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CTL(4) Device Drivers Manual CTL(4)

ctlCAM Target Layer

To compile this driver into the kernel, place the following line in your kernel configuration file:

device ctl

Alternatively, to load the driver as a module at boot time, place the following line in loader.conf(5):

ctl_load="YES"

The ctl subsystem provides SCSI target devices emulation. It supports features such as:

The ctl subsystem includes multiple frontends to provide access using different transport protocols and implementations:

camsim
Provides access for local system via virtual initiator mode CAM(4) SIM.
camtgt
Provides access for remote systems via target mode CAM(4) SIMs, such as Fibre Channel isp(4) and mpt(4).
cfumass
Provides access for remote systems via USB Mass Storage Class Bulk Only (BBB) Transport.
ha
Internal frontend used to receive requests from other node ports in High Availability cluster.
ioctl
Provides access for local user-level applications via ioctl(2) based API.
iscsi
Provides access for remote systems via the iSCSI protocol using cfiscsi(4).
tpc
Internal frontend used to receive requests from Third Party Copy engine, implementing copy offload operations.

The ctl subsystem includes two backends to create logical units using different kinds of backing stores:

block
Stores data in ZFS ZVOLs, files or raw block devices.
ramdisk
Stores data in RAM, that makes it mostly useful for performance testing. Depending on configured capacity can work as black hole, thin or thick provisioned disk.

The following variables are available as both sysctl(8) variables and loader(8) tunables:

kern.cam.ctl.debug
Bit mask of enabled CTL log levels:
1
log commands with errors;
2
log all commands;
4
log data for commands other then READ/WRITE.
Defaults to 0.
kern.cam.ctl.ha_id
Specifies unique position of this node within High Availability cluster. Default is 0 -- no HA, 1 and 2 -- HA enabled at specified position.
kern.cam.ctl.ha_mode
Specifies High Availability cluster operation mode:
0
Active/Standby -- primary node has backend access and processes requests, while secondary can only do basic LUN discovery and reservation;
1
Active/Active -- both nodes have backend access and process requests, while secondary node synchronizes processing with primary one;
2
Active/Active -- primary node has backend access and processes requests, while secondary node forwards all requests and data to primary one;
All above modes require established connection between HA cluster nodes. If connection is not configured, secondary node will report Unavailable state; if configured but not established -- Transitioning state. Defaults to 0.
kern.cam.ctl.ha_peer
String value, specifying method to establish connection to peer HA node. Can be "listen IP:port", "connect IP:port" or empty.
Reports present state of connection between HA cluster nodes:
0
not configured;
1
configured but not established;
2
established.
kern.cam.ctl.ha_role
Specifies default role of this node:
0
primary;
1
secondary.
This role can be overridden on per-LUN basis using "ha_role" LUN option, so that for one LUN one node is primary, while for another -- another. Role change from primary to secondary for HA modes 0 and 2 closes backends, the opposite change -- opens. If there is no primary node (both nodes are secondary, or secondary node has no connection to primary one), secondary node(s) report Transitioning state. State with two primary nodes is illegal (split brain condition).

The following variables are available as loader(8) tunables:

kern.cam.ctl.max_luns
Specifies the maximum number of LUNs we support, must be a power of 2. The default value is 1024.
kern.cam.ctl.max_ports
Specifies the maximum number of ports we support, must be a power of 2. The default value is 256.

cfiscsi(4), cfumass(4), ctladm(8), ctld(8), ctlstat(8)

The ctl subsystem first appeared in FreeBSD 9.1.

The ctl subsystem was originally written by Kenneth Merry <ken@FreeBSD.org>. Later work was done by
Alexander Motin <mav@FreeBSD.org>.

March 29, 2017 FreeBSD-12.0