cs-codex-dist-tests/Tests/CodexTests/Helpers/FullConnectivityHelper.cs

202 lines
6.4 KiB
C#

using CodexPlugin;
using Logging;
using NUnit.Framework;
namespace CodexTests.Helpers
{
public interface IFullConnectivityImplementation
{
string Description();
string ValidateEntry(FullConnectivityHelper.Entry entry, FullConnectivityHelper.Entry[] allEntries);
FullConnectivityHelper.PeerConnectionState Check(FullConnectivityHelper.Entry from, FullConnectivityHelper.Entry to);
}
public class FullConnectivityHelper
{
private static string Nl = Environment.NewLine;
private readonly ILog log;
private readonly IFullConnectivityImplementation implementation;
public FullConnectivityHelper(ILog log, IFullConnectivityImplementation implementation)
{
this.log = log;
this.implementation = implementation;
}
public void AssertFullyConnected(IEnumerable<ICodexNode> nodes)
{
AssertFullyConnected(nodes.ToArray());
}
private void AssertFullyConnected(ICodexNode[] nodes)
{
Log($"Asserting '{implementation.Description()}' for nodes: '{string.Join(",", nodes.Select(n => n.GetName()))}'...");
Assert.That(nodes.Length, Is.GreaterThan(1));
var entries = CreateEntries(nodes);
var pairs = CreatePairs(entries);
// Each pair gets two chances.
CheckAndRemoveSuccessful(pairs);
CheckAndRemoveSuccessful(pairs);
if (pairs.Any())
{
var pairDetails = string.Join(Nl, pairs.SelectMany(p => p.GetResultMessages()));
Log($"Connections failed:{Nl}{pairDetails}");
Assert.Fail(string.Join(Nl, pairs.SelectMany(p => p.GetResultMessages())));
}
else
{
Log($"'{implementation.Description()}' = Success! for nodes: {string.Join(",", nodes.Select(n => n.GetName()))}");
}
}
private void CheckAndRemoveSuccessful(List<Pair> pairs)
{
var results = new List<string>();
foreach (var pair in pairs.ToArray())
{
pair.Check();
if (pair.Success)
{
results.AddRange(pair.GetResultMessages());
pairs.Remove(pair);
}
}
Log($"Connections successful:{Nl}{string.Join(Nl, results)}");
}
private Entry[] CreateEntries(ICodexNode[] nodes)
{
var entries = nodes.Select(n => new Entry(n)).ToArray();
var errors = entries
.Select(e => implementation.ValidateEntry(e, entries))
.Where(s => !string.IsNullOrEmpty(s))
.ToArray();
if (errors.Any())
{
Assert.Fail("Some node entries failed to validate: " + string.Join(Nl, errors));
}
return entries;
}
private List<Pair> CreatePairs(Entry[] entries)
{
return CreatePairsIterator(entries).ToList();
}
private IEnumerable<Pair> CreatePairsIterator(Entry[] entries)
{
for (var x = 0; x < entries.Length; x++)
{
for (var y = x + 1; y < entries.Length; y++)
{
yield return new Pair(implementation, entries[x], entries[y]);
}
}
}
private void Log(string msg)
{
log.Log(msg);
}
public class Entry
{
public Entry(ICodexNode node)
{
Node = node;
Response = node.GetDebugInfo();
}
public ICodexNode Node { get; }
public DebugInfo Response { get; }
public override string ToString()
{
if (Response == null || string.IsNullOrEmpty(Response.Id)) return "UNKNOWN";
return Response.Id;
}
}
public enum PeerConnectionState
{
Unknown,
Connection,
NoConnection,
}
public class Pair
{
private TimeSpan aToBTime = TimeSpan.FromSeconds(0);
private TimeSpan bToATime = TimeSpan.FromSeconds(0);
private readonly IFullConnectivityImplementation implementation;
public Pair(IFullConnectivityImplementation implementation, Entry a, Entry b)
{
this.implementation = implementation;
A = a;
B = b;
}
public Entry A { get; }
public Entry B { get; }
public PeerConnectionState AKnowsB { get; private set; }
public PeerConnectionState BKnowsA { get; private set; }
public bool Success { get { return AKnowsB == PeerConnectionState.Connection && BKnowsA == PeerConnectionState.Connection; } }
public bool Inconclusive { get { return AKnowsB == PeerConnectionState.Unknown || BKnowsA == PeerConnectionState.Unknown; } }
public void Check()
{
aToBTime = Measure(() => AKnowsB = Check(A, B));
bToATime = Measure(() => BKnowsA = Check(B, A));
}
public override string ToString()
{
return $"[{string.Join(",", GetResultMessages())}]";
}
public string[] GetResultMessages()
{
var aName = A.ToString();
var bName = B.ToString();
return new[]
{
$"[{aName} --> {bName}] = {AKnowsB} ({aToBTime.TotalSeconds} seconds)",
$"[{aName} <-- {bName}] = {BKnowsA} ({bToATime.TotalSeconds} seconds)"
};
}
private static TimeSpan Measure(Action action)
{
var start = DateTime.UtcNow;
action();
return DateTime.UtcNow - start;
}
private PeerConnectionState Check(Entry from, Entry to)
{
Thread.Sleep(10);
try
{
return implementation.Check(from, to);
}
catch
{
// Didn't get a conclusive answer. Try again later.
return PeerConnectionState.Unknown;
}
}
}
}
}