cs-codex-dist-tests/CodexPlugin/CodexContainerRecipe.cs

123 lines
5.0 KiB
C#

//using DistTestCore.Marketplace;
using Core;
using KubernetesWorkflow;
using Utils;
namespace CodexPlugin
{
public class CodexContainerRecipe : DefaultContainerRecipe
{
private const string DefaultDockerImage = "codexstorage/nim-codex:latest-dist-tests";
public const string MetricsPortTag = "metrics_port";
public const string DiscoveryPortTag = "discovery-port";
// Used by tests for time-constraint assertions.
public static readonly TimeSpan MaxUploadTimePerMegabyte = TimeSpan.FromSeconds(2.0);
public static readonly TimeSpan MaxDownloadTimePerMegabyte = TimeSpan.FromSeconds(2.0);
public override string AppName => "codex";
public override string Image { get; }
public CodexContainerRecipe()
{
Image = GetDockerImage();
//Resources.Requests = new ContainerResourceSet(milliCPUs: 1000, memory: 6.GB());
//Resources.Limits = new ContainerResourceSet(milliCPUs: 4000, memory: 12.GB());
}
protected override void InitializeRecipe(StartupConfig startupConfig)
{
var config = startupConfig.Get<CodexStartupConfig>();
AddExposedPortAndVar("CODEX_API_PORT");
AddEnvVar("CODEX_API_BINDADDR", "0.0.0.0");
var dataDir = $"datadir{ContainerNumber}";
AddEnvVar("CODEX_DATA_DIR", dataDir);
AddVolume($"codex/{dataDir}", GetVolumeCapacity(config));
AddInternalPortAndVar("CODEX_DISC_PORT", DiscoveryPortTag);
AddEnvVar("CODEX_LOG_LEVEL", config.LogLevel.ToString()!.ToUpperInvariant());
// This makes the node announce itself to its local (pod) IP address.
AddEnvVar("NAT_IP_AUTO", "true");
var listenPort = AddInternalPort();
AddEnvVar("CODEX_LISTEN_ADDRS", $"/ip4/0.0.0.0/tcp/{listenPort.Number}");
if (!string.IsNullOrEmpty(config.BootstrapSpr))
{
AddEnvVar("CODEX_BOOTSTRAP_NODE", config.BootstrapSpr);
}
if (config.StorageQuota != null)
{
AddEnvVar("CODEX_STORAGE_QUOTA", config.StorageQuota.SizeInBytes.ToString()!);
}
if (config.BlockTTL != null)
{
AddEnvVar("CODEX_BLOCK_TTL", config.BlockTTL.ToString()!);
}
if (config.BlockMaintenanceInterval != null)
{
AddEnvVar("CODEX_BLOCK_MI", Convert.ToInt32(config.BlockMaintenanceInterval.Value.TotalSeconds).ToString());
}
if (config.BlockMaintenanceNumber != null)
{
AddEnvVar("CODEX_BLOCK_MN", config.BlockMaintenanceNumber.ToString()!);
}
//if (config.MetricsMode != Metrics.MetricsMode.None)
//{
// var metricsPort = AddInternalPort(MetricsPortTag);
// AddEnvVar("CODEX_METRICS", "true");
// AddEnvVar("CODEX_METRICS_ADDRESS", "0.0.0.0");
// AddEnvVar("CODEX_METRICS_PORT", metricsPort);
// AddPodAnnotation("prometheus.io/scrape", "true");
// AddPodAnnotation("prometheus.io/port", metricsPort.Number.ToString());
//}
//if (config.MarketplaceConfig != null)
//{
// var gethConfig = startupConfig.Get<GethStartResult>();
// var companionNode = gethConfig.CompanionNode;
// var companionNodeAccount = companionNode.Accounts[GetAccountIndex(config.MarketplaceConfig)];
// Additional(companionNodeAccount);
// var ip = companionNode.RunningContainer.Pod.PodInfo.Ip;
// var port = companionNode.RunningContainer.Recipe.GetPortByTag(GethContainerRecipe.HttpPortTag).Number;
// AddEnvVar("CODEX_ETH_PROVIDER", $"ws://{ip}:{port}");
// AddEnvVar("CODEX_ETH_ACCOUNT", companionNodeAccount.Account);
// AddEnvVar("CODEX_MARKETPLACE_ADDRESS", gethConfig.MarketplaceNetwork.Marketplace.Address);
// AddEnvVar("CODEX_PERSISTENCE", "true");
// if (config.MarketplaceConfig.IsValidator)
// {
// AddEnvVar("CODEX_VALIDATOR", "true");
// }
//}
}
private ByteSize GetVolumeCapacity(CodexStartupConfig config)
{
if (config.StorageQuota != null) return config.StorageQuota;
// Default Codex quota: 8 Gb, using +20% to be safe.
return 8.GB().Multiply(1.2);
}
//private int GetAccountIndex(MarketplaceInitialConfig marketplaceConfig)
//{
// if (marketplaceConfig.AccountIndexOverride != null) return marketplaceConfig.AccountIndexOverride.Value;
// return Index;
//}
private string GetDockerImage()
{
var image = Environment.GetEnvironmentVariable("CODEXDOCKERIMAGE");
if (!string.IsNullOrEmpty(image)) return image;
return DefaultDockerImage;
}
}
}