xref: /titanic_44/usr/src/man/man7d/scsa1394.7d (revision be468fc6d7266e97f1330ad9a761169925f5f3f1)
te
Copyright (c) 2005 Sun Microsystems, Inc. All Rights Reserved.
The contents of this file are subject to the terms of the Common Development and Distribution License (the "License"). You may not use this file except in compliance with the License.
You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE or http://www.opensolaris.org/os/licensing. See the License for the specific language governing permissions and limitations under the License.
When distributing Covered Code, include this CDDL HEADER in each file and include the License file at usr/src/OPENSOLARIS.LICENSE. If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner]
SCSA1394 7D "Mar 2, 2007"
NAME
scsa1394 - SCSI to 1394 bridge driver
SYNOPSIS

unit@GUID
DESCRIPTION

The scsa1394 driver is a 1394 target and an SCSA HBA driver that supports 1394 mass storage devices compliant with the Serial Bus Protocol 2 (SBP-2) specification. It supports both bus-powered and self-powered 1394 mass storage devices.

The scsa1394 nexus driver maps SCSA target driver requests to SBP-2 Operation Request Blocks (ORB's).

The scsa1394 driver creates a child device info node for each logical unit (LUN) on the mass storage device. The standard Solaris SCSI disk driver is attached to those nodes. Refer to sd(7D).

This driver supports multiple LUN devices and creates a separate child device info node for each LUN. All child LUN nodes attach to sd(7D).

In previous releases, all 1394 mass storage devices were treated as removable media devices and managed by rmformat(1) and volume management software. In the current release, however, only mass storage devices with a removable bit (RMB) value of 1 are removable. (The RMB is part of the device's SCSI INQUIRY data.) See SCSI specifications T10/995D Revision 11a, T10/1236-D Revision 20 or T10/1416-D Revision 23 for more information. However, for backward compatibility, all 1394 mass storage devices can still be managed by rmformat(1). With or without a volume manager, you can mount, eject, hot remove and hot insert a 1394 mass storage device as the following sections explain.

USING VOLUME MANAGEMENT

Mass storage devices are managed by a volume manager. Software that manages removable media creates a device nickname that can be listed with eject(1) or rmmount(1). A device that is not mounted automatically can be mounted using rmmount(1) under /rmdisk/label. Note that the mount(1M) and mount(1M) commands do not accept nicknames; you must use explicit device names with these commands.

See rmmount(1) to unmount the device and eject(1) to eject the media. If the device is ejected while it is mounted, volume management software unmounts the device before ejecting it. It also might kill any active applications that are accessing the device.

Volume management software is hotplug-aware and normally mounts file systems on USB mass storage devices if the file system is recognized. Before hot removing the USB device, use eject(1) to unmount the file system.

You can disable the automatic mounting and unmounting of removable devices by inserting a entry for a removable device in /etc/vfstab. In this entry, you must set the mount at boot field to no. See vfstab(4). See the System Administration Guide, Volume I and Solaris Common Desktop Environment: User's Guide for details on how to manage a removable device with CDE and Removable Media Manager. See dtfile.1X under CDE for information on how to use Removable Media Manager.

USING mount AND umount

Use mount(1M) to explicitly mount the device and umount(1M) to unmount the device. Use eject(1) to eject the media. After you have explicitly mounted a removable device, you cannot use a nickname as an argument to eject.

Removing the storage device while it is being accessed or mounted fails with a console warning. To hot remove the storage device from the system, unmount the file system, then kill all applications accessing the device. Next, hot remove the device. A storage device can be hot inserted at any time.

For a comprehensive listing of (non-bootable) 1394 mass-storage devices that are compatible with this driver, see www.sun.com/io.

DEVICE SPECIAL FILES

Block special file names are located in /dev/dsk. Raw file names are located in /dev/rdsk. Input/output requests to the devices must follow the same restrictions as those for SCSI disks. Refer to sd(7D).

IOCTLS

Refer to cdio(7I) and dkio(7I).

ERRORS

Refer to sd(7D).

FILES

The device special files for the 1394 mass storage device are created like those for a SCSI disk. Refer to sd(7D). /dev/dsk/cntndnsn

Block files

/dev/rdsk/cntndnsn

Raw files

/vol/dev/aliases/rmdisk0

Symbolic link to the character device for the media in removable drive 0. This is a generic removable media device.

/kernel/drv/scsa1394

32-bit x86 ELF kernel module

/kernel/drv/amd64/scsa1394

64-bit x86 ELF kernel module

/kernel/drv/sparcv9/scsa1394

64-bit SPARC ELF kernel module

ATTRIBUTES

See attributes(5) for a description of the following attributes:

ATTRIBUTE TYPE ATTRIBUTE VALUE
Architecture SPARC, x86, PCI-based systems
SEE ALSO

cdrw(1), eject(1), rmformat(1), rmmount(1), cfgadm_scsi(1M), fdisk(1M), mount(1M), umount(1M), dtfile.1X (in CDE man pages), scsi(4), vfstab(4), attributes(5), hci1394(7D), sd(7D), pcfs(7FS), cdio(7I), dkio(7I)

IEEE Std 1394-1995 Standard for a High Performance Serial Bus

ANSI NCITS 325-1998 - Serial Bus Protocol 2 (SBP-2)

System Administration Guide: Devices and File Systems

SCSI Specification T10/995D Revision 11a \(em March 1997

SCSI SpecificationT10/1236-D Revision 20 \(em July 2001

SCSI SpecificationT10/1416-D Revision 23\(em May 2005

Solaris Common Desktop Environment: User's Guide

http://www.sun.com/io