) > 10) self.assertEqual( txList[0], { 'blockhash': '0000000064a1ad1f15981a713a6ef08fd98f69854c781dc7b8789cc5f678e01f', 'blockindex': 1, 'confirmations': 31, 'address': 'mtZ2d1jFZ9YNp3Ku5Fb2u8Tfu3RgimBHAD', 'category': 'receive', 'account': '', 'txid': '04b865ecf5fca3a56f6ce73a571a09a668f4b7aa5a7547a5f51fae08eadcdbb5', 'blocktime': 1392588256, 'amount': 1000.0, 'timereceived': 1392588256, 'time': 1392588256 }) def testGetledgersimple(self): ledger = self.jsonServer.jsonrpc_getledgersimple(FIRST_WLT_NAME) self.assertTrue(len(ledger) > 4) amountList = [row['amount'] for row in ledger] expectedAmountList = [20.0, 6.0, 10.0, 0.8, 30.0] self.assertEqual(amountList[:5], expectedAmountList) def testGetledger(self): ledger = self.jsonServer.jsonrpc_getledger(FIRST_WLT_NAME) self.assertTrue(len(ledger) > 6) amountList = [row['amount'] for row in ledger] #expectedAmountList = [1000.0, 20.0, 30.0, 0.8, 10.0, 6.0, 20.0] expectedAmountList = [20.0, 6.0, 10.0, 0.8, 30.0, 20.0, 1000.0] self.assertEqual(amountList, expectedAmountList) self.assertEqual(ledger[0]['direction'], 'receive') self.assertEqual(len(ledger[0]['recipme']), 1) self.assertEqual(ledger[0]['recipme'][0]['amount'], 20.0) self.assertEqual(len(ledger[0]['recipother']), 1) self.assertEqual(ledger[0]['recipother'][0]['amount'], 0.8998) self.assertEqual(len(ledger[0]['senderme']), 0) self.assertEqual(ledger[0]['senderother'][0]['amount'], 11.8999) self.assertEqual(ledger[5]['direction'], 'send') self.assertEqual(len(ledger[5]['senderother']), 0) self.assertEqual(len(ledger[5]['senderme']), 1) self.assertEqual(ledger[5]['senderme'][0]['amount'], 1000.0) def testSendtoaddress(self): # Send 1 BTC serializedUnsignedTx = \ self.jsonServer.jsonrpc_createustxtoaddress(TIAB_WLT_3_ADDR_3, \ BTC_TO_SEND) unsignedTx = UnsignedTransaction().unserializeAscii( serializedUnsignedTx) # Should have 2 txouts to TIAB_WLT_3_ADDR_3 and the change self.assertEqual(len(unsignedTx.decorTxOuts), 2) foundTxOut = False for txout in unsignedTx.decorTxOuts: if script_to_addrStr(txout.binScript) == TIAB_WLT_3_ADDR_3: self.assertEqual(txout.value, JSONtoAmount(BTC_TO_SEND)) foundTxOut = True self.assertTrue(foundTxOut) # Test two paths through signing method and make sure they are equal # Wallets in the TIAB start out unencrypted f = open(TX_FILENAME, 'w') f.write(serializedUnsignedTx) f.close() serializedSignedTxUnencrypted = \ self.jsonServer.jsonrpc_signasciitransaction(TX_FILENAME) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.jsonServer.jsonrpc_walletpassphrase(PASSPHRASE1) serializedSignedTxEncrypted = \ self.jsonServer.jsonrpc_signasciitransaction(TX_FILENAME) # Other tests expect wallet to be unencrypted self.wltA.unlock(securePassphrase=SecureBinaryData(PASSPHRASE1), tempKeyLifetime=1000000) self.wltA.changeWalletEncryption() signedTxUnencrypted = UnsignedTransaction().unserializeAscii( serializedSignedTxUnencrypted) signedTxEncrypted = UnsignedTransaction().unserializeAscii( serializedSignedTxEncrypted) # check number of outputs 1 Btc goes to a single output and the other goes to change self.assertEqual(len(signedTxUnencrypted.decorTxOuts), 2) self.assertEqual(len(signedTxEncrypted.decorTxOuts), 2) self.assertEqual(signedTxUnencrypted.asciiID, signedTxEncrypted.asciiID) self.assertTrue( JSONtoAmount(BTC_TO_SEND) in [ signedTxEncrypted.decorTxOuts[0].value, signedTxEncrypted.decorTxOuts[1].value ]) self.assertTrue( JSONtoAmount(BTC_TO_SEND) in [ signedTxUnencrypted.decorTxOuts[0].value, signedTxUnencrypted.decorTxOuts[1].value ]) f = open(TX_FILENAME, 'w') f.write(signedTxEncrypted.serializeAscii()) f.close() txHexToBroadcast = self.jsonServer.jsonrpc_gethextxtobroadcast( TX_FILENAME) finalPyTx = PyTx().unserialize(hex_to_binary(txHexToBroadcast)) self.assertEqual(len(finalPyTx.outputs), 2) self.assertTrue( JSONtoAmount(BTC_TO_SEND) in [finalPyTx.outputs[0].value, finalPyTx.outputs[1].value]) def testSendmany(self): # Send 1 BTC serializedUnsignedTx = \ self.jsonServer.jsonrpc_createustxformany(None, ','.join([TIAB_WLT_3_ADDR_2, str(BTC_TO_SEND)]), \ ','.join([TIAB_WLT_3_ADDR_3, str(BTC_TO_SEND)])) unsignedTx = UnsignedTransaction().unserializeAscii( serializedUnsignedTx) # Should have 2 txouts to TIAB_WLT_3_ADDR_3 and the change self.assertEqual(len(unsignedTx.decorTxOuts), 3) txOutsFound = 0 for txout in unsignedTx.decorTxOuts: if script_to_addrStr( txout.binScript) in [TIAB_WLT_3_ADDR_2, TIAB_WLT_3_ADDR_3]: self.assertEqual(txout.value, JSONtoAmount(BTC_TO_SEND)) txOutsFound += 1 self.assertEqual(txOutsFound, 2) def testListUnspent(self): actualResult = self.jsonServer.jsonrpc_listunspent() tx1Found = False tx5Found = False for i in range(len(actualResult)): if actualResult[i]['txid'] == EXPECTED_UNSPENT_TX1_HEX: self.assertEqual(actualResult[i]['amount'], \ EXPECTED_UNSPENT_TX1_BAL) self.assertEqual(actualResult[i]['confirmations'], \ EXPECTED_UNSPENT_TX1_CONF) self.assertEqual(actualResult[i]['priority'], \ EXPECTED_UNSPENT_TX1_PRI) tx1Found = True elif actualResult[i]['txid'] == EXPECTED_UNSPENT_TX5_HEX: self.assertEqual(actualResult[i]['amount'], \ EXPECTED_UNSPENT_TX5_BAL) self.assertEqual(actualResult[i]['confirmations'], \ EXPECTED_UNSPENT_TX5_CONF) self.assertEqual(actualResult[i]['priority'], \ EXPECTED_UNSPENT_TX5_PRI) tx5Found = True self.assertTrue(tx1Found) self.assertTrue(tx5Found) def testListAddrUnspent(self): totStr = '%s,%s' % (TIAB_WLT_1_ADDR_3, TIAB_WLT_1_ADDR_8) actualResult = self.jsonServer.jsonrpc_listaddrunspent(totStr) self.assertEqual(actualResult['addrbalance'][TIAB_WLT_1_ADDR_3], \ TIAB_WLT_1_PK_UTXO_BAL_3) self.assertEqual(actualResult['addrbalance'][TIAB_WLT_1_ADDR_8], \ TIAB_WLT_1_PK_UTXO_BAL_8) # NB: Ideally, the TAB asserts would be against addresses with multiple # UTXOs. As is, this test case works but could be better. self.assertEqual(actualResult['totalbalance'], TIAB_WLT_1_PK_UTXO_BAL_3 + TIAB_WLT_1_PK_UTXO_BAL_8) self.assertEqual(actualResult['numutxo'], 2) def testGetNewAddress(self): actualResult = self.jsonServer.jsonrpc_getnewaddress() self.assertEqual(actualResult, EXPECTED_TIAB_NEXT_ADDR) def testGetBalance(self): balances = {'spendable' : FIRST_WLT_BALANCE, \ 'spend' : FIRST_WLT_BALANCE, \ 'unconf' : 0, \ 'unconfirmed' : 0, \ 'total' : FIRST_WLT_BALANCE, \ 'ultimate' : FIRST_WLT_BALANCE, \ 'unspent' : FIRST_WLT_BALANCE, \ 'full' : FIRST_WLT_BALANCE} for balanceType in balances.keys(): result = self.jsonServer.jsonrpc_getbalance(balanceType) self.assertEqual(result, AmountToJSON(self.wltA.getBalance(balanceType)))
class ArmoryDTest(unittest.TestCase): def removeFileList(self, fileList): for f in fileList: if os.path.exists(f): os.remove(f) @classmethod def setUpClass(self): # This is not a UI so no need to worry about the main thread being blocked. # Any UI that uses this Daemon can put the call to the Daemon on it's own thread. TheBDM.setBlocking(True) TheBDM.setOnlineMode(True) while not TheBDM.getBDMState() == 'BlockchainReady': time.sleep(2) def setUp(self): self.fileA = os.path.join(ARMORY_HOME_DIR, 'armory_%s_.wallet' % TEST_WALLET_ID) self.fileB = os.path.join(ARMORY_HOME_DIR, 'armory_%s_backup.wallet' % TEST_WALLET_ID) self.fileAupd = os.path.join( ARMORY_HOME_DIR, 'armory_%s_backup_unsuccessful.wallet' % TEST_WALLET_ID) self.fileBupd = os.path.join( ARMORY_HOME_DIR, 'armory_%s_update_unsuccessful.wallet' % TEST_WALLET_ID) self.removeFileList( [self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # We need a controlled test, so we script the all the normally-random stuff self.privKey = SecureBinaryData('\xaa' * 32) self.privKey2 = SecureBinaryData('\x33' * 32) self.chainstr = SecureBinaryData('\xee' * 32) theIV = SecureBinaryData(hex_to_binary('77' * 16)) self.passphrase = SecureBinaryData('A self.passphrase') self.passphrase2 = SecureBinaryData('A new self.passphrase') self.wallet = PyBtcWallet().createNewWallet(withEncrypt=False, \ plainRootKey=self.privKey, \ chaincode=self.chainstr, \ IV=theIV, \ shortLabel=TEST_WALLET_NAME, \ longLabel=TEST_WALLET_DESCRIPTION) self.jsonServer = Armory_Json_Rpc_Server(self.wallet) TheBDM.registerWallet(self.wallet) def tearDown(self): self.removeFileList( [self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # Can't test with actual transactions in this environment. See ARMORY-34. # This wallet has no txs def testListunspent(self): actualResult = self.jsonServer.jsonrpc_listunspent() self.assertEqual(actualResult, []) def testImportprivkey(self): originalLength = len(self.wallet.linearAddr160List) self.jsonServer.jsonrpc_importprivkey(self.privKey2) self.assertEqual(len(self.wallet.linearAddr160List), originalLength + 1) def testGettxout(self): txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 0) self.assertEquals(TX_ID1_OUTPUT0_VALUE, txOut.value) txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 1) self.assertEquals(TX_ID1_OUTPUT1_VALUE, txOut.value) # Cannot unit test actual balances. Only verify that getreceivedbyaddress return a 0 result. def testGetreceivedbyaddress(self): a160 = hash160( self.wallet.getNextUnusedAddress().binPublicKey65.toBinStr()) testAddr = hash160_to_addrStr(a160) result = self.jsonServer.jsonrpc_getreceivedbyaddress(testAddr) self.assertEqual(result, 0) def testGetrawtransaction(self): actualRawTx = self.jsonServer.jsonrpc_getrawtransaction(TX_ID1) pyTx = PyTx().unserialize(hex_to_binary(actualRawTx)) self.assertEquals(TX_ID1, binary_to_hex(pyTx.getHash(), BIGENDIAN)) def testBackupWallet(self): backupTestPath = os.path.join( ARMORY_HOME_DIR, 'armory_%s_.wallet.backup.test' % TEST_WALLET_ID) # Remove backupTestPath in case it exists backupFileList = [backupTestPath, self.fileB] self.removeFileList(backupFileList) # Remove the backup test path that is to be created after tear down. self.addCleanup(self.removeFileList, backupFileList) self.jsonServer.jsonrpc_backupwallet(backupTestPath) self.assertTrue(os.path.exists(backupTestPath)) self.wallet.backupWalletFile() self.assertTrue(os.path.exists(self.fileB)) def testDecoderawtransaction(self): actualDD = self.jsonServer.jsonrpc_decoderawtransaction(RAW_TX1) # Test specific values pulled from bitcoin daemon's output for the test raw TX expectScriptStr = 'OP_DUP OP_HASH160 PUSHDATA(20) [be17ec0fc1f8aa029223dbe5f53109d0faf8c797] OP_EQUALVERIFY OP_CHECKSIG' self.assertEqual(actualDD['locktime'], 0) self.assertEqual(actualDD['version'], 1) self.assertEqual(actualDD['vin'][0]['sequence'], 4294967295L) self.assertEqual(actualDD['vin'][0]['scriptSig']['hex'], '') self.assertEqual(actualDD['vin'][0]['scriptSig']['asm'], '') self.assertEqual(actualDD['vin'][0]['vout'], 1201) self.assertEqual( actualDD['vin'][0]['txid'], 'e450dc7394f8432d89c68d0df6a5506cb81eac60c977bfc7932633aaf835a31f') self.assertEqual(actualDD['vin'][1]['vout'], 294) self.assertEqual( actualDD['vin'][1]['txid'], '8867f0f84e80588ed00a05e604487442546ef42ab4c93445a09b00a6d487e74b') self.assertEqual(actualDD['vout'][0]['value'], 0.0001944) self.assertEqual(actualDD['vout'][0]['n'], 0) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['reqSigs'], 1) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['hex'], '76a914be17ec0fc1f8aa029223dbe5f53109d0faf8c79788ac') self.assertEqual(actualDD['vout'][0]['scriptPubKey']['addresses'], ['mxr5Le3bt7dfbFqmpK6saUYPt5xtcDB7Yw']) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['asm'], expectScriptStr) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['type'], 'Standard (PKH)') self.assertEqual(actualDD['vout'][1]['scriptPubKey']['type'], 'Standard (PKH)') self.assertEqual(actualDD['vout'][2]['scriptPubKey']['type'], 'Non-Standard') def testDumpprivkey(self): testPrivKey = self.privKey.toBinStr() hash160 = convertKeyDataToAddress(testPrivKey) addr58 = hash160_to_addrStr(hash160) # Verify that a bogus addrss Raises InvalidBitcoinAddress Exception self.assertRaises(InvalidBitcoinAddress, self.jsonServer.jsonrpc_dumpprivkey, 'bogus') # verify that the root private key is not found self.assertRaises(PrivateKeyNotFound, self.jsonServer.jsonrpc_dumpprivkey, addr58) # verify that the first private key can be found firstHash160 = self.wallet.getNextUnusedAddress().getAddr160() firstAddr58 = hash160_to_addrStr(firstHash160) actualPrivateKey = self.jsonServer.jsonrpc_dumpprivkey(firstAddr58) expectedPrivateKey = self.wallet.getAddrByHash160( firstHash160).serializePlainPrivateKey() self.assertEqual(actualPrivateKey, expectedPrivateKey) # Verify that a locked wallet Raises WalletUnlockNeeded Exception kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.wallet.changeWalletEncryption(securePassphrase=self.passphrase) self.wallet.lock() self.assertRaises(WalletUnlockNeeded, self.jsonServer.jsonrpc_dumpprivkey, addr58) def testEncryptwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) # Verify that a locked wallet Raises WalletUnlockNeeded Exception self.assertRaises(WalletUnlockNeeded, self.jsonServer.jsonrpc_encryptwallet, PASSPHRASE1) def testUnlockwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) self.jsonServer.jsonrpc_unlockwallet(PASSPHRASE1, UNLOCK_TIMEOUT) self.assertFalse(self.wallet.isLocked) time.sleep(UNLOCK_TIMEOUT + 1) self.wallet.checkWalletLockTimeout() self.assertTrue(self.wallet.isLocked) def testGetWalletInfo(self): wltInfo = self.jsonServer.jsonrpc_getwalletinfo() self.assertEqual(wltInfo['name'], TEST_WALLET_NAME) self.assertEqual(wltInfo['description'], TEST_WALLET_DESCRIPTION) self.assertEqual(wltInfo['balance'], AmountToJSON(self.wallet.getBalance('Spend'))) self.assertEqual(wltInfo['keypoolsize'], self.wallet.addrPoolSize) self.assertEqual(wltInfo['numaddrgen'], len(self.wallet.addrMap)) self.assertEqual(wltInfo['highestusedindex'], self.wallet.highestUsedChainIndex) # This should always return 0 balance # Need to create our own test net to test with balances def testGetBalance(self): for ballanceType in ['spendable','spend', 'unconf', \ 'unconfirmed', 'total', 'ultimate','unspent', 'full']: self.assertEqual( self.jsonServer.jsonrpc_getbalance(ballanceType), AmountToJSON(self.wallet.getBalance(ballanceType))) self.assertEqual(self.jsonServer.jsonrpc_getbalance('bogus'), -1)
class ArmoryDTest(unittest.TestCase): def removeFileList(self, fileList): for f in fileList: if os.path.exists(f): os.remove(f) @classmethod def setUpClass(self): # This is not a UI so no need to worry about the main thread being blocked. # Any UI that uses this Daemon can put the call to the Daemon on it's own thread. TheBDM.Reset() TheBDM.setBlocking(True) TheBDM.setOnlineMode(True) while not TheBDM.getBDMState()=='BlockchainReady': time.sleep(2) def setUp(self): self.fileA = os.path.join(ARMORY_HOME_DIR, 'armory_%s_.wallet' % TEST_WALLET_ID) self.fileB = os.path.join(ARMORY_HOME_DIR, 'armory_%s_backup.wallet' % TEST_WALLET_ID) self.fileAupd = os.path.join(ARMORY_HOME_DIR, 'armory_%s_backup_unsuccessful.wallet' % TEST_WALLET_ID) self.fileBupd = os.path.join(ARMORY_HOME_DIR, 'armory_%s_update_unsuccessful.wallet' % TEST_WALLET_ID) self.removeFileList([self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # We need a controlled test, so we script the all the normally-random stuff self.privKey = SecureBinaryData('\xaa'*32) self.privKey2 = SecureBinaryData('\x33'*32) self.chainstr = SecureBinaryData('\xee'*32) theIV = SecureBinaryData(hex_to_binary('77'*16)) self.passphrase = SecureBinaryData('A self.passphrase') self.passphrase2 = SecureBinaryData('A new self.passphrase') self.wallet = PyBtcWallet().createNewWallet(withEncrypt=False, \ plainRootKey=self.privKey, \ chaincode=self.chainstr, \ IV=theIV, \ shortLabel=TEST_WALLET_NAME, \ longLabel=TEST_WALLET_DESCRIPTION) self.jsonServer = Armory_Json_Rpc_Server(self.wallet) TheBDM.registerWallet(self.wallet) def tearDown(self): self.removeFileList([self.fileA, self.fileB, self.fileAupd, self.fileBupd]) # Can't test with actual transactions in this environment. See ARMORY-34. # This wallet has no txs # def testListunspent(self): # actualResult = self.jsonServer.jsonrpc_listunspent() # self.assertEqual(actualResult, []) def testImportprivkey(self): originalLength = len(self.wallet.linearAddr160List) self.jsonServer.jsonrpc_importprivkey(self.privKey2) self.assertEqual(len(self.wallet.linearAddr160List), originalLength+1) def testGettxout(self): txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 0) self.assertEquals(TX_ID1_OUTPUT0_VALUE, txOut.value) txOut = self.jsonServer.jsonrpc_gettxout(TX_ID1, 1) self.assertEquals(TX_ID1_OUTPUT1_VALUE, txOut.value) # Cannot unit test actual balances. Only verify that getreceivedbyaddress return a 0 result. def testGetreceivedbyaddress(self): a160 = hash160(self.wallet.getNextUnusedAddress().binPublicKey65.toBinStr()) testAddr = hash160_to_addrStr(a160) result = self.jsonServer.jsonrpc_getreceivedbyaddress(testAddr) self.assertEqual(result, 0) def testGetrawtransaction(self): actualRawTx = self.jsonServer.jsonrpc_getrawtransaction(TX_ID1) pyTx = PyTx().unserialize(hex_to_binary(actualRawTx)) self.assertEquals(TX_ID1, binary_to_hex(pyTx.getHash(), BIGENDIAN)) def testBackupWallet(self): backupTestPath = os.path.join(ARMORY_HOME_DIR, 'armory_%s_.wallet.backup.test' % TEST_WALLET_ID) # Remove backupTestPath in case it exists backupFileList = [backupTestPath, self.fileB] self.removeFileList(backupFileList) # Remove the backup test path that is to be created after tear down. self.addCleanup(self.removeFileList, backupFileList) self.jsonServer.jsonrpc_backupwallet(backupTestPath) self.assertTrue(os.path.exists(backupTestPath)) self.wallet.backupWalletFile() self.assertTrue(os.path.exists(self.fileB)) def testDecoderawtransaction(self): actualDD = self.jsonServer.jsonrpc_decoderawtransaction(RAW_TX1) # Test specific values pulled from bitcoin daemon's output for the test raw TX expectScriptStr = 'OP_DUP OP_HASH160 PUSHDATA(20) [be17ec0fc1f8aa029223dbe5f53109d0faf8c797] OP_EQUALVERIFY OP_CHECKSIG' self.assertEqual(actualDD['locktime'], 0) self.assertEqual(actualDD['version'], 1) self.assertEqual(actualDD['vin'][0]['sequence'], 4294967295L) self.assertEqual(actualDD['vin'][0]['scriptSig']['hex'], '') self.assertEqual(actualDD['vin'][0]['scriptSig']['asm'], '') self.assertEqual(actualDD['vin'][0]['vout'], 1201) self.assertEqual(actualDD['vin'][0]['txid'], 'e450dc7394f8432d89c68d0df6a5506cb81eac60c977bfc7932633aaf835a31f') self.assertEqual(actualDD['vin'][1]['vout'], 294) self.assertEqual(actualDD['vin'][1]['txid'], '8867f0f84e80588ed00a05e604487442546ef42ab4c93445a09b00a6d487e74b') self.assertEqual(actualDD['vout'][0]['value'], 0.0001944) self.assertEqual(actualDD['vout'][0]['n'], 0) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['reqSigs'], 1) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['hex'], '76a914be17ec0fc1f8aa029223dbe5f53109d0faf8c79788ac') self.assertEqual(actualDD['vout'][0]['scriptPubKey']['addresses'], ['mxr5Le3bt7dfbFqmpK6saUYPt5xtcDB7Yw']) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['asm'], expectScriptStr) self.assertEqual(actualDD['vout'][0]['scriptPubKey']['type'], 'Standard (PKH)') self.assertEqual(actualDD['vout'][1]['scriptPubKey']['type'], 'Standard (PKH)') self.assertEqual(actualDD['vout'][2]['scriptPubKey']['type'], 'Non-Standard') def testDumpprivkey(self): testPrivKey = self.privKey.toBinStr() hash160 = convertKeyDataToAddress(testPrivKey) addr58 = hash160_to_addrStr(hash160) # Verify that a bogus addrss Raises InvalidBitcoinAddress Exception self.assertRaises(InvalidBitcoinAddress, self.jsonServer.jsonrpc_dumpprivkey, 'bogus') # verify that the root private key is not found self.assertRaises(PrivateKeyNotFound, self.jsonServer.jsonrpc_dumpprivkey, addr58) # verify that the first private key can be found firstHash160 = self.wallet.getNextUnusedAddress().getAddr160() firstAddr58 = hash160_to_addrStr(firstHash160) actualPrivateKey = self.jsonServer.jsonrpc_dumpprivkey(firstAddr58) expectedPrivateKey = self.wallet.getAddrByHash160(firstHash160).serializePlainPrivateKey() self.assertEqual(actualPrivateKey, expectedPrivateKey) # Verify that a locked wallet Raises WalletUnlockNeeded Exception kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.wallet.changeWalletEncryption( securePassphrase=self.passphrase ) self.wallet.lock() self.assertRaises(WalletUnlockNeeded, self.jsonServer.jsonrpc_dumpprivkey, addr58) def testEncryptwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) # Verify that a locked wallet Raises WalletUnlockNeeded Exception self.assertRaises(WalletUnlockNeeded, self.jsonServer.jsonrpc_encryptwallet, PASSPHRASE1) def testUnlockwallet(self): kdfParams = self.wallet.computeSystemSpecificKdfParams(0.1) self.wallet.changeKdfParams(*kdfParams) self.jsonServer.jsonrpc_encryptwallet(PASSPHRASE1) self.assertTrue(self.wallet.isLocked) self.jsonServer.jsonrpc_unlockwallet(PASSPHRASE1, UNLOCK_TIMEOUT) self.assertFalse(self.wallet.isLocked) time.sleep(UNLOCK_TIMEOUT+1) self.wallet.checkWalletLockTimeout() self.assertTrue(self.wallet.isLocked) def testGetWalletInfo(self): wltInfo = self.jsonServer.jsonrpc_getwalletinfo() self.assertEqual(wltInfo['name'], TEST_WALLET_NAME) self.assertEqual(wltInfo['description'], TEST_WALLET_DESCRIPTION) self.assertEqual(wltInfo['balance'], AmountToJSON(self.wallet.getBalance('Spend'))) self.assertEqual(wltInfo['keypoolsize'], self.wallet.addrPoolSize) self.assertEqual(wltInfo['numaddrgen'], len(self.wallet.addrMap)) self.assertEqual(wltInfo['highestusedindex'], self.wallet.highestUsedChainIndex) # This should always return 0 balance # Need to create our own test net to test with balances def testGetBalance(self): for ballanceType in ['spendable','spend', 'unconf', \ 'unconfirmed', 'total', 'ultimate','unspent', 'full']: self.assertEqual(self.jsonServer.jsonrpc_getbalance(ballanceType), AmountToJSON(self.wallet.getBalance(ballanceType))) self.assertEqual(self.jsonServer.jsonrpc_getbalance('bogus'), -1)