void BCTest::setUp() { LBIDRange_v r; HWM_t hwm; OID_t oid=1000; extentSize = dbrm.getExtentSize(); maxBlocksAvailable=0; int i=0; fExtentSize=dbrm.getExtentSize(); while ( oid < 5000 ) { int ret=0; ret = dbrm.lookup(oid, r); if (ret==0 && r.size()>0) { dbrm.getHWM(oid, hwm); maxBlocksAvailable+=(r.size()*extentSize); OidRanges_t oid_range(oid, hwm, r); OidRangesList.push_back(oid_range); //cout << "Setup i: " << i++ << " o: " << oid // << " r: " << ret << " s: " << r.size() // << " m: " << maxBlocksAvailable // << endl; hwm=0; r.clear(); } oid++; } //cout << "\t" << OidRangesList.size() << " oid ranges loaded " << endl << endl; i=0; } // setUp()
void brm_dumb_1() { DBRM brm; vector<LBID_t> lbids; int allocdSize, err; const uint32_t extentSize = brm.getExtentSize(); err = brm.createExtent(extentSize, 1, lbids, allocdSize); CPPUNIT_ASSERT(err == 0); err = brm.markExtentInvalid(lbids[0]); CPPUNIT_ASSERT(err == 0); int64_t min; int64_t max; int32_t seq; err = brm.getExtentMaxMin(lbids[0], max, min, seq); #ifdef SAFE_CP CPPUNIT_ASSERT(err == 0); #else CPPUNIT_ASSERT(err == 1); #endif err = brm.setExtentMaxMin(lbids[0], max, min, seq); CPPUNIT_ASSERT(err == 0); err = brm.deleteOID(1); CPPUNIT_ASSERT(err == 0); }
void brm_markExtentsInvalid() { DBRM brm; int i, err, allocdSize, iterations = 100; // (EM_INITIAL_SIZE + 3*EM_INCREMENT) vector<LBID_t> lbids; int64_t min, max; int32_t seqNum; const uint32_t extentSize = brm.getExtentSize(); cerr << "brm_markExtentsInvalid" << endl; err = brm.createExtent(extentSize * iterations, 1, lbids, allocdSize); CPPUNIT_ASSERT(lbids.size() == iterations); CPPUNIT_ASSERT(err == 0); // mark all extents valid for (i = 0; i < iterations; i++) { err = brm.setExtentMaxMin(lbids[i], 1, 0, 0); CPPUNIT_ASSERT(err == 0); } err = brm.markExtentsInvalid(lbids); CPPUNIT_ASSERT(err == 0); // check that they are all invalid/updating/whatever. // != CP_VALID is what we're looking for for (i = 0; i < iterations; i++) { err = brm.getExtentMaxMin(lbids[i], max, min, seqNum); CPPUNIT_ASSERT(err == CP_UPDATING); } // cleanup err = brm.deleteOID(1); }
// cut & pasted from brm_good_2(), but with rollback instead of commit. void brm_good_3() { DBRM brm; VBBM vbbm; VSS vss; CopyLocks cl; int i, err, size; vector<LBID_t> lbids; vector<LBID_t>::iterator lbid; vector<EMEntry> extents; LBIDRange_v ranges; LBIDRange_v::iterator lbidRangeIT; VBRange_v vbRanges, vbRanges2; VBRange_v::iterator vbRangesIT; LBIDRange_v tmp; EMEntry em; OID_t oid; uint32_t fbo; LBIDRange range; VBRange vbRange; VER_t verID; bool vbFlag; bool caughtException; // Buildbot times out on the getBlocks() call during leakcheck b/c it takes // > 5 mins for some reason. Have to ping it before 300 seconds go by. void (*oldsig)(int); cerr << "brm_good_3" << endl; oldsig = signal(SIGALRM, keepalive); alarm(290); err = brm.lookup(0, 0, false, oid, fbo); CPPUNIT_ASSERT(err != 0); err = brm.lookup(0, 0, true, oid, fbo); CPPUNIT_ASSERT(err != 0); err = brm.createExtent(8000, 1, lbids, size); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(size == brm.getExtentSize()); CPPUNIT_ASSERT(lbids.size() == 1); CPPUNIT_ASSERT(*(lbids.begin()) == 0); err = brm.getExtents(1, extents); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(extents.size() == 1); em = *(extents.begin()); CPPUNIT_ASSERT(em.range.start == 0); CPPUNIT_ASSERT(em.range.size*1024 == static_cast<uint32_t>(brm.getExtentSize())); CPPUNIT_ASSERT(em.HWM == 0); CPPUNIT_ASSERT(em.blockOffset == 0); for (i = 0; i < 5; i++) { range.start = i * 100; range.size = 100; ranges.push_back(range); } CPPUNIT_ASSERT(brm.checkConsistency() == 0); err = brm.beginVBCopy(1, ranges, vbRanges); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(brm.checkConsistency() == 0); cl.lock(CopyLocks::READ); for (lbidRangeIT = ranges.begin(); lbidRangeIT != ranges.end(); lbidRangeIT++) CPPUNIT_ASSERT(cl.isLocked(*lbidRangeIT)); cl.release(CopyLocks::READ); err = brm.beginVBCopy(1, ranges, vbRanges2); CPPUNIT_ASSERT(err != 0); CPPUNIT_ASSERT(brm.checkConsistency() == 0); cl.lock(CopyLocks::READ); for (lbidRangeIT = ranges.begin(); lbidRangeIT != ranges.end(); lbidRangeIT++) CPPUNIT_ASSERT(cl.isLocked(*lbidRangeIT)); cl.release(CopyLocks::READ); for (i = 0; i < 500; i++) { verID = MAXINT; err = brm.vssLookup(i, verID, 1, vbFlag); CPPUNIT_ASSERT(err != 0); } vbRange = *(vbRanges.begin()); // CPPUNIT_ASSERT(vbRange.vbFBO == 0); for (i = 0; i < (int)vbRange.size; i++) { err = brm.writeVBEntry(1, i, vbRange.vbOID, vbRange.vbFBO + i); CPPUNIT_ASSERT(err == 0); } CPPUNIT_ASSERT(brm.checkConsistency() == 0); for (i = 0; i < (int)vbRange.size; i++) { verID = MAXINT; err = brm.vssLookup(i, verID, 1, vbFlag); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(verID == 1); CPPUNIT_ASSERT(vbFlag == false); verID = MAXINT; err = brm.vssLookup(i, verID, 0, vbFlag); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(verID == 0); CPPUNIT_ASSERT(vbFlag == true); } for (; i < 500; i++) { verID = MAXINT; err = brm.vssLookup(i, verID, 1, vbFlag); CPPUNIT_ASSERT(err != 0); } err = brm.endVBCopy(0, ranges); CPPUNIT_ASSERT(brm.checkConsistency() == 0); cl.lock(CopyLocks::READ); for (lbidRangeIT = ranges.begin(); lbidRangeIT != ranges.end(); lbidRangeIT++) CPPUNIT_ASSERT(!cl.isLocked(*lbidRangeIT)); cl.release(CopyLocks::READ); err = brm.getUncommittedLBIDs(1, lbids); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(lbids.size() == vbRange.size); sort<vector<LBID_t>::iterator>(lbids.begin(), lbids.end()); lbid = lbids.begin(); for (i = 0; i < static_cast<int>(lbids.size()); i++, lbid++) CPPUNIT_ASSERT((*lbid) == static_cast<LBID_t>(i)); range.start = 0; range.size = i; tmp.push_back(range); err = brm.vbRollback(1, tmp); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(brm.checkConsistency() == 0); for (i = 0; i < (int)vbRange.size; i++) { verID = MAXINT; err = brm.vssLookup(i, verID, 0, vbFlag); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(verID == 0); CPPUNIT_ASSERT(vbFlag == false); err = brm.lookup(i, verID, vbFlag, oid, fbo); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(oid == 1); CPPUNIT_ASSERT(fbo == static_cast<uint32_t>(i)); vbbm.lock(VBBM::WRITE); vss.lock(VSS::WRITE); #ifdef BRM_DEBUG caughtException = false; try { vbbm.removeEntry(i, verID); vbbm.confirmChanges(); } catch (logic_error &e) { vbbm.undoChanges(); caughtException = true; } CPPUNIT_ASSERT(caughtException); caughtException = false; try { vss.removeEntry(i, 1); vss.confirmChanges(); } catch (logic_error &e) { vss.undoChanges(); caughtException = true; } CPPUNIT_ASSERT(caughtException); #endif vss.removeEntry(i, verID); vss.confirmChanges(); vss.release(VSS::WRITE); vbbm.release(VBBM::WRITE); } CPPUNIT_ASSERT(brm.checkConsistency() == 0); brm.deleteOID(1); vbbm.lock(VBBM::READ); vss.lock(VSS::READ); CPPUNIT_ASSERT(vbbm.size() == 0); CPPUNIT_ASSERT(vbbm.hashEmpty()); CPPUNIT_ASSERT(vss.size() == 0); CPPUNIT_ASSERT(vss.hashEmpty()); vss.release(VSS::READ); vbbm.release(VBBM::READ); CPPUNIT_ASSERT(brm.checkConsistency() == 0); err = brm.saveState(); CPPUNIT_ASSERT(err==0); }
void brm_extentmap_good_1() { DBRM brm; int i, err, oid, allocdSize, iterations = 100; // (EM_INITIAL_SIZE + 3*EM_INCREMENT) uint32_t fbo, hwm; vector<LBID_t> lbids; HWM_t hwm2; VER_t txnID; const uint32_t extentSize = brm.getExtentSize(); cerr << "brm_extentmap_good_1" << endl; for (i = 1; i < iterations; i++) { err = brm.createExtent(extentSize, i, lbids, allocdSize); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(lbids.back() == static_cast<LBID_t>((i-1)*extentSize)); err=brm.markExtentInvalid(lbids[0]); CPPUNIT_ASSERT(err==0); int64_t min; int64_t max; int32_t seq; err = brm.getExtentMaxMin(lbids[0], max, min, seq); #ifdef SAFE_CP CPPUNIT_ASSERT(err == 0); #else CPPUNIT_ASSERT(err == 1); #endif err = brm.setExtentMaxMin(lbids[0], max, min, seq); CPPUNIT_ASSERT(err == 0); } CPPUNIT_ASSERT(err==0); for (i = 1; i < iterations; i++) { err = brm.lookup(static_cast<LBID_t>((i-1)*extentSize), 0, false, oid, fbo); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(oid == i); CPPUNIT_ASSERT(fbo == 0); if (i != 1) { err = brm.lookup(static_cast<LBID_t>((i-1)*extentSize - 1), 0, false, oid, fbo); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(oid == i-1); CPPUNIT_ASSERT(fbo == extentSize - 1); } if (i != iterations) { err = brm.lookup(static_cast<LBID_t>((i-1)*extentSize + 1), 0, false, oid, fbo); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(oid == i); CPPUNIT_ASSERT(fbo == 1); } err = brm.markExtentInvalid(oid); CPPUNIT_ASSERT(err==0); err = brm.markExtentInvalid(lbids[0]); CPPUNIT_ASSERT(err==0); int64_t min; int64_t max; int32_t seq; err = brm.getExtentMaxMin(lbids[0], max, min, seq); #ifdef SAFE_CP CPPUNIT_ASSERT(err == 0); #else CPPUNIT_ASSERT(err == 1); #endif err = brm.setExtentMaxMin(lbids[0], max, min, seq); CPPUNIT_ASSERT(err == 0); } CPPUNIT_ASSERT(brm.checkConsistency() == 0); err = brm.lookup(static_cast<LBID_t>((i-1)*extentSize), 0, false, oid, fbo); CPPUNIT_ASSERT(err == -1); for (i = 1; i < iterations; i++) { err = brm.getBulkInsertVars(static_cast<LBID_t>((i-1)*extentSize), hwm2, txnID); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(hwm2 == 0); CPPUNIT_ASSERT(txnID == 0); err = brm.setBulkInsertVars(static_cast<LBID_t>((i-1)*extentSize), i, i + 1); CPPUNIT_ASSERT(err == 0); err = brm.getBulkInsertVars(static_cast<LBID_t>((i-1)*extentSize), hwm2, txnID); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(hwm2 == static_cast<BRM::LBID_t>(i)); CPPUNIT_ASSERT(txnID == static_cast<BRM::VER_t>(i+1)); err = brm.getHWM(i, hwm); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(hwm == 0); err = brm.setHWM(i, ((uint32_t)i > extentSize - 1 ? extentSize - 1 : i)); CPPUNIT_ASSERT(err == 0); err = brm.getHWM(i, hwm); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(hwm == static_cast<uint32_t>((uint32_t)i > extentSize - 1 ? extentSize - 1 : i)); } CPPUNIT_ASSERT(brm.checkConsistency() == 0); #ifdef BRM_DEBUG err = brm.setHWM(i, hwm); CPPUNIT_ASSERT(err != 0); #endif for (i = 1; i < iterations; i++) { err = brm.deleteOID(i); CPPUNIT_ASSERT(err == 0); } err = brm.deleteOID(i); CPPUNIT_ASSERT(err != 0); CPPUNIT_ASSERT(brm.checkConsistency() == 0); err = brm.saveState(); CPPUNIT_ASSERT(err==0); }
int main(int argc, char *argv[]) { if (argc>=2) thr_cnt=atoi(argv[1]); if (argc>=3) fLoops=atoi(argv[2]); if (thr_cnt<=0) thr_cnt=1; if (thr_cnt>1024) thr_cnt=1024; if (fLoops<=0) fLoops=1; LBIDRange_v r; vector<LBIDRange_v> ranges; DBRM dbrm; uint32_t hwm, lowfbo, highfbo, fbo, extentSize, lowlbid; struct timeval tv, tv2; cout << "Starting " << endl; extentSize = dbrm.getExtentSize(); BRM::OID_t oid=3000; uint32_t totalExt=0; do { int ret = dbrm.lookup(oid, r); if (ret==0 && r.size() > 0) { lowlbid = (r[0].start/extentSize) * extentSize; dbrm.lookup(r[0].start, ver, false, oid, fbo); // need the oid dbrm.getHWM(oid, hwm); lowfbo = fbo - (r[0].start - lowlbid); highfbo = lowfbo + extentSize; r[0].start=lowlbid; if (hwm < highfbo) r[0].size = hwm - lowfbo + 1; else r[0].size = extentSize; for (uint32_t idx=0; idx<r.size(); idx++) totalExt+=r[idx].size; ranges.push_back(r); } oid++; } while ( (r.size() > 0 || oid < 900000) ); cout << ranges.size() << " ranges found" << endl; gettimeofday(&tv, NULL); uint32_t blksLoaded=0; int rangesLoaded=0; for (uint32_t i =0; i<ranges.size() && blksLoaded < cacheSize; i++) { LoadRange(ranges[i], blksLoaded); rangesLoaded++; } cout << endl; gettimeofday(&tv2, NULL); cout << "Loaded: " << blksLoaded << " blks " << rangesLoaded << " ranges sec: " << tv2.tv_sec - tv.tv_sec <<endl; while (ranges.size() > rangesLoaded) ranges.pop_back(); #ifdef BLAH for (uint32_t i =0; i<ranges; i++) ReadRange(ranges[i]); for (uint32_t i =0; i<ranges.size(); i++) { LBIDRange_v rv=ranges[i]; for(uint32_t j=0; j < rv.size(); j++) { const InlineLBIDRange l = {rv[j].start, rv[j].size}; for(uint32_t k=l.start; k<l.start+l.size; k++) { LoadLbid(k, ver); ReadLbid(k, ver); } } } #endif pthread_t thr_id[thr_cnt]; thr_wait_t thr_wait= {0, PTHREAD_MUTEX_INITIALIZER, PTHREAD_COND_INITIALIZER, ranges}; //start threads running cout << "Starting driver threads" << endl; gettimeofday(&tv, NULL); memset(thr_id, 0, thr_cnt*(sizeof(pthread_t))); for(int i=0; i<thr_cnt; i++) { pthread_create(&thr_id[i], NULL, thr_client, &thr_wait); } // waiting until all threads have indicated completion pthread_mutex_lock(&thr_wait.fMutex); while (thr_wait.predicate>0) { pthread_cond_wait(&thr_wait.fCond, &thr_wait.fMutex); } pthread_mutex_unlock(&thr_wait.fMutex); // join threads back to main for(int i=0; i<thr_cnt; i++) { pthread_join(thr_id[i], NULL); } gettimeofday(&tv2, NULL); time_t tm=time(0); char t[50]; ctime_r(&tm, t); t[strlen(t)-1]=0; uint32_t elTime=tv2.tv_sec-tv.tv_sec; uint64_t total = bfoundTot + rfoundTot; uint64_t avgTot=0; uint64_t rangeAvg=0; uint64_t blkAvg=0; if (elTime>0) { avgTot=(bfoundTot+rfoundTot)/elTime; rangeAvg=(rfoundTot)/elTime; blkAvg=(bfoundTot)/elTime; } else { avgTot=bfoundTot+rfoundTot; rangeAvg=rfoundTot; blkAvg=bfoundTot; } cout << "Summary tm " << t << " " << (tv2.tv_sec-tv.tv_sec) << endl << "\tBlk: c " << blockOpCountTot << " pass " << bfoundTot << " fail " << bnfoundTot << //"\tRng: c "<< rangeOpCountTot << " pass " << rfoundTot << " fail " << rnfoundTot << endl << //"\tNoOp: c " << noOpCountTot << " Total " << total << endl << //"\tblks/sec Blk " << blkAvg << " Rng " << rangeAvg << " Tot " << avgTot << " Thr " << avgTot/thr_cnt << endl << endl; " Blks/Sec Blk " << blkAvg << " Thr " << avgTot/thr_cnt << endl << endl; return 0; } // end main
static void* BRMRunner_si(void *arg) { // keep track of LBID ranges allocated here and // randomly allocate, lookup, delete, get/set HWM, and // destroy the EM object. struct EMEntries { u_int64_t LBIDstart; u_int32_t size; int OID; u_int32_t FBO; u_int32_t HWM; u_int32_t secondHWM; u_int32_t txnID; struct EMEntries *next; EMEntries() { next = NULL; HWM = 0; secondHWM = 0; txnID = 0; } }; #ifdef BRM_VERBOSE int threadNum = reinterpret_cast<int>(arg); #endif int op, listSize = 0, i; uint randstate; struct EMEntries *head = NULL, *tmp; struct timeval tv; ExtentMap em; vector<LBID_t> lbids; #ifdef BRM_VERBOSE cerr << "thread number " << threadNum << " started." << endl; #endif gettimeofday(&tv, NULL); randstate = static_cast<uint>(tv.tv_usec); while (!threadStop) { op = rand_r(&randstate) % 10; #ifdef BRM_VERBOSE cerr << "next op is " << op << endl; #endif switch (op) { case 0: //allocate space for a new file { struct EMEntries *newEm; int size = rand_r(&randstate) % 102399 + 1; int entries, OID, allocdSize, err; pthread_mutex_lock(&mutex); OID = oid++; opCount++; pthread_mutex_unlock(&mutex); err = brm_si.createExtent(size, OID, lbids, allocdSize); CPPUNIT_ASSERT(err == 0); entries = size/brm_si.getExtentSize(); if ((size % brm_si.getExtentSize()) != 0) entries++; CPPUNIT_ASSERT((uint)entries == lbids.size()); for (i = 0 ; i < entries; i++) { newEm = new EMEntries(); newEm->size = brm_si.getExtentSize(); newEm->OID = OID; newEm->FBO = i * brm_si.getExtentSize(); newEm->LBIDstart = lbids[i]; newEm->next = head; head = newEm; listSize++; } #ifdef BRM_VERBOSE cerr << "created new space for OID " << newEm->OID << endl; #endif em.checkConsistency(); break; } case 1: //allocate space for an existing file { if (listSize == 0) break; struct EMEntries *newEm, *tmp; int size = rand_r(&randstate) % 102399 + 1; int fileRand = rand_r(&randstate) % listSize; int i, lastExtent, blockEnd, oid; int tmpHWM, entries, allocdSize, err; vector<LBID_t> lbids; for (i = 0, tmp = head; i < fileRand; i++) tmp = tmp->next; oid = tmp->OID; for (lastExtent = 0, tmp = head; tmp != NULL; tmp = tmp->next) { if (tmp->OID != oid) continue; tmpHWM = tmp->HWM; blockEnd = tmp->FBO + tmp->size; if (lastExtent < blockEnd) lastExtent = blockEnd; } err = brm_si.createExtent(size, oid, lbids, allocdSize); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); CPPUNIT_ASSERT(err == 0); entries = size/brm_si.getExtentSize(); if ((size % brm_si.getExtentSize()) != 0) entries++; CPPUNIT_ASSERT((uint)entries == lbids.size()); for (i = 0; i < entries; i++) { newEm = new EMEntries(); if (i != entries) newEm->size = brm_si.getExtentSize(); else newEm->size = size % brm_si.getExtentSize(); newEm->OID = oid; newEm->FBO = lastExtent + (i*brm_si.getExtentSize()); newEm->LBIDstart = lbids[i]; newEm->HWM = tmpHWM; newEm->next = head; head = newEm; listSize++; } #ifdef BRM_VERBOSE cerr << "created another extent for OID " << newEm->OID << endl; #endif em.checkConsistency(); break; } case 2: //delete an OID { if (listSize == 0) break; struct EMEntries *tmp, *prev; int fileRand = rand_r(&randstate) % listSize; int i, oid, err; for (i = 0, tmp = head; i < fileRand; i++) tmp = tmp->next; oid = tmp->OID; err = brm_si.deleteOID(oid); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); CPPUNIT_ASSERT(err == 0); for (tmp = head; tmp != NULL;) { if (tmp->OID == oid) { if (tmp == head) { head = head->next; delete tmp; tmp = head; } else { prev->next = tmp->next; delete tmp; tmp = prev->next; } listSize--; } else { prev = tmp; tmp = tmp->next; } } #ifdef BRM_VERBOSE cerr << "deleted OID " << oid << endl; #endif em.checkConsistency(); break; } case 3: //lookup by LBID { if (listSize == 0) break; int entryRand = rand_r(&randstate) % listSize; int i, err, offset, oid; struct EMEntries *tmp; LBID_t target; u_int32_t fbo; for (i = 0, tmp = head; i < entryRand; i++) tmp = tmp->next; offset = rand_r(&randstate) % tmp->size; target = tmp->LBIDstart + offset; err = brm_si.lookup(target, 0, false, oid, fbo); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); #ifdef BRM_VERBOSE cerr << "looked up LBID " << target << " got oid " << oid << " fbo " << fbo << endl; cerr << " oid should be " << tmp->OID << " fbo should be " << offset+tmp->FBO << endl; #endif CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(oid == tmp->OID); CPPUNIT_ASSERT(fbo == offset + tmp->FBO); em.checkConsistency(); break; } case 4: //lookup by OID, FBO { if (listSize == 0) break; int entryRand = rand_r(&randstate) % listSize; int i, oid, err, offset; struct EMEntries *tmp; LBID_t lbid; for (i = 0, tmp = head; i < entryRand; i++) tmp = tmp->next; offset = rand_r(&randstate) % tmp->size; oid = tmp->OID; err = brm_si.lookup(oid, offset + tmp->FBO, lbid); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); #ifdef BRM_VERBOSE cerr << "looked up OID " << oid << " fbo " << offset + tmp->FBO << " got lbid " << lbid << endl; cerr << " lbid should be " << tmp->LBIDstart + offset << endl; #endif CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(lbid == static_cast<LBID_t>(tmp->LBIDstart + offset)); em.checkConsistency(); break; } case 5: //getHWM { if (listSize == 0) break; int entryRand = rand_r(&randstate) % listSize; int i, err; struct EMEntries *tmp; u_int32_t hwm; for (i = 0, tmp = head; i < entryRand; i++) tmp = tmp->next; err = brm_si.getHWM(tmp->OID, hwm); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); CPPUNIT_ASSERT(err == 0); #ifdef BRM_VERBOSE cerr << "stored HWM for OID " << tmp->OID << " is " << tmp->HWM << " BRM says it's " << hwm << endl; #endif CPPUNIT_ASSERT(hwm == tmp->HWM); em.checkConsistency(); break; } case 6: //setHWM { if (listSize == 0) break; int entryRand = rand_r(&randstate) % listSize; int i, hwm, oid, err; struct EMEntries *tmp; for (i = 0, tmp = head; i < entryRand; i++) tmp = tmp->next; oid = tmp->OID; hwm = rand_r(&randstate) % (tmp->FBO + brm_si.getExtentSize()); err = brm_si.setHWM(oid, hwm); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); CPPUNIT_ASSERT(err == 0); for (tmp = head; tmp != NULL; tmp = tmp->next) if (tmp->OID == oid) tmp->HWM = hwm; #ifdef BRM_VERBOSE cerr << "setHWM of OID " << oid << " to " << hwm << endl; #endif em.checkConsistency(); break; } case 7: //getBulkInsertVars { if (listSize == 0) break; HWM_t hwm; VER_t txnID; int entryRand = rand_r(&randstate) % listSize; int i, err, offset; EMEntries *tmp; LBID_t lbid; for (i = 0, tmp = head; i < entryRand; i++) tmp = tmp->next; offset = rand_r(&randstate) % tmp->size; lbid = tmp->LBIDstart + offset; err = brm_si.getBulkInsertVars(lbid, hwm, txnID); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); CPPUNIT_ASSERT(err == 0); CPPUNIT_ASSERT(hwm == tmp->secondHWM); CPPUNIT_ASSERT(txnID == tmp->txnID); break; } case 8: //setBulkInsertVars { if (listSize == 0) break; int entryRand = rand_r(&randstate) % listSize; int i, err, offset; EMEntries *tmp; for (i = 0, tmp = head; i < entryRand; i++) tmp = tmp->next; offset = rand_r(&randstate) % tmp->size; tmp->secondHWM = rand_r(&randstate) % MAXINT; tmp->txnID = rand_r(&randstate) % MAXINT; err = brm_si.setBulkInsertVars(tmp->LBIDstart + offset, tmp->secondHWM, tmp->txnID); pthread_mutex_lock(&mutex); opCount++; pthread_mutex_unlock(&mutex); CPPUNIT_ASSERT(err == 0); break; } default: break; } } while (head != NULL) { tmp = head->next; delete head; head = tmp; } #ifdef BRM_VERBOSE cerr << "thread " << threadNum << " exiting" << endl; #endif return NULL; }