// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "context" "sort" "time" "github.com/minio/dperf/pkg/dperf" "github.com/minio/madmin-go" ) type speedTestOpts struct { throughputSize int concurrencyStart int duration time.Duration autotune bool storageClass string } // Get the max throughput and iops numbers. func objectSpeedTest(ctx context.Context, opts speedTestOpts) chan madmin.SpeedTestResult { ch := make(chan madmin.SpeedTestResult, 1) go func() { defer close(ch) concurrency := opts.concurrencyStart throughputHighestGet := uint64(0) throughputHighestPut := uint64(0) var throughputHighestResults []SpeedtestResult sendResult := func() { var result madmin.SpeedTestResult durationSecs := opts.duration.Seconds() result.GETStats.ThroughputPerSec = throughputHighestGet / uint64(durationSecs) result.GETStats.ObjectsPerSec = throughputHighestGet / uint64(opts.throughputSize) / uint64(durationSecs) result.PUTStats.ThroughputPerSec = throughputHighestPut / uint64(durationSecs) result.PUTStats.ObjectsPerSec = throughputHighestPut / uint64(opts.throughputSize) / uint64(durationSecs) for i := 0; i < len(throughputHighestResults); i++ { errStr := "" if throughputHighestResults[i].Error != "" { errStr = throughputHighestResults[i].Error } result.PUTStats.Servers = append(result.PUTStats.Servers, madmin.SpeedTestStatServer{ Endpoint: throughputHighestResults[i].Endpoint, ThroughputPerSec: throughputHighestResults[i].Uploads / uint64(durationSecs), ObjectsPerSec: throughputHighestResults[i].Uploads / uint64(opts.throughputSize) / uint64(durationSecs), Err: errStr, }) result.GETStats.Servers = append(result.GETStats.Servers, madmin.SpeedTestStatServer{ Endpoint: throughputHighestResults[i].Endpoint, ThroughputPerSec: throughputHighestResults[i].Downloads / uint64(durationSecs), ObjectsPerSec: throughputHighestResults[i].Downloads / uint64(opts.throughputSize) / uint64(durationSecs), Err: errStr, }) } result.Size = opts.throughputSize result.Disks = globalEndpoints.NEndpoints() result.Servers = len(globalNotificationSys.peerClients) + 1 result.Version = Version result.Concurrent = concurrency ch <- result } for { select { case <-ctx.Done(): // If the client got disconnected stop the speedtest. return default: } results := globalNotificationSys.Speedtest(ctx, opts.throughputSize, concurrency, opts.duration, opts.storageClass) sort.Slice(results, func(i, j int) bool { return results[i].Endpoint < results[j].Endpoint }) totalPut := uint64(0) totalGet := uint64(0) for _, result := range results { totalPut += result.Uploads totalGet += result.Downloads } if totalGet < throughputHighestGet { // Following check is for situations // when Writes() scale higher than Reads() // - practically speaking this never happens // and should never happen - however it has // been seen recently due to hardware issues // causes Reads() to go slower than Writes(). // // Send such results anyways as this shall // expose a problem underneath. if totalPut > throughputHighestPut { throughputHighestResults = results throughputHighestPut = totalPut // let the client see lower value as well throughputHighestGet = totalGet } sendResult() break } doBreak := float64(totalGet-throughputHighestGet)/float64(totalGet) < 0.025 throughputHighestGet = totalGet throughputHighestResults = results throughputHighestPut = totalPut if doBreak { sendResult() break } for _, result := range results { if result.Error != "" { // Break out on errors. sendResult() return } } sendResult() if !opts.autotune { break } // Try with a higher concurrency to see if we get better throughput concurrency += (concurrency + 1) / 2 } }() return ch } func driveSpeedTest(ctx context.Context, opts madmin.DriveSpeedTestOpts) madmin.DriveSpeedTestResult { perf := &dperf.DrivePerf{ Serial: opts.Serial, BlockSize: opts.BlockSize, FileSize: opts.FileSize, } localPaths := globalEndpoints.LocalDisksPaths() paths := func() (tmpPaths []string) { for _, lp := range localPaths { tmpPaths = append(tmpPaths, pathJoin(lp, minioMetaTmpBucket)) } return tmpPaths }() perfs, err := perf.Run(ctx, paths...) return madmin.DriveSpeedTestResult{ Endpoint: globalLocalNodeName, Version: Version, DrivePerf: func() (results []madmin.DrivePerf) { for idx, r := range perfs { result := madmin.DrivePerf{ Path: localPaths[idx], ReadThroughput: r.ReadThroughput, WriteThroughput: r.WriteThroughput, Error: func() string { if r.Error != nil { return r.Error.Error() } return "" }(), } results = append(results, result) } return results }(), Error: func() string { if err != nil { return err.Error() } return "" }(), } }