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c0a42ad8847f1401ec0ffa2786e3f710a72699f0
csharp/tests/Kubernetes.WebSockets.Tests.cs
Adam Friedman c0a42ad884 Custom validation of server certificate for WebSockets (#103) 
* Improve SSL customisation for WebSockets

kubernetes-client/csharp#102

* First test for exec-in-pod over WebSockets.

Also, implement basic mock server for testing WebSockets.

kubernetes-client/csharp#102

* Attempt to handle raciness of Watcher tests.

kubernetes-client/csharp#102

* Attempt to handle raciness of ByteBuffer test.

kubernetes-client/csharp#102
2018-03-19 22:03:28 -07:00

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/*
* These tests are only for the netstandard version of the client (there are separate tests for netcoreapp that connect to a local test-hosted server).
*/
using k8s.tests.Mock;
using Microsoft.Rest;
using System;
using System.Collections.Generic;
using System.Threading;
using System.Threading.Tasks;
using Xunit;
namespace k8s.tests
{
public class KubernetesExecTests
{
/// <summary>
/// Tests the <see cref="Kubernetes.WebSocketNamespacedPodExecWithHttpMessagesAsync(string, string, string, string, bool, bool, bool, bool, Dictionary{string, List{string}}, CancellationToken)"/>
/// method. Changes the <see cref="WebSocketBuilder"/> used by the client with a mock builder, so this test never hits the network.
/// </summary>
/// <returns>
/// A <see cref="Task"/> which represents the asynchronous test.
/// </returns>
[Fact]
public async Task WebSocketNamespacedPodExecAsync()
{
var credentials = new BasicAuthenticationCredentials()
{
UserName = "my-user",
Password = "my-secret-password"
};
Kubernetes client = new Kubernetes(credentials);
client.BaseUri = new Uri("http://localhost");
MockWebSocketBuilder mockWebSocketBuilder = new MockWebSocketBuilder();
client.CreateWebSocketBuilder = () => mockWebSocketBuilder;
var webSocket = await client.WebSocketNamespacedPodExecAsync(
name: "mypod",
@namespace: "mynamespace",
command: "/bin/bash",
container: "mycontainer",
stderr: true,
stdin: true,
stdout: true,
tty: true,
customHeaders: new Dictionary<string, List<string>>()
{
{ "X-My-Header", new List<string>() { "myHeaderValue", "myHeaderValue2"} }
},
cancellationToken: CancellationToken.None).ConfigureAwait(false);
var expectedHeaders = new Dictionary<string, string>()
{
{ "X-My-Header", "myHeaderValue myHeaderValue2" },
{ "Authorization", "Basic bXktdXNlcjpteS1zZWNyZXQtcGFzc3dvcmQ=" }
};
Assert.Equal(mockWebSocketBuilder.PublicWebSocket, webSocket); // Did the method return the correct web socket?
Assert.Equal(new Uri("ws://localhost:80/api/v1/namespaces/mynamespace/pods/mypod/exec?command=%2Fbin%2Fbash&container=mycontainer&stderr=1&stdin=1&stdout=1&tty=1"), mockWebSocketBuilder.Uri); // Did we connect to the correct URL?
Assert.Empty(mockWebSocketBuilder.Certificates); // No certificates were used in this test
Assert.Equal(expectedHeaders, mockWebSocketBuilder.RequestHeaders); // Did we use the expected headers
}
[Fact]
public async Task WebSocketNamespacedPodPortForwardAsync()
{
var credentials = new BasicAuthenticationCredentials()
{
UserName = "my-user",
Password = "my-secret-password"
};
Kubernetes client = new Kubernetes(credentials);
client.BaseUri = new Uri("http://localhost");
MockWebSocketBuilder mockWebSocketBuilder = new MockWebSocketBuilder();
client.CreateWebSocketBuilder = () => mockWebSocketBuilder;
var webSocket = await client.WebSocketNamespacedPodPortForwardAsync(
name: "mypod",
@namespace: "mynamespace",
ports: new int[] { 80, 8080 },
customHeaders: new Dictionary<string, List<string>>()
{
{ "X-My-Header", new List<string>() { "myHeaderValue", "myHeaderValue2"} }
},
cancellationToken: CancellationToken.None).ConfigureAwait(false);
var expectedHeaders = new Dictionary<string, string>()
{
{ "X-My-Header", "myHeaderValue myHeaderValue2" },
{ "Authorization", "Basic bXktdXNlcjpteS1zZWNyZXQtcGFzc3dvcmQ=" }
};
Assert.Equal(mockWebSocketBuilder.PublicWebSocket, webSocket); // Did the method return the correct web socket?
Assert.Equal(new Uri("ws://localhost/api/v1/namespaces/mynamespace/pods/mypod/portforward?ports=80&ports=8080"), mockWebSocketBuilder.Uri); // Did we connect to the correct URL?
Assert.Empty(mockWebSocketBuilder.Certificates); // No certificates were used in this test
Assert.Equal(expectedHeaders, mockWebSocketBuilder.RequestHeaders); // Did we use the expected headers
}
[Fact]
public async Task WebSocketNamespacedPodAttachAsync()
{
var credentials = new BasicAuthenticationCredentials()
{
UserName = "my-user",
Password = "my-secret-password"
};
Kubernetes client = new Kubernetes(credentials);
client.BaseUri = new Uri("http://localhost");
MockWebSocketBuilder mockWebSocketBuilder = new MockWebSocketBuilder();
client.CreateWebSocketBuilder = () => mockWebSocketBuilder;
var webSocket = await client.WebSocketNamespacedPodAttachAsync(
name: "mypod",
@namespace: "mynamespace",
container: "my-container",
stderr: true,
stdin: true,
stdout: true,
tty: true,
customHeaders: new Dictionary<string, List<string>>()
{
{ "X-My-Header", new List<string>() { "myHeaderValue", "myHeaderValue2"} }
},
cancellationToken: CancellationToken.None).ConfigureAwait(false);
var expectedHeaders = new Dictionary<string, string>()
{
{ "X-My-Header", "myHeaderValue myHeaderValue2" },
{ "Authorization", "Basic bXktdXNlcjpteS1zZWNyZXQtcGFzc3dvcmQ=" }
};
Assert.Equal(mockWebSocketBuilder.PublicWebSocket, webSocket); // Did the method return the correct web socket?
Assert.Equal(new Uri("ws://localhost:80/api/v1/namespaces/mynamespace/pods/mypod/portforward?container=my-container&stderr=1&stdin=1&stdout=1&tty=1"), mockWebSocketBuilder.Uri); // Did we connect to the correct URL?
Assert.Empty(mockWebSocketBuilder.Certificates); // No certificates were used in this test
Assert.Equal(expectedHeaders, mockWebSocketBuilder.RequestHeaders); // Did we use the expected headers
}
}
}
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