void brm_HWM() { DBRM brm; int err; HWM_t hwm; vector<EMEntry> extents; cerr << "brm_HWM" << endl; err = brm.getExtents(1, extents); #ifdef BRM_DEBUG if (err == 0) cerr << "Make sure OID 1 isn't allocated in the extent map" << endl; #endif CPPUNIT_ASSERT(extents.size() == 0); err = brm.setHWM(1, 10); CPPUNIT_ASSERT(err != 0); err = brm.getHWM(1, hwm); 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); }
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; }