Disk array controller: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 23:39, 5 February 2012 edit Pnm (talk \| contribs) Extended confirmed users 14,752 edits Fix links to dab Cache and remove surprise ← Previous edit		Latest revision as of 12:19, 30 November 2024 edit undo Zac67 (talk \| contribs) Extended confirmed users 11,933 edits more updating
(44 intermediate revisions by 39 users not shown)
Line 1: {{Short description\|Device that manages disk drives}} A '''disk array controller''' is a device which manages the physical [[disk drives]] and presents them to the computer as [[Logical Unit Number\|logical units]]. It almost always implements [[RAID#Hardware-based\|hardware]] [[RAID]], thus it is sometimes referred to as '''RAID controller'''. It also often provides additional disk [[cache (computing)\|cache]].▼ ▲A '''disk array controller''' is a device ~~which~~that manages the physical [[disk drives]] and presents them to the computer as [[Logical Unit Number\|logical units]]. It ~~almost always~~often implements [[RAID#Hardware-based\|hardware]] [[RAID]], thus it is sometimes referred to as '''RAID controller'''. It also often provides additional disk [[cache (computing)\|cache]]. ~~A ''disk array controller'' name is often improperly shortened to a ''[[disk controller]]''. The two should not be confused as they provide very different functionality.~~ ''Disk array controller'' is often ambiguously shortened to ''[[disk controller]]'' which can also refer to the circuitry responsible for managing internal disk drive operations. == Front-end and back-end side == ~~Disk~~A disk array controller provides front-end interfaces and back-end interfaces. * ~~Back~~The back-end interface communicates with the controlled disks. Hence, its protocol is usually [[Advanced Technology Attachment\|ATA]] (a.k.a. PATA~~; incorrectly called IDE~~), [[Serial ATA\|SATA]], [[SCSI]], [[Fibre Channel\|FC]] or [[Serial Attached SCSI\|SAS]]. * ~~Front~~The front-end interface communicates with a computer's [[host adapter]] (HBA, Host Bus Adapter) and uses: one of ATA, SATA, SCSI, FC; these are popular protocols used by disks, so by using one of them a controller may transparently [[emulator\|emulate]] a disk for a computer. somewhat less popular ~~protocol~~ dedicated protocols for a specific ~~solution~~solutions: [[FICON]]/[[ESCON]], [[iSCSI]], [[HyperSCSI]], [[ATA over Ethernet]] or [[InfiniBand]]. A single controller ''may'' use different protocols for back-end and for front-end communication. Many enterprise controllers use FC on front-end and SATA on back-end. Line 14 ⟶ 16: == Enterprise controllers == {{main\|Disk array}} In a modern enterprise architecture disk array controllers (sometimes also called '''storage processors''', or '''SPs'''<ref>{{Cite web\|url=http://vmtoday.com/2010/03/storage-basics-part-v-controllers-cache-and-coalescing/\|title = Storage Basics - Part V: Controllers, Cache and Coalescing\|date = 23 March 2010}}</ref>) are parts of physically independent [[disk enclosure\|enclosure]]s, such as [[disk array]]s placed in a [[storage area network]] (SAN) or [[network-attached storage]] (NAS) [[Server (computing)\|server]]s. Those external disk arrays are usually purchased as an integrated subsystem of RAID controllers, disk drives, power supplies, and management software. It is up to controllers to provide advanced functionality (various vendors name these differently): * ~~automatic~~Automatic [[failover]] to another controller (transparent to computers transmitting data) * ~~long~~Long-running operations performed without [[downtime]] ~~forming~~Forming a new RAID set ~~reconstructing~~Reconstructing ''degraded'' RAID set (after a disk failure) ~~adding~~Adding a disk to online RAID set ~~removing~~Removing a disk from a RAID set (rare functionality) ** ~~partitioning~~Partitioning a RAID set to separate volumes/LUNs * [[snapshot (computer storage)\|~~snapshots~~Snapshots]] * [[Business ~~Continuance~~continuance ~~Volume~~volume]]s (BCV) * [[disk mirroring\|~~replication~~Replication]] with a remote controller.... == Simple controllers == [[Image:~~Raid~~Promise ~~controller~~Ultra33.jpg\|thumb\|250px\|[[Promise Technology]] ATA RAID controller]] A simple disk array controller may fit inside a computer, either as a [[Peripheral Component Interconnect\|PCI]]/[[PCIe]] [[expansion card]] or just built onto a [[motherboard]]. Such a controller usually provides [[Host adapter\|host bus adapter]] (HBA) functionality itself to save physical space. Hence it is sometimes called a '''RAID adapter'''. {{As of \| 2007 \| February }} [[Intel]] started integrating their own [[~~Intel_Matrix_RAID~~Intel Matrix RAID\|Matrix RAID controller]] in their more upmarket motherboards, giving control over 4 devices and an additional 2 SATA connectors, and totalling 6 SATA connections (~~3Gbit~~3 Gbit/s each). For backward compatibility one IDE connector able to connect 2 ATA devices (100  Mbit/s) is also present. === History === While hardware RAID controllers ~~were~~have been available for a long time, they ~~always~~initially required expensive [[Parallel SCSI]] hard drives and aimed at the server and high-end computing market. SCSI technology advantages include allowing up to 15 devices on one bus, independent data transfers, [[hot-swapping]], much higher [[MTBF]]. Around 1997, with the introduction of [[Atapi\|ATAPI-4]] (and thus ~~the~~ [[~~Direct memory access~~UDMA\|Ultra-DMA-Mode 0]], which enabled fast data- transfers with less [[CPU]] utilization) the first ATA RAID controllers were introduced as PCI expansion cards. Those RAID systems made their way to the consumer market, ~~where the~~for users ~~wanted~~wanting the fault-tolerance of RAID without investing in expensive SCSI drives. ~~ATA~~Fast consumer drives make it possible to build RAID systems at lower cost than with SCSI, but most ATA RAID controllers lack a dedicated buffer or high-performance XOR hardware for parity calculation. As a result, ATA RAID performs relatively poorly compared to most SCSI RAID controllers. Additionally, data safety suffers if there is no [[Battery (electricity)\|battery]] backup to finish writes interrupted by a power outage. ==OS ~~References~~ support== Because the hardware RAID controllers present assembled [[RAID]] volumes, [[operating system]]s aren't strictly required to implement the complete configuration and assembly for each controller. Very often only the basic features are implemented in the [[open-source software]] driver, with extended features being provided through [[binary blob]]s directly by the hardware manufacturer. '''Storage Basics: Choosing a RAID Controller''', May 7, 2004, By Ben Freeman[http://www.enterprisestorageforum.com/hardware/features/article.php/3351361] Normally, RAID controllers can be fully configured through card [[BIOS]] before an [[operating system]] is booted, and after the operating system is booted, [[proprietary software\|proprietary]] configuration utilities are available from the manufacturer of each controller, because the exact feature set of each controller may be specific to each manufacturer and product. ~~{{FOLDOC}}~~ Unlike the [[network interface controller]]s for [[Ethernet]], which can be usually be configured and serviced entirely through the common operating system paradigms like [[ifconfig]] in [[Unix]], without a need for any third-party tools, each manufacturer of each RAID controller usually provides their own proprietary software tooling for each operating system that they deem to support, ensuring a [[vendor lock-in]], and contributing to reliability issues.{{r\|lyrics-38}} For example, in [[FreeBSD]], in order to access the configuration of [[Adaptec]] RAID controllers, users are required to enable [[FreeBSD#OS compatibility layers\|Linux compatibility layer]], and use the Linux tooling from Adaptec,{{r\|f-aac}} potentially compromising the stability, reliability and security of their setup, especially when taking the long term view in mind.{{r\|lyrics-38}} However, this greatly depends on the controller, and whether appropriate hardware documentation is available in order to write a driver, and some controllers do have open-source versions of their configuration utilities, for example, <code>mfiutil</code> and <code>mptutil</code> is available for FreeBSD since FreeBSD 8.0 (2009),{{r\|mfiutil\|mptutil}} as well as <code>mpsutil</code>/<code>mprutil</code> since 2015,{{r\|mpsutil}} each supporting only their respective device drivers, this latter fact contributing to [[code bloat]]. [[Category:Computer storage]]▼ Some other operating systems have implemented their own generic frameworks for interfacing with any RAID controller, and provide tools for monitoring RAID volume status, as well as facilitation of drive identification through LED blinking, alarm management, [[hot spare disk]] designations and {{section link\|data scrubbing#RAID}} from within the operating system without having to reboot into card BIOS. For example, this was the approach taken by [[OpenBSD]] in 2005 with its [[bio(4)]] [[pseudo-device]] driver and the [[bioctl]] utility, which provide volume status, and allow LED/alarm/hotspare control, as well as the sensors (including the [[hw.sensors#drive\|drive sensor]]) for health monitoring;<ref name=theo-misc-38/> this approach has subsequently been adopted and extended by [[NetBSD]] in 2007 as well.{{r\|sensors-mmath}} With [[bioctl]], the feature set is intentionally kept to a minimum, so that each controller can be supported by the tool in the same way; the initial configuration of the controller is meant to be performed through card BIOS,{{r\|theo-misc-38}} but after the initial configuration, all day-to-day monitoring and repair should be possible with unified and generic tools, which is what bioctl is set to accomplish. ==References== {{reflist \|refs= <ref name=f-aac>{{cite web \|url= http://bxr.su/f/share/man/man4/aac.4 \|title= aac(4) — Adaptec AdvancedRAID Controller driver \|website= BSD Cross Reference \|publisher= [[FreeBSD]] \|author1= Scott Long \|author2= Adaptec, Inc \|author2-link= Adaptec \|date= 2000 }} {{cite book \|section=aac -- Adaptec AdvancedRAID Controller driver \|title=FreeBSD Manual Pages \|url=http://mdoc.su/f/aac.4}}</ref> <ref name=mfiutil>{{cite web \|url= http://bxr.su/f/usr.sbin/mfiutil/ \|title= mfiutil — Utility for managing LSI MegaRAID SAS controllers \|website= BSD Cross Reference \|publisher= [[FreeBSD]] }} {{cite book \|section=mfiutil -- Utility for managing LSI MegaRAID SAS controllers \|title=FreeBSD Manual Pages \|url=https://www.freebsd.org/cgi/man.cgi?query=mfiutil&sektion=8}}</ref> <ref name=mpsutil>{{cite web \|url= http://bxr.su/f/usr.sbin/mpsutil/ \|title= mpsutil — Utility for managing LSI Fusion-MPT 2/3 controllers \|website= BSD Cross Reference \|publisher= FreeBSD }} {{cite book \|section=mpsutil, mprutil -- Utility for managing LSI Fusion-MPT 2/3 controllers \|title=FreeBSD Manual Pages \|url=https://www.freebsd.org/cgi/man.cgi?query=mpsutil&sektion=8}}</ref> <ref name=mptutil>{{cite web \|url= http://bxr.su/f/usr.sbin/mptutil/ \|title= mptutil — Utility for managing LSI Fusion-MPT controllers \|website= BSD Cross Reference \|publisher= FreeBSD }} {{cite book \|section=mptutil -- Utility for managing LSI Fusion-MPT controllers \|title=FreeBSD Manual Pages \|url=https://www.freebsd.org/cgi/man.cgi?query=mptutil&sektion=8}}</ref> <ref name=lyrics-38>{{cite web \|url= http://www.openbsd.org/lyrics.html#38 \|title= 3.8: "Hackers of the Lost RAID" \|work= OpenBSD Release Songs \|publisher= [[OpenBSD]] \|date= 2005-11-01 \|access-date= 2019-03-23 }}</ref> <ref name=theo-misc-38>{{cite mailing list \|url= //marc.info/?l=openbsd-misc&m=112630095818062 \|author = Theo de Raadt \|author-link = Theo de Raadt \|title= RAID management support coming in OpenBSD 3.8 \|date= 2005-09-09 \|mailing-list= misc@ \|publisher = OpenBSD }}</ref> <ref name=sensors-mmath>{{cite thesis \|degree= [[Master of Mathematics#Canada\|MMath]] \|author= Constantine A. Murenin \|date= 2010-05-21 \|section= 1.1. Motivation; 4. Sensor Drivers; 7.1. NetBSD envsys / sysmon \|title= OpenBSD Hardware Sensors — Environmental Monitoring and Fan Control. \|___location= [[University of Waterloo]] \|publisher= UWSpace \|url = http://cnst.su/MMathCS \|hdl = 10012/5234 \|id = Document ID: ab71498b6b1a60ff817b29d56997a418. }}</ref> }} {{refbegin}} [https://web.archive.org/web/20080606085320/http://www.enterprisestorageforum.com/hardware/features/article.php/3351361 Storage Basics: Choosing a RAID Controller], May 7, 2004, By Ben Freeman {{refend}} {{RAID}} ▲[[Category:Computer data storage]] [[Category:Computer storage devices]] [[Category:AT Attachment]] [[Category:Fault-tolerant computer systems]] [[Category:Integrated circuits]] ~~[[ko:디스크 어레이 컨트롤러]]~~ [[Category:RAID]] [[Category:SCSI]]