예제 #1
0
def aftertest(testfilter):
    global datadir, datadir2

    if datadir != "":
        startnode.StopNode(datadir)
    if datadir2 != "":
        startnode.StopNode(datadir2)
예제 #2
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def aftertest(testfilter):
    global datadir1
    global datadir2

    if datadir1 != "" or datadir2 != "":
        _lib.StartTestGroup("Ending After failure of the test")

    if datadir1 != "":
        startnode.StopNode(datadir1, "Server 1")
    if datadir2 != "":
        startnode.StopNode(datadir2, "Server 2")
예제 #3
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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()
예제 #4
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def test(testfilter):
    global datadir1
    global datadir2

    _lib.StartTestGroup("Import long blockchain")

    _lib.CleanTestFolders()

    _lib.StartTestGroup("Copy blockchain from dataset")

    datadir1 = _lib.CreateTestFolder()
    datadir2 = _lib.CreateTestFolder()

    _lib.CopyTestData(datadir1, "bigchain")

    balances = _transfers.GetGroupBalance(datadir1)
    address = balances.keys()[0]

    startnode.StartNode(datadir1, address, '30000', "Server 1")

    address2 = initblockchain.ImportBockchain(datadir2, "localhost", '30000')

    #managenodes.RemoveAllNodes(datadir1)

    startnode.StartNode(datadir2, address2, '30001', "Server 2")

    #managenodes.RemoveAllNodes(datadir2)

    #managenodes.AddNode(datadir1, "localhost",'30001')

    blocks1 = _blocks.GetBlocks(datadir1)

    state = _node.NodeState(datadir1)

    _node.WaitBlocksInState(datadir2, len(blocks1), 120)

    blocks2 = _blocks.WaitBlocks(datadir2, len(blocks1), 120)

    #print len(blocks1), len(blocks2)

    _lib.FatalAssert(
        len(blocks1) == len(blocks2),
        "Number of bocks must be same on both servers")

    startnode.StopNode(datadir1, "Server 1")
    startnode.StopNode(datadir2, "Server 2")

    datadir1 = ""
    datadir2 = ""

    _lib.EndTestGroupSuccess()
예제 #5
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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()
예제 #6
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def test(testfilter):
    _lib.StartTestGroup("Start/Stop node")

    _lib.CleanTestFolders()
    datadir1 = _lib.CreateTestFolder()
    datadir2 = _lib.CreateTestFolder()

    startnode.StartNodeWithoutBlockchain(datadir1)
    address = startnode.InitBockchain(datadir1)
    #this starts on a port 30000
    startnode.StartNode(datadir1, address, '30000', "Server 1")

    #start second node. should fail
    startnode.StartNodeWithoutBlockchain(datadir2)

    address = ImportBockchain(datadir2, "localhost", '30000')
    startnode.StartNode(datadir2, address, '30001', "Server 2")

    startnode.StopNode(datadir1, "Server 1")
    startnode.StopNode(datadir2, "Server 2")

    _lib.RemoveTestFolder(datadir1)
    _lib.RemoveTestFolder(datadir2)
    _lib.EndTestGroupSuccess()
예제 #7
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def aftertest(testfilter):
    global datadirs
    
    for datadir in datadirs:
        if datadir != "":
            startnode.StopNode(datadir)
예제 #8
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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()
예제 #9
0
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]
예제 #10
0
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]
예제 #11
0
def test(testfilter):
    global datadir, datadir2

    _lib.StartTestGroup("SQL Sync with Proxy. care offline")

    _lib.CleanTestFolders()

    datadir = _lib.CreateTestFolder('_1_')

    startnode.StartNodeWithoutBlockchain(datadir)

    address = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir, address)  # init internal signing

    startnode.StartNode(datadir, address, '30000')

    _lib.StartTestGroup("Do initial transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    _sql.ExecuteSQLOnProxy(
        datadir,
        "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")

    # check new table exists
    tables = _lib.DBGetRows(datadir, "SHOW TABLES", True)
    found = False
    for table in tables:
        if table[0] == "test":
            found = True
            break

    _lib.FatalAssert(found, "Table not found in the DB")

    blocks = _blocks.WaitBlocks(datadir, 2)
    time.sleep(1)

    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET b='row1'")

    datadir2 = _lib.CreateTestFolder('_2_')
    address2 = initblockchain.ImportBockchain(datadir2, "localhost", '30000')

    _complex.AddProxyToConfig(datadir2, "localhost:40042")
    _complex.AddInternalKeyToConfig(datadir2,
                                    address2)  # init internal signing

    startnode.StartNode(datadir2, address2, '30001', "Server 2")
    blocks = _blocks.WaitBlocks(datadir2, 2)

    _sql.ExecuteSQLOnProxy(datadir2, "INSERT INTO test SET b='row1.2'")

    # must be 1 row , because the first row from the first node is not yet in a block and is not synced
    rows = _lib.DBGetRows(datadir2, "SELECT * FROM test", True)
    _lib.FatalAssert(len(rows) == 1, "Must be 1 row in a table on node 2")

    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET b='row2'")
    # should be 1 row on first node
    rows = _lib.DBGetRows(datadir, "SELECT * FROM test", True)
    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table on node 1")

    # wait 3-rd block
    blocks = _blocks.WaitBlocks(datadir, 3)

    time.sleep(1)  # give time to send transaction

    # wait 3-rd block on a second node
    blocks = _blocks.WaitBlocks(datadir2, 3)
    time.sleep(1)
    # and 2 row on second
    rows2 = _lib.DBGetRows(datadir2, "SELECT * FROM test ORDER BY a", True)
    _lib.FatalAssert(len(rows2) == 2, "Must be 2 rows in a table")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test ORDER BY a", True)
    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table")

    _lib.FatalAssert(
        set(rows) == set(rows2),
        "COntents of tables on both nodes must be same")

    _lib.StartTestGroup("Check cancel of following transactions")

    # temporary stop second node
    startnode.StopNode(datadir2)

    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET b='row3'")

    startnode.StartNode(datadir2, address2, '30001', "Server 2")

    _sql.ExecuteSQLOnProxy(datadir2, "INSERT INTO test SET b='row3.2'")
    _sql.ExecuteSQLOnProxy(datadir,
                           "UPDATE test SET b='row3_updated' WHERE a=3")
    _sql.ExecuteSQLOnProxy(datadir2,
                           "UPDATE test SET b='row3_updated_2' WHERE a=3")

    _sql.ExecuteSQLOnProxy(datadir,
                           "UPDATE test SET b='row3_updated_again' WHERE a=3")

    blocks = _blocks.WaitBlocks(datadir, 4)
    time.sleep(1)  # give time to send transaction

    blocks = _blocks.WaitBlocks(datadir2, 4)
    time.sleep(1)  # give time to send transaction

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test ORDER BY a", True)

    _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table")

    rows2 = _lib.DBGetRows(datadir2, "SELECT * FROM test ORDER BY a", True)

    _lib.FatalAssert(len(rows2) == 3, "Must be 3 rows in a table")

    _lib.FatalAssert(
        set(rows) == set(rows2),
        "COntents of tables on both nodes must be same")

    startnode.StopNode(datadir)
    datadir = ""

    startnode.StopNode(datadir2)
    datadir2 = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #12
0
def test(testfilter):
    global datadir

    _lib.StartTestGroup("Init Blockchain on non empty DB")

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    address2 = transactions.CreateWallet(datadir)
    address3 = transactions.CreateWallet(datadir)

    _lib.CopyTestConsensusConfig(datadir, "disabledcreate", address2)

    # add some data to the DB
    _lib.DBExecute(
        datadir,
        "create table test (a int unsigned auto_increment primary key, b varchar(10))"
    )
    _lib.DBExecute(datadir, "insert into test SET b='row1'")
    _lib.DBExecute(datadir, "insert into test SET b='row2'")
    _lib.DBExecute(
        datadir,
        "create table members (a int unsigned auto_increment primary key, b varchar(10))"
    )
    _lib.DBExecute(datadir, "insert into members SET b='row1'")
    _lib.DBExecute(datadir, "insert into members SET b='row2'")

    address = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir, address3)  # init internal signing

    startnode.StartNode(datadir, address, '30000')

    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    blocks = _blocks.GetBlocks(datadir)

    _lib.FatalAssert(len(blocks) == 2, "Should be 2 blocks in blockchain")

    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET b='row3'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET b='row4'")

    blocks = _blocks.WaitBlocks(datadir, 3)

    _lib.FatalAssert(len(blocks) == 3, "Should be 3 blocks in blockchain")

    time.sleep(1)

    _sql.ExecuteSQLOnProxyFail(datadir, "INSERT INTO test SET b='row3'")

    _transfers.Send(datadir, address, address3, 1)

    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET b='row3'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET b='row4'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET b='row5'")

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #13
0
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
    _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")
    
    _lib.StartTestGroup("Connect subnetworks")
    managenodes.AddNode(nodes[0]["datadir"],"localhost",'30001')
   
    # wait whle blocks are exachanged
    _blocks.WaitBlocks(nodes[1]["datadir"],9)
    
    # get unapproved transactions (after block cancel)
    txlist = _transfers.WaitUnapprovedTransactions(nodes[1]["datadir"], 7)
    
    _lib.FatalAssert(len(txlist) == 7,"SHould be 7 unapproved TXs")
    
    #send another 2 TXs to have 9 required TXs
    balances = _transfers.GetGroupBalance(nodes[1]["datadir"])
    
    mainbalance = _transfers.GetGroupBalance(nodes[0]["datadir"])

    addr1 = balances.keys()[0]
    amount = "%.8f" % round(balances[addr1][0]/5,8)
    
    _transfers.Send(nodes[1]["datadir"],addr1,mainbalance.keys()[0],amount)
    _transfers.Send(nodes[1]["datadir"],addr1,mainbalance.keys()[0],amount)
    
    # wait while new block created and posted to all other
    b1 = _blocks.WaitBlocks(nodes[1]["datadir"],10)
    b2 = _blocks.WaitBlocks(nodes[0]["datadir"],10)
    
    _lib.StartTestGroup("Check blockchain after updates")
    blocks2_0 = _blocks.GetBlocks(nodes[0]["datadir"])

    _lib.FatalAssert(len(blocks2_0) == 10,"10 block must be on node 0")
    _lib.FatalAssert(blocks2_0[1] == blocks1[0],"9 block must be same for both")
    
    blocks2_1 = _blocks.GetBlocks(nodes[1]["datadir"])
    _lib.FatalAssert(len(blocks2_1) == 10,"10 block must be on node 1")
    _lib.FatalAssert(blocks2_1[1] == blocks1[0],"9 block must be same for both")
        
    _lib.StartTestGroup("Node 2 "+os.path.basename(nodes[2]["datadir"]))
    _blocks.WaitBlocks(nodes[2]["datadir"],10)
    
    blocks2_2 = _blocks.GetBlocks(nodes[2]["datadir"])
    
    _lib.FatalAssert(len(blocks2_2) == 10,"10 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"],10)
    blocks2_3 = _blocks.GetBlocks(nodes[3]["datadir"])
    
    _lib.FatalAssert(len(blocks2_3) == 10,"10 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"],10)
    blocks2_4 = _blocks.GetBlocks(nodes[4]["datadir"])
    
    _lib.FatalAssert(len(blocks2_4) == 10,"10 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"],10)
    blocks2_5 = _blocks.GetBlocks(nodes[5]["datadir"])
    
    _lib.FatalAssert(len(blocks2_5) == 10,"10 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
    transactions.GetUnapprovedTransactionsEmpty(nodes[1]["datadir"])
    
    for node in nodes:
        startnode.StopNode(node['datadir'])
        datadirs[node['index']] = ""
    
    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #14
0
def test(testfilter):
    global datadir
    
    _lib.StartTestGroup("SQL Consensus rules postponed")

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    startnode.StartNodeWithoutBlockchain(datadir)
    
    address2 = transactions.CreateWallet(datadir)
    address3 = transactions.CreateWallet(datadir)
    
    _lib.CopyTestConsensusConfig(datadir,"postponedlimits", address2)
    
    address = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir, address3) # init internal signing

    startnode.StartNode(datadir, address, '30000')
    
    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)
    
    _sql.ExecuteSQLOnProxy(datadir, "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")
    
    blocks = _blocks.WaitBlocks(datadir, 2)
    time.sleep(1)
    
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row1'")
    
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row2'")
    
    blocks = _blocks.WaitBlocks(datadir, 3)
    time.sleep(1)
    
    _sql.ExecuteSQLOnProxy(datadir, "CREATE TABLE members (id INT auto_increment PRIMARY KEY, name VARCHAR(20))")
    
    tables = _lib.DBGetRows(datadir,"SHOW TABLES")
    found = False
    for table in tables:
        if table[0] == "members":
            found = True
            break
    
    _lib.FatalAssert(found, "Table not found in the DB")
    
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user1'")
    
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='use2'")
    
    #_sql.ExecuteSQLOnProxy(datadir, "DROP TABLE members")
    
    blocks = _blocks.WaitBlocks(datadir, 4)
    time.sleep(1)
    
    _sql.ExecuteSQLOnProxyFail(datadir, "CREATE TABLE test2 (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")
    
    _sql.ExecuteSQLOnProxy(datadir, "DROP TABLE members")
    
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row3'")
    _sql.ExecuteSQLOnProxy(datadir,"UPDATE test SET b='row3+upd1' WHERE a=3")
    _sql.ExecuteSQLOnProxy(datadir,"UPDATE test SET b='row3+upd2' WHERE a=3")
    
    blocks = _blocks.WaitBlocks(datadir, 5)
    time.sleep(1)
    # now this must be paid
    _sql.ExecuteSQLOnProxyFail(datadir,"UPDATE test SET b='row3+upd2' WHERE a=3")
    
    _sql.ExecuteSQLOnProxy(datadir, "CREATE TABLE members (id INT auto_increment PRIMARY KEY, name VARCHAR(20))")
    
    tables = _lib.DBGetRows(datadir,"SHOW TABLES")
    found = False
    for table in tables:
        if table[0] == "members":
            found = True
            break
        
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user1'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user2'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user3'")
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row4'")
    
    blocks = _blocks.WaitBlocks(datadir, 6)
    time.sleep(1)
    
    _sql.ExecuteSQLOnProxyFail(datadir, "INSERT INTO members SET name='user4'")
    _sql.ExecuteSQLOnProxyFail(datadir,"INSERT INTO test SET b='row5'")
    
    # send money to be able to execute this
    _transfers.Send(datadir,address, address3 ,10) # needs this to create table
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user4'")
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row5'")
    _sql.ExecuteSQLOnProxy(datadir, "CREATE TABLE test2 (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")
    
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test2 SET b='row1'")
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test2 SET b='row2'")
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test2 SET b='row3'")
    
    blocks = _blocks.WaitBlocks(datadir, 7)
    time.sleep(1)
    
    startnode.StopNode(datadir)
    datadir = ""
    
    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
    

    
예제 #15
0
def test(testfilter):
    global datadirs
    _lib.CleanTestFolders()
    #return _complex.PrepareNodesWithSQL()

    _lib.StartTestGroup("Load ready BC into 6 nodes")

    dirs = _complex.Copy6NodesSQL()

    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
    _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")

    _lib.StartTestGroup("Connect subnetworks")
    managenodes.AddNode(nodes[0]["datadir"], "localhost", '30001')

    # wait while blocks are exachanged
    _blocks.WaitBlocks(nodes[1]["datadir"], 9)

    s = 1
    time.sleep(2)

    while s < 10:
        rows1 = _lib.DBGetRows(nodes[1]['datadir'], "SELECT * FROM test", True)
        rows2 = _lib.DBGetRows(nodes[2]['datadir'], "SELECT * FROM test", True)
        rows3 = _lib.DBGetRows(nodes[3]['datadir'], "SELECT * FROM test", True)

        if ((rows1[1][1] == "row2_updated"
             or rows1[1][1] == "row2_updated_other")
                and (rows2[1][1] == "row2_updated"
                     or rows2[1][1] == "row2_updated_other")
                and (rows3[1][1] == "row2_updated"
                     or rows3[1][1] == "row2_updated_other")):
            break

        time.sleep(1)
        s = s + 1

    # get unapproved transactions (after block cancel)
    txlist = _transfers.WaitUnapprovedTransactions(nodes[1]["datadir"], 5, 15)
    #print(txlist)
    _lib.FatalAssert(
        len(txlist) == 5,
        "Should be 5 unapproved TXs, but has " + str(len(txlist)))

    #send another 2 TXs to have 9 required TXs
    balances = _transfers.GetGroupBalance(nodes[1]["datadir"])

    mainbalance = _transfers.GetGroupBalance(nodes[0]["datadir"])
    addr1 = balances.keys()[0]
    amount = "%.8f" % round(balances[addr1][0] / 5, 8)

    # add yet mode 4 TXs to complete a block
    _transfers.Send(nodes[1]["datadir"], addr1, mainbalance.keys()[0], amount)

    # 3 SQL txs
    # on another node. should go to the second node too
    _sql.ExecuteSQLOnProxy(nodes[0]['datadir'],
                           "INSERT INTO test SET b='row11', a=11")
    _sql.ExecuteSQLOnProxy(nodes[1]['datadir'],
                           "UPDATE test set b='row5_update_other' WHERE a=5")

    time.sleep(2)

    txlist = _transfers.WaitUnapprovedTransactions(nodes[0]["datadir"], 1, 10)
    # there should be minimum 1 tx, maximum 2. Because currency TX's can be based on other 1 currency TX's that are not yet on other nodes (from canceled block)
    _lib.FatalAssert(
        len(txlist) >= 1 and len(txlist) <= 2,
        "SHould be from 1 to 2 unapproved TXs on node 1")

    txlist = _transfers.WaitUnapprovedTransactions(nodes[1]["datadir"], 8, 10)

    _lib.FatalAssert(len(txlist) == 8, "SHould be 8 unapproved TXs")

    # after this TX new block should be created
    _sql.ExecuteSQLOnProxy(
        nodes[1]['datadir'],
        "UPDATE test set b='row11_update_other' WHERE a=11")

    # wait while new block created and posted to all other
    b1 = _blocks.WaitBlocks(nodes[1]["datadir"], 10)
    b2 = _blocks.WaitBlocks(nodes[0]["datadir"], 10)

    _lib.StartTestGroup("Check blockchain after updates")
    blocks2_0 = _blocks.GetBlocks(nodes[0]["datadir"])

    _lib.FatalAssert(len(blocks2_0) == 10, "10 block must be on node 0")
    _lib.FatalAssert(blocks2_0[1] == blocks1[0],
                     "9 block must be same for both")

    blocks2_1 = _blocks.GetBlocks(nodes[1]["datadir"])
    _lib.FatalAssert(len(blocks2_1) == 10, "10 block must be on node 1")
    _lib.FatalAssert(blocks2_1[1] == blocks1[0],
                     "9 block must be same for both")

    _lib.StartTestGroup("Node 2 " + os.path.basename(nodes[2]["datadir"]))
    _blocks.WaitBlocks(nodes[2]["datadir"], 10)

    blocks2_2 = _blocks.GetBlocks(nodes[2]["datadir"])

    _lib.FatalAssert(len(blocks2_2) == 10, "10 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"], 10)
    blocks2_3 = _blocks.GetBlocks(nodes[3]["datadir"])

    _lib.FatalAssert(len(blocks2_3) == 10, "10 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"], 10)
    blocks2_4 = _blocks.GetBlocks(nodes[4]["datadir"])

    _lib.FatalAssert(len(blocks2_4) == 10, "10 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"], 10)
    blocks2_5 = _blocks.GetBlocks(nodes[5]["datadir"])

    _lib.FatalAssert(len(blocks2_5) == 10, "10 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")

    rows1 = _lib.DBGetRows(nodes[0]['datadir'], "SELECT * FROM test", True)
    rows2 = _lib.DBGetRows(nodes[1]['datadir'], "SELECT * FROM test", True)

    _lib.FatalAssert(rows1 == rows2,
                     "Table contents on node 1 and 2 must be same")

    rows3 = _lib.DBGetRows(nodes[2]['datadir'], "SELECT * FROM test", True)

    _lib.FatalAssert(rows1 == rows3,
                     "Table contents on node 1 and 3 must be same")

    rows4 = _lib.DBGetRows(nodes[3]['datadir'], "SELECT * FROM test", True)

    _lib.FatalAssert(rows1 == rows4,
                     "Table contents on node 1 and 4 must be same")

    rows5 = _lib.DBGetRows(nodes[4]['datadir'], "SELECT * FROM test", True)

    _lib.FatalAssert(rows1 == rows5,
                     "Table contents on node 1 and 5 must be same")

    rows6 = _lib.DBGetRows(nodes[5]['datadir'], "SELECT * FROM test", True)

    _lib.FatalAssert(rows1 == rows6,
                     "Table contents on node 1 and 6 must be same")

    _lib.StartTestGroup("Final checks")
    # should be empty list of transactions now
    transactions.GetUnapprovedTransactionsEmpty(nodes[1]["datadir"])

    for node in nodes:
        startnode.StopNode(node['datadir'])
        datadirs[node['index']] = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #16
0
def test(testfilter):
    global datadir

    nodeport = '30000'

    _lib.CleanTestFolders()
    _lib.StartTestGroup("Init Blockchain")

    datadir_tmp = _lib.CreateTestFolder()

    r = blocksbasic.PrepareBlockchain(datadir_tmp, nodeport)
    mainaddress = r[0]

    startnode.StartNode(datadir_tmp, mainaddress, nodeport)
    datadir = datadir_tmp

    walletdatadir = _lib.CreateTestFolder("wallet")

    #create 100 wallets
    for i in range(1, 101):
        _wallet.CreateWallet(walletdatadir)

    addresses = _wallet.GetWallets(walletdatadir)

    #send first TX
    balances = _transfers.GetGroupBalance(datadir)

    _transfers.Send(datadir, mainaddress, addresses[0],
                    balances[mainaddress][0])

    _blocks.WaitBlocks(datadir, 2)

    blocks = _blocks.GetBlocksExt(datadir)

    _lib.FatalAssert(len(blocks) == 2, "2 blocks are expected")

    initialbalance = _wallet.GetBalanceWallet(walletdatadir, addresses[0],
                                              "localhost", nodeport)

    _lib.FatalAssert(
        initialbalance[0] == balances[mainaddress][0],
        "Balance of the first wallet should be same as posted to it")

    _lib.StartTestGroup("Do transactions")

    for i in range(1, 100):
        _lib.StartTestGroup("Iteration " + str(i))

        addresses = _wallet.GetGroupBalanceWallet(walletdatadir, "localhost",
                                                  nodeport)

        for address in addresses.keys():
            bal = addresses[address][0]

            if bal <= 0:
                continue

            to = random.choice(addresses.keys())

            amount = "%.8f" % round(bal / 2, 8)

            tx = _wallet.Send(walletdatadir, address, to, amount, "localhost",
                              nodeport)

        blocks = _blocks.GetBlocksExt(datadir)
        print "\t\tNumer of blocks %d" % (len(blocks))

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #17
0
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()
예제 #18
0
def test(testfilter):
    global datadir, datadir2

    _lib.StartTestGroup("SQL Sync with Proxy")

    _lib.CleanTestFolders()

    datadir = _lib.CreateTestFolder('_1_')

    startnode.StartNodeWithoutBlockchain(datadir)

    address = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir, address)  # init internal signing

    startnode.StartNode(datadir, address, '30000')

    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    _sql.ExecuteSQLOnProxy(
        datadir,
        "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")

    # check new table exists
    tables = _lib.DBGetRows(datadir, "SHOW TABLES", True)
    found = False
    for table in tables:
        if table[0] == "test":
            found = True
            break

    _lib.FatalAssert(found, "Table not found in the DB")

    blocks = _blocks.WaitBlocks(datadir, 2)
    time.sleep(2)

    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET b='row1'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test SET a=2,b='row2'")
    time.sleep(1)
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO test (b) VALUES ('row3')")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test", True)

    _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table")

    blocks = _blocks.WaitBlocks(datadir, 3)

    time.sleep(2)  # while all caches are cleaned

    txlist = transactions.GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    # update data
    _sql.ExecuteSQLOnProxy(datadir,
                           " update test SET b=\"row3 updated\" where a=3")
    _sql.ExecuteSQLOnProxy(
        datadir, " update test SET b=\"row2 updated\" where a = '2'")

    blocks = _blocks.WaitBlocks(datadir, 4)
    time.sleep(1)  # while all caches are cleaned

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test", True)
    for row in rows:
        if row[0] == "1":
            _lib.FatalAssert(row[1] == "row1",
                             "Row 1 value is wrong. Got: " + row[1])

        if row[0] == "2":
            _lib.FatalAssert(row[1] == "row2 updated",
                             "Row 2 value is wrong. Got: " + row[1])

        if row[0] == "3":
            _lib.FatalAssert(row[1] == "row3 updated",
                             "Row 3 value is wrong. Got: " + row[1])

    _sql.ExecuteSQLOnProxyFail(datadir, "INSERT INTO test SET a=2,b='row2'")

    _sql.ExecuteSQLOnProxy(datadir, " DELETE  from   test where a=3")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test", True)
    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table")

    datadir2 = _lib.CreateTestFolder('_2_')

    address2 = initblockchain.ImportBockchain(datadir2, "localhost", '30000')

    _complex.AddProxyToConfig(datadir2, "localhost:40042")
    _complex.AddInternalKeyToConfig(datadir2,
                                    address2)  # init internal signing

    startnode.StartNode(datadir2, address2, '30001', "Server 2")
    blocks = _blocks.WaitBlocks(datadir2, 4)

    # Send money to new node address
    txid1 = _transfers.Send(datadir, address, address2, 1)

    time.sleep(2)

    # must be 2 delete transaction should be imported
    rows = _lib.DBGetRows(datadir2, "SELECT * FROM test", True)

    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table")

    _sql.ExecuteSQLOnProxy(datadir, " DELETE  from   test where a=2")

    # send money again
    txid2 = _transfers.Send(datadir, address, address2, 1)

    # should be 1 row on first node
    rows = _lib.DBGetRows(datadir, "SELECT * FROM test", True)
    _lib.FatalAssert(len(rows) == 1, "Must be 1 rows in a table")

    time.sleep(1)  # give time to send transaction
    # and 2 row on second
    rows = _lib.DBGetRows(datadir2, "SELECT * FROM test", True)
    _lib.FatalAssert(len(rows) == 1, "Must be 1 rows in a table")

    blocks = _blocks.WaitBlocks(datadir, 5)
    blocks = _blocks.WaitBlocks(datadir2, 5)
    time.sleep(2)

    # send money back

    txid3 = _transfers.Send(datadir2, address2, address, 2)
    time.sleep(1)
    # insert on second node. check on first
    _sql.ExecuteSQLOnProxy(datadir2, "INSERT INTO test SET a=2,b='row2'")

    time.sleep(3)  # give time to send transaction

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test", True)

    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table")

    # check balances
    bal1 = _transfers.GetBalance(datadir, address)
    bal2 = _transfers.GetBalance(datadir2, address2)

    _lib.FatalAssert(bal2[2] == -2,
                     "Pending balance should be -2 for second address")
    _lib.FatalAssert(bal1[2] == 2,
                     "Pending balance should be 2 for first address")

    startnode.StopNode(datadir)
    datadir = ""

    startnode.StopNode(datadir2)
    datadir2 = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #19
0
def test(testfilter):
    global datadir
    
    _lib.StartTestGroup("SQL Proxy basic")

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    startnode.StartNodeWithoutBlockchain(datadir)
    
    address2 = transactions.CreateWallet(datadir)
    address3 = transactions.CreateWallet(datadir)
    
    _lib.CopyTestConsensusConfig(datadir,"customnumbers", address2)
    
    address = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir, address3) # init internal signing

    startnode.StartNode(datadir, address, '30000')
    
    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)
    
    # address3 signs proxy transactions. it doesn't have money yet
    _transfers.Send(datadir,address, address3 ,5) # needs this to create table
    
    blocks = _blocks.WaitBlocks(datadir, 2)
    time.sleep(1)
    
    _sql.ExecuteSQLOnProxy(datadir, "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")
    
    tables = _lib.DBGetRows(datadir,"SHOW TABLES")
    found = False
    for table in tables:
        if table[0] == "test":
            found = True
            break
        
    _lib.FatalAssert(found, "Table test not found in the DB")
    
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row1'")
    
    blocks = _blocks.WaitBlocks(datadir, 3)
    time.sleep(1)
    
    # now try to create paid table. it should fail because no money
    _sql.ExecuteSQLOnProxyFail(datadir, "CREATE TABLE members (id INT auto_increment PRIMARY KEY, name VARCHAR(20))")
    
    # send money
    _transfers.Send(datadir,address, address3 ,10) # this table creation costs 10 
    
    _sql.ExecuteSQLOnProxy(datadir, "CREATE TABLE members (id INT auto_increment PRIMARY KEY, name VARCHAR(20))")
    
    tables = _lib.DBGetRows(datadir,"SHOW TABLES")
    found = False
    for table in tables:
        if table[0] == "members":
            found = True
            break
    
    _lib.FatalAssert(found, "Table not found in the DB")
    
    _sql.ExecuteSQLOnProxyFail(datadir, "INSERT INTO members SET name='user1'")
    # but should be abe to isert to free table
    _sql.ExecuteSQLOnProxy(datadir,"INSERT INTO test SET b='row2'")
    
    blocks = _blocks.WaitBlocks(datadir, 4)
    time.sleep(2)
    
    _transfers.Send(datadir,address, address3 ,1) 
    
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user1'")
    _sql.ExecuteSQLOnProxy(datadir, "INSERT INTO members SET name='user2'")
    _sql.ExecuteSQLOnProxyFail(datadir, "INSERT INTO members SET name='user3'")
    
    bal1 = _transfers.GetBalance(datadir, address)
    bal2 = _transfers.GetBalance(datadir, address2)
    bal3 = _transfers.GetBalance(datadir, address3)

    _lib.FatalAssert(bal1[1] == 45.0, "Balance of a first addres is expected to be 45")
    _lib.FatalAssert(bal2[1] == 15.0, "Balance of a second addres is expected to be 15")
    _lib.FatalAssert(bal3[1] == 0.0, "Balance of a third addres is expected to be 0")
    
    startnode.StopNode(datadir)
    datadir = ""
    
    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
    

    
예제 #20
0
def test(testfilter):
    global datadir, datadir2

    _lib.StartTestGroup("SQL basic")

    _lib.CleanTestFolders()

    datadir = _lib.CreateTestFolder('_1_')
    datadir2 = _lib.CreateTestFolder('_2_')

    startnode.StartNodeWithoutBlockchain(datadir)
    address = startnode.InitBockchain(datadir)
    startnode.StartNode(datadir, address, '30000')

    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    tx1 = _sql.ExecuteSQL(
        datadir, address,
        "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")

    # check new table exists
    tables = _lib.DBGetRows(datadir, "SHOW TABLES")
    found = False
    for table in tables:
        if table[0] == "test":
            found = True
            break

    _lib.FatalAssert(found, "Table not found in the DB")

    blocks = _blocks.WaitBlocks(datadir, 2)

    tx2 = _sql.ExecuteSQL(datadir, address, "INSERT INTO test SET b='row1'")
    tx3 = _sql.ExecuteSQL(datadir, address,
                          "INSERT INTO test SET a=2,b='row2'")
    time.sleep(1)
    tx4 = _sql.ExecuteSQL(datadir, address,
                          "INSERT INTO test (b) VALUES ('row3')")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")

    _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table")

    blocks = _blocks.WaitBlocks(datadir, 3)

    time.sleep(1)  # while all caches are cleaned

    txlist = transactions.GetUnapprovedTransactions(datadir)
    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    # update data
    _sql.ExecuteSQL(datadir, address,
                    " update test SET b=\"row3 updated\" where a=3")
    _sql.ExecuteSQL(datadir, address,
                    " update test SET b=\"row2 updated\" where a = '2'")

    blocks = _blocks.WaitBlocks(datadir, 4)
    time.sleep(1)  # while all caches are cleaned

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")
    for row in rows:
        if row[0] == "1":
            _lib.FatalAssert(row[1] == "row1",
                             "Row 1 value is wrong. Got: " + row[1])

        if row[0] == "2":
            _lib.FatalAssert(row[1] == "row2 updated",
                             "Row 2 value is wrong. Got: " + row[1])

        if row[0] == "3":
            _lib.FatalAssert(row[1] == "row3 updated",
                             "Row 3 value is wrong. Got: " + row[1])

    error = _sql.ExecuteSQLFailure(datadir, address,
                                   "INSERT INTO test SET a=2,b='row2'")

    txid = _sql.ExecuteSQL(datadir, address, " DELETE  from   test where a=3")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")
    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table")

    address2 = initblockchain.ImportBockchain(datadir2, "localhost", '30000')

    startnode.StartNode(datadir2, address2, '30001', "Server 2")
    blocks = _blocks.WaitBlocks(datadir2, 4)

    # must be 3 rows because delete transaction was not posted to that node
    # but this will be changed in 3 seconds. we do this check less 3 seconds after server start
    rows = _lib.DBGetRows(datadir2, "SELECT * FROM test")
    _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table")

    txid = _sql.ExecuteSQL(datadir, address, " DELETE  from   test where a=2")

    time.sleep(2)
    # should be 1 row on first node
    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")

    _lib.FatalAssert(len(rows) == 1, "Must be 1 rows in a table")

    time.sleep(1)  # give time to send transaction
    # and 2 row on second
    rows = _lib.DBGetRows(datadir2, "SELECT * FROM test")

    _lib.FatalAssert(len(rows) == 1, "Must be 1 rows in a table")

    startnode.StopNode(datadir)
    datadir = ""

    startnode.StopNode(datadir2)
    datadir2 = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #21
0
def test(testfilter):
    global datadir1
    global datadir2

    _lib.StartTestGroup(
        "Test data exahcnge with non-public address node and long minting")

    _lib.CleanTestFolders()

    datadir = _lib.CreateTestFolder()

    address1_2 = transactions.CreateWallet(datadir)
    address1_3 = transactions.CreateWallet(datadir)

    _lib.CopyTestConsensusConfig(datadir, "hardpow", address1_3)

    address1_1 = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir,
                                    address1_2)  # init internal signing

    startnode.StartNode(datadir, address1_1, '30000')
    datadir1 = datadir

    tx = _transfers.Send(datadir, address1_1, address1_2, 2)

    # node 1 should start minting now

    d = pullsync.StartNodeAndImport('30001', '30000', "Server 2", 0, "_2_",
                                    "xxx.com")
    datadir2 = d[0]
    address2 = d[1]

    # list of transactions must be emoty on 2-nd node
    transactions.GetUnapprovedTransactionsEmpty(datadir2)
    time.sleep(1)
    transactions.GetUnapprovedTransactionsEmpty(datadir2)
    time.sleep(1)
    transactions.GetUnapprovedTransactionsEmpty(datadir2)
    time.sleep(1)

    # wait 2-nd block
    blocks = _blocks.WaitBlocks(datadir2, 2)
    _lib.FatalAssert(len(blocks) == 2, "Should be 2 blocks on server 2")

    # 2 new TX to make next block
    tx = _transfers.Send(datadir, address1_1, address1_2, 1)
    tx = _transfers.Send(datadir, address1_1, address1_2, 1)
    time.sleep(1)
    tx = _transfers.Send(datadir, address1_1, address1_2, 1)

    # on second node only the last TX should appear soon
    txlist = _transfers.WaitUnapprovedTransactions(datadir2, 1, 6)

    # there can be 2 cases. this TX can be based on other TX which is currently under building of a block
    # in this case TX will fail on pull
    if (len(txlist) == 0):
        # wait while 3-rd block appears, after this TX should be added
        blocks = _blocks.WaitBlocks(datadir2, 3)
        _lib.FatalAssert(len(blocks) == 3, "Should be 3 blocks on server 2")

        txlist = _transfers.WaitUnapprovedTransactions(datadir2, 1, 6)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 transaction on server 2")

    _lib.FatalAssert(tx in txlist.keys(), "3-rd TX shoul be in keys")

    startnode.StopNode(datadir1, "Server 1")
    datadir1 = ""

    startnode.StopNode(datadir2, "Server 2")
    datadir2 = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #22
0
def test(testfilter):
    _lib.StartTestGroup("Start/Stop node")

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    startnode.StartNodeWithoutBlockchain(datadir)
    address = startnode.InitBockchain(datadir)
    startnode.StartNode(datadir, address, '30000')
    startnode.StopNode(datadir)

    # create another 3 addresses
    address2 = CreateWallet(datadir)
    address3 = CreateWallet(datadir)

    _lib.StartTestGroup("Do transactions")

    GetUnapprovedTransactionsEmpty(datadir)

    amount1 = '1'
    amount2 = '2'

    txid1 = _transfers.Send(datadir, address, address2, amount1)

    txlist = GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    txid2 = _transfers.Send(datadir, address, address3, amount2)

    txlist = GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 2, "Should be 2 unapproved transaction")

    if txid1 not in txlist.keys():
        _lib.Fatal("Transaction 1 is not in the list of transactions")

    if txid2 not in txlist.keys():
        _lib.Fatal("Transaction 2 is not in the list of transactions")

    _lib.FatalAssertFloat(amount1, txlist[txid1][3],
                          "Amount of transaction 1 is wrong")

    _lib.FatalAssertFloat(amount2, txlist[txid2][3],
                          "Amount of transaction 2 is wrong")

    _lib.StartTestGroup("Cancel transaction")

    txid3 = _transfers.Send(datadir, address, address2,
                            float(amount1) + float(amount2))

    txlist = GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 3, "Should be 3 unapproved transaction")

    CancelTransaction(datadir, txid3)

    txlist = GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 2, "Should be 2 unapproved transaction")

    #previous 2 transactions still must be in the list
    if txid1 not in txlist.keys():
        _lib.Fatal("Transaction 1 is not in the list of transactions")

    if txid2 not in txlist.keys():
        _lib.Fatal("Transaction 2 is not in the list of transactions")

    _transfers.SendTooMuch(datadir, address, address2,
                           15)  # the account should have only 10

    # cancel all transactions
    CancelTransaction(datadir, txid1)
    CancelTransaction(datadir, txid2)

    GetUnapprovedTransactionsEmpty(datadir)

    #==========================================================================
    # send when node server is running
    startnode.StartNode(datadir, address, '30000')

    txid1 = _transfers.Send(datadir, address, address2, amount1)

    txlist = GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    txid2 = _transfers.Send(datadir, address, address3, amount2)

    txlist = GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 2, "Should be 2 unapproved transaction")

    if txid1 not in txlist.keys():
        _lib.Fatal("Transaction 1 is not in the list of transactions")

    if txid2 not in txlist.keys():
        _lib.Fatal("Transaction 2 is not in the list of transactions")

    startnode.StopNode(datadir)

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #23
0
def test(testfilter):
    global datadir1
    global datadir2
    global datadir3

    _lib.StartTestGroup("Manage nodes list")

    _lib.CleanTestFolders()
    datadir1 = _lib.CreateTestFolder('_1_')
    datadir2 = _lib.CreateTestFolder('_2_')

    _lib.StartTestGroup("Create blockchain and run node 1")
    r = blocksbasic.PrepareBlockchain(datadir1, '30000')
    address = r[0]

    startnode.StartNode(datadir1, address, '30000', "Server 1")

    address2 = initblockchain.ImportBockchain(datadir2, "localhost", '30000')

    #RemoveAllNodes(datadir1)
    nodes = GetNodes(datadir1)
    _lib.FatalAssert(len(nodes) == 0, "Should be 0 nodes in output")

    AddNode(datadir1, "localhost", '30001')

    nodes = GetNodes(datadir1)
    _lib.FatalAssert(len(nodes) == 1, "Should be 1 nodes in output")

    RemoveNode(datadir1, "localhost", '30001')

    nodes = GetNodes(datadir1)
    _lib.FatalAssert(len(nodes) == 0, "Should be 0 nodes in output")

    startnode.StartNode(datadir2, address2, '30001', "Server 2")

    #RemoveAllNodes(datadir2)

    #AddNode(datadir1, "localhost",'30001')

    nodes = GetNodes(datadir1)
    _lib.FatalAssert(len(nodes) == 1, "Should be 1 nodes in output")

    startnode.StopNode(datadir2, "Server 2")

    startnode.StartNode(datadir2, address2, '30001', "Server 2")

    nodes = GetNodes(datadir1)

    _lib.FatalAssert(len(nodes) == 1, "Should be 1 nodes in output")
    _lib.FatalAssert(
        nodes.keys()[0] == "localhost:30001"
        or nodes.keys()[0] == "127.0.0.1:30001", "Wrong node in the list")

    # check transactions work fine between nodes
    _transfers.Send(datadir1, address, address2, '3')

    txlist = transactions.GetUnapprovedTransactions(datadir1)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    blocks = _blocks.WaitBlocks(datadir1, 2)

    # send another 2 TX to make a block
    tx = _transfers.Send(datadir1, address, address2, '0.01')

    tx = _transfers.Send(datadir1, address, address2, '0.01')

    blocks = _blocks.WaitBlocks(datadir1, 3)
    time.sleep(2)

    tx = txid1 = _transfers.Send(datadir1, address, address2, '1')
    time.sleep(1)

    txlist = transactions.GetUnapprovedTransactions(datadir1)

    _lib.FatalAssert(
        len(txlist) == 1,
        "Should be 1 unapproved transaction. Got " + str(len(txlist)))

    time.sleep(3)
    # and now get transactions from second node
    txlist = _transfers.WaitUnapprovedTransactions(datadir2, 1)

    _lib.FatalAssert(
        len(txlist) == 1,
        "Should be 1 unapproved transaction on second node. Got " +
        str(len(txlist)) + " " + str(txlist))
    #print txid1
    #print txlist
    if txid1 not in txlist.keys():
        _lib.Fatal(
            "Transaction 1 is not in the list of transactions on second node")

    # start one more node
    datadir3 = _lib.CreateTestFolder('_3_')
    address3 = initblockchain.ImportBockchain(datadir3, "localhost", '30000')

    startnode.StartNode(datadir3, address3, '30002', "Server 3")

    #RemoveAllNodes(datadir3)

    #AddNode(datadir3, "localhost",'30001')

    time.sleep(2)  # wait while nodes exchange addresses

    nodes = GetNodes(datadir1)
    _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes in output of 1")

    nodes = GetNodes(datadir2)

    _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes in output of 2")

    nodes = GetNodes(datadir3)
    _lib.FatalAssert(len(nodes) == 2, "Should be 2 nodes in output of 3")

    txid1 = _transfers.Send(datadir1, address, address3, '4')

    # unapproved TX is pulled from node 1 on start
    txlist3 = transactions.GetUnapprovedTransactions(datadir3)

    _lib.FatalAssert(
        len(txlist3) == 1, "Should be 1 unapproved transactions on 3")

    time.sleep(3)  # we need to give a chance to sync all

    txlist1 = transactions.GetUnapprovedTransactions(datadir1)
    txlist2 = transactions.GetUnapprovedTransactions(datadir2)

    _lib.FatalAssert(
        len(txlist1) == 2, "Should be 2 unapproved transactions on 1")
    _lib.FatalAssert(
        len(txlist2) == 2, "Should be 2 unapproved transactions on 2")

    if txid1 not in txlist1.keys():
        _lib.Fatal(
            "Transaction 2 is not in the list of transactions on node 1")

    if txid1 not in txlist2.keys():
        _lib.Fatal(
            "Transaction 2 is not in the list of transactions on node 2")

    # send one more TX. Block must be created
    txid3 = _transfers.Send(datadir1, address, address2, '1')

    blocks = _blocks.WaitBlocks(datadir3, 4)
    blocks = _blocks.WaitBlocks(datadir2, 4)
    blocks = _blocks.WaitBlocks(datadir1, 4)
    time.sleep(1)

    transactions.GetUnapprovedTransactionsEmpty(datadir1)
    transactions.GetUnapprovedTransactionsEmpty(datadir2)
    transactions.GetUnapprovedTransactionsEmpty(datadir3)

    # check if a block is present on all nodes. it must be 2 block on every node
    blockshashes = _blocks.GetBlocks(datadir1)

    _lib.FatalAssert(
        len(blockshashes) == 4, "Should be 4 blocks in blockchain on 1")

    blockshashes = _blocks.GetBlocks(datadir2)
    _lib.FatalAssert(
        len(blockshashes) == 4, "Should be 4 blocks in blockchain on 2")

    blockshashes = _blocks.GetBlocks(datadir3)
    _lib.FatalAssert(
        len(blockshashes) == 4, "Should be 4 blocks in blockchain on 3")

    startnode.StopNode(datadir1, "Server 1")
    startnode.StopNode(datadir2, "Server 2")
    startnode.StopNode(datadir3, "Server 3")

    #_lib.RemoveTestFolder(datadir1)
    #_lib.RemoveTestFolder(datadir2)

    datadir1 = ""
    datadir2 = ""
    datadir3 = ""

    _lib.EndTestGroupSuccess()
예제 #24
0
def test(testfilter):
    global datadir

    nodeport = '30000'

    _lib.StartTestGroup("Wallet Balance")

    _lib.CleanTestFolders()

    datadir_tmp = CopyBlockchainWithBlocks()

    balances = _transfers.GetGroupBalance(datadir_tmp)

    address1 = balances.keys()[0]
    address1_2 = balances.keys()[1]
    address1_3 = balances.keys()[2]

    balance = _transfers.GetBalance(datadir_tmp, address1)

    _lib.FatalAssert(balance[0] == balances[address1][0],
                     "Balance is different from group result")
    # address1_3 becomes a minter. we will send money from other 2 and this will receive rewards
    startnode.StartNode(datadir_tmp, address1_3, nodeport)
    datadir = datadir_tmp

    blocks = _blocks.GetBlocks(datadir)
    blockslen = len(blocks)

    #create 2 wallet locations and 2 wallets in each of them
    walletdatadir1 = _lib.CreateTestFolder("wallet")
    walletdatadir2 = _lib.CreateTestFolder("wallet")

    addresses = _wallet.GetWallets(walletdatadir2)

    _lib.FatalAssert(len(addresses) == 0, "Expected 0 wallets")

    waddress1_1 = _wallet.CreateWallet(walletdatadir1)
    waddress1_2 = _wallet.CreateWallet(walletdatadir1)

    waddress2_1 = _wallet.CreateWallet(walletdatadir2)
    waddress2_2 = _wallet.CreateWallet(walletdatadir2)

    addresses = _wallet.GetWallets(walletdatadir2)

    _lib.FatalAssert(len(addresses) == 2, "Expected 2 wallets")

    addresses = _wallet.GetWallets(walletdatadir1)

    _lib.FatalAssert(
        len(addresses) == 2, "Expected 2 wallets for second folder")

    #send some funds to all that wallets
    amounttosend = "%.8f" % round(balances[address1][0] / 8, 8)

    # for next block minimum 6 TXt are required
    _transfers.Send(datadir, address1, waddress1_1, amounttosend)
    tx2_1 = _transfers.Send(datadir, address1, waddress1_2, amounttosend)
    _transfers.Send(datadir, address1, waddress2_1, amounttosend)
    _transfers.Send(datadir, address1, waddress1_1, amounttosend)
    _transfers.Send(datadir, address1, waddress1_1, amounttosend)
    _transfers.Send(datadir, address1, waddress1_1, amounttosend)

    # we control how blocks are created. here we wait on a block started and then send another 3 TX
    # we will get 2 more blocks here
    #blocks = _blocks.WaitBlocks(datadir, blockslen + 1)
    time.sleep(3)
    #_lib.FatalAssert(len(blocks) == blockslen + 1, "Expected "+str(blockslen + 1)+" blocks")

    # 7 TX are required  for next block
    _transfers.Send(datadir, address1, waddress2_2, amounttosend)

    amounttosend2 = "%.8f" % round(balances[address1_2][0] / 8, 8)

    _transfers.Send(datadir, address1_2, waddress1_1, amounttosend2)
    tx2_2 = _transfers.Send(datadir, address1_2, waddress1_2, amounttosend2)

    _transfers.Send(datadir, address1_2, waddress1_2, amounttosend2)
    _transfers.Send(datadir, address1_2, waddress1_2, amounttosend2)
    _transfers.Send(datadir, address1_2, waddress1_2, amounttosend2)
    _transfers.Send(datadir, address1_2, waddress1_2, amounttosend2)

    # wait to complete blocks
    blocks = _blocks.WaitBlocks(datadir, blockslen + 2)
    time.sleep(5)
    _lib.FatalAssert(
        len(blocks) == blockslen + 2,
        "Expected " + str(blockslen + 2) + " blocks")

    #get balances on wallets
    am1 = _wallet.GetBalanceWallet(walletdatadir1, waddress1_1, "localhost",
                                   nodeport)
    am2 = _wallet.GetBalanceWallet(walletdatadir1, waddress1_2, "localhost",
                                   nodeport)
    am3 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_1, "localhost",
                                   nodeport)
    am4 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_2, "localhost",
                                   nodeport)

    _lib.FatalAssert(
        am1[1] == round(float(amounttosend) * 4 + float(amounttosend2), 8),
        "Expected balance is different for wallet 1_1")
    _lib.FatalAssert(
        am2[1] == round(float(amounttosend) + float(amounttosend2) * 5, 8),
        "Expected balance is different for wallet 1_2")
    _lib.FatalAssert(am3[1] == float(amounttosend),
                     "Expected balance is different for wallet 2_1")
    _lib.FatalAssert(am4[1] == float(amounttosend),
                     "Expected balance is different for wallet 2_2")

    #get group blances on a wallet loc
    balances_new = _transfers.GetGroupBalance(datadir)

    #get balances on node wallets

    balances1 = _wallet.GetGroupBalanceWallet(walletdatadir1, "localhost",
                                              nodeport)
    balances2 = _wallet.GetGroupBalanceWallet(walletdatadir2, "localhost",
                                              nodeport)

    _lib.FatalAssert(
        am1[1] == balances1[waddress1_1][1],
        "Expected balance is different from group listing for 1_1")
    _lib.FatalAssert(
        am2[1] == balances1[waddress1_2][1],
        "Expected balance is different from group listing for 1_2")
    _lib.FatalAssert(
        am3[1] == balances2[waddress2_1][1],
        "Expected balance is different from group listing for 2_1")
    _lib.FatalAssert(
        am4[1] == balances2[waddress2_2][1],
        "Expected balance is different from group listing for 2_2")

    newbalance1 = round(balances[address1][0] - float(amounttosend) * 7, 8)

    _lib.FatalAssert(newbalance1 == balances_new[address1][1],
                     "Expected balance is different after spending")

    #send from wallets . 8 TXs
    _wallet.Send(walletdatadir1, waddress1_1, address1, amounttosend,
                 "localhost", nodeport)
    _wallet.Send(walletdatadir1, waddress1_1, address1_2, amounttosend2,
                 "localhost", nodeport)
    _wallet.Send(walletdatadir1, waddress1_2, address1, amounttosend,
                 "localhost", nodeport)

    amounttosend3 = "%.8f" % round(float(amounttosend2) / 8, 8)

    _wallet.Send(walletdatadir1, waddress1_2, address1_2, amounttosend3,
                 "localhost", nodeport)
    _wallet.Send(walletdatadir1, waddress1_2, address1_2, amounttosend3,
                 "localhost", nodeport)
    _wallet.Send(walletdatadir1, waddress1_2, address1_2, amounttosend3,
                 "localhost", nodeport)
    _wallet.Send(walletdatadir1, waddress1_2, address1_2, amounttosend3,
                 "localhost", nodeport)
    tx2_3 = _wallet.Send(walletdatadir1, waddress1_2, address1_2,
                         amounttosend3, "localhost", nodeport)

    blocks = _blocks.WaitBlocks(datadir, blockslen + 3)
    _lib.FatalAssert(
        len(blocks) == blockslen + 3,
        "Expected " + str(blockslen + 3) + " blocks")
    time.sleep(3)

    am1_back = _wallet.GetBalanceWallet(walletdatadir1, waddress1_1,
                                        "localhost", nodeport)
    am1_expected = round(am1[1] - float(amounttosend) - float(amounttosend2),
                         8)

    _lib.FatalAssert(
        am1_back[1] == am1_expected,
        "Expected balance after sending from wallet 1_1 is wrong: " +
        str(am1_back) + ", expected " + str(am1_expected))

    am2_back = _wallet.GetBalanceWallet(walletdatadir1, waddress1_2,
                                        "localhost", nodeport)

    sa = '%0.8f' % (am2_back[1] + 0.00000001)
    _wallet.SendTooMuch(walletdatadir1, waddress1_2, address1, sa, "localhost",
                        nodeport)

    _lib.StartTestGroup("Node in config")

    _wallet.SetNodeConfig(walletdatadir1, "localhost", nodeport)

    balances1 = _wallet.GetGroupBalanceWalletNoNode(walletdatadir1)

    am1 = _wallet.GetBalanceWalletNoNode(walletdatadir1, waddress1_1)
    am2 = _wallet.GetBalanceWalletNoNode(walletdatadir1, waddress1_2)

    _lib.FatalAssert(
        am1[1] == balances1[waddress1_1][1],
        "Expected balance is different from group listing for 1_1 " +
        str(am1) + " " + str(balances1))
    _lib.FatalAssert(
        am2[1] == balances1[waddress1_2][1],
        "Expected balance is different from group listing for 1_2 " +
        str(am2) + " " + str(balances1))

    tx4 = _wallet.SendNoNode(walletdatadir1, waddress1_2, address1_2,
                             '%0.8f' % (am2[1] / 2))

    _lib.StartTestGroup("Unspent transactions")

    unspent = _wallet.GetUnspentNoNode(walletdatadir1, waddress1_2)

    txunspent = []

    for i in unspent:
        txunspent.append(i[2])

    _lib.FatalAssert(
        tx2_3 in txunspent, "Unspent TX in not in array of expected " +
        str(txunspent) + " " + str(tx2_3))

    unspent2 = _wallet.GetUnspent(walletdatadir2, waddress1_2, "localhost",
                                  nodeport)

    _lib.FatalAssert(
        len(unspent) == len(unspent2),
        "NNNumber of unspent TXs should be same. No config")

    txunspent = []

    for i in unspent2:
        txunspent.append(i[2])

    _lib.FatalAssert(tx2_3 in txunspent,
                     "Unspent TX in not in array of expected. No config")

    _lib.StartTestGroup("Get wallet history")

    history = _wallet.GetHistoryNoNode(walletdatadir1, waddress1_2)

    _lib.FatalAssert(len(history) == 12, "Expected 3 records in a history")

    history = _wallet.GetHistory(walletdatadir2, waddress2_2, "localhost",
                                 nodeport)

    _lib.FatalAssert(len(history) == 1, "Expected 1 record in a history")

    _lib.StartTestGroup("Pending balance")

    # we cancel. we don't need it anymore. for next tests we need 0 TXs
    #transactions.CancelTransaction(datadir,tx4)

    am3 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_1, "localhost",
                                   nodeport)

    addb1_2 = _transfers.GetBalance(datadir, address1_2)

    amounttosend2 = "%.8f" % round(am3[0] / 2 - 0.00000001, 8)

    _wallet.Send(walletdatadir2, waddress2_1, address1_2, amounttosend2,
                 "localhost", nodeport)

    am3_2 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_1, "localhost",
                                     nodeport)

    addb1_2_2 = _transfers.GetBalance(datadir, address1_2)

    _lib.FatalAssert(am3[1] == am3_2[1],
                     "Approved balance should be unchanged")
    _lib.FatalAssert(
        round(am3[0] - float(amounttosend2), 8) == am3_2[0],
        "Total balance should be changed")
    _lib.FatalAssert(
        round(am3[2] - float(amounttosend2), 8) == am3_2[2],
        "Pending balance should be changed")

    _lib.FatalAssert(
        round(addb1_2_2[2] - addb1_2[2], 8) == round(am3[2] - am3_2[2], 8),
        "Pending difference should be same")

    txlist = transactions.GetUnapprovedTransactions(datadir)

    amounttosend2 = "%.8f" % round(am3[1] / 2, 8)

    _wallet.Send(walletdatadir2, waddress2_1, address1_2, amounttosend2,
                 "localhost", nodeport)

    am3_3 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_1, "localhost",
                                     nodeport)

    addb1_2_3 = _transfers.GetBalance(datadir, address1_2)

    _lib.FatalAssert(am3[1] == am3_3[1],
                     "Approved balance should be unchanged")

    _lib.FatalAssert(
        math.fabs(round(am3_2[0] - float(amounttosend2), 8) - am3_3[0]) <=
        0.00000001, "Total balance should be changed")
    _lib.FatalAssert(
        math.fabs(round(am3_2[2] - float(amounttosend2) - am3_3[2], 8)) <=
        0.00000001, "Pending balance should be changed")

    _lib.FatalAssert(
        math.fabs(
            round(addb1_2_3[2] - addb1_2[2], 8) - round(am3[2] - am3_3[2], 8))
        <= 0.00000002, "Pending difference should be same after 2 sends")

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #25
0
def test(testfilter):
    global datadir

    nodeport = '30000'

    _lib.StartTestGroup("Wallet Balance")

    _lib.CleanTestFolders()

    inf = blocksnodes.MakeBlockchainWithBlocks(nodeport)
    datadir_tmp = inf[0]
    address1 = inf[1]
    address1_2 = inf[2]
    address1_3 = inf[3]

    balances = _transfers.GetGroupBalance(datadir_tmp)

    #get balance when a node is not run
    bal1 = _transfers.GetBalance(datadir_tmp, address1)
    bal1_2 = _transfers.GetBalance(datadir_tmp, address1_2)
    bal1_3 = _transfers.GetBalance(datadir_tmp, address1_3)

    _lib.FatalAssert(bal1 == balances[address1],
                     "Balance is different from group rec for 1")
    _lib.FatalAssert(bal1_2 == balances[address1_2],
                     "Balance is different from group rec for 2")
    _lib.FatalAssert(bal1_3 == balances[address1_3],
                     "Balance is different from group rec for 3")

    s1 = bal1 + bal1_2 + bal1_3

    startnode.StartNode(datadir_tmp, address1, nodeport)
    datadir = datadir_tmp

    #get balaces on nodes wallets
    bal1 = _transfers.GetBalance(datadir, address1)
    bal1_2 = _transfers.GetBalance(datadir, address1_2)
    bal1_3 = _transfers.GetBalance(datadir, address1_3)

    s2 = bal1 + bal1_2 + bal1_3

    _lib.FatalAssert(s1 == s2,
                     "Balances shoul be equal when a node is On and Off")

    #get group balance on a node
    balances = _transfers.GetGroupBalance(datadir)
    _lib.FatalAssert(bal1 == balances[address1],
                     "Balance is different from group rec for 1")
    _lib.FatalAssert(bal1_2 == balances[address1_2],
                     "Balance is different from group rec for 2")
    _lib.FatalAssert(bal1_3 == balances[address1_3],
                     "Balance is different from group rec for 3")

    #create 2 wallet locations and 2 wallets in each of them
    walletdatadir1 = _lib.CreateTestFolder("wallet")
    walletdatadir2 = _lib.CreateTestFolder("wallet")

    waddress1_1 = _wallet.CreateWallet(walletdatadir1)
    waddress1_2 = _wallet.CreateWallet(walletdatadir1)
    waddress1_3 = _wallet.CreateWallet(walletdatadir1)

    waddress2_1 = _wallet.CreateWallet(walletdatadir2)
    waddress2_2 = _wallet.CreateWallet(walletdatadir2)

    #send some funds to all that wallets
    amounttosend = "%.8f" % round(bal1[0] / 5, 8)
    amounttosend3 = "%.8f" % round(bal1_3[0] / 5, 8)

    _transfers.Send(datadir, address1, waddress1_1, amounttosend)
    _transfers.Send(datadir, address1, waddress1_2, amounttosend)
    _transfers.Send(datadir, address1, waddress2_1, amounttosend)
    _transfers.Send(datadir, address1_3, waddress1_3, amounttosend3)

    # we control how blocks are created. here we wait on a block started and then send another 3 TX
    # we will get 2 more blocks here
    time.sleep(1)

    _transfers.Send(datadir, address1, waddress2_2, amounttosend)
    amounttosend2 = "%.8f" % round(bal1_2[0] / 5, 8)
    _transfers.Send(datadir, address1_2, waddress1_1, amounttosend2)
    _transfers.Send(datadir, address1_2, waddress1_2, amounttosend2)

    _transfers.Send(datadir, address1_3, waddress1_3, amounttosend3)
    _transfers.Send(datadir, address1_3, waddress1_3, amounttosend3)

    # wait to complete blocks
    blocks = _blocks.WaitBlocks(datadir, 6)
    time.sleep(2)

    _lib.FatalAssert(len(blocks) == 6, "Expected 6 blocks")

    #get balances on wallets
    am1 = _wallet.GetBalanceWallet(walletdatadir1, waddress1_1, "localhost",
                                   nodeport)
    am2 = _wallet.GetBalanceWallet(walletdatadir1, waddress1_2, "localhost",
                                   nodeport)
    am3 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_1, "localhost",
                                   nodeport)
    am4 = _wallet.GetBalanceWallet(walletdatadir2, waddress2_2, "localhost",
                                   nodeport)

    _lib.FatalAssert(
        am1[1] == round(float(amounttosend) + float(amounttosend2), 8),
        "Expected balance is different for wallet 1_1")
    _lib.FatalAssert(
        am2[1] == round(float(amounttosend) + float(amounttosend2), 8),
        "Expected balance is different for wallet 1_2")
    _lib.FatalAssert(am3[1] == float(amounttosend),
                     "Expected balance is different for wallet 2_1")
    _lib.FatalAssert(am4[1] == float(amounttosend),
                     "Expected balance is different for wallet 2_2")

    #get group blances on a wallet loc
    balances = _transfers.GetGroupBalance(datadir)
    #get balances on node wallets

    balances1 = _wallet.GetGroupBalanceWallet(walletdatadir1, "localhost",
                                              nodeport)
    balances2 = _wallet.GetGroupBalanceWallet(walletdatadir2, "localhost",
                                              nodeport)

    _lib.FatalAssert(
        am1[1] == balances1[waddress1_1][1],
        "Expected balance is different from group listing for 1_1")
    _lib.FatalAssert(
        am2[1] == balances1[waddress1_2][1],
        "Expected balance is different from group listing for 1_2")
    _lib.FatalAssert(
        am3[1] == balances2[waddress2_1][1],
        "Expected balance is different from group listing for 2_1")
    _lib.FatalAssert(
        am4[1] == balances2[waddress2_2][1],
        "Expected balance is different from group listing for 2_2")

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #26
0
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()
예제 #27
0
def test(testfilter):
    global datadir

    _lib.StartTestGroup("Blocks making")

    nodeport = '30010'

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    startnode.StartNodeWithoutBlockchain(datadir)
    address = startnode.InitBockchain(datadir)
    startnode.StartNode(datadir, address, nodeport)
    startnode.StopNode(datadir)

    # create another 3 addresses
    address2 = transactions.CreateWallet(datadir)
    address3 = transactions.CreateWallet(datadir)

    startnode.StartNode(datadir, address, nodeport)

    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    amount1 = '1'
    amount2 = '2'
    amount3 = '3'

    txid1 = _transfers.Send(datadir, address, address2, amount1)

    txlist = transactions.GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    #block making will be started now
    time.sleep(5)

    txid2 = _transfers.Send(datadir, address, address3, amount2)

    txlist = transactions.GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    txid3 = _transfers.Send(datadir, address, address3, amount3)

    # node needs some time to make a block, so transaction still will be in list of unapproved
    txlist = transactions.GetUnapprovedTransactions(datadir)

    _lib.FatalAssert(len(txlist) == 2, "Should be 2 unapproved transaction")

    if txid2 not in txlist.keys():
        _lib.Fatal("Transaction 2 is not in the list of transactions")

    if txid3 not in txlist.keys():
        _lib.Fatal("Transaction 3 is not in the list of transactions")

    _lib.FatalAssertFloat(amount2, txlist[txid2][3],
                          "Amount of transaction 2 is wrong")

    _lib.FatalAssertFloat(amount3, txlist[txid3][3],
                          "Amount of transaction 3 is wrong")

    time.sleep(5)

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #28
0
def test(testfilter):
    global datadir

    _lib.StartTestGroup("SQL basic")

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    startnode.StartNodeWithoutBlockchain(datadir)
    address = startnode.InitBockchain(datadir)
    startnode.StartNode(datadir, address, '30000')

    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    tx1 = _sql.ExecuteSQL(
        datadir, address,
        "CREATE TABLE test (a INT auto_increment PRIMARY KEY, b VARCHAR(20))")

    # check new table exists
    tables = _lib.DBGetRows(datadir, "SHOW TABLES")
    found = False
    for table in tables:
        if table[0] == "test":
            found = True
            break

    _lib.FatalAssert(found, "Table not found in the DB")

    blocks = _blocks.WaitBlocks(datadir, 2)
    time.sleep(1)

    tx2 = _sql.ExecuteSQL(datadir, address, "INSERT INTO test SET b='row1'")
    tx3 = _sql.ExecuteSQL(datadir, address,
                          "INSERT INTO test SET a=2,b='row2'")
    time.sleep(1)
    tx4 = _sql.ExecuteSQL(datadir, address,
                          "INSERT INTO test (b) VALUES ('row3')")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")

    _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table")

    blocks = _blocks.WaitBlocks(datadir, 3)

    time.sleep(1)  # while all caches are cleaned

    txlist = transactions.GetUnapprovedTransactions(datadir)
    _lib.FatalAssert(len(txlist) == 1, "Should be 1 unapproved transaction")

    # update data
    _sql.ExecuteSQL(datadir, address,
                    " update test SET b=\"row3 updated\" where a=3")
    _sql.ExecuteSQL(datadir, address,
                    " update test SET b=\"row2 updated\" where a = '2'")

    blocks = _blocks.WaitBlocks(datadir, 4)
    time.sleep(1)  # while all caches are cleaned

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")
    for row in rows:
        if row[0] == "1":
            _lib.FatalAssert(row[1] == "row1",
                             "Row 1 value is wrong. Got: " + row[1])

        if row[0] == "2":
            _lib.FatalAssert(row[1] == "row2 updated",
                             "Row 2 value is wrong. Got: " + row[1])

        if row[0] == "3":
            _lib.FatalAssert(row[1] == "row3 updated",
                             "Row 3 value is wrong. Got: " + row[1])

    error = _sql.ExecuteSQLFailure(datadir, address,
                                   "INSERT INTO test SET a=2,b='row2'")

    txid = _sql.ExecuteSQL(datadir, address, " DELETE  from   test where a=3")

    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")
    _lib.FatalAssert(len(rows) == 2, "Must be 2 rows in a table")

    #cancel transaction. rollback should affect
    transactions.CancelTransaction(datadir, txid)

    # should be 0 unapproved transactions
    transactions.GetUnapprovedTransactionsEmpty(datadir)

    # should be 3 rows again
    rows = _lib.DBGetRows(datadir, "SELECT * FROM test")
    _lib.FatalAssert(len(rows) == 3, "Must be 3 rows in a table")

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()
예제 #29
0
def test(testfilter):
    global datadir

    _lib.StartTestGroup("Init Blockchain on non empty DB. Add 4000 records")

    _lib.CleanTestFolders()
    datadir = _lib.CreateTestFolder()

    address2 = transactions.CreateWallet(datadir)
    address3 = transactions.CreateWallet(datadir)

    _lib.CopyTestConsensusConfig(datadir, "disabledcreate", address2)

    # add some data to the DB
    _lib.DBExecute(
        datadir,
        "create table test (a int unsigned auto_increment primary key, b varchar(10))"
    )
    # add 2k records
    sys.stdout.write("\t\t")
    for x in range(600):
        _lib.DBExecute(datadir, "insert into test SET b='row" + str(x) + "'")
        if x % 20 == 0:
            sys.stdout.write('.')
        if x % 200 == 0 and x > 0:
            sys.stdout.write(str(x))
    print("")
    sys.stdout.write("\t\t")
    _lib.DBExecute(
        datadir,
        "create table members (a int unsigned auto_increment primary key, b varchar(10))"
    )
    for x in range(600):
        _lib.DBExecute(datadir,
                       "insert into members SET b='row" + str(x) + "'")
        if x % 20 == 0:
            sys.stdout.write('.')
        if x % 200 == 0 and x > 0:
            sys.stdout.write(str(x))
    print("")

    _lib.StartTestGroup("Data added. Init BC")

    address = startnode.InitBockchain(datadir)
    _complex.AddProxyToConfig(datadir, "localhost:40041")
    _complex.AddInternalKeyToConfig(datadir, address3)  # init internal signing

    startnode.StartNode(datadir, address, '30000')

    _lib.StartTestGroup("Do transactions")

    transactions.GetUnapprovedTransactionsEmpty(datadir)

    blocks = _blocks.GetBlocks(datadir)
    #print(blocks)
    #_lib.FatalAssert(len(blocks) == 4,"Should be 4 blocks in blockchain")
    _lib.FatalAssert(len(blocks) == 3, "Should be 3 blocks in blockchain")

    startnode.StopNode(datadir)
    datadir = ""

    #_lib.RemoveTestFolder(datadir)
    _lib.EndTestGroupSuccess()