public void CreateFailsIfDuplicateName()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
DedicatedCircuitGetResponse createdCircuit = expressRouteClient.DedicatedCircuits.Get(serviceKey.ToString());
Assert.Equal(createdCircuit.DedicatedCircuit.CircuitName, circuitName, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.ServiceProviderName, provider.Name, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.Bandwidth, bandwidth);
Assert.Equal(createdCircuit.DedicatedCircuit.Location, location, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.Status, DedicatedCircuitState.Enabled);
Assert.Equal(createdCircuit.DedicatedCircuit.ServiceProviderProvisioningState, ProviderProvisioningState.NotProvisioned);
var exception = Assert.Throws <CloudException>(() => newResponse = expressRouteClient.DedicatedCircuits.New(newParams));
Assert.Equal(exception.Error.Code, "ConflictError");
Assert.True(exception.Error.Message.Contains(circuitName) && exception.Error.Message.Contains("already exists"));
}
}
public void CanRemoveDedicatedCircuit()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
ExpressRouteOperationStatusResponse removeResponse = expressRouteClient.DedicatedCircuits.Remove(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(removeResponse);
}
}
public void CanListDedicatedCircuit()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
DedicatedCircuitListResponse circuits = expressRouteClient.DedicatedCircuits.List();
Assert.NotEmpty(circuits.DedicatedCircuits);
var circuit =
circuits.DedicatedCircuits.FirstOrDefault(c => c.CircuitName.Equals(circuitName, StringComparison.CurrentCultureIgnoreCase));
Assert.NotNull(circuit);
Assert.Equal(serviceKey.ToString(), circuit.ServiceKey);
Assert.Equal(location, circuit.Location, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(provider.Name, circuit.ServiceProviderName, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(circuit.ServiceProviderProvisioningState, ProviderProvisioningState.NotProvisioned);
Assert.Equal(bandwidth, circuit.Bandwidth);
Assert.Equal(circuit.Status, DedicatedCircuitState.Enabled);
}
}
public void CanNotGetStats()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
DedicatedCircuitStatsGetResponse response;
string expectedException = "Can not find any subinterface for peering type 'Private' for circuit '" + serviceKey + "'";
var exception = Assert.Throws <CloudException>(() => response = expressRouteClient.DedicatedCircuitStats.Get(serviceKey.ToString(), BgpPeeringAccessType.Private));
Assert.True(exception.Error.Message.Contains(expectedException));
ExpressRouteOperationStatusResponse statusResponse;
exception = Assert.Throws <CloudException>(() => statusResponse = expressRouteClient.DedicatedCircuitPeeringArpInfo.Get(serviceKey.ToString(), BgpPeeringAccessType.Private, DevicePath.Primary));
exception = Assert.Throws <CloudException>(() => statusResponse = expressRouteClient.DedicatedCircuitPeeringRouteTableInfo.Get(serviceKey.ToString(), BgpPeeringAccessType.Private, DevicePath.Primary));
exception = Assert.Throws <CloudException>(() => statusResponse = expressRouteClient.DedicatedCircuitPeeringRouteTableSummary.Get(serviceKey.ToString(), BgpPeeringAccessType.Private, DevicePath.Primary));
}
}
public void CanCreateGetListUpdateAndDeleteDedicatedCircuit()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name,
BillingType = BillingType.ServiceProviderType
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
DedicatedCircuitGetResponse createdCircuit = expressRouteClient.DedicatedCircuits.Get(serviceKey.ToString());
Assert.Equal(createdCircuit.DedicatedCircuit.CircuitName, circuitName, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.ServiceProviderName, provider.Name, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.Bandwidth, bandwidth);
Assert.Equal(createdCircuit.DedicatedCircuit.Location, location, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.Status, DedicatedCircuitState.Enabled);
Assert.Equal(createdCircuit.DedicatedCircuit.ServiceProviderProvisioningState, ProviderProvisioningState.NotProvisioned);
Assert.Equal(createdCircuit.DedicatedCircuit.BillingType, BillingType.ServiceProviderType);
DedicatedCircuitListResponse circuits = expressRouteClient.DedicatedCircuits.List();
TestUtilities.ValidateOperationResponse(circuits);
Assert.NotEmpty(circuits.DedicatedCircuits);
var circuit =
circuits.DedicatedCircuits.FirstOrDefault(c => c.CircuitName.Equals(circuitName, StringComparison.CurrentCultureIgnoreCase));
Assert.NotNull(circuit);
Assert.Equal(serviceKey.ToString(), circuit.ServiceKey);
Assert.Equal(location, circuit.Location, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(provider.Name, circuit.ServiceProviderName, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(circuit.ServiceProviderProvisioningState, ProviderProvisioningState.NotProvisioned);
Assert.Equal(bandwidth, circuit.Bandwidth);
Assert.Equal(circuit.Status, DedicatedCircuitState.Enabled);
var updateParams = new DedicatedCircuitUpdateParameters()
{
Bandwidth = provider.DedicatedCircuitBandwidths.Last().Bandwidth.ToString()
};
var updateResponse = expressRouteClient.DedicatedCircuits.Update(serviceKey.ToString(), updateParams);
TestUtilities.ValidateOperationResponse(updateResponse);
var updatedCircuit = expressRouteClient.DedicatedCircuits.Get(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(updatedCircuit);
Assert.Equal(updatedCircuit.DedicatedCircuit.Bandwidth.ToString(), updateParams.Bandwidth);
}
}
public void CreateFailsIfDuplicateVlanIdUsedOrIfPeeringAlreadyExists()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider =
expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
var randomGen = new Random();
var newPrivatePeeringParams = new BorderGatewayProtocolPeeringNewParameters()
{
PeerAutonomousSystemNumber = PrivatePeerAsn,
PrimaryPeerSubnet = PrivatePrimaryPeerSubnet,
SecondaryPeerSubnet = PrivateSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = PrivateVlanId
};
newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Private,
newPrivatePeeringParams);
TestUtilities.ValidateOperationResponse(newResponse);
newPrivatePeeringParams.PeerAutonomousSystemNumber = PublicPeerAsn;
newPrivatePeeringParams.PrimaryPeerSubnet = PublicPrimaryPeerSubnet;
newPrivatePeeringParams.SecondaryPeerSubnet = PublicSecondaryPeerSubnet;
newPrivatePeeringParams.SharedKey = TestUtilities.GenerateName("SharedKey");
var exception = Assert.Throws <CloudException>(() => newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(), BgpPeeringAccessType.Public, newPrivatePeeringParams));
Assert.Equal(exception.Error.Code, "ConflictError");
Assert.True(exception.Error.Message.Contains("The vlanId specified is already in use"));
newPrivatePeeringParams.VirtualLanId = PublicVlanId;
exception = Assert.Throws <CloudException>(()
=>
newResponse =
expressRouteClient.BorderGatewayProtocolPeerings.New(
serviceKey.ToString(), BgpPeeringAccessType.Private,
newPrivatePeeringParams));
Assert.Equal(exception.Error.Code, "ConflictError");
Assert.True(exception.Error.Message.Contains("BGP peering could not be created as it already exists"));
}
}
public void CanCreateGetListAndUpdateCrossConnnections()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var customerExpressRouteClient = GetCustomerExpressRouteManagementClient();
var providerExpressRouteClient = GetProviderExpressRouteManagementClient();
var provider =
customerExpressRouteClient.DedicatedCircuitServiceProviders.List()
.Single(
p =>
p.Name.Equals(GetProviderName(),
StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths[4].Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = customerExpressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
newResponse = providerExpressRouteClient.CrossConnections.New(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(newResponse);
CrossConnectionGetResponse getResponse =
providerExpressRouteClient.CrossConnections.Get(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal((uint) getResponse.CrossConnection.Bandwidth, bandwidth);
Assert.Equal(getResponse.CrossConnection.Status, DedicatedCircuitState.Enabled.ToString());
Assert.Equal(getResponse.CrossConnection.ProvisioningState,
ProviderProvisioningState.Provisioning.ToString());
CrossConnectionListResponse listResponse = providerExpressRouteClient.CrossConnections.List();
Assert.NotEmpty(listResponse.CrossConnections[0].ServiceKey);
var updateParams = new CrossConnectionUpdateParameters()
{
Operation = UpdateCrossConnectionOperation.NotifyCrossConnectionProvisioned,
ProvisioningError = ""
};
var updateResponse = providerExpressRouteClient.CrossConnections.Update(serviceKey.ToString(),
updateParams);
}
}
public void CanCreateAndGetDedicatedCircuitLink()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var customerExpressRouteClient = GetCustomerExpressRouteManagementClient();
var provider =
customerExpressRouteClient.DedicatedCircuitServiceProviders.List()
.Single(
p =>
p.Name.Equals(GetProviderName(),
StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = customerExpressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
var providerExpressRouteClient = GetProviderExpressRouteManagementClient();
newResponse = providerExpressRouteClient.CrossConnections.New(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(newResponse);
CrossConnectionGetResponse getResponse =
providerExpressRouteClient.CrossConnections.Get(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal((uint)getResponse.CrossConnection.Bandwidth, bandwidth);
Assert.Equal(getResponse.CrossConnection.Status, DedicatedCircuitState.Enabled.ToString());
Assert.Equal(getResponse.CrossConnection.ProvisioningState,
ProviderProvisioningState.Provisioning.ToString());
var updateParams = new CrossConnectionUpdateParameters()
{
Operation = UpdateCrossConnectionOperation.NotifyCrossConnectionProvisioned,
ProvisioningError = ""
};
var updateResponse = providerExpressRouteClient.CrossConnections.Update(serviceKey.ToString(),
updateParams);
TestUtilities.ValidateOperationResponse(updateResponse);
newResponse = customerExpressRouteClient.DedicatedCircuitLinks.New(serviceKey.ToString(), GetVNetName());
TestUtilities.ValidateOperationResponse(newResponse);
}
}
public void CreateFailsIfBandwidthDoesNotExist()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = DefaultCircuitBandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = new ExpressRouteOperationStatusResponse();
var exception = Assert.Throws <CloudException>(() => newResponse = expressRouteClient.DedicatedCircuits.New(newParams));
Assert.Equal(exception.Error.Code, "ResourceNotFound");
Assert.True(exception.Error.Message.Contains(DefaultCircuitBandwidth.ToString()) && exception.Error.Message.Contains("does not exist"));
}
}
public void CreateFailsIfProviderDoesNotExist()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var providerName = TestUtilities.GenerateName("provider");
var location = TestUtilities.GenerateName("location");
uint bandwidth = DefaultCircuitBandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = providerName
};
var exception = Assert.Throws <CloudException>(() => expressRouteClient.DedicatedCircuits.New(newParams));
Assert.Equal(exception.Error.Code, "ResourceNotFound");
Assert.True(exception.Error.Message.Contains("The provider could not be found"));
}
}
public void CanNotGetStats()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
DedicatedCircuitStatsGetResponse response;
string expectedException = "Can not find any subinterface for peering type 'Private' for circuit '" + serviceKey + "'";
var exception = Assert.Throws<CloudException>(() => response = expressRouteClient.DedicatedCircuitStats.Get(serviceKey.ToString(), BgpPeeringAccessType.Private));
Assert.True(exception.Error.Message.Contains(expectedException));
ExpressRouteOperationStatusResponse statusResponse;
exception = Assert.Throws<CloudException>(() => statusResponse = expressRouteClient.DedicatedCircuitPeeringArpInfo.Get(serviceKey.ToString(), BgpPeeringAccessType.Private, DevicePath.Primary));
exception = Assert.Throws<CloudException>(() => statusResponse = expressRouteClient.DedicatedCircuitPeeringRouteTableInfo.Get(serviceKey.ToString(), BgpPeeringAccessType.Private, DevicePath.Primary));
exception = Assert.Throws<CloudException>(() => statusResponse = expressRouteClient.DedicatedCircuitPeeringRouteTableSummary.Get(serviceKey.ToString(), BgpPeeringAccessType.Private, DevicePath.Primary));
}
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='parameters'>
/// Required. Parameters supplied to the New Dedicated Circuit
/// operation.
/// </param>
/// <param name='cancellationToken'>
/// Cancellation token.
/// </param>
/// <returns>
/// A standard service response including an HTTP status code and
/// request ID.
/// </returns>
public async System.Threading.Tasks.Task <Microsoft.WindowsAzure.Management.ExpressRoute.Models.ExpressRouteOperationResponse> BeginNewAsync(DedicatedCircuitNewParameters parameters, CancellationToken cancellationToken)
{
// Validate
if (parameters == null)
{
throw new ArgumentNullException("parameters");
}
if (parameters.CircuitName == null)
{
throw new ArgumentNullException("parameters.CircuitName");
}
if (parameters.Location == null)
{
throw new ArgumentNullException("parameters.Location");
}
if (parameters.ServiceProviderName == null)
{
throw new ArgumentNullException("parameters.ServiceProviderName");
}
// Tracing
bool shouldTrace = CloudContext.Configuration.Tracing.IsEnabled;
string invocationId = null;
if (shouldTrace)
{
invocationId = Tracing.NextInvocationId.ToString();
Dictionary <string, object> tracingParameters = new Dictionary <string, object>();
tracingParameters.Add("parameters", parameters);
Tracing.Enter(invocationId, this, "BeginNewAsync", tracingParameters);
}
// Construct URL
string url = "/" + (this.Client.Credentials.SubscriptionId != null ? this.Client.Credentials.SubscriptionId.Trim() : "") + "/services/networking/dedicatedcircuits?api-version=1.0";
string baseUrl = this.Client.BaseUri.AbsoluteUri;
// Trim '/' character from the end of baseUrl and beginning of url.
if (baseUrl[baseUrl.Length - 1] == '/')
{
baseUrl = baseUrl.Substring(0, baseUrl.Length - 1);
}
if (url[0] == '/')
{
url = url.Substring(1);
}
url = baseUrl + "/" + url;
url = url.Replace(" ", "%20");
// Create HTTP transport objects
HttpRequestMessage httpRequest = null;
try
{
httpRequest = new HttpRequestMessage();
httpRequest.Method = HttpMethod.Post;
httpRequest.RequestUri = new Uri(url);
// Set Headers
httpRequest.Headers.Add("x-ms-version", "2011-10-01");
// Set Credentials
cancellationToken.ThrowIfCancellationRequested();
await this.Client.Credentials.ProcessHttpRequestAsync(httpRequest, cancellationToken).ConfigureAwait(false);
// Serialize Request
string requestContent = null;
XDocument requestDoc = new XDocument();
XElement createDedicatedCircuitElement = new XElement(XName.Get("CreateDedicatedCircuit", "http://schemas.microsoft.com/windowsazure"));
requestDoc.Add(createDedicatedCircuitElement);
XElement bandwidthElement = new XElement(XName.Get("Bandwidth", "http://schemas.microsoft.com/windowsazure"));
bandwidthElement.Value = parameters.Bandwidth.ToString();
createDedicatedCircuitElement.Add(bandwidthElement);
XElement circuitNameElement = new XElement(XName.Get("CircuitName", "http://schemas.microsoft.com/windowsazure"));
circuitNameElement.Value = parameters.CircuitName;
createDedicatedCircuitElement.Add(circuitNameElement);
XElement locationElement = new XElement(XName.Get("Location", "http://schemas.microsoft.com/windowsazure"));
locationElement.Value = parameters.Location;
createDedicatedCircuitElement.Add(locationElement);
XElement serviceProviderNameElement = new XElement(XName.Get("ServiceProviderName", "http://schemas.microsoft.com/windowsazure"));
serviceProviderNameElement.Value = parameters.ServiceProviderName;
createDedicatedCircuitElement.Add(serviceProviderNameElement);
requestContent = requestDoc.ToString();
httpRequest.Content = new StringContent(requestContent, Encoding.UTF8);
httpRequest.Content.Headers.ContentType = MediaTypeHeaderValue.Parse("application/xml");
// Send Request
HttpResponseMessage httpResponse = null;
try
{
if (shouldTrace)
{
Tracing.SendRequest(invocationId, httpRequest);
}
cancellationToken.ThrowIfCancellationRequested();
httpResponse = await this.Client.HttpClient.SendAsync(httpRequest, cancellationToken).ConfigureAwait(false);
if (shouldTrace)
{
Tracing.ReceiveResponse(invocationId, httpResponse);
}
HttpStatusCode statusCode = httpResponse.StatusCode;
if (statusCode != HttpStatusCode.Accepted)
{
cancellationToken.ThrowIfCancellationRequested();
CloudException ex = CloudException.Create(httpRequest, requestContent, httpResponse, await httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false));
if (shouldTrace)
{
Tracing.Error(invocationId, ex);
}
throw ex;
}
// Create Result
ExpressRouteOperationResponse result = null;
// Deserialize Response
cancellationToken.ThrowIfCancellationRequested();
string responseContent = await httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false);
result = new ExpressRouteOperationResponse();
XDocument responseDoc = XDocument.Parse(responseContent);
XElement gatewayOperationAsyncResponseElement = responseDoc.Element(XName.Get("GatewayOperationAsyncResponse", "http://schemas.microsoft.com/windowsazure"));
if (gatewayOperationAsyncResponseElement != null)
{
XElement idElement = gatewayOperationAsyncResponseElement.Element(XName.Get("ID", "http://schemas.microsoft.com/windowsazure"));
if (idElement != null)
{
string idInstance = idElement.Value;
result.OperationId = idInstance;
}
}
result.StatusCode = statusCode;
if (httpResponse.Headers.Contains("x-ms-request-id"))
{
result.RequestId = httpResponse.Headers.GetValues("x-ms-request-id").FirstOrDefault();
}
if (shouldTrace)
{
Tracing.Exit(invocationId, result);
}
return(result);
}
finally
{
if (httpResponse != null)
{
httpResponse.Dispose();
}
}
}
finally
{
if (httpRequest != null)
{
httpRequest.Dispose();
}
}
}
public void CanRemoveDedicatedCircuit()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
ExpressRouteOperationStatusResponse removeResponse = expressRouteClient.DedicatedCircuits.Remove(serviceKey.ToString());
TestUtilities.ValidateOperationResponse(removeResponse);
}
}
public void CreateFailsIfDuplicateName()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
DedicatedCircuitGetResponse createdCircuit = expressRouteClient.DedicatedCircuits.Get(serviceKey.ToString());
Assert.Equal(createdCircuit.DedicatedCircuit.CircuitName, circuitName, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.ServiceProviderName, provider.Name, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.Bandwidth, bandwidth);
Assert.Equal(createdCircuit.DedicatedCircuit.Location, location, StringComparer.CurrentCultureIgnoreCase);
Assert.Equal(createdCircuit.DedicatedCircuit.Status, DedicatedCircuitState.Enabled);
Assert.Equal(createdCircuit.DedicatedCircuit.ServiceProviderProvisioningState, ProviderProvisioningState.NotProvisioned);
var exception = Assert.Throws<CloudException>(() => newResponse = expressRouteClient.DedicatedCircuits.New(newParams));
Assert.Equal(exception.Error.Code, "ConflictError");
Assert.True(exception.Error.Message.Contains(circuitName) && exception.Error.Message.Contains("already exists"));
}
}
public void CanCreateGetUpdateAndRemovePrivateAndPublicPeerings()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
var newPrivatePeeringParams = new BorderGatewayProtocolPeeringNewParameters()
{
PeerAutonomousSystemNumber = PrivatePeerAsn,
PrimaryPeerSubnet = PrivatePrimaryPeerSubnet,
SecondaryPeerSubnet = PrivateSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = PrivateVlanId
};
newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Private,
newPrivatePeeringParams);
TestUtilities.ValidateOperationResponse(newResponse);
var getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Private);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, newPrivatePeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, newPrivatePeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, newPrivatePeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, newPrivatePeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
var newPublicPeeringParams = new BorderGatewayProtocolPeeringNewParameters()
{
PeerAutonomousSystemNumber = PublicPeerAsn,
PrimaryPeerSubnet = PublicPrimaryPeerSubnet,
SecondaryPeerSubnet = PublicSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = PublicVlanId
};
newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Public,
newPublicPeeringParams);
TestUtilities.ValidateOperationResponse(newResponse);
getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Public);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, newPublicPeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, newPublicPeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, newPublicPeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, newPublicPeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
BorderGatewayProtocolPeeringUpdateParameters updatePrivatePeeringParams = new BorderGatewayProtocolPeeringUpdateParameters
()
{
PeerAutonomousSystemNumber = UpdatePrivatePeerAsn,
PrimaryPeerSubnet = UpdatePrivatePrimaryPeerSubnet,
SecondaryPeerSubnet = UpdatePrivateSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = UpdatePrivateVlanId
};
var updateResponse = expressRouteClient.BorderGatewayProtocolPeerings.Update(serviceKey.ToString(),
BgpPeeringAccessType
.Private,
updatePrivatePeeringParams);
TestUtilities.ValidateOperationResponse(updateResponse);
getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Private);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, updatePrivatePeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, updatePrivatePeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, updatePrivatePeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, updatePrivatePeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
BorderGatewayProtocolPeeringUpdateParameters updatePublicPeeringParams = new BorderGatewayProtocolPeeringUpdateParameters
()
{
PeerAutonomousSystemNumber = UpdatePublicPeerAsn,
PrimaryPeerSubnet = UpdatePublicPrimaryPeerSubnet,
SecondaryPeerSubnet = UpdatePublicSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = UpdatePublicVlanId
};
updateResponse = expressRouteClient.BorderGatewayProtocolPeerings.Update(serviceKey.ToString(),
BgpPeeringAccessType
.Public,
updatePublicPeeringParams);
TestUtilities.ValidateOperationResponse(updateResponse);
getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Public);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, updatePublicPeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, updatePublicPeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, updatePublicPeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, updatePublicPeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
}
}
public void CreateFailsIfBandwidthDoesNotExist()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = DefaultCircuitBandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = new ExpressRouteOperationStatusResponse();
var exception = Assert.Throws<CloudException>(() => newResponse = expressRouteClient.DedicatedCircuits.New(newParams));
Assert.Equal(exception.Error.Code, "ResourceNotFound");
Assert.True(exception.Error.Message.Contains(DefaultCircuitBandwidth.ToString()) && exception.Error.Message.Contains("does not exist"));
}
}
public void CreateFailsIfInvalidPrimaryOrSecondaryPeerSubnetUsed()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider =
expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
var randomGen = new Random();
var newPrivatePeeringParams = new BorderGatewayProtocolPeeringNewParameters()
{
PeerAutonomousSystemNumber = PrivatePeerAsn,
PrimaryPeerSubnet = InvalidSubnet,
SecondaryPeerSubnet = PrivateSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = PrivateVlanId
};
var exception = Assert.Throws<CloudException>(() => newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Private,
newPrivatePeeringParams));
Assert.Equal(exception.Error.Code, "BadRequest");
Assert.True(exception.Message.Contains(newPrivatePeeringParams.PrimaryPeerSubnet) && exception.Message.Contains("is not valid"));
newPrivatePeeringParams.PrimaryPeerSubnet = PrivatePrimaryPeerSubnet;
newPrivatePeeringParams.SecondaryPeerSubnet = InvalidSubnet;
exception = Assert.Throws<CloudException>(() => newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Private,
newPrivatePeeringParams));
Assert.Equal(exception.Error.Code, "BadRequest");
Assert.True(exception.Message.Contains(newPrivatePeeringParams.SecondaryPeerSubnet) && exception.Message.Contains("is not valid"));
}
}
public void CreateFailsIfProviderDoesNotExist()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var providerName = TestUtilities.GenerateName("provider");
var location = TestUtilities.GenerateName("location");
uint bandwidth = DefaultCircuitBandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = providerName
};
var exception = Assert.Throws<CloudException>(() => expressRouteClient.DedicatedCircuits.New(newParams));
Assert.Equal(exception.Error.Code, "ResourceNotFound");
Assert.True(exception.Error.Message.Contains("The provider could not be found"));
}
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='operations'>
/// Reference to the
/// Microsoft.WindowsAzure.Management.ExpressRoute.IDedicatedCircuitOperations.
/// </param>
/// <param name='parameters'>
/// Required. Parameters supplied to the New Dedicated Circuit
/// operation.
/// </param>
/// <returns>
/// A standard service response including an HTTP status code and
/// request ID.
/// </returns>
public static Task <ExpressRouteOperationResponse> BeginNewAsync(this IDedicatedCircuitOperations operations, DedicatedCircuitNewParameters parameters)
{
return(operations.BeginNewAsync(parameters, CancellationToken.None));
}
public void CanCreateGetUpdateAndRemovePrivateAndPublicPeerings()
{
using (var undoContext = UndoContext.Current)
{
undoContext.Start();
var expressRouteClient = GetCustomerExpressRouteManagementClient();
var provider = expressRouteClient.DedicatedCircuitServiceProviders.List().Single(p => p.Name.Equals(GetProviderName(), StringComparison.CurrentCultureIgnoreCase));
var location = provider.DedicatedCircuitLocations.Split(',').First();
var bandwidth = provider.DedicatedCircuitBandwidths.First().Bandwidth;
var circuitName = TestUtilities.GenerateName("circuit");
var newCircuitParams = new DedicatedCircuitNewParameters()
{
Bandwidth = bandwidth,
CircuitName = circuitName,
Location = location,
ServiceProviderName = provider.Name
};
var newResponse = expressRouteClient.DedicatedCircuits.New(newCircuitParams);
TestUtilities.ValidateOperationResponse(newResponse);
Guid serviceKey;
Assert.True(Guid.TryParse(newResponse.Data, out serviceKey));
var newPrivatePeeringParams = new BorderGatewayProtocolPeeringNewParameters()
{
PeerAutonomousSystemNumber = PrivatePeerAsn,
PrimaryPeerSubnet = PrivatePrimaryPeerSubnet,
SecondaryPeerSubnet = PrivateSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = PrivateVlanId
};
newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Private,
newPrivatePeeringParams);
TestUtilities.ValidateOperationResponse(newResponse);
var getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Private);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, newPrivatePeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, newPrivatePeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, newPrivatePeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, newPrivatePeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
var newPublicPeeringParams = new BorderGatewayProtocolPeeringNewParameters()
{
PeerAutonomousSystemNumber = PublicPeerAsn,
PrimaryPeerSubnet = PublicPrimaryPeerSubnet,
SecondaryPeerSubnet = PublicSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = PublicVlanId
};
newResponse = expressRouteClient.BorderGatewayProtocolPeerings.New(serviceKey.ToString(),
BgpPeeringAccessType.Public,
newPublicPeeringParams);
TestUtilities.ValidateOperationResponse(newResponse);
getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Public);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, newPublicPeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, newPublicPeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, newPublicPeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, newPublicPeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
BorderGatewayProtocolPeeringUpdateParameters updatePrivatePeeringParams = new BorderGatewayProtocolPeeringUpdateParameters
()
{
PeerAutonomousSystemNumber = UpdatePrivatePeerAsn,
PrimaryPeerSubnet = UpdatePrivatePrimaryPeerSubnet,
SecondaryPeerSubnet = UpdatePrivateSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = UpdatePrivateVlanId
};
var updateResponse = expressRouteClient.BorderGatewayProtocolPeerings.Update(serviceKey.ToString(),
BgpPeeringAccessType
.Private,
updatePrivatePeeringParams);
TestUtilities.ValidateOperationResponse(updateResponse);
getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Private);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, updatePrivatePeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, updatePrivatePeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, updatePrivatePeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, updatePrivatePeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
BorderGatewayProtocolPeeringUpdateParameters updatePublicPeeringParams = new BorderGatewayProtocolPeeringUpdateParameters
()
{
PeerAutonomousSystemNumber = UpdatePublicPeerAsn,
PrimaryPeerSubnet = UpdatePublicPrimaryPeerSubnet,
SecondaryPeerSubnet = UpdatePublicSecondaryPeerSubnet,
SharedKey = TestUtilities.GenerateName("SharedKey"),
VirtualLanId = UpdatePublicVlanId
};
updateResponse = expressRouteClient.BorderGatewayProtocolPeerings.Update(serviceKey.ToString(),
BgpPeeringAccessType
.Public,
updatePublicPeeringParams);
TestUtilities.ValidateOperationResponse(updateResponse);
getResponse = expressRouteClient.BorderGatewayProtocolPeerings.Get(serviceKey.ToString(), BgpPeeringAccessType.Public);
TestUtilities.ValidateOperationResponse(getResponse);
Assert.Equal(getResponse.BgpPeering.PeerAsn, updatePublicPeeringParams.PeerAutonomousSystemNumber);
Assert.Equal(getResponse.BgpPeering.PrimaryPeerSubnet, updatePublicPeeringParams.PrimaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.SecondaryPeerSubnet, updatePublicPeeringParams.SecondaryPeerSubnet);
Assert.Equal(getResponse.BgpPeering.VlanId, updatePublicPeeringParams.VirtualLanId);
Assert.Equal(getResponse.BgpPeering.State, BgpPeeringState.Enabled);
var removeResponse = expressRouteClient.BorderGatewayProtocolPeerings.Remove(serviceKey.ToString(),
BgpPeeringAccessType
.Private);
TestUtilities.ValidateOperationResponse(removeResponse);
removeResponse = expressRouteClient.BorderGatewayProtocolPeerings.Remove(serviceKey.ToString(),
BgpPeeringAccessType.Public);
TestUtilities.ValidateOperationResponse(removeResponse);
}
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='operations'>
/// Reference to the
/// Microsoft.WindowsAzure.Management.ExpressRoute.IDedicatedCircuitOperations.
/// </param>
/// <param name='parameters'>
/// Required. Parameters supplied to the New Dedicated Circuit
/// operation.
/// </param>
/// <returns>
/// A standard service response including an HTTP status code and
/// request ID.
/// </returns>
public static ExpressRouteOperationResponse BeginNew(this IDedicatedCircuitOperations operations, DedicatedCircuitNewParameters parameters)
{
return(Task.Factory.StartNew((object s) =>
{
return ((IDedicatedCircuitOperations)s).BeginNewAsync(parameters);
}
, operations, CancellationToken.None, TaskCreationOptions.None, TaskScheduler.Default).Unwrap().GetAwaiter().GetResult());
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='operations'>
/// Reference to the
/// Microsoft.WindowsAzure.Management.ExpressRoute.IDedicatedCircuitOperations.
/// </param>
/// <param name='parameters'>
/// Required. Parameters supplied to the Create Virtual Network Gateway
/// operation.
/// </param>
/// <returns>
/// The Get Dedicated Circuit operation response.
/// </returns>
public static Task <DedicatedCircuitGetResponse> NewAsync(this IDedicatedCircuitOperations operations, DedicatedCircuitNewParameters parameters)
{
return(operations.NewAsync(parameters, CancellationToken.None));
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='operations'>
/// Reference to the
/// Microsoft.WindowsAzure.Management.ExpressRoute.IDedicatedCircuitOperations.
/// </param>
/// <param name='parameters'>
/// Parameters supplied to the New Dedicated Circuit operation.
/// </param>
/// <returns>
/// A standard express route gateway response including an HTTP status
/// code and request ID.
/// </returns>
public static ExpressRouteOperationResponse BeginNew(this IDedicatedCircuitOperations operations, DedicatedCircuitNewParameters parameters)
{
try
{
return(operations.BeginNewAsync(parameters).Result);
}
catch (AggregateException ex)
{
if (ex.InnerExceptions.Count > 1)
{
throw;
}
else
{
throw ex.InnerException;
}
}
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='parameters'>
/// Parameters supplied to the Create Virtual Network Gateway operation.
/// </param>
/// <param name='cancellationToken'>
/// Cancellation token.
/// </param>
/// <returns>
/// The Get Dedicated Circuit operation response.
/// </returns>
public async Task <DedicatedCircuitGetResponse> NewAsync(DedicatedCircuitNewParameters parameters, CancellationToken cancellationToken)
{
ExpressRouteManagementClient client = this.Client;
bool shouldTrace = CloudContext.Configuration.Tracing.IsEnabled;
string invocationId = null;
if (shouldTrace)
{
invocationId = Tracing.NextInvocationId.ToString();
Dictionary <string, object> tracingParameters = new Dictionary <string, object>();
tracingParameters.Add("parameters", parameters);
Tracing.Enter(invocationId, this, "NewAsync", tracingParameters);
}
try
{
if (shouldTrace)
{
client = this.Client.WithHandler(new ClientRequestTrackingHandler(invocationId));
}
cancellationToken.ThrowIfCancellationRequested();
ExpressRouteOperationResponse originalResponse = await client.DedicatedCircuit.BeginNewAsync(parameters, cancellationToken).ConfigureAwait(false);
cancellationToken.ThrowIfCancellationRequested();
ExpressRouteOperationStatusResponse result = await client.GetOperationStatusAsync(originalResponse.OperationId, cancellationToken).ConfigureAwait(false);
int delayInSeconds = 30;
while (result.Status == ExpressRouteOperationStatus.InProgress)
{
cancellationToken.ThrowIfCancellationRequested();
await TaskEx.Delay(delayInSeconds * 1000, cancellationToken).ConfigureAwait(false);
cancellationToken.ThrowIfCancellationRequested();
result = await client.GetOperationStatusAsync(originalResponse.OperationId, cancellationToken).ConfigureAwait(false);
delayInSeconds = 10;
}
if (result.Status == ExpressRouteOperationStatus.Failed)
{
string exStr = "A new dedicated circuit could not be created due to an internal server error.";
throw new ArgumentException(exStr);
}
cancellationToken.ThrowIfCancellationRequested();
DedicatedCircuitGetResponse getResult = await client.DedicatedCircuit.GetAsync(result.Data, cancellationToken).ConfigureAwait(false);
if (shouldTrace)
{
Tracing.Exit(invocationId, result);
}
return(getResult);
}
finally
{
if (client != null && shouldTrace)
{
client.Dispose();
}
}
}
/// <summary>
/// The New Dedicated Circuit operation creates a new dedicated circuit.
/// </summary>
/// <param name='parameters'>
/// Required. Parameters supplied to the Create Virtual Network Gateway
/// operation.
/// </param>
/// <param name='cancellationToken'>
/// Cancellation token.
/// </param>
/// <returns>
/// The Get Dedicated Circuit operation response.
/// </returns>
public async System.Threading.Tasks.Task <Microsoft.WindowsAzure.Management.ExpressRoute.Models.DedicatedCircuitGetResponse> NewAsync(DedicatedCircuitNewParameters parameters, CancellationToken cancellationToken)
{
// Validate
if (parameters == null)
{
throw new ArgumentNullException("parameters");
}
if (parameters.CircuitName == null)
{
throw new ArgumentNullException("parameters.CircuitName");
}
if (parameters.Location == null)
{
throw new ArgumentNullException("parameters.Location");
}
if (parameters.ServiceProviderName == null)
{
throw new ArgumentNullException("parameters.ServiceProviderName");
}
// Tracing
bool shouldTrace = CloudContext.Configuration.Tracing.IsEnabled;
string invocationId = null;
if (shouldTrace)
{
invocationId = Tracing.NextInvocationId.ToString();
Dictionary <string, object> tracingParameters = new Dictionary <string, object>();
tracingParameters.Add("parameters", parameters);
Tracing.Enter(invocationId, this, "NewAsync", tracingParameters);
}
// Construct URL
string url = "/" + (this.Client.Credentials.SubscriptionId != null ? this.Client.Credentials.SubscriptionId.Trim() : "") + "/services/networking/dedicatedcircuits?api-version=1.0";
string baseUrl = this.Client.BaseUri.AbsoluteUri;
// Trim '/' character from the end of baseUrl and beginning of url.
if (baseUrl[baseUrl.Length - 1] == '/')
{
baseUrl = baseUrl.Substring(0, baseUrl.Length - 1);
}
if (url[0] == '/')
{
url = url.Substring(1);
}
url = baseUrl + "/" + url;
url = url.Replace(" ", "%20");
// Create HTTP transport objects
HttpRequestMessage httpRequest = null;
try
{
httpRequest = new HttpRequestMessage();
httpRequest.Method = HttpMethod.Post;
httpRequest.RequestUri = new Uri(url);
// Set Headers
// Set Credentials
cancellationToken.ThrowIfCancellationRequested();
await this.Client.Credentials.ProcessHttpRequestAsync(httpRequest, cancellationToken).ConfigureAwait(false);
// Send Request
HttpResponseMessage httpResponse = null;
try
{
if (shouldTrace)
{
Tracing.SendRequest(invocationId, httpRequest);
}
cancellationToken.ThrowIfCancellationRequested();
httpResponse = await this.Client.HttpClient.SendAsync(httpRequest, cancellationToken).ConfigureAwait(false);
if (shouldTrace)
{
Tracing.ReceiveResponse(invocationId, httpResponse);
}
HttpStatusCode statusCode = httpResponse.StatusCode;
if (statusCode >= HttpStatusCode.BadRequest)
{
cancellationToken.ThrowIfCancellationRequested();
CloudException ex = CloudException.Create(httpRequest, null, httpResponse, await httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false));
if (shouldTrace)
{
Tracing.Error(invocationId, ex);
}
throw ex;
}
// Create Result
DedicatedCircuitGetResponse result = null;
result = new DedicatedCircuitGetResponse();
result.StatusCode = statusCode;
if (shouldTrace)
{
Tracing.Exit(invocationId, result);
}
return(result);
}
finally
{
if (httpResponse != null)
{
httpResponse.Dispose();
}
}
}
finally
{
if (httpRequest != null)
{
httpRequest.Dispose();
}
}
}
