BIPfR/soft
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Добавлена папка source в CristalDiskMark

Browse Source
This commit is contained in:
KoDer
2026-05-29 13:04:54 +07:00
commit bdc2295ee4
240 changed files with 94035 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files
CristalDiskMark/source/diskspd22/UnitTests/XmlResultParser/XmlResultParser.UnitTests.cpp
+464
View File
@@ -0,0 +1,464 @@
/*
DISKSPD
Copyright(c) Microsoft Corporation
All rights reserved.
MIT License
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED *AS IS*, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#include "StdAfx.h"
#include "XmlResultParser.UnitTests.h"
#include "Common.h"
#include "xmlresultparser.h"
#include <stdlib.h>
#include <vector>
using namespace WEX::TestExecution;
using namespace WEX::Logging;
using namespace std;
namespace UnitTests
{
void XmlResultParserUnitTests::Test_ParseResults()
{
Profile profile;
TimeSpan timeSpan;
Target target;
XmlResultParser parser;
Results results;
results.fUseETW = false;
double fTime = 120.0;
results.ullTimeCount = PerfTimer::SecondsToPerfTime(fTime);
// First group has 1 active cpu
// 30% user, 45% idle, 25% non-idle kernel (45% + 25% = 70%)
SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION systemProcessorInfo = { 0 };
systemProcessorInfo.UserTime.QuadPart = static_cast<LONGLONG>(fTime * 30 * 100000);
systemProcessorInfo.IdleTime.QuadPart = static_cast<LONGLONG>(fTime * 45 * 100000);
systemProcessorInfo.KernelTime.QuadPart = static_cast<LONGLONG>(fTime * 70 * 100000);
results.vSystemProcessorPerfInfo.push_back(systemProcessorInfo);
// Second group has 2 active
// 100% idle
systemProcessorInfo.UserTime.QuadPart = static_cast<LONGLONG>(fTime * 0 * 100000);
systemProcessorInfo.IdleTime.QuadPart = static_cast<LONGLONG>(fTime * 100 * 100000);
systemProcessorInfo.KernelTime.QuadPart = static_cast<LONGLONG>(fTime * 100 * 100000);
results.vSystemProcessorPerfInfo.push_back(systemProcessorInfo);
results.vSystemProcessorPerfInfo.push_back(systemProcessorInfo);
// TODO: multiple target cases, full profile/result variations
target.SetPath("testfile1.dat");
target.SetCacheMode(TargetCacheMode::DisableOSCache);
target.SetWriteThroughMode(WriteThroughMode::On);
target.SetThroughputIOPS(1000);
timeSpan.AddTarget(target);
timeSpan.SetCalculateIopsStdDev(true);
TargetResults targetResults;
targetResults.sPath = "testfile1.dat";
targetResults.ullFileSize = 10 * 1024 * 1024;
targetResults.ullReadBytesCount = 4 * 1024 * 1024;
targetResults.ullReadIOCount = 6;
targetResults.ullWriteBytesCount = 2 * 1024 * 1024;
targetResults.ullWriteIOCount = 10;
targetResults.ullBytesCount = targetResults.ullReadBytesCount + targetResults.ullWriteBytesCount;
targetResults.ullIOCount = targetResults.ullReadIOCount + targetResults.ullWriteIOCount;
// TODO: Histogram<float> readLatencyHistogram;
// TODO: Histogram<float> writeLatencyHistogram;
// TODO: IoBucketizer writeBucketizer;
targetResults.readBucketizer.Initialize(1000, timeSpan.GetDuration());
for (size_t i = 0; i < timeSpan.GetDuration(); i++)
{
// add an io halfway through the bucket's time interval
targetResults.readBucketizer.Add(i*1000 + 500, 0);
}
ThreadResults threadResults;
threadResults.vTargetResults.push_back(targetResults);
results.vThreadResults.push_back(threadResults);
vector<Results> vResults;
vResults.push_back(results);
// Just throw away the computername, pp and reset the timestamp - for the ut, it's
// as useful (and simpler) to verify statics as anything else. Reconstruct the
// processor topo to a fixed example as well. Note that the performance
// efficiency class must be placed since it is calculated on the fly during
// the actual GLPIEx enumeration. If we could shim GLPIEx ...
SystemInformation system;
system.ResetTime();
system.sComputerName.clear();
system.sActivePolicyName.clear();
system.sActivePolicyGuid.clear();
system.processorTopology._ulProcessorCount = 3;
system.processorTopology._ubPerformanceEfficiencyClass = 1;
system.processorTopology._fSMT = true;
system.processorTopology._vProcessorGroupInformation.clear();
system.processorTopology._vProcessorGroupInformation.emplace_back((WORD)0, (BYTE)1, (BYTE)1, (KAFFINITY)0x1);
system.processorTopology._vProcessorGroupInformation.emplace_back((WORD)1, (BYTE)4, (BYTE)2, (KAFFINITY)0x3);
ProcessorNumaInformation node;
node._nodeNumber = 0;
node._vProcessorMasks.emplace_back((WORD)0, (KAFFINITY)0x1);
node._vProcessorMasks.emplace_back((WORD)1, (KAFFINITY)0x3);
system.processorTopology._vProcessorNumaInformation.clear();
system.processorTopology._vProcessorNumaInformation.push_back(node);
ProcessorSocketInformation socket;
socket._vProcessorMasks.emplace_back((WORD)0, (KAFFINITY)0x1);
socket._vProcessorMasks.emplace_back((WORD)1, (KAFFINITY)0x3);
system.processorTopology._vProcessorSocketInformation.clear();
system.processorTopology._vProcessorSocketInformation.push_back(socket);
system.processorTopology._vProcessorCoreInformation.clear();
system.processorTopology._vProcessorCoreInformation.emplace_back((WORD)0, (KAFFINITY)0x1, (BYTE)0);
system.processorTopology._vProcessorCoreInformation.emplace_back((WORD)1, (KAFFINITY)0x3, (BYTE)1);
// finally, add the timespan to the profile and dump.
profile.AddTimeSpan(timeSpan);
string sResults = parser.ParseResults(profile, system, vResults);
// stringify random text, quoting "'s and adding newline/preserving tabs
// gc some.txt |% { write-host $("`"{0}\n`"" -f $($_ -replace "`"","\`"" -replace "`t","\t")) }
const char *pcszExpectedOutput = \
"<Results>\n"
" <System>\n"
" <ComputerName></ComputerName>\n"
" <Tool>\n"
" <Version>" DISKSPD_NUMERIC_VERSION_STRING "</Version>\n"
" <VersionDate>" DISKSPD_DATE_VERSION_STRING "</VersionDate>\n"
" </Tool>\n"
" <RunTime></RunTime>\n"
" <PowerScheme Name=\"\" Guid=\"\"/>\n"
" <ProcessorTopology Heterogeneous=\"true\">\n"
" <Group Group=\"0\" MaximumProcessors=\"1\" ActiveProcessors=\"1\" ActiveProcessorMask=\"0x1\"/>\n"
" <Group Group=\"1\" MaximumProcessors=\"4\" ActiveProcessors=\"2\" ActiveProcessorMask=\"0x3\"/>\n"
" <Node Node=\"0\">\n"
" <Group Group=\"0\" Mask=\"0x1\"/>\n"
" <Group Group=\"1\" Mask=\"0x3\"/>\n"
" </Node>\n"
" <Socket Socket=\"0\">\n"
" <Group Group=\"0\" Mask=\"0x1\"/>\n"
" <Group Group=\"1\" Mask=\"0x3\"/>\n"
" </Socket>\n"
" <Core Group=\"0\" Core=\"0\" Mask=\"0x1\" EfficiencyClass=\"0\"/>\n"
" <Core Group=\"1\" Core=\"0\" Mask=\"0x3\" EfficiencyClass=\"1\"/>\n"
" </ProcessorTopology>\n"
" </System>\n"
" <Profile>\n"
" <Progress>0</Progress>\n"
" <ResultFormat>text</ResultFormat>\n"
" <Verbose>false</Verbose>\n"
" <TimeSpans>\n"
" <TimeSpan>\n"
" <CompletionRoutines>false</CompletionRoutines>\n"
" <MeasureLatency>false</MeasureLatency>\n"
" <CalculateIopsStdDev>true</CalculateIopsStdDev>\n"
" <DisableAffinity>false</DisableAffinity>\n"
" <Duration>10</Duration>\n"
" <Warmup>5</Warmup>\n"
" <Cooldown>0</Cooldown>\n"
" <ThreadCount>0</ThreadCount>\n"
" <RequestCount>0</RequestCount>\n"
" <IoBucketDuration>1000</IoBucketDuration>\n"
" <RandSeed>0</RandSeed>\n"
" <Targets>\n"
" <Target>\n"
" <Path>testfile1.dat</Path>\n"
" <BlockSize>65536</BlockSize>\n"
" <BaseFileOffset>0</BaseFileOffset>\n"
" <SequentialScan>false</SequentialScan>\n"
" <RandomAccess>false</RandomAccess>\n"
" <TemporaryFile>false</TemporaryFile>\n"
" <UseLargePages>false</UseLargePages>\n"
" <DisableOSCache>true</DisableOSCache>\n"
" <WriteThrough>true</WriteThrough>\n"
" <WriteBufferContent>\n"
" <Pattern>sequential</Pattern>\n"
" </WriteBufferContent>\n"
" <ParallelAsyncIO>false</ParallelAsyncIO>\n"
" <StrideSize>65536</StrideSize>\n"
" <InterlockedSequential>false</InterlockedSequential>\n"
" <ThreadStride>0</ThreadStride>\n"
" <MaxFileSize>0</MaxFileSize>\n"
" <RequestCount>2</RequestCount>\n"
" <WriteRatio>0</WriteRatio>\n"
" <Throughput unit=\"IOPS\">1000</Throughput>\n"
" <ThreadsPerFile>1</ThreadsPerFile>\n"
" <IOPriority>3</IOPriority>\n"
" <Weight>1</Weight>\n"
" </Target>\n"
" </Targets>\n"
" </TimeSpan>\n"
" </TimeSpans>\n"
" </Profile>\n"
" <TimeSpan>\n"
" <TestTimeSeconds>120.00</TestTimeSeconds>\n"
" <ThreadCount>1</ThreadCount>\n"
" <RequestCount>0</RequestCount>\n"
" <ProcCount>3</ProcCount>\n"
" <CpuUtilization>\n"
" <CPU>\n"
" <Socket>0</Socket>\n"
" <Node>0</Node>\n"
" <Group>0</Group>\n"
" <Core>0</Core>\n"
" <EfficiencyClass>0</EfficiencyClass>\n"
" <Id>0</Id>\n"
" <UsagePercent>55.00</UsagePercent>\n"
" <UserPercent>30.00</UserPercent>\n"
" <KernelPercent>25.00</KernelPercent>\n"
" <IdlePercent>45.00</IdlePercent>\n"
" </CPU>\n"
" <CPU>\n"
" <Socket>0</Socket>\n"
" <Node>0</Node>\n"
" <Group>1</Group>\n"
" <Core>0</Core>\n"
" <EfficiencyClass>1</EfficiencyClass>\n"
" <Id>0</Id>\n"
" <UsagePercent>0.00</UsagePercent>\n"
" <UserPercent>0.00</UserPercent>\n"
" <KernelPercent>0.00</KernelPercent>\n"
" <IdlePercent>100.00</IdlePercent>\n"
" </CPU>\n"
" <CPU>\n"
" <Socket>0</Socket>\n"
" <Node>0</Node>\n"
" <Group>1</Group>\n"
" <Core>0</Core>\n"
" <EfficiencyClass>1</EfficiencyClass>\n"
" <Id>1</Id>\n"
" <UsagePercent>0.00</UsagePercent>\n"
" <UserPercent>0.00</UserPercent>\n"
" <KernelPercent>0.00</KernelPercent>\n"
" <IdlePercent>100.00</IdlePercent>\n"
" </CPU>\n"
" <Average>\n"
" <UsagePercent>18.33</UsagePercent>\n"
" <UserPercent>10.00</UserPercent>\n"
" <KernelPercent>8.33</KernelPercent>\n"
" <IdlePercent>81.67</IdlePercent>\n"
" </Average>\n"
" </CpuUtilization>\n"
" <Iops>\n"
" <ReadIopsStdDev>0.000</ReadIopsStdDev>\n"
" <IopsStdDev>0.000</IopsStdDev>\n"
" <Bucket SampleMillisecond=\"1000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"2000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"3000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"4000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"5000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"6000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"7000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"8000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"9000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"10000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" </Iops>\n"
" <Thread>\n"
" <Id>0</Id>\n"
" <Target>\n"
" <Path>testfile1.dat</Path>\n"
" <BytesCount>6291456</BytesCount>\n"
" <FileSize>10485760</FileSize>\n"
" <IOCount>16</IOCount>\n"
" <ReadBytes>4194304</ReadBytes>\n"
" <ReadCount>6</ReadCount>\n"
" <WriteBytes>2097152</WriteBytes>\n"
" <WriteCount>10</WriteCount>\n"
" <Iops>\n"
" <ReadIopsStdDev>0.000</ReadIopsStdDev>\n"
" <IopsStdDev>0.000</IopsStdDev>\n"
" <Bucket SampleMillisecond=\"1000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"2000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"3000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"4000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"5000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"6000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"7000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"8000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"9000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" <Bucket SampleMillisecond=\"10000\" Read=\"1\" Write=\"0\" Total=\"1\" ReadMinLatencyMilliseconds=\"0.000\" ReadMaxLatencyMilliseconds=\"0.000\" ReadAvgLatencyMilliseconds=\"0.000\" ReadLatencyStdDev=\"0.000\" WriteMinLatencyMilliseconds=\"0.000\" WriteMaxLatencyMilliseconds=\"0.000\" WriteAvgLatencyMilliseconds=\"0.000\" WriteLatencyStdDev=\"0.000\"/>\n"
" </Iops>\n"
" </Target>\n"
" </Thread>\n"
" </TimeSpan>\n"
"</Results>";
#if 0
HANDLE h;
DWORD written;
h = CreateFileW(L"g:\\xmlresult-received.txt", GENERIC_WRITE, FILE_SHARE_READ, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL);
WriteFile(h, sResults.c_str(), (DWORD)sResults.length(), &written, NULL);
VERIFY_ARE_EQUAL(sResults.length(), written);
CloseHandle(h);
h = CreateFileW(L"g:\\xmlresult-expected.txt", GENERIC_WRITE, FILE_SHARE_READ, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL);
WriteFile(h, pcszExpectedOutput, (DWORD)strlen(pcszExpectedOutput), &written, NULL);
VERIFY_ARE_EQUAL((DWORD)strlen(pcszExpectedOutput), written);
CloseHandle(h);
printf("--\n%s\n", sResults.c_str());
printf("-------------------------------------------------\n");
printf("--\n%s\n", pcszExpectedOutput);
#endif
VERIFY_ARE_EQUAL(0, strcmp(sResults.c_str(), pcszExpectedOutput));
}
void XmlResultParserUnitTests::Test_ParseProfile()
{
Profile profile;
XmlResultParser parser;
TimeSpan timeSpan;
Target target;
timeSpan.AddTarget(target);
profile.AddTimeSpan(timeSpan);
string s = parser.ParseProfile(profile);
const char *pcszExpectedOutput = "<Profile>\n"
" <Progress>0</Progress>\n"
" <ResultFormat>text</ResultFormat>\n"
" <Verbose>false</Verbose>\n"
" <TimeSpans>\n"
" <TimeSpan>\n"
" <CompletionRoutines>false</CompletionRoutines>\n"
" <MeasureLatency>false</MeasureLatency>\n"
" <CalculateIopsStdDev>false</CalculateIopsStdDev>\n"
" <DisableAffinity>false</DisableAffinity>\n"
" <Duration>10</Duration>\n"
" <Warmup>5</Warmup>\n"
" <Cooldown>0</Cooldown>\n"
" <ThreadCount>0</ThreadCount>\n"
" <RequestCount>0</RequestCount>\n"
" <IoBucketDuration>1000</IoBucketDuration>\n"
" <RandSeed>0</RandSeed>\n"
" <Targets>\n"
" <Target>\n"
" <Path></Path>\n"
" <BlockSize>65536</BlockSize>\n"
" <BaseFileOffset>0</BaseFileOffset>\n"
" <SequentialScan>false</SequentialScan>\n"
" <RandomAccess>false</RandomAccess>\n"
" <TemporaryFile>false</TemporaryFile>\n"
" <UseLargePages>false</UseLargePages>\n"
" <WriteBufferContent>\n"
" <Pattern>sequential</Pattern>\n"
" </WriteBufferContent>\n"
" <ParallelAsyncIO>false</ParallelAsyncIO>\n"
" <StrideSize>65536</StrideSize>\n"
" <InterlockedSequential>false</InterlockedSequential>\n"
" <ThreadStride>0</ThreadStride>\n"
" <MaxFileSize>0</MaxFileSize>\n"
" <RequestCount>2</RequestCount>\n"
" <WriteRatio>0</WriteRatio>\n"
" <Throughput>0</Throughput>\n"
" <ThreadsPerFile>1</ThreadsPerFile>\n"
" <IOPriority>3</IOPriority>\n"
" <Weight>1</Weight>\n"
" </Target>\n"
" </Targets>\n"
" </TimeSpan>\n"
" </TimeSpans>\n"
"</Profile>\n";
//VERIFY_ARE_EQUAL(pcszExpectedOutput, s.c_str());
VERIFY_ARE_EQUAL(strlen(pcszExpectedOutput), s.length());
VERIFY_IS_TRUE(!strcmp(pcszExpectedOutput, s.c_str()));
}
void XmlResultParserUnitTests::Test_ParseTargetProfile()
{
Target target;
string sResults;
char pszExpectedOutput[4096];
int nWritten;
const char *pcszOutputTemplate = \
"<Target>\n"
" <Path>testfile1.dat</Path>\n"
" <BlockSize>65536</BlockSize>\n"
" <BaseFileOffset>0</BaseFileOffset>\n"
" <SequentialScan>false</SequentialScan>\n"
" <RandomAccess>false</RandomAccess>\n"
" <TemporaryFile>false</TemporaryFile>\n"
" <UseLargePages>false</UseLargePages>\n"
" <DisableOSCache>true</DisableOSCache>\n"
" <WriteThrough>true</WriteThrough>\n"
" <WriteBufferContent>\n"
" <Pattern>sequential</Pattern>\n"
" </WriteBufferContent>\n"
" <ParallelAsyncIO>false</ParallelAsyncIO>\n"
" <StrideSize>65536</StrideSize>\n"
" <InterlockedSequential>false</InterlockedSequential>\n"
" <ThreadStride>0</ThreadStride>\n"
" <MaxFileSize>0</MaxFileSize>\n"
" <RequestCount>2</RequestCount>\n"
" <WriteRatio>0</WriteRatio>\n"
" <Throughput%s>%s</Throughput>\n" // 2 param
" <ThreadsPerFile>1</ThreadsPerFile>\n"
" <IOPriority>3</IOPriority>\n"
" <Weight>1</Weight>\n"
"</Target>\n";
target.SetPath("testfile1.dat");
target.SetCacheMode(TargetCacheMode::DisableOSCache);
target.SetWriteThroughMode(WriteThroughMode::On);
// Base case - no limit
nWritten = sprintf_s(pszExpectedOutput, sizeof(pszExpectedOutput),
pcszOutputTemplate, "", "0");
VERIFY_IS_GREATER_THAN(nWritten, 0);
sResults = target.GetXml(0);
VERIFY_ARE_EQUAL(sResults, pszExpectedOutput);
// IOPS - with units
target.SetThroughputIOPS(1000);
nWritten = sprintf_s(pszExpectedOutput, sizeof(pszExpectedOutput),
pcszOutputTemplate, " unit=\"IOPS\"", "1000");
VERIFY_IS_GREATER_THAN(nWritten, 0);
sResults = target.GetXml(0);
VERIFY_ARE_EQUAL(sResults, pszExpectedOutput);
// BPMS - not specified with units in output
target.SetThroughput(1000);
nWritten = sprintf_s(pszExpectedOutput, sizeof(pszExpectedOutput),
pcszOutputTemplate, "", "1000");
VERIFY_IS_GREATER_THAN(nWritten, 0);
sResults = target.GetXml(0);
VERIFY_ARE_EQUAL(sResults, pszExpectedOutput);
}
}
CristalDiskMark/source/diskspd22/UnitTests/XmlResultParser/XmlResultParser.UnitTests.h
+47
View File
@@ -0,0 +1,47 @@
/*
DISKSPD
Copyright(c) Microsoft Corporation
All rights reserved.
MIT License
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED *AS IS*, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#pragma once
#include "WexTestClass.h"
namespace UnitTests
{
BEGIN_MODULE()
MODULE_PROPERTY(L"Feature", L"XmlResultParser")
END_MODULE()
class XmlResultParserUnitTests : public WEX::TestClass<XmlResultParserUnitTests>
{
public:
TEST_CLASS(XmlResultParserUnitTests);
TEST_METHOD(Test_ParseResults);
TEST_METHOD(Test_ParseProfile);
TEST_METHOD(Test_ParseTargetProfile);
};
}
CristalDiskMark/source/diskspd22/UnitTests/XmlResultParser/XmlResultParser.rc
+17
View File
@@ -0,0 +1,17 @@
#include <windows.h>
#include "Version.h"
#include <ntverp.h>
#define VER_FILETYPE VFT_APP
#define VER_FILESUBTYPE VFT2_UNKNOWN
#define VER_FILEDESCRIPTION_STR "DiskSpd Storage Performance Tool"
#define VER_INTERNALNAME_STR "XmlResultParser.UnitTests.dll"
#undef VER_PRODUCTVERSION
#define VER_PRODUCTVERSION DISKSPD_MAJOR,DISKSPD_MINOR,DISKSPD_BUILD,DISKSPD_QFE
#undef VER_PRODUCTVERSION_STR
#define VER_PRODUCTVERSION_STR DISKSPD_NUMERIC_VERSION_STRING
#include "common.ver"
CristalDiskMark/source/diskspd22/UnitTests/XmlResultParser/stdafx.h
+32
View File
@@ -0,0 +1,32 @@
/*
DISKSPD
Copyright(c) Microsoft Corporation
All rights reserved.
MIT License
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED *AS IS*, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#pragma once
#include <windows.h>