Exemplo n.º 1
0
 def _clean_all(self):
     """
     Cleans all disks and machines
     """
     machine = TestMachine()
     prefix = '{0}_{1}_'.format(DataObject.NAMESPACE, machine._classname)
     keys = self.persistent.prefix(prefix)
     for key in keys:
         try:
             guid = key.replace(prefix, '')
             machine = TestMachine(guid)
             for disk in machine.disks:
                 disk.delete()
             machine.delete()
         except (ObjectNotFoundException, ValueError):
             pass
     for key in self.persistent.prefix('ovs_reverseindex_{0}'.format(machine._classname)):
         self.persistent.delete(key)
     disk = TestDisk()
     prefix = '{0}_{1}_'.format(DataObject.NAMESPACE, disk._classname)
     keys = self.persistent.prefix(prefix)
     for key in keys:
         try:
             guid = key.replace(prefix, '')
             disk = TestDisk(guid)
             disk.delete()
         except (ObjectNotFoundException, ValueError):
             pass
     for key in self.persistent.prefix('ovs_reverseindex_{0}'.format(disk._classname)):
         self.persistent.delete(key)
Exemplo n.º 2
0
 def _clean_all(self):
     """
     Cleans all disks and machines
     """
     machine = TestMachine()
     prefix = '{0}_{1}_'.format(DataObject.NAMESPACE, machine._classname)
     keys = self.persistent.prefix(prefix)
     for key in keys:
         try:
             guid = key.replace(prefix, '')
             machine = TestMachine(guid)
             for disk in machine.disks:
                 disk.delete()
             machine.delete()
         except (ObjectNotFoundException, ValueError):
             pass
     for prefix in ['ovs_reverseindex_{0}', 'ovs_unique_{0}', 'ovs_index_{0}']:
         for key in self.persistent.prefix(prefix.format(machine._classname)):
             self.persistent.delete(key)
     disk = TestDisk()
     prefix = '{0}_{1}_'.format(DataObject.NAMESPACE, disk._classname)
     keys = self.persistent.prefix(prefix)
     for key in keys:
         try:
             guid = key.replace(prefix, '')
             disk = TestDisk(guid)
             disk.delete()
         except (ObjectNotFoundException, ValueError):
             pass
     for prefix in ['ovs_reverseindex_{0}', 'ovs_unique_{0}', 'ovs_index_{0}']:
         for key in self.persistent.prefix(prefix.format(disk._classname)):
             self.persistent.delete(key)
Exemplo n.º 3
0
 def _clean_all(self):
     """
     Cleans all disks and machines
     """
     machine = TestMachine()
     keys = DataList.get_pks(machine._namespace, machine._classname)
     for guid in keys:
         try:
             machine = TestMachine(guid)
             for disk in machine.disks:
                 disk.delete()
             machine.delete()
         except (ObjectNotFoundException, ValueError):
             pass
     disk = TestDisk()
     keys = DataList.get_pks(disk._namespace, disk._classname)
     for guid in keys:
         try:
             disk = TestDisk(guid)
             disk.delete()
         except (ObjectNotFoundException, ValueError):
             pass
Exemplo n.º 4
0
 def _clean_all(self):
     """
     Cleans all disks and machines
     """
     machine = TestMachine()
     keys = DataList.get_pks(machine._namespace, machine._classname)
     for guid in keys:
         try:
             machine = TestMachine(guid)
             for disk in machine.disks:
                 disk.delete()
             machine.delete()
         except (ObjectNotFoundException, ValueError):
             pass
     disk = TestDisk()
     keys = DataList.get_pks(disk._namespace, disk._classname)
     for guid in keys:
         try:
             disk = TestDisk(guid)
             disk.delete()
         except (ObjectNotFoundException, ValueError):
             pass
Exemplo n.º 5
0
 def test_delete_abandoning(self):
     """
     Validates the abandoning behavior of the delete method
     """
     machine = TestMachine()
     machine.name = 'machine'
     machine.save()
     disk_1 = TestDisk()
     disk_1.name = 'disk 1'
     disk_1.machine = machine
     disk_1.save()
     disk_2 = TestDisk()
     disk_2.name = 'disk 2'
     disk_2.machine = machine
     disk_2.save()
     self.assertRaises(LinkedObjectException, machine.delete)
     disk_3 = TestDisk(disk_1.guid)
     self.assertIsNotNone(disk_3.machine, 'The machine should still be linked')
     _ = machine.disks  # Make sure we loaded the list
     disk_2.delete()
     machine.delete(abandon=True)  # Should not raise due to disk_2 being deleted
     disk_4 = TestDisk(disk_1.guid)
     self.assertIsNone(disk_4.machine, 'The machine should be unlinked')
Exemplo n.º 6
0
    def test_lotsofobjects(self):
        """
        A test creating, linking and querying a lot of objects
        """
        print ''
        print 'cleaning up'
        self._clean_all()
        print 'start test'
        tstart = time.time()
        if getattr(LotsOfObjects, 'amount_of_machines', None) is None:
            LotsOfObjects.amount_of_machines = 50
        if getattr(LotsOfObjects, 'amount_of_disks', None) is None:
            LotsOfObjects.amount_of_disks = 5
        load_data = True
        mguids = []
        if load_data:
            print '\nstart loading data'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine()
                machine.name = 'machine_{0}'.format(i)
                machine.save()
                mguids.append(machine.guid)
                for ii in xrange(0, int(LotsOfObjects.amount_of_disks)):
                    disk = TestDisk()
                    disk.name = 'disk_{0}_{1}'.format(i, ii)
                    disk.size = ii * 100
                    disk.machine = machine
                    disk.save()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\nloading done ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))

        test_queries = True
        if test_queries:
            print '\nstart queries'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                assert len(machine.disks) == LotsOfObjects.amount_of_disks, 'Not all disks were retrieved ({0})'.format(len(machine.disks))
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))

            print '\nstart full query on disk property'
            start = time.time()
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': [('size', DataList.operator.GT, 100),
                                                  ('size', DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100)]})
            amount = len(dlist)
            assert amount == (LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(amount, int((LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nloading disks (all)'
            start = time.time()
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                machine = TestMachine(mguids[i])
                _ = [_ for _ in machine.disks]
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nstart full query on disk property (using cached objects)'
            dlist._volatile.delete(dlist._key)
            start = time.time()
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': [('size', DataList.operator.GT, 100),
                                                  ('size', DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100)]})
            amount = len(dlist)
            assert amount == (LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(amount, int((LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nstart property sort'
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': []})
            start = time.time()
            dlist.sort(key=lambda a: Toolbox.extract_key(a, 'size'))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nstart dynamic sort'
            dlist._volatile.delete(dlist._key)
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': []})
            start = time.time()
            dlist.sort(key=lambda a: Toolbox.extract_key(a, 'predictable'))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

        clean_data = True
        if clean_data:
            print '\ncleaning up'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                for disk in machine.disks:
                    disk.delete()
                machine.delete()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))
Exemplo n.º 7
0
    def test_lotsofobjects(self):
        """
        A test creating, linking and querying a lot of objects
        """
        print ''
        print 'cleaning up'
        self._clean_all()

        print 'preparing'
        if getattr(LotsOfObjects, 'amount_of_machines', None) is None:
            LotsOfObjects.amount_of_machines = 50
        else:
            LotsOfObjects.amount_of_machines = int(LotsOfObjects.amount_of_machines)
        if getattr(LotsOfObjects, 'amount_of_disks', None) is None:
            LotsOfObjects.amount_of_disks = 5
        else:
            LotsOfObjects.amount_of_disks = int(LotsOfObjects.amount_of_disks)
        if getattr(LotsOfObjects, 'repetition_scan', None) is None:
            LotsOfObjects.repetition_scan = 32
        else:
            LotsOfObjects.repetition_scan = int(LotsOfObjects.repetition_scan)
        total_amount_of_disks = LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks
        mguids = []
        uuids = [str(uuid.uuid4()) for _ in xrange(total_amount_of_disks)]
        counter = 0
        repetition = []
        for i in xrange(LotsOfObjects.repetition_scan):
            repetition.append([])
        dguids = []

        print 'start test'
        tstart = time.time()

        print '\nstart loading data'
        start = time.time()
        runtimes = []
        for i in xrange(LotsOfObjects.amount_of_machines):
            mstart = time.time()
            machine = TestMachine()
            machine.name = 'machine_{0}'.format(i)
            machine.save()
            mguids.append(machine.guid)
            for ii in xrange(LotsOfObjects.amount_of_disks):
                current_uuid = uuids[counter]
                disk = TestDisk()
                disk.name = 'disk_{0}_{1}'.format(i, ii)
                disk.description = 'disk_{0}'.format(i)
                disk.size = ii * 100
                disk.machine = machine
                disk.something = current_uuid
                disk.save()
                dguids.append(disk.guid)
                random.choice(repetition).append(current_uuid)
                counter += 1
            avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
            itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
            runtimes.append(itemspersec)
            LotsOfObjects._print_progress('* machine {0}/{1} (run: {2:.2f} dps, avg: {3:.2f} dps)'.format(i + 1, LotsOfObjects.amount_of_machines, itemspersec, avgitemspersec))
        runtimes.sort()
        print '\nloading done ({0:.2f}s). min: {1:.2f} dps, max: {2:.2f} dps'.format(time.time() - tstart, runtimes[1], runtimes[-2])

        test_queries = True
        if test_queries:
            print '\nstart queries'
            start = time.time()
            runtimes = []
            for i in xrange(LotsOfObjects.amount_of_machines):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                assert len(machine.disks) == LotsOfObjects.amount_of_disks, 'Not all disks were retrieved ({0})'.format(len(machine.disks))
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress('* machine {0}/{1} (run: {2:.2f} dps, avg: {3:.2f} dps)'.format(i + 1, LotsOfObjects.amount_of_machines, itemspersec, avgitemspersec))
            runtimes.sort()
            print '\ncompleted ({0:.2f}s). min: {1:.2f} dps, max: {2:.2f} dps'.format(time.time() - tstart, runtimes[1], runtimes[-2])

            print '\nstart full query on disk property'
            start = time.time()
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': [('size', DataList.operator.GT, 100),
                                                  ('size', DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100)]})
            amount = len(dlist)
            assert amount == (max(0, LotsOfObjects.amount_of_disks - 3)) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(amount, int((max(0, LotsOfObjects.amount_of_disks - 3)) * LotsOfObjects.amount_of_machines))
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

            print '\nloading disks (all)'
            start = time.time()
            for i in xrange(LotsOfObjects.amount_of_machines):
                machine = TestMachine(mguids[i])
                _ = [_ for _ in machine.disks]
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

            print '\nstart full query on disk property (using cached objects)'
            dlist._volatile.delete(dlist._key)
            start = time.time()
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': [('size', DataList.operator.GT, 100),
                                                  ('size', DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100)]})
            amount = len(dlist)
            assert amount == (max(0, LotsOfObjects.amount_of_disks - 3)) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(amount, int((max(0, LotsOfObjects.amount_of_disks - 3)) * LotsOfObjects.amount_of_machines))
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

            print '\nindexed single query'
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': [('something', DataList.operator.EQUALS, repetition[0][0])]})
            start = time.time()
            assert len(dlist) == 1, 'One disk should be found'
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.3f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

            print '\nstart property sort'
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': []})
            start = time.time()
            dlist.sort(key=lambda a: DalToolbox.extract_key(a, 'size'))
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

            print '\nstart dynamic sort'
            dlist._volatile.delete(dlist._key)
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': []})
            start = time.time()
            dlist.sort(key=lambda a: DalToolbox.extract_key(a, 'predictable'))
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

            print '\nrepetition scan'
            start = time.time()
            times = []
            for i in xrange(LotsOfObjects.repetition_scan):
                dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                            'items': [('something', DataList.operator.IN, repetition[i])]})
                run_start = time.time()
                assert len(repetition[i]) == len(dlist), 'Incorrect amount of found disks. Found {0} instead of {1}'.format(len(dlist), len(repetition[i]))
                times.append(time.time() - run_start)
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (run avg: {2:.3f}s, avg: {3:.2f} dps)'.format(time.time() - tstart, seconds_passed, sum(times) / float(LotsOfObjects.repetition_scan), LotsOfObjects.repetition_scan * total_amount_of_disks / seconds_passed)

            print '\nguid index query'
            start = time.time()
            guids = dguids[len(dguids)/2:]
            dlist = DataList(TestDisk, {'type': DataList.where_operator.AND,
                                        'items': [('guid', DataList.operator.IN, guids)]})
            assert len(dlist) == len(guids), 'Incorrect amount of found disks. Found {0} instead of {1}'.format(len(dlist), len(guids))
            seconds_passed = time.time() - start
            print 'completed ({0:.2f}s) in {1:.2f} seconds (avg: {2:.2f} dps)'.format(time.time() - tstart, seconds_passed, total_amount_of_disks / seconds_passed)

        clean_data = True
        if clean_data:
            print '\ncleaning up'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                for disk in machine.disks:
                    disk.delete()
                machine.delete()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress('* machine {0}/{1} (run: {2:.2f} dps, avg: {3:.2f} dps)'.format(i + 1, LotsOfObjects.amount_of_machines, itemspersec, avgitemspersec))
            runtimes.sort()
            print '\ncompleted ({0:.2f}s). min: {1:.2f} dps, max: {2:.2f} dps'.format(time.time() - tstart, runtimes[1], runtimes[-2])
Exemplo n.º 8
0
    def test_lotsofobjects(self):
        """
        A test creating, linking and querying a lot of objects
        """
        print ''
        print 'cleaning up'
        self._clean_all()
        print 'start test'
        tstart = time.time()
        if getattr(LotsOfObjects, 'amount_of_machines', None) is None:
            LotsOfObjects.amount_of_machines = 50
        if getattr(LotsOfObjects, 'amount_of_disks', None) is None:
            LotsOfObjects.amount_of_disks = 5
        load_data = True
        mguids = []
        if load_data:
            print '\nstart loading data'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine()
                machine.name = 'machine_{0}'.format(i)
                machine.save()
                mguids.append(machine.guid)
                for ii in xrange(0, int(LotsOfObjects.amount_of_disks)):
                    disk = TestDisk()
                    disk.name = 'disk_{0}_{1}'.format(i, ii)
                    disk.size = ii * 100
                    disk.machine = machine
                    disk.save()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (
                    time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() -
                                                               mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress(
                    '* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(
                        i + 1, int(LotsOfObjects.amount_of_machines),
                        round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\nloading done ({0}s). min: {1} dps, max: {2} dps'.format(
                round(time.time() - tstart, 2), round(runtimes[1], 2),
                round(runtimes[-2], 2))

        test_queries = True
        if test_queries:
            print '\nstart queries'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                assert len(
                    machine.disks
                ) == LotsOfObjects.amount_of_disks, 'Not all disks were retrieved ({0})'.format(
                    len(machine.disks))
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (
                    time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() -
                                                               mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress(
                    '* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(
                        i + 1, int(LotsOfObjects.amount_of_machines),
                        round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(
                round(time.time() - tstart, 2), round(runtimes[1], 2),
                round(runtimes[-2], 2))

            print '\nstart full query on disk property'
            start = time.time()
            dlist = DataList(
                TestDisk, {
                    'type':
                    DataList.where_operator.AND,
                    'items': [('size', DataList.operator.GT, 100),
                              ('size', DataList.operator.LT,
                               (LotsOfObjects.amount_of_disks - 1) * 100)]
                })
            amount = len(dlist)
            assert amount == (
                LotsOfObjects.amount_of_disks - 3
            ) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(
                amount,
                int((LotsOfObjects.amount_of_disks - 3) *
                    LotsOfObjects.amount_of_machines))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(
                round(time.time() - tstart, 2), round(seconds_passed, 2),
                round(
                    LotsOfObjects.amount_of_machines *
                    LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nloading disks (all)'
            start = time.time()
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                machine = TestMachine(mguids[i])
                _ = [_ for _ in machine.disks]
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(
                round(time.time() - tstart, 2), round(seconds_passed, 2),
                round(
                    LotsOfObjects.amount_of_machines *
                    LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nstart full query on disk property (using cached objects)'
            dlist._volatile.delete(dlist._key)
            start = time.time()
            dlist = DataList(
                TestDisk, {
                    'type':
                    DataList.where_operator.AND,
                    'items': [('size', DataList.operator.GT, 100),
                              ('size', DataList.operator.LT,
                               (LotsOfObjects.amount_of_disks - 1) * 100)]
                })
            amount = len(dlist)
            assert amount == (
                LotsOfObjects.amount_of_disks - 3
            ) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(
                amount,
                int((LotsOfObjects.amount_of_disks - 3) *
                    LotsOfObjects.amount_of_machines))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(
                round(time.time() - tstart, 2), round(seconds_passed, 2),
                round(
                    LotsOfObjects.amount_of_machines *
                    LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nstart property sort'
            dlist = DataList(TestDisk, {
                'type': DataList.where_operator.AND,
                'items': []
            })
            start = time.time()
            dlist.sort(key=lambda a: Toolbox.extract_key(a, 'size'))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(
                round(time.time() - tstart, 2), round(seconds_passed, 2),
                round(
                    LotsOfObjects.amount_of_machines *
                    LotsOfObjects.amount_of_disks / seconds_passed, 2))

            print '\nstart dynamic sort'
            dlist._volatile.delete(dlist._key)
            dlist = DataList(TestDisk, {
                'type': DataList.where_operator.AND,
                'items': []
            })
            start = time.time()
            dlist.sort(key=lambda a: Toolbox.extract_key(a, 'predictable'))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(
                round(time.time() - tstart, 2), round(seconds_passed, 2),
                round(
                    LotsOfObjects.amount_of_machines *
                    LotsOfObjects.amount_of_disks / seconds_passed, 2))

        clean_data = True
        if clean_data:
            print '\ncleaning up'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                for disk in machine.disks:
                    disk.delete()
                machine.delete()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (
                    time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() -
                                                               mstart)
                runtimes.append(itemspersec)
                LotsOfObjects._print_progress(
                    '* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(
                        i + 1, int(LotsOfObjects.amount_of_machines),
                        round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(
                round(time.time() - tstart, 2), round(runtimes[1], 2),
                round(runtimes[-2], 2))
Exemplo n.º 9
0
    def test_lotsofobjects(self):
        """
        A test creating, linking and querying a lot of objects
        """
        print ''
        print 'cleaning up'
        self._clean_all()
        print 'start test'
        tstart = time.time()
        if getattr(LotsOfObjects, 'amount_of_machines', None) is None:
            LotsOfObjects.amount_of_machines = 50
        if getattr(LotsOfObjects, 'amount_of_disks', None) is None:
            LotsOfObjects.amount_of_disks = 5
        load_data = True
        if load_data:
            print 'start loading data'
            start = time.time()
            mguids = []
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine()
                machine.name = 'machine_{0}'.format(i)
                machine.save()
                mguids.append(machine.guid)
                for ii in xrange(0, int(LotsOfObjects.amount_of_disks)):
                    disk = TestDisk()
                    disk.name = 'disk_{0}_{1}'.format(i, ii)
                    disk.size = ii * 100
                    disk.machine = machine
                    disk.save()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\nloading done ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))

        test_queries = True
        if test_queries:
            print 'start queries'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                self.assertEqual(len(machine.disks), LotsOfObjects.amount_of_disks, 'Not all disks were retreived ({0})'.format(len(machine.disks)))
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))

            print 'start full query on disk property'
            start = time.time()
            amount = DataList({'object': TestDisk,
                               'data': DataList.select.COUNT,
                               'query': {'type': DataList.where_operator.AND,
                                         'items': [('size', DataList.operator.GT, 100),
                                                   ('size', DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100)]}}).data
            self.assertEqual(amount, (LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(amount, int((LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines)))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

        clean_data = True
        if clean_data:
            print 'cleaning up'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                for disk in machine.disks:
                    disk.delete()
                machine.delete()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))
Exemplo n.º 10
0
    def test_lotsofobjects(self):
        """
        A test creating, linking and querying a lot of objects
        """
        print ''
        print 'cleaning up'
        self._clean_all()
        print 'start test'
        tstart = time.time()
        if getattr(LotsOfObjects, 'amount_of_machines', None) is None:
            LotsOfObjects.amount_of_machines = 50
        if getattr(LotsOfObjects, 'amount_of_disks', None) is None:
            LotsOfObjects.amount_of_disks = 5
        load_data = True
        if load_data:
            print 'start loading data'
            start = time.time()
            mguids = []
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine()
                machine.name = 'machine_{0}'.format(i)
                machine.save()
                mguids.append(machine.guid)
                for ii in xrange(0, int(LotsOfObjects.amount_of_disks)):
                    disk = TestDisk()
                    disk.name = 'disk_{0}_{1}'.format(i, ii)
                    disk.size = ii * 100
                    disk.machine = machine
                    disk.save()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\nloading done ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))

        test_queries = True
        if test_queries:
            print 'start queries'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                self.assertEqual(len(machine.disks), LotsOfObjects.amount_of_disks, 'Not all disks were retreived ({0})'.format(len(machine.disks)))
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))

            print 'start full query on disk property'
            start = time.time()
            amount = DataList({'object': TestDisk,
                               'data': DataList.select.COUNT,
                               'query': {'type': DataList.where_operator.AND,
                                         'items': [('size', DataList.operator.GT, 100),
                                                   ('size', DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100)]}}).data
            self.assertEqual(amount, (LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines, 'Incorrect amount of disks. Found {0} instead of {1}'.format(amount, int((LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines)))
            seconds_passed = (time.time() - start)
            print 'completed ({0}s) in {1} seconds (avg: {2} dps)'.format(round(time.time() - tstart, 2), round(seconds_passed, 2), round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2))

        clean_data = True
        if clean_data:
            print 'cleaning up'
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                for disk in machine.disks:
                    disk.delete()
                machine.delete()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress('* machine {0}/{1} (run: {2} dps, avg: {3} dps)'.format(i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)))
            runtimes.sort()
            print '\ncompleted ({0}s). min: {1} dps, max: {2} dps'.format(round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2))
Exemplo n.º 11
0
    def test_lotsofobjects(self):
        """
        A test creating, linking and querying a lot of objects
        """
        print ""
        print "cleaning up"
        self._clean_all()
        print "start test"
        tstart = time.time()
        if getattr(LotsOfObjects, "amount_of_machines", None) is None:
            LotsOfObjects.amount_of_machines = 50
        if getattr(LotsOfObjects, "amount_of_disks", None) is None:
            LotsOfObjects.amount_of_disks = 5
        load_data = True
        if load_data:
            print "start loading data"
            start = time.time()
            mguids = []
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine()
                machine.name = "machine_{0}".format(i)
                machine.save()
                mguids.append(machine.guid)
                for ii in xrange(0, int(LotsOfObjects.amount_of_disks)):
                    disk = TestDisk()
                    disk.name = "disk_{0}_{1}".format(i, ii)
                    disk.size = ii * 100
                    disk.machine = machine
                    disk.save()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress(
                    "* machine {0}/{1} (run: {2} dps, avg: {3} dps)".format(
                        i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)
                    )
                )
            runtimes.sort()
            print "\nloading done ({0}s). min: {1} dps, max: {2} dps".format(
                round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2)
            )

        test_queries = True
        if test_queries:
            print "start queries"
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                self.assertEqual(
                    len(machine.disks),
                    LotsOfObjects.amount_of_disks,
                    "Not all disks were retreived ({0})".format(len(machine.disks)),
                )
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress(
                    "* machine {0}/{1} (run: {2} dps, avg: {3} dps)".format(
                        i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)
                    )
                )
            runtimes.sort()
            print "\ncompleted ({0}s). min: {1} dps, max: {2} dps".format(
                round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2)
            )

            print "start full query on disk property"
            start = time.time()
            amount = DataList(
                {
                    "object": TestDisk,
                    "data": DataList.select.COUNT,
                    "query": {
                        "type": DataList.where_operator.AND,
                        "items": [
                            ("size", DataList.operator.GT, 100),
                            ("size", DataList.operator.LT, (LotsOfObjects.amount_of_disks - 1) * 100),
                        ],
                    },
                }
            ).data
            self.assertEqual(
                amount,
                (LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines,
                "Incorrect amount of disks. Found {0} instead of {1}".format(
                    amount, int((LotsOfObjects.amount_of_disks - 3) * LotsOfObjects.amount_of_machines)
                ),
            )
            seconds_passed = time.time() - start
            print "completed ({0}s) in {1} seconds (avg: {2} dps)".format(
                round(time.time() - tstart, 2),
                round(seconds_passed, 2),
                round(LotsOfObjects.amount_of_machines * LotsOfObjects.amount_of_disks / seconds_passed, 2),
            )

        clean_data = True
        if clean_data:
            print "cleaning up"
            start = time.time()
            runtimes = []
            for i in xrange(0, int(LotsOfObjects.amount_of_machines)):
                mstart = time.time()
                machine = TestMachine(mguids[i])
                for disk in machine.disks:
                    disk.delete()
                machine.delete()
                avgitemspersec = ((i + 1) * LotsOfObjects.amount_of_disks) / (time.time() - start)
                itemspersec = LotsOfObjects.amount_of_disks / (time.time() - mstart)
                runtimes.append(itemspersec)
                self._print_progress(
                    "* machine {0}/{1} (run: {2} dps, avg: {3} dps)".format(
                        i + 1, int(LotsOfObjects.amount_of_machines), round(itemspersec, 2), round(avgitemspersec, 2)
                    )
                )
            runtimes.sort()
            print "\ncompleted ({0}s). min: {1} dps, max: {2} dps".format(
                round(time.time() - tstart, 2), round(runtimes[1], 2), round(runtimes[-2], 2)
            )