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|
#!/bin/sh
#
# Display driver helper
#
# Copyright (c) 2010, 2011 Anssi Hannula <anssi.hannula@iki.fi>
#
# - Load drivers for specified modaliases, skipping disabled display drivers
# that would cause conflicts (KMS vs. vesa, KMS vs. proprietary).
# - Get information about enabled driver modules
# - Check that the loaded modules are correct
#
# Licensed under terms of GPLv2 or later.
#
# When updating, check:
# - the variables below
# - check_driver function
# - check_dkms_status function
#
if [ -n "$DEBUG_DISPLAY_DRIVER_HELPER" ]; then
echo "$(date) $*" >> /dev/ddh_debug
exec 2>>/dev/ddh_debug
set -x
fi
export LC_ALL=C
KMS_DRIVERS="i915 radeon nouveau"
# module names at run-time (hence nvidia instead of nvidia*):
KNOWN_MODULES="i915|radeon|nouveau|fglrx|nvidia"
XORG_i915="intel"
CONFLICTS_i915=""
XORG_nouveau="nouveau"
CONFLICTS_nouveau="nv nvidia"
XORG_radeon="ati radeon"
CONFLICTS_radeon="fglrx"
# Note: no /usr
# See end of script for descriptions of global variables.
check_driver() {
local name="$1"
case "$name" in
i915)
# implicitely loaded by X.org
check_xorg $name 0 || return 1
IS_KMS=1
;;
radeon)
# implicitely loaded by X.org
check_xorg $name 0 || return 1
IS_KMS=1
# radeon needs to loaded before X server
NEEDS_LOAD_NOW=1
;;
nouveau)
# these KMS drivers require an explicit directive in xorg.conf
check_xorg $name 1 || return 1
IS_KMS=1
;;
fglrx)
check_xorg fglrx 1 || return 1
check_dkms fglrx || return 1
;;
nvidia)
# manually installed driver or a call from check_loaded()
UNSURE=1
check_xorg nvidia 1 || return 1
;;
nvidiafb)
# this is only reached if nvidiafb is manually unblacklisted
return 2
;;
nvidia*)
[ "$name" = "nvidia_current" ] && name=nvidia-current
# there are multiple co-installable driver versions, so check
# the active alternative as well
check_gl /etc/$name/ld.so.conf || return 1
check_xorg nvidia 1 || return 1
check_dkms $name || return 1
;;
*)
# unknown, will be loaded only if no known drivers were found
return 2
;;
esac
return 0
}
# Return success if there is no new pending DKMS build (needed to disallow
# speedboot on very early boot).
# Previously failed build or a missing module is counted as no pending build.
# Note: no /usr
check_dkms_status() {
[ -e /etc/alternatives/gl_conf ] || return 0
# return fast for non-DKMS
check_gl /etc/ld.so.conf.d/GL/standard.conf && return 0
local active="$(ls -l /etc/alternatives/gl_conf | awk '{ print $NF }')"
local modname=
case $active in
/etc/nvidia*/ld.so.conf)
modname="nvidia${active#*nvidia}"
modname="${modname%/*}"
;;
/etc/ld.so.conf.d/GL/ati.conf)
modname="fglrx"
;;
*)
# Unknown DKMS-looking driver,
# allow speedboot.
return 0
;;
esac
check_dkms "$modname" 1
}
# Check if all loaded kernel modules have correct xorg.conf
check_loaded() {
for module in $(grep -oE "^($KNOWN_MODULES) " /proc/modules); do
# try to unload the driver in case it is not in use before bailing
check_driver "$module" || rmmod "$module" &>/dev/null || return 1
done
return 0
}
# Check that specified DKMS driver is not queued for build for the current
# kernel. Used to check if we 1) should disable speedboot for this boot
# (--check-dkms-status), and 2) if should should load the currently
# existing driver (--load). Doing otherwise might cause us to load a wrong old
# version of the driver that had been installed using e.g. binary DKMS
# packages.
# Note: no /usr
check_dkms() {
local driver="$1"
local force="$2"
# If called from DKMS itself or we are not in rc.sysinit anymore,
# there are no pending builds.
if [ -z "$force" ]; then
[ "$DKMS_AUTOLOAD_MODULE" = "$driver" ] && return 0
[ -z "$STARTUP" ] && [ ! -f "/dev/.in_sysinit" ] && return 0
fi
local found=
local uname_r="$(uname -r)"
for dir in /var/lib/dkms/$driver/*; do
[ -e "$dir" ] || return 0 # no module, no build; or no /var
[ -L "$dir" ] && continue # not a module version
found=1 # module version found
[ -e "$dir/$uname_r" ] && return 0
[ -e "/var/lib/dkms-binary/$driver/$(basename "$dir")/$uname_r" ] && return 0
if [ -e "$dir/build/make.log" ]; then
# Build has failed for some kernel, check if it is this one.
# If so, there is no point in returning 1.
grep -q "^DKMS make\.log.* $uname_r " && return 0
fi
done
# if module versions were found but none were built for this kernel, return 1
[ -n "$found" ] && return 1 || return 0
}
# Note: no /usr
check_gl() {
local alt_inode="$(stat -L -c%i $1 2>/dev/null)"
[ -n "$alt_inode" ] || return 1
[ -n "$GL_INODE" ] || GL_INODE="$(stat -L -c%i /etc/alternatives/gl_conf 2>/dev/null)"
[ "$alt_inode" = "$GL_INODE" ] || return 1
return 0
}
# Note: no /usr
get_xorg_drivers() {
if [ -z "$XORG_DRIVERS" ]; then
XORG_DRIVERS="$(cat /etc/X11/xorg.conf /etc/X11/xorg.conf.d/*.conf 2>/dev/null |
awk -F'"' -vORS=' ' -vIGNORECASE=1 '
/^[[:space:]]+*section[[:space:]]+"device"/ { device=1 }
/endsection/ { device=0 }
/^[[:space:]]*driver[[:space:]]*".*"/ { if (device) drivers[$2]=$2 }
END { for (driver in drivers) print driver }
')"
[ -n "$XORG_DRIVERS" ] || XORG_DRIVERS="-"
fi
}
# Note: no /usr
# parameter 1: xorg driver
# parameter 2: 1 the check if the driver is explicitely enabled
# 0 means that check only for conflicts
check_xorg() {
local driver="$1"
local explicit_only="$2"
eval local xorg_drivers=\"\$XORG_$driver\"
[ -n "$xorg_drivers" ] || xorg_drivers="$driver"
eval local conflicts=\"\$CONFLICTS_$driver\"
get_xorg_drivers
conflict_found=
for enabled_driver in $XORG_DRIVERS; do
for xorg_driver in $xorg_drivers; do
[ "$enabled_driver" = "$xorg_driver" ] && return 0
done
# if the X.org driver can be loaded implicitely, check that
# there are no conflicting drivers that override the driver
if [ "$explicit_only" = "0" -a -z "$conflict_found" ]; then
for conflict in vesa $conflicts; do
if [ "$enabled_driver" = "$conflict" ]; then
conflict_found=1
continue 2
# continue loop to check for an explicit load
fi
done
fi
done
# in case of a conflict, do not load the module
[ -n "$conflict_found" ] && return 1
# no driver is selected - don't load if explicit_only is 1
[ "$explicit_only" = "1" ] && return 1
# implicit load allowed; still don't load if no xorg.conf (i.e. live cd)
[ -e "/etc/X11/xorg.conf" ]
}
# Load the driver for the specified modalias, if configured.
# Note: no /usr
load_driver() {
local modulename
local load_default=1
# NOTE: UPDATE when module-init-tools is upgraded to get better performance
# modprobe has -R option:
#for modulename in $(/home/anssi/module-init-tools-3.12/build/modprobe -Rq "$1"); do
# modprobe does not have -R option:
for mod in $(/sbin/modprobe -biqvn "$1"); do
[ "$mod" = "insmod" ] && continue
modulename="${mod##*/}"
modulename="${modulename%%.*}"
check_driver "$modulename"
case $? in
1) # a driver which needs handling by this script matches
# the modalias, but was not configured - do not run
# the generic modprobe if no other drivers are
# configured either
load_default=
continue
;;
2) continue
;;
esac
if [ -n "$IS_KMS" ]; then
grep -q "^$modulename " /proc/modules && return 0
echo "$modulename" > /dev/.late_kms 2>/dev/null
# If NEEDS_LOAD_NOW is not set and plymouth is running,
# skip loading the driver to avoid quitting plymouth.
# The driver will be loaded later by X server itself.
[ -z "$NEEDS_LOAD_NOW" ] && /bin/plymouth --ping 2>/dev/null && return 0
/bin/plymouth quit 2>/dev/null
fi
/sbin/modprobe -b "$modulename" && return 0
done
# no specially handled modules were loaded, so load all modules normally
# unless $load_default was set above
[ -z "$load_default" ] || /sbin/modprobe -b "$1"
}
is_kms_allowed() {
for driver in $KMS_DRIVERS; do
# Check all drivers for conflicts only.
check_xorg $driver 0 || return 1
done
return 0
}
get_initrd_kms_drivers() {
local initrd="$1"
local kms_drivers="$(echo "$KMS_DRIVERS" | tr " " "|")"
zcat "$initrd" | cpio -t --quiet | sed -nr "s,.*/($kms_drivers)\.ko.*$,\1,p"
}
# Check that the initrd doesn't contain disabled modules
check_initrd() {
local initrd="$1"
local initrd_drivers="$(get_initrd_kms_drivers "$initrd")"
for driver in $initrd_drivers; do
check_driver "$driver" || return 1
done
for driver2 in $(get_active_kms_drivers); do
for driver in $initrd_drivers; do
[ "$driver" = "$driver2" ] && continue 2
done
# An enabled module for present hardware was not in initrd
return 1
done
return 0
}
get_active_kms_drivers() {
local kms_drivers=
for device in $(grep -l 0x03 /sys/bus/pci/devices/0000\:0*/class); do
[ -e "$device" ] || continue
device="$(dirname $device)"
[ -f "$device/modalias" ] || continue
modalias="$(cat "$device/modalias")"
for mod in $(/sbin/modprobe --first-time -biqvn "$modalias" 2>&1); do
modulename="${mod##*/}"
modulename="${modulename%%.*}"
IS_KMS=
check_driver "$modulename" || continue
[ -n "$IS_KMS" ] && echo $modulename
done
done
}
usage() {
cat <<EOF
Usage: $0 action [arguments]
Known actions:
--load MODALIAS
Load drivers matching MODALIAS, checking that they are enabled and
configured.
--load-dkms-autoload MODNAME MODALIAS
Same as --load, but assume MODNAME is built and correct so that
checking dkms status is unnecessary.
--is-disabled MODNAME
Checks whether the driver corresponding to MODNAME is disabled (e.g.
a conflicting driver is configured, etc.). Unknown MODNAMEs are
considered not disabled.
--is-enabled-kms MODNAME
Checks whether the driver corresponding to MODNAME is enabled and
MODNAME is a known KMS module. Note that drivers may be enabled even
if there is no such hardware. This just checks that there are
no conflicting drivers in use etc.
--is-kms-allowed
Checks whether it is ok to load KMS drivers in initrd. This returns
a failure when a conflicting driver is set up (vesa or a proprietary
one).
--get-all-kms-drivers
Get a list of the known KMS drivers.
--get-active-kms-drivers
Get a list of the known KMS drivers which are enabled and the hardware
is present.
--get-initrd-kms-drivers INITRD
Get a list of the known KMS drivers in initrd INITRD.
--check-dkms-status
Checks if there are no pending DKMS builds for the currently enabled
drivers.
--check-loaded
Checks that there are no disabled drivers loaded.
--check-speedboot
Does --check-dkms-status and --check-loaded.
--check-loaded-strict
As --check-loaded, and consider ambigious cases (e.g. nvidia where
we can't detect if the loaded driver has the correct version) as
failure.
--check-initrd INITRD
Check that INITRD doesn't contain disabled KMS drivers.
EOF
}
# clear global variables
# cache for check_gl()
GL_INODE=
# cache for check_xorg()
XORG_DRIVERS=
# The driver is a KMS enabled driver. This will cause the script to quit
# plymouth when a driver is loaded by --load and NEEDS_LOAD_NOW below is set.
# This is done as plymouth is still attached to the default framebuffer (the
# issues caused by not doing this don't seem to be fatal, though, but the
# display may be lost completely until plymouth eventually stops).
# There is no option in plymouth to "reload" a driver, it expects any KMS
# driver to be loaded be before starting it.
IS_KMS=
# This KMS driver needs to be loaded before X server starts, so load it now
# even if we have to shut down plymouth (see above).
NEEDS_LOAD_NOW=
# dkms module that was built when calling from DKMS
DKMS_AUTOLOAD_MODULE=
# Set by check_loaded() when it can't be sure that the correct driver is loaded
# (e.g. in case of the multiple proprietary nvidia drivers which all identify as
# "nvidia" in loaded modules list).
UNSURE=
case "$1" in
--load)
load_driver "$2"
;;
--load-dkms-autoload)
DKMS_AUTOLOAD_MODULE="$2"
load_driver "$3"
;;
--is-disabled)
check_driver "$2"
[ $? -eq 1 ]
# unknown (2) are not considered disabled :)
;;
--is-enabled-kms)
check_driver "$2" && [ -n "$IS_KMS" ]
;;
--is-kms-allowed)
is_kms_allowed
;;
--check-dkms-status)
check_dkms_status
;;
--get-all-kms-drivers)
echo $KMS_DRIVERS
;;
--get-active-kms-drivers)
get_active_kms_drivers
;;
--get-initrd-kms-drivers)
get_initrd_kms_drivers "$2"
;;
--check-initrd)
check_initrd "$2"
;;
--check-loaded)
check_loaded
;;
--check-loaded-strict)
check_loaded && [ -z "$UNSURE" ]
;;
--check-speedboot)
check_dkms_status && check_loaded
;;
*)
usage
;;
esac
|