freebsd-skq/usr.sbin/bsdconfig/share/sysrc.subr
dteske 9058714bd6 Fix spurious error from sysrc
When using sysrc to modify a file, the file should be created silently.
However, with the introduction of SVN r335280, an error of "No such file
or directory" would appear despite everything else working as-expected.

The nature of this spurious error is that SVN r335280 did not check if
the file exists first, before trying to fixup the line-endings in the
file just prior to modification.

PR:		bin/240875
Reported by:	Jose Luis Duran
MFC after:	3 days
2019-12-02 05:24:16 +00:00

759 lines
20 KiB
Plaintext

if [ ! "$_SYSRC_SUBR" ]; then _SYSRC_SUBR=1
#
# Copyright (c) 2006-2015 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"
[ "$_COMMON_SUBR" ] || . $BSDCFG_SHARE/common.subr || exit 1
BSDCFG_LIBE="/usr/libexec/bsdconfig"
if [ ! "$_SYSRC_JAILED" ]; then
f_dprintf "%s: loading includes..." sysrc.subr
f_include_lang $BSDCFG_LIBE/include/messages.subr
fi
############################################################ CONFIGURATION
#
# Standard pathnames (inherit values from shell if available)
#
: ${RC_DEFAULTS:="/etc/defaults/rc.conf"}
############################################################ GLOBALS
#
# Global exit status variables
#
SUCCESS=0
FAILURE=1
#
# Valid characters that can appear in an sh(1) variable name
#
# Please note that the character ranges A-Z and a-z should be avoided because
# these can include accent characters (which are not valid in a variable name).
# For example, A-Z matches any character that sorts after A but before Z,
# including A and Z. Although ASCII order would make more sense, that is not
# how it works.
#
VALID_VARNAME_CHARS="0-9ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_"
############################################################ FUNCTIONS
# f_clean_env [ --except $varname ... ]
#
# Unset all environment variables in the current scope. An optional list of
# arguments can be passed, indicating which variables to avoid unsetting; the
# `--except' is required to enable the exclusion-list as the remainder of
# positional arguments.
#
# Be careful not to call this in a shell that you still expect to perform
# $PATH expansion in, because this will blow $PATH away. This is best used
# within a sub-shell block "(...)" or "$(...)" or "`...`".
#
f_clean_env()
{
local var arg except=
#
# Should we process an exclusion-list?
#
if [ "$1" = "--except" ]; then
except=1
shift 1
fi
#
# Loop over a list of variable names from set(1) built-in.
#
for var in $( set | awk -F= \
'/^[[:alpha:]_][[:alnum:]_]*=/ {print $1}' \
| grep -v '^except$'
); do
#
# In POSIX bourne-shell, attempting to unset(1) OPTIND results
# in "unset: Illegal number:" and causes abrupt termination.
#
[ "$var" = OPTIND ] && continue
#
# Process the exclusion-list?
#
if [ "$except" ]; then
for arg in "$@" ""; do
[ "$var" = "$arg" ] && break
done
[ "$arg" ] && continue
fi
unset "$var"
done
}
# f_sysrc_get $varname
#
# Get a system configuration setting from the collection of system-
# configuration files (in order: /etc/defaults/rc.conf /etc/rc.conf and
# /etc/rc.conf.local)
#
# NOTE: Additional shell parameter-expansion formats are supported. For
# example, passing an argument of "hostname%%.*" (properly quoted) will
# return the hostname up to (but not including) the first `.' (see sh(1),
# "Parameter Expansion" for more information on additional formats).
#
f_sysrc_get()
{
# Sanity check
[ -f "$RC_DEFAULTS" -a -r "$RC_DEFAULTS" ] || return $FAILURE
# Taint-check variable name
case "$1" in
[0-9]*)
# Don't expand possible positional parameters
return $FAILURE ;;
*)
[ "$1" ] || return $FAILURE
esac
( # Execute within sub-shell to protect parent environment
#
# Clear the environment of all variables, preventing the
# expansion of normals such as `PS1', `TERM', etc.
#
f_clean_env --except IFS RC_CONFS RC_DEFAULTS
. "$RC_DEFAULTS" > /dev/null 2>&1
unset RC_DEFAULTS
# no longer needed
#
# If the query is for `rc_conf_files' then store the value that
# we inherited from sourcing RC_DEFAULTS (above) so that we may
# conditionally restore this value after source_rc_confs in the
# event that RC_CONFS does not customize the value.
#
if [ "$1" = "rc_conf_files" ]; then
_rc_conf_files="$rc_conf_files"
fi
#
# If RC_CONFS is defined, set $rc_conf_files to an explicit
# value, modifying the default behavior of source_rc_confs().
#
if [ "${RC_CONFS+set}" ]; then
rc_conf_files="$RC_CONFS"
_rc_confs_set=1
fi
source_rc_confs > /dev/null 2>&1
#
# If the query was for `rc_conf_files' AND after calling
# source_rc_confs the value has not changed, then we should
# restore the value to the one inherited from RC_DEFAULTS
# before performing the final query (preventing us from
# returning what was set via RC_CONFS when the intent was
# instead to query the value from the file(s) specified).
#
if [ "$1" = "rc_conf_files" -a \
"$_rc_confs_set" -a \
"$rc_conf_files" = "$RC_CONFS" \
]; then
rc_conf_files="$_rc_conf_files"
unset _rc_conf_files
unset _rc_confs_set
fi
unset RC_CONFS
# no longer needed
#
# This must be the last functional line for both the sub-shell
# and the function to preserve the return status from formats
# such as "${varname?}" and "${varname:?}" (see "Parameter
# Expansion" in sh(1) for more information).
#
eval printf "'%s\\n'" '"${'"$1"'}"' 2> /dev/null
)
}
# f_sysrc_service_configs [-a|-p] $name [$var_to_set]
#
# Get a list of optional `rc.conf.d' entries sourced by system `rc.d' script
# $name (see rc.subr(8) for additional information on `rc.conf.d'). If $name
# exists in `/etc/rc.d' or $local_startup directories and is an rc(8) script
# the result is a space separated list of `rc.conf.d' entries sourced by the
# $name `rc.d' script. Otherwise, if $name exists as a binary `rc.d' script,
# the result is ``/etc/rc.conf.d/$name /usr/local/etc/rc.conf.d/$name''. The
# result is NULL if $name does not exist.
#
# If $var_to_set is missing or NULL, output is to standard out. Returns success
# if $name was found, failure otherwise.
#
# If `-a' flag is given and $var_to_set is non-NULL, append result to value of
# $var_to_set rather than overwriting current contents.
#
# If `-p' flag is given and $var_to_set is non-NULL, prepend result to value of
# $var_to_set rather than overwriting current contents.
#
# NB: The `-a' and `-p' option flags are mutually exclusive.
#
f_sysrc_service_configs()
{
local OPTIND=1 OPTARG __flag __append= __prepend=
local __local_startup __dir __spath __stype __names=
while getopts ap __flag; do
case "$__flag" in
a) __append=1 __prepend= ;;
p) __prepend=1 __append= ;;
esac
done
shift $(( $OPTIND - 1 ))
[ $# -gt 0 ] || return $FAILURE
local __sname="$1" __var_to_set="$2"
__local_startup=$( f_sysrc_get local_startup )
for __dir in /etc/rc.d $__local_startup; do
__spath="$__dir/$__sname"
[ -f "$__spath" -a -x "$__spath" ] || __spath= continue
break
done
[ "$__spath" ] || return $FAILURE
__stype=$( file -b "$__spath" 2> /dev/null )
case "$__stype" in
*"shell script"*)
__names=$( exec 9<&1 1>&- 2>&-
last_name=
print_name() {
local name="$1"
case "$name" in
""|.|..|*/*|"$last_name") return ;;
esac
echo "$name" >&9
last_name="$name"
}
eval "$( awk '{
gsub(/load_rc_config /, "print_name ")
gsub(/run_rc_command /, ": ")
print
}' "$__spath" )"
) ;;
*)
__names="$__sname"
esac
local __name __test_path __configs=
for __name in $__names; do
for __dir in /etc/rc.d $__local_startup; do
__test_path="${__dir%/rc.d}/rc.conf.d/$__name"
[ -d "$__test_path" ] ||
__configs="$__configs $__test_path" continue
for __test_path in "$__test_path"/*; do
[ -f "$__test_path" ] || continue
__configs="$__configs $__test_path"
done
done
done
__configs="${__configs# }"
if [ "$__var_to_set" ]; then
local __cur=
[ "$__append" -o "$__prepend" ] &&
f_getvar "$__var_to_set" __cur
[ "$__append" ] && __configs="$__cur{$__cur:+ }$__configs"
[ "$__prepend" ] && __configs="$__configs${__cur:+ }$__cur"
setvar "$__var_to_set" "$__configs"
else
echo "$__configs"
fi
return $SUCCESS
}
# f_sysrc_get_default $varname
#
# Get a system configuration default setting from the default rc.conf(5) file
# (or whatever RC_DEFAULTS points at).
#
f_sysrc_get_default()
{
# Sanity check
[ -f "$RC_DEFAULTS" -a -r "$RC_DEFAULTS" ] || return $FAILURE
# Taint-check variable name
case "$1" in
[0-9]*)
# Don't expand possible positional parameters
return $FAILURE ;;
*)
[ "$1" ] || return $FAILURE
esac
( # Execute within sub-shell to protect parent environment
#
# Clear the environment of all variables, preventing the
# expansion of normals such as `PS1', `TERM', etc.
#
f_clean_env --except RC_DEFAULTS
. "$RC_DEFAULTS" > /dev/null 2>&1
unset RC_DEFAULTS
# no longer needed
#
# This must be the last functional line for both the sub-shell
# and the function to preserve the return status from formats
# such as "${varname?}" and "${varname:?}" (see "Parameter
# Expansion" in sh(1) for more information).
#
eval printf "'%s\\n'" '"${'"$1"'}"' 2> /dev/null
)
}
# f_sysrc_find $varname
#
# Find which file holds the effective last-assignment to a given variable
# within the rc.conf(5) file(s).
#
# If the variable is found in any of the rc.conf(5) files, the function prints
# the filename it was found in and then returns success. Otherwise output is
# NULL and the function returns with error status.
#
f_sysrc_find()
{
local varname="${1%%[!$VALID_VARNAME_CHARS]*}"
local regex="^[[:space:]]*$varname="
local rc_conf_files="$( f_sysrc_get rc_conf_files )"
local conf_files=
local file
# Check parameters
case "$varname" in
""|[0-9]*) return $FAILURE
esac
#
# If RC_CONFS is defined, set $rc_conf_files to an explicit
# value, modifying the default behavior of source_rc_confs().
#
[ "${RC_CONFS+set}" ] && rc_conf_files="$RC_CONFS"
#
# Reverse the order of files in rc_conf_files (the boot process sources
# these in order, so we will search them in reverse-order to find the
# last-assignment -- the one that ultimately effects the environment).
#
for file in $rc_conf_files; do
conf_files="$file${conf_files:+ }$conf_files"
done
#
# Append the defaults file (since directives in the defaults file
# indeed affect the boot process, we'll want to know when a directive
# is found there).
#
conf_files="$conf_files${conf_files:+ }$RC_DEFAULTS"
#
# Find which file matches assignment to the given variable name.
#
for file in $conf_files; do
[ -f "$file" -a -r "$file" ] || continue
if grep -Eq "$regex" $file; then
echo $file
return $SUCCESS
fi
done
return $FAILURE # Not found
}
# f_sysrc_desc $varname
#
# Attempts to return the comments associated with varname from the rc.conf(5)
# defaults file `/etc/defaults/rc.conf' (or whatever RC_DEFAULTS points to).
#
# Multi-line comments are joined together. Results are NULL if no description
# could be found.
#
# 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_sysrc_desc_awk='
# Variables that should be defined on the invocation line:
# -v varname="varname"
#
BEGIN {
regex = "^[[:space:]]*"varname"="
found = 0
buffer = ""
}
{
if ( ! found )
{
if ( ! match($0, regex) ) next
found = 1
sub(/^[^#]*(#[[:space:]]*)?/, "")
buffer = $0
next
}
if ( !/^[[:space:]]*#/ ||
/^[[:space:]]*[[:alpha:]_][[:alnum:]_]*=/ ||
/^[[:space:]]*#[[:alpha:]_][[:alnum:]_]*=/ ||
/^[[:space:]]*$/ ) exit
sub(/(.*#)*[[:space:]]*/, "")
buffer = buffer" "$0
}
END {
# Clean up the buffer
sub(/^[[:space:]]*/, "", buffer)
sub(/[[:space:]]*$/, "", buffer)
print buffer
exit ! found
}
'
f_sysrc_desc()
{
awk -v varname="$1" "$f_sysrc_desc_awk" < "$RC_DEFAULTS"
}
# f_sysrc_set $varname $new_value
#
# Change a setting in the system configuration files (edits the files in-place
# to change the value in the last assignment to the variable). If the variable
# does not appear in the source file, it is appended to the end of the primary
# system configuration file `/etc/rc.conf'.
#
# 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_sysrc_set_awk='
# Variables that should be defined on the invocation line:
# -v varname="varname"
# -v new_value="new_value"
#
BEGIN {
regex = "^[[:space:]]*"varname"="
found = retval = 0
}
{
# If already found... just spew
if ( found ) { print; next }
# Does this line match an assignment to our variable?
if ( ! match($0, regex) ) { print; next }
# Save important match information
found = 1
matchlen = RSTART + RLENGTH - 1
# Store the value text for later munging
value = substr($0, matchlen + 1, length($0) - matchlen)
# Store the first character of the value
t1 = t2 = substr(value, 0, 1)
# Assignment w/ back-ticks, expression, or misc.
# We ignore these since we did not generate them
#
if ( t1 ~ /[`$\\]/ ) { retval = 1; print; next }
# Assignment w/ single-quoted value
else if ( t1 == "'\''" ) {
sub(/^'\''[^'\'']*/, "", value)
if ( length(value) == 0 ) t2 = ""
sub(/^'\''/, "", value)
}
# Assignment w/ double-quoted value
else if ( t1 == "\"" ) {
sub(/^"(.*\\\\+")*[^"]*/, "", value)
if ( length(value) == 0 ) t2 = ""
sub(/^"/, "", value)
}
# Assignment w/ non-quoted value
else if ( t1 ~ /[^[:space:];]/ ) {
t1 = t2 = "\""
sub(/^[^[:space:]]*/, "", value)
}
# Null-assignment
else if ( t1 ~ /[[:space:];]/ ) { t1 = t2 = "\"" }
printf "%s%c%s%c%s\n", substr($0, 0, matchlen), \
t1, new_value, t2, value
}
END { exit retval }
'
f_sysrc_set()
{
local funcname=f_sysrc_set
local varname="$1" new_value="$2"
# Check arguments
[ "$varname" ] || return $FAILURE
#
# Find which rc.conf(5) file contains the last-assignment
#
local not_found=
local file="$( f_sysrc_find "$varname" )"
if [ "$file" = "$RC_DEFAULTS" -o ! "$file" ]; then
#
# We either got a null response (not found) or the variable
# was only found in the rc.conf(5) defaults. In either case,
# let's instead modify the first file from $rc_conf_files.
#
not_found=1
#
# If RC_CONFS is defined, use $RC_CONFS
# rather than $rc_conf_files.
#
if [ "${RC_CONFS+set}" ]; then
file="${RC_CONFS%%[$IFS]*}"
else
file=$( f_sysrc_get 'rc_conf_files%%[$IFS]*' )
fi
fi
#
# If not found, append new value to first file and return.
#
if [ "$not_found" ]; then
# Add a newline if missing before appending to the file
[ ! -e "$file" ] || awk 'BEGIN { wc = 0 } NR == 1 {
(cmd = "wc -l " FILENAME) | getline
close(cmd)
wc = $1
} END { exit wc != NR }' "$file" ||
echo >> "$file" || return $?
echo "$varname=\"$new_value\"" >> "$file"
return $?
fi
#
# Perform sanity checks.
#
if [ ! -w "$file" ]; then
f_err "$msg_cannot_create_permission_denied\n" \
"$pgm" "$file"
return $FAILURE
fi
#
# Create a new temporary file to write to.
#
local tmpfile
if ! f_eval_catch -dk tmpfile $funcname mktemp 'mktemp -t "%s"' "$pgm"
then
echo "$tmpfile" >&2
return $FAILURE
fi
#
# Fixup permissions (else we're in for a surprise, as mktemp(1) creates
# the temporary file with 0600 permissions, and if we simply mv(1) the
# temporary file over the destination, the destination will inherit the
# permissions from the temporary file).
#
local mode
f_eval_catch -dk mode $funcname stat 'stat -f "%%#Lp" "%s"' "$file" ||
mode=0644
f_eval_catch -d $funcname chmod 'chmod "%s" "%s"' "$mode" "$tmpfile"
#
# Fixup ownership. The destination file _is_ writable (we tested
# earlier above). However, this will fail if we don't have sufficient
# permissions (so we throw stderr into the bit-bucket).
#
local owner
f_eval_catch -dk owner $funcname stat \
'stat -f "%%u:%%g" "%s"' "$file" || owner="root:wheel"
f_eval_catch -d $funcname chown 'chown "%s" "%s"' "$owner" "$tmpfile"
#
# Operate on the matching file, replacing only the last occurrence.
#
# Use awk to ensure LF at end of each line, else files without ending
# LF will trigger a bug in `tail -r' where last two lines are joined.
#
local new_contents retval
new_contents=$( awk 1 "$file" 2> /dev/null | tail -r )
new_contents=$( echo "$new_contents" | awk -v varname="$varname" \
-v new_value="$new_value" "$f_sysrc_set_awk" )
retval=$?
#
# Write the temporary file contents.
#
echo "$new_contents" | tail -r > "$tmpfile" || return $FAILURE
if [ $retval -ne $SUCCESS ]; then
echo "$varname=\"$new_value\"" >> "$tmpfile"
fi
#
# Taint-check our results.
#
if ! f_eval_catch -d $funcname sh '/bin/sh -n "%s"' "$tmpfile"; then
f_err "$msg_previous_syntax_errors\n" "$pgm" "$file"
rm -f "$tmpfile"
return $FAILURE
fi
#
# Finally, move the temporary file into place.
#
f_eval_catch -de $funcname mv 'mv "%s" "%s"' "$tmpfile" "$file"
}
# f_sysrc_delete $varname
#
# Remove a setting from the system configuration files (edits files in-place).
# Deletes all assignments to the given variable in all config files. If the
# `-f file' option is passed, the removal is restricted to only those files
# specified, otherwise the system collection of rc_conf_files is used.
#
# 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_sysrc_delete_awk='
# Variables that should be defined on the invocation line:
# -v varname="varname"
#
BEGIN {
regex = "^[[:space:]]*"varname"="
found = 0
}
{
if ( $0 ~ regex )
found = 1
else
print
}
END { exit ! found }
'
f_sysrc_delete()
{
local funcname=f_sysrc_delete
local varname="$1"
local file
# Check arguments
[ "$varname" ] || return $FAILURE
#
# Operate on each of the specified files
#
local tmpfile
for file in ${RC_CONFS-$( f_sysrc_get rc_conf_files )}; do
[ -e "$file" ] || continue
#
# Create a new temporary file to write to.
#
if ! f_eval_catch -dk tmpfile $funcname mktemp \
'mktemp -t "%s"' "$pgm"
then
echo "$tmpfile" >&2
return $FAILURE
fi
#
# Fixup permissions and ownership (mktemp(1) defaults to 0600
# permissions) to instead match the destination file.
#
local mode owner
f_eval_catch -dk mode $funcname stat \
'stat -f "%%#Lp" "%s"' "$file" || mode=0644
f_eval_catch -dk owner $funcname stat \
'stat -f "%%u:%%g" "%s"' "$file" || owner="root:wheel"
f_eval_catch -d $funcname chmod \
'chmod "%s" "%s"' "$mode" "$tmpfile"
f_eval_catch -d $funcname chown \
'chown "%s" "%s"' "$owner" "$tmpfile"
#
# Operate on the file, removing all occurrences, saving the
# output in our temporary file.
#
awk -v varname="$varname" "$f_sysrc_delete_awk" "$file" \
> "$tmpfile"
if [ $? -ne $SUCCESS ]; then
# The file didn't contain any assignments
rm -f "$tmpfile"
continue
fi
#
# Taint-check our results.
#
if ! f_eval_catch -d $funcname sh '/bin/sh -n "%s"' "$tmpfile"
then
f_err "$msg_previous_syntax_errors\n" \
"$pgm" "$file"
rm -f "$tmpfile"
return $FAILURE
fi
#
# Perform sanity checks
#
if [ ! -w "$file" ]; then
f_err "$msg_permission_denied\n" "$pgm" "$file"
rm -f "$tmpfile"
return $FAILURE
fi
#
# Finally, move the temporary file into place.
#
f_eval_catch -de $funcname mv \
'mv "%s" "%s"' "$tmpfile" "$file" || return $FAILURE
done
}
############################################################ MAIN
f_dprintf "%s: Successfully loaded." sysrc.subr
fi # ! $_SYSRC_SUBR