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#region Copyright notice and license
// Copyright 2015, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#endregion
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text.RegularExpressions;
using System.Threading;
using System.Threading.Tasks;
using Google.Protobuf;
using Grpc.Core;
using Grpc.Core.Internal;
using Grpc.Core.Logging;
using Grpc.Core.Profiling;
using Grpc.Core.Utils;
using NUnit.Framework;
using Grpc.Testing;
namespace Grpc.IntegrationTesting
{
/// <summary>
/// Helper methods to start client runners for performance testing.
/// </summary>
public class ClientRunners
{
static readonly ILogger Logger = GrpcEnvironment.Logger.ForType<ClientRunners>();
// Profilers to use for clients.
static readonly BlockingCollection<BasicProfiler> profilers = new BlockingCollection<BasicProfiler>();
internal static void AddProfiler(BasicProfiler profiler)
{
GrpcPreconditions.CheckNotNull(profiler);
profilers.Add(profiler);
}
/// <summary>
/// Creates a started client runner.
/// </summary>
public static IClientRunner CreateStarted(ClientConfig config)
{
Logger.Debug("ClientConfig: {0}", config);
if (config.AsyncClientThreads != 0)
{
Logger.Warning("ClientConfig.AsyncClientThreads is not supported for C#. Ignoring the value");
}
if (config.CoreLimit != 0)
{
Logger.Warning("ClientConfig.CoreLimit is not supported for C#. Ignoring the value");
}
if (config.CoreList.Count > 0)
{
Logger.Warning("ClientConfig.CoreList is not supported for C#. Ignoring the value");
}
var channels = CreateChannels(config.ClientChannels, config.ServerTargets, config.SecurityParams);
return new ClientRunnerImpl(channels,
config.ClientType,
config.RpcType,
config.OutstandingRpcsPerChannel,
config.LoadParams,
config.PayloadConfig,
config.HistogramParams,
() => GetNextProfiler());
}
private static List<Channel> CreateChannels(int clientChannels, IEnumerable<string> serverTargets, SecurityParams securityParams)
{
GrpcPreconditions.CheckArgument(clientChannels > 0, "clientChannels needs to be at least 1.");
GrpcPreconditions.CheckArgument(serverTargets.Count() > 0, "at least one serverTarget needs to be specified.");
var credentials = securityParams != null ? TestCredentials.CreateSslCredentials() : ChannelCredentials.Insecure;
List<ChannelOption> channelOptions = null;
if (securityParams != null && securityParams.ServerHostOverride != "")
{
channelOptions = new List<ChannelOption>
{
new ChannelOption(ChannelOptions.SslTargetNameOverride, securityParams.ServerHostOverride)
};
}
var result = new List<Channel>();
for (int i = 0; i < clientChannels; i++)
{
var target = serverTargets.ElementAt(i % serverTargets.Count());
var channel = new Channel(target, credentials, channelOptions);
result.Add(channel);
}
return result;
}
private static BasicProfiler GetNextProfiler()
{
BasicProfiler result = null;
profilers.TryTake(out result);
return result;
}
}
internal class ClientRunnerImpl : IClientRunner
{
const double SecondsToNanos = 1e9;
readonly List<Channel> channels;
readonly ClientType clientType;
readonly RpcType rpcType;
readonly PayloadConfig payloadConfig;
readonly Lazy<byte[]> cachedByteBufferRequest;
readonly ThreadLocal<Histogram> threadLocalHistogram;
readonly List<Task> runnerTasks;
readonly CancellationTokenSource stoppedCts = new CancellationTokenSource();
readonly WallClockStopwatch wallClockStopwatch = new WallClockStopwatch();
readonly AtomicCounter statsResetCount = new AtomicCounter();
public ClientRunnerImpl(List<Channel> channels, ClientType clientType, RpcType rpcType, int outstandingRpcsPerChannel, LoadParams loadParams, PayloadConfig payloadConfig, HistogramParams histogramParams, Func<BasicProfiler> profilerFactory)
{
GrpcPreconditions.CheckArgument(outstandingRpcsPerChannel > 0, "outstandingRpcsPerChannel");
GrpcPreconditions.CheckNotNull(histogramParams, "histogramParams");
this.channels = new List<Channel>(channels);
this.clientType = clientType;
this.rpcType = rpcType;
this.payloadConfig = payloadConfig;
this.cachedByteBufferRequest = new Lazy<byte[]>(() => new byte[payloadConfig.BytebufParams.ReqSize]);
this.threadLocalHistogram = new ThreadLocal<Histogram>(() => new Histogram(histogramParams.Resolution, histogramParams.MaxPossible), true);
this.runnerTasks = new List<Task>();
foreach (var channel in this.channels)
{
for (int i = 0; i < outstandingRpcsPerChannel; i++)
{
var timer = CreateTimer(loadParams, 1.0 / this.channels.Count / outstandingRpcsPerChannel);
var optionalProfiler = profilerFactory();
this.runnerTasks.Add(RunClientAsync(channel, timer, optionalProfiler));
}
}
}
public ClientStats GetStats(bool reset)
{
var histogramData = new HistogramData();
foreach (var hist in threadLocalHistogram.Values)
{
hist.GetSnapshot(histogramData, reset);
}
var secondsElapsed = wallClockStopwatch.GetElapsedSnapshot(reset).TotalSeconds;
if (reset)
{
statsResetCount.Increment();
}
GrpcEnvironment.Logger.Info("[ClientRunnerImpl.GetStats] GC collection counts: gen0 {0}, gen1 {1}, gen2 {2}, gen3 {3} (histogram reset count:{4}, seconds since reset: {5})",
GC.CollectionCount(0), GC.CollectionCount(1), GC.CollectionCount(2), GC.CollectionCount(3), statsResetCount.Count, secondsElapsed);
// TODO: populate user time and system time
return new ClientStats
{
Latencies = histogramData,
TimeElapsed = secondsElapsed,
TimeUser = 0,
TimeSystem = 0
};
}
public async Task StopAsync()
{
stoppedCts.Cancel();
foreach (var runnerTask in runnerTasks)
{
await runnerTask;
}
foreach (var channel in channels)
{
await channel.ShutdownAsync();
}
}
private void RunUnary(Channel channel, IInterarrivalTimer timer, BasicProfiler optionalProfiler)
{
if (optionalProfiler != null)
{
Profilers.SetForCurrentThread(optionalProfiler);
}
bool profilerReset = false;
var client = new BenchmarkService.BenchmarkServiceClient(channel);
var request = CreateSimpleRequest();
var stopwatch = new Stopwatch();
while (!stoppedCts.Token.IsCancellationRequested)
{
// after the first stats reset, also reset the profiler.
if (optionalProfiler != null && !profilerReset && statsResetCount.Count > 0)
{
optionalProfiler.Reset();
profilerReset = true;
}
stopwatch.Restart();
client.UnaryCall(request);
stopwatch.Stop();
// spec requires data point in nanoseconds.
threadLocalHistogram.Value.AddObservation(stopwatch.Elapsed.TotalSeconds * SecondsToNanos);
timer.WaitForNext();
}
}
private async Task RunUnaryAsync(Channel channel, IInterarrivalTimer timer)
{
var client = new BenchmarkService.BenchmarkServiceClient(channel);
var request = CreateSimpleRequest();
var stopwatch = new Stopwatch();
while (!stoppedCts.Token.IsCancellationRequested)
{
stopwatch.Restart();
await client.UnaryCallAsync(request);
stopwatch.Stop();
// spec requires data point in nanoseconds.
threadLocalHistogram.Value.AddObservation(stopwatch.Elapsed.TotalSeconds * SecondsToNanos);
await timer.WaitForNextAsync();
}
}
private async Task RunStreamingPingPongAsync(Channel channel, IInterarrivalTimer timer)
{
var client = new BenchmarkService.BenchmarkServiceClient(channel);
var request = CreateSimpleRequest();
var stopwatch = new Stopwatch();
using (var call = client.StreamingCall())
{
while (!stoppedCts.Token.IsCancellationRequested)
{
stopwatch.Restart();
await call.RequestStream.WriteAsync(request);
await call.ResponseStream.MoveNext();
stopwatch.Stop();
// spec requires data point in nanoseconds.
threadLocalHistogram.Value.AddObservation(stopwatch.Elapsed.TotalSeconds * SecondsToNanos);
await timer.WaitForNextAsync();
}
// finish the streaming call
await call.RequestStream.CompleteAsync();
Assert.IsFalse(await call.ResponseStream.MoveNext());
}
}
private async Task RunGenericStreamingAsync(Channel channel, IInterarrivalTimer timer)
{
var request = cachedByteBufferRequest.Value;
var stopwatch = new Stopwatch();
var callDetails = new CallInvocationDetails<byte[], byte[]>(channel, GenericService.StreamingCallMethod, new CallOptions());
using (var call = Calls.AsyncDuplexStreamingCall(callDetails))
{
while (!stoppedCts.Token.IsCancellationRequested)
{
stopwatch.Restart();
await call.RequestStream.WriteAsync(request);
await call.ResponseStream.MoveNext();
stopwatch.Stop();
// spec requires data point in nanoseconds.
threadLocalHistogram.Value.AddObservation(stopwatch.Elapsed.TotalSeconds * SecondsToNanos);
await timer.WaitForNextAsync();
}
// finish the streaming call
await call.RequestStream.CompleteAsync();
Assert.IsFalse(await call.ResponseStream.MoveNext());
}
}
private Task RunClientAsync(Channel channel, IInterarrivalTimer timer, BasicProfiler optionalProfiler)
{
if (payloadConfig.PayloadCase == PayloadConfig.PayloadOneofCase.BytebufParams)
{
GrpcPreconditions.CheckArgument(clientType == ClientType.AsyncClient, "Generic client only supports async API");
GrpcPreconditions.CheckArgument(rpcType == RpcType.Streaming, "Generic client only supports streaming calls");
return RunGenericStreamingAsync(channel, timer);
}
GrpcPreconditions.CheckNotNull(payloadConfig.SimpleParams);
if (clientType == ClientType.SyncClient)
{
GrpcPreconditions.CheckArgument(rpcType == RpcType.Unary, "Sync client can only be used for Unary calls in C#");
// create a dedicated thread for the synchronous client
return Task.Factory.StartNew(() => RunUnary(channel, timer, optionalProfiler), TaskCreationOptions.LongRunning);
}
else if (clientType == ClientType.AsyncClient)
{
switch (rpcType)
{
case RpcType.Unary:
return RunUnaryAsync(channel, timer);
case RpcType.Streaming:
return RunStreamingPingPongAsync(channel, timer);
}
}
throw new ArgumentException("Unsupported configuration.");
}
private SimpleRequest CreateSimpleRequest()
{
GrpcPreconditions.CheckNotNull(payloadConfig.SimpleParams);
return new SimpleRequest
{
Payload = CreateZerosPayload(payloadConfig.SimpleParams.ReqSize),
ResponseSize = payloadConfig.SimpleParams.RespSize
};
}
private static Payload CreateZerosPayload(int size)
{
return new Payload { Body = ByteString.CopyFrom(new byte[size]) };
}
private static IInterarrivalTimer CreateTimer(LoadParams loadParams, double loadMultiplier)
{
switch (loadParams.LoadCase)
{
case LoadParams.LoadOneofCase.ClosedLoop:
return new ClosedLoopInterarrivalTimer();
case LoadParams.LoadOneofCase.Poisson:
return new PoissonInterarrivalTimer(loadParams.Poisson.OfferedLoad * loadMultiplier);
default:
throw new ArgumentException("Unknown load type");
}
}
}
}
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