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cs-codex-dist-tests/KubernetesWorkflow/K8sController.cs

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C#
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using k8s;
using k8s.Models;
namespace KubernetesWorkflow
{
public class K8sController
{
private readonly K8sCluster cluster;
private readonly KnownK8sPods knownPods;
private readonly WorkflowNumberSource workflowNumberSource;
private readonly Kubernetes client;
public K8sController(K8sCluster cluster, KnownK8sPods knownPods, WorkflowNumberSource workflowNumberSource)
{
this.cluster = cluster;
this.knownPods = knownPods;
this.workflowNumberSource = workflowNumberSource;
client = new Kubernetes(cluster.GetK8sClientConfig());
}
public void Dispose()
{
client.Dispose();
}
public RunningPod BringOnline(ContainerRecipe[] containerRecipes, Location location)
{
EnsureTestNamespace();
CreateDeployment(containerRecipes, location);
var servicePortsMap = CreateService(containerRecipes);
var (podName, podIp) = FetchNewPod();
return new RunningPod(cluster, podName, podIp, servicePortsMap);
}
public void DeleteAllResources()
{
DeleteNamespace();
WaitUntilNamespaceDeleted();
}
#region Namespace management
private void EnsureTestNamespace()
{
if (IsTestNamespaceOnline()) return;
var namespaceSpec = new V1Namespace
{
ApiVersion = "v1",
Metadata = new V1ObjectMeta
{
Name = K8sNamespace,
Labels = new Dictionary<string, string> { { "name", K8sNamespace } }
}
};
client.CreateNamespace(namespaceSpec);
WaitUntilNamespaceCreated();
}
private void DeleteNamespace()
{
if (IsTestNamespaceOnline())
{
client.DeleteNamespace(K8sNamespace, null, null, gracePeriodSeconds: 0);
}
}
private string K8sNamespace
{
get { return cluster.Configuration.K8sNamespace; }
}
private bool IsTestNamespaceOnline()
{
return client.ListNamespace().Items.Any(n => n.Metadata.Name == K8sNamespace);
}
#endregion
#region Deployment management
private void CreateDeployment(ContainerRecipe[] containerRecipes, Location location)
{
var deploymentSpec = new V1Deployment
{
ApiVersion = "apps/v1",
Metadata = CreateDeploymentMetadata(),
Spec = new V1DeploymentSpec
{
Replicas = 1,
Selector = new V1LabelSelector
{
MatchLabels = GetSelector()
},
Template = new V1PodTemplateSpec
{
Metadata = new V1ObjectMeta
{
Labels = GetSelector()
},
Spec = new V1PodSpec
{
NodeSelector = CreateNodeSelector(location),
Containers = CreateDeploymentContainers(containerRecipes)
}
}
}
};
client.CreateNamespacedDeployment(deploymentSpec, K8sNamespace);
WaitUntilDeploymentCreated(deploymentSpec);
}
private IDictionary<string, string> CreateNodeSelector(Location location)
{
if (location == Location.Unspecified) return new Dictionary<string, string>();
return new Dictionary<string, string>
{
{ "codex-test-location", cluster.GetNodeLabelForLocation(location) }
};
}
private IDictionary<string, string> GetSelector()
{
return new Dictionary<string, string> { { "codex-test-node", "dist-test-" + workflowNumberSource.WorkflowNumber } };
}
private V1ObjectMeta CreateDeploymentMetadata()
{
return new V1ObjectMeta
{
Name = "deploy-" + workflowNumberSource.WorkflowNumber,
NamespaceProperty = K8sNamespace
};
}
private List<V1Container> CreateDeploymentContainers(ContainerRecipe[] containerRecipes)
{
return containerRecipes.Select(r => CreateDeploymentContainer(r)).ToList();
}
private V1Container CreateDeploymentContainer(ContainerRecipe recipe)
{
return new V1Container
{
Name = recipe.Name,
Image = recipe.Image,
Ports = CreateContainerPorts(recipe),
Env = CreateEnv(recipe)
};
}
private List<V1EnvVar> CreateEnv(ContainerRecipe recipe)
{
return recipe.EnvVars.Select(CreateEnvVar).ToList();
}
private V1EnvVar CreateEnvVar(EnvVar envVar)
{
return new V1EnvVar
{
Name = envVar.Name,
Value = envVar.Value,
};
}
private List<V1ContainerPort> CreateContainerPorts(ContainerRecipe recipe)
{
var exposedPorts = recipe.ExposedPorts.Select(p => CreateContainerPort(recipe, p));
var internalPorts = recipe.InternalPorts.Select(p => CreateContainerPort(recipe, p));
return exposedPorts.Concat(internalPorts).ToList();
}
private V1ContainerPort CreateContainerPort(ContainerRecipe recipe, Port port)
{
return new V1ContainerPort
{
Name = GetNameForPort(recipe, port),
ContainerPort = port.Number
};
}
private string GetNameForPort(ContainerRecipe recipe, Port port)
{
return $"p{workflowNumberSource.WorkflowNumber}-{recipe.Number}-{port.Number}";
}
#endregion
#region Service management
private Dictionary<ContainerRecipe, Port[]> CreateService(ContainerRecipe[] containerRecipes)
{
var result = new Dictionary<ContainerRecipe, Port[]>();
var ports = CreateServicePorts(result, containerRecipes);
if (!ports.Any())
{
// None of these container-recipes wish to expose anything via a serice port.
// So, we don't have to create a service.
return result;
}
var serviceSpec = new V1Service
{
ApiVersion = "v1",
Metadata = CreateServiceMetadata(),
Spec = new V1ServiceSpec
{
Type = "NodePort",
Selector = GetSelector(),
Ports = ports
}
};
client.CreateNamespacedService(serviceSpec, K8sNamespace);
return result;
}
private V1ObjectMeta CreateServiceMetadata()
{
return new V1ObjectMeta
{
Name = "deploy-" + workflowNumberSource.WorkflowNumber,
NamespaceProperty = K8sNamespace
};
}
private List<V1ServicePort> CreateServicePorts(Dictionary<ContainerRecipe, Port[]> servicePorts, ContainerRecipe[] recipes)
{
var result = new List<V1ServicePort>();
foreach (var recipe in recipes)
{
result.AddRange(CreateServicePorts(servicePorts, recipe));
}
return result;
}
private List<V1ServicePort> CreateServicePorts(Dictionary<ContainerRecipe, Port[]> servicePorts, ContainerRecipe recipe)
{
var result = new List<V1ServicePort>();
var usedPorts = new List<Port>();
foreach (var port in recipe.ExposedPorts)
{
var servicePort = workflowNumberSource.GetServicePort();
usedPorts.Add(new Port(servicePort));
result.Add(new V1ServicePort
{
Name = GetNameForPort(recipe, port),
Protocol = "TCP",
Port = port.Number,
TargetPort = GetNameForPort(recipe, port),
NodePort = servicePort
});
}
servicePorts.Add(recipe, usedPorts.ToArray());
return result;
}
#endregion
#region Waiting
private void WaitUntilNamespaceCreated()
{
WaitUntil(() => IsTestNamespaceOnline());
}
private void WaitUntilNamespaceDeleted()
{
WaitUntil(() => !IsTestNamespaceOnline());
}
private void WaitUntilDeploymentCreated(V1Deployment deploymentSpec)
{
WaitUntilDeploymentOnline(deploymentSpec.Metadata.Name);
}
private void WaitUntilDeploymentOnline(string deploymentName)
{
WaitUntil(() =>
{
var deployment = client.ReadNamespacedDeployment(deploymentName, K8sNamespace);
return deployment?.Status.AvailableReplicas != null && deployment.Status.AvailableReplicas > 0;
});
}
private void WaitUntil(Func<bool> predicate)
{
var start = DateTime.UtcNow;
var state = predicate();
while (!state)
{
if (DateTime.UtcNow - start > cluster.K8sOperationTimeout())
{
throw new TimeoutException("K8s operation timed out.");
}
cluster.WaitForK8sServiceDelay();
state = predicate();
}
}
#endregion
private (string, string) FetchNewPod()
{
var pods = client.ListNamespacedPod(K8sNamespace).Items;
var newPods = pods.Where(p => !knownPods.Contains(p.Name())).ToArray();
if (newPods.Length != 1) throw new InvalidOperationException("Expected only 1 pod to be created. Test infra failure.");
var newPod = newPods.Single();
var name = newPod.Name();
var ip = newPod.Status.PodIP;
if (string.IsNullOrEmpty(name)) throw new InvalidOperationException("Invalid pod name received. Test infra failure.");
if (string.IsNullOrEmpty(ip)) throw new InvalidOperationException("Invalid pod IP received. Test infra failure.");
knownPods.Add(name);
return (name, ip);
}
}
}
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