cs-codex-dist-tests/DistTestCore/Configuration.cs

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using DistTestCore.Codex;
using KubernetesWorkflow;
using System.Net.NetworkInformation;
using Utils;
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namespace DistTestCore
{
public class Configuration
{
private readonly string? kubeConfigFile;
private readonly string logPath;
private readonly bool logDebug;
private readonly string dataFilesPath;
private readonly CodexLogLevel codexLogLevel;
private readonly string k8sNamespacePrefix;
private RunnerLocation? runnerLocation = null;
public Configuration()
{
kubeConfigFile = GetNullableEnvVarOrDefault("KUBECONFIG", null);
logPath = GetEnvVarOrDefault("LOGPATH", "CodexTestLogs");
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logDebug = GetEnvVarOrDefault("LOGDEBUG", "false").ToLowerInvariant() == "true";
dataFilesPath = GetEnvVarOrDefault("DATAFILEPATH", "TestDataFiles");
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codexLogLevel = ParseEnum.Parse<CodexLogLevel>(GetEnvVarOrDefault("LOGLEVEL", nameof(CodexLogLevel.Trace)));
k8sNamespacePrefix = "ct-";
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}
public Configuration(string? kubeConfigFile, string logPath, bool logDebug, string dataFilesPath, CodexLogLevel codexLogLevel, string k8sNamespacePrefix)
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{
this.kubeConfigFile = kubeConfigFile;
this.logPath = logPath;
this.logDebug = logDebug;
this.dataFilesPath = dataFilesPath;
this.codexLogLevel = codexLogLevel;
this.k8sNamespacePrefix = k8sNamespacePrefix;
}
public KubernetesWorkflow.Configuration GetK8sConfiguration(ITimeSet timeSet)
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{
return new KubernetesWorkflow.Configuration(
k8sNamespacePrefix: k8sNamespacePrefix,
kubeConfigFile: kubeConfigFile,
operationTimeout: timeSet.K8sOperationTimeout(),
retryDelay: timeSet.WaitForK8sServiceDelay()
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);
}
public Logging.LogConfig GetLogConfig()
{
return new Logging.LogConfig(logPath, debugEnabled: logDebug);
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}
public string GetFileManagerFolder()
{
return dataFilesPath;
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}
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public CodexLogLevel GetCodexLogLevel()
{
return codexLogLevel;
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}
public Address GetAddress(RunningContainer container)
{
if (runnerLocation == null)
{
runnerLocation = RunnerLocationUtils.DetermineRunnerLocation(container);
}
if (runnerLocation == RunnerLocation.InternalToCluster)
{
return container.ClusterInternalAddress;
}
return container.ClusterExternalAddress;
}
private static string GetEnvVarOrDefault(string varName, string defaultValue)
{
var v = Environment.GetEnvironmentVariable(varName);
if (v == null) return defaultValue;
return v;
}
private static string? GetNullableEnvVarOrDefault(string varName, string? defaultValue)
{
var v = Environment.GetEnvironmentVariable(varName);
if (v == null) return defaultValue;
return v;
}
}
public enum RunnerLocation
{
ExternalToCluster,
InternalToCluster,
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}
public static class RunnerLocationUtils
{
private static bool alreadyDidThat = false;
public static RunnerLocation DetermineRunnerLocation(RunningContainer container)
{
// We want to be sure we don't ping more often than strictly necessary.
// If we have already determined the location during this application
// lifetime, don't do it again.
if (alreadyDidThat) throw new Exception("We already did that.");
alreadyDidThat = true;
if (PingHost(container.Pod.PodInfo.Ip))
{
return RunnerLocation.InternalToCluster;
}
if (PingHost(Format(container.ClusterExternalAddress)))
{
return RunnerLocation.ExternalToCluster;
}
throw new Exception("Unable to determine runner location.");
}
private static string Format(Address host)
{
return host.Host
.Replace("http://", "")
.Replace("https://", "");
}
private static bool PingHost(string host)
{
try
{
using var pinger = new Ping();
PingReply reply = pinger.Send(host);
return reply.Status == IPStatus.Success;
}
catch (PingException)
{
}
return false;
}
}
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}