/lib/apparmor/functions is in apparmor 2.12-4ubuntu5.1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# ----------------------------------------------------------------------
# Copyright (c) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007
# NOVELL (All rights reserved)
# Copyright (c) 2008-2018 Canonical, Ltd.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of version 2 of the GNU General Public
# License published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, contact Novell, Inc.
# ----------------------------------------------------------------------
# Authors:
# Kees Cook <kees@ubuntu.com>
PROFILES="/etc/apparmor.d"
PROFILES_CACHE="$PROFILES/cache"
PROFILES_VAR="/var/lib/snapd/apparmor/profiles"
PROFILES_CACHE_VAR="/var/cache/apparmor"
PARSER="/sbin/apparmor_parser"
SECURITYFS="/sys/kernel/security"
export AA_SFS="$SECURITYFS/apparmor"
# Suppress warnings when booting in quiet mode
quiet_arg=""
[ "${QUIET:-no}" = yes ] && quiet_arg="-q"
[ "${quiet:-n}" = y ] && quiet_arg="-q"
foreach_configured_profile() {
rc_all="0"
for pdir in "$PROFILES" "$PROFILES_VAR" ; do
if [ ! -d "$pdir" ]; then
continue
fi
num=`find "$pdir" -type f ! -name '*.md5sums' | wc -l`
if [ "$num" = "0" ]; then
continue
fi
cache_dir="$PROFILES_CACHE"
if [ -d "$PROFILES_CACHE_VAR" ] && [ "$pdir" = "$PROFILES_VAR" ]; then
cache_dir="$PROFILES_CACHE_VAR"
fi
cache_args="--cache-loc=$cache_dir"
if [ ! -d "$cache_dir" ]; then
cache_args=
fi
# LP: #1383858 - expr tree simplification is too slow for some
# policy on 32bit ARM, so disable it for now
cache_extra_args=
if [ -d "$PROFILES_CACHE_VAR" ] && [ "$pdir" = "$PROFILES_VAR" ]; then
cache_extra_args="-O no-expr-simplify"
fi
# If need to compile everything, then use -n1 with xargs to
# take advantage of -P. When cache files are in use, omit -n1
# since it is considerably faster on moderately sized profile
# sets to give the parser all the profiles to load at once
n1_args=
num=`find "$cache_dir" -type f ! -name '.features' ! -name 'CACHEDIR.TAG' | wc -l`
if [ "$num" = "0" ]; then
n1_args="-n1"
fi
(ls -1 "$pdir" | egrep -v '(\.dpkg-(new|old|dist|bak)|~)$' | \
while read profile; do
if [ -f "$pdir"/"$profile" ]; then
echo "$pdir"/"$profile"
fi
done) | \
xargs $n1_args -d"\n" -P$(getconf _NPROCESSORS_ONLN) "$PARSER" "$@" $cache_args $cache_extra_args -- || {
rc_all="$?"
# FIXME: when the parser properly handles broken
# profiles (LP: #1377338), remove this if statement.
# For now, if the xargs returns with error, just run
# through everything with -n1. (This could be broken
# out and refactored, but this is temporary so make it
# easy to understand and revert)
if [ "$rc_all" != "0" ]; then
(ls -1 "$pdir" | \
egrep -v '(\.dpkg-(new|old|dist|bak)|~)$' | \
while read profile; do
if [ -f "$pdir"/"$profile" ]; then
echo "$pdir"/"$profile"
fi
done) | \
xargs -n1 -d"\n" -P$(getconf _NPROCESSORS_ONLN) "$PARSER" "$@" $cache_args $cache_extra_args -- || {
rc_all="$?"
}
fi
}
done
return $rc_all
}
load_configured_profiles() {
clear_cache_if_outdated
foreach_configured_profile $quiet_arg --write-cache --replace
}
load_configured_profiles_without_caching() {
foreach_configured_profile $quiet_arg --replace
}
recache_profiles() {
clear_cache
foreach_configured_profile $quiet_arg --write-cache --skip-kernel-load
}
configured_profile_names() {
foreach_configured_profile $quiet_arg -N 2>/dev/null | LC_COLLATE=C sort | grep -v '//'
}
running_profile_names() {
# Output a sorted list of loaded profiles, skipping libvirt's
# dynamically generated files
cat "$AA_SFS"/profiles | sed -e "s/ (\(enforce\|complain\))$//" | egrep -v '^libvirt-[0-9a-f\-]+$' | LC_COLLATE=C sort | grep -v '//'
}
unload_profile() {
echo -n "$1" > "$AA_SFS"/.remove
}
clear_cache() {
clear_cache_system
clear_cache_var
}
clear_cache_system() {
find "$PROFILES_CACHE" -maxdepth 1 \
-name CACHEDIR.TAG -prune -o \
-type f -print0 | xargs -0 rm -f --
}
clear_cache_var() {
find "$PROFILES_CACHE_VAR" -maxdepth 1 \
-name CACHEDIR.TAG -prune -o \
-type f -print0 | xargs -0 rm -f --
}
read_features_dir()
{
for f in `ls -AU "$1"` ; do
if [ -f "$1/$f" ] ; then
read -r KF < "$1/$f" || true
echo -n "$f {$KF } "
elif [ -d "$1/$f" ] ; then
echo -n "$f {"
KF=`read_features_dir "$1/$f"` || true
echo -n "$KF} "
fi
done
}
clear_cache_if_outdated() {
if [ -r "$PROFILES_CACHE"/.features ]; then
if [ -d "$AA_SFS"/features ]; then
KERN_FEATURES=`read_features_dir "$AA_SFS"/features`
else
read -r KERN_FEATURES < "$AA_SFS"/features
fi
CACHE_FEATURES=`tr '\n' ' ' < "$PROFILES_CACHE"/.features`
if [ "$KERN_FEATURES" != "$CACHE_FEATURES" ]; then
clear_cache
fi
fi
}
unload_obsolete_profiles() {
# Currently we must re-parse all the profiles to get policy names. :(
aa_configured=$(mktemp -t aa-XXXXXX)
configured_profile_names > "$aa_configured" || true
aa_loaded=$(mktemp -t aa-XXXXXX)
running_profile_names > "$aa_loaded" || true
LC_COLLATE=C comm -2 -3 "$aa_loaded" "$aa_configured" | while read profile ; do
unload_profile "$profile"
done
rm -f "$aa_configured" "$aa_loaded"
}
# Checks to see if the current container is capable of having internal AppArmor
# profiles that should be loaded. Callers of this function should have already
# verified that they're running inside of a container environment with
# something like `systemd-detect-virt --container`.
#
# The only known container environments capable of supporting internal policy
# are LXD and LXC environment.
#
# Returns 0 if the container environment is capable of having its own internal
# policy and non-zero otherwise.
#
# IMPORTANT: This function will return 0 in the case of a non-LXD/non-LXC
# system container technology being nested inside of a LXD/LXC container that
# utilized an AppArmor namespace and profile stacking. The reason 0 will be
# returned is because .ns_stacked will be "yes" and .ns_name will still match
# "lx[dc]-*" since the nested system container technology will not have set up
# a new AppArmor profile namespace. This will result in the nested system
# container's boot process to experience failed policy loads but the boot
# process should continue without any loss of functionality. This is an
# unsupported configuration that cannot be properly handled by this function.
is_container_with_internal_policy() {
local ns_stacked_path="${AA_SFS}/.ns_stacked"
local ns_name_path="${AA_SFS}/.ns_name"
local ns_stacked
local ns_name
if ! [ -f "$ns_stacked_path" ] || ! [ -f "$ns_name_path" ]; then
return 1
fi
read -r ns_stacked < "$ns_stacked_path"
if [ "$ns_stacked" != "yes" ]; then
return 1
fi
# LXD and LXC set up AppArmor namespaces starting with "lxd-" and
# "lxc-", respectively. Return non-zero for all other namespace
# identifiers.
read -r ns_name < "$ns_name_path"
if [ "${ns_name#lxd-*}" = "$ns_name" ] && \
[ "${ns_name#lxc-*}" = "$ns_name" ]; then
return 1
fi
return 0
}
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