403 lines
13 KiB
Plaintext
403 lines
13 KiB
Plaintext
/* $FreeBSD$ */
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CTL - CAM Target Layer Description
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Revision 1.4 (December 29th, 2011)
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Ken Merry <ken@FreeBSD.org>
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Table of Contents:
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=================
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Introduction
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Features
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Configuring and Running CTL
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Revision 1.N Changes
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To Do List
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Code Roadmap
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Userland Commands
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Introduction:
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============
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CTL is a disk and processor device emulation subsystem originally written
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for Copan Systems under Linux starting in 2003. It has been shipping in
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Copan (now SGI) products since 2005.
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It was ported to FreeBSD in 2008, and thanks to an agreement between SGI
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(who acquired Copan's assets in 2010) and Spectra Logic in 2010, CTL is
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available under a BSD-style license. The intent behind the agreement was
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that Spectra would work to get CTL into the FreeBSD tree.
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Features:
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========
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- Disk and processor device emulation.
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- Tagged queueing
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- SCSI task attribute support (ordered, head of queue, simple tags)
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- SCSI implicit command ordering support. (e.g. if a read follows a mode
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select, the read will be blocked until the mode select completes.)
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- Full task management support (abort, LUN reset, target reset, etc.)
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- Support for multiple ports
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- Support for multiple simultaneous initiators
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- Support for multiple simultaneous backing stores
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- Support for VMWare VAAI: COMPARE AND WRITE, XCOPY, WRITE SAME and
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UNMAP commands
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- Support for Microsoft ODX: POPULATE TOKEN/WRITE USING TOKEN, WRITE SAME
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and UNMAP commands
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- Persistent reservation support
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- Mode sense/select support
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- Error injection support
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- High Availability clustering support with ALUA
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- All I/O handled in-kernel, no userland context switch overhead.
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Configuring and Running CTL:
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===========================
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- Add 'device ctl' to your kernel configuration file or load the module.
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- If you're running with a 8Gb or 4Gb Qlogic FC board, add
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'options ISP_TARGET_MODE' to your kernel config file. 'device ispfw' or
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loading the ispfw module is also recommended.
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- Rebuild and install a new kernel.
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- Reboot with the new kernel.
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- To add a LUN with the RAM disk backend:
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ctladm create -b ramdisk -s 10485760000000000000
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ctladm port -o on
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- You should now see the CTL disk LUN through camcontrol devlist:
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scbus6 on ctl2cam0 bus 0:
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<FREEBSD CTLDISK 0001> at scbus6 target 1 lun 0 (da24,pass32)
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<> at scbus6 target -1 lun -1 ()
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This is visible through the CTL CAM SIM. This allows using CTL without
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any physical hardware. You should be able to issue any normal SCSI
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commands to the device via the pass(4)/da(4) devices.
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If any target-capable HBAs are in the system (e.g. isp(4)), and have
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target mode enabled, you should now also be able to see the CTL LUNs via
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that target interface.
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Note that all CTL LUNs are presented to all frontends. There is no
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LUN masking, or separate, per-port configuration.
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- Note that the ramdisk backend is a "fake" ramdisk. That is, it is
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backed by a small amount of RAM that is used for all I/O requests. This
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is useful for performance testing, but not for any data integrity tests.
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- To add a LUN with the block/file backend:
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truncate -s +1T myfile
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ctladm create -b block -o file=myfile
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ctladm port -o on
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- You can also see a list of LUNs and their backends like this:
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# ctladm devlist
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LUN Backend Size (Blocks) BS Serial Number Device ID
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0 block 2147483648 512 MYSERIAL 0 MYDEVID 0
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1 block 2147483648 512 MYSERIAL 1 MYDEVID 1
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2 block 2147483648 512 MYSERIAL 2 MYDEVID 2
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3 block 2147483648 512 MYSERIAL 3 MYDEVID 3
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4 block 2147483648 512 MYSERIAL 4 MYDEVID 4
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5 block 2147483648 512 MYSERIAL 5 MYDEVID 5
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6 block 2147483648 512 MYSERIAL 6 MYDEVID 6
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7 block 2147483648 512 MYSERIAL 7 MYDEVID 7
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8 block 2147483648 512 MYSERIAL 8 MYDEVID 8
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9 block 2147483648 512 MYSERIAL 9 MYDEVID 9
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10 block 2147483648 512 MYSERIAL 10 MYDEVID 10
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11 block 2147483648 512 MYSERIAL 11 MYDEVID 11
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- You can see the LUN type and backing store for block/file backend LUNs
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like this:
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# ctladm devlist -v
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LUN Backend Size (Blocks) BS Serial Number Device ID
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0 block 2147483648 512 MYSERIAL 0 MYDEVID 0
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lun_type=0
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num_threads=14
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file=testdisk0
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1 block 2147483648 512 MYSERIAL 1 MYDEVID 1
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lun_type=0
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num_threads=14
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file=testdisk1
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2 block 2147483648 512 MYSERIAL 2 MYDEVID 2
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lun_type=0
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num_threads=14
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file=testdisk2
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3 block 2147483648 512 MYSERIAL 3 MYDEVID 3
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lun_type=0
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num_threads=14
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file=testdisk3
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4 block 2147483648 512 MYSERIAL 4 MYDEVID 4
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lun_type=0
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num_threads=14
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file=testdisk4
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5 block 2147483648 512 MYSERIAL 5 MYDEVID 5
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lun_type=0
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num_threads=14
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file=testdisk5
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6 block 2147483648 512 MYSERIAL 6 MYDEVID 6
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lun_type=0
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num_threads=14
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file=testdisk6
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7 block 2147483648 512 MYSERIAL 7 MYDEVID 7
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lun_type=0
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num_threads=14
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file=testdisk7
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8 block 2147483648 512 MYSERIAL 8 MYDEVID 8
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lun_type=0
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num_threads=14
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file=testdisk8
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9 block 2147483648 512 MYSERIAL 9 MYDEVID 9
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lun_type=0
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num_threads=14
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file=testdisk9
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10 ramdisk 0 0 MYSERIAL 0 MYDEVID 0
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lun_type=3
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11 ramdisk 204800000000000 512 MYSERIAL 1 MYDEVID 1
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lun_type=0
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Revision 1.4 Changes
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====================
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- Added in the second HA mode (where CTL does the data transfers instead
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of having data transfers done below CTL), and abstracted out the Copan
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HA API.
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- Fixed the phantom device problem in the CTL CAM SIM and improved the
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CAM SIM to automatically trigger a rescan when the port is enabled and
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disabled.
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- Made the number of threads in the block backend configurable via sysctl,
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loader tunable and the ctladm command line. (You can now specify
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-o num_threads=4 when creating a LUN with ctladm create.)
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- Fixed some LUN selection issues in ctlstat(8) and allowed for selection
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of LUN numbers up to 1023.
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- General cleanup.
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- This version intended for public release.
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Revision 1.3 Changes
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====================
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- Added descriptor sense support to CTL. It can be enabled through the
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control mode page (10), but is disabled by default.
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- Improved error injection support. The number of errors that can be
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injected with 'ctladm inject' has been increased, and any arbitrary
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sense data may now be injected as well.
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- The port infrastructure has been revamped. Individual ports and types
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of ports may now be enabled and disabled from the command line. ctladm
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now has the ability to set the WWNN and WWPN for each port.
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- The block backend can now send multiple I/Os to backing files. Multiple
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writes are only allowed for ZFS, but multiple readers are allowed for
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any filesystem.
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- The block and ramdisk backends now support setting the LUN blocksize.
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There are some restrictions when the backing device is a block device,
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but otherwise the blocksize may be set to anything.
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Revision 1.2 Changes
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====================
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- CTL initialization process has been revamped. Instead of using an
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ad-hoc method, it is now sequenced through SYSINIT() calls.
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- A block/file backend has been added. This allows using arbitrary files
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or block devices as a backing store.
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- The userland LUN configuration interface has been completely rewritten.
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Configuration is now done out of band.
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- The ctladm(8) command line interface has been revamped, and is now
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similar to camcontrol(8).
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To Do List:
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==========
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- Use devstat(9) for CTL's statistics collection. CTL uses a home-grown
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statistics collection system that is similar to devstat(9). ctlstat
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should be retired in favor of iostat, etc., once aggregation modes are
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available in iostat to match the behavior of ctlstat -t and dump modes
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are available to match the behavior of ctlstat -d/ctlstat -J.
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- ZFS ARC backend for CTL. Since ZFS copies all I/O into the ARC
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(Adaptive Replacement Cache), running the block/file backend on top of a
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ZFS-backed zdev or file will involve an extra set of copies. The
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optimal solution for backing targets served by CTL with ZFS would be to
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allocate buffers out of the ARC directly, and DMA to/from them directly.
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That would eliminate an extra data buffer allocation and copy.
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- Switch CTL over to using CAM CCBs instead of its own union ctl_io. This
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will likely require a significant amount of work, but will eliminate
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another data structure in the stack, more memory allocations, etc. This
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will also require changes to the CAM CCB structure to support CTL.
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Code Roadmap:
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============
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CTL has the concept of pluggable frontend ports and backends. All
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frontends and backends can be active at the same time. You can have a
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ramdisk-backed LUN present along side a file backed LUN.
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ctl.c:
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-----
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This is the core of CTL, where all of the command handlers and a lot of
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other things live. Yes, it is large. It started off small and grew to its
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current size over time. Perhaps it can be split into more files at some
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point.
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Here is a roadmap of some of the primary functions in ctl.c. Starting here
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and following the various leaf functions will show the command flow.
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ctl_queue() This is where commands from the frontend ports come
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in.
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ctl_queue_sense() This is only used for non-packetized SCSI. i.e.
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parallel SCSI prior to U320 and perhaps U160.
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ctl_work_thread() This is the primary work thread, and everything gets
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executed from there.
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ctl_scsiio_precheck() This where all of the initial checks are done, and I/O
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is either queued for execution or blocked.
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ctl_scsiio() This is where the command handler is actually
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executed. (See ctl_cmd_table.c for the mapping of
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SCSI opcode to command handler function.)
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ctl_done() This is the routine called (or ctl_done_lock()) to
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initiate the command completion process.
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ctl_process_done() This is where command completion actually happens.
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ctl.h:
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-----
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Basic function declarations and data structures.
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ctl_backend.c,
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ctl_backend.h:
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-------------
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These files define the basic CTL backend API. The comments in the header
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explain the API.
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ctl_backend_block.c
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-------------------
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The block and file backend. This allows for using a disk or a file as the
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backing store for a LUN. Multiple threads are started to do I/O to the
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backing device, primarily because the VFS API requires that to get any
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concurrency.
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ctl_backend_ramdisk.c:
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---------------------
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A "fake" ramdisk backend. It only allocates a small amount of memory to
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act as a source and sink for reads and writes from an initiator. Therefore
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it cannot be used for any real data, but it can be used to test for
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throughput. It can also be used to test initiators' support for extremely
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large LUNs.
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ctl_cmd_table.c:
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---------------
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This is a table with all 256 possible SCSI opcodes, and command handler
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functions defined for supported opcodes. It is included in ctl.c.
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ctl_debug.h:
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-----------
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Simplistic debugging support.
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ctl_error.c,
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ctl_error.h:
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-----------
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CTL-specific wrappers around the CAM sense building functions.
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ctl_frontend.c,
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ctl_frontend.h:
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--------------
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These files define the basic CTL frontend port API. The comments in the
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header explain the API.
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ctl_frontend_cam_sim.c:
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----------------------
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This is a CTL frontend port that is also a CAM SIM. The idea is that this
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frontend allows for using CTL without any target-capable hardware. So any
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LUNs you create in CTL are visible via this port.
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ctl_ha.c:
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ctl_ha.h:
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--------
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This is a High Availability API and TCP-based interlink implementation.
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ctl_io.h:
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--------
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This defines most of the core CTL I/O structures. union ctl_io is
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conceptually very similar to CAM's union ccb.
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ctl_ioctl.h:
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-----------
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This defines all ioctls available through the CTL character device, and
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the data structures needed for those ioctls.
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ctl_private.h:
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-------------
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Private data structres (e.g. CTL softc) and function prototypes. This also
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includes the SCSI vendor and product names used by CTL.
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ctl_scsi_all.c
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ctl_scsi_all.h:
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--------------
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CTL wrappers around CAM sense printing functions.
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ctl_ser_table.c:
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---------------
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Command serialization table. This defines what happens when one type of
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command is followed by another type of command. e.g., what do you do when
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you have a mode select followed by a write? You block the write until the
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mode select is complete. That is defined in this table.
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ctl_util.c
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ctl_util.h:
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----------
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CTL utility functions, primarily designed to be used from userland. See
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ctladm for the primary consumer of these functions. These include CDB
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building functions.
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scsi_ctl.c:
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----------
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CAM target peripheral driver and CTL frontend port. This is the path into
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CTL for commands from target-capable hardware/SIMs.
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Userland Commands:
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=================
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ctladm(8) fills a role similar to camcontrol(8). It allow configuring LUNs,
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issuing commands, injecting errors and various other control functions.
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ctlstat(8) fills a role similar to iostat(8). It reports I/O statistics
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for CTL.
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