/// <summary>
/// Implementation of the test itself.
/// </summary>
/// <returns>true if the test passes, false otherwise.</returns>
public override async Task <bool> RunAsync()
{
IPAddress ServerIp = (IPAddress)ArgumentValues["Server IP"];
int PrimaryPort = (int)ArgumentValues["primary Port"];
int BasePort = (int)ArgumentValues["Base Port"];
int LocPort = (int)ArgumentValues["LOC Port"];
log.Trace("(ServerIp:'{0}',PrimaryPort:{1},BasePort:{2},LocPort:{3})", ServerIp, PrimaryPort, BasePort, LocPort);
bool res = false;
Passed = false;
ProtocolClient client = new ProtocolClient();
ProfileServer profileServer = null;
LocServer locServer = null;
try
{
MessageBuilder mb = client.MessageBuilder;
// Step 1
log.Trace("Step 1");
// Get port list.
await client.ConnectAsync(ServerIp, PrimaryPort, false);
Dictionary <ServerRoleType, uint> rolePorts = new Dictionary <ServerRoleType, uint>();
bool listPortsOk = await client.ListServerPorts(rolePorts);
client.CloseConnection();
// Create identities.
for (int i = 0; i < ProfileNames.Count; i++)
{
byte[] imageData = ProfileImages[i] != null?File.ReadAllBytes(ProfileImages[i]) : null;
ProtocolClient profileClient = new ProtocolClient();
profileClient.Profile = new ClientProfile()
{
Version = SemVer.V100,
Name = ProfileNames[i],
Type = ProfileTypes[i],
ProfileImage = imageData,
ThumbnailImage = imageData,
Location = ProfileLocations[i],
ExtraData = ProfileExtraData[i],
PublicKey = profileClient.GetIdentityKeys().PublicKey
};
TestProfiles.Add(profileClient.Profile.Name, profileClient);
}
// Start simulated profile server.
profileServer = new ProfileServer("TestProfileServer", ServerIp, BasePort, client.GetIdentityKeys(), new GpsLocation(1, 2));
bool profileServerStartOk = profileServer.Start();
// Start simulated LOC server.
locServer = new LocServer("TestLocServer", ServerIp, LocPort);
bool locServerStartOk = locServer.Start();
await locServer.WaitForProfileServerConnectionAsync();
bool step1Ok = profileServerStartOk && locServerStartOk;
log.Trace("Step 1: {0}", step1Ok ? "PASSED" : "FAILED");
// Step 2
log.Trace("Step 2");
// Announce new neighbor.
Iop.Locnet.NeighbourhoodChange change = new Iop.Locnet.NeighbourhoodChange()
{
AddedNodeInfo = profileServer.GetNodeInfo(LocPort)
};
bool changeNotificationOk = await locServer.SendChangeNotification(change);
// Wait for start of neighborhood initialization process.
IncomingServerMessage incomingServerMessage = await profileServer.WaitForConversationRequest(ServerRole.ServerNeighbor, ConversationRequest.RequestTypeOneofCase.StartNeighborhoodInitialization);
// Send update.
List <SharedProfileUpdateItem> updateItems = new List <SharedProfileUpdateItem>();
foreach (ProtocolClient pc in TestProfiles.Values)
{
updateItems.Add(pc.GetSharedProfileUpdateAddItem());
}
Message updateRequest = await profileServer.SendNeighborhoodSharedProfileUpdateRequest(incomingServerMessage.Client, updateItems);
incomingServerMessage = await profileServer.WaitForResponse(ServerRole.ServerNeighbor, updateRequest);
bool statusOk = incomingServerMessage.IncomingMessage.Response.Status == Status.Ok;
bool updateOk = (updateRequest != null) && statusOk;
// Finish neighborhood initialization process.
Message finishRequest = await profileServer.SendFinishNeighborhoodInitializationRequest(incomingServerMessage.Client);
incomingServerMessage = await profileServer.WaitForResponse(ServerRole.ServerNeighbor, finishRequest);
statusOk = incomingServerMessage.IncomingMessage.Response.Status == Status.Ok;
bool finishOk = (finishRequest != null) && statusOk;
bool step2Ok = changeNotificationOk && updateOk && finishOk;
log.Trace("Step 2: {0}", step2Ok ? "PASSED" : "FAILED");
// Step 3
log.Trace("Step 3");
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.ClNonCustomer], true);
bool startConversationOk = await client.StartConversationAsync();
Message requestMessage = mb.CreateProfileSearchRequest(null, null, null, null, 0, 100, 100, false, true);
await client.SendMessageAsync(requestMessage);
Message responseMessage = await client.ReceiveMessageAsync();
bool idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
HashSet <byte[]> expectedCoveredServers = new HashSet <byte[]>(StructuralEqualityComparer <byte[]> .Default)
{
client.GetIdentityId(), Crypto.Sha256(client.ServerKey)
};
HashSet <byte[]> realCoveredServers = new HashSet <byte[]>(StructuralEqualityComparer <byte[]> .Default);
foreach (ByteString csId in responseMessage.Response.ConversationResponse.ProfileSearch.CoveredServers)
{
realCoveredServers.Add(csId.ToByteArray());
}
bool coveredServersOk = expectedCoveredServers.SetEquals(realCoveredServers);
bool profileListOk = client.CheckProfileListMatchSearchResultItems(TestProfiles, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.ToList(), false, false, client.GetIdentityId(), true);
// Step 3 Acceptance
bool step3Ok = startConversationOk && idOk && statusOk && profileListOk && coveredServersOk;
log.Trace("Step 3: {0}", step3Ok ? "PASSED" : "FAILED");
Passed = step1Ok && step2Ok && step3Ok;
res = true;
}
catch (Exception e)
{
log.Error("Exception occurred: {0}", e.ToString());
}
client.Dispose();
foreach (ProtocolClient protocolClient in TestProfiles.Values)
{
protocolClient.Dispose();
}
if (profileServer != null)
{
profileServer.Shutdown();
}
if (locServer != null)
{
locServer.Shutdown();
}
log.Trace("(-):{0}", res);
return(res);
}
/// <summary>
/// Implementation of the test itself.
/// </summary>
/// <returns>true if the test passes, false otherwise.</returns>
public override async Task <bool> RunAsync()
{
IPAddress ServerIp = (IPAddress)ArgumentValues["Server IP"];
int PrimaryPort = (int)ArgumentValues["primary Port"];
int BasePort = (int)ArgumentValues["Base Port"];
int LocPort = (int)ArgumentValues["LOC Port"];
log.Trace("(ServerIp:'{0}',PrimaryPort:{1},BasePort:{2},LocPort:{3})", ServerIp, PrimaryPort, BasePort, LocPort);
bool res = false;
Passed = false;
ProtocolClient client = new ProtocolClient();
ProfileServer profileServer = null;
LocServer locServer = null;
try
{
MessageBuilder mb = client.MessageBuilder;
// Step 1
log.Trace("Step 1");
// Get port list.
await client.ConnectAsync(ServerIp, PrimaryPort, false);
Dictionary <ServerRoleType, uint> rolePorts = new Dictionary <ServerRoleType, uint>();
bool listPortsOk = await client.ListServerPorts(rolePorts);
client.CloseConnection();
// Radius generation.
R2 = (uint)Rng.Next(R2Min, R2Max);
R1 = (uint)Rng.Next(R1Min, (int)(R1R2RatioMax * R2));
R3 = (uint)Rng.Next((int)(R3R2RatioMax * R2), R3Max);
log.Trace("R1: {0,8} m", R1);
log.Trace("R2: {0,8} m", R2);
log.Trace("R3: {0,8} m", R3);
// Location generation
for (int i = 0; i < LocationCount; i++)
{
if (PredefinedLocations.Count > i)
{
GeneratedLocations.Add(GenerateLocation(PredefinedLocations[i], R2));
}
else
{
int lat = Rng.Next((int)(GpsLocation.LatitudeMin * GpsLocation.LocationTypeFactor), (int)(GpsLocation.LatitudeMax * GpsLocation.LocationTypeFactor) + 1);
int lon = Rng.Next((int)(GpsLocation.LongitudeMin * GpsLocation.LocationTypeFactor) + 1, (int)(GpsLocation.LongitudeMax * GpsLocation.LocationTypeFactor) + 1);
GeneratedLocations.Add(new GpsLocation(lat, lon));
}
}
log.Trace("Generated locations:");
for (int i = 0; i < LocationCount; i++)
{
log.Trace(" #{0:00}: {1:US}", i, GeneratedLocations[i]);
}
// Create identities.
int profileNumber = 0;
byte[] imageData = File.ReadAllBytes(Path.Combine("images", TestName + ".png"));
uint[] rads = new uint[] { R1, R2, R3 };
for (int locIndex = 0; locIndex < LocationCount; locIndex++)
{
for (uint radIndex = 0; radIndex < rads.Length; radIndex++)
{
for (int idIndex = 0; idIndex < RadiusIdentityCount; idIndex++)
{
GpsLocation basePoint = GeneratedLocations[locIndex];
uint radius = rads[radIndex];
GpsLocation location = GenerateLocation(basePoint, radius);
ProfileLocations.Add(location);
ProtocolClient profileClient = new ProtocolClient();
profileClient.InitializeRandomProfile(profileNumber, imageData);
profileNumber++;
profileClient.Profile.Location = location;
TestProfiles.Add(profileClient.Profile.Name, profileClient);
ProfileNames.Add(profileClient.Profile.Name);
}
}
}
// Start simulated profile server.
profileServer = new ProfileServer("TestProfileServer", ServerIp, BasePort, client.GetIdentityKeys(), new GpsLocation(1, 2));
bool profileServerStartOk = profileServer.Start();
// Start simulated LOC server.
locServer = new LocServer("TestLocServer", ServerIp, LocPort);
bool locServerStartOk = locServer.Start();
await locServer.WaitForProfileServerConnectionAsync();
bool step1Ok = profileServerStartOk && locServerStartOk;
log.Trace("Step 1: {0}", step1Ok ? "PASSED" : "FAILED");
// Step 2
log.Trace("Step 2");
// Announce new neighbor.
Iop.Locnet.NeighbourhoodChange change = new Iop.Locnet.NeighbourhoodChange()
{
AddedNodeInfo = profileServer.GetNodeInfo(LocPort)
};
bool changeNotificationOk = await locServer.SendChangeNotification(change);
// Wait for start of neighborhood initialization process.
IncomingServerMessage incomingServerMessage = await profileServer.WaitForConversationRequest(ServerRole.ServerNeighbor, ConversationRequest.RequestTypeOneofCase.StartNeighborhoodInitialization);
// Send update.
bool statusOk = false;
bool updateOk = true;
List <ProtocolClient> profilesToSend = new List <ProtocolClient>(TestProfiles.Values);
while (profilesToSend.Count > 0)
{
int batchSize = Rng.Next(1, Math.Min(100, profilesToSend.Count) + 1);
List <SharedProfileUpdateItem> updateItems = new List <SharedProfileUpdateItem>();
foreach (ProtocolClient pc in profilesToSend.GetRange(0, batchSize))
{
updateItems.Add(pc.GetSharedProfileUpdateAddItem());
}
profilesToSend.RemoveRange(0, batchSize);
Message updateRequest = await profileServer.SendNeighborhoodSharedProfileUpdateRequest(incomingServerMessage.Client, updateItems);
incomingServerMessage = await profileServer.WaitForResponse(ServerRole.ServerNeighbor, updateRequest);
statusOk = incomingServerMessage.IncomingMessage.Response.Status == Status.Ok;
bool batchOk = (updateRequest != null) && statusOk;
if (!batchOk)
{
updateOk = false;
break;
}
}
// Finish neighborhood initialization process.
Message finishRequest = await profileServer.SendFinishNeighborhoodInitializationRequest(incomingServerMessage.Client);
incomingServerMessage = await profileServer.WaitForResponse(ServerRole.ServerNeighbor, finishRequest);
statusOk = incomingServerMessage.IncomingMessage.Response.Status == Status.Ok;
bool finishOk = (finishRequest != null) && statusOk;
bool step2Ok = changeNotificationOk && updateOk && finishOk;
log.Trace("Step 2: {0}", step2Ok ? "PASSED" : "FAILED");
// Step 3
log.Trace("Step 3");
// Start conversation.
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.ClNonCustomer], true);
bool startConversationOk = await client.StartConversationAsync();
HashSet <byte[]> expectedCoveredServers = new HashSet <byte[]>(StructuralEqualityComparer <byte[]> .Default)
{
client.GetIdentityId(), Crypto.Sha256(client.ServerKey)
};
// Search all profiles.
Message requestMessage = mb.CreateProfileSearchRequest(null, null, null, null, 0, 1000, 1000, false, false);
await client.SendMessageAsync(requestMessage);
Message responseMessage = await client.ReceiveMessageAsync();
bool idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
bool totalRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.TotalRecordCount == ProfileNames.Count;
bool maxResponseRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.MaxResponseRecordCount == 1000;
bool profilesCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Count == ProfileNames.Count;
HashSet <byte[]> realCoveredServers = new HashSet <byte[]>(StructuralEqualityComparer <byte[]> .Default);
foreach (ByteString csId in responseMessage.Response.ConversationResponse.ProfileSearch.CoveredServers)
{
realCoveredServers.Add(csId.ToByteArray());
}
bool coveredServersOk = expectedCoveredServers.SetEquals(realCoveredServers);
bool queryRespOk = idOk && statusOk && totalRecordCountOk && maxResponseRecordCountOk && profilesCountOk;
bool resultsOk = client.CheckProfileListMatchSearchResultItems(TestProfiles, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.ToList(), false, false, client.GetIdentityId(), false);
bool query1Ok = queryRespOk && resultsOk;
bool queriesOk = true;
// Search queries around target locations.
for (int locIndex = 0; locIndex < LocationCount; locIndex++)
{
for (uint radIndex = 0; radIndex < rads.Length + 1; radIndex++)
{
uint radius = radIndex < rads.Length ? rads[radIndex] : (uint)Rng.Next(1000000, 10000000);
GpsLocation targetLocation = GeneratedLocations[locIndex];
requestMessage = mb.CreateProfileSearchRequest(null, null, null, targetLocation, radius, 1000, 1000, false, false);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
Dictionary <string, ProtocolClient> expectedClients = GetClientsInLocation(targetLocation, radius);
totalRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.TotalRecordCount == expectedClients.Count;
maxResponseRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.MaxResponseRecordCount == 1000;
profilesCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Count == expectedClients.Count;
queryRespOk = idOk && statusOk && totalRecordCountOk && maxResponseRecordCountOk && profilesCountOk;
resultsOk = client.CheckProfileListMatchSearchResultItems(expectedClients, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.ToList(), false, false, client.GetIdentityId(), false);
queriesOk = queryRespOk && resultsOk;
if (!queriesOk)
{
log.Trace("Search query location {0} with radius {1} should produce {2} profiles, but produced {3} profiles.", targetLocation, radius, expectedClients.Count, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Count);
log.Trace("Expected names list:");
foreach (string name in expectedClients.Keys)
{
log.Trace(" {0}", name);
}
List <string> resultNames = responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Select(r => r.Name).OrderBy(r => r).ToList();
log.Trace("Query result names list:");
foreach (string name in resultNames)
{
log.Trace(" {0}", name);
}
break;
}
log.Trace("Search query location {0} with radius {1} produced {2} correct profiles.", targetLocation, radius, expectedClients.Count);
}
if (!queriesOk)
{
break;
}
}
// Step 3 Acceptance
bool step3Ok = startConversationOk && query1Ok && queriesOk;
log.Trace("Step 3: {0}", step3Ok ? "PASSED" : "FAILED");
Passed = step1Ok && step2Ok && step3Ok;
res = true;
}
catch (Exception e)
{
log.Error("Exception occurred: {0}", e.ToString());
}
client.Dispose();
foreach (ProtocolClient protocolClient in TestProfiles.Values)
{
protocolClient.Dispose();
}
if (profileServer != null)
{
profileServer.Shutdown();
}
if (locServer != null)
{
locServer.Shutdown();
}
log.Trace("(-):{0}", res);
return(res);
}
/// <summary>
/// Implementation of the test itself.
/// </summary>
/// <returns>true if the test passes, false otherwise.</returns>
public override async Task <bool> RunAsync()
{
IPAddress ServerIp = (IPAddress)ArgumentValues["Server IP"];
int PrimaryPort = (int)ArgumentValues["primary Port"];
int BasePort = (int)ArgumentValues["Base Port"];
int LocPort = (int)ArgumentValues["LOC Port"];
log.Trace("(ServerIp:'{0}',PrimaryPort:{1},BasePort:{2},LocPort:{3})", ServerIp, PrimaryPort, BasePort, LocPort);
bool res = false;
Passed = false;
ProtocolClient client = new ProtocolClient();
ProfileServer profileServer = null;
LocServer locServer = null;
try
{
MessageBuilder mb = client.MessageBuilder;
// Step 1
log.Trace("Step 1");
// Get port list.
await client.ConnectAsync(ServerIp, PrimaryPort, false);
Dictionary <ServerRoleType, uint> rolePorts = new Dictionary <ServerRoleType, uint>();
bool listPortsOk = await client.ListServerPorts(rolePorts);
client.CloseConnection();
// Create identities.
int profileNumber = 0;
byte[] imageData = File.ReadAllBytes(Path.Combine("images", TestName + ".png"));
Dictionary <string, ProtocolClient> expectedLastClients = new Dictionary <string, ProtocolClient>(StringComparer.Ordinal);
List <string> excessClientNames = new List <string>();
for (int i = 0; i < 20050; i++)
{
ProtocolClient protocolClient = new ProtocolClient();
protocolClient.InitializeRandomProfile(profileNumber, imageData);
profileNumber++;
if (i >= 19990)
{
protocolClient.Profile.Type = "last";
if (i < 20000)
{
expectedLastClients.Add(protocolClient.Profile.Name, protocolClient);
}
else
{
excessClientNames.Add(protocolClient.Profile.Name);
}
}
TestProfiles.Add(protocolClient.Profile.Name, protocolClient);
}
// Start simulated profile server.
profileServer = new ProfileServer("TestProfileServer", ServerIp, BasePort, client.GetIdentityKeys(), new GpsLocation(1, 2));
bool profileServerStartOk = profileServer.Start();
// Start simulated LOC server.
locServer = new LocServer("TestLocServer", ServerIp, LocPort);
bool locServerStartOk = locServer.Start();
await locServer.WaitForProfileServerConnectionAsync();
bool step1Ok = profileServerStartOk && locServerStartOk;
log.Trace("Step 1: {0}", step1Ok ? "PASSED" : "FAILED");
// Step 2
log.Trace("Step 2");
// Announce new neighbor.
Iop.Locnet.NeighbourhoodChange change = new Iop.Locnet.NeighbourhoodChange()
{
AddedNodeInfo = profileServer.GetNodeInfo(LocPort)
};
bool changeNotificationOk = await locServer.SendChangeNotification(change);
// Wait for start of neighborhood initialization process.
IncomingServerMessage incomingServerMessage = await profileServer.WaitForConversationRequest(ServerRole.ServerNeighbor, ConversationRequest.RequestTypeOneofCase.StartNeighborhoodInitialization);
// Send update.
bool statusOk = false;
bool updateOk = true;
int profilesSent = 0;
List <ProtocolClient> allProfiles = new List <ProtocolClient>(TestProfiles.Values);
List <ProtocolClient> profilesToSend = allProfiles.GetRange(0, 19990);
while (profilesToSend.Count > 0)
{
int batchSize = Math.Min(Rng.Next(100, 150), profilesToSend.Count);
List <SharedProfileUpdateItem> updateItems = new List <SharedProfileUpdateItem>();
foreach (ProtocolClient pc in profilesToSend.GetRange(0, batchSize))
{
updateItems.Add(pc.GetSharedProfileUpdateAddItem());
}
profilesToSend.RemoveRange(0, batchSize);
Message updateRequest = await profileServer.SendNeighborhoodSharedProfileUpdateRequest(incomingServerMessage.Client, updateItems);
profilesSent += batchSize;
incomingServerMessage = await profileServer.WaitForResponse(ServerRole.ServerNeighbor, updateRequest);
statusOk = incomingServerMessage.IncomingMessage.Response.Status == Status.Ok;
bool batchOk = (updateRequest != null) && statusOk;
if (!batchOk)
{
updateOk = false;
break;
}
}
// Finish neighborhood initialization process.
Message finishRequest = await profileServer.SendFinishNeighborhoodInitializationRequest(incomingServerMessage.Client);
incomingServerMessage = await profileServer.WaitForResponse(ServerRole.ServerNeighbor, finishRequest);
statusOk = incomingServerMessage.IncomingMessage.Response.Status == Status.Ok;
bool finishOk = (finishRequest != null) && statusOk;
bool step2Ok = changeNotificationOk && updateOk && finishOk;
log.Trace("Step 2: {0}", step2Ok ? "PASSED" : "FAILED");
// Step 3
log.Trace("Step 3");
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.SrNeighbor], true);
bool verifyIdentityOk = await client.VerifyIdentityAsync();
List <SharedProfileUpdateItem> badUpdateItems = new List <SharedProfileUpdateItem>();
foreach (ProtocolClient pc in allProfiles.GetRange(19990, 60))
{
badUpdateItems.Add(pc.GetSharedProfileUpdateAddItem());
}
Message requestMessage = mb.CreateNeighborhoodSharedProfileUpdateRequest(badUpdateItems);
await client.SendMessageAsync(requestMessage);
Message responseMessage = await client.ReceiveMessageAsync();
bool idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.ErrorInvalidValue;
bool detailsOk = responseMessage.Response.Details == "10.add";
bool badUpdateOk = idOk && statusOk && detailsOk;
client.CloseConnection();
// Step 3 Acceptance
bool step3Ok = verifyIdentityOk && badUpdateOk;
log.Trace("Step 3: {0}", step3Ok ? "PASSED" : "FAILED");
// Step 4
log.Trace("Step 4");
// Start conversation.
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.ClNonCustomer], true);
bool startConversationOk = await client.StartConversationAsync();
HashSet <byte[]> expectedCoveredServers = new HashSet <byte[]>(StructuralEqualityComparer <byte[]> .Default)
{
client.GetIdentityId(), Crypto.Sha256(client.ServerKey)
};
// Search all profiles with type "last".
requestMessage = mb.CreateProfileSearchRequest("last", null, null, null, 0, 100, 100);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
bool totalRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.TotalRecordCount == 10;
bool maxResponseRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.MaxResponseRecordCount == 100;
bool profilesCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Count == 10;
bool resultsOk = client.CheckProfileListMatchSearchResultItems(expectedLastClients, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.ToList(), false, false, client.GetIdentityId(), true);
bool queryOk = idOk && statusOk && totalRecordCountOk && maxResponseRecordCountOk && profilesCountOk && resultsOk;
client.CloseConnection();
// Step 4 Acceptance
bool step4Ok = startConversationOk && queryOk;
log.Trace("Step 4: {0}", step4Ok ? "PASSED" : "FAILED");
// Step 5
log.Trace("Step 5");
// Make TestProfiles reflect the status on the target profile server.
foreach (string excessClientName in excessClientNames)
{
TestProfiles[excessClientName].Dispose();
TestProfiles.Remove(excessClientName);
}
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.SrNeighbor], true);
verifyIdentityOk = await client.VerifyIdentityAsync();
// Select 140 profiles for deletion.
List <SharedProfileUpdateItem> deleteUpdateItems = new List <SharedProfileUpdateItem>();
while (deleteUpdateItems.Count < 140)
{
int index = Rng.Next(TestProfiles.Count);
ProtocolClient pc = TestProfiles.ElementAt(index).Value;
deleteUpdateItems.Add(pc.GetSharedProfileUpdateDeleteItem());
if (expectedLastClients.ContainsKey(pc.Profile.Name))
{
expectedLastClients.Remove(pc.Profile.Name);
}
TestProfiles.Remove(pc.Profile.Name);
pc.Dispose();
}
// Send delete update.
requestMessage = mb.CreateNeighborhoodSharedProfileUpdateRequest(deleteUpdateItems);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
bool deleteUpdateOk = idOk && statusOk;
// Generate 160 new identities.
badUpdateItems.Clear();
excessClientNames.Clear();
for (int i = 0; i < 160; i++)
{
ProtocolClient protocolClient = new ProtocolClient();
protocolClient.InitializeRandomProfile(profileNumber, imageData);
profileNumber++;
protocolClient.Profile.Type = "last";
if (TestProfiles.Count < 20000)
{
expectedLastClients.Add(protocolClient.Profile.Name, protocolClient);
}
else
{
excessClientNames.Add(protocolClient.Profile.Name);
}
TestProfiles.Add(protocolClient.Profile.Name, protocolClient);
badUpdateItems.Add(protocolClient.GetSharedProfileUpdateAddItem());
}
// Add the new profiles to the profile server.
requestMessage = mb.CreateNeighborhoodSharedProfileUpdateRequest(badUpdateItems);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.ErrorInvalidValue;
detailsOk = responseMessage.Response.Details == "140.add";
badUpdateOk = idOk && statusOk && detailsOk;
client.CloseConnection();
// Step 5 Acceptance
bool step5Ok = verifyIdentityOk && deleteUpdateOk && badUpdateOk;
log.Trace("Step 5: {0}", step5Ok ? "PASSED" : "FAILED");
// Step 6
log.Trace("Step 6");
// Make TestProfiles reflect the status on the target profile server.
foreach (string excessClientName in excessClientNames)
{
TestProfiles[excessClientName].Dispose();
TestProfiles.Remove(excessClientName);
}
// Start conversation.
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.ClNonCustomer], true);
startConversationOk = await client.StartConversationAsync();
// Search all profiles with type "last".
requestMessage = mb.CreateProfileSearchRequest("last", null, null, null, 0, 1000, 1000, false, false);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
totalRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.TotalRecordCount == expectedLastClients.Count;
maxResponseRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.MaxResponseRecordCount == 1000;
profilesCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Count == expectedLastClients.Count;
resultsOk = client.CheckProfileListMatchSearchResultItems(expectedLastClients, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.ToList(), false, false, client.GetIdentityId(), false);
queryOk = idOk && statusOk && totalRecordCountOk && maxResponseRecordCountOk && profilesCountOk && resultsOk;
client.CloseConnection();
// Step 6 Acceptance
bool step6Ok = startConversationOk && queryOk;
log.Trace("Step 6: {0}", step6Ok ? "PASSED" : "FAILED");
// Step 7
log.Trace("Step 7");
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.SrNeighbor], true);
verifyIdentityOk = await client.VerifyIdentityAsync();
// Select 40 profiles for deletion.
deleteUpdateItems = new List <SharedProfileUpdateItem>();
while (deleteUpdateItems.Count < 40)
{
int index = Rng.Next(TestProfiles.Count);
ProtocolClient pc = TestProfiles.ElementAt(index).Value;
deleteUpdateItems.Add(pc.GetSharedProfileUpdateDeleteItem());
if (expectedLastClients.ContainsKey(pc.Profile.Name))
{
expectedLastClients.Remove(pc.Profile.Name);
}
TestProfiles.Remove(pc.Profile.Name);
pc.Dispose();
}
// Select 40 profiles for change, but avoid updating one profile twice in a single update message, which is forbidden.
HashSet <int> usedIndexes = new HashSet <int>();
List <SharedProfileUpdateItem> changeUpdateItems = new List <SharedProfileUpdateItem>();
while (changeUpdateItems.Count < 40)
{
int index = Rng.Next(TestProfiles.Count);
if (usedIndexes.Contains(index))
{
continue;
}
usedIndexes.Add(index);
ProtocolClient pc = TestProfiles.ElementAt(index).Value;
pc.Profile.ExtraData = "1234567890";
SharedProfileUpdateItem changeUpdateItem = new SharedProfileUpdateItem()
{
Change = new SharedProfileChangeItem()
{
IdentityNetworkId = ProtocolHelper.ByteArrayToByteString(pc.GetIdentityId()),
SetExtraData = true,
ExtraData = pc.Profile.ExtraData
}
};
changeUpdateItems.Add(changeUpdateItem);
}
// Generate 40 new identities.
List <SharedProfileUpdateItem> addUpdateItems = new List <SharedProfileUpdateItem>();
for (int i = 0; i < 40; i++)
{
ProtocolClient protocolClient = new ProtocolClient();
protocolClient.InitializeRandomProfile(profileNumber, imageData);
profileNumber++;
protocolClient.Profile.Type = "last";
expectedLastClients.Add(protocolClient.Profile.Name, protocolClient);
TestProfiles.Add(protocolClient.Profile.Name, protocolClient);
addUpdateItems.Add(protocolClient.GetSharedProfileUpdateAddItem());
}
// Send all the updates as one.
List <SharedProfileUpdateItem> newUpdateItems = new List <SharedProfileUpdateItem>();
newUpdateItems.AddRange(deleteUpdateItems);
newUpdateItems.AddRange(changeUpdateItems);
newUpdateItems.AddRange(addUpdateItems);
requestMessage = mb.CreateNeighborhoodSharedProfileUpdateRequest(newUpdateItems);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
bool newUpdateOk = idOk && statusOk;
client.CloseConnection();
// Step 7 Acceptance
bool step7Ok = verifyIdentityOk && newUpdateOk;
log.Trace("Step 7: {0}", step7Ok ? "PASSED" : "FAILED");
// Step 8
log.Trace("Step 8");
// Start conversation.
await client.ConnectAsync(ServerIp, (int)rolePorts[ServerRoleType.ClNonCustomer], true);
startConversationOk = await client.StartConversationAsync();
// Search all profiles with type "last".
requestMessage = mb.CreateProfileSearchRequest("last", null, null, null, 0, 1000, 1000, false, false);
await client.SendMessageAsync(requestMessage);
responseMessage = await client.ReceiveMessageAsync();
idOk = responseMessage.Id == requestMessage.Id;
statusOk = responseMessage.Response.Status == Status.Ok;
totalRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.TotalRecordCount == expectedLastClients.Count;
maxResponseRecordCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.MaxResponseRecordCount == 1000;
profilesCountOk = responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.Count == expectedLastClients.Count;
resultsOk = client.CheckProfileListMatchSearchResultItems(expectedLastClients, responseMessage.Response.ConversationResponse.ProfileSearch.Profiles.ToList(), false, false, client.GetIdentityId(), false);
queryOk = idOk && statusOk && totalRecordCountOk && maxResponseRecordCountOk && profilesCountOk && resultsOk;
client.CloseConnection();
// Step 8 Acceptance
bool step8Ok = startConversationOk && queryOk;
log.Trace("Step 8: {0}", step8Ok ? "PASSED" : "FAILED");
Passed = step1Ok && step2Ok && step3Ok && step4Ok && step5Ok && step6Ok && step7Ok && step8Ok;
res = true;
}
catch (Exception e)
{
log.Error("Exception occurred: {0}", e.ToString());
}
client.Dispose();
foreach (ProtocolClient protocolClient in TestProfiles.Values)
{
protocolClient.Dispose();
}
if (profileServer != null)
{
profileServer.Shutdown();
}
if (locServer != null)
{
locServer.Shutdown();
}
log.Trace("(-):{0}", res);
return(res);
}