Esempio n. 1
0
    def test_happypath(self):
        """
        Validates the happy path; Hourly snapshots are taken with a few manual consistent
        every now an then. The delete policy is executed every day
        """
        # Setup
        # There are 2 machines; one with two disks, one with one disk and a stand-alone additional disk
        failure_domain = FailureDomain()
        failure_domain.name = 'Test'
        failure_domain.save()
        backend_type = BackendType()
        backend_type.name = 'BackendType'
        backend_type.code = 'BT'
        backend_type.save()
        vpool = VPool()
        vpool.name = 'vpool'
        vpool.status = 'RUNNING'
        vpool.backend_type = backend_type
        vpool.save()
        pmachine = PMachine()
        pmachine.name = 'PMachine'
        pmachine.username = '******'
        pmachine.ip = '127.0.0.1'
        pmachine.hvtype = 'VMWARE'
        pmachine.save()
        storage_router = StorageRouter()
        storage_router.name = 'storage_router'
        storage_router.ip = '127.0.0.1'
        storage_router.pmachine = pmachine
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.primary_failure_domain = failure_domain
        storage_router.save()
        disk = Disk()
        disk.name = 'physical_disk_1'
        disk.path = '/dev/non-existent'
        disk.size = 500 * 1024**3
        disk.state = 'OK'
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.id = 'disk_partition_id'
        disk_partition.disk = disk
        disk_partition.path = '/dev/disk/non-existent'
        disk_partition.size = 400 * 1024**3
        disk_partition.state = 'OK'
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = '/var/tmp'
        disk_partition.save()
        vmachine_1 = VMachine()
        vmachine_1.name = 'vmachine_1'
        vmachine_1.devicename = 'dummy'
        vmachine_1.pmachine = pmachine
        vmachine_1.save()
        vdisk_1_1 = VDisk()
        vdisk_1_1.name = 'vdisk_1_1'
        vdisk_1_1.volume_id = 'vdisk_1_1'
        vdisk_1_1.vmachine = vmachine_1
        vdisk_1_1.vpool = vpool
        vdisk_1_1.devicename = 'dummy'
        vdisk_1_1.size = 0
        vdisk_1_1.save()
        vdisk_1_1.reload_client()
        vdisk_1_2 = VDisk()
        vdisk_1_2.name = 'vdisk_1_2'
        vdisk_1_2.volume_id = 'vdisk_1_2'
        vdisk_1_2.vmachine = vmachine_1
        vdisk_1_2.vpool = vpool
        vdisk_1_2.devicename = 'dummy'
        vdisk_1_2.size = 0
        vdisk_1_2.save()
        vdisk_1_2.reload_client()
        vmachine_2 = VMachine()
        vmachine_2.name = 'vmachine_2'
        vmachine_2.devicename = 'dummy'
        vmachine_2.pmachine = pmachine
        vmachine_2.save()
        vdisk_2_1 = VDisk()
        vdisk_2_1.name = 'vdisk_2_1'
        vdisk_2_1.volume_id = 'vdisk_2_1'
        vdisk_2_1.vmachine = vmachine_2
        vdisk_2_1.vpool = vpool
        vdisk_2_1.devicename = 'dummy'
        vdisk_2_1.size = 0
        vdisk_2_1.save()
        vdisk_2_1.reload_client()
        vdisk_3 = VDisk()
        vdisk_3.name = 'vdisk_3'
        vdisk_3.volume_id = 'vdisk_3'
        vdisk_3.vpool = vpool
        vdisk_3.devicename = 'dummy'
        vdisk_3.size = 0
        vdisk_3.save()
        vdisk_3.reload_client()

        for disk in [vdisk_1_1, vdisk_1_2, vdisk_2_1, vdisk_3]:
            [
                dynamic for dynamic in disk._dynamics
                if dynamic.name == 'snapshots'
            ][0].timeout = 0

        # Run the testing scenario
        travis = 'TRAVIS' in os.environ and os.environ['TRAVIS'] == 'true'
        if travis is True:
            print 'Running in Travis, reducing output.'
        debug = not travis
        amount_of_days = 50
        base = datetime.datetime.now().date()
        day = datetime.timedelta(1)
        minute = 60
        hour = minute * 60

        for d in xrange(0, amount_of_days):
            base_timestamp = self._make_timestamp(base, day * d)
            print ''
            print 'Day cycle: {0}: {1}'.format(
                d,
                datetime.datetime.fromtimestamp(base_timestamp).strftime(
                    '%Y-%m-%d'))

            # At the start of the day, delete snapshot policy runs at 00:30
            print '- Deleting snapshots'
            ScheduledTaskController.delete_snapshots(timestamp=base_timestamp +
                                                     (minute * 30))

            # Validate snapshots
            print '- Validating snapshots'
            for vdisk in [vdisk_1_1, vdisk_1_2, vdisk_2_1, vdisk_3]:
                self._validate(vdisk, d, base, amount_of_days, debug)

            # During the day, snapshots are taken
            # - Create non consistent snapshot every hour, between 2:00 and 22:00
            # - Create consistent snapshot at 6:30, 12:30, 18:30
            print '- Creating snapshots'
            for h in xrange(2, 23):
                timestamp = base_timestamp + (hour * h)
                for vm in [vmachine_1, vmachine_2]:
                    VMachineController.snapshot(machineguid=vm.guid,
                                                label='ss_i_{0}:00'.format(
                                                    str(h)),
                                                is_consistent=False,
                                                timestamp=timestamp)
                    if h in [6, 12, 18]:
                        ts = (timestamp + (minute * 30))
                        VMachineController.snapshot(machineguid=vm.guid,
                                                    label='ss_c_{0}:30'.format(
                                                        str(h)),
                                                    is_consistent=True,
                                                    timestamp=ts)

                VDiskController.create_snapshot(diskguid=vdisk_3.guid,
                                                metadata={
                                                    'label':
                                                    'ss_i_{0}:00'.format(
                                                        str(h)),
                                                    'is_consistent':
                                                    False,
                                                    'timestamp':
                                                    str(timestamp),
                                                    'machineguid':
                                                    None
                                                })
                if h in [6, 12, 18]:
                    ts = (timestamp + (minute * 30))
                    VDiskController.create_snapshot(diskguid=vdisk_3.guid,
                                                    metadata={
                                                        'label':
                                                        'ss_c_{0}:30'.format(
                                                            str(h)),
                                                        'is_consistent':
                                                        True,
                                                        'timestamp':
                                                        str(ts),
                                                        'machineguid':
                                                        None
                                                    })
    def test_happypath(self):
        """
        Validates the happy path; Hourly snapshots are taken with a few manual consistent
        every now an then. The delete policy is executed every day
        """
        # Setup
        # There are 2 machines; one with two disks, one with one disk and a stand-alone additional disk
        failure_domain = FailureDomain()
        failure_domain.name = 'Test'
        failure_domain.save()
        backend_type = BackendType()
        backend_type.name = 'BackendType'
        backend_type.code = 'BT'
        backend_type.save()
        vpool = VPool()
        vpool.name = 'vpool'
        vpool.status = 'RUNNING'
        vpool.backend_type = backend_type
        vpool.save()
        pmachine = PMachine()
        pmachine.name = 'PMachine'
        pmachine.username = '******'
        pmachine.ip = '127.0.0.1'
        pmachine.hvtype = 'VMWARE'
        pmachine.save()
        storage_router = StorageRouter()
        storage_router.name = 'storage_router'
        storage_router.ip = '127.0.0.1'
        storage_router.pmachine = pmachine
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.primary_failure_domain = failure_domain
        storage_router.save()
        disk = Disk()
        disk.name = 'physical_disk_1'
        disk.path = '/dev/non-existent'
        disk.size = 500 * 1024 ** 3
        disk.state = 'OK'
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.id = 'disk_partition_id'
        disk_partition.disk = disk
        disk_partition.path = '/dev/disk/non-existent'
        disk_partition.size = 400 * 1024 ** 3
        disk_partition.state = 'OK'
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = '/var/tmp'
        disk_partition.save()
        vmachine_1 = VMachine()
        vmachine_1.name = 'vmachine_1'
        vmachine_1.devicename = 'dummy'
        vmachine_1.pmachine = pmachine
        vmachine_1.save()
        vdisk_1_1 = VDisk()
        vdisk_1_1.name = 'vdisk_1_1'
        vdisk_1_1.volume_id = 'vdisk_1_1'
        vdisk_1_1.vmachine = vmachine_1
        vdisk_1_1.vpool = vpool
        vdisk_1_1.devicename = 'dummy'
        vdisk_1_1.size = 0
        vdisk_1_1.save()
        vdisk_1_1.reload_client()
        vdisk_1_2 = VDisk()
        vdisk_1_2.name = 'vdisk_1_2'
        vdisk_1_2.volume_id = 'vdisk_1_2'
        vdisk_1_2.vmachine = vmachine_1
        vdisk_1_2.vpool = vpool
        vdisk_1_2.devicename = 'dummy'
        vdisk_1_2.size = 0
        vdisk_1_2.save()
        vdisk_1_2.reload_client()
        vmachine_2 = VMachine()
        vmachine_2.name = 'vmachine_2'
        vmachine_2.devicename = 'dummy'
        vmachine_2.pmachine = pmachine
        vmachine_2.save()
        vdisk_2_1 = VDisk()
        vdisk_2_1.name = 'vdisk_2_1'
        vdisk_2_1.volume_id = 'vdisk_2_1'
        vdisk_2_1.vmachine = vmachine_2
        vdisk_2_1.vpool = vpool
        vdisk_2_1.devicename = 'dummy'
        vdisk_2_1.size = 0
        vdisk_2_1.save()
        vdisk_2_1.reload_client()
        vdisk_3 = VDisk()
        vdisk_3.name = 'vdisk_3'
        vdisk_3.volume_id = 'vdisk_3'
        vdisk_3.vpool = vpool
        vdisk_3.devicename = 'dummy'
        vdisk_3.size = 0
        vdisk_3.save()
        vdisk_3.reload_client()

        for disk in [vdisk_1_1, vdisk_1_2, vdisk_2_1, vdisk_3]:
            [dynamic for dynamic in disk._dynamics if dynamic.name == 'snapshots'][0].timeout = 0

        # Run the testing scenario
        travis = 'TRAVIS' in os.environ and os.environ['TRAVIS'] == 'true'
        if travis is True:
            print 'Running in Travis, reducing output.'
        debug = not travis
        amount_of_days = 50
        base = datetime.datetime.now().date()
        day = datetime.timedelta(1)
        minute = 60
        hour = minute * 60

        for d in xrange(0, amount_of_days):
            base_timestamp = self._make_timestamp(base, day * d)
            print ''
            print 'Day cycle: {0}: {1}'.format(d, datetime.datetime.fromtimestamp(base_timestamp).strftime('%Y-%m-%d'))

            # At the start of the day, delete snapshot policy runs at 00:30
            print '- Deleting snapshots'
            ScheduledTaskController.delete_snapshots(timestamp=base_timestamp + (minute * 30))

            # Validate snapshots
            print '- Validating snapshots'
            for vdisk in [vdisk_1_1, vdisk_1_2, vdisk_2_1, vdisk_3]:
                self._validate(vdisk, d, base, amount_of_days, debug)

            # During the day, snapshots are taken
            # - Create non consistent snapshot every hour, between 2:00 and 22:00
            # - Create consistent snapshot at 6:30, 12:30, 18:30
            print '- Creating snapshots'
            for h in xrange(2, 23):
                timestamp = base_timestamp + (hour * h)
                for vm in [vmachine_1, vmachine_2]:
                    VMachineController.snapshot(machineguid=vm.guid,
                                                label='ss_i_{0}:00'.format(str(h)),
                                                is_consistent=False,
                                                timestamp=timestamp)
                    if h in [6, 12, 18]:
                        ts = (timestamp + (minute * 30))
                        VMachineController.snapshot(machineguid=vm.guid,
                                                    label='ss_c_{0}:30'.format(str(h)),
                                                    is_consistent=True,
                                                    timestamp=ts)

                VDiskController.create_snapshot(diskguid=vdisk_3.guid,
                                                metadata={'label': 'ss_i_{0}:00'.format(str(h)),
                                                          'is_consistent': False,
                                                          'timestamp': str(timestamp),
                                                          'machineguid': None})
                if h in [6, 12, 18]:
                    ts = (timestamp + (minute * 30))
                    VDiskController.create_snapshot(diskguid=vdisk_3.guid,
                                                    metadata={'label': 'ss_c_{0}:30'.format(str(h)),
                                                              'is_consistent': True,
                                                              'timestamp': str(ts),
                                                              'machineguid': None})
    def test_happypath(self):
        """
        Validates the happy path; Hourly snapshots are taken with a few manual consistent
        every now an then. The delete policy is executed every day
        """
        # Setup
        # There are 2 machines; one with two disks, one with one disk and an additional disk
        failure_domain = FailureDomain()
        failure_domain.name = "Test"
        failure_domain.save()
        backend_type = BackendType()
        backend_type.name = "BackendType"
        backend_type.code = "BT"
        backend_type.save()
        vpool = VPool()
        vpool.name = "vpool"
        vpool.backend_type = backend_type
        vpool.save()
        pmachine = PMachine()
        pmachine.name = "PMachine"
        pmachine.username = "******"
        pmachine.ip = "127.0.0.1"
        pmachine.hvtype = "VMWARE"
        pmachine.save()
        storage_router = StorageRouter()
        storage_router.name = "storage_router"
        storage_router.ip = "127.0.0.1"
        storage_router.pmachine = pmachine
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.primary_failure_domain = failure_domain
        storage_router.save()
        disk = Disk()
        disk.name = "physical_disk_1"
        disk.path = "/dev/non-existent"
        disk.size = 500 * 1024 ** 3
        disk.state = "OK"
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.id = "disk_partition_id"
        disk_partition.disk = disk
        disk_partition.path = "/dev/disk/non-existent"
        disk_partition.size = 400 * 1024 ** 3
        disk_partition.state = "OK"
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = "/var/tmp"
        disk_partition.save()
        vmachine_1 = VMachine()
        vmachine_1.name = "vmachine_1"
        vmachine_1.devicename = "dummy"
        vmachine_1.pmachine = pmachine
        vmachine_1.save()
        vdisk_1_1 = VDisk()
        vdisk_1_1.name = "vdisk_1_1"
        vdisk_1_1.volume_id = "vdisk_1_1"
        vdisk_1_1.vmachine = vmachine_1
        vdisk_1_1.vpool = vpool
        vdisk_1_1.devicename = "dummy"
        vdisk_1_1.size = 0
        vdisk_1_1.save()
        vdisk_1_1.reload_client()
        vdisk_1_2 = VDisk()
        vdisk_1_2.name = "vdisk_1_2"
        vdisk_1_2.volume_id = "vdisk_1_2"
        vdisk_1_2.vmachine = vmachine_1
        vdisk_1_2.vpool = vpool
        vdisk_1_2.devicename = "dummy"
        vdisk_1_2.size = 0
        vdisk_1_2.save()
        vdisk_1_2.reload_client()
        vmachine_2 = VMachine()
        vmachine_2.name = "vmachine_2"
        vmachine_2.devicename = "dummy"
        vmachine_2.pmachine = pmachine
        vmachine_2.save()
        vdisk_2_1 = VDisk()
        vdisk_2_1.name = "vdisk_2_1"
        vdisk_2_1.volume_id = "vdisk_2_1"
        vdisk_2_1.vmachine = vmachine_2
        vdisk_2_1.vpool = vpool
        vdisk_2_1.devicename = "dummy"
        vdisk_2_1.size = 0
        vdisk_2_1.save()
        vdisk_2_1.reload_client()
        vdisk_3 = VDisk()
        vdisk_3.name = "vdisk_3"
        vdisk_3.volume_id = "vdisk_3"
        vdisk_3.vpool = vpool
        vdisk_3.devicename = "dummy"
        vdisk_3.size = 0
        vdisk_3.save()
        vdisk_3.reload_client()

        for disk in [vdisk_1_1, vdisk_1_2, vdisk_2_1, vdisk_3]:
            [dynamic for dynamic in disk._dynamics if dynamic.name == "snapshots"][0].timeout = 0

        # Run the testing scenario
        debug = True
        amount_of_days = 50
        base = datetime.now().date()
        day = timedelta(1)
        minute = 60
        hour = minute * 60

        for d in xrange(0, amount_of_days):
            base_timestamp = DeleteSnapshots._make_timestamp(base, day * d)
            print ""
            print "Day cycle: {0}: {1}".format(d, datetime.fromtimestamp(base_timestamp).strftime("%Y-%m-%d"))

            # At the start of the day, delete snapshot policy runs at 00:30
            print "- Deleting snapshots"
            ScheduledTaskController.delete_snapshots(timestamp=base_timestamp + (minute * 30))

            # Validate snapshots
            print "- Validating snapshots"
            for vdisk in [vdisk_1_1, vdisk_1_2, vdisk_2_1, vdisk_3]:
                self._validate(vdisk, d, base, amount_of_days, debug)

            # During the day, snapshots are taken
            # - Create non consistent snapshot every hour, between 2:00 and 22:00
            # - Create consistent snapshot at 6:30, 12:30, 18:30
            print "- Creating snapshots"
            for h in xrange(2, 23):
                timestamp = base_timestamp + (hour * h)
                for vm in [vmachine_1, vmachine_2]:
                    VMachineController.snapshot(
                        machineguid=vm.guid,
                        label="ss_i_{0}:00".format(str(h)),
                        is_consistent=False,
                        timestamp=timestamp,
                    )
                    if h in [6, 12, 18]:
                        ts = timestamp + (minute * 30)
                        VMachineController.snapshot(
                            machineguid=vm.guid, label="ss_c_{0}:30".format(str(h)), is_consistent=True, timestamp=ts
                        )

                VDiskController.create_snapshot(
                    diskguid=vdisk_3.guid,
                    metadata={
                        "label": "ss_i_{0}:00".format(str(h)),
                        "is_consistent": False,
                        "timestamp": str(timestamp),
                        "machineguid": None,
                    },
                )
                if h in [6, 12, 18]:
                    ts = timestamp + (minute * 30)
                    VDiskController.create_snapshot(
                        diskguid=vdisk_3.guid,
                        metadata={
                            "label": "ss_c_{0}:30".format(str(h)),
                            "is_consistent": True,
                            "timestamp": str(ts),
                            "machineguid": None,
                        },
                    )
    def test_clone_snapshot(self):
        """
        Validates that a snapshot that has clones will not be deleted while other snapshots will be deleted
        """
        # Setup
        # There are 2 disks, second one cloned from a snapshot of the first
        vpool = VPool()
        vpool.name = 'vpool'
        vpool.status = 'RUNNING'
        vpool.save()
        storage_router = StorageRouter()
        storage_router.name = 'storage_router'
        storage_router.ip = '127.0.0.1'
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.save()
        disk = Disk()
        disk.name = 'physical_disk_1'
        disk.aliases = ['/dev/non-existent']
        disk.size = 500 * 1024 ** 3
        disk.state = 'OK'
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.disk = disk
        disk_partition.aliases = ['/dev/disk/non-existent']
        disk_partition.size = 400 * 1024 ** 3
        disk_partition.state = 'OK'
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = '/var/tmp'
        disk_partition.save()
        storage_driver = StorageDriver()
        storage_driver.vpool = vpool
        storage_driver.storagerouter = storage_router
        storage_driver.name = 'storage_driver_1'
        storage_driver.mountpoint = '/'
        storage_driver.cluster_ip = storage_router.ip
        storage_driver.storage_ip = '127.0.0.1'
        storage_driver.storagedriver_id = 'storage_driver_1'
        storage_driver.ports = {'management': 1,
                                'xmlrpc': 2,
                                'dtl': 3,
                                'edge': 4}
        storage_driver.save()
        service_type = ServiceType()
        service_type.name = 'MetadataServer'
        service_type.save()
        service = Service()
        service.name = 'service_1'
        service.storagerouter = storage_driver.storagerouter
        service.ports = [1]
        service.type = service_type
        service.save()
        mds_service = MDSService()
        mds_service.service = service
        mds_service.number = 0
        mds_service.capacity = 10
        mds_service.vpool = storage_driver.vpool
        mds_service.save()
        vdisk_1_1 = VDisk()
        vdisk_1_1.name = 'vdisk_1_1'
        vdisk_1_1.volume_id = 'vdisk_1_1'
        vdisk_1_1.vpool = vpool
        vdisk_1_1.devicename = 'dummy'
        vdisk_1_1.size = 0
        vdisk_1_1.save()
        vdisk_1_1.reload_client('storagedriver')

        [dynamic for dynamic in vdisk_1_1._dynamics if dynamic.name == 'snapshots'][0].timeout = 0

        travis = 'TRAVIS' in os.environ and os.environ['TRAVIS'] == 'true'
        if travis is True:
            print 'Running in Travis, reducing output.'

        base = datetime.datetime.now().date()
        day = datetime.timedelta(1)
        base_timestamp = self._make_timestamp(base, day)
        minute = 60
        hour = minute * 60
        for h in [6, 12, 18]:
            timestamp = base_timestamp + (hour * h)
            VDiskController.create_snapshot(vdisk_guid=vdisk_1_1.guid,
                                            metadata={'label': 'snapshot_{0}:30'.format(str(h)),
                                                      'is_consistent': True,
                                                      'timestamp': str(timestamp),
                                                      'machineguid': None})

        base_snapshot_guid = vdisk_1_1.snapshots[0]['guid']  # Oldest
        clone_vdisk = VDisk()
        clone_vdisk.name = 'clone_vdisk'
        clone_vdisk.volume_id = 'clone_vdisk'
        clone_vdisk.vpool = vpool
        clone_vdisk.devicename = 'dummy'
        clone_vdisk.parentsnapshot = base_snapshot_guid
        clone_vdisk.size = 0
        clone_vdisk.save()
        clone_vdisk.reload_client('storagedriver')

        for h in [6, 12, 18]:
            timestamp = base_timestamp + (hour * h)
            VDiskController.create_snapshot(vdisk_guid=clone_vdisk.guid,
                                            metadata={'label': 'snapshot_{0}:30'.format(str(h)),
                                                      'is_consistent': True,
                                                      'timestamp': str(timestamp),
                                                      'machineguid': None})

        base_timestamp = self._make_timestamp(base, day * 2)
        ScheduledTaskController.delete_snapshots(timestamp=base_timestamp + (minute * 30))
        self.assertIn(base_snapshot_guid, [snap['guid'] for snap in vdisk_1_1.snapshots], 'Snapshot was deleted while there are still clones of it')
Esempio n. 5
0
    def build_dal_structure(structure, previous_structure=None):
        """
        Builds a model structure
        Example:
            structure = DalHelper.build_service_structure(
                {'vpools': [1],
                 'domains': [],
                 'storagerouters': [1],
                 'storagedrivers': [(1, 1, 1)],  # (<id>, <vpool_id>, <storagerouter_id>)
                 'mds_services': [(1, 1)],  # (<id>, <storagedriver_id>)
                 'storagerouter_domains': []}  # (<id>, <storagerouter_id>, <domain_id>)
            )
        """
        Configuration.set(key=Configuration.EDITION_KEY,
                          value=PackageFactory.EDITION_ENTERPRISE)

        if previous_structure is None:
            previous_structure = {}
        vdisks = previous_structure.get('vdisks', {})
        vpools = previous_structure.get('vpools', {})
        domains = previous_structure.get('domains', {})
        services = previous_structure.get('services', {})
        mds_services = previous_structure.get('mds_services', {})
        storagerouters = previous_structure.get('storagerouters', {})
        storagedrivers = previous_structure.get('storagedrivers', {})
        storagerouter_domains = previous_structure.get('storagerouter_domains',
                                                       {})

        service_types = {}
        for service_type_name in ServiceType.SERVICE_TYPES.values():
            service_type = ServiceTypeList.get_by_name(service_type_name)
            if service_type is None:
                service_type = ServiceType()
                service_type.name = service_type_name
                service_type.save()
            service_types[service_type_name] = service_type
        srclients = {}
        for domain_id in structure.get('domains', []):
            if domain_id not in domains:
                domain = Domain()
                domain.name = 'domain_{0}'.format(domain_id)
                domain.save()
                domains[domain_id] = domain
        for vpool_id in structure.get('vpools', []):
            if vpool_id not in vpools:
                vpool = VPool()
                vpool.name = str(vpool_id)
                vpool.status = 'RUNNING'
                vpool.metadata = {'backend': {}, 'caching_info': {}}
                vpool.metadata_store_bits = 5
                vpool.save()
                vpools[vpool_id] = vpool
            else:
                vpool = vpools[vpool_id]
            srclients[vpool_id] = StorageRouterClient(vpool.guid, None)
            Configuration.set(
                '/ovs/vpools/{0}/mds_config|mds_tlogs'.format(vpool.guid), 100)
            Configuration.set(
                '/ovs/vpools/{0}/mds_config|mds_safety'.format(vpool.guid), 2)
            Configuration.set(
                '/ovs/vpools/{0}/mds_config|mds_maxload'.format(vpool.guid),
                75)
            Configuration.set(
                '/ovs/vpools/{0}/proxies/scrub/generic_scrub'.format(
                    vpool.guid),
                json.dumps({}, indent=4),
                raw=True)
        for sr_id in structure.get('storagerouters', []):
            if sr_id not in storagerouters:
                storagerouter = StorageRouter()
                storagerouter.name = str(sr_id)
                storagerouter.ip = '10.0.0.{0}'.format(sr_id)
                storagerouter.rdma_capable = False
                storagerouter.node_type = 'MASTER'
                storagerouter.machine_id = str(sr_id)
                storagerouter.save()
                storagerouters[sr_id] = storagerouter
                disk = Disk()
                disk.storagerouter = storagerouter
                disk.state = 'OK'
                disk.name = '/dev/uda'
                disk.size = 1 * 1024**4
                disk.is_ssd = True
                disk.aliases = ['/dev/uda']
                disk.save()
                partition = DiskPartition()
                partition.offset = 0
                partition.size = disk.size
                partition.aliases = ['/dev/uda-1']
                partition.state = 'OK'
                partition.mountpoint = '/tmp/unittest/sr_{0}/disk_1/partition_1'.format(
                    sr_id)
                partition.disk = disk
                partition.roles = [
                    DiskPartition.ROLES.DB, DiskPartition.ROLES.SCRUB
                ]
                partition.save()
            else:
                storagerouter = storagerouters[sr_id]

            # noinspection PyProtectedMember
            System._machine_id[storagerouter.ip] = str(sr_id)
            mds_start = 10000 + 100 * (sr_id - 1)
            mds_end = 10000 + 100 * sr_id - 1
            arakoon_start = 20000 + 100 * (sr_id - 1)
            storagedriver_start = 30000 + 100 * (sr_id - 1)
            storagedriver_end = 30000 + 100 * sr_id - 1
            Configuration.initialize_host(
                host_id=sr_id,
                port_info={
                    'mds': [mds_start, mds_end],
                    'arakoon': arakoon_start,
                    'storagedriver': [storagedriver_start, storagedriver_end]
                })

        for sd_id, vpool_id, sr_id in structure.get('storagedrivers', ()):
            if sd_id not in storagedrivers:
                storagedriver = StorageDriver()
                storagedriver.vpool = vpools[vpool_id]
                storagedriver.storagerouter = storagerouters[sr_id]
                storagedriver.name = str(sd_id)
                storagedriver.mountpoint = '/'
                storagedriver.cluster_ip = storagerouters[sr_id].ip
                storagedriver.storage_ip = '10.0.1.{0}'.format(sr_id)
                storagedriver.storagedriver_id = str(sd_id)
                storagedriver.ports = {
                    'management': 1,
                    'xmlrpc': 2,
                    'dtl': 3,
                    'edge': 4
                }
                storagedriver.save()
                storagedrivers[sd_id] = storagedriver
                DalHelper.set_vpool_storage_driver_configuration(
                    vpool=vpools[vpool_id], storagedriver=storagedriver)
        for mds_id, sd_id in structure.get('mds_services', ()):
            if mds_id not in mds_services:
                sd = storagedrivers[sd_id]
                s_id = '{0}-{1}'.format(sd.storagerouter.name, mds_id)
                service = Service()
                service.name = s_id
                service.storagerouter = sd.storagerouter
                service.ports = [mds_id]
                service.type = service_types['MetadataServer']
                service.save()
                services[s_id] = service
                mds_service = MDSService()
                mds_service.service = service
                mds_service.number = 0
                mds_service.capacity = 10
                mds_service.vpool = sd.vpool
                mds_service.save()
                mds_services[mds_id] = mds_service
                StorageDriverController.add_storagedriverpartition(
                    sd, {
                        'size': None,
                        'role': DiskPartition.ROLES.DB,
                        'sub_role': StorageDriverPartition.SUBROLE.MDS,
                        'partition': sd.storagerouter.disks[0].partitions[0],
                        'mds_service': mds_service
                    })
        for vdisk_id, storage_driver_id, vpool_id, mds_id in structure.get(
                'vdisks', ()):
            if vdisk_id not in vdisks:
                vpool = vpools[vpool_id]
                devicename = 'vdisk_{0}'.format(vdisk_id)
                mds_backend_config = DalHelper.generate_mds_metadata_backend_config(
                    [] if mds_id is None else [mds_services[mds_id]])
                volume_id = srclients[vpool_id].create_volume(
                    devicename, mds_backend_config, 0, str(storage_driver_id))
                vdisk = VDisk()
                vdisk.name = str(vdisk_id)
                vdisk.devicename = devicename
                vdisk.volume_id = volume_id
                vdisk.vpool = vpool
                vdisk.size = 0
                vdisk.save()
                vdisk.reload_client('storagedriver')
                vdisks[vdisk_id] = vdisk
        for srd_id, sr_id, domain_id, backup in structure.get(
                'storagerouter_domains', ()):
            if srd_id not in storagerouter_domains:
                sr_domain = StorageRouterDomain()
                sr_domain.backup = backup
                sr_domain.domain = domains[domain_id]
                sr_domain.storagerouter = storagerouters[sr_id]
                sr_domain.save()
                storagerouter_domains[srd_id] = sr_domain
        return {
            'vdisks': vdisks,
            'vpools': vpools,
            'domains': domains,
            'services': services,
            'mds_services': mds_services,
            'service_types': service_types,
            'storagerouters': storagerouters,
            'storagedrivers': storagedrivers,
            'storagerouter_domains': storagerouter_domains
        }
    def test_happypath(self):
        """
        Validates the happy path; Hourly snapshots are taken with a few manual consistent
        every now and then. The delete policy is executed every day
        """
        vpool = VPool()
        vpool.name = 'vpool'
        vpool.status = 'RUNNING'
        vpool.save()
        storage_router = StorageRouter()
        storage_router.name = 'storage_router'
        storage_router.ip = '127.0.0.1'
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.save()
        disk = Disk()
        disk.name = 'physical_disk_1'
        disk.aliases = ['/dev/non-existent']
        disk.size = 500 * 1024 ** 3
        disk.state = 'OK'
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.disk = disk
        disk_partition.aliases = ['/dev/disk/non-existent']
        disk_partition.size = 400 * 1024 ** 3
        disk_partition.state = 'OK'
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = '/var/tmp'
        disk_partition.save()
        vdisk_1 = VDisk()
        vdisk_1.name = 'vdisk_1'
        vdisk_1.volume_id = 'vdisk_1'
        vdisk_1.vpool = vpool
        vdisk_1.devicename = 'dummy'
        vdisk_1.size = 0
        vdisk_1.save()
        vdisk_1.reload_client('storagedriver')

        [dynamic for dynamic in vdisk_1._dynamics if dynamic.name == 'snapshots'][0].timeout = 0

        # Run the testing scenario
        travis = 'TRAVIS' in os.environ and os.environ['TRAVIS'] == 'true'
        if travis is True:
            self._print_message('Running in Travis, reducing output.')
        debug = not travis
        amount_of_days = 50
        base = datetime.datetime.now().date()
        day = datetime.timedelta(1)
        minute = 60
        hour = minute * 60

        for d in xrange(0, amount_of_days):
            base_timestamp = self._make_timestamp(base, day * d)
            self._print_message('')
            self._print_message('Day cycle: {0}: {1}'.format(d, datetime.datetime.fromtimestamp(base_timestamp).strftime('%Y-%m-%d')))

            # At the start of the day, delete snapshot policy runs at 00:30
            self._print_message('- Deleting snapshots')
            ScheduledTaskController.delete_snapshots(timestamp=base_timestamp + (minute * 30))

            # Validate snapshots
            self._print_message('- Validating snapshots')
            self._validate(vdisk_1, d, base, amount_of_days, debug)

            # During the day, snapshots are taken
            # - Create non consistent snapshot every hour, between 2:00 and 22:00
            # - Create consistent snapshot at 6:30, 12:30, 18:30
            self._print_message('- Creating snapshots')
            for h in xrange(2, 23):
                timestamp = base_timestamp + (hour * h)
                VDiskController.create_snapshot(vdisk_guid=vdisk_1.guid,
                                                metadata={'label': 'ss_i_{0}:00'.format(str(h)),
                                                          'is_consistent': False,
                                                          'timestamp': str(timestamp),
                                                          'machineguid': None})
                if h in [6, 12, 18]:
                    ts = (timestamp + (minute * 30))
                    VDiskController.create_snapshot(vdisk_guid=vdisk_1.guid,
                                                    metadata={'label': 'ss_c_{0}:30'.format(str(h)),
                                                              'is_consistent': True,
                                                              'timestamp': str(ts),
                                                              'machineguid': None})
Esempio n. 7
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    def build_service_structure(structure, previous_structure=None):
        """
        Builds an MDS service structure
        Example:
            structure = Helper.build_service_structure(
                {'vpools': [1],
                 'domains': [],
                 'storagerouters': [1],
                 'storagedrivers': [(1, 1, 1)],  # (<id>, <vpool_id>, <storagerouter_id>)
                 'mds_services': [(1, 1)],  # (<id>, <storagedriver_id>)
                 'storagerouter_domains': []}  # (<id>, <storagerouter_id>, <domain_id>)
            )
        """
        if previous_structure is None:
            previous_structure = {}
        vdisks = previous_structure.get('vdisks', {})
        vpools = previous_structure.get('vpools', {})
        domains = previous_structure.get('domains', {})
        services = previous_structure.get('services', {})
        mds_services = previous_structure.get('mds_services', {})
        storagerouters = previous_structure.get('storagerouters', {})
        storagedrivers = previous_structure.get('storagedrivers', {})
        storagerouter_domains = previous_structure.get('storagerouter_domains',
                                                       {})

        service_type = ServiceTypeList.get_by_name('MetadataServer')
        if service_type is None:
            service_type = ServiceType()
            service_type.name = 'MetadataServer'
            service_type.save()
        srclients = {}
        for domain_id in structure.get('domains', []):
            if domain_id not in domains:
                domain = Domain()
                domain.name = 'domain_{0}'.format(domain_id)
                domain.save()
                domains[domain_id] = domain
        for vpool_id in structure.get('vpools', []):
            if vpool_id not in vpools:
                vpool = VPool()
                vpool.name = str(vpool_id)
                vpool.status = 'RUNNING'
                vpool.save()
                vpools[vpool_id] = vpool
            else:
                vpool = vpools[vpool_id]
            srclients[vpool_id] = StorageRouterClient(vpool.guid, None)
        for sr_id in structure.get('storagerouters', []):
            if sr_id not in storagerouters:
                storagerouter = StorageRouter()
                storagerouter.name = str(sr_id)
                storagerouter.ip = '10.0.0.{0}'.format(sr_id)
                storagerouter.rdma_capable = False
                storagerouter.node_type = 'MASTER'
                storagerouter.machine_id = str(sr_id)
                storagerouter.save()
                storagerouters[sr_id] = storagerouter
                disk = Disk()
                disk.storagerouter = storagerouter
                disk.state = 'OK'
                disk.name = '/dev/uda'
                disk.size = 1 * 1024**4
                disk.is_ssd = True
                disk.aliases = ['/dev/uda']
                disk.save()
                partition = DiskPartition()
                partition.offset = 0
                partition.size = disk.size
                partition.aliases = ['/dev/uda-1']
                partition.state = 'OK'
                partition.mountpoint = '/tmp/unittest/sr_{0}/disk_1/partition_1'.format(
                    sr_id)
                partition.disk = disk
                partition.roles = [
                    DiskPartition.ROLES.DB, DiskPartition.ROLES.SCRUB
                ]
                partition.save()
        for sd_id, vpool_id, sr_id in structure.get('storagedrivers', ()):
            if sd_id not in storagedrivers:
                storagedriver = StorageDriver()
                storagedriver.vpool = vpools[vpool_id]
                storagedriver.storagerouter = storagerouters[sr_id]
                storagedriver.name = str(sd_id)
                storagedriver.mountpoint = '/'
                storagedriver.cluster_ip = storagerouters[sr_id].ip
                storagedriver.storage_ip = '10.0.1.{0}'.format(sr_id)
                storagedriver.storagedriver_id = str(sd_id)
                storagedriver.ports = {
                    'management': 1,
                    'xmlrpc': 2,
                    'dtl': 3,
                    'edge': 4
                }
                storagedriver.save()
                storagedrivers[sd_id] = storagedriver
                Helper._set_vpool_storage_driver_configuration(
                    vpool=vpools[vpool_id], storagedriver=storagedriver)
        for mds_id, sd_id in structure.get('mds_services', ()):
            if mds_id not in mds_services:
                sd = storagedrivers[sd_id]
                s_id = '{0}-{1}'.format(sd.storagerouter.name, mds_id)
                service = Service()
                service.name = s_id
                service.storagerouter = sd.storagerouter
                service.ports = [mds_id]
                service.type = service_type
                service.save()
                services[s_id] = service
                mds_service = MDSService()
                mds_service.service = service
                mds_service.number = 0
                mds_service.capacity = 10
                mds_service.vpool = sd.vpool
                mds_service.save()
                mds_services[mds_id] = mds_service
                StorageDriverController.add_storagedriverpartition(
                    sd, {
                        'size': None,
                        'role': DiskPartition.ROLES.DB,
                        'sub_role': StorageDriverPartition.SUBROLE.MDS,
                        'partition': sd.storagerouter.disks[0].partitions[0],
                        'mds_service': mds_service
                    })
        for vdisk_id, storage_driver_id, vpool_id, mds_id in structure.get(
                'vdisks', ()):
            if vdisk_id not in vdisks:
                vpool = vpools[vpool_id]
                devicename = 'vdisk_{0}'.format(vdisk_id)
                mds_backend_config = Helper._generate_mdsmetadatabackendconfig(
                    [] if mds_id is None else [mds_services[mds_id]])
                volume_id = srclients[vpool_id].create_volume(
                    devicename, mds_backend_config, 0, str(storage_driver_id))
                vdisk = VDisk()
                vdisk.name = str(vdisk_id)
                vdisk.devicename = devicename
                vdisk.volume_id = volume_id
                vdisk.vpool = vpool
                vdisk.size = 0
                vdisk.save()
                vdisk.reload_client('storagedriver')
                vdisks[vdisk_id] = vdisk
        for srd_id, sr_id, domain_id, backup in structure.get(
                'storagerouter_domains', ()):
            if srd_id not in storagerouter_domains:
                sr_domain = StorageRouterDomain()
                sr_domain.backup = backup
                sr_domain.domain = domains[domain_id]
                sr_domain.storagerouter = storagerouters[sr_id]
                sr_domain.save()
                storagerouter_domains[srd_id] = sr_domain
        return {
            'vdisks': vdisks,
            'vpools': vpools,
            'domains': domains,
            'services': services,
            'service_type': service_type,
            'mds_services': mds_services,
            'storagerouters': storagerouters,
            'storagedrivers': storagedrivers,
            'storagerouter_domains': storagerouter_domains
        }
Esempio n. 8
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    def build_service_structure(structure, previous_structure=None):
        """
        Builds an MDS service structure
        Example:
            structure = Helper.build_service_structure(
                {'vpools': [1],
                 'domains': [],
                 'storagerouters': [1],
                 'storagedrivers': [(1, 1, 1)],  # (<id>, <vpool_id>, <storagerouter_id>)
                 'mds_services': [(1, 1)],  # (<id>, <storagedriver_id>)
                 'storagerouter_domains': []}  # (<id>, <storagerouter_id>, <domain_id>)
            )
        """
        if previous_structure is None:
            previous_structure = {}
        vdisks = previous_structure.get("vdisks", {})
        vpools = previous_structure.get("vpools", {})
        domains = previous_structure.get("domains", {})
        services = previous_structure.get("services", {})
        mds_services = previous_structure.get("mds_services", {})
        storagerouters = previous_structure.get("storagerouters", {})
        storagedrivers = previous_structure.get("storagedrivers", {})
        storagerouter_domains = previous_structure.get("storagerouter_domains", {})

        service_type = ServiceTypeList.get_by_name("MetadataServer")
        if service_type is None:
            service_type = ServiceType()
            service_type.name = "MetadataServer"
            service_type.save()
        srclients = {}
        for domain_id in structure.get("domains", []):
            if domain_id not in domains:
                domain = Domain()
                domain.name = "domain_{0}".format(domain_id)
                domain.save()
                domains[domain_id] = domain
        for vpool_id in structure.get("vpools", []):
            if vpool_id not in vpools:
                vpool = VPool()
                vpool.name = str(vpool_id)
                vpool.status = "RUNNING"
                vpool.save()
                vpools[vpool_id] = vpool
            else:
                vpool = vpools[vpool_id]
            srclients[vpool_id] = StorageRouterClient(vpool.guid, None)
        for sr_id in structure.get("storagerouters", []):
            if sr_id not in storagerouters:
                storagerouter = StorageRouter()
                storagerouter.name = str(sr_id)
                storagerouter.ip = "10.0.0.{0}".format(sr_id)
                storagerouter.rdma_capable = False
                storagerouter.node_type = "MASTER"
                storagerouter.machine_id = str(sr_id)
                storagerouter.save()
                storagerouters[sr_id] = storagerouter
                disk = Disk()
                disk.storagerouter = storagerouter
                disk.state = "OK"
                disk.name = "/dev/uda"
                disk.size = 1 * 1024 ** 4
                disk.is_ssd = True
                disk.aliases = ["/dev/uda"]
                disk.save()
                partition = DiskPartition()
                partition.offset = 0
                partition.size = disk.size
                partition.aliases = ["/dev/uda-1"]
                partition.state = "OK"
                partition.mountpoint = "/tmp/unittest/sr_{0}/disk_1/partition_1".format(sr_id)
                partition.disk = disk
                partition.roles = [DiskPartition.ROLES.DB, DiskPartition.ROLES.SCRUB]
                partition.save()
        for sd_id, vpool_id, sr_id in structure.get("storagedrivers", ()):
            if sd_id not in storagedrivers:
                storagedriver = StorageDriver()
                storagedriver.vpool = vpools[vpool_id]
                storagedriver.storagerouter = storagerouters[sr_id]
                storagedriver.name = str(sd_id)
                storagedriver.mountpoint = "/"
                storagedriver.cluster_ip = storagerouters[sr_id].ip
                storagedriver.storage_ip = "10.0.1.{0}".format(sr_id)
                storagedriver.storagedriver_id = str(sd_id)
                storagedriver.ports = {"management": 1, "xmlrpc": 2, "dtl": 3, "edge": 4}
                storagedriver.save()
                storagedrivers[sd_id] = storagedriver
                Helper._set_vpool_storage_driver_configuration(vpool=vpools[vpool_id], storagedriver=storagedriver)
        for mds_id, sd_id in structure.get("mds_services", ()):
            if mds_id not in mds_services:
                sd = storagedrivers[sd_id]
                s_id = "{0}-{1}".format(sd.storagerouter.name, mds_id)
                service = Service()
                service.name = s_id
                service.storagerouter = sd.storagerouter
                service.ports = [mds_id]
                service.type = service_type
                service.save()
                services[s_id] = service
                mds_service = MDSService()
                mds_service.service = service
                mds_service.number = 0
                mds_service.capacity = 10
                mds_service.vpool = sd.vpool
                mds_service.save()
                mds_services[mds_id] = mds_service
                StorageDriverController.add_storagedriverpartition(
                    sd,
                    {
                        "size": None,
                        "role": DiskPartition.ROLES.DB,
                        "sub_role": StorageDriverPartition.SUBROLE.MDS,
                        "partition": sd.storagerouter.disks[0].partitions[0],
                        "mds_service": mds_service,
                    },
                )
        for vdisk_id, storage_driver_id, vpool_id, mds_id in structure.get("vdisks", ()):
            if vdisk_id not in vdisks:
                vpool = vpools[vpool_id]
                devicename = "vdisk_{0}".format(vdisk_id)
                mds_backend_config = Helper._generate_mdsmetadatabackendconfig(
                    [] if mds_id is None else [mds_services[mds_id]]
                )
                volume_id = srclients[vpool_id].create_volume(devicename, mds_backend_config, 0, str(storage_driver_id))
                vdisk = VDisk()
                vdisk.name = str(vdisk_id)
                vdisk.devicename = devicename
                vdisk.volume_id = volume_id
                vdisk.vpool = vpool
                vdisk.size = 0
                vdisk.save()
                vdisk.reload_client("storagedriver")
                vdisks[vdisk_id] = vdisk
        for srd_id, sr_id, domain_id, backup in structure.get("storagerouter_domains", ()):
            if srd_id not in storagerouter_domains:
                sr_domain = StorageRouterDomain()
                sr_domain.backup = backup
                sr_domain.domain = domains[domain_id]
                sr_domain.storagerouter = storagerouters[sr_id]
                sr_domain.save()
                storagerouter_domains[srd_id] = sr_domain
        return {
            "vdisks": vdisks,
            "vpools": vpools,
            "domains": domains,
            "services": services,
            "service_type": service_type,
            "mds_services": mds_services,
            "storagerouters": storagerouters,
            "storagedrivers": storagedrivers,
            "storagerouter_domains": storagerouter_domains,
        }
Esempio n. 9
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    def test_clone_snapshot(self):
        """
        Validates that a snapshot that has clones will not be deleted while other snapshots will be deleted
        """
        # Setup
        # There are 2 disks, second one cloned from a snapshot of the first
        vpool = VPool()
        vpool.name = 'vpool'
        vpool.status = 'RUNNING'
        vpool.save()
        storage_router = StorageRouter()
        storage_router.name = 'storage_router'
        storage_router.ip = '127.0.0.1'
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.save()
        disk = Disk()
        disk.name = 'physical_disk_1'
        disk.aliases = ['/dev/non-existent']
        disk.size = 500 * 1024**3
        disk.state = 'OK'
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.disk = disk
        disk_partition.aliases = ['/dev/disk/non-existent']
        disk_partition.size = 400 * 1024**3
        disk_partition.state = 'OK'
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = '/var/tmp'
        disk_partition.save()
        storage_driver = StorageDriver()
        storage_driver.vpool = vpool
        storage_driver.storagerouter = storage_router
        storage_driver.name = 'storage_driver_1'
        storage_driver.mountpoint = '/'
        storage_driver.cluster_ip = storage_router.ip
        storage_driver.storage_ip = '127.0.0.1'
        storage_driver.storagedriver_id = 'storage_driver_1'
        storage_driver.ports = {
            'management': 1,
            'xmlrpc': 2,
            'dtl': 3,
            'edge': 4
        }
        storage_driver.save()
        service_type = ServiceType()
        service_type.name = 'MetadataServer'
        service_type.save()
        service = Service()
        service.name = 'service_1'
        service.storagerouter = storage_driver.storagerouter
        service.ports = [1]
        service.type = service_type
        service.save()
        mds_service = MDSService()
        mds_service.service = service
        mds_service.number = 0
        mds_service.capacity = 10
        mds_service.vpool = storage_driver.vpool
        mds_service.save()
        vdisk_1_1 = VDisk()
        vdisk_1_1.name = 'vdisk_1_1'
        vdisk_1_1.volume_id = 'vdisk_1_1'
        vdisk_1_1.vpool = vpool
        vdisk_1_1.devicename = 'dummy'
        vdisk_1_1.size = 0
        vdisk_1_1.save()
        vdisk_1_1.reload_client('storagedriver')

        [
            dynamic for dynamic in vdisk_1_1._dynamics
            if dynamic.name == 'snapshots'
        ][0].timeout = 0

        travis = 'TRAVIS' in os.environ and os.environ['TRAVIS'] == 'true'
        if travis is True:
            print 'Running in Travis, reducing output.'

        base = datetime.datetime.now().date()
        day = datetime.timedelta(1)
        base_timestamp = self._make_timestamp(base, day)
        minute = 60
        hour = minute * 60
        for h in [6, 12, 18]:
            timestamp = base_timestamp + (hour * h)
            VDiskController.create_snapshot(vdisk_guid=vdisk_1_1.guid,
                                            metadata={
                                                'label':
                                                'snapshot_{0}:30'.format(
                                                    str(h)),
                                                'is_consistent':
                                                True,
                                                'timestamp':
                                                str(timestamp),
                                                'machineguid':
                                                None
                                            })

        base_snapshot_guid = vdisk_1_1.snapshots[0]['guid']  # Oldest
        clone_vdisk = VDisk()
        clone_vdisk.name = 'clone_vdisk'
        clone_vdisk.volume_id = 'clone_vdisk'
        clone_vdisk.vpool = vpool
        clone_vdisk.devicename = 'dummy'
        clone_vdisk.parentsnapshot = base_snapshot_guid
        clone_vdisk.size = 0
        clone_vdisk.save()
        clone_vdisk.reload_client('storagedriver')

        for h in [6, 12, 18]:
            timestamp = base_timestamp + (hour * h)
            VDiskController.create_snapshot(vdisk_guid=clone_vdisk.guid,
                                            metadata={
                                                'label':
                                                'snapshot_{0}:30'.format(
                                                    str(h)),
                                                'is_consistent':
                                                True,
                                                'timestamp':
                                                str(timestamp),
                                                'machineguid':
                                                None
                                            })

        base_timestamp = self._make_timestamp(base, day * 2)
        ScheduledTaskController.delete_snapshots(timestamp=base_timestamp +
                                                 (minute * 30))
        self.assertIn(
            base_snapshot_guid, [snap['guid'] for snap in vdisk_1_1.snapshots],
            'Snapshot was deleted while there are still clones of it')
Esempio n. 10
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    def test_happypath(self):
        """
        Validates the happy path; Hourly snapshots are taken with a few manual consistent
        every now and then. The delete policy is executed every day
        """
        vpool = VPool()
        vpool.name = 'vpool'
        vpool.status = 'RUNNING'
        vpool.save()
        storage_router = StorageRouter()
        storage_router.name = 'storage_router'
        storage_router.ip = '127.0.0.1'
        storage_router.machine_id = System.get_my_machine_id()
        storage_router.rdma_capable = False
        storage_router.save()
        disk = Disk()
        disk.name = 'physical_disk_1'
        disk.aliases = ['/dev/non-existent']
        disk.size = 500 * 1024**3
        disk.state = 'OK'
        disk.is_ssd = True
        disk.storagerouter = storage_router
        disk.save()
        disk_partition = DiskPartition()
        disk_partition.disk = disk
        disk_partition.aliases = ['/dev/disk/non-existent']
        disk_partition.size = 400 * 1024**3
        disk_partition.state = 'OK'
        disk_partition.offset = 1024
        disk_partition.roles = [DiskPartition.ROLES.SCRUB]
        disk_partition.mountpoint = '/var/tmp'
        disk_partition.save()
        vdisk_1 = VDisk()
        vdisk_1.name = 'vdisk_1'
        vdisk_1.volume_id = 'vdisk_1'
        vdisk_1.vpool = vpool
        vdisk_1.devicename = 'dummy'
        vdisk_1.size = 0
        vdisk_1.save()
        vdisk_1.reload_client('storagedriver')

        [
            dynamic for dynamic in vdisk_1._dynamics
            if dynamic.name == 'snapshots'
        ][0].timeout = 0

        # Run the testing scenario
        travis = 'TRAVIS' in os.environ and os.environ['TRAVIS'] == 'true'
        if travis is True:
            self._print_message('Running in Travis, reducing output.')
        debug = not travis
        amount_of_days = 50
        base = datetime.datetime.now().date()
        day = datetime.timedelta(1)
        minute = 60
        hour = minute * 60

        for d in xrange(0, amount_of_days):
            base_timestamp = self._make_timestamp(base, day * d)
            self._print_message('')
            self._print_message('Day cycle: {0}: {1}'.format(
                d,
                datetime.datetime.fromtimestamp(base_timestamp).strftime(
                    '%Y-%m-%d')))

            # At the start of the day, delete snapshot policy runs at 00:30
            self._print_message('- Deleting snapshots')
            ScheduledTaskController.delete_snapshots(timestamp=base_timestamp +
                                                     (minute * 30))

            # Validate snapshots
            self._print_message('- Validating snapshots')
            self._validate(vdisk_1, d, base, amount_of_days, debug)

            # During the day, snapshots are taken
            # - Create non consistent snapshot every hour, between 2:00 and 22:00
            # - Create consistent snapshot at 6:30, 12:30, 18:30
            self._print_message('- Creating snapshots')
            for h in xrange(2, 23):
                timestamp = base_timestamp + (hour * h)
                VDiskController.create_snapshot(vdisk_guid=vdisk_1.guid,
                                                metadata={
                                                    'label':
                                                    'ss_i_{0}:00'.format(
                                                        str(h)),
                                                    'is_consistent':
                                                    False,
                                                    'timestamp':
                                                    str(timestamp),
                                                    'machineguid':
                                                    None
                                                })
                if h in [6, 12, 18]:
                    ts = (timestamp + (minute * 30))
                    VDiskController.create_snapshot(vdisk_guid=vdisk_1.guid,
                                                    metadata={
                                                        'label':
                                                        'ss_c_{0}:30'.format(
                                                            str(h)),
                                                        'is_consistent':
                                                        True,
                                                        'timestamp':
                                                        str(ts),
                                                        'machineguid':
                                                        None
                                                    })