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BACKUP/GETTING STARTED: Backup School

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Title: BACKUP/GETTING STARTED: Backup School


1
BACKUP/GETTING STARTEDBackup School
  • Presented by
  • W. Curtis Preston
  • VP, Services Development
  • GlassHouse Technologies

2
Making good on your investment
  • Many SANs are built in order to simplify backup
    yet often fail for lack of good design, processes
    and procedures
  • There are several common mistakes that people
    make when building a backup system
  • Avoiding these mistakes and taking proper action
    can create a backup system that is reliable and
    restorable

3
What will we cover?
  • Common backup configuration mistakes
  • How to avoid them
  • Sizing your backup system
  • Configuration examples for NetBackup
  • Configuration examples for NetWorker

4
Common backup configuration mistakes
5
Where do these lessons come from?
  • Audits of real backup and recovery systems
  • Lessons learned from real horror stories
  • Many, many sleepless nights

6
Too little power
  • Not enough tape drives
  • Tape drives that arent fast enough
  • Not enough slots in the tape library
  • Not enough bandwidth to the server

7
Too much power
  • Streaming tape drives must be streamed
  • If you dont, you will wear out your tape drives
    and decrease aggregate performance
  • Must match the speed of the pipe to the speed of
    the tape
  • You can actually increase your throughput by
    using fewer tape drives

8
Not using multiplexing
  • Defined Sending multiple backup jobs to the same
    drive simultaneously
  • Again, drives must be streamed
  • Multiplexing will impact restore performance but
    not as much as you might think
  • Multiplexing can actually help your restore just
    as it can help your backups
  • Using multiplexing can greatly increase the
    utilization of your backup hardware

9
Not using multistreaming
  • Defined Sending multiple simultaneous backup
    jobs from a single client
  • Large systems cannot be backed up serially
  • Multistreaming creates a different job for each
    file system

10
Using include lists
  • Most major backup software supports file system
    discovery
  • Still, many administrators use manually created
    include lists
  • Any perceived value is significantly outweighed
    by the risk it creates

11
Too many full backups
  • If you are using a commercial backup and recovery
    product with automated media management and
    multiple levels, weekly full backups are a waste
    of tape, time and money
  • Monthly full backups, weekly cumulative
    incrementals (1), and daily incrementals (9) work
    just as well and use ¼ as much tape
  • Depending on the level of incremental activity,
    quarterly backups can work just as well

12
Not standardizing
  • Creating custom configurations for each client is
    easier, but much riskier
  • Creating a standard backup client configuration
    can significantly decrease risk
  • Create a standard exclude list, etc. and push it
    out to each client

13
Not even noticing!
  • Backups go ignored so often. Its like theyre
    the bill collector nobody wants to talk to.
  • Backup reporting products can really help
    automate easy reporting
  • Dont ignore backups. They will bite you.

14
Its just backups, right?
  • Im an experienced, seasoned systems
    administrator. This is just backups. How hard can
    they be?
  • The data being backed up has become very complex,
    and the complexity of backup systems has matched
    that complexity with equally complex
    functionality.

15
Not thinking about disk
  • Tape is not as cheap as you thought
  • Lets examine a 4 TB library
  • 20 slots, 2 drives 17K
  • 20 tapes, 70 apiece 14K
  • Robotic license 10K
  • Total 41K
  • (does not include labor costs)
  • Thats about 10/GB

16
Disk is cheaper than you thought
  • ATA-based storage arrays as low as 5/GB(disk
    only, needs file system)
  • Special function arrays
  • Quantum DX-30 looks and behaves like a Quantum
    P1000. Can be used as target for tape-based
    backups (3 usable TB, 55K list, or 18/GB)
  • NetApp R100 looks like other NetApp filer.
    Target for SnapVault and disk-based backups,
    source for SnapMirror (9 usable TB, 175K list,
    or 18/GB)
  • ATA disks not suited for heavy, random access,
    but perfect for large block I/O (e.g. backups!)

17
You can do neat things with disk
  • Incremental backups are one of the greatest
    backup performance challenges
  • Use as a target for all incremental backups.
    (Full, too, if you can afford it.)
  • For offsite storage, duplicate all disk-based
    backups to tape
  • Leave disk-based backups on disk

18
Now that I know
  • Building a reliable
  • and restorable backup system

19
Sizing the backup system
20
Server size/Power
  • I/O performance more important than CPU power
  • CPU, memory, I/O expandability paramount
  • Avoid overbuying by testing prospective server
    under load
  • If you use Suns, youve got snoop and truss

21
Catalog/Database size
  • Determine number of files (n)
  • Determine number of days in cycle (d)
  • (A cycle is a full backup and its associated
    incremental backups.)
  • Determine daily incremental size (i n .02)
  • Determine number of cycles online (c)
  • 150-250 bytes per file, per backup
  • Use a 1.5 multiplier for growth and error
  • Index Size (n (id)) c 250 1.5

22
Library size Drives
  • Network backup
  • Buy twice as many backup drives as your network
    will support
  • Use only as many drives as the network will
    support. (You will get more with less.)
  • Use the other half of the drives for duplicating

23
Library size Drives (2)
  • Local backup
  • Most large servers have enough I/O bandwidth to
    back themselves up within a reasonable time if
    youre using NetBackup
  • Usually a simple matter of mathematics
  • 8 hr window, 8 TBs 1 TB/hr 277 MB/s
  • 30 10 Mb/s drives, 15 20 MB/s drives
  • Must have sufficient bandwidth to tape drives
  • Filesystem vs. raw recoveries
  • Allow drives and time for duplicating

24
Library size Slots (all-tape environment)
  • Should hold all onsite tapes
  • Onsite tapes automatically expire and get reused
  • Only offsite tapes require physical mgmt.
  • Should monitor library via a script to ensure
    that each pool has enough free tapes before you
    go home
  • Watch for those downed drive messages

25
Library size Slots (disk/tape environment)
  • Do incremental backups to disk
  • Library needs only to hold onsite full tapes and
    the latest set of copies
  • On-site tapes and disk-based backups
    automatically expire and get reused
  • Only offsite tapes require physical mgmt.
  • Should monitor library and disk via a script to
    ensure that each pool has enough free tapes
    before you go home
  • Watch for those downed drive messages

26
Local or remote backup?
  • Throughput (in 8hrs), if you own the wire
  • 10 Mb 20 GB, 100 Mb 200 GB
  • GbE 500 GB 1 TB (Also must own the box.)
  • Greater than 500 GB should be local
  • LAN-free backups allow you to share a large tape
    library by performing local backups to a
    remote, shared device
  • More than one 500 GBserver, buy a SAN!
  • Only one 500 GB server, plan for a SAN!
  • (NetBackup SSO, NetWorkerDDS)

27
BreakBeverage Service
200 215 PM
  • Located in the Grand Ballroom foyer, floor
    2Sponsored by

28
BACKUP/GETTING STARTEDBackup School, Part 2
  • W. Curtis PrestonVP, Services DevelopmentGlassHo
    use Technologies

29
Multistreaming NetBackup
  • Defined Starting multiple simultaneous backup
    jobs from a single client
  • Maximum jobs per client gt 1
  • Check Allow multiple data streams.
  • ALL_LOCAL_DRIVES, or multiple entries in file
    list
  • Maximum jobs per policy gt 1 or unchecked
  • Need storage unit with more than one drive, or
    one drive with multiplexing enabled
  • Can change max jobs per client using the Server
    Properties -gt Clients tab (4.5)
  • By default, will not exceed one job per
    filesystem, but can bypass this if you make your
    own file list

30
Multistreaming (Parallelism) NetWorker
  • Use All saveset or multiple entries in the
    saveset list
  • Set the parallelism setting for server and, if
    necessary, the storage node
  • Set client parallelism value in client attributes
  • Must have multiple drives available, or one drive
    with target sessions set higher than one
  • Will not exceed number of disks or logical
    volumes on the client (see maximum-sessions in
    manual)

31
Multiplexing NetWorker
  • Set target sessions per device, allocating how
    many sessions may be sent to that device
  • Global setting for all backups that go to that
    device

32
Multiplexing NetBackup
  • Max multiplexing per drive in storage unit
    configuration gt 1
  • Media multiplexing in schedule gt 1
  • Use higher multiplexing for incremental backups
    if going to tape (6-8)
  • Use lower multiplexing for local backups (2)
  • No need to multiplex disk storage units
  • Multiple policies can multiplex to the same
    drive, but multiple media servers cannot

33
Using Include lists -- not
  • NetBackup ALL_LOCAL_DRIVES in file list
  • NetWorker All in saveset field
  • Automatically excludes NFS/CIFS drives
  • Does not include dynamically mounted drives not
    in /etc/fstab

34
What about database clients?
  • Use scripts that parse lists of databases
  • /var/opt/oracle/oratab for Oracle
  • MS-SQL list in registry
  • Master database in Sybase
  • Some backup products support All for databases
  • Remember to write standardize script with
    parameters to backup databases

35
Incremental backups NetBackup
  • Create staggered monthly full backups using
    calendar-based scheduling
  • Create staggered weekly cumulative incrementals
    using CBS
  • Create daily incremental backups using
    frequency-based backups
  • (Check Allow after run day)
  • Delete window from previous day for CBS

36
Incremental backups NetWorker
  • Do not use the Default schedule!
  • Create 28 schedules with a monthly full, weekly
    level 1, and daily incremental name them after
    the full day
  • Do not specify a schedule for the Group
  • Assign the 28 schedules evenly across all clients
    based on size

37
Standardization NetWorker
  • Use All saveset entry
  • To exclude files, use standard directives for all
    clients

38
Standardization NetBackup
  • Use ALL_LOCAL_DRIVES
  • Non-Windows clients Use standard exclude list
    and push out from master using bpgp.
  • Windows clientsUse standard exclude list and
    push out from master using bpgetconfig M and
    bpsetconfig h.

39
Backup reporting NetBackup
  • Watch activity and device monitors
  • bperror
  • bpdbjobs -report
  • bpdbjobs report all_columns
  • /usr/openv/netbackup/logs
  • /usr/openv/logs
  • /usr/openv/volmgr/logs

40
Backup reporting NetWorker
  • Watch nwadmin screens
  • mminfo
  • nsrinfo
  • mmlocate
  • nsrmm
  • /nsr/logs

41
Disk-to-disk backup NetWorker
  • If using regular disk, use file type device
  • Disk backup extra cost with options
  • If using virtual tape library, treat it like a
    tape library
  • Use cloning to duplicate disk-based backups to
    tape and send them offsite

42
Disk-to-disk backup NetBackup
  • If using regular disk, use disk-based storage
    unit
  • (No extra cost for disk storage units!)
  • If using virtual tape library, treat it like a
    tape library
  • Use vault to duplicate disk-based backups to tape
    and send them offsite

43
What about my SAN and NAS?
44
SAN LAN-free, Client-free, and Server-free
backupNAS NDMP filer to self, filer to filer,
filer to server, server to filer
45
LAN-free backups
  • How does this work?
  • SCSI Reserve/release
  • Third-party queuing system
  • Levels of drive sharing
  • Restores

46
How client-free backups work
Backup transaction logs to disk
Establish backup mirror
Split backup mirror and back it up
47
How client-free recoveries work
Restore backup mirror from tape
Restore primary mirror from backup mirror
Replay transaction logs from disk
48
Server-free backups
  • Server directs client to take a copy-on-write
    snapshot
  • Client and server record block and file
    associations
  • Server sends XCOPY request to SAN

49
Server-less Restores
  • Changing block locations
  • Image levelrestores
  • File levelrestores

50
NDMP Configurations
  • Filer to self
  • Filer to filer
  • Filer to server
  • Server to filer

51
Using NDMP
  • Level of functionality depends on the DMA you
    choose
  • Robotic Support
  • Filer to Library Support
  • Filer to Server Support
  • Direct access restore support

52
Resources
53
Resources
  • Directories of products to help you make a better
    backup system
  • http//www.storagemountain.com
  • Send questions to
  • cpreston_at_glasshouse.com.com

54
ASK THE EXPERTin the Northeast Exhibit Hall
  • MONDAY
  • 5-6 PM
  • TUESDAY
  • 5-6 PM

55
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