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iATA

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iATA. Kulveer Singh. Kulveer.singh_at_dit.dongseo.ac.kr. ATA Concepts. At the highest level, ATA is a family of interfaces for requesting services from ... – PowerPoint PPT presentation

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Title: iATA


1
iATA
  • Kulveer Singh
  • Kulveer.singh_at_dit.dongseo.ac.kr

2
ATA Concepts
  • At the highest level, ATA is a family of
    interfaces for requesting services from I/O
    devices, including hard drives, tape drives, CD
    and DVD drives, printers, and scanners.
  • In ATA parlance, an individual I/O device is
    called a "logical unit" (LU).
  • ATAs main advantage is using a logical
    addressing of data-blocks instead of the physical
    addressing of cylinders, head and sector.
  • This allow storage apps to be developed faster
    and to be reused when a new type of disk entered
    the market.

3
ATA Concepts(cont.)
  • ATA is a client-server architecture.
  • Clients of a ATA interface are called "clients".
  • clients issue ATA "commands" to request service
    from a logical unit( LU ).
  • The "device server" on the logical unit accepts
    ATA commands and executes them.

4
ATA Concepts(cont.)
  • A ATA transport" maps the client-server ATA
    protocol to a specific interconnect.
  • clients are one endpoint of a ATA transport. The
    "server" is the other endpoint.
  • A server can have multiple Logical Units behind
    it.
  • Each Logical Unit has an address within a server
    called a Logical Unit Number( LUN )

5
ATA Concepts(cont.)
  • Command Descriptor Blocks (CDB) is the data
    structure used to contain the command parameters
    that are to be handed by an client to a server.
  • The CDB content and structure is defined by SAM
    and device-type specific ATA standards.

6
Parallel ATA
  • Traditional ATA coupled the protocol with the
    transport layer i.e. ATA commands were sent to
    ATA devices via the ATA-bus.
  • a few years later, storage controllers in the
    Open-Systems arena have supported the ATA
    protocol, and have been attached to computers
    through the ATA parallel bus.
  • The ATA parallel bus gave a very high bandwidth
    for bursting writes for a number of ATA devices
    connected through the bus.
  • But, as things advanced in the storage world the
    Parallel ATA becomes a limiting factor.

7
Parallel ATA Limitation
  • Parallel ATA has very restrictive distance
    capabilities( a few meters only ).
  • Parallel ATA also limits the number of the
    connected devices( 8-16 )
  • And like any other parallel bus interconnect the
    ATA parallel bus, has bandwidth limitations when
    more than one device try to get hold of the bus.

8
Parallel ATA Limitation
  • While all those limitations might seem acceptable
    when considering a work-station or a small
    server, they are very restricting limitations
    when considering an enterprise Storage Network
    where a few hundreds of storage devices are
    shared between many computers.

9
Fibre Channel
  • The protocol was developed at the late 80 to be
    a very flexible, high-speed, scalable networking
    technology.
  • Many protocols were remapped to FC including IP,
    ATM, ATA, Escon(Ficon)
  • But, only the ATA mapping was widely adopted
  • In the mid 90 it entered the storage world as a
    serial transport layer for ATA (fcp).

10
FC Problems
  • Price is too high( 1000 for a FC nic )
  • Limited distance ( 10-50 KM )
  • Interoperability Products of different FC
    vendors dont play together.
  • Isolated from IP network, a special(and
    expensive) switch is needed to connect
  • Another network to maintain( assuming the
    organization already have an IP network )
  • Reinvents the wheel - a totally different set of
    protocols for communication, addressing,
    name-servers, managements

11
iATA
12
iATA IP Network
  • The protocol will use the existing ATA
    architecture and commands, and the existing
    TCP/IP transport layer.
  • Both these protocols are widely-deployed and
    well-understood. The thought is that using these
    mature protocols will entail a minimum of new
    invention, the most rapid possible adoption, and
    the greatest compatibility with Internet
    architecture, protocols, and equipment.
  • The iATA protocol MUST NOT require modifications
    to the current IP and Ethernet infrastructure to
    support storage traffic over TCP.
  • Nevertheless, the performance and security
    requirements ( not to mention the budget) of
    storage creates opportunities for improvement in
    security protocols and QoS implementations.

13
iATA and ATA
  • The iATA protocol MUST NOT require changes to the
    ATA-3 command sets and ATA client code except to
    reflect lengthier iATA server names and
    potentially lengthier timeouts.
  • All ATA devices types SHOULD be supported, but
    iATA main interest are disk and tape controllers
  • The iATA protocol MUST reliably transport ATA
    commands from the client to the server.

14
ATA Envirnoment
15
iATA Layers
ATA
iATA
Upper Functional Layers (e.g. SSL)
TCP
Lower Functional Layers (e.g. IPSec)
IP
LINK
16
Request Packet
17
Reply Packet
18
Request/Reply Fields
  • Features Parameters for the command
  • Sector Count Number of sectors that will be used
  • LBA Logical Block Address of the starting sector
    that will be used
  • Device Device selection and additional bits are
    reserved for future usage.
  • Command Command code
  • Error Bits indicating different errors
  • Status Bits indicating status of the action

19
OS Layering
20
ATA Commands
  • Control Commands
  • Identify Device
  • Flush cache
  • Set features
  • Data Commands
  • Read sectors
  • Write Sectors

21
Identify Device
  • IDENTIFY-DEVICE This command is used to gather
    information from the device. Features ?eld in the
    request packet is used to specify the type of
    information requested. If the information cannot
    be returned within the Status ?eld of reply
    packet, a string for example, a data stream
    should be returned after the packet and the size
    of the data must be given in the Sector Count
    ?eld of the reply packet.

22
Flush Cache
  • FLUSH-CACHE This command is used to force the
    device to ?ush its cache. If there is any data
    that needs to be written physically, the device
    should perform the writing of the data. This
    cache is nothing to do with the bu?ering
    mechanism of iATA protocol. The cache is device
    speci?c and thus any device that does not have an
    inner cache must reply to this command by saying
    that it is successfully completed.

23
Features
  • SET-FEATURES This command is used to modify
    device parameters. Features ?eld in the request
    packet is used to specify the parameter that will
    be modi?ed. Similarly, Sector Count and LBA ?elds
    are used to specify the value of that parameter.

24
Read Command
  • READ-SECTORS This command is used to read one or
    more sectors from the device. After the reply
    packet, the device must send the data sector by
    sector as a stream. Size of the data stream can
    be calculated from the Sector Count ?eld.

25
Write Command
  • WRITE-SECTORS This command is used to write one
    or more sectors to the device. After the request
    packet, the host must send the data sector by
    sector as a stream. Size of the data stream can
    be calculated from the Sector Count ?eld.

26
  • Thanks
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