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{{Main Page Subbox|#e0e0e0|#a0a0a0|See also|[[Fibre Channel]] &#124; [[FCoE]] &#124; [[InfiniBand]] &#124; [[iSCSI]] &#124; [[iSER]] &#124; [[iSNS]] &#124; [[iWARP]] &#124; [[RTS OS]] &#124; [[tcm_loop|SCSI virtualization]] &#124; [[SLP]] &#124; [[SRP]] &#124; [[targetcli]] &#124; [[vHost]]
{{Main Page Subbox|#e0e0e0|#a0a0a0|See also|[[Fibre Channel]] &#124; [[FCoE]] &#124; [[InfiniBand]] &#124; [[iSCSI]] &#124; [[iSER]] &#124; [[iSNS]] &#124; [[iWARP]] &#124; [[RTS OS]] &#124; [[tcm_loop|SCSI virtualization]] &#124; [[SLP]] &#124; [[SRP]] &#124; [[targetcli]] &#124; [[VAAI]] &#124; [[vHost]]

Revision as of 06:28, 25 August 2013

Welcome to Linux-IO,
the generic Linux SCSI Target wiki.
100 articles, 115,631,079 pageviews


LIO (Linux-IO) is the standard open-source SCSI Target for shared data storage in Linux. It supports all prevalent storage fabrics, including Fibre Channel (QLogic), FCoE, iEEE 1394, iSCSI, iSER (Mellanox InfiniBand), SRP (Mellanox InfiniBand), USB, vHost, etc.

The advanced feature set of LIO has made it the SCSI Target of choice for many storage array vendors, for instance allowing them to achieve VMware® Ready certifications. Native support for the LIO Linux SCSI Target in QEMU/KVM, libvirt, and OpenStack™ (setup, code) makes it an attractive storage option for cloud deployments.

LIO includes targetcli, a management shell and API with a single namespace for all storage objects.

LIO and targetcli are developed by Datera, Inc., a data storage systems and software company located in the Silicon Valley.


Linux SCSI Target

Fabric modules implement the frontend of the Linux SCSI target.

Storage media independence

Backstores implement methods of accessing data on devices.


The Linux SCSI target engine implements the generic SCSI semantics.

Advanced SCSI feature set

Compatibility and certifications

The Linux SCSI Target works with Initiators of the following operating systems:
  • Microsoft: Windows® Server 2008/R2/2012 and Windows® XP/Vista/7/8
  • Apple Mac OS X (via third-party initiator)
  • Linux: RHEL 4/5/6, SLES 10.3/11, CentOS, Debian, Fedora, openSUSE, Ubuntu
  • Unix: Solaris 10, OpenSolaris, HP-UX
  • VMs: vSphere™ 5, Red Hat KVM, Microsoft Hyper-V, Oracle xVM/VirtualBox, Xen

The Linux SCSI Target enables VMware Ready certifications (incl. vSphere™ 5). It also passes the Microsoft Windows® Server 2008 / R2 Failover Cluster compatibility test suites.


targetcli provides the fabric agnostic single-node management shell for LIO Linux SCSI Targets. targetcli aggregates and presents all SAN functionality via the RTSlib library and API [HTML][PDF] to the LIO Linux SCSI Target.


RTS OS integrates the LIO Linux SCSI Target and targetcli into a single-node Unified Storage operating system (Admin Manual). RTS OS supports VMware Ready certification, including VMware vSphere™ 5.

An RTS OS subscription provides access to additional RTS OS packages and update services.

RTS OS is currently being extended into RTS Live, a cluster storage operating system that is based on RTS Director.

High availability and clustering

LIO is designed from gound up to support highly available and cluster storage:
  • Deeply embedded high availability (Network RAID1)
  • Scale-out clusters and disaster recovery solutions


The Core-iSCSI Initiator is a high-end iSCSI Initiator that resolves a number of known issues with the Open-iSCSI standard Linux Initiator.

Core-iSCSI is available on Linux and Windows®, and it has been ported to a wide range of platforms and devices, including:

Datera, Inc. ported OCFS2 onto the Nokia Internet Tablets on top of the Core-iSCSI Initiator.

RTS Director

RTS Director is a distributed, highly-available cluster management framework. It comprises a shell, active library and API. The active library and API provide an extensible platform with a unified namespace to manage complex functionality, such as high-availability and cluster striping. The shell offers location-transparent access to all objects in the SAN. New functionality and devices can be added via plugin-modules.

RTS Director provides zero configuration. It is based on a symmetrically distributed architecture - there is no single point of failure, no cluster controller, no central database, etc. Nodes running the RTS Director automatically discover and join the cluster when coming up (demo video).

See also

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