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Quelle ranfile.cpp Sprache: C |
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /*********************************************************************** ** ** Contact: AOF<mailto:freier@netscape.com> ** ** Name: ranfile.c ** ** Description: Test to hammer on various components of NSPR ** Modification History: ** 20-May-97 AGarcia- Converted the test to accomodate the debug_mode flag. ** The debug mode will print all of the printfs associated with this test. ** The regress mode will be the default mode. Since the regress tool limits ** the output to a one line status:PASS or FAIL,all of the printf statements ** have been handled with an if (debug_mode) statement. ** 04-June-97 AGarcia removed the Test_Result function. Regress tool has been updated to ** recognize the return code from tha main program. ***********************************************************************/ /*********************************************************************** ** Includes ***********************************************************************/ /* Used to get the command line option */ #include <plgetopt.h> #include <prprf.h> #include <prio.h> #include "rccv.h" #include "rcthread.h" #include "rcfileio.h" #include "rclock.h" #include <string.h> #include <stdio.h> #include <stdlib.h> static PRFileDesc *output; static PRIntn debug_mode = 0; static PRIntn failed_already = 0; class HammerData { public: typedef enum { sg_go, sg_stop, sg_done } Action; typedef enum { sg_okay, sg_open, sg_close, sg_delete, sg_write, sg_seek } Problem; virtual ~HammerData(); HammerData(RCLock* lock, RCCondition *cond, PRUint32 clip); virtual PRUint32 Random(); Action action; Problem problem; PRUint32 writes; RCInterval timein; friend class Hammer; private: RCLock *ml; RCCondition *cv; PRUint32 limit; PRFloat64 seed; }; /* HammerData */ class Hammer: public HammerData, public RCThread { public: virtual ~Hammer(); Hammer(RCThread::Scope scope, RCLock* lock, RCCondition *cond, PRUint32 clip); private: void RootFunction(); }; static PRInt32 pageSize = 1024; static const char* baseName = "./"; static const char *programName = "Random File"; /*********************************************************************** ** PRIVATE FUNCTION: Random ** DESCRIPTION: ** Generate a pseudo-random number ** INPUTS: None ** OUTPUTS: None ** RETURN: A pseudo-random unsigned number, 32-bits wide ** SIDE EFFECTS: ** Updates random seed (a static) ** RESTRICTIONS: ** None ** MEMORY: NA ** ALGORITHM: ** Uses the current interval timer value, promoted to a 64 bit ** float as a multiplier for a static residue (which begins ** as an uninitialized variable). The result is bits [16..48) ** of the product. Seed is then updated with the return value ** promoted to a float-64. ***********************************************************************/ PRUint32 HammerData::Random() { PRUint32 rv; PRUint64 shift; RCInterval now = RCInterval(RCInterval::now); PRFloat64 random = seed * (PRFloat64)((PRIntervalTime)now); LL_USHR(shift, *((PRUint64*)&random), 16); LL_L2UI(rv, shift); seed = (PRFloat64)rv; return rv; } /* HammerData::Random */ Hammer::~Hammer() { } Hammer::Hammer( RCThread::Scope scope, RCLock* lock, RCCondition *cond, PRUint32 clip): HammerData(lock, cond, clip), RCThread(scope, RCThread::joinable, 0) { } HammerData::~HammerData() { } HammerData::HammerData(RCLock* lock, RCCondition *cond, PRUint32 clip) { ml = lock; cv = cond; writes = 0; limit = clip; seed = 0x58a9382; action = HammerData::sg_go; problem = HammerData::sg_okay; timein = RCInterval(RCInterval::now); } /* HammerData::HammerData */ /*********************************************************************** ** PRIVATE FUNCTION: Hammer::RootFunction ** DESCRIPTION: ** Hammer on the file I/O system ** INPUTS: A pointer to the thread's private data ** OUTPUTS: None ** RETURN: None ** SIDE EFFECTS: ** Creates, accesses and deletes a file ** RESTRICTIONS: ** (Currently) must have file create permission in "/usr/tmp". ** MEMORY: NA ** ALGORITHM: ** This function is a root of a thread ** 1) Creates a (hopefully) unique file in /usr/tmp/ ** 2) Writes a zero to a random number of sequential pages ** 3) Closes the file ** 4) Reopens the file ** 5) Seeks to a random page within the file ** 6) Writes a one byte on that page ** 7) Repeat steps [5..6] for each page in the file ** 8) Close and delete the file ** 9) Repeat steps [1..8] until told to stop ** 10) Notify complete and return ***********************************************************************/ void Hammer::RootFunction() { PRUint32 index; RCFileIO file; char filename[30]; const char zero = 0; PRStatus rv = PR_SUCCESS; limit = (Random() % limit) + 1; (void)sprintf(filename, "%ssg%04p.dat", baseName, this); if (debug_mode) { PR_fprintf(output, "Starting work on %s\n", filename); } while (PR_TRUE) { PRUint64 bytes; PRUint32 minor = (Random() % limit) + 1; PRUint32 random = (Random() % limit) + 1; PRUint32 pages = (Random() % limit) + 10; while (minor-- > 0) { problem = sg_okay; if (action != sg_go) { goto finished; } problem = sg_open; rv = file.Open(filename, PR_RDWR|PR_CREATE_FILE, 0666); if (PR_FAILURE == rv) { goto finished; } for (index = 0; index < pages; index++) { problem = sg_okay; if (action != sg_go) { goto close; } problem = sg_seek; bytes = file.Seek(pageSize * index, RCFileIO::set); if (bytes != pageSize * index) { goto close; } problem = sg_write; bytes = file.Write(&zero, sizeof(zero)); if (bytes <= 0) { goto close; } writes += 1; } problem = sg_close; rv = file.Close(); if (rv != PR_SUCCESS) { goto purge; } problem = sg_okay; if (action != sg_go) { goto purge; } problem = sg_open; rv = file.Open(filename, PR_RDWR, 0666); if (PR_FAILURE == rv) { goto finished; } for (index = 0; index < pages; index++) { problem = sg_okay; if (action != sg_go) { goto close; } problem = sg_seek; bytes = file.Seek(pageSize * index, RCFileIO::set); if (bytes != pageSize * index) { goto close; } problem = sg_write; bytes = file.Write(&zero, sizeof(zero)); if (bytes <= 0) { goto close; } writes += 1; random = (random + 511) % pages; } problem = sg_close; rv = file.Close(); if (rv != PR_SUCCESS) { goto purge; } problem = sg_delete; rv = file.Delete(filename); if (rv != PR_SUCCESS) { goto finished; } } } close: (void)file.Close(); purge: (void)file.Delete(filename); finished: RCEnter scope(ml); action = HammerData::sg_done; cv->Notify(); if (debug_mode) { PR_fprintf(output, "Ending work on %s\n", filename); } return; } /* Hammer::RootFunction */ static Hammer* hammer[100]; /*********************************************************************** ** PRIVATE FUNCTION: main ** DESCRIPTION: ** Hammer on the file I/O system ** INPUTS: The usual argc and argv ** argv[0] - program name (not used) ** argv[1] - the number of virtual_procs to execute the major loop ** argv[2] - the number of threads to toss into the batch ** argv[3] - the clipping number applied to randoms ** default values: max_virtual_procs = 2, threads = 10, limit = 57 ** OUTPUTS: None ** RETURN: None ** SIDE EFFECTS: ** Creates, accesses and deletes lots of files ** RESTRICTIONS: ** (Currently) must have file create permission in "/usr/tmp". ** MEMORY: NA ** ALGORITHM: ** 1) Fork a "Thread()" ** 2) Wait for 'interleave' seconds ** 3) For [0..'threads') repeat [1..2] ** 4) Mark all objects to stop ** 5) Collect the threads, accumulating the results ** 6) For [0..'max_virtual_procs') repeat [1..5] ** 7) Print accumulated results and exit ** ** Characteristic output (from IRIX) ** Random File: Using max_virtual_procs = 2, threads = 10, limit = 57 ** Random File: [min [avg] max] writes/sec average ***********************************************************************/ PRIntn main (PRIntn argc, char *argv[]) { RCLock ml; PLOptStatus os; RCCondition cv(&ml); PRUint32 writesMax = 0, durationTot = 0; RCThread::Scope thread_scope = RCThread::local; PRUint32 writes, writesMin = 0x7fffffff, writesTot = 0; PRIntn active, poll, limit = 0, max_virtual_procs = 0, threads = 0, virtual_procs; RCInterval interleave(RCInterval::FromMilliseconds(10000)), duration(0); const char *where[] = {"okay", "open", "close", "delete", "write", "seek"}; PLOptState *opt = PL_CreateOptState(argc, argv, "Gdl:t:i:"); while (PL_OPT_EOL != (os = PL_GetNextOpt(opt))) { if (PL_OPT_BAD == os) { continue; } switch (opt->option) { case 0: baseName = opt->value; break; case 'G': /* global threads */ thread_scope = RCThread::global; break; case 'd': /* debug mode */ debug_mode = 1; break; case 'l': /* limiting number */ limit = atoi(opt->value); break; case 't': /* number of threads */ threads = atoi(opt->value); break; case 'i': /* iteration counter */ max_virtual_procs = atoi(opt->value); break; default: break; } } PL_DestroyOptState(opt); output = PR_GetSpecialFD(PR_StandardOutput); /* main test */ cv.SetTimeout(interleave); if (max_virtual_procs == 0) { max_virtual_procs = 2; } if (limit == 0) { limit = 57; } if (threads == 0) { threads = 10; } if (debug_mode) PR_fprintf(output, "%s: Using %d virtual processors, %d threads, limit = %d and %s threads\n", programName, max_virtual_procs, threads, limit, (thread_scope == RCThread::local) ? "LOCAL" : "GLOBAL"); for (virtual_procs = 0; virtual_procs < max_virtual_procs; ++virtual_procs) { if (debug_mode) PR_fprintf(output, "%s: Setting number of virtual processors to %d\n", programName, virtual_procs + 1); RCPrimordialThread::SetVirtualProcessors(virtual_procs + 1); for (active = 0; active < threads; active++) { hammer[active] = new Hammer(thread_scope, &ml, &cv, limit); hammer[active]->Start(); /* then make it roll */ RCThread::Sleep(interleave); /* start them slowly */ } /* * The last thread started has had the opportunity to run for * 'interleave' seconds. Now gather them all back in. */ { RCEnter scope(&ml); for (poll = 0; poll < threads; poll++) { if (hammer[poll]->action == HammerData::sg_go) { /* don't overwrite done */ hammer[poll]->action = HammerData::sg_stop; /* ask him to stop */ } } } while (active > 0) { for (poll = 0; poll < threads; poll++) { ml.Acquire(); while (hammer[poll]->action < HammerData::sg_done) { cv.Wait(); } ml.Release(); if (hammer[poll]->problem == HammerData::sg_okay) { duration = RCInterval(RCInterval::now) - hammer[poll]->timein; writes = hammer[poll]->writes * 1000 / duration; if (writes < writesMin) { writesMin = writes; } if (writes > writesMax) { writesMax = writes; } writesTot += hammer[poll]->writes; durationTot += duration; } else { if (debug_mode) PR_fprintf(output, "%s: test failed %s after %ld seconds\n", programName, where[hammer[poll]->problem], duration); else { failed_already=1; } } active -= 1; /* this is another one down */ (void)hammer[poll]->Join(); hammer[poll] = NULL; } } if (debug_mode) PR_fprintf(output, "%s: [%ld [%ld] %ld] writes/sec average\n", programName, writesMin, writesTot * 1000 / durationTot, writesMax); } failed_already |= (PR_FAILURE == RCPrimordialThread::Cleanup()); PR_fprintf(output, "%s\n", (failed_already) ? "FAIL\n" : "PASS\n"); return failed_already; } /* main */
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2026-04-02