Python HostOpsの例

コード例 #1

def pds_io_sanity_with_snap_online_vol():
        #objects initialization & Authentication 
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)

        #calling base function to populate the objects 
    media_group,vol_list = base_function(pvlLibHandle,logger)

        # assigning vol
    ports = get_two_port_diff_ctlr(ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status  = vol.assign_volume(ports,hostnqn=[])
        assert(status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert(status == 0)
        
    for i in range(5):
        snap_list = []
           #start fio on all the volumes
        logger.info("Starting write on the vol-seq_write")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
        status,response=fio.seq_write(vol_list, host, kwargs)
        assert (status == 0) 

        for vol in vol_list:
               #Taking snaphost 
            snap_name = str(vol.name) + str("_%s"%SNAP_PREFIX)
            logger.info("Taking snapshot :%s"%snap_name)
            snapshot = SnapShotOps(snap_name,volobj=vol,create=True)
            assert(snapshot != None)
            snap_list.append(snapshot)
    
           #Write on remaning space of the volumes 
        logger.info("Starting write on other space of the vol ")
        kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xffff","verify_interval":4096,"do_verify":1}
        status,response=fio.rand_write(vol_list, host, kwargs)
        assert (status == 0)
        
        # delete snapshot 
        for snap in snap_list:
            status = snap.delete_snapshot()
            assert (status == True)
        time.sleep(300)
    
    #disconnect the vol
    for vol in vol_list:
        logger.info("disconnecting the vol from the host")
        status = host.disconnect_volume(vol)

コード例 #2

def pds_raid6_io_sanity():
    host = HostOps(HOST[0])
    fio = FioUtils()
        # give function name as log file name
    log = PvltLogger("raid6_io_sanity",'INFO')
    logger = log.logger
    name = MEDIA_GROUP_NAME
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)
        ## velidation for prerequisits 
    drv_cnt = get_active_drive_count(ZONE,pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9 :
        logger.error('Not sufficient drives active drive count=%s'%drv_cnt)
        sys.exit()
    if VOL_CNT > 1 :
        logger.error('Update the configuration As this test is currently written for 1 vol only')
        sys.exit()
    md_type = MEDIA_GROUP_TYPE
        ## creating mediaGroup
    logger.info("Creating a MediaGroup")
    media_group = MediaGroupOps(pvlLibHandle, name, ZONE, md_type,create=True)
    assert(media_group != None )
        ## creaing volumes 
    logger.info("Creating voluems")
    #vol_list = []
    volname = VOL_PREFIX
    vol=VolumeOps(md=media_group,name=volname,size=VOL_SIZE,vol_res=VOL_RES,flavor=FLAVOR,create=True)
    assert(vol != None )
        # Assigning and connecting the volume
    ports = get_two_port_diff_ctlr(ZONE)
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status)
    status = host.connect_volume(vol)
    time.sleep(10)
    assert(status == 0)

    #ioitems = ['write','randwrite','readwrite','randrw','read']
    #blk_list = ['4k','8k','16k','32k','64k','128k','256k','512k','1m','2m']
    ioitems = ['write']
    blk_list = ['4k']

################################ 1. FIO on online volume
        #start fio on all the volumes with BS:4k/IODEPTH:128
     for blk_size in blk_list:
         for io_type in ioitems:
             logger.info("Starting IO Online volumes : IO_TYPE=%s :BS=%s"%(io_type,blk_size))
             kwargs = {'offset':"0",'bs':blk_size,'size':'5%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
             status,response=fio.generic_fio(io_type,[vol], host, kwargs)
             assert (status == 0)
             logger.info("Completed IO for Online volume with:IO_TYPE=%s||BS=%s"%(io_type,blk_size))

コード例 #3

ファイル: vol_creation.py プロジェクト: lakshkarm/PDS

def pds_create_mediagroup():
    global logger
    global pvlLibHandle
    log = PvltLogger("rebuild_operation", 'INFO')
    logger = log.logger

    name = MEDIA_GROUP_NAME

    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)

    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        #assert(drv_cnt > 8 )

    md_type = 'RAID-0 (18+0)' if drv_cnt == 18 else 'RAID-6 (6+2+1)'

    md = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=False)
    media_group = md
    assert (md != None)
    ## deleting mediaGroup
    #print("now deleting the mg in 5 sec")
    #time.sleep(5)
    #media_group.delete_mediagroup()

    ## creaing volumes
    vol_list = []
    for i in range(2):
        volname = str(VOL_PREFIX) + str("_") + str(i)
        vol = VolumeOps(md=media_group,
                        name=volname,
                        size=VOL_SIZE,
                        vol_res=VOL_RES,
                        flavor=FLAVOR,
                        create=True)
        vol_list.append(vol)
    #print("following volumes have been created : %s"%vol_list)
    #'''
    ## assign volume
    ports = get_two_port_diff_ctlr(ZONE)
    for v in vol_list:
        assign = v.assign_volume(ports)
    #connecting  voluems to the host
    for v in vol_list:
        host = HostOps(HOST[0])
        status = host.connect_volume(v)
        #assert(status==0)
    # stert fio on all the volumes
    '''

コード例 #4

ファイル: PDS_vol_restore_raid6.py プロジェクト: lakshkarm/PDS

def pds_rollback_assign_vol():
        #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)

        #calling base function to populate the objects
    media_group,vol = base_function(pvlLibHandle,logger)

        #Creating a snapshot
    logger.info("Creating a snapshot : %s"%SNAP_PREFIX)
    snapshot = SnapShotOps(SNAP_PREFIX,volobj=vol,create=True)
    assert(snapshot != None)
    ports= get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True)

        # run vol rollback 
    try:
        status = vol.vol_rollback(snapshot,backup="true")
        #assert(vol.vol_rollback(snapshot,backup="true") == False)
        if(status == False):
            raise Exception
    except Exception:
        logger.info("Rollback operations can`t be perfomed on Assigned vol, Please-Unassign the vol and try again ")

コード例 #5

ファイル: PDS_vol_restore_raid6.py プロジェクト: lakshkarm/PDS

def pds_rollback_unassign_vol():
        #objects initialization & Authentication 
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)

         #calling base function to populate the objects 
    media_group,vol = base_function(pvlLibHandle,logger)

         #Creating a snapshot
    logger.info("Creating a snapshot : %s"%SNAP_PREFIX)
    snapshot = SnapShotOps(SNAP_PREFIX,volobj=vol,create=True)
    assert(snapshot != None)

        # Restore the vol using its snapshot
    status = vol.vol_rollback(snapshot,backup="true")
    assert(status == True)

        # delete forensic snapshot 
    status = snapshot.delete_all_forensic_snap()
    assert(status == True)
    logger.info("1 Vol restore for unassigned volume: PASS")

コード例 #6

def pds_vol_rollback_sanity():
    host = HostOps(HOST[0])
    fio = FioUtils()
    # give function name as log file name
    log = PvltLogger("Volume_restore", 'INFO')
    logger = log.logger
    name = MEDIA_GROUP_NAME
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    ## velidation for prerequisits
    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    '''
    if drv_cnt < 9 :
        logger.error('Not sufficient drives active drive count=%s'%drv_cnt)
        sys.exit()
    if VOL_CNT > 1 :
        logger.error('Update the configuration As this test is currently written for 1 vol only')
        sys.exit()
    '''
    md_type = MEDIA_GROUP_TYPE
    ## creating mediaGroup
    logger.info("Creating a MediaGroup")
    media_group = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=True)
    assert (media_group != None)
    ## creaing volumes
    logger.info("Creating voluems")
    volname = VOL_PREFIX
    vol = VolumeOps(md=media_group,
                    name=volname,
                    size=VOL_SIZE,
                    vol_res=VOL_RES,
                    flavor=FLAVOR,
                    create=True)
    assert (vol != None)
    time.sleep(10)

    #Creating a snapshot
    snap_name = "s1"
    logger.info("Creating a snapshot : %s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol, create=True)
    assert (snapshot != None)
    time.sleep(10)

    print vol.vol_id
    print snapshot.snap_id

    ################################ 1 Vol restore for unassigned volume
    # Restore the vol using its snapshot
    status = vol.vol_rollback(snapshot, backup="true")
    assert (status == True)
    time.sleep(30)
    print("1 Vol restore for unassigned volume: PASS")
    # delete forensic snaphsot
    #status = snapshot.delete_ferensic_snap(ZONE,media_group.name,snapshot.name)
    status = snapshot.delete_all_forensic_snap()
    #assert(status == 0)
    '''

コード例 #7

ファイル: vol_restore_1.py プロジェクト: lakshkarm/PDS

def pds_vol_restore_sanity():
    host = HostOps(HOST[0])
    fio = FioUtils()
    # give function name as log file name
    log = PvltLogger("Volume_restore", 'INFO')
    logger = log.logger
    name = MEDIA_GROUP_NAME
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    ## creating mediaGroup
    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        #assert(drv_cnt > 8 )

    # take it from config
    #md_type = 'RAID-0 (18+0)' if drv_cnt == 18 else 'RAID-6 (7+2)'
    md_type = MEDIA_GROUP_TYPE
    logger.info("Creating a MediaGroup")
    media_group = MediaGroupOps(pvlLibHandle,
                                name,
                                ZONE,
                                md_type,
                                create=False)
    assert (media_group != None)
    ## creaing volumes
    logger.info("Creating voluems")
    vol_list = []
    for i in range(1):
        volname = '%s_%s' % (VOL_PREFIX, i)
        vol = VolumeOps(md=media_group,
                        name=volname,
                        size=VOL_SIZE,
                        vol_res=VOL_RES,
                        flavor=FLAVOR,
                        create=True)
        vol_list.append(vol)
        #Creating a snapshot
    snap_name = "s1"
    logger.info("Creating a snapshot : %s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol_list[0], create=True)
    assert (snapshot != None)

    ################################ 1 Vol restore for unassigned volume
    # Restore the vol using its snapshot
    status = snapshot.vol_restore()
    #snap_id = snapshot.snap_id
    #print snap_id
    #logger.info("Running vol_restore using following snaphost : %s"%snap_name)
    #status = pvlLibHandle.system.generic_api('POST', '/storage/snapshots/%s/restore'%snap_id)
    #assert(status != 200)
    #time.sleep(60)
    print("1 Vol restore for unassigned volume: PASS")
    '''

コード例 #8

 def startIO():
     p1 = multiprocessing.current_process()
     logger.info("Starting : %s : %s"%(p1.name,p1.pid))
     print "Starting :",p1.name,p1.pid
     host = HostOps(HOST[0])  # getting host object
     fio = FioUtils()         # getting fio object
     kwargs = {'size':'100%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
     #status,response=fio.rand_read_write(vol_list, host, kwargs)
     status,response=fio.seq_write(vol_list, host, kwargs)
     assert (status==0)

コード例 #9

ファイル: PDS_vol_restore.py プロジェクト: lakshkarm/PDS

def pds_rollback_unassign_vol():
    ################################ 1 Vol restore for unassigned volume
    #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3], 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    # defining variables
    name = MEDIA_GROUP_NAME
    md_type = MEDIA_GROUP_TYP
    volname = VOL_PREFIX
    # validation for prerequisits
    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        sys.exit()
    if VOL_CNT > 1:
        logger.error(
            'Update the configuration As this test is currently written for 1 vol only'
        )
        sys.exit()
        # creating mediaGroup
    logger.info("Creating a MediaGroup")
    media_group = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=True)
    assert (media_group != None)
    # creaing volumes
    logger.info("Creating voluems")
    vol = VolumeOps(md=media_group,
                    name=volname,
                    size=VOL_SIZE,
                    vol_res=VOL_RES,
                    flavor=FLAVOR,
                    create=True)
    assert (vol != None)
    time.sleep(10)
    #Creating a snapshot
    snap_name = "s1"
    logger.info("Creating a snapshot : %s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol, create=True)
    assert (snapshot != None)
    time.sleep(10)
    # Restore the vol using its snapshot
    status = vol.vol_rollback(snapshot, backup="true")
    assert (status == True)
    time.sleep(60)
    # delete forensic snapshot
    status = snapshot.delete_all_forensic_snap()
    assert (status == True)
    print("1 Vol restore for unassigned volume: PASS")

コード例 #10

ファイル: PDS_vol_restore_master.py プロジェクト: lakshkarm/PDS

def base_function(pvlLibHandle, logger):
    #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3], 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    # defining variables
    name = MEDIA_GROUP_NAME
    md_type = MEDIA_GROUP_TYPE
    volname = VOL_PREFIX
    # validation for prerequisits
    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        sys.exit()
    if VOL_CNT > 1:
        logger.error(
            'Update the configuration As this test is currently written for 1 vol only'
        )
        sys.exit()
        # creating mediaGroup
    logger.info("Creating a MediaGroup")
    media_group = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=True)
    assert (media_group != None)
    # creaing volumes
    logger.info("Creating voluems")
    vol = VolumeOps(md=media_group,
                    name=volname,
                    size=VOL_SIZE,
                    vol_res=VOL_RES,
                    flavor=FLAVOR,
                    create=True)
    assert (vol != None)
    time.sleep(10)
    return media_group, vol

コード例 #11

ファイル: PDS_raid6_IO_sanity_multitask_verify_with_rebuild.py プロジェクト: lakshkarm/PDS

def IO_sanity_func(volType="online", funcname="pds_online_vol_IO_sanity"):
    log = PvltLogger(funcname, 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    media_group, vol_list = base_function(pvlLibHandle, logger)

    # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status = vol.assign_volume(ports, hostnqn=[])
        assert (status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert (status == 0)

    def io_patterns():
        logger.info("Starting fresh write on the vol-seq_write")
        kwargs = {
            'offset': "0",
            'size': '30%',
            "verify_pattern": "0xABCD",
            "verify_interval": 4096,
            "do_verify": 1,
            "bs": "64k"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        # starting overwrite with diff pattern
        logger.info("Starting overwrite on the vol-seq_write")
        kwargs = {
            'offset': "0",
            'size': '50%',
            "verify_pattern": "0xFFFF",
            "verify_interval": 4096,
            "do_verify": 1,
            "bs": "64k"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        # starting multijob FIO load but without verification
        logger.info(
            "Starting multithreaded  write without verification  on the vol-seq_write"
        )
        kwargs = {
            'offset': "0",
            'size': '70%',
            "numjobs": "8",
            "bsrange": "4k-2M"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        # Starting mutithreaded write with verification
        logger.info(
            "Starting  mutithreaded-write with verification on the vol-seq_write"
        )
        kwargs = {
            'offset': "0",
            'size': '100%',
            "verify_pattern": "0xFFFF",
            "verify_interval": 4096,
            "do_verify": 1,
            "numjobs": "1",
            "bssplit":
            "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5",
            "multithread_verification": "1"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

    if volType == "online":
        io_patterns()
        assert (media_group.get_media_group_state() == 2)
        for vol in vol_list:
            state = vol.get_vol_state()
            assert ('Online' in state)

    if volType == "degraded":
        # Power off one drive
        media = media_group.md_disk[0]
        logger.info("Powering off drive : %s" % media)
        status = power_off_drive(media, pvlLibHandle)
        time.sleep(5)

        assert (media_group.get_media_group_state() == 6)
        for vol in vol_list:
            state = vol.get_vol_state()
            assert ('Online, degraded' in state)

        # starting io
        io_patterns()

        # poweron the drive again
        logger.info("Powering ON drive : %s" % media)
        status = power_on_drive(media, pvlLibHandle)
        time.sleep(60)

        # start async-rebuild with io
        logger.info("Start rebuild 1>0")
        #status=media_group.synchronous_rebuild_media_group()
        status = media_group.asynchronous_rebuild_media_group()
        time.sleep(10)
        assert (media_group.get_media_group_state() == 2)

    if volType == "critical":
        # poweroff 2  drive
        media = [media_group.md_disk[0]] + [media_group.md_disk[1]]
        logger.info("Powering off drive : %s" % media)
        status = power_off_drive(media, pvlLibHandle)
        time.sleep(5)

        assert (media_group.get_media_group_state() == 7)
        for vol in vol_list:
            state = vol.get_vol_state()
            assert ('Online, critical' in state)

        # starting io
        io_patterns()

        # Poweron one drive
        media = [media_group.md_disk[0]]
        logger.info("Powering ON drive : %s" % media)
        status = power_on_drive(media, pvlLibHandle)
        time.sleep(60)

        media = [media_group.md_disk[1]]
        logger.info("Powering ON drive : %s" % media)
        status = power_on_drive(media, pvlLibHandle)
        time.sleep(60)

        # start async-rebuild
        logger.info("Start rebuild 1>0")
        #status=media_group.synchronous_rebuild_media_group()
        status = media_group.asynchronous_rebuild_media_group()

        assert (media_group.get_media_group_state() == 2)

コード例 #12

ファイル: PDS_one_drive_rebuild.py プロジェクト: lakshkarm/PDS

def pds_one_drive_rebuild():
    #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3], 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)

    #calling base function to populate the objects
    media_group, vol_list = base_function(pvlLibHandle, logger)

    # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status = vol.assign_volume(ports, hostnqn=[])
        assert (status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert (status == 0)

    #start FIO thread here
    temp_file_path = "%s/tmp/run_fio.%s" % (env['TESTDIR'], os.getpid())
    cmd = "touch %s " % temp_file_path
    run(cmd)
    proc = multiprocessing.Process(target=fio.infinite_fio,
                                   args=(vol_list, host, temp_file_path))
    proc.start()
    logger.info('Fio process id code %s' % proc.pid)
    sleep_p(60)

    if proc.is_alive():
        sleep_p(60)
    else:
        logger.error('Fio process failed %s' % proc.pid)
        assert (proc.exitcode == 0)

    try:
        # Power off one drive
        mediaList = media_group.get_media_group_disk()

        for i in range(1):
            media = [mediaList[i]]
            logger.info("Powering off drive : %s" % media)
            status = power_off_drive(media, pvlLibHandle)
            time.sleep(30)

            # poweron the drive again
            logger.info("Powering ON drive : %s" % media)
            status = power_on_drive(media, pvlLibHandle)
            time.sleep(60)
            if proc.is_alive():
                # start async-rebuild with io
                logger.info("Start rebuild 1>0")
                #status=media_group.synchronous_rebuild_media_group()
                status = media_group.asynchronous_rebuild_media_group()

    except Exception as E:
        logger.error('Stack trace for failure \n%s\n' % traceback.format_exc())
        raise E

    finally:
        cmd = "rm -f %s " % temp_file_path
        run(cmd)
        if proc.is_alive():
            proc.join()
        code = proc.exitcode
        if code != 0:
            logger.error('Fio failed on volumes ')
            assert (code == 0)

コード例 #13

def pds_create_mediagroup():
    global logger
    global pvlLibHandle
    log = PvltLogger("rebuild_operation", 'INFO')
    logger = log.logger

    name = MEDIA_GROUP_NAME

    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)

    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        #assert(drv_cnt > 8 )

    md_type = 'RAID-0 (18+0)' if drv_cnt == 18 else 'RAID-6 (7+2)'

    md = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=False)
    media_group = md
    assert (md != None)
    ## deleting mediaGroup
    #print("now deleting the mg in 5 sec")
    #time.sleep(5)
    #media_group.delete_mediagroup()

    ## creaing volumes
    vol_list = []
    for i in range(4):
        volname = str(VOL_PREFIX) + str("_") + str(i)
        vol = VolumeOps(md=media_group,
                        name=volname,
                        size=VOL_SIZE,
                        vol_res=VOL_RES,
                        flavor=FLAVOR,
                        create=True)
        vol_list.append(vol)
    #print("following volumes have been created : %s"%vol_list)
    #'''
    ## assign volume
    ports = get_two_port_diff_ctlr(ZONE)
    for v in vol_list:
        assign = v.assign_volume(ports)
    #connecting  voluems to the host
    for v in vol_list:
        host = HostOps(HOST[0])
        status = host.connect_volume(v)
        #assert(status==0)
    # stert fio on all the volumes
    #'''
    def startIO():
        p1 = multiprocessing.current_process()
        logger.info("Starting : %s : %s" % (p1.name, p1.pid))
        print "Starting :", p1.name, p1.pid
        host = HostOps(HOST[0])  # getting host object
        fio = FioUtils()  # getting fio object
        kwargs = {
            'size': '100%',
            "verify_pattern": "0xABCD",
            "verify_interval": 4096,
            "do_verify": 1
        }
        status, response = fio.rand_read_write(vol_list, host, kwargs)
        assert (status == 0)

    ### getting used disks in the mediaGroup
    def rebuld_loop(no_of_iterations):
        p2 = multiprocessing.current_process()
        logger.info("Starting : %s : %s" % (p2.name, p2.pid))
        print "Starting", p2.name, p2.pid
        for i in range(no_of_iterations):
            mediaList = media_group.get_media_group_disk()
            media = [mediaList[0], mediaList[1]]
            status = power_off_drive(media, pvlLibHandle)
            time.sleep(30)
            status = power_on_drive(media, pvlLibHandle)
            time.sleep(120)
            status = media_group.rebuild_media_group()
            logger.info(status)
            time.sleep(60)
            #assert (status==0)

    p1 = multiprocessing.Process(name="StartFio", target=startIO)
    p1.deamon = False
    p2 = multiprocessing.Process(name="2_drive_rebuld",
                                 target=rebuld_loop,
                                 args=(10, ))
    p2.deamon = True

    p1.start()
    p2.start()
    p1.join()
    p2.join()

コード例 #14

ファイル: PDS_raid_IO_sanity_single_path.py プロジェクト: lakshkarm/PDS

def pds_critical_vol_IO_sanity():
    #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3], 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)

    #calling base function to populate the objects
    media_group, vol_list = base_function(pvlLibHandle, logger)

    # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status = vol.assign_volume(ports, hostnqn=[])
        assert (status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert (status == 0)

    # poweroff 2  drive
    mediaList = media_group.get_media_group_disk()
    media = [mediaList[0]] + [mediaList[1]]
    logger.info("Powering off drive : %s" % media)
    status = power_off_drive(media, pvlLibHandle)

    for i in range(1):
        snap_list = []
        #star fresh write on all the volumes
        logger.info("Starting fresh write on the vol-seq_write")
        kwargs = {
            'offset':
            "0",
            'size':
            '50%',
            "verify_pattern":
            "0xABCD",
            "verify_interval":
            4096,
            "do_verify":
            1,
            "bssplit":
            "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        # start overwrite with same pattern
        logger.info("Starting over-write with same pattern -vol-seq_write")
        kwargs = {
            'offset':
            "0",
            'size':
            '50%',
            "verify_pattern":
            "0xABCD",
            "verify_interval":
            4096,
            "do_verify":
            1,
            "bssplit":
            "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)
        '''
        # start overwrite with diff pattern (rw=rw,splitbs)
        logger.info("Starting over-write with diff pattern -rw=rw")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDffff","verify_interval":4096,"do_verify":1,
                  "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
        status,response=fio.seq_read_write(vol_list, host, kwargs)
        assert (status == 0)

        # start overwrite with diff pattern (rw=randrw,splitbs)
        logger.info("Starting over-write with diff pattern -rw=randrw")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDabcd","verify_interval":4096,"do_verify":1,
                  "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
        status,response=fio.rand_read_write(vol_list, host, kwargs)
        assert (status == 0) 

        # randwrite on online vol 
        logger.info("Starting over-write with diff pattern -rw=randwrite")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDabcd","verify_interval":4096,"do_verify":1,
                  "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
        status,response=fio.rand_write(vol_list, host, kwargs)
        assert (status == 0)
        '''

    # Poweron one drive and start the rebuild
    media = [mediaList[0]]
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(60)

    # start rebuild with IO
    logger.info("Start rebuild 2>1")
    #status=media_group.synchronous_rebuild_media_group()
    status = media_group.asynchronous_rebuild_media_group()
    time.sleep(60)

    # starting IO load
    #logger.info("Starting over-write with diff pattern -rw=randrw")
    #kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDabcd","verify_interval":4096,"do_verify":1,
    #          "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
    #status,response=fio.rand_read_write(vol_list, host, kwargs)
    #assert (status == 0)

    # Poweron second drive and start the rebuild
    media = [mediaList[1]]
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(60)
    # start async-rebuild
    logger.info("Start rebuild 1>0")
    #status=media_group.synchronous_rebuild_media_group()
    status = media_group.asynchronous_rebuild_media_group()

    # starting IO load
    logger.info("Starting over-write with diff pattern -rw=randrw")
    kwargs = {
        'offset': "0",
        'size': '50%',
        "verify_pattern": "0xABCDabcd",
        "verify_interval": 4096,
        "do_verify": 1,
        "bssplit":
        "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"
    }
    status, response = fio.rand_read_write(vol_list, host, kwargs)
    assert (status == 0)

コード例 #15

ファイル: PDS_vol_restore_raid6.py プロジェクト: lakshkarm/PDS

def pds_rollback_with_clone():
           #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)

        #calling base function to populate the objects
    media_group,vol = base_function(pvlLibHandle,logger)

        # assigning vol 
    ports= get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True) 

        # connect vol 
    logger.info("connecting vol to the host")
    status = host.connect_volume(vol)
    assert(status == 0)

        # write on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_write([vol], host, kwargs)
    assert (status==0)

        # Creating a snapshot
    logger.info("Creating a snapshot : %s"%SNAP_PREFIX)
    snapshot = SnapShotOps(SNAP_PREFIX,volobj=vol,create=True)
    assert(snapshot != None)

        # create clone
    clone_name = str(SNAP_PREFIX)+str("_c1")
    logger.info("Creating clone name : %s"%clone_name)
    cloneObj = CloneOps(clone_name,snapshot,create=True)

        # assign clone 
    logger.info("Assigning clone %s to contollers"%cloneObj.name)
    assign = cloneObj.assign_clone(ports,hostnqn=[])

        # connect clone to the host 
    logger.info("Connecting clone %s to the host"%cloneObj.name)
    status = host.connect_volume(cloneObj)
    assert(status==0)

        # start IO on the clone 
    logger.info("Staring write IO to the clone %s"%clone_name)
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_write([cloneObj], host, kwargs)
    assert (status==0)

       # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xffff","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_write([vol], host, kwargs)
    assert (status==0)

        # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)

        # unassign  the vol
    status = vol.unassign_volume()
    assert(status == True)

        # restore the volumes using s2
    status = vol.vol_rollback(snapshot,backup="true")
    assert(status == True)

        # connect the vol & verify the data
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True)

    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    assert(status == 0)

    logger.info("Reading from the raw device")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_read([vol], host, kwargs)
    assert (status==0)

        # delete forensic snapshot
    status = snapshot.delete_all_forensic_snap()
    assert(status == True)

        # disconnect the vol to run teardown
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)

        # disconnet the clone
    logger.info("disconnecting clone  : %s"%cloneObj.name)
    status = host.disconnect_volume(cloneObj)
    time.sleep(10)

コード例 #16

ファイル: PDS_vol_restore_raid6.py プロジェクト: lakshkarm/PDS

def pds_rollback_with_IO():
        #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)

        #calling base function to populate the objects
    media_group,vol = base_function(pvlLibHandle,logger)

        # assign the vol 
    ports= get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True)

        # connet to the host 
    status = host.connect_volume(vol)
    assert(status == 0)

       #start fio on all the volumes 
    logger.info("Starting write on the vol-seq_write")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_write([vol], host, kwargs)
    assert (status == 0)

       #Taking snaphost 
    logger.info("Taking snapshot :%s"%SNAP_PREFIX)
    snapshot = SnapShotOps(SNAP_PREFIX,volobj=vol,create=True)
    assert(snapshot != None)

       #Write on remaning space of the volumes 
    logger.info("Starting write on other space of the vol ")
    kwargs = {'offset':"45g",'size':'5g',"verify_pattern":"0xffff","verify_interval":4096,"do_verify":1}
    status,response=fio.rand_write([vol], host, kwargs)
    assert (status == 0)

       #disconnect the vol 
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)

       # unassign  the vol 
    status = vol.unassign_volume()
    assert(status == True)

       #restore using latest snapshot 
    status = vol.vol_rollback(snapshot,backup="true")
    assert(status == True)

       #cheking data integrity by rading the volumes data 
       #assign and then connecting the vol 
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True)

    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    assert(status == 0)

    logger.info("Reading from the raw device")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_read([vol], host, kwargs)
    assert (status==0)

       #delete forensic snapshot
    status = snapshot.delete_all_forensic_snap()
    assert(status == True)

       # disconnect the vol to run teardown
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)

コード例 #17

def pds_ctrl_fofb():
        #objects initialization & Authentication 
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)
    ctrl_id = list(get_all_ids_in_zone(ZONE))
    ctrl_obj_0 = ControllerOps(pvlLibHandle,ctrl_id[0],"rdma")
    ctrl_obj_1 = ControllerOps(pvlLibHandle,ctrl_id[1],"rdma")


        #calling base function to populate the objects 
    media_group,vol_list = base_function(pvlLibHandle,logger)

        # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status  = vol.assign_volume(ports,hostnqn=[])
        assert(status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert(status == 0)
    
    def startIO():
        p1 = multiprocessing.current_process()
        logger.info("Starting : %s : %s"%(p1.name,p1.pid))
        print "Starting :",p1.name,p1.pid
        logger.info("Starting write on the vol-seq_write")
        kwargs = {'offset':"0",'size':'100%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
        status,response=fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        
        #start fio on all the volumes
    p1 = multiprocessing.Process(name="StartFio",target=startIO)
    p1.start()
     #logger.info("Starting write on the vol-seq_write")
     #kwargs = {'offset':"0",'size':'1%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
     #status,response=fio.seq_write(vol_list, host, kwargs)
     #assert (status == 0) 
    # start FOFB with fresh write
    logger.info("Start controler poweroff/on")
    for i in range(10):
        # controller poeroff
        status = ctrl_obj_0.power_off()
        #assert(status == True)
        time.sleep(60)

        # controller poweron
        status = ctrl_obj_0.power_on()
        #assert(status == True)
        time.sleep(150)
        
        # poweroff/on another controller
        status = ctrl_obj_1.power_off()
        #assert(status == True)
        time.sleep(60)
        
        # poweroff/on another controller
        status = ctrl_obj_1.power_on()
        #assert(status == True)
        time.sleep(60)

    p1.join()
        
    #disconnect the vol
    for vol in vol_list:
        logger.info("disconnecting the vol from the host")
        status = host.disconnect_volume(vol)
        time.sleep(10)

コード例 #18

ファイル: PDS_raid_IO_sanity_single_path.py プロジェクト: lakshkarm/PDS

def pds_online_vol_IO_sanity():
    #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3], 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)

    #calling base function to populate the objects
    media_group, vol_list = base_function(pvlLibHandle, logger)

    # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status = vol.assign_volume(ports, hostnqn=[])
        assert (status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert (status == 0)

    for i in range(1):
        snap_list = []
        #star fresh write on all the volumes
        logger.info("Starting fresh write on the vol-seq_write")
        kwargs = {
            'offset':
            "0",
            'size':
            '50%',
            "verify_pattern":
            "0xABCD",
            "verify_interval":
            4096,
            "do_verify":
            1,
            "bssplit":
            "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        # start overwrite with same pattern
        logger.info("Starting over-write with same pattern -vol-seq_write")
        kwargs = {
            'offset':
            "0",
            'size':
            '50%',
            "verify_pattern":
            "0xABCD",
            "verify_interval":
            4096,
            "do_verify":
            1,
            "bssplit":
            "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)
        ''' 
        # start overwrite with diff pattern (rw=rw,splitbs)
        logger.info("Starting over-write with diff pattern -rw=rw")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDffff","verify_interval":4096,"do_verify":1,
                  "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
        status,response=fio.seq_read_write(vol_list, host, kwargs)
        assert (status == 0)

        # start overwrite with diff pattern (rw=randrw,splitbs)
        logger.info("Starting over-write with diff pattern -rw=randrw")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDabcd","verify_interval":4096,"do_verify":1,
                  "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
        status,response=fio.rand_read_write(vol_list, host, kwargs)
        assert (status == 0) 

        # randwrite on online vol 
        logger.info("Starting over-write with diff pattern -rw=randwrite")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCDabcd","verify_interval":4096,"do_verify":1,
                  "bssplit":"4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5"}
        status,response=fio.rand_write(vol_list, host, kwargs)
        assert (status == 0)

        for vol in vol_list:
               #Taking snaphost 
            snap_name = str(vol.name) + str("_%s"%SNAP_PREFIX)
            logger.info("Taking snapshot :%s"%snap_name)
            snapshot = SnapShotOps(snap_name,volobj=vol,create=True)
            assert(snapshot != None)
            snap_list.append(snapshot)
    
           #Write on remaning space of the volumes 
        logger.info("Starting write on other space of the vol ")
        kwargs = {'offset':"0",'size':'1%',"verify_pattern":"0xffff","verify_interval":4096,"do_verify":1}
        status,response=fio.rand_write(vol_list, host, kwargs)
        assert (status == 0)
        
        # delete snapshot 
        for snap in snap_list:
            status = snap.delete_snapshot()
            assert (status == True)
        time.sleep(600)
        '''
    #disconnect the vol
    for vol in vol_list:
        logger.info("disconnecting the vol from the host")
        status = host.disconnect_volume(vol)
        time.sleep(10)

コード例 #19

def pds_online_vol_IO_sanity():
        #objects initialization & Authentication 
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)
    ctrl_id = list(get_all_ids_in_zone(ZONE))
    ctrl_obj_0 = ControllerOps(pvlLibHandle,ctrl_id[0],"rdma")
    ctrl_obj_1 = ControllerOps(pvlLibHandle,ctrl_id[1],"rdma")


        #calling base function to populate the objects 
    media_group,vol_list = base_function(pvlLibHandle,logger)

        # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status  = vol.assign_volume(ports,hostnqn=[])
        assert(status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert(status == 0)


    def startIO():
        p1 = multiprocessing.current_process()
        logger.info("Starting : %s : %s"%(p1.name,p1.pid))
        print "Starting :",p1.name,p1.pid
        logger.info("Starting write on the vol-seq_write")
        kwargs = {'offset':"0",'size':'50%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1,
                    "bs":"64k"}
        status,response=fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)
    
 #    # start FIO thread here
 #
 #    temp_file_path = "%s/tmp/run_fio.%s"%(env['TESTDIR'] ,os.getpid())
 #    cmd = "touch %s "%temp_file_path
 #    run(cmd)
 #    proc=multiprocessing.Process(target=fio.infinite_fio,args=(vol_list, host, temp_file_path))
 #    proc.start()
 #    logger.info('Fio process id code %s'%proc.pid)
 #    sleep_p(60)
 #    if proc.is_alive():
 #        sleep_p(60)
 #    else:
 #        logger.error('Fio process failed %s'%proc.pid)
 #        assert(proc.exitcode==0)
 #
 #    cmd = "rm -f %s "%temp_file_path
 #    run(cmd)
 #    if proc.is_alive():
 #        proc.join()
 #    print"fio run finished"

 #    ## start graceful FOFB while the IOs are running
 #    #start fio on all the volumes
 #    p1 = multiprocessing.Process(name="StartFio",target=startIO)
 #    logger.info("starting IOs just in parallel with FOFB operations")
 #    p1.start()
 #    time.sleep(5)

    def rebuilds_func():
        # starting one driver rebuild
        # Power off one drive
        mediaList = media_group.get_media_group_disk()
        for i in range(1):
            media = [mediaList[i]]
            logger.info("Powering off drive : %s"%media)
            status = power_off_drive(media,pvlLibHandle)
            time.sleep(30)

            # poweron the same drive
            logger.info("Powering ON drive : %s"%media)
            status = power_on_drive(media,pvlLibHandle)
            time.sleep(60)

            # start rebuild with io
            logger.info("Start rebuild 1>0")
            #status=media_group.synchronous_rebuild_media_group()
            #status=media_group.asynchronous_rebuild_media_group()
            assert(media_group.synchronous_rebuild_media_group())
            time.sleep(60)

        ## starting 2 drive rebuild
        for i in range(10):
            media = [mediaList[0]] + [mediaList[1]]
            logger.info("Powering off drive : %s"%media)
            status = power_off_drive(media,pvlLibHandle)
            time.sleep(60)

            # poweron the drive again
            logger.info("Powering ON drive : %s"%media)
            status = power_on_drive(media,pvlLibHandle)
            time.sleep(60)

            # start async-rebuild with io
            logger.info("Start rebuild 1>0")
            #status=media_group.synchronous_rebuild_media_group()
            #status=media_group.asynchronous_rebuild_media_group()
            assert(media_group.synchronous_rebuild_media_group())
            time.sleep(60)

        ## 2>1 && 1>0 rebuild
          #mediaList = media_group.get_media_group_disk()
            media = [mediaList[2]] + [mediaList[3]]
            logger.info("Powering off drive : %s"%media)
            status = power_off_drive(media,pvlLibHandle)
            time.sleep(60)
          # Poweron one drive and start the rebuild
            media = [mediaList[2]]
            logger.info("Powering ON drive : %s"%media)
            status = power_on_drive(media,pvlLibHandle)
            time.sleep(60)

            # start rebuild with IO
            logger.info("Start rebuild 2>1")
            #status=media_group.synchronous_rebuild_media_group()
            status=media_group.asynchronous_rebuild_media_group()
            time.sleep(60)
        if proc.is_alive():
            # Poweron second drive and start the rebuild
            media = [mediaList[3]]
            logger.info("Powering ON drive : %s"%media)
            status = power_on_drive(media,pvlLibHandle)
            time.sleep(60)
            # start async-rebuild
            logger.info("Start rebuild 1>0")
            #status=media_group.synchronous_rebuild_media_group()
            #status=media_group.asynchronous_rebuild_media_group()
            assert(media_group.synchronous_rebuild_media_group())
            time.sleep(60)

    def graceful_fofb():
        logger.info("Starting graceful FOFB power-off/on")
        for i in range(1):
            # controller poeroff
            status = ctrl_obj_0.power_off()
            #assert(status == True)
            time.sleep(60)

            # controller poweron
            status = ctrl_obj_0.power_on()
            #assert(status == True)
            time.sleep(150)

            # poweroff/on another controller
            status = ctrl_obj_1.power_off()
            #assert(status == True)
            time.sleep(60)

            # poweroff/on another controller
            status = ctrl_obj_1.power_on()
            #assert(status == True)
            time.sleep(60)
    
    def resize_vol(vol_list):
        for vol in vol_list:
            logger.info(" vol size before resize operation is : %s"%vol.vol_size)
            status =  host.get_vol_size(vol)
            print status

            # vol growing by 100G
            logger.info("follwing vol is getting grown by 100GB : %s"%vol.name)
            status = vol.volume_grow()
            assert(status == True)

            ## rescan the vol on the host
            status = host.get_added_vol_capacity(vol)
            #printing new size of the vol
            logger.info(" vol size after resize operation is : %s"%vol.vol_size)
            status = host.get_vol_size(vol)
            print status

    
#start FIO thread here
    temp_file_path = "%s/tmp/run_fio.%s"%(env['TESTDIR'] ,os.getpid())
    cmd = "touch %s "%temp_file_path
    run(cmd)
    proc=multiprocessing.Process(target=fio.infinite_fio,args=(vol_list, host, temp_file_path))
    proc.start()
    logger.info('Fio process id code %s'%proc.pid)
    sleep_p(60)
    if proc.is_alive():
        sleep_p(60)
    else:
        logger.error('Fio process failed %s'%proc.pid)
        assert(proc.exitcode==0)

    try:
        
#1# now starting graceful FOFB operations 
        logger.info("Starting graceful FOFB power-off/on")
        if proc.is_alive():
            graceful_fofb()

## take snapshot and clones here
            
#2# Now perfrom 1>0 || 2>0 || 2>1,1>0 rebuild
        if proc.is_alive():
            rebuilds_func()

#3# now starting graceful FOFB operations
        logger.info("Starting graceful FOFB power-off/on")
        if proc.is_alive():
            graceful_fofb()

#00# take the clone and overwrite on it  <<< i will implement this section after vol resize loop 

 
#4# grow vol and do the stuffs 
        if proc.is_alive():
            resize_vol(vol_list)

#5# Now again do the FOFB operations 
        logger.info("Starting graceful FOFB power-off/on")
        if proc.is_alive():
           graceful_fofb()

#6# Now perfrom 1>0 || 2>0 || 2>1,1>0 rebuild 
        if proc.is_alive():
           rebuilds_func()

#7# Start FOFB
        if proc.is_alive():
           graceful_fofb()

#8# Now perfrom 1>0 || 2>0 || 2>1,1>0 rebuild
        if proc.is_alive():
            rebuilds_func()

    except Exception as E:
        logger.error('Stack trace for failure \n%s\n'%traceback.format_exc())
        raise E
        
    finally:
        cmd = "rm -f %s "%temp_file_path
        run(cmd)
        if proc.is_alive():
            proc.join()
        code = proc.exitcode
        if code != 0 :
            logger.error('Fio failed on volumes ')
            assert(code == 0 )

コード例 #20

ファイル: PDS_vol_restore_raid6.py プロジェクト: lakshkarm/PDS

def pds_rollback_with_rebuild_20():
        #objects initialization & Authentication
    log = PvltLogger(inspect.stack()[0][3],'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0",CHASSIS_IP,logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER,password=CHASSIS_PASS)

        #calling base function to populate the objects
    media_group,vol = base_function(pvlLibHandle,logger)

        # assign the vol
    ports= get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True)

        # connet to the host
    status = host.connect_volume(vol)
    assert(status == 0)

        # powring off two drives 
    mediaList = media_group.get_media_group_disk()
    media = [mediaList[0]] + [mediaList[1]]
    logger.info("Powering OFF drive : %s"%media)
    status = power_off_drive([media_group.md_disk[1],media_group.md_disk[0]],pvlLibHandle)

        # write on the voluem
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_write([vol], host, kwargs)
    assert (status==0)

        #Taking snaphost
    logger.info("Taking snapshot :%s"%SNAP_PREFIX)
    snapshot = SnapShotOps(SNAP_PREFIX,volobj=vol,create=True)
    assert(snapshot != None)

        # poweron the drives 
    logger.info("Powering ON drive : %s"%media)
    status = power_on_drive(media,pvlLibHandle)
    time.sleep(60)

        # start rebuild 
    logger.info("Start rebuild 2>0")
    status=media_group.synchronous_rebuild_media_group()

        # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xffff","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_write([vol], host, kwargs)
    assert (status==0)

        # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)

        # unassign  the vol
    status = vol.unassign_volume()
    assert(status == True)

        # restore the volumes using s2
    status = vol.vol_rollback(snapshot,backup="true")
    assert(status == True)

        # connect the vol & verify the data
    logger.info("Assigning vols ")
    status  = vol.assign_volume(ports,hostnqn=[])
    assert(status == True)

    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    assert(status==0)
    logger.info("Reading from the raw device")
    kwargs = {'offset':"0",'size':'40%',"verify_pattern":"0xABCD","verify_interval":4096,"do_verify":1}
    status,response=fio.seq_read([vol], host, kwargs)
    assert (status==0)

         # delete forensic snapshot
    status = snapshot.delete_all_forensic_snap()
    assert(status == True)

        # disconnect the vol to run teardown
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)

コード例 #21

def IO_sanity_func(volType="online", funcname="pds_online_vol_IO_sanity"):
    log = PvltLogger(funcname, 'INFO')
    logger = log.logger
    host = HostOps(HOST[0])
    fio = FioUtils()
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    media_group, vol_list = base_function(pvlLibHandle, logger)

    # assigning vol
    ports = get_volume_network_map(pvlLibHandle, ZONE)
    logger.info("Assigning vols ")
    for vol in vol_list:
        status = vol.assign_volume(ports, hostnqn=[])
        assert (status == True)

        # connet to the host
        status = host.connect_volume(vol)
        assert (status == 0)

    def io_patterns():
        io_pattern = [
            '0x5aef', '0xa1e', '0xb1', '0xfda789', '0xfefee', '0xaaaa',
            '0xffff', '0xaee4', '0xbebe1234', '0xfff1aaa1'
        ]
        bs = [
            "4k", "8k", "16k", "32k", "64k", "128k", "256k", "512k", "1M", "2M"
        ]
        #io_type = ["seq_write:seq_read","rand_write:rand_read",]
        ## IO operations along with dif pattern

        for pattern, block_size in zip(io_pattern, bs):
            logger.info("Starting IO  on all the volumes")
            kwargs = {
                'offset': "20k",
                'size': '70%',
                "verify_pattern": pattern,
                "verify_interval": 4096,
                "do_verify": 1,
                "bs": block_size
            }
            logger.info("Starting Seq_write")
            # start write
            status, response = fio.seq_write(vol_list, host, kwargs)
            assert (status == 0)

            logger.info("Starting Seq_read")
            # start read with the same pattern
            status, response = fio.seq_read(vol_list, host, kwargs)
            assert (status == 0)

            logger.info("Starting rand_write")
            # start rand_write & read
            status, response = fio.rand_write(vol_list, host, kwargs)
            assert (status == 0)

            logger.info("Starting rand_read")
            status, response = fio.rand_read(vol_list, host, kwargs)
            assert (status == 0)

            logger.info("Starting Seq_read_write")
            # seq_read_write
            status, response = fio.seq_read_write(vol_list, host, kwargs)
            assert (status == 0)

            logger.info("Starting rand_read_write")
            # rand_read_write
            status, response = fio.rand_read_write(vol_list, host, kwargs)
            assert (status == 0)

        # starting multijob FIO load but without verification
        logger.info(
            "Starting multithreaded  write without verification  on the vol-seq_write"
        )
        kwargs = {
            'offset': "0",
            'size': '80%',
            "numjobs": "8",
            "bsrange": "4k-2M"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

        # Starting mutithreaded write with verification
        logger.info(
            "Starting  mutithreaded-write with verification on the vol-seq_write"
        )
        kwargs = {
            'offset': "0",
            'size': '100%',
            "verify_pattern": "0xFFFF",
            "verify_interval": 4096,
            "do_verify": 1,
            "numjobs": "1",
            "bssplit":
            "4k/15:16k/15:32k/15:64k/15:128k/15:256k/10:512k/5:1m/5:2m/5",
            "multithread_verification": "1"
        }
        status, response = fio.seq_write(vol_list, host, kwargs)
        assert (status == 0)

    if volType == "online":
        io_patterns()
        #assert(media_group.get_media_group_state() == 2)
        #for vol in vol_list:
        #state = vol.get_vol_state()
        #assert('Online' in state)

    if volType == "degraded":
        # Power off one drive
        media = media_group.md_disk[0]
        logger.info("Powering off drive : %s" % media)
        status = power_off_drive(media, pvlLibHandle)
        time.sleep(5)
        #assert(media_group.get_media_group_state() == 6)
        #for vol in vol_list:
        #state = vol.get_vol_state()
        #assert('Online, degraded' in state)

        # starting io
        io_patterns()

        # poweron the drive again
        logger.info("Powering ON drive : %s" % media)
        status = power_on_drive(media, pvlLibHandle)
        time.sleep(60)

    if volType == "critical":
        # poweroff 2  drive
        media = [media_group.md_disk[0]] + [media_group.md_disk[1]]
        logger.info("Powering off drive : %s" % media)
        status = power_off_drive(media, pvlLibHandle)
        time.sleep(5)

        #assert(media_group.get_media_group_state() == 7)
        #for vol in vol_list:
        #state = vol.get_vol_state()
        #assert('Online, critical' in state)

        # starting io
        io_patterns()

        # Poweron one drive
        media = [media_group.md_disk[0]]
        logger.info("Powering ON drive : %s" % media)
        status = power_on_drive(media, pvlLibHandle)
        time.sleep(60)
        media = [media_group.md_disk[1]]
        logger.info("Powering ON drive : %s" % media)
        status = power_on_drive(media, pvlLibHandle)
        time.sleep(60)

コード例 #22

def pds_vol_restore_sanity():
    host = HostOps(HOST[0])
    fio = FioUtils()
    # give function name as log file name
    log = PvltLogger("Volume_restore", 'INFO')
    logger = log.logger
    name = MEDIA_GROUP_NAME
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    ## velidation for prerequisits
    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        sys.exit()
    if VOL_CNT > 1:
        logger.error(
            'Update the configuration As this test is currently written for 1 vol only'
        )
        sys.exit()
    md_type = MEDIA_GROUP_TYPE
    ## creating mediaGroup
    logger.info("Creating a MediaGroup")
    media_group = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=True)
    assert (media_group != None)
    ## creaing volumes
    logger.info("Creating voluems")
    #vol_list = []
    volname = VOL_PREFIX
    vol = VolumeOps(md=media_group,
                    name=volname,
                    size=VOL_SIZE,
                    vol_res=VOL_RES,
                    flavor=FLAVOR,
                    create=True)
    assert (vol != None)

    #Creating a snapshot
    snap_name = "s1"
    logger.info("Creating a snapshot : %s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol, create=True)
    assert (snapshot != None)

    ################################ 1 Vol restore for unassigned volume
    # Restore the vol using its snapshot
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    #print("1 Vol restore for unassigned volume: PASS")

    ################################ 2 Vol restore after assign volume
    ports = get_two_port_diff_ctlr(ZONE)
    logger.info("Assigning vols ")
    status = vol.assign_volume(ports, hostnqn=[])
    assert (status == True)
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    #print("2 Vol restore after assign volume:PASS")

    ################################## delete s1 and its child snapshot
    #  Need to write forensic snapshots deletion code
    ################################## 3. Vol restore after 5% IO on the vol
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    #start fio on all the volumes
    logger.info("Starting write on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # Taking snaphost
    snap_name = "s2"
    logger.info("Taking snapshot :%s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol, create=True)
    assert (snapshot != None)
    # Write on remaning space of the volumes
    logger.info("Starting write on other space of the vol ")
    kwargs = {
        'offset': "45g",
        'size': '5g',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.rand_read_write([vol], host, kwargs)
    assert (status == 0)
    # disconnect the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore using latest snapshot
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # cheking data integrity by rading the volumes data
    # connecting the vol
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    assert (status == 0)
    print("3. Vol restore after 5% IO on the vol:PASS")

    ################################ 4. Vol restore for degraded volumes
    # Power off one drive
    mediaList = media_group.get_media_group_disk()
    media = [mediaList[0]]
    logger.info("Powering off drive : %s" % media)
    status = power_off_drive(media, pvlLibHandle)
    time.sleep(30)
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore the volumes using s2
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    print("4. Vol restore for degraded volumes:PASS")

    ################################ 5. Vol restore for critical voluems
    # poweroff one more drive
    media = [mediaList[1]]
    logger.info("Powering off drive : %s" % media)
    status = power_off_drive(media, pvlLibHandle)
    time.sleep(30)
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore the volumes using s2
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    print("5. Vol restore for critical voluems:PASS")

    ################################ 6. Vol restore with rebuild (2>1)
    # Poweron one drive and start the rebuild
    media = [mediaList[0]]
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(120)
    logger.info("Start rebuild 2>1")
    status = media_group.rebuild_media_group()
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore the volumes using s2
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    print("6. Vol restore with rebuild (2>1):PASS")

    ################################ 7. Vol restore with rebuild (1>0)
    media = [mediaList[1]]
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(120)
    logger.info("Start rebuild 1>0")
    status = media_group.rebuild_media_group()
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore the volumes using s2
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    print("7. Vol restore with rebuild (1>0):PASS")

    ################################ 8. Vol restore with rebuild (2>0)
    media = [media_group.md_disk[1], media_group.md_disk[0]]
    logger.info("Powering OFF drive : %s" % media)
    status = power_off_drive([media_group.md_disk[1], media_group.md_disk[0]],
                             pvlLibHandle)
    time.sleep(60)
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive([media_group.md_disk[1], media_group.md_disk[0]],
                            pvlLibHandle)
    time.sleep(60)
    # start rebuild
    logger.info("Start rebuild 2>0")
    status = media_group.rebuild_media_group()
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore the volumes using s2
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    print("8. Vol restore with rebuild (2>0):PASS")

    ################################ 9. Vol restore with clone is connected to the host
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write([vol], host, kwargs)
    assert (status == 0)
    # create clone
    clone_list = []
    clone_name = str(snap_name) + str("_c1")
    logger.info("Creating clone name : %s" % clone_name)
    cloneObj = CloneOps(clone_name, snapshot, create=True)
    clone_list.append(cloneObj)
    # assign clone
    logger.info("Assigning clone %s to contollers" % clone_name)
    assign = cloneObj.assign_clone(ports, hostnqn=[])
    # connect clone to the host
    logger.info("Connecting clone %s to the host" % clone_name)
    status = host.connect_volume(cloneObj)
    time.sleep(10)
    assert (status == 0)
    # start IO on the clone
    logger.info("Staring write IO to the clone %s" % clone_name)
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(clone_list, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = host.disconnect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    # restore the volumes using s2
    #status = snapshot.vol_restore()
    #assert(status == True)
    #time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = host.connect_volume(vol)
    time.sleep(10)
    assert (status == 0)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read([vol], host, kwargs)
    print("9. Vol restore with clone is connected to the host:PASS")

コード例 #23

ファイル: vol_restore.py プロジェクト: lakshkarm/PDS

def pds_vol_restore_sanity():
    host = HostOps(HOST[0])
    fio = FioUtils()
    # give function name as log file name
    log = PvltLogger("Volume_restore", 'INFO')
    logger = log.logger
    name = MEDIA_GROUP_NAME
    pvlLibHandle = pvlclient.New("2.0", CHASSIS_IP, logger=logger)
    result = pvlLibHandle.auth.login(user=CHASSIS_USER, password=CHASSIS_PASS)
    ## creating mediaGroup
    drv_cnt = get_active_drive_count(ZONE, pvlLibHandle)
    logger.info(ZONE)
    logger.info(drv_cnt)
    if drv_cnt < 9:
        logger.error('Not sufficient drives active drive count=%s' % drv_cnt)
        #assert(drv_cnt > 8 )

    # take it from config
    md_type = 'RAID-0 (18+0)' if drv_cnt == 18 else 'RAID-6 (7+2)'
    logger.info("Creating a MediaGroup")
    md = MediaGroupOps(pvlLibHandle, name, ZONE, md_type, create=False)
    media_group = md
    assert (md != None)
    ## creaing volumes
    logger.info("Creating voluems")
    vol_list = []
    for i in range(1):
        # dont use + fro contact use %
        volname = str(VOL_PREFIX) + str("_") + str(i)
        volname = '%s_%s' % (VOL_PREFIX, i)
        vol = VolumeOps(md=media_group,
                        name=volname,
                        size=VOL_SIZE,
                        vol_res=VOL_RES,
                        flavor=FLAVOR,
                        create=False)
        vol_list.append(vol)
    #Creating a snapshot
    snap_name = "s1"
    logger.info("Creating a snapshot : %s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol_list[0], create=False)
    assert (snapshot != None)

    ################################ 1 Vol restore for unassigned volume
    # Restore the vol using its snapshot
    snap_id = snapshot.snap_id
    print snap_id
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    print("1 Vol restore for unassigned volume: PASS")

    ################################ 2 Vol restore after assign volume
    ports = get_two_port_diff_ctlr(ZONE)
    logger.info("Assigning vols ")
    assign = [v.assign_volume(ports, hostnqn=[]) for v in vol_list]
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    print("2 Vol restore after assign volume:PASS")

    ################################## delete s1 and its child snapshot
    #vol,snap_list,clone_list = list_existing_obj(md.name)
    #for snap in snap_list:
    #snap_to_delete = SnapShotOps(snap,volobj=vol_list[0])
    #if snap != snap_name:
    #status = snap_to_delete.delete_snapshot
    #assert(status != None)
    #result = pvlLibHandle.storage.get_snapshot
    #print result
    #print json.dumps(result,indent=4)
    ################################## 3. Vol restore after 5% IO on the vol
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    #stert fio on all the volumes
    logger.info("Starting write on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    # Taking snaphost
    snap_name = "s2"
    logger.info("Taking snapshot :%s" % snap_name)
    snapshot = SnapShotOps(snap_name, volobj=vol_list[0], create=True)
    assert (snapshot != None)
    # Write on remaning space of the volumes
    logger.info("Starting write on other space of the vol ")
    kwargs = {
        'offset': "45g",
        'size': '5g',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.rand_read_write(vol_list, host, kwargs)
    assert (status == 0)
    # disconnect the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    #assert(status==0)
    # restore using latest snapshot
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    snap_id = snapshot.snap_id
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # cheking data integrity by rading the volumes data
    # connecting the vol
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    assert (status == 0)
    print("3. Vol restore after 5% IO on the vol:PASS")

    ################################ 4. Vol restore for degraded volumes
    # Power off one drive
    mediaList = media_group.get_media_group_disk()
    media = [mediaList[0]]
    logger.info("Powering off drive : %s" % media)
    status = power_off_drive(media, pvlLibHandle)
    time.sleep(30)
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    # restore the volumes using s2
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    print("4. Vol restore for degraded volumes:PASS")

    ################################ 5. Vol restore for critical voluems
    # poweroff one more drive
    media = [mediaList[1]]
    logger.info("Powering off drive : %s" % media)
    status = power_off_drive(media, pvlLibHandle)
    time.sleep(30)
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    # restore the volumes using s2
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    print("5. Vol restore for critical voluems:PASS")

    ################################ 6. Vol restore with rebuild (2>1)
    # Poweron one drive and start the rebuild
    media = [mediaList[0]]
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(120)
    logger.info("Start rebuild 2>1")
    status = media_group.rebuild_media_group()
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != None)
    time.sleep(5)
    # restore the volumes using s2
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    print("6. Vol restore with rebuild (2>1):PASS")

    ################################ 7. Vol restore with rebuild (1>0)
    media = [mediaList[1]]
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(120)
    logger.info("Start rebuild 1>0")
    status = media_group.rebuild_media_group()
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    # restore the volumes using s2
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    print("7. Vol restore with rebuild (1>0):PASS")

    ################################ 8. Vol restore with rebuild (2>0)
    media = [mediaList[0], mediaList[1]]
    logger.info("Powering OFF drive : %s" % media)
    status = power_off_drive(media, pvlLibHandle)
    time.sleep(120)
    logger.info("Powering ON drive : %s" % media)
    status = power_on_drive(media, pvlLibHandle)
    time.sleep(120)
    # start rebuild
    logger.info("Start rebuild 2>0")
    status = media_group.rebuild_media_group()
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    # restore the volumes using s2
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    print("8. Vol restore with rebuild (2>0):PASS")

    ################################ 9. Vol restore with clone is connected to the host
    # overwrite on the volume
    logger.info("Starting overwrite on the vol-seq_write")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(vol_list, host, kwargs)
    assert (status == 0)
    # create clone
    clone_name = str(snap_name) + str("_c1")
    cloneObj = CloneOps(clone_name, snapshot, create=True)
    # assign clone
    assign = cloneobj.assign_clone(ports, hostnqn=[])
    # connect clone to the host
    status = host.connect_volume(cloneObj)
    assert (status != 0)
    time.sleep(5)
    # start IO on the clone
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_write(cloneObj, host, kwargs)
    assert (status == 0)
    # disconenct the vol
    logger.info("disconnecting the vol from the host")
    status = [host.disconnect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    # restore the volumes using s2
    logger.info("Running vol_restore using following snaphost : %s" %
                snap_name)
    status = pvlLibHandle.system.generic_api(
        'POST', '/storage/snapshots/%s/restore' % snap_id)
    assert (status != 200)
    time.sleep(60)
    # connect the vol & verify the data
    logger.info("connecting the vol")
    status = [host.connect_volume(v) for v in vol_list]
    assert (status != 0)
    time.sleep(5)
    logger.info("Reading from the raw device")
    kwargs = {
        'offset': "0",
        'size': '5%',
        "verify_pattern": "0xABCD",
        "verify_interval": 4096,
        "do_verify": 1
    }
    status, response = fio.seq_read(vol_list, host, kwargs)
    print("9. Vol restore with clone is connected to the host:PASS")