9 More Discussions You Might Find Interesting
1. Solaris
hi everone
i am experiencing disconnectivity from storage to My database machines. i have doubt on my FC cards in my sparc T4-2 machines. i want to know how should i check from my solaris that whether the cards are ok or not because once the disks get disconnect from SAN so it come back again but... (5 Replies)
Discussion started by: janakors
5 Replies
2. Solaris
Hi,
One of my Netra 240 went into hung state and I had to reboot it. I powered it off and tried booting it again but unsuccessful. It is not connected to SAN and have local disks. Not able to boot in failsafe mode too.
There are two disks of 72GB, both are mirrored in SVM. It complains about... (5 Replies)
Discussion started by: solaris_1977
5 Replies
3. AIX
Hello all,
Let me introduce about the context and my environment.
We have an AIX 6.1 system, it has 4 FC channels
/ > lsdev -Cc adapter | grep fcs
fcs0 Available 23-T1 Virtual Fibre Channel Client Adapter
fcs1 Available 23-T1 Virtual Fibre Channel Client Adapter
fcs2 Available 23-T1... (14 Replies)
Discussion started by: Phat
14 Replies
4. Solaris
Hi
I had power issue that affected a server, in which I had power ON the server SPARC T1-B3 running solaris 10.
After power on the system stops at ok prompt, them I issued the following commands:
{0} ok setenv auto-boot? false
auto-boot? = false
{0} ok reset-all
SPARC T3-1B,... (10 Replies)
Discussion started by: fretagi
10 Replies
5. Hardware
We will be buying new Xeon E5-based servers for our datacenter and were wondering which Fibre Channel host bus adapters we should select for these. The choices are Emulex or QLogic (8Gb FC HBAs). Anybody have any recommendations on which is the better choice?
Thanks in advance. (1 Reply)
Discussion started by: atahmass
1 Replies
6. AIX
Hello,
Searched in all IBM Redbooks and on the internet and couldn't find anything about the new feature of POWER 6 which Virtual Fibre ( Fiber ) channel adapter.
It is similar to virtual scsi adapter.
In my client partition I created the virtual Fibre Adapter mapped it with the VIO... (1 Reply)
Discussion started by: filosophizer
1 Replies
7. AIX
Want to configure IBM raid strorage but the aix 5L cds do not have the drivers for the fibre channels. The machine is RS/6000. I have gone to IBM downlaodable sites but i can't find the drivers? help pliz:mad: (4 Replies)
Discussion started by: Zim-Aix-Guru
4 Replies
8. IP Networking
Is there any facility to filter/identify the data calls and voice calls coming throug modem?
OR
Can we get the data or voice calls information through a script(preferably C Kermit)? (0 Replies)
Discussion started by: pcsaji
0 Replies
9. Solaris
i want to use the devfsadm command and understand its function (3 Replies)
Discussion started by: bondoq
3 Replies
SD(4) Kernel Interfaces Manual SD(4)
NAME
sd, st, sg - SCSI hard disk / tape / generic
DESCRIPTION
The sd*, st*, sg* family of devices refer to the SCSI hard disk, tape and generic driver using the Adaptec 154x series of controllers.
This manual page only describes the differences between the sd and hd devices, read hd(4) first.
The devices numbers of the SCSI devices are statically mapped onto the SCSI targets 0 to 7. This is done like the hd devices with sd[0-4]
referring to target 0, sd[5-9] to target 1, etc. The logical unit number is always 0, because devices with more than one logical unit are
virtually extinct. The mapping may be changed from the boot environment however (see boot(8)).
Tapes start at minor device 64, with nrst0 at minor 64, rst0 at 65, nrst1 at 66, etc. The mapping is again static to target (minor - 64) /
2. The rst devices rewind the tape on close, the nrst devices do not. See mt(1), and mtio(4) for a description of the commands that may
be sent to the tape, either from the command prompt or from a program.
Through the eight raw generic devices rsg[0-7] starting at minor 120, one can send SCSI commands to any SCSI device from user mode.
(Minix-vmd only.)
The driver returns a drive geometry of 64 heads by 32 sectors per track for small disks with the DIOCGETP ioctl. For large disks 255x63 is
returned. The size in sectors is usually larger than the largest cylinder number indicates, because the disk is not likely to exactly
match that faked geometry. Note that DOS may not be able to access those last few sectors.
Disk like devices.
Removable disks (floppies), CD-ROM's and WORM disks may also be accessed through the sd devices. One is not allowed to write a WORM disk
however, because it is likely to be taken from an alien operating system, so it seems safer to not allow Minix to stomp over it. One usu-
ally needs special O.S. support to keep one from writing to the same block twice.
The DIOCEJECT ioctl ejects CD-ROMs, floppies, etc. (See eject(1).) A fixed disk spins down if it supports the stop command.
SCSI Tapes
There are two types of SCSI tapes drives supported by the driver: fixed or variable block size tape drives. Examples of the first kind are
cartridge tapes, with a fixed 512 bytes block size. An Exabyte tape drive has a variable block size, with a minimum of 1 byte and a maxi-
mum of 245760 bytes (see the documentation of such devices.) The maximum is truncated to 32767 bytes for Minix-86 and 61440 bytes for
Minix-vmd, because the driver can't move more bytes in a single request.
A read or write to a fixed block size tape must be a precise multiple of the block size, any other count gives results in an I/O error. A
read from a variable block sized tape must be large enough to accept the block that is read, otherwise an I/O error will be returned. A
write can be any size above the minimum, creating a block of that size. If the write count is larger than the maximum block size then more
blocks are written until the count becomes zero. The last block must be larger than the minimum of course. (This minimum is often as
small as 1 byte, as for the Exabyte.)
The mt blksize command may be used to select a fixed block size for a variable block sized tape. This will speed up I/O considerably for
small block sizes. (Some systems can only use fixed mode and will write an Exabyte tape with 1024 byte blocks, which read very slow in
variable mode.)
A tape is a sequence of blocks and filemarks. A tape may be opened and blocks may be read from it upto a filemark, after that all further
reads return 0. After the tape is closed and reopened one can read the blocks following the filemark if using a non-rewinding device.
This makes the tape look like a sequence of files.
If a tape has been written to or opened in write-only mode, then a filemark is written if the tape is closed or if a space command is
issued. No extra filemark is written if the drive is instructed to write filemarks.
Raw Generic Devices
Under Minix-vmd one can use the generic SCSI devices to program a SCSI device entirely from user mode. The disk and tape devices probe for
devices when opened, start disks and load tapes, but the generic devices do nothing of this. Given an open file descriptor to any SCSI
character device (not just the generic devices) one can use the following ioctl:
ioctl(fd, SCIOCCMD, &scsicmd)
The structure whose address is passed as the third argument is defined in <sys/scsi.h> as follows:
struct scsicmd {
void *cmd;
size_t cmdlen;
void *buf;
size_t buflen;
void *sense;
size_t senselen;
int dir;
};
Cmd and cmdlen hold the address and length of an object holding a Group 0 or Group 1 SCSI command. The next two fields describe a buffer
of at most 8 kilobytes used in the data in or out phase. Dir is 0 if data is to be read from the device, 1 if data is written to the
device. If the ioctl succeeds then 0 is returned, otherwise -1 with errno set to EIO and the request sense info returned in the buffer
described by the sense and senselen fields. If the sense key is zero on error then a host adapter error occurred, this means that the
device is most likely turned off or not present.
FILES
/dev/sd[0-9], /dev/sd[1-46-9][a-d] Usual disk devices.
/dev/rst4, /dev/nrst4 Usual tape device.
/dev/rsg[0-7] Raw generic devices.
SEE ALSO
hd(4), mt(1), eject(1), mtio(4), dd(1).
AUTHOR
Kees J. Bot (kjb@cs.vu.nl)
SD(4)