if [ ! "$_DEVICE_SUBR" ]; then _DEVICE_SUBR=1
#
# Copyright (c) 2012-2016 Devin Teske
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
# SUCH DAMAGE.
#
# $FreeBSD$
#
############################################################ INCLUDES
BSDCFG_SHARE="/usr/share/bsdconfig"
. $BSDCFG_SHARE/common.subr || exit 1
f_dprintf "%s: loading includes..." device.subr
f_include $BSDCFG_SHARE/dialog.subr
f_include $BSDCFG_SHARE/geom.subr
f_include $BSDCFG_SHARE/strings.subr
f_include $BSDCFG_SHARE/struct.subr
BSDCFG_LIBE="/usr/libexec/bsdconfig"
f_include_lang $BSDCFG_LIBE/include/messages.subr
############################################################ GLOBALS
NDEVICES=0 # Set by f_device_register(), used by f_device_*()
#
# A "device" from legacy sysinstall's point of view (mostly)
#
# NB: Disk devices have their `private' property set to GEOM ident
# NB: USB devices have their `private' property set to USB disk device name
#
f_struct_define DEVICE \
capacity \
desc \
devname \
enabled \
flags \
get \
init \
name \
private \
shutdown \
type \
volume
# Network devices have their `private' property set to this
f_struct_define DEVICE_INFO \
extras \
ipaddr \
ipv6addr \
netmask \
use_dhcp \
use_rtsol
#
# Device types for f_device_register(), f_device_find(), et al.
#
setvar DEVICE_TYPE_ANY "any" # Any
setvar DEVICE_TYPE_NONE "NONE" # Unknown
setvar DEVICE_TYPE_DISK "DISK" # GEOM `DISK'
setvar DEVICE_TYPE_FLOPPY "FD" # GEOM `FD'
setvar DEVICE_TYPE_FTP "FTP" # Dynamic network device
setvar DEVICE_TYPE_NETWORK "NETWORK" # See f_device_get_all_network
setvar DEVICE_TYPE_CDROM "CDROM" # GEOM `DISK'
setvar DEVICE_TYPE_USB "USB" # GEOM `PART'
setvar DEVICE_TYPE_DOS "DOS" # GEOM `DISK' `PART' or `LABEL'
setvar DEVICE_TYPE_UFS "UFS" # GEOM `DISK' `PART' or `LABEL'
setvar DEVICE_TYPE_NFS "NFS" # Dynamic network device
setvar DEVICE_TYPE_HTTP_PROXY "HTTP_PROXY" # Dynamic network device
setvar DEVICE_TYPE_HTTP "HTTP" # Dynamic network device
# Network devices have the following flags available
setvar IF_ETHERNET 1
setvar IF_WIRELESS 2
setvar IF_ACTIVE 4
#
# Default behavior is to call f_device_get_all() automatically when loaded.
#
: ${DEVICE_SELF_SCAN_ALL=1}
#
# Device Catalog variables
#
DEVICE_CATALOG_APPEND_ONLY= # Used by f_device_catalog_set()
NCATALOG_DEVICES=0 # Used by f_device_catalog_*() and MAIN
#
# A ``catalog'' device is for mapping GEOM devices to media devices (for
# example, determining if a $GEOM_CLASS_DISK geom is $DEVICE_TYPE_CDROM or
# $DEVICE_TYPE_DISK) and also getting default descriptions for devices that
# either lack a GEOM provided description or lack a presence in GEOM)
#
f_struct_define CATALOG_DEVICE \
desc \
name \
type
############################################################ FUNCTIONS
# f_device_register $var_to_set $name $desc $devname $type $enabled
# $init_function $get_function $shutdown_function
# $private $capacity
#
# Register a device. A `structure' (see struct.subr) is created and if
# $var_to_set is non-NULL, upon success holds the name of the struct created.
# The remaining positional arguments correspond to the properties of the
# `DEVICE' structure-type to be assigned (defined above).
#
# If not already registered (based on $name and $type), a new device is created
# and $NDEVICES is incremented.
#
f_device_register()
{
local __var_to_set="$1" __name="$2" __desc="$3" __devname="$4"
local __type="$5" __enabled="$6" __init_func="$7" __get_func="$8"
local __shutdown_func="$9" __private="${10}" __capacity="${11}"
# Required parameter(s)
[ "$__name" ] || return $FAILURE
if [ "$__var_to_set" ]; then
setvar "$__var_to_set" "" || return $FAILURE
fi
local __device
if f_device_find -1 "$__name" "$__type" __device; then
f_struct_free "$__device"
f_struct_new DEVICE "$__device" || return $FAILURE
else
__device=device_$(( NDEVICES + 1 ))
f_struct_new DEVICE "$__device" || return $FAILURE
NDEVICES=$(( $NDEVICES + 1 ))
fi
$__device set name "$__name"
$__device set desc "$__desc"
$__device set devname "$__devname"
$__device set type "$__type"
$__device set enabled "$__enabled"
$__device set init "$__init_func"
$__device set get "$__get_func"
$__device set shutdown "$__shutdown_func"
$__device set private "$__private"
$__device set capacity "$__capacity"
[ "$__var_to_set" ] && setvar "$__var_to_set" "$__device"
return $SUCCESS
}
# f_device_reset
#
# Reset the registered device chain.
#
f_device_reset()
{
local n=1
while [ $n -le $NDEVICES ]; do
f_device_shutdown device_$n
#
# XXX This potentially leaks $dev->private if it's being
# used to point to something dynamic, but you're not supposed
# to call this routine at such times that some open instance
# has its private member pointing somewhere anyway.
#
f_struct_free device_$n
n=$(( $n + 1 ))
done
NDEVICES=0
}
# f_device_reset_network
#
# Reset the registered network device chain.
#
f_device_reset_network()
{
local n=1 device type private i
while [ $n -le $NDEVICES ]; do
device=device_$n
f_struct $device || continue
$device get type type
[ "$type" = "$DEVICE_TYPE_NETWORK" ] || continue
#
# Leave the device up (don't call shutdown routine)
#
# Network devices may have DEVICE_INFO private member
$device get private private
[ "$private" ] && f_struct_free "$private"
# Free the network device
f_struct_free $device
# Fill the gap we just created
i=$n
while [ $i -lt $NDEVICES ]; do
f_struct_copy device_$(( $i + 1 )) device_$i
done
f_struct_free device_$NDEVICES
# Finally decrement the number of devices
NDEVICES=$(( $NDEVICES - 1 ))
n=$(( $n + 1 ))
done
}
# f_device_get_all
#
# Get all device information for all devices.
#
f_device_get_all()
{
local devname type desc capacity
f_dprintf "f_device_get_all: Probing devices..."
f_dialog_info "$msg_probing_devices_please_wait_this_can_take_a_while"
# First go for the network interfaces
f_device_get_all_network
# Next, go for the GEOM devices we might want to use as media
local geom geoms geom_name
debug= f_geom_find "" $GEOM_CLASS_DEV geoms
for geom in $geoms; do
if ! f_device_probe_geom $geom; then
debug= $geom get name geom_name
f_dprintf "WARNING! Unable to classify %s as %s" \
"GEOM device $geom_name" "media source"
fi
done
}
# f_device_get_all_network
#
# Get all network device information for attached network devices.
#
f_device_get_all_network()
{
local devname desc device flags
for devname in $( ifconfig -l ); do
# Eliminate network devices that don't make sense
case "$devname" in
lo*) continue ;;
esac
# Try and find its description
f_device_desc "$devname" $DEVICE_TYPE_NETWORK desc
f_dprintf "Found network device named %s" "$devname"
debug= f_device_register device $devname "$desc" \
"$devname" $DEVICE_TYPE_NETWORK 1 \
f_media_init_network "" f_media_shutdown_network "" -1
# Set flags based on media and status
flags=0
eval "$( ifconfig $devname 2> /dev/null | awk -v var=flags '
function _or(var, mask) {
printf "%s=$(( $%s | $%s ))\n", var, var, mask
}
BEGIN { S = "[[:space:]]+" }
{
if (!match($0, "^" S "(media|status):" S)) next
value = substr($0, RLENGTH + 1)
if ($1 == "media:") {
if (value ~ /Ethernet/) _or(var, "IF_ETHERNET")
if (value ~ /802\.11/) _or(var, "IF_WIRELESS")
} else if ($1 == "status:") {
if (value ~ /^active/) _or(var, "IF_ACTIVE")
}
}' )"
$device set flags $flags
done
}
# f_device_rescan
#
# Rescan all devices, after closing previous set - convenience function.
#
f_device_rescan()
{
f_device_reset
f_geom_rescan
f_device_get_all
}
# f_device_rescan_network
#
# Rescan all network devices, after closing previous set - for convenience.
#
f_device_rescan_network()
{
f_device_reset_network
f_device_get_all_network
}
# f_device_probe_geom $geom
#
# Probe a single GEOM device and if it can be classified as a media source,
# register it using f_device_register() with known type-specific arguments.
#
f_device_probe_geom()
{
local geom="$1"
f_struct "$geom" || return $FAILURE
# geom associated variables
local geom_name geom_consumer provider_ref geom_provider=
local provider_geom provider_config provider_class=
local provider_config_type catalog_struct catalog_type
local disk_ident
# gnop(8)/geli(8) associated variables (p for `parent device')
local p_devname p_geom p_consumer p_provider_ref p_provider
local p_provider_config p_provider_geom p_provider_class
# md(4) associated variables
local config config_type config_file magic=
# Temporarily disable debugging to keep debug output light
local old_debug="$debug" debug=
#
# Get the GEOM name (for use below in device registration)
#
$geom get name devname || continue
#
# Attempt to get the consumer, provider, provider config, and
# provider class for this geom (errors ignored).
#
# NB: Each GEOM in the `DEV' class should have one consumer.
# That consumer should have a reference to its provider.
#
$geom get consumer1 geom_consumer
f_struct "$geom_consumer" get provider_ref provider_ref &&
f_geom_find_by id "$provider_ref" provider geom_provider
if f_struct "$geom_provider"; then
$geom_provider get config provider_config
f_geom_parent $geom_provider provider_geom &&
f_geom_parent $provider_geom provider_class
fi
#
# Get values for device registration (errors ignored)
#
f_struct "$provider_class" get name type
f_struct "$geom_provider" get mediasize capacity
f_struct "$provider_config" get descr desc
#
# For gnop(8), geli(8), or combination thereof, change device type to
# that of the consumer
#
p_devname= p_geom= p_provider= p_provider_config=
case "$devname" in
*.nop.eli) p_devname="${devname%.nop.eli}" ;;
*.eli.nop) p_devname="${devname%.eli.nop}" ;;
*.eli) p_devname="${devname%.eli}" ;;
*.nop) p_devname="${devname%.nop}" ;;
esac
[ "$p_devname" ] && f_geom_find "$p_devname" $GEOM_CLASS_DEV p_geom
if [ "${p_geom:-$geom}" != "$geom" ]; then
f_struct "$p_geom" get consumer1 p_consumer
f_struct "$p_consumer" get provider_ref p_provider_ref &&
f_geom_find_by id "$p_provider_ref" provider p_provider
if f_struct "$p_provider"; then
$p_provider get config p_provider_config
f_geom_parent $p_provider p_provider_geom &&
f_geom_parent $p_provider_geom p_provider_class
fi
f_struct "$p_provider_class" get name type
fi
# Look up geom device in device catalog for default description
f_device_catalog_get \
$DEVICE_TYPE_ANY "${p_devname:-$devname}" catalog_struct
[ "$desc" ] || f_struct "catalog_device_$catalog_struct" get desc desc
# Use device catalog entry for potential re-classification(s)
f_struct "catalog_device_$catalog_struct" get type catalog_type
# Restore debugging for this next part (device registration)
debug="$old_debug"
#
# Register the device
#
local retval device
case "$type" in
$GEOM_CLASS_DISK)
# First attempt to classify by device catalog (see MAIN)
case "$catalog_type" in
$DEVICE_TYPE_CDROM)
f_dprintf "Found CDROM device for disk %s" "$devname"
debug= f_device_register device "$devname" "$desc" \
"/dev/$devname" $DEVICE_TYPE_CDROM 1 \
f_media_init_cdrom f_media_get_cdrom \
f_media_shutdown_cdrom "" "$capacity" &&
return $SUCCESS
;;
esac
# Fall back to register label device as a disk and taste it
f_dprintf "Found disk device named %s" "$devname"
debug= f_struct "$p_provider_config" get \
ident disk_ident ||
debug= f_struct "$provider_config" get \
ident disk_ident
debug= f_device_register device "$devname" "$desc" \
"/dev/$devname" $DEVICE_TYPE_DISK 1 \
"" "" "" "$disk_ident" "$capacity"
retval=$?
# Detect ``dangerously dedicated'' filesystems (errors ignored)
f_device_probe_disk_fs device "$devname" "$capacity" &&
retval=$SUCCESS
return $retval
;;
$GEOM_CLASS_FD)
f_dprintf "Found floppy device named %s" "$devname"
debug= f_device_register device "$devname" "$desc" \
"/dev/$devname" $DEVICE_TYPE_FLOPPY 1 \
f_media_init_floppy f_media_get_floppy \
f_media_shutdown_floppy "" "$capacity"
return $?
;;
$GEOM_CLASS_LABEL)
: fall through to below section # reduces indentation level
;;
$GEOM_CLASS_MD)
f_dprintf "Found disk device named %s" "$devname"
debug= f_device_register device "$devname" "$desc" \
"/dev/$devname" $DEVICE_TYPE_DISK 1 \
"" "" "" "" "$capacity"
retval=$?
#
# Attempt to get file(1) magic to potentially classify as
# alternate media type. If unable to get magic, fall back to
# md(4) characteristics (such as vnode filename).
#
[ -r "/dev/$devname" ] &&
magic=$( file -bs "/dev/$devname" 2> /dev/null )
if [ ! "$magic" ]; then
# Fall back to md(4) characteristics
if f_struct "$p_provider_config"; then
config="$p_provider_config"
else
config="$provider_config"
fi
debug= f_struct "$config" get type config_type
debug= f_struct "$config" get file config_file
# Substitute magic for below based on type and file
case "$config_type=$config_file" in
vnode=*.iso) magic="ISO 9660" ;;
esac
fi
f_device_probe_disk_fs device \
"$devname" "$capacity" "$magic" &&
retval=$SUCCESS # Errors ignored
return $retval
;;
$GEOM_CLASS_PART)
if f_struct "$p_provider_config"; then
config="$p_provider_config"
else
config="$provider_config"
fi
debug= f_struct "$config" get type provider_config_type
f_device_probe_geom_part device \
"$provider_config_type" "$devname" "$capacity"
retval=$?
device_type=$DEVICE_TYPE_NONE
[ $retval -eq $SUCCESS ] &&
debug= f_struct "$device" get type device_type
# Potentially re-classify as USB device
if [ "$device_type" = "$DEVICE_TYPE_UFS" -a \
"$catalog_type" = "$DEVICE_TYPE_USB" ]
then
f_dprintf "Found USB device for partition %s" \
"$devname"
debug= f_struct "$p_provider_geom" get \
name disk_name ||
debug= f_struct "$provider_geom" get \
name disk_name
debug= f_device_register device "$devname" "$desc" \
"/dev/$devname" $DEVICE_TYPE_USB 1 \
f_media_init_usb f_media_get_usb \
f_media_shutdown_usb "$disk_name" "$capacity"
retval=$?
fi
return $retval
;;
$GEOM_CLASS_RAID)
# Use the provider geom name as the description
if [ ! "$desc" ]; then
f_struct "$p_provider_geom" get name desc ||
f_struct "$provider_geom" get name desc
fi
f_dprintf "Found disk device named %s" "$devname"
debug= f_device_register device \
"$devname" "${desc:-GEOM RAID device}" \
"/dev/$devname" $DEVICE_TYPE_DISK 1 \
"" "" "" "" "$capacity"
retval=$?
# Detect ``dangerously dedicated'' filesystems
f_device_probe_disk_fs device "$devname" "$capacity" &&
retval=$SUCCESS # Errors ignored
return $retval
;;
$GEOM_CLASS_ZFS_ZVOL)
f_dprintf "Found disk device named %s" "$devname"
debug= f_device_register device \
"$devname" "${desc:-GEOM ZFS::ZVOL device}" \
"/dev/$devname" $DEVICE_TYPE_DISK 1 \
"" "" "" "" "$capacity"
retval=$?
# Detect ``dangerously dedicated'' filesystems
f_device_probe_disk_fs device "$devname" "$capacity" &&
retval=$SUCCESS # Errors ignored
return $retval
;;
*)
return $FAILURE # Unknown GEOM class
esac
#
# Still here? Must be $GEOM_CLASS_LABEL
#
local label_geom label_devname label_devgeom= label_devconsumer
local label_devprovider= label_devprovider_ref label_devprovider_config
local label_gpart_type
if f_struct "$p_provider"; then
label_geom="$p_provider_geom"
else
label_geom="$provider_geom"
fi
case "$devname" in
gpt/*|gptid/*)
#
# Attempt to get the partition type by getting the `config'
# member of the provider for our device (which is named in the
# parent geom of our current provider).
#
debug= f_struct "$label_geom" get name label_devname &&
debug= f_geom_find "$label_devname" $GEOM_CLASS_DEV \
label_devgeom
debug= f_struct "$label_devgeom" get \
consumer1 label_devconsumer
debug= f_struct "$label_devconsumer" get \
provider_ref label_devprovider_ref &&
debug= f_geom_find_by id "$label_devprovider_ref" \
provider label_devprovider
debug= f_struct "$label_devprovider" get \
config label_devprovider_config
debug= f_struct "$label_devprovider_config" get \
type label_gpart_type
#
# Register device label based on partition type
#
f_device_probe_geom_part device \
"$label_gpart_type" "$devname" "$capacity"
return $?
;;
iso9660/*)
f_dprintf "Found CDROM device labeled %s" "$devname"
debug= f_device_register device \
"$devname" "ISO9660 file system" \
"/dev/$devname" $DEVICE_TYPE_CDROM 1 \
f_media_init_cdrom f_media_get_cdrom \
f_media_shutdown_cdrom "" "$capacity"
return $?
;;
label/*)
# For generic labels, use provider geom name as real device
debug= f_struct "$label_geom" get name label_devname
# Look up label geom device in device catalog for default desc
debug= f_device_catalog_get \
$DEVICE_TYPE_ANY "$label_devname" catalog_struct
[ "$desc" ] || debug= f_struct \
"catalog_device_$catalog_struct" get desc desc
# Use device catalog entry for potential re-classification(s)
debug= f_struct "catalog_device_$catalog_struct" get \
type catalog_type
# First attempt to classify by device catalog (see MAIN)
case "$catalog_type" in
$DEVICE_TYPE_CDROM)
f_dprintf "Found CDROM device for disk %s" "$devname"
debug= f_device_register device "$devname" "$desc" \
"/dev/$devname" $DEVICE_TYPE_CDROM 1 \
f_media_init_cdrom f_media_get_cdrom \
f_media_shutdown_cdrom "" "$capacity" &&
return $SUCCESS
;;
esac
# Fall back to register label device as a disk and taste it
f_dprintf "Found disk device labeled %s" "$devname"
debug= f_device_register device \
"$devname" "GEOM LABEL device" \
"/dev/$devname" $DEVICE_TYPE_DISK 1 \
"" "" "" "" "$capacity"
retval=$?
# Detect ``dangerously dedicated'' filesystems (errors ignored)
f_device_probe_disk_fs device "$devname" "$capacity" &&
retval=$SUCCESS
return $retval
;;
msdosfs/*)
f_dprintf "Found DOS partition labeled %s" "$devname"
debug= f_device_register device "$devname" "DOS file system" \
"/dev/$devname" $DEVICE_TYPE_DOS 1 \
f_media_init_dos f_media_get_dos \
f_media_shutdown_dos "" "$capacity"
return $?
;;
ufs/*|ufsid/*)
f_dprintf "Found UFS partition labeled %s" "$devname"
debug= f_device_register device "$devname" "UFS file system" \
"/dev/$devname" $DEVICE_TYPE_UFS 1 \
f_media_init_ufs f_media_get_ufs \
f_media_shutdown_ufs "" "$capacity"
return $?
;;
ext2fs/*|ntfs/*|reiserfs/*)
return $FAILURE # No media device handlers for these labels
;;
esac
# Unable to classify GEOM label
return $FAILURE
}
# f_device_probe_geom_part $var_to_set $gpart_type $devname $capacity [$magic]
#
# Given a gpart(8) partition type and a device name, register the device if it
# is a known partition type that we can handle. If $var_to_set is non-NULL,
# upon success holds the DEVICE struct name of the registered device.
#
# Returns success if the device was successfully registered, failure otherwise.
#
f_device_probe_geom_part()
{
local __var_to_set="$1" __gpart_type="$2" __devname="$3"
local __capacity="${4:--1}" __magic="$5"
#
# Register device based on partition type
# NB: !0 equates to `unused' bsdlabel
#
case "$__gpart_type" in
fat16|fat32)
f_dprintf "Found DOS partition named %s" "$__devname"
debug= f_device_register "$__var_to_set" \
"$__devname" "DOS file system" \
"/dev/$__devname" $DEVICE_TYPE_DOS 1 \
f_media_init_dos f_media_get_dos \
f_media_shutdown_dos "" "$__capacity"
return $?
;;
freebsd|!0) # Commonly used inappropriately, taste for FreeBSD
[ -r "/dev/$__devname" -a ! "$__magic" ] &&
__magic=$( file -bs "/dev/$__devname" 2> /dev/null )
case "$__magic" in
*"Unix Fast File system"*)
f_dprintf "Found UFS partition named %s" "$__devname"
debug= f_device_register "$__var_to_set" \
"$__devname" "UFS file system" \
"/dev/$__devname" $DEVICE_TYPE_UFS 1 \
f_media_init_ufs f_media_get_ufs \
f_media_shutdown_ufs "" "$__capacity"
return $?
esac
return $FAILURE
;;
freebsd-ufs)
f_dprintf "Found UFS partition named %s" "$__devname"
debug= f_device_register "$__var_to_set" \
"$__devname" "UFS file system" \
"/dev/$__devname" $DEVICE_TYPE_UFS 1 \
f_media_init_ufs f_media_get_ufs \
f_media_shutdown_ufs "" "$__capacity"
return $?
;;
apple-*|linux-*|ms-*|netbsd-*|ntfs|vmware-*)
return $FAILURE # No device types for these
;;
bios-*|ebr|efi|mbr|freebsd-boot|freebsd-swap)
return $FAILURE # Not a source for media
;;
freebsd-nandfs|freebsd-vinum|freebsd-zfs)
return $FAILURE # Unsupported as media source
;;
esac
return $FAILURE # Unknown partition type
}
# f_device_probe_disk_fs $var_to_set $devname [$capacity [$magic]]
#
# Given a device name, taste it and register the device if it is a so-called
# ``dangerously dedicated'' file system written without a partition table.
# Tasting is done using file(1) (specifically `file -bs') but if $magic is
# present and non-NULL it is used instead. If $var_to_set is non-NULL, upon
# success holds the DEVICE struct name of the registered device.
#
# Returns success if the device was successfully registered, failure otherwise.
#
f_device_probe_disk_fs()
{
local __var_to_set="$1" __devname="$2" __capacity="${3:--1}"
local __magic="$4"
[ -r "/dev/${__devname#/dev/}" -a ! "$__magic" ] &&
__magic=$( file -bs "/dev/$__devname" 2> /dev/null )
case "$__magic" in
*"ISO 9660"*)
f_dprintf "Found CDROM device for disk %s" "$__devname"
debug= f_device_register "$__var_to_set" \
"$__devname" "ISO9660 file system" \
"/dev/$__devname" $DEVICE_TYPE_CDROM 1 \
f_media_init_cdrom f_media_get_cdrom \
f_media_shutdown_cdrom "" "$__capacity"
return $?
;;
*"Unix Fast File system"*)
f_dprintf "Found UFS device for disk %s" "$__devname"
debug= f_device_register "$__var_to_set" \
"$__devname" "UFS file system" \
"/dev/$__devname" $DEVICE_TYPE_UFS 1 \
f_media_init_ufs f_media_get_ufs \
f_media_shutdown_ufs "" "$__capacity"
return $?
;;
*"FAT (12 bit)"*|*"FAT (16 bit)"*|*"FAT (32 bit)"*)
f_dprintf "Found DOS device for disk %s" "$__devname"
debug= f_device_register "$__var_to_set" \
"$__devname" "DOS file system" \
"/dev/$__devname" $DEVICE_TYPE_DOS 1 \
f_media_init_dos f_media_get_dos \
f_media_shutdown_dos "" "$__capacity"
return $?
;;
esac
return $FAILURE # Unknown file system type
}
# f_device_catalog_get $type $name [$var_to_set]
#
# Fetch the struct name of the catalog device matching device $name. If $type
# is either NULL, missing, or set to $DEVICE_TYPE_ANY then only $name is used.
# Returns success if a match was found, otherwise failure.
#
# If $var_to_set is missing or NULL, the struct name is printed to standard out
# for capturing in a sub-shell (which is less-recommended because of
# performance degredation; for example, when called in a loop).
#
f_device_catalog_get()
{
local __type="$1" __name="$2" __var_to_set="$3"
local __dname=
# Return failure if no $name
[ "$__name" ] || return $FAILURE
# Disable debugging to keep debug output light
local debug=
#
# Attempt to create an alternate-form of $__name that contains the
# first contiguous string of numbers replaced with `%d' for comparison
# against stored pattern names (see MAIN).
#
local __left="${__name%%[0-9]*}" __right="${__name#*[0-9]}"
if [ "$__left" != "$__name" ]; then
# Chop leading digits from right 'til we hit first non-digit
while :; do
case "$__right" in
[0-9]*) __right="${__right#[0-9]}" ;;
*) break
esac
done
__dname="${__left}%d$__right"
fi
[ "$__type" = "$DEVICE_TYPE_ANY" ] && __type=
local __dev __dev_name __dev_type
for __dev in $DEVICE_CATALOG; do
catalog_device_$__dev get name __dev_name
[ "$__dev_name" = "$__name" -o "$__dev_name" = "$__dname" ] ||
continue
catalog_device_$__dev get type __dev_type
[ "${__type:-$__dev_type}" = "$__dev_type" ] || continue
if [ "$__var_to_set" ]; then
setvar "$__var_to_set" $__dev
else
echo $__dev
fi
return $?
done
[ "$__var_to_set" ] && setvar "$__var_to_set" ""
return $FAILURE
}
# f_device_catalog_set $type $name $desc
#
# Store a description (desc) in-association with device $type and $name.
# Returns success unless $name is NULL or missing. Use f_device_catalog_get()
# routine with the same $name and optionally $type to retrieve catalog device
# structure (see CATALOG_DEVICE struct definition in GLOBALS section).
#
f_device_catalog_set()
{
local type="$1" name="$2" desc="$3"
local struct dev dev_type found=
[ "$name" ] || return $FAILURE
# Disable debugging to keep debug output light
local debug=
f_str2varname "$name" struct
if [ ! "$DEVICE_CATALOG_APPEND_ONLY" ]; then
for dev in $DEVICE_CATALOG; do
[ "$dev" = "$struct" ] || continue
found=1 break
done
fi
if [ "$found" ]; then
f_struct_free "catalog_device_$struct"
else
DEVICE_CATALOG="$DEVICE_CATALOG $struct"
fi
f_struct_new CATALOG_DEVICE "catalog_device_$struct" || return $FAILURE
catalog_device_$struct set type "$type"
catalog_device_$struct set name "$name"
catalog_device_$struct set desc "$desc"
return $SUCCESS
}
# f_device_desc $device_name $device_type [$var_to_set]
#
# Print a description for a device name (eg., `fxp0') given a specific device
# type/class.
#
# If $var_to_set is missing or NULL, the device description is printed to
# standard out for capturing in a sub-shell (which is less-recommended because
# of performance degredation; for example, when called in a loop).
#
f_device_desc()
{
local __name="$1" __type="$2" __var_to_set="$3"
local __devname __devunit __cp
# Check variables
[ "$__name" ] || return $SUCCESS
[ "$__type" = "$DEVICE_TYPE_ANY" ] && type=
[ "$__var_to_set" ] && { setvar "$__var_to_set" "" || return; }
#
# Return sysctl MIB dev.NAME.UNIT.%desc if it exists, otherwise fall
# through to further alternate methods.
#
if f_have sysctl; then
__devname="${__name%%[0-9]*}"
__devunit="${__name#$__devname}"
__devunit="${__devunit%%[!0-9]*}"
if [ "$__var_to_set" ]; then
if __cp=$(
sysctl -n "dev.$__devname.$__devunit.%desc" \
2> /dev/null
); then
setvar "$__var_to_set" "$__cp" &&
return $SUCCESS
fi
else
sysctl -n "dev.$__devname.$__devunit.%desc" \
2> /dev/null && return $SUCCESS
fi
fi
# Look up device in catalog for default description
local __catalog_struct
debug= f_device_catalog_get "$__type" "$__name" __catalog_struct
debug= f_struct "catalog_device_$__catalog_struct" get \
desc "$__var_to_set" && return $SUCCESS
#
# Sensible fall-backs for specific types
#
case "$__type" in
$DEVICE_TYPE_CDROM) __cp="<unknown cdrom device type>" ;;
$DEVICE_TYPE_DISK) __cp="<unknown disk device type>" ;;
$DEVICE_TYPE_FLOPPY) __cp="<unknown floppy device type>" ;;
$DEVICE_TYPE_USB) __cp="<unknown USB storage device type>" ;;
$DEVICE_TYPE_NETWORK) __cp="<unknown network interface type>" ;;
*)
__cp="<unknown device type>"
esac
if [ "$__var_to_set" ]; then
setvar "$__var_to_set" "$__cp"
else
echo "$__cp"
fi
return $FAILURE
}
# f_device_is_ethernet $device
#
# Returns true if $device is a wired Ethernet network interface. Otherwise
# returns false. Example wired interfaces include: fxp0 em0 bge0 rl0 etc.
#
f_device_is_ethernet()
{
local dev="$1" type flags
# Make sure we have an actual device by that name
f_struct "$dev" || return $FAILURE
# Make sure that the device is a network device
$dev get type type
[ "$type" = "$DEVICE_TYPE_NETWORK" ] || return $FAILURE
# Make sure that the media flags indicate that it is Ethernet
$dev get flags flags
[ $(( ${flags:-0} & $IF_ETHERNET )) -eq $IF_ETHERNET ]
}
# f_device_is_wireless $device
#
# Returns true if $device is a Wireless network interface. Otherwise returns
# false. Examples of wireless interfaces include: iwn0
#
f_device_is_wireless()
{
local dev="$1" type flags
# Make sure we have an actual device by that name
f_struct "$dev" || return $FAILURE
# Make sure that the device is a network device
$dev get type type
[ "$type" = "$DEVICE_TYPE_NETWORK" ] || return $FAILURE
# Make sure that the media flags indicate that it is 802.11 wireless
$dev get flags flags
[ $(( ${flags:-0} & $IF_WIRELESS )) -eq $IF_WIRELESS ]
}
# f_device_is_active $device
#
# Returns true if $device is active. Otherwise returns false. Currently this
# only works for network interfaces.
#
f_device_is_active()
{
local dev="$1" type flags=0
# Make sure we have an actual device by that name
f_struct "$dev" || return $FAILURE
$dev get type type
case "$type" in
$DEVICE_TYPE_NETWORK)
# Make sure that the media flags indicate that it is active
$dev get flags flags
[ $(( ${flags:-0} & $IF_ACTIVE )) -eq $IF_ACTIVE ]
;;
*)
return $FAILURE
esac
}
# f_device_find [-1] $name [$type [$var_to_set]]
#
# Find one or more registered devices by name, type, or both. Returns a space-
# separated list of devices matching the search criterion.
#
# If `-1' option flag is given, only the first matching device is returned.
#
# If $var_to_set is missing or NULL, the device name(s) are printed to standard
# out for capturing in a sub-shell (which is less-recommended because of
# performance degredation; for example, when called in a loop).
#
f_device_find()
{
local OPTIND=1 OPTARG flag only_one=
while getopts 1 flag; do
case "$flag" in
1) only_one=1 ;;
esac
done
shift $(( $OPTIND - 1 ))
local __name="$1" __type="${2:-$DEVICE_TYPE_ANY}" __var_to_set="$3"
local __n=1 __devname __devtype __found=
while [ $__n -le $NDEVICES ]; do
device_$__n get name __devname
device_$__n get type __devtype
if [ "$__name" = "$__devname" -o ! "$__name" ] &&
[ "$__type" = "$DEVICE_TYPE_ANY" -o \
"$__type" = "$__devtype" ]
then
__found="$__found device_$__n"
[ "$only_one" ] && break
fi
__n=$(( $__n + 1 ))
done
if [ "$__var_to_set" ]; then
setvar "$__var_to_set" "${__found# }"
else
echo $__found
fi
[ "$__found" ] # Return status
}
# f_device_init $device
#
# Initialize a device by evaluating its `init' function. The $device argument
# is a DEVICE struct name.
#
f_device_init()
{
local device="$1" init_func
f_struct "$device" || return $?
$device get init init_func
${init_func:-:} "$device"
}
# f_device_get $device $file [$probe]
#
# Read $file by evaluating the device's `get' function. The file is commonly
# produced on standard output (but it truly depends on the function called).
# The $device argument is a DEVICE struct name.
#
f_device_get()
{
local device="$1" file="$2" probe="$3" get_func
f_struct "$device" || return $?
$device get get get_func
${get_func:-:} "$device" "$file" ${3+"$probe"}
}
# f_device_shutdown $device
#
# Shutdown a device by evaluating its `shutdown' function. The $device argument
# is a DEVICE struct name.
#
f_device_shutdown()
{
local device="$1" shutdown_func
f_struct "$device" || return $?
$device get shutdown shutdown_func
${shutdown_func:-:} "$device"
}
# f_devices_sort_by $property $var_to_get [$var_to_set]
#
# Take list of devices from $var_to_get (separated by whitespace, newline
# included) and sort them by $property (e.g., `name'). The sorted list of
# DEVICE struct names is returned on standard output separated by whitespace
# (newline to be specific) unless $var_to_set is present and non-NULL.
#
# This function is a two-parter. Below is the awk(1) portion of the function,
# afterward is the sh(1) function which utilizes the below awk script.
#
f_device_sort_by_awk='
# Variables that should be defined on the invocation line:
# -v prop="property"
function _asorti(src, dest)
{
k = nitems = 0
for (i in src) dest[++nitems] = i
for (i = 1; i <= nitems; k = i++) {
idx = dest[i]
while ((k > 0) && (dest[k] > idx)) {
dest[k+1] = dest[k]; k--
}
dest[k+1] = idx
}
return nitems
}
{
split($0, devs, FS)
for (d in devs) {
name = ENVIRON["_struct_value_" devs[d] "_" prop]
devices[name] = devs[d]
}
}
END {
nitems = _asorti(devices, devices_sorted)
for (i = 1; i <= nitems; i++) print devices[devices_sorted[i]]
}
'
f_device_sort_by()
{
local __property="${1:-name}" __var_to_get="$2" __var_to_set="$3"
f_isset "$__var_to_get" || return $FAILURE
local __dev
for __dev in $( f_getvar "$__var_to_get" ); do
export _struct_value_${__dev}_$__property
done
local __cp
setvar "${__var_to_set:-__cp}" "$(
f_getvar "$__var_to_get" |
awk -v prop="$__property" "$f_device_sort_by_awk"
)"
[ "$__var_to_set" ] || echo "$__cp"
}
# f_device_menu $title $prompt $hline $device_type [$helpfile]
#
# Display a menu listing all the devices of a certain type in the system.
#
f_device_menu()
{
f_dialog_title "$1"
local title="$DIALOG_TITLE" btitle="$DIALOG_BACKTITLE"
f_dialog_title_restore
local prompt="$2" hline="$3" type="$4" helpfile="$5"
local devs
f_device_find "" "$type" devs || return $DIALOG_CANCEL
local name desc menu_list=
f_device_sort_by name devs devs
for dev in $devs; do
$dev get name name
$dev get desc desc
f_shell_escape "$name" name
f_shell_escape "$desc" desc
menu_list="$menu_list
'$name' '$desc'" # END-QUOTE
done
menu_list="${menu_list#$NL}"
local height width rows
eval f_dialog_menu_size height width rows \
\"\$title\" \
\"\$btitle\" \
\"\$prompt\" \
\"\$hline\" \
$menu_list
local errexit=
case $- in *e*) errexit=1; esac
set +e
local mtag
while :; do
mtag=$( eval $DIALOG \
--title \"\$title\" \
--backtitle \"\$btitle\" \
--hline \"\$hline\" \
--ok-label \"\$msg_ok\" \
--cancel-label \"\$msg_cancel\" \
${helpfile:+ \
--help-button \
--help-label \"\$msg_help\" \
${USE_XDIALOG:+--help \"\"} \
} \
--menu \"\$prompt\" \
$height $width $rows \
$menu_list \
2>&1 >&$DIALOG_TERMINAL_PASSTHRU_FD
)
local retval=$?
[ $retval -ne $DIALOG_HELP ] && break
# Otherwise, the Help button was pressed
f_show_help "$helpfile"
# ...then loop back to menu
done
f_dprintf "retval=%u mtag=[%s]" $retval "$mtag"
[ "$errexit" ] && set -e
if [ $retval -eq $DIALOG_OK ]; then
# Clean up the output of [X]dialog(1)
f_dialog_data_sanitize mtag
# Map the user's choice back to a struct name
local index device
index=$( eval f_dialog_menutag2index \"\$mtag\" $menu_list )
device=$( set -- $devs; eval echo \${$index} )
echo "$device" >&2
fi
return $retval
}
#
# Short-hand
#
f_cdrom() { f_device_catalog_set $DEVICE_TYPE_CDROM "$1" "$2"; }
f_disk() { f_device_catalog_set $DEVICE_TYPE_DISK "$1" "$2"; }
f_floppy() { f_device_catalog_set $DEVICE_TYPE_FLOPPY "$1" "$2"; }
f_usb() { f_device_catalog_set $DEVICE_TYPE_USB "$1" "$2"; }
f_network() { f_device_catalog_set $DEVICE_TYPE_NETWORK "$1" "$2"; }
############################################################ MAIN
#
# The below classifications allow us to re-group the GEOM devices from the
# `DEV' GEOM class appropriately while providing fall-back descriptions both
# for making the below code more maintainable and handling the rare case the
# GEOM device lacks a description.
#
DEVICE_CATALOG_APPEND_ONLY=1 # Make initial loading faster
# CDROM, Disk, Floppy, and USB devices/names
f_cdrom "cd%d" "SCSI CDROM drive"
f_cdrom "mcd%d" "Mitsumi (old model) CDROM drive"
f_cdrom "scd%d" "Sony CDROM drive - CDU31/33A type"
f_disk "aacd%d" "Adaptec FSA RAID array"
f_disk "ada%d" "ATA/SATA disk device"
f_disk "amrd%d" "AMI MegaRAID drive"
f_disk "da%d" "SCSI disk device"
f_disk "idad%d" "Compaq RAID array"
f_disk "ipsd%d" "IBM ServeRAID RAID array"
f_disk "md%d" "md(4) disk device"
f_disk "mfid%d" "LSI MegaRAID SAS array"
f_disk "mlxd%d" "Mylex RAID disk"
f_disk "twed%d" "3ware ATA RAID array"
f_disk "vtbd%d" "VirtIO Block Device"
f_floppy "fd%d" "Floppy Drive unit A"
f_usb "da%da" "USB Mass Storage Device"
# Network interfaces/names
f_network "ae%d" "Attansic/Atheros L2 Fast Ethernet"
f_network "age%d" "Attansic/Atheros L1 Gigabit Ethernet"
f_network "alc%d" "Atheros AR8131/AR8132 PCIe Ethernet"
f_network "ale%d" "Atheros AR8121/AR8113/AR8114 PCIe Ethernet"
f_network "an%d" "Aironet 4500/4800 802.11 wireless adapter"
f_network "ath%d" "Atheros IEEE 802.11 wireless adapter"
f_network "aue%d" "ADMtek USB Ethernet adapter"
f_network "axe%d" "ASIX Electronics USB Ethernet adapter"
f_network "bce%d" "Broadcom NetXtreme II Gigabit Ethernet card"
f_network "bfe%d" "Broadcom BCM440x PCI Ethernet card"
f_network "bge%d" "Broadcom BCM570x PCI Gigabit Ethernet card"
f_network "bm%d" "Apple BMAC Built-in Ethernet"
f_network "bwn%d" "Broadcom BCM43xx IEEE 802.11 wireless adapter"
f_network "cas%d" "Sun Cassini/Cassini+ or NS DP83065 Saturn Ethernet"
f_network "cc3i%d" "SDL HSSI sync serial PCI card"
f_network "cue%d" "CATC USB Ethernet adapter"
f_network "cxgb%d" "Chelsio T3 10Gb Ethernet card"
f_network "dc%d" "DEC/Intel 21143 (and clones) PCI Fast Ethernet card"
f_network "de%d" "DEC DE435 PCI NIC or other DC21040-AA based card"
f_network "disc%d" "Software discard network interface"
f_network "ed%d" "Novell NE1000/2000; 3C503; NE2000-compatible PCMCIA"
f_network "el%d" "3Com 3C501 Ethernet card"
f_network "em%d" "Intel(R) PRO/1000 Ethernet card"
f_network "en%d" "Efficient Networks ATM PCI card"
f_network "ep%d" "3Com 3C509 Ethernet card/3C589 PCMCIA"
f_network "et%d" "Agere ET1310 based PCI Express Gigabit Ethernet card"
f_network "ex%d" "Intel EtherExpress Pro/10 Ethernet card"
f_network "fe%d" "Fujitsu MB86960A/MB86965A Ethernet card"
f_network "fpa%d" "DEC DEFPA PCI FDDI card"
f_network "fwe%d" "FireWire Ethernet emulation"
f_network "fwip%d" "IP over FireWire"
f_network "fxp%d" "Intel EtherExpress Pro/100B PCI Fast Ethernet card"
f_network "gem%d" "Apple GMAC or Sun ERI/GEM Ethernet adapter"
f_network "hme%d" "Sun HME (Happy Meal Ethernet) Ethernet adapter"
f_network "ie%d" "AT&T StarLAN 10 and EN100; 3Com 3C507; NI5210"
f_network "igb%d" "Intel(R) PRO/1000 PCI Express Gigabit Ethernet card"
f_network "ipw%d" "Intel PRO/Wireless 2100 IEEE 802.11 adapter"
f_network "iwi%d" "Intel PRO/Wireless 2200BG/2225BG/2915ABG adapter"
f_network "iwn%d" "Intel Wireless WiFi Link 4965AGN IEEE 802.11n adapter"
f_network "ix%d" "Intel Etherexpress Ethernet card"
f_network "ixgb%d" "Intel(R) PRO/10Gb Ethernet card"
f_network "ixgbe%d" "Intel(R) PRO/10Gb Ethernet card"
f_network "jme%d" "JMicron JMC250 Gigabit/JMC260 Fast Ethernet"
f_network "kue%d" "Kawasaki LSI USB Ethernet adapter"
f_network "le%d" "AMD Am7900 LANCE or Am79C9xx PCnet Ethernet adapter"
f_network "lge%d" "Level 1 LXT1001 Gigabit Ethernet card"
f_network "lnc%d" "Lance/PCnet (Isolan/Novell NE2100/NE32-VL) Ethernet"
f_network "lo%d" "Loop-back (local) network interface"
f_network "lp%d" "Parallel Port IP (PLIP) peer connection"
f_network "malo%d" "Marvell Libertas 88W8335 802.11 wireless adapter"
f_network "msk%d" "Marvell/SysKonnect Yukon II Gigabit Ethernet"
f_network "mxge%d" "Myricom Myri10GE 10Gb Ethernet card"
f_network "nfe%d" "NVIDIA nForce MCP Ethernet"
f_network "ng%d" "Vimage netgraph(4) bridged Ethernet device"
f_network "nge%d" "NatSemi PCI Gigabit Ethernet card"
f_network "nve%d" "NVIDIA nForce MCP Ethernet"
f_network "nxge%d" "Neterion Xframe 10GbE Server/Storage adapter"
f_network "pcn%d" "AMD Am79c79x PCI Ethernet card"
f_network "plip%d" "Parallel Port IP (PLIP) peer connection"
f_network "ral%d" "Ralink Technology IEEE 802.11 wireless adapter"
f_network "ray%d" "Raytheon Raylink 802.11 wireless adapter"
f_network "re%d" "RealTek 8139C+/8169/8169S/8110S PCI Ethernet adapter"
f_network "rl%d" "RealTek 8129/8139 PCI Ethernet card"
f_network "rue%d" "RealTek USB Ethernet card"
f_network "rum%d" "Ralink Technology USB IEEE 802.11 wireless adapter"
f_network "sf%d" "Adaptec AIC-6915 PCI Ethernet card"
f_network "sge%d" "Silicon Integrated Systems SiS190/191 Ethernet"
f_network "sis%d" "SiS 900/SiS 7016 PCI Ethernet card"
f_network "sk%d" "SysKonnect PCI Gigabit Ethernet card"
f_network "sn%d" "SMC/Megahertz Ethernet card"
f_network "snc%d" "SONIC Ethernet card"
f_network "sr%d" "SDL T1/E1 sync serial PCI card"
f_network "ste%d" "Sundance ST201 PCI Ethernet card"
f_network "stge%d" "Sundance/Tamarack TC9021 Gigabit Ethernet"
f_network "ti%d" "Alteon Networks PCI Gigabit Ethernet card"
f_network "tl%d" "Texas Instruments ThunderLAN PCI Ethernet card"
f_network "tx%d" "SMC 9432TX Ethernet card"
f_network "txp%d" "3Com 3cR990 Ethernet card"
f_network "uath%d" "Atheros AR5005UG and AR5005UX USB wireless adapter"
f_network "upgt%d" "Conexant/Intersil PrismGT USB wireless adapter"
f_network "ural%d" "Ralink Technology RT2500USB 802.11 wireless adapter"
f_network "urtw%d" "Realtek 8187L USB wireless adapter"
f_network "vge%d" "VIA VT612x PCI Gigabit Ethernet card"
f_network "vlan%d" "IEEE 802.1Q VLAN network interface"
f_network "vr%d" "VIA VT3043/VT86C100A Rhine PCI Ethernet card"
f_network "vx%d" "3COM 3c590 / 3c595 Ethernet card"
f_network "wb%d" "Winbond W89C840F PCI Ethernet card"
f_network "wi%d" "Lucent WaveLAN/IEEE 802.11 wireless adapter"
f_network "wpi%d" "Intel 3945ABG IEEE 802.11 wireless adapter"
f_network "wx%d" "Intel Gigabit Ethernet (82452) card"
f_network "xe%d" "Xircom/Intel EtherExpress Pro100/16 Ethernet card"
f_network "xl%d" "3COM 3c90x / 3c90xB PCI Ethernet card"
f_network "zyd%d" "ZyDAS ZD1211/ZD1211B USB 802.11 wireless adapter"
DEVICE_CATALOG_APPEND_ONLY= # Additional loading modifies existing devices
f_count NCATALOG_DEVICES $DEVICE_CATALOG
f_dprintf "%s: Initialized device catalog with %u names/descriptions." \
device.subr $NCATALOG_DEVICES
#
# Scan for the above devices unless requeted otherwise
#
f_dprintf "%s: DEVICE_SELF_SCAN_ALL=[%s]" device.subr "$DEVICE_SELF_SCAN_ALL"
case "$DEVICE_SELF_SCAN_ALL" in
""|0|[Nn][Oo]|[Oo][Ff][Ff]|[Ff][Aa][Ll][Ss][Ee]) : do nothing ;;
*) f_device_get_all
esac
f_dprintf "%s: Successfully loaded." device.subr
fi # ! $_DEVICE_SUBR