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|
/* $Id: tstPDMAsyncCompletionStress.cpp $ */
/** @file
* PDM Asynchronous Completion Stresstest.
*
* This testcase is for stress testing the async completion interface.
*/
/*
* Copyright (C) 2008-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* 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
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP LOG_GROUP_PDM_ASYNC_COMPLETION
#include "VMInternal.h" /* UVM */
#include <VBox/vmm/vm.h>
#include <VBox/vmm/uvm.h>
#include <VBox/vmm/pdmasynccompletion.h>
#include <VBox/vmm/vmm.h>
#include <VBox/vmm/cpum.h>
#include <VBox/err.h>
#include <VBox/log.h>
#include <VBox/vmm/pdmapi.h>
#include <VBox/vmm/pdmthread.h>
#include <iprt/alloc.h>
#include <iprt/asm.h>
#include <iprt/assert.h>
#include <iprt/file.h>
#include <iprt/initterm.h>
#include <iprt/semaphore.h>
#include <iprt/rand.h>
#include <iprt/string.h>
#include <iprt/path.h>
#include <iprt/stream.h>
#include <iprt/thread.h>
#include <iprt/param.h>
#include <iprt/message.h>
#define TESTCASE "tstPDMAsyncCompletionStress"
#if 0
/** Number of simultaneous open endpoints for reading and writing. */
#define NR_OPEN_ENDPOINTS 10
/** Test pattern size. */
#define TEST_PATTERN_SIZE (100*_1M)
/** Minimum file size. */
#define FILE_SIZE_MIN (100 * _1M)
/** Maximum file size. */
#define FILE_SIZE_MAX (10000UL * _1M)
/** Minimum segment size. */
#define SEGMENT_SIZE_MIN (512)
/** Maximum segment size. */
#define SEGMENT_SIZE_MAX (TEST_PATTERN_SIZE)
/** Maximum number of active tasks. */
#define TASK_ACTIVE_MAX (1024)
/** Maximum size of a transfer. */
#define TASK_TRANSFER_SIZE_MAX (10*_1M)
#else
/** Number of simultaneous open endpoints for reading and writing. */
#define NR_OPEN_ENDPOINTS 5
/** Test pattern size. */
#define TEST_PATTERN_SIZE (10*_1M)
/** Minimum file size. */
#define FILE_SIZE_MIN (100 * _1M)
/** Maximum file size. */
#define FILE_SIZE_MAX (1000UL * _1M)
/** Minimum segment size. */
#define SEGMENT_SIZE_MIN (512)
/** Maximum segment size. */
#define SEGMENT_SIZE_MAX (TEST_PATTERN_SIZE)
/** Maximum number of active tasks. */
#define TASK_ACTIVE_MAX (1)
/** Maximum size of a transfer. */
#define TASK_TRANSFER_SIZE_MAX (_1M)
#endif
/**
* Structure defining a file segment.
*/
typedef struct PDMACTESTFILESEG
{
/** Start offset in the file. */
RTFOFF off;
/** Size of the segment. */
size_t cbSegment;
/** Pointer to the start of the data in the test pattern used for the segment. */
uint8_t *pbData;
} PDMACTESTFILESEG, *PPDMACTESTFILESEG;
/**
* Structure defining a I/O task.
*/
typedef struct PDMACTESTFILETASK
{
/** Flag whether the task is currently active. */
bool fActive;
/** Flag whether this is a write. */
bool fWrite;
/** Start offset. */
RTFOFF off;
/** Data segment */
RTSGSEG DataSeg;
/** Task handle. */
PPDMASYNCCOMPLETIONTASK hTask;
} PDMACTESTFILETASK, *PPDMACTESTFILETASK;
/**
* Structure defining a test file.
*/
typedef struct PDMACTESTFILE
{
/** The PDM async completion endpoint handle. */
PPDMASYNCCOMPLETIONENDPOINT hEndpoint;
/** Template used for this file. */
PPDMASYNCCOMPLETIONTEMPLATE pTemplate;
/** Maximum size of the file. */
uint64_t cbFileMax;
/** Current size of the file. */
uint64_t cbFileCurr;
/** Size of a file segment. */
size_t cbFileSegment;
/** Maximum number of segments. */
size_t cSegments;
/** Pointer to the array describing how the file is assembled
* of the test pattern. Used for comparing read data to ensure
* that no corruption occurred.
*/
PPDMACTESTFILESEG paSegs;
/** Maximum number of active tasks for this endpoint. */
uint32_t cTasksActiveMax;
/** Number of current active tasks. */
volatile uint32_t cTasksActiveCurr;
/** Pointer to the array of task. */
PPDMACTESTFILETASK paTasks;
/** I/O thread handle. */
PPDMTHREAD hThread;
/** Flag whether the thread should terminate. */
bool fRunning;
} PDMACTESTFILE, *PPDMACTESTFILE;
/** Buffer storing the random test pattern. */
uint8_t *g_pbTestPattern = NULL;
/** Size of the test pattern. */
size_t g_cbTestPattern;
/** Array holding test files. */
PDMACTESTFILE g_aTestFiles[NR_OPEN_ENDPOINTS];
static DECLCALLBACK(void) tstPDMACStressTestFileTaskCompleted(PVM pVM, void *pvUser, void *pvUser2, int rcReq);
static void tstPDMACStressTestFileVerify(PPDMACTESTFILE pTestFile, PPDMACTESTFILETASK pTestTask)
{
size_t cbLeft = pTestTask->DataSeg.cbSeg;
RTFOFF off = pTestTask->off;
uint8_t *pbBuf = (uint8_t *)pTestTask->DataSeg.pvSeg;
while (cbLeft)
{
size_t cbCompare;
size_t iSeg = off / pTestFile->cbFileSegment;
PPDMACTESTFILESEG pSeg = &pTestFile->paSegs[iSeg];
uint8_t *pbTestPattern;
unsigned offSeg = off - pSeg->off;
cbCompare = RT_MIN(cbLeft, pSeg->cbSegment - offSeg);
pbTestPattern = pSeg->pbData + offSeg;
if (memcmp(pbBuf, pbTestPattern, cbCompare))
{
unsigned idx = 0;
while ( (idx < cbCompare)
&& (pbBuf[idx] == pbTestPattern[idx]))
idx++;
RTMsgError("Unexpected data for off=%RTfoff size=%u\n"
"Expected %c got %c\n",
pTestTask->off + idx, pTestTask->DataSeg.cbSeg,
pbTestPattern[idx], pbBuf[idx]);
RTAssertDebugBreak();
}
pbBuf += cbCompare;
off += cbCompare;
cbLeft -= cbCompare;
}
}
static void tstPDMACStressTestFileFillBuffer(PPDMACTESTFILE pTestFile, PPDMACTESTFILETASK pTestTask)
{
uint8_t *pbBuf = (uint8_t *)pTestTask->DataSeg.pvSeg;
size_t cbLeft = pTestTask->DataSeg.cbSeg;
RTFOFF off = pTestTask->off;
Assert(pTestTask->fWrite && pTestTask->fActive);
while (cbLeft)
{
size_t cbFill;
size_t iSeg = off / pTestFile->cbFileSegment;
PPDMACTESTFILESEG pSeg = &pTestFile->paSegs[iSeg];
uint8_t *pbTestPattern;
unsigned offSeg = off - pSeg->off;
cbFill = RT_MIN(cbLeft, pSeg->cbSegment - offSeg);
pbTestPattern = pSeg->pbData + offSeg;
memcpy(pbBuf, pbTestPattern, cbFill);
pbBuf += cbFill;
off += cbFill;
cbLeft -= cbFill;
}
}
static int tstPDMACStressTestFileWrite(PPDMACTESTFILE pTestFile, PPDMACTESTFILETASK pTestTask)
{
int rc = VINF_SUCCESS;
Assert(!pTestTask->fActive);
pTestTask->fActive = true;
pTestTask->fWrite = true;
pTestTask->DataSeg.cbSeg = RTRandU32Ex(512, TASK_TRANSFER_SIZE_MAX) & ~511;
uint64_t offMax;
/* Did we reached the maximum file size */
if (pTestFile->cbFileCurr < pTestFile->cbFileMax)
{
offMax = (pTestFile->cbFileMax - pTestFile->cbFileCurr) < pTestTask->DataSeg.cbSeg
? pTestFile->cbFileMax - pTestTask->DataSeg.cbSeg
: pTestFile->cbFileCurr;
}
else
offMax = pTestFile->cbFileMax - pTestTask->DataSeg.cbSeg;
uint64_t offMin;
/*
* If we reached the maximum file size write in the whole file
* otherwise we will enforce the range for random offsets to let it grow
* more quickly.
*/
if (pTestFile->cbFileCurr == pTestFile->cbFileMax)
offMin = 0;
else
offMin = RT_MIN(pTestFile->cbFileCurr, offMax);
pTestTask->off = RTRandU64Ex(offMin, offMax) & ~511;
/* Set new file size of required */
if ((uint64_t)pTestTask->off + pTestTask->DataSeg.cbSeg > pTestFile->cbFileCurr)
pTestFile->cbFileCurr = pTestTask->off + pTestTask->DataSeg.cbSeg;
AssertMsg(pTestFile->cbFileCurr <= pTestFile->cbFileMax,
("Current file size (%llu) exceeds final size (%llu)\n",
pTestFile->cbFileCurr, pTestFile->cbFileMax));
/* Allocate data buffer. */
pTestTask->DataSeg.pvSeg = RTMemAlloc(pTestTask->DataSeg.cbSeg);
if (!pTestTask->DataSeg.pvSeg)
return VERR_NO_MEMORY;
/* Fill data into buffer. */
tstPDMACStressTestFileFillBuffer(pTestFile, pTestTask);
/* Engage */
rc = PDMR3AsyncCompletionEpWrite(pTestFile->hEndpoint, pTestTask->off,
&pTestTask->DataSeg, 1,
pTestTask->DataSeg.cbSeg,
pTestTask,
&pTestTask->hTask);
return rc;
}
static int tstPDMACStressTestFileRead(PPDMACTESTFILE pTestFile, PPDMACTESTFILETASK pTestTask)
{
int rc = VINF_SUCCESS;
Assert(!pTestTask->fActive);
pTestTask->fActive = true;
pTestTask->fWrite = false;
pTestTask->DataSeg.cbSeg = RTRandU32Ex(1, RT_MIN(pTestFile->cbFileCurr, TASK_TRANSFER_SIZE_MAX));
AssertMsg(pTestFile->cbFileCurr >= pTestTask->DataSeg.cbSeg, ("Impossible\n"));
pTestTask->off = RTRandU64Ex(0, pTestFile->cbFileCurr - pTestTask->DataSeg.cbSeg);
/* Allocate data buffer. */
pTestTask->DataSeg.pvSeg = RTMemAlloc(pTestTask->DataSeg.cbSeg);
if (!pTestTask->DataSeg.pvSeg)
return VERR_NO_MEMORY;
/* Engage */
rc = PDMR3AsyncCompletionEpRead(pTestFile->hEndpoint, pTestTask->off,
&pTestTask->DataSeg, 1,
pTestTask->DataSeg.cbSeg,
pTestTask,
&pTestTask->hTask);
return rc;
}
/**
* Returns true with the given chance in percent.
*
* @returns true or false
* @param iPercentage The percentage of the chance to return true.
*/
static bool tstPDMACTestIsTrue(int iPercentage)
{
int uRnd = RTRandU32Ex(0, 100);
return (uRnd <= iPercentage); /* This should be enough for our purpose */
}
static DECLCALLBACK(int) tstPDMACTestFileThread(PVM pVM, PPDMTHREAD pThread)
{
PPDMACTESTFILE pTestFile = (PPDMACTESTFILE)pThread->pvUser;
int iWriteChance = 100; /* Chance to get a write task in percent. */
uint32_t cTasksStarted = 0;
int rc = VINF_SUCCESS;
if (pThread->enmState == PDMTHREADSTATE_INITIALIZING)
return VINF_SUCCESS;
while (pTestFile->fRunning)
{
unsigned iTaskCurr = 0;
/* Fill all tasks */
while ( (pTestFile->cTasksActiveCurr < pTestFile->cTasksActiveMax)
&& (iTaskCurr < pTestFile->cTasksActiveMax))
{
PPDMACTESTFILETASK pTask = &pTestFile->paTasks[iTaskCurr];
if (!pTask->fActive)
{
/* Read or write task? */
bool fWrite = tstPDMACTestIsTrue(iWriteChance);
ASMAtomicIncU32(&pTestFile->cTasksActiveCurr);
if (fWrite)
rc = tstPDMACStressTestFileWrite(pTestFile, pTask);
else
rc = tstPDMACStressTestFileRead(pTestFile, pTask);
if (rc != VINF_AIO_TASK_PENDING)
tstPDMACStressTestFileTaskCompleted(pVM, pTask, pTestFile, rc);
cTasksStarted++;
}
iTaskCurr++;
}
/*
* Recalc write chance. The bigger the file the lower the chance to have a write.
* The minimum chance is 33 percent.
*/
iWriteChance = 100 - (int)((100.0 / (double)pTestFile->cbFileMax) * (double)pTestFile->cbFileCurr);
iWriteChance = RT_MAX(33, iWriteChance);
/* Wait a random amount of time. (1ms - 100ms) */
RTThreadSleep(RTRandU32Ex(1, 100));
}
/* Wait for the rest to complete. */
while (pTestFile->cTasksActiveCurr)
RTThreadSleep(250);
RTPrintf("Thread exiting: processed %u tasks\n", cTasksStarted);
return rc;
}
static DECLCALLBACK(void) tstPDMACStressTestFileTaskCompleted(PVM pVM, void *pvUser, void *pvUser2, int rcReq)
{
PPDMACTESTFILE pTestFile = (PPDMACTESTFILE)pvUser2;
PPDMACTESTFILETASK pTestTask = (PPDMACTESTFILETASK)pvUser;
NOREF(pVM); NOREF(rcReq);
if (pTestTask->fWrite)
{
/** @todo Do something sensible here. */
}
else
{
tstPDMACStressTestFileVerify(pTestFile, pTestTask); /* Will assert if it fails */
}
RTMemFree(pTestTask->DataSeg.pvSeg);
pTestTask->fActive = false;
AssertMsg(pTestFile->cTasksActiveCurr > 0, ("Trying to complete a non active task\n"));
ASMAtomicDecU32(&pTestFile->cTasksActiveCurr);
}
/**
* Sets up a test file creating the I/O thread.
*
* @returns VBox status code.
* @param pVM Pointer to the shared VM instance structure.
* @param pTestFile Pointer to the uninitialized test file structure.
* @param iTestId Unique test id.
*/
static int tstPDMACStressTestFileOpen(PVM pVM, PPDMACTESTFILE pTestFile, unsigned iTestId)
{
int rc = VERR_NO_MEMORY;
/* Size is a multiple of 512 */
pTestFile->cbFileMax = RTRandU64Ex(FILE_SIZE_MIN, FILE_SIZE_MAX) & ~(511UL);
pTestFile->cbFileCurr = 0;
pTestFile->cbFileSegment = RTRandU32Ex(SEGMENT_SIZE_MIN, RT_MIN(pTestFile->cbFileMax, SEGMENT_SIZE_MAX)) & ~((size_t)511);
Assert(pTestFile->cbFileMax >= pTestFile->cbFileSegment);
/* Set up the segments array. */
pTestFile->cSegments = pTestFile->cbFileMax / pTestFile->cbFileSegment;
pTestFile->cSegments += ((pTestFile->cbFileMax % pTestFile->cbFileSegment) > 0) ? 1 : 0;
pTestFile->paSegs = (PPDMACTESTFILESEG)RTMemAllocZ(pTestFile->cSegments * sizeof(PDMACTESTFILESEG));
if (pTestFile->paSegs)
{
/* Init the segments */
for (unsigned i = 0; i < pTestFile->cSegments; i++)
{
PPDMACTESTFILESEG pSeg = &pTestFile->paSegs[i];
pSeg->off = (RTFOFF)i * pTestFile->cbFileSegment;
pSeg->cbSegment = pTestFile->cbFileSegment;
/* Let the buffer point to a random position in the test pattern. */
uint32_t offTestPattern = RTRandU64Ex(0, g_cbTestPattern - pSeg->cbSegment);
pSeg->pbData = g_pbTestPattern + offTestPattern;
}
/* Init task array. */
pTestFile->cTasksActiveMax = RTRandU32Ex(1, TASK_ACTIVE_MAX);
pTestFile->paTasks = (PPDMACTESTFILETASK)RTMemAllocZ(pTestFile->cTasksActiveMax * sizeof(PDMACTESTFILETASK));
if (pTestFile->paTasks)
{
/* Create the template */
char szDesc[256];
RTStrPrintf(szDesc, sizeof(szDesc), "Template-%d", iTestId);
rc = PDMR3AsyncCompletionTemplateCreateInternal(pVM, &pTestFile->pTemplate, tstPDMACStressTestFileTaskCompleted,
pTestFile, szDesc);
if (RT_SUCCESS(rc))
{
/* Open the endpoint now. Because async completion endpoints cannot create files we have to do it before. */
char szFile[RTPATH_MAX];
RTStrPrintf(szFile, sizeof(szFile), "tstPDMAsyncCompletionStress-%d.tmp", iTestId);
RTFILE FileTmp;
rc = RTFileOpen(&FileTmp, szFile, RTFILE_O_READWRITE | RTFILE_O_CREATE | RTFILE_O_DENY_NONE);
if (RT_SUCCESS(rc))
{
RTFileClose(FileTmp);
rc = PDMR3AsyncCompletionEpCreateForFile(&pTestFile->hEndpoint, szFile, 0, pTestFile->pTemplate);
if (RT_SUCCESS(rc))
{
char szThreadDesc[256];
pTestFile->fRunning = true;
/* Create the thread creating the I/O for the given file. */
RTStrPrintf(szThreadDesc, sizeof(szThreadDesc), "PDMACThread-%d", iTestId);
rc = PDMR3ThreadCreate(pVM, &pTestFile->hThread, pTestFile, tstPDMACTestFileThread,
NULL, 0, RTTHREADTYPE_IO, szThreadDesc);
if (RT_SUCCESS(rc))
{
rc = PDMR3ThreadResume(pTestFile->hThread);
AssertRC(rc);
RTPrintf(TESTCASE ": Created test file %s cbFileMax=%llu cbFileSegment=%u cSegments=%u cTasksActiveMax=%u\n",
szFile, pTestFile->cbFileMax, pTestFile->cbFileSegment, pTestFile->cSegments, pTestFile->cTasksActiveMax);
return VINF_SUCCESS;
}
PDMR3AsyncCompletionEpClose(pTestFile->hEndpoint);
}
RTFileDelete(szFile);
}
PDMR3AsyncCompletionTemplateDestroy(pTestFile->pTemplate);
}
RTMemFree(pTestFile->paTasks);
}
else
rc = VERR_NO_MEMORY;
RTMemFree(pTestFile->paSegs);
}
else
rc = VERR_NO_MEMORY;
RTPrintf(TESTCASE ": Opening test file with id %d failed rc=%Rrc\n", iTestId, rc);
return rc;
}
/**
* Closes a test file.
*
* @param pTestFile Pointer to the test file.
*/
static void tstPDMACStressTestFileClose(PPDMACTESTFILE pTestFile)
{
int rcThread;
int rc;
RTPrintf("Terminating I/O thread, please wait...\n");
/* Let the thread know that it should terminate. */
pTestFile->fRunning = false;
/* Wait for the thread to terminate. */
rc = PDMR3ThreadDestroy(pTestFile->hThread, &rcThread);
RTPrintf("Thread terminated with status code rc=%Rrc\n", rcThread);
/* Free resources */
RTMemFree(pTestFile->paTasks);
RTMemFree(pTestFile->paSegs);
PDMR3AsyncCompletionEpClose(pTestFile->hEndpoint);
PDMR3AsyncCompletionTemplateDestroy(pTestFile->pTemplate);
}
/**
* Inits the test pattern.
*
* @returns VBox status code.
*/
static int tstPDMACStressTestPatternInit(void)
{
RTPrintf(TESTCASE ": Creating test pattern. Please wait...\n");
g_cbTestPattern = TEST_PATTERN_SIZE;
g_pbTestPattern = (uint8_t *)RTMemAlloc(g_cbTestPattern);
if (!g_pbTestPattern)
return VERR_NO_MEMORY;
RTRandBytes(g_pbTestPattern, g_cbTestPattern);
return VINF_SUCCESS;
}
static void tstPDMACStressTestPatternDestroy(void)
{
RTPrintf(TESTCASE ": Destroying test pattern\n");
RTMemFree(g_pbTestPattern);
}
/**
* Entry point.
*/
extern "C" DECLEXPORT(int) TrustedMain(int argc, char **argv, char **envp)
{
RT_NOREF1(envp);
int rcRet = 0; /* error count */
RTR3InitExe(argc, &argv, RTR3INIT_FLAGS_TRY_SUPLIB);
PVM pVM;
PUVM pUVM;
int rc = VMR3Create(1 /*cCpus*/, NULL, 0 /*fFlags*/, NULL, NULL, NULL, NULL, &pVM, &pUVM);
if (RT_SUCCESS(rc))
{
/*
* Little hack to avoid the VM_ASSERT_EMT assertion.
*/
RTTlsSet(pVM->pUVM->vm.s.idxTLS, &pVM->pUVM->aCpus[0]);
pVM->pUVM->aCpus[0].pUVM = pVM->pUVM;
pVM->pUVM->aCpus[0].vm.s.NativeThreadEMT = RTThreadNativeSelf();
rc = tstPDMACStressTestPatternInit();
if (RT_SUCCESS(rc))
{
unsigned cFilesOpened = 0;
/* Open the endpoints. */
for (cFilesOpened = 0; cFilesOpened < NR_OPEN_ENDPOINTS; cFilesOpened++)
{
rc = tstPDMACStressTestFileOpen(pVM, &g_aTestFiles[cFilesOpened], cFilesOpened);
if (RT_FAILURE(rc))
break;
}
if (RT_SUCCESS(rc))
{
/* Tests are running now. */
RTPrintf(TESTCASE ": Successfully opened all files. Running tests forever now or until an error is hit :)\n");
RTThreadSleep(RT_INDEFINITE_WAIT);
}
/* Close opened endpoints. */
for (unsigned i = 0; i < cFilesOpened; i++)
tstPDMACStressTestFileClose(&g_aTestFiles[i]);
tstPDMACStressTestPatternDestroy();
}
else
{
RTPrintf(TESTCASE ": failed to init test pattern!! rc=%Rrc\n", rc);
rcRet++;
}
rc = VMR3Destroy(pUVM);
AssertMsg(rc == VINF_SUCCESS, ("%s: Destroying VM failed rc=%Rrc!!\n", __FUNCTION__, rc));
}
else
{
RTPrintf(TESTCASE ": failed to create VM!! rc=%Rrc\n", rc);
rcRet++;
}
return rcRet;
}
#if !defined(VBOX_WITH_HARDENING) || !defined(RT_OS_WINDOWS)
/**
* Main entry point.
*/
int main(int argc, char **argv, char **envp)
{
return TrustedMain(argc, argv, envp);
}
#endif
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