def test(testfilter): global datadir1 global datadir2 _lib.StartTestGroup("Run node with 30 blocks and test import from second node") _lib.CleanTestFolders() inf = blocksnodes.MakeBlockchainWithBlocks('30000') datadir = inf[0] address1 = inf[1] address1_2 = inf[2] address1_3 = inf[3] for x in range(5, 31): _lib.StartTestGroup("Create block #"+str(x)) for y in range(0, x-1): tx=_transfers.Send(datadir,address1,address1_2,0.001) txlist = transactions.GetUnapprovedTransactions(datadir) _lib.FatalAssert(len(txlist) == x-1,"Should be "+str(x-1)+" unapproved transaction") blockchash = _blocks.MintBlock(datadir,address1) blocks = _blocks.WaitBlocks(datadir, x) _lib.FatalAssert(len(blocks) == x,"Should be "+str(x)+" blocks on server 1") #_node.StartNodeInteractive(datadir, address1,'30000', "Server 1") startnode.StartNode(datadir, address1,'30000', "Server 1") datadir1 = datadir managenodes.RemoveAllNodes(datadir1) d = pullsync.StartNodeAndImport('30001', '30000', "Server 2", 0, "_2_", "xxx.com" ) datadir2 = d[0] address2 = d[1] blocks = _blocks.GetBlocks(datadir2) # wait when all 30 bocks are on node 2 blocks = _blocks.WaitBlocks(datadir2, 30, 100)# 100 sec _lib.FatalAssert(len(blocks) == 30,"Should be 17 blocks on server 2") startnode.StopNode(datadir1,"Server 1") datadir1 = "" time.sleep(4)# allow to complete blocks adding startnode.StopNode(datadir2,"Server 2") datadir2 = "" #_lib.RemoveTestFolder(datadir) _lib.EndTestGroupSuccess()
def test(testfilter): global datadir1 global datadir2 global datadir3 _lib.StartTestGroup("Blocks exhange between nodes") _lib.CleanTestFolders() inf = MakeBlockchainWithBlocks('30000') datadir = inf[0] address1 = inf[1] address1_2 = inf[2] address1_3 = inf[3] #_node.StartNodeInteractive(datadir, address1,'30000', "Server 1") startnode.StartNode(datadir, address1, '30000', "Server 1") datadir1 = datadir managenodes.RemoveAllNodes(datadir1) d = StartNodeAndImport('30001', '30000', "Server 2") datadir2 = d[0] address2 = d[1] d = StartNodeAndImport('30002', '30000', "Server 3") datadir3 = d[0] address3 = d[1] time.sleep(1) nodes = managenodes.GetNodes(datadir1) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 1") nodes = managenodes.GetNodes(datadir2) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 2") nodes = managenodes.GetNodes(datadir3) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 3") # get balance startnode.StopNode(datadir1, "Server 1") datadir1 = "" startnode.StopNode(datadir2, "Server 2") datadir2 = "" startnode.StopNode(datadir3, "Server 3") datadir3 = "" #_lib.RemoveTestFolder(datadir) _lib.EndTestGroupSuccess()
def test(testfilter): global datadirs _lib.CleanTestFolders() #return _complex.Make5BlocksBC() #return _complex.PrepareNodes() dirs = _complex.Copy6Nodes() nodes = [] i = 1 for d in dirs: #get address in wallets in this dir balances = _transfers.GetGroupBalance(d) address = balances.keys()[0] port = str(30000 + i ) nodes.append({'index':i - 1, 'port':port, 'datadir':d,'address':address,"title":"Server "+str(i)}) #_transfers.ReindexUTXO(d) #txlist = transactions.GetUnapprovedTransactions(d) #print txlist #start this node #print os.path.basename(d) startnode.StartNodeConfig(d) i = i + 1 datadirs.append(d) #check nodes on each node is correct for node in nodes: #print os.path.basename(node['datadir']) nodeslist = managenodes.GetNodes(node['datadir']) _lib.FatalAssert(len(nodeslist) == 2,"Should be 2 nodes on "+node["title"]) if node['index'] == 0: _lib.FatalAssert("localhost:30005" in nodeslist,"Node 6 should be on the node 0") _lib.FatalAssert("localhost:30004" in nodeslist,"Node 5 should be on the node 0") if node['index'] == 1: _lib.FatalAssert("localhost:30002" in nodeslist,"Node 2 should be on the node 1") _lib.FatalAssert("localhost:30003" in nodeslist,"Node 3 should be on the node 1") #raise ValueError('Stop') # test blocks branches # ensure subnetworks are fine managenodes.AddNode(nodes[2]["datadir"],"localhost",'30003') managenodes.AddNode(nodes[4]["datadir"],"localhost",'30005') _lib.StartTestGroup("Check blockchain before updates") blocks1 = _blocks.GetBlocks(nodes[0]["datadir"]) blocks2 = _blocks.GetBlocks(nodes[1]["datadir"]) _lib.FatalAssert(len(blocks1) == 9,"First branch should have 9 blocks") _lib.FatalAssert(len(blocks2) == 8,"Second branch should have 8 blocks") _lib.FatalAssert(blocks1[2] == blocks2[1],"7 block must be same for both") _lib.FatalAssert(blocks1[1] != blocks2[0],"8 block must be different") #====================================================================================== # remove node 6 from the first branch managenodes.RemoveAllNodes(nodes[5]["datadir"]) nodeslist = managenodes.GetNodes(nodes[5]["datadir"]) _lib.FatalAssert(len(nodeslist) == 0,"Should be 0 nodes on the node 6") # remove this node from 2 other nodes where it is known managenodes.RemoveNode(nodes[0]["datadir"], "localhost" ,"30005") managenodes.RemoveNode(nodes[4]["datadir"], "localhost" ,"30005") nodeslist = managenodes.GetNodes(nodes[0]["datadir"]) _lib.FatalAssert(len(nodeslist) == 1,"Should be 1 nodes on the node 1") nodeslist = managenodes.GetNodes(nodes[4]["datadir"]) _lib.FatalAssert(len(nodeslist) == 1,"Should be 1 nodes on the node 5") # add one more blockon the first node balances = _transfers.GetGroupBalance(nodes[0]["datadir"]) addr1 = balances.keys()[0] addr2 = balances.keys()[1] amount = "%.8f" % round(balances[addr1][0]/10,8) for x in range(1, 11): _transfers.Send(nodes[0]["datadir"],addr1,addr2,amount) _blocks.WaitBlocks(nodes[0]["datadir"],10) # and again new block. balances = _transfers.GetGroupBalance(nodes[0]["datadir"]) addr1 = balances.keys()[1] addr2 = balances.keys()[0] amount = "%.8f" % round(balances[addr1][0]/12,8) for x in range(1, 12): _transfers.Send(nodes[0]["datadir"],addr1,addr2,amount) _blocks.WaitBlocks(nodes[0]["datadir"],11) # create 2 more blocks on branch 2 balances = _transfers.GetGroupBalance(nodes[1]["datadir"]) addr3 = balances.keys()[0] amount = "%.8f" % round(balances[addr3][0]/30,8) for x in range(1, 10): # send to address on the firs node _transfers.Send(nodes[1]["datadir"],addr3,addr1,amount) _blocks.WaitBlocks(nodes[1]["datadir"],9) for x in range(1, 11): # send to address on the firs node _transfers.Send(nodes[1]["datadir"],addr3,addr1,amount) _blocks.WaitBlocks(nodes[1]["datadir"],10) # now branch 2 has more blocks than the node 6. # connect node 6 with the branch 2 _lib.StartTestGroup("Connect network 2 with the node 6") managenodes.AddNode(nodes[1]["datadir"],"localhost",'30005') managenodes.AddNode(nodes[4]["datadir"],"localhost",'30002') managenodes.AddNode(nodes[4]["datadir"],"localhost",'30003') managenodes.AddNode(nodes[4]["datadir"],"localhost",'30005') managenodes.WaitNodes(nodes[1]["datadir"],3) managenodes.WaitNodes(nodes[2]["datadir"],3) managenodes.WaitNodes(nodes[3]["datadir"],3) # should be 10 blocks after sync _blocks.WaitBlocks(nodes[5]["datadir"],10) # must be unapproved transactions from previous block 8 #txlist = transactions.GetUnapprovedTransactions(nodes[5]["datadir"]) _lib.StartTestGroup("Wait 11 blocks on every node of net 2") # new block is created from free transaction after reset of some blocks _blocks.WaitBlocks(nodes[5]["datadir"],11) _blocks.WaitBlocks(nodes[1]["datadir"],11) _blocks.WaitBlocks(nodes[2]["datadir"],11) _blocks.WaitBlocks(nodes[3]["datadir"],11) transactions.GetUnapprovedTransactionsEmpty(nodes[5]["datadir"]) #at this point branch 2 + node 6 have 11 blocks. #branch 1 has also 11 _lib.StartTestGroup("Connect all nodes") managenodes.AddNode(nodes[1]["datadir"],"localhost",'30000') #wait while all nodes know about other nodes netnodes = managenodes.WaitNodes(nodes[0]["datadir"],5) netnodes = managenodes.WaitNodes(nodes[1]["datadir"],5) netnodes = managenodes.WaitNodes(nodes[2]["datadir"],5) netnodes = managenodes.WaitNodes(nodes[3]["datadir"],5) netnodes = managenodes.WaitNodes(nodes[4]["datadir"],5) netnodes = managenodes.WaitNodes(nodes[5]["datadir"],5) nodeslist = managenodes.GetNodes(nodes[1]["datadir"]) _lib.FatalAssert(len(nodeslist) == 5,"Should be 5 nodes on the node 2") # add more transactions on the node 0 to get 12-th block balances = _transfers.GetGroupBalance(nodes[0]["datadir"]) addr1 = balances.keys()[0] addr2 = balances.keys()[2] amount = "%.8f" % round(balances[addr1][0]/14,8) # here a node can have some already prepared transactions . we will add 12. but total can be more for x in range(1, 13): tx = _transfers.Send(nodes[0]["datadir"],addr1,addr2,amount) _blocks.WaitBlocks(nodes[0]["datadir"],12) # now sync should start. branch 2 will change branch _blocks.WaitBlocks(nodes[1]["datadir"],12) _lib.StartTestGroup("Wait final blocks") # after some time new block should be created from all unconfirmed transactions _blocks.WaitBlocks(nodes[1]["datadir"],13) _blocks.WaitBlocks(nodes[0]["datadir"],13) _lib.StartTestGroup("Check blockchain after updates") blocks2_0 = _blocks.GetBlocks(nodes[0]["datadir"]) _lib.FatalAssert(len(blocks2_0) == 13,"13 block must be on node 0") blocks2_1 = _blocks.GetBlocks(nodes[1]["datadir"]) _lib.FatalAssert(len(blocks2_1) == 13,"13 block must be on node 1") _lib.StartTestGroup("Node 2 "+os.path.basename(nodes[2]["datadir"])) _blocks.WaitBlocks(nodes[2]["datadir"],13) blocks2_2 = _blocks.GetBlocks(nodes[2]["datadir"]) _lib.FatalAssert(len(blocks2_2) == 13,"13 block must be on node 2") #_lib.FatalAssert(blocks2_2[1] == blocks2_1[1],"2-nd from top blocks on 2 must be same as on 1") _lib.StartTestGroup("Node 3 "+os.path.basename(nodes[3]["datadir"])) _blocks.WaitBlocks(nodes[3]["datadir"],13) blocks2_3 = _blocks.GetBlocks(nodes[3]["datadir"]) _lib.FatalAssert(len(blocks2_3) == 13,"13 block must be on node 3") #_lib.FatalAssert(blocks2_3[1] == blocks2_1[1],"2-nd from top blocks on 3 must be same as on 1") _lib.StartTestGroup("Node 4 "+os.path.basename(nodes[4]["datadir"])) _blocks.WaitBlocks(nodes[4]["datadir"],13) blocks2_4 = _blocks.GetBlocks(nodes[4]["datadir"]) _lib.FatalAssert(len(blocks2_4) == 13,"13 block must be on node 4") #_lib.FatalAssert(blocks2_4[1] == blocks2_1[1],"2-nd from top blocks on 4 must be same as on 1") _lib.StartTestGroup("Node 5 "+os.path.basename(nodes[5]["datadir"])) _blocks.WaitBlocks(nodes[5]["datadir"],13) blocks2_5 = _blocks.GetBlocks(nodes[5]["datadir"]) _lib.FatalAssert(len(blocks2_5) == 13,"13 block must be on node 5") #_lib.FatalAssert(blocks2_5[1] == blocks2_1[1],"2-nd from top blocks on 5 must be same as on 1") _lib.StartTestGroup("Final checks") # should be empty list of transactions now # we commented because it is not always empty and it is not bad #transactions.GetUnapprovedTransactionsEmpty(nodes[1]["datadir"]) for node in nodes: startnode.StopNode(node['datadir']) datadirs[node['index']] = "" #_lib.RemoveTestFolder(datadir) _lib.EndTestGroupSuccess()
def test(testfilter): global datadir1 global datadir2 global datadir3 _lib.StartTestGroup("Blocks exhange between nodes") _lib.CleanTestFolders() inf = MakeBlockchainWithBlocks('30000') datadir = inf[0] address1 = inf[1] address1_2 = inf[2] address1_3 = inf[3] #_node.StartNodeInteractive(datadir, address1,'30000', "Server 1") _complex.AddProxyToConfig(datadir, "localhost:40001") _complex.AddInternalKeyToConfig(datadir, address1) # init internal signing startnode.StartNode(datadir, address1, '30000', "Server 1") datadir1 = datadir managenodes.RemoveAllNodes(datadir1) d = blocksnodes.StartNodeAndImport('30001', '30000', "Server 2", 40002, '_2_') datadir2 = d[0] address2 = d[1] d = blocksnodes.StartNodeAndImport('30002', '30000', "Server 3", 40003, '_3_') datadir3 = d[0] address3 = d[1] time.sleep(1) nodes = managenodes.GetNodes(datadir1) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 1") nodes = managenodes.GetNodes(datadir2) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 2") nodes = managenodes.GetNodes(datadir3) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 3") # get balance _sql.ExecuteSQLOnProxy( datadir1, "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))") _sql.ExecuteSQLOnProxy(datadir1, "INSERT INTO test SET b='row1'") _sql.ExecuteSQLOnProxy(datadir1, "INSERT INTO test SET a=2,b='row2'") _sql.ExecuteSQLOnProxy(datadir1, "INSERT INTO test (b) VALUES ('row3')") blocks = _blocks.WaitBlocks(datadir1, 5) _lib.FatalAssert(len(blocks) == 5, "Should be 5 blocks on server 1") blocks = _blocks.WaitBlocks(datadir2, 5) _lib.FatalAssert(len(blocks) == 5, "Should be 5 blocks on server 2") blocks = _blocks.WaitBlocks(datadir3, 5) _lib.FatalAssert(len(blocks) == 5, "Should be 5 blocks on server 3") time.sleep(1) # while all caches are cleaned managenodes.RemoveAllNodes(datadir1) managenodes.RemoveAllNodes(datadir2) managenodes.RemoveAllNodes(datadir3) rows = _lib.DBGetRows(datadir1, "SELECT * FROM test", True) _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table on node 1") rows = _lib.DBGetRows(datadir2, "SELECT * FROM test", True) _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table on node 2") rows = _lib.DBGetRows(datadir3, "SELECT * FROM test", True) _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table on node 3") _sql.ExecuteSQLOnProxy(datadir1, "INSERT INTO test (b) VALUES ('row4')") time.sleep(1) # while all caches are cleaned rows = _lib.DBGetRows(datadir1, "SELECT * FROM test", True) _lib.FatalAssert(len(rows) == 4, "Must be 4 rows in a table on node 1") rows = _lib.DBGetRows(datadir2, "SELECT * FROM test", True) _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table on node 2") rows = _lib.DBGetRows(datadir3, "SELECT * FROM test", True) _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table on node 3") startnode.StopNode(datadir1, "Server 1") datadir1 = "" startnode.StopNode(datadir2, "Server 2") datadir2 = "" startnode.StopNode(datadir3, "Server 3") datadir3 = "" #_lib.RemoveTestFolder(datadir) _lib.EndTestGroupSuccess()
def test(testfilter): global datadir1 global datadir2 global datadir3 _lib.StartTestGroup("Test data exahcnge with non-public address node") _lib.CleanTestFolders() inf = blocksnodes.MakeBlockchainWithBlocks('30000') datadir = inf[0] address1 = inf[1] address1_2 = inf[2] address1_3 = inf[3] #_node.StartNodeInteractive(datadir, address1,'30000', "Server 1") startnode.StartNode(datadir, address1, '30000', "Server 1") datadir1 = datadir managenodes.RemoveAllNodes(datadir1) d = StartNodeAndImport('30001', '30000', "Server 2", 0, "_2_", "xxx.com") datadir2 = d[0] address2 = d[1] d = StartNodeAndImport('30002', '30000', "Server 3", 0, "_3_") datadir3 = d[0] address3 = d[1] time.sleep(2) nodes = managenodes.GetNodes(datadir1) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 1") nodes = managenodes.GetNodes(datadir2) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 2") nodes = managenodes.GetNodes(datadir3) _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes on server 3") # make transaction on first node tx = _transfers.Send(datadir, address1, address2, 0.1) time.sleep(5) # this TX should appear on second node too txlist = transactions.GetUnapprovedTransactions(datadir2) _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction") tx = _transfers.Send(datadir2, address2, address1, 0.01) txlist = transactions.GetUnapprovedTransactions(datadir2) _lib.FatalAssert( len(txlist) == 2, "Should be 2 unapproved transactions on second node") time.sleep(1) txlist = transactions.GetUnapprovedTransactions(datadir) _lib.FatalAssert( len(txlist) == 2, "Should be 2 unapproved transactions on first node") # make block on a secod node tx = _transfers.Send(datadir2, address2, address1, 0.01) tx = _transfers.Send(datadir2, address2, address1, 0.01) blocks = _blocks.WaitBlocks(datadir2, 5) _lib.FatalAssert(len(blocks) == 5, "Should be 5 blocks on server 2") time.sleep(1) blocks = _blocks.WaitBlocks(datadir1, 5) _lib.FatalAssert(len(blocks) == 5, "Should be 5 blocks on server 1") blocks = _blocks.WaitBlocks(datadir3, 5) _lib.FatalAssert(len(blocks) == 5, "Should be 5 blocks on server 3") time.sleep(1) # create block on the first node and check it appears on first for x in range(5): tx = _transfers.Send(datadir, address1, address2, 0.1) blocks = _blocks.WaitBlocks(datadir1, 6) _lib.FatalAssert(len(blocks) == 6, "Should be 5 blocks on server 1") # extra transaction to pull tx = _transfers.Send(datadir, address1, address2, 0.1) time.sleep(7) # new block should be pulled blocks = _blocks.WaitBlocks(datadir2, 6) _lib.FatalAssert(len(blocks) == 6, "Should be 6 blocks on server 2") txlist = transactions.GetUnapprovedTransactions(datadir1) time.sleep(2) txlist = transactions.GetUnapprovedTransactions(datadir2) _lib.FatalAssert( len(txlist) == 1, "Should be 1 unapproved transactions on second node") startnode.StopNode(datadir1, "Server 1") datadir1 = "" startnode.StopNode(datadir2, "Server 2") datadir2 = "" startnode.StopNode(datadir3, "Server 3") datadir3 = "" #_lib.RemoveTestFolder(datadir) _lib.EndTestGroupSuccess()
def PrepareNodes(): nodeport = '30000' _lib.StartTestGroup("Wallet Balance") _lib.CleanTestFolders() datadir_tmp = CopyBlockchainWithBlocks("_1_") blocks = _blocks.GetBlocks(datadir_tmp) balances = _transfers.GetGroupBalance(datadir_tmp) datadirs = [] address1 = balances.keys()[0] # address1_3 becomes a minter. we will send money from other 2 and this will receive rewards startnode.StartNode(datadir_tmp, address1,nodeport) datadir = datadir_tmp datadirs.append(datadir_tmp) nodes = [] for i in range(1, 6): port = str(30000+i) d = blocksnodes.StartNodeAndImport(port, nodeport, "Server "+str(i),"_"+str(i+1)+"_") datadir_n = d[0] address_n = d[1] nodes.append({'number':i, 'port':port, 'datadir':datadir_n,'address':address_n}) datadirs.append(datadir_n) _lib.StartTestGroup("Temp Data Dirs") _lib.StartTest("Node 0 "+os.path.basename(datadir)) for node in nodes: _lib.StartTest("Node "+str(node['number'])+" "+os.path.basename(node['datadir'])) # commmon transfer of blocks between nodes _lib.StartTestGroup("Transfer of blocks between nodes") blocks = _blocks.GetBlocks(datadir) blockslen = len(blocks) balance1 = _transfers.GetBalance(datadir, address1) as1 = "%.8f" % round(balance1[0]/10,8) # should be 6 transactions _transfers.Send(datadir,address1, nodes[0]['address'] ,as1) _transfers.Send(datadir,address1, nodes[1]['address'] ,as1) _transfers.Send(datadir,address1, nodes[2]['address'] ,as1) _transfers.Send(datadir,address1, nodes[0]['address'] ,as1) _transfers.Send(datadir,address1, nodes[1]['address'] ,as1) _transfers.Send(datadir,address1, nodes[2]['address'] ,as1) blocks = _blocks.WaitBlocks(datadir, blockslen + 1) _lib.FatalAssert(len(blocks) == blockslen + 1, "Expected "+str(blockslen +1)+" blocks") #wait while block is posted to all other nodes time.sleep(1) # check on each node for node in nodes: blocks = _blocks.WaitBlocks(node['datadir'], blockslen + 1) _lib.FatalAssert(len(blocks) == blockslen + 1, "Expected "+str(blockslen +1)+" blocks o node "+str(node['number'])) _lib.StartTestGroup("Create 2 branches of blockchain") # remove connection between subnetworks managenodes.RemoveAllNodes(nodes[0]['datadir']) managenodes.RemoveAllNodes(nodes[1]['datadir']) managenodes.RemoveAllNodes(nodes[2]['datadir']) managenodes.RemoveAllNodes(nodes[3]['datadir']) managenodes.RemoveAllNodes(nodes[4]['datadir']) managenodes.RemoveAllNodes(datadir) # first group - main and 4,5 nodes managenodes.AddNode(datadir,"localhost",'30004') managenodes.AddNode(datadir,"localhost",'30005') managenodes.AddNode(nodes[3]['datadir'],"localhost",'30005') #second group 1,2,3 managenodes.AddNode(nodes[0]['datadir'],"localhost",'30002') managenodes.AddNode(nodes[0]['datadir'],"localhost",'30003') managenodes.AddNode(nodes[1]['datadir'],"localhost",'30003') time.sleep(1) #check nodes nodes0 = managenodes.GetNodes(datadir) _lib.FatalAssert("localhost:30005", "Node 5 is not in the list of 0") _lib.FatalAssert("localhost:30004", "Node 4 is not in the list of 0") nodes1 = managenodes.GetNodes(nodes[0]['datadir']) _lib.FatalAssert("localhost:30002", "Node 2 is not in the list of 1") _lib.FatalAssert("localhost:30003", "Node 3 is not in the list of 1") nodes2 = managenodes.GetNodes(nodes[1]['datadir']) _lib.FatalAssert("localhost:30001", "Node 1 is not in the list of 2") _lib.FatalAssert("localhost:30003", "Node 3 is not in the list of 2") _lib.StartTestGroup("2 new blocks on first branch") balance1 = _transfers.GetBalance(datadir, address1) as1 = "%.8f" % round(balance1[0]/20,8) # 7 TX for 8-th block tx = [""] * 15 tx[0] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[0] tx[1] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[1] tx[2] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[2] tx[3] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[3] tx[4] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[4] tx[5] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[5] tx[6] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) print tx[6] time.sleep(7) # 8 TX for 9-th block tx[7] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[7] tx[8] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[8] tx[9] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[9] tx[10] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[10] tx[11] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[11] tx[12] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[12] tx[13] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[13] tx[14] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) print tx[14] blocks1 = _blocks.WaitBlocks(nodes[4]['datadir'], blockslen + 3) time.sleep(3) _lib.FatalAssert(len(blocks1) == blockslen + 3, "Expected "+str(blockslen +3)+" blocks for branch 1") _lib.StartTestGroup("1 new block on second branch") balance2 = _transfers.GetBalance(nodes[0]['datadir'], nodes[0]['address']) as2 = "%.8f" % round(balance2[0]/10,8) # 7 new TX tx1 = _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[1]['address'] ,as2) tx2 = _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) tx3 = _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) blocks2 = _blocks.WaitBlocks(nodes[2]['datadir'], blockslen + 2) _lib.FatalAssert(len(blocks2) == blockslen + 2, "Expected "+str(blockslen +2)+" blocks for branch 2") dstdir = _lib.getCurrentDir()+"/datafortests/" #configs for cluster 1 copyConfig(datadir, dstdir+"bc6nodes_1/config.t", address1, nodeport, nodes[3]['port'], nodes[4]['port']) copyConfig(nodes[3]['datadir'], dstdir+"bc6nodes_5/config.t", nodes[3]['address'], nodes[3]['port'], nodeport, nodes[4]['port']) copyConfig(nodes[4]['datadir'], dstdir+"bc6nodes_6/config.t", nodes[4]['address'], nodes[4]['port'], nodeport, nodes[3]['port']) #config for cluster 2 copyConfig(nodes[0]['datadir'], dstdir+"bc6nodes_2/config.t", nodes[0]['address'], nodes[0]['port'], nodes[1]['port'], nodes[2]['port']) copyConfig(nodes[1]['datadir'], dstdir+"bc6nodes_3/config.t", nodes[1]['address'], nodes[1]['port'], nodes[0]['port'], nodes[2]['port']) copyConfig(nodes[2]['datadir'], dstdir+"bc6nodes_4/config.t", nodes[2]['address'], nodes[2]['port'], nodes[0]['port'], nodes[1]['port']) #print os.path.basename(datadir) startnode.StopNode(datadir) dstdir = _lib.getCurrentDir()+"/datafortests/bc6nodes_1/" #print dstdir copyfile(datadir+"/wallet.dat", dstdir+"wallet.t") try: os.remove(dstdir+"db.sql") except OSError: pass DumpBCDB(datadir, dstdir+"db.sql") i = 2 for node in nodes: #print os.path.basename(node['datadir']) startnode.StopNode(node['datadir']) dstdir = _lib.getCurrentDir()+"/datafortests/bc6nodes_"+str(i)+"/" #print dstdir copyfile(node['datadir']+"/wallet.dat", dstdir+"wallet.t") try: os.remove(dstdir+"db.sql") except OSError: pass DumpBCDB(node['datadir'], dstdir+"db.sql") i=i+1 return [datadir, address1, nodes, blockslen+1, datadirs]
def PrepareNodesWithSQL(): nodeport = '30000' _lib.StartTestGroup("Prepare 6 nodes with SQL commands in BC") _lib.CleanTestFolders() datadir_tmp = CopyBlockchainWithBlocks("_1_") blocks = _blocks.GetBlocks(datadir_tmp) balances = _transfers.GetGroupBalance(datadir_tmp) datadirs = [] address1 = balances.keys()[0] # address1_3 becomes a minter. we will send money from other 2 and this will receive rewards AddProxyToConfig(datadir_tmp, "localhost:40040") AddInternalKeyToConfig(datadir_tmp, address1) # init internal signing startnode.StartNode(datadir_tmp, address1,nodeport) datadir = datadir_tmp datadirs.append(datadir_tmp) nodes = [] for i in range(1, 6): port = str(30000+i) dbproxyport = str(40040+i) d = blocksnodes.StartNodeAndImport(port, nodeport, "Server "+str(i), int(dbproxyport),"_"+str(i+1)+"_") datadir_n = d[0] address_n = d[1] nodes.append({'number':i, 'port':port, 'datadir':datadir_n,'address':address_n,'proxyport':dbproxyport}) datadirs.append(datadir_n) _lib.StartTestGroup("Temp Data Dirs") _lib.StartTest("Node 0 "+os.path.basename(datadir)) for node in nodes: _lib.StartTest("Node "+str(node['number'])+" "+os.path.basename(node['datadir'])) # commmon transfer of blocks between nodes _lib.StartTestGroup("Transfer of blocks between nodes") blocks = _blocks.GetBlocks(datadir) blockslen = len(blocks) balance1 = _transfers.GetBalance(datadir, address1) as1 = "%.8f" % round(balance1[0]/10,8) # should be 6 transactions. 3 currency and 3 SQL _transfers.Send(datadir,address1, nodes[0]['address'] ,as1) _transfers.Send(datadir,address1, nodes[1]['address'] ,as1) _transfers.Send(datadir,address1, nodes[2]['address'] ,as1) _sql.ExecuteSQLOnProxy(datadir,"CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row1'") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET a=2,b='row2'") blocks = _blocks.WaitBlocks(datadir, blockslen + 1) _lib.FatalAssert(len(blocks) == blockslen + 1, "Expected "+str(blockslen +1)+" blocks") #wait while block is posted to all other nodes time.sleep(2) # check on each node for node in nodes: blocks = _blocks.WaitBlocks(node['datadir'], blockslen + 1) _lib.FatalAssert(len(blocks) == blockslen + 1, "Expected "+str(blockslen +1)+" blocks o node "+str(node['number'])) _lib.StartTestGroup("Create 2 branches of blockchain") while True: time.sleep(4)# to complete all operations in progress # remove connection between subnetworks managenodes.RemoveAllNodes(nodes[0]['datadir']) managenodes.RemoveAllNodes(nodes[1]['datadir']) managenodes.RemoveAllNodes(nodes[2]['datadir']) managenodes.RemoveAllNodes(nodes[3]['datadir']) managenodes.RemoveAllNodes(nodes[4]['datadir']) managenodes.RemoveAllNodes(datadir) time.sleep(1) nodes0 = managenodes.GetNodes(datadir) nodes1 = managenodes.GetNodes(nodes[0]['datadir']) nodes2 = managenodes.GetNodes(nodes[1]['datadir']) if len(nodes0) == 0 and len(nodes1) == 0 and len(nodes2) == 0: break _lib.StartTestGroup("Nodes addresses are still not clean") # first group - main and 4,5 nodes managenodes.AddNode(datadir,"localhost",'30004') managenodes.AddNode(datadir,"localhost",'30005') managenodes.AddNode(nodes[3]['datadir'],"localhost",'30005') #second group 1,2,3 managenodes.AddNode(nodes[0]['datadir'],"localhost",'30002') managenodes.AddNode(nodes[0]['datadir'],"localhost",'30003') managenodes.AddNode(nodes[1]['datadir'],"localhost",'30003') time.sleep(1) #check nodes nodes0 = managenodes.GetNodes(datadir) _lib.FatalAssert("localhost:30005", "Node 5 is not in the list of 0") _lib.FatalAssert("localhost:30004", "Node 4 is not in the list of 0") nodes1 = managenodes.GetNodes(nodes[0]['datadir']) _lib.FatalAssert("localhost:30002", "Node 2 is not in the list of 1") _lib.FatalAssert("localhost:30003", "Node 3 is not in the list of 1") nodes2 = managenodes.GetNodes(nodes[1]['datadir']) _lib.FatalAssert("localhost:30001", "Node 1 is not in the list of 2") _lib.FatalAssert("localhost:30003", "Node 3 is not in the list of 2") _lib.StartTestGroup("2 new blocks on first branch") balance1 = _transfers.GetBalance(datadir, address1) as1 = "%.8f" % round(balance1[0]/20,8) # 7 TX for 8-th block tx = [""] * 15 tx[0] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) tx[1] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) tx[2] = _transfers.Send(datadir,address1, nodes[3]['address'] ,as1) _sql.ExecuteSQLOnProxy(datadir,"UPDATE test SET b='row2_updated' WHERE a=2") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row3'") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row4'") _sql.ExecuteSQLOnProxy(datadir,"UPDATE test SET b='row4_updated' WHERE a=4") time.sleep(7) # 8 TX for 9-th block tx[7] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) tx[8] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) tx[9] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) tx[10] = _transfers.Send(datadir,address1, nodes[4]['address'] ,as1) _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row7', a=7") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row8', a=8") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row9', a=9") _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row10', a=10") blocks1 = _blocks.WaitBlocks(nodes[4]['datadir'], blockslen + 3) time.sleep(3) _lib.FatalAssert(len(blocks1) == blockslen + 3, "Expected "+str(blockslen +3)+" blocks for branch 1") rows = _lib.DBGetRows(nodes[3]['datadir'],"SELECT * FROM test",True) _lib.FatalAssert(len(rows) == 8, "Must be 8 rows in a table on 3-th node") rows = _lib.DBGetRows(nodes[4]['datadir'],"SELECT * FROM test",True) _lib.FatalAssert(len(rows) == 8, "Must be 8 rows in a table on 4-th node") _lib.StartTestGroup("1 new block on second branch") balance2 = _transfers.GetBalance(nodes[0]['datadir'], nodes[0]['address']) as2 = "%.8f" % round(balance2[0]/10,8) # 7 new TX _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[1]['address'] ,as2) _transfers.Send(nodes[0]['datadir'], nodes[0]['address'], nodes[2]['address'] ,as2) # unique row _sql.ExecuteSQLOnProxy(nodes[0]['datadir'],"INSERT INTO test SET b='row5', a = 5") # identical as in parallel _sql.ExecuteSQLOnProxy(nodes[0]['datadir'],"INSERT INTO test SET b='row7', a=7") # other value and same ID _sql.ExecuteSQLOnProxy(nodes[0]['datadir'],"INSERT INTO test SET b='row3_other', a=3") # update same _sql.ExecuteSQLOnProxy(nodes[0]['datadir'],"UPDATE test SET b='row2_updated_other' WHERE a=2") # delete _sql.ExecuteSQLOnProxy(nodes[0]['datadir'],"DELETE FROM test WHERE a=7") blocks2 = _blocks.WaitBlocks(nodes[0]['datadir'], blockslen + 2) _lib.FatalAssert(len(blocks2) == blockslen + 2, "Expected "+str(blockslen +2)+" blocks for branch 2. Node 1") blocks2 = _blocks.WaitBlocks(nodes[1]['datadir'], blockslen + 2) _lib.FatalAssert(len(blocks2) == blockslen + 2, "Expected "+str(blockslen +2)+" blocks for branch 2. Node 2") blocks2 = _blocks.WaitBlocks(nodes[2]['datadir'], blockslen + 2) _lib.FatalAssert(len(blocks2) == blockslen + 2, "Expected "+str(blockslen +2)+" blocks for branch 2. Node 2") time.sleep(3)# to allow to update all references after block add #rows = _lib.DBGetRows(datadir,"SELECT * FROM test",True) #print "0",rows #rows = _lib.DBGetRows(nodes[0]['datadir'],"SELECT * FROM test",True) #print "1",rows #rows = _lib.DBGetRows(nodes[1]['datadir'],"SELECT * FROM test",True) #print "2",rows #rows = _lib.DBGetRows(nodes[2]['datadir'],"SELECT * FROM test",True) #print "3",rows #rows = _lib.DBGetRows(nodes[3]['datadir'],"SELECT * FROM test",True) #print "4",rows #rows = _lib.DBGetRows(nodes[4]['datadir'],"SELECT * FROM test",True) #print "5",rows # index 2 is 4-th node (3-rd in second network) rows = _lib.DBGetRows(nodes[2]['datadir'],"SELECT * FROM test",True) _lib.FatalAssert(len(rows) == 4, "Must be 4 rows in a table on 4-th node") dstdir = _lib.getCurrentDir()+"/datafortests/" #configs for cluster 1 copyConfig(datadir, dstdir+"bc6nodessql_1/config.t", address1, nodeport, nodes[3]['port'], nodes[4]['port']) copyConfig(nodes[3]['datadir'], dstdir+"bc6nodessql_5/config.t", nodes[3]['address'], nodes[3]['port'], nodeport, nodes[4]['port']) copyConfig(nodes[4]['datadir'], dstdir+"bc6nodessql_6/config.t", nodes[4]['address'], nodes[4]['port'], nodeport, nodes[3]['port']) #config for cluster 2 copyConfig(nodes[0]['datadir'], dstdir+"bc6nodessql_2/config.t", nodes[0]['address'], nodes[0]['port'], nodes[1]['port'], nodes[2]['port']) copyConfig(nodes[1]['datadir'], dstdir+"bc6nodessql_3/config.t", nodes[1]['address'], nodes[1]['port'], nodes[0]['port'], nodes[2]['port']) copyConfig(nodes[2]['datadir'], dstdir+"bc6nodessql_4/config.t", nodes[2]['address'], nodes[2]['port'], nodes[0]['port'], nodes[1]['port']) #print os.path.basename(datadir) startnode.StopNode(datadir) dstdir = _lib.getCurrentDir()+"/datafortests/bc6nodessql_1/" #print dstdir copyfile(datadir+"/wallet.dat", dstdir+"wallet.t") try: os.remove(dstdir+"db.sql") except OSError: pass DumpBCDB(datadir, dstdir+"db.sql") i = 2 for node in nodes: #print os.path.basename(node['datadir']) startnode.StopNode(node['datadir']) dstdir = _lib.getCurrentDir()+"/datafortests/bc6nodessql_"+str(i)+"/" #print dstdir copyfile(node['datadir']+"/wallet.dat", dstdir+"wallet.t") try: os.remove(dstdir+"db.sql") except OSError: pass DumpBCDB(node['datadir'], dstdir+"db.sql") i=i+1 return [datadir, address1, nodes, blockslen+1, datadirs]