You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1365 lines
48 KiB

#!/bin/sh
# /usr/lib/ddns/dynamic_dns_functions.sh
#
#.Distributed under the terms of the GNU General Public License (GPL) version 2.0
# Original written by Eric Paul Bishop, January 2008
# (Loosely) based on the script on the one posted by exobyte in the forums here:
# http://forum.openwrt.org/viewtopic.php?id=14040
# extended and partial rewritten
#.2014-2018 Christian Schoenebeck <christian dot schoenebeck at gmail dot com>
#
# function timeout
# copied from http://www.ict.griffith.edu.au/anthony/software/timeout.sh
# @author Anthony Thyssen 6 April 2011
#
# variables in small chars are read from /etc/config/ddns
# variables in big chars are defined inside these scripts as global vars
# variables in big chars beginning with "__" are local defined inside functions only
# set -vx #script debugger
. /lib/functions.sh
. /lib/functions/network.sh
# GLOBAL VARIABLES #
VERSION="2.7.7-2"
SECTION_ID="" # hold config's section name
VERBOSE=0 # default mode is log to console, but easily changed with parameter
MYPROG=$(basename $0) # my program call name
LOGFILE="" # logfile - all files are set in dynamic_dns_updater.sh
PIDFILE="" # pid file
UPDFILE="" # store UPTIME of last update
DATFILE="" # save stdout data of WGet and other external programs called
ERRFILE="" # save stderr output of WGet and other external programs called
IPFILE="" # store registered IP for read by LuCI status
TLDFILE=/usr/share/public_suffix_list.dat.gz # TLD file used by split_FQDN
CHECK_SECONDS=0 # calculated seconds out of given
FORCE_SECONDS=0 # interval and unit
RETRY_SECONDS=0 # in configuration
LAST_TIME=0 # holds the uptime of last successful update
CURR_TIME=0 # holds the current uptime
NEXT_TIME=0 # calculated time for next FORCED update
EPOCH_TIME=0 # seconds since 1.1.1970 00:00:00
REGISTERED_IP="" # holds the IP read from DNS
LOCAL_IP="" # holds the local IP read from the box
URL_USER="" # url encoded $username from config file
URL_PASS="" # url encoded $password from config file
URL_PENC="" # url encoded $param_enc from config file
UPD_ANSWER="" # Answer given by service on success
ERR_LAST=0 # used to save $? return code of program and function calls
ERR_UPDATE=0 # error counter on different local and registered ip
PID_SLEEP=0 # ProcessID of current background "sleep"
# regular expression to detect IPv4 / IPv6
# IPv4 0-9 1-3x "." 0-9 1-3x "." 0-9 1-3x "." 0-9 1-3x
IPV4_REGEX="[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}"
# IPv6 ( ( 0-9a-f 1-4char ":") min 1x) ( ( 0-9a-f 1-4char )optional) ( (":" 0-9a-f 1-4char ) min 1x)
IPV6_REGEX="\(\([0-9A-Fa-f]\{1,4\}:\)\{1,\}\)\(\([0-9A-Fa-f]\{1,4\}\)\{0,1\}\)\(\(:[0-9A-Fa-f]\{1,4\}\)\{1,\}\)"
# detect if called by ddns-lucihelper.sh script, disable retrys (empty variable == false)
LUCI_HELPER=$(printf %s "$MYPROG" | grep -i "luci")
# Name Server Lookup Programs
BIND_HOST=$(which host)
KNOT_HOST=$(which khost)
DRILL=$(which drill)
HOSTIP=$(which hostip)
NSLOOKUP=$(which nslookup)
NSLOOKUP_MUSL=$($(which nslookup) localhost 2>&1 | grep -F "(null)") # not empty busybox compiled with musl
# Transfer Programs
WGET=$(which wget)
WGET_SSL=$(which wget-ssl)
CURL=$(which curl)
# CURL_SSL not empty then SSL support available
CURL_SSL=$($(which curl) -V 2>/dev/null | grep "Protocols:" | grep -F "https")
# CURL_PROXY not empty then Proxy support available
CURL_PROXY=$(find /lib /usr/lib -name libcurl.so* -exec strings {} 2>/dev/null \; | grep -im1 "all_proxy")
UCLIENT_FETCH=$(which uclient-fetch)
# UCLIENT_FETCH_SSL not empty then SSL support available
UCLIENT_FETCH_SSL=$(find /lib /usr/lib -name libustream-ssl.so* 2>/dev/null)
# Global configuration settings
# allow NON-public IP's
upd_privateip=$(uci -q get ddns.global.upd_privateip) || upd_privateip=0
# directory to store run information to.
ddns_rundir=$(uci -q get ddns.global.ddns_rundir) || ddns_rundir="/var/run/ddns"
[ -d $ddns_rundir ] || mkdir -p -m755 $ddns_rundir
# directory to store log files
ddns_logdir=$(uci -q get ddns.global.ddns_logdir) || ddns_logdir="/var/log/ddns"
[ -d $ddns_logdir ] || mkdir -p -m755 $ddns_logdir
# number of lines to before rotate logfile
ddns_loglines=$(uci -q get ddns.global.ddns_loglines) || ddns_loglines=250
ddns_loglines=$((ddns_loglines + 1)) # correct sed handling
# format to show date information in log and luci-app-ddns default ISO 8601 format
ddns_dateformat=$(uci -q get ddns.global.ddns_dateformat) || ddns_dateformat="%F %R"
DATE_PROG="date +'$ddns_dateformat'"
# USE_CURL if GNU Wget and cURL installed normally Wget is used by do_transfer()
# to change this use global option use_curl '1'
USE_CURL=$(uci -q get ddns.global.use_curl) || USE_CURL=0 # read config
[ -n "$CURL" ] || USE_CURL=0 # check for cURL
# loads all options for a given package and section
# also, sets all_option_variables to a list of the variable names
# $1 = ddns, $2 = SECTION_ID
load_all_config_options()
{
local __PKGNAME="$1"
local __SECTIONID="$2"
local __VAR
local __ALL_OPTION_VARIABLES=""
# this callback loads all the variables in the __SECTIONID section when we do
# config_load. We need to redefine the option_cb for different sections
# so that the active one isn't still active after we're done with it. For reference
# the $1 variable is the name of the option and $2 is the name of the section
config_cb()
{
if [ ."$2" = ."$__SECTIONID" ]; then
option_cb()
{
__ALL_OPTION_VARIABLES="$__ALL_OPTION_VARIABLES $1"
}
else
option_cb() { return 0; }
fi
}
config_load "$__PKGNAME"
# Given SECTION_ID not found so no data, so return 1
[ -z "$__ALL_OPTION_VARIABLES" ] && return 1
for __VAR in $__ALL_OPTION_VARIABLES
do
config_get "$__VAR" "$__SECTIONID" "$__VAR"
done
return 0
}
# read's all service sections from ddns config
# $1 = Name of variable to store
load_all_service_sections() {
local __DATA=""
config_cb()
{
# only look for section type "service", ignore everything else
[ "$1" = "service" ] && __DATA="$__DATA $2"
}
config_load "ddns"
eval "$1=\"$__DATA\""
return
}
# starts updater script for all given sections or only for the one given
# $1 = interface (Optional: when given only scripts are started
# configured for that interface)
# used by /etc/hotplug.d/iface/95-ddns on IFUP
# and by /etc/init.d/ddns start
start_daemon_for_all_ddns_sections()
{
local __EVENTIF="$1"
local __SECTIONS=""
local __SECTIONID=""
local __IFACE=""
load_all_service_sections __SECTIONS
for __SECTIONID in $__SECTIONS; do
config_get __IFACE "$__SECTIONID" interface "wan"
[ -z "$__EVENTIF" -o "$__IFACE" = "$__EVENTIF" ] || continue
if [ $VERBOSE -eq 0 ]; then # start in background
/usr/lib/ddns/dynamic_dns_updater.sh -v 0 -S "$__SECTIONID" -- start &
else
/usr/lib/ddns/dynamic_dns_updater.sh -v "$VERBOSE" -S "$__SECTIONID" -- start
fi
done
}
# stop sections process incl. childs (sleeps)
# $1 = section
stop_section_processes() {
local __PID=0
local __PIDFILE="$ddns_rundir/$1.pid"
[ $# -ne 1 ] && write_log 12 "Error calling 'stop_section_processes()' - wrong number of parameters"
[ -e "$__PIDFILE" ] && {
__PID=$(cat $__PIDFILE)
ps | grep "^[\t ]*$__PID" >/dev/null 2>&1 && kill $__PID || __PID=0 # terminate it
}
[ $__PID -eq 0 ] # report if process was running
}
# stop updater script for all defines sections or only for one given
# $1 = interface (optional)
# used by /etc/hotplug.d/iface/95-ddns on 'ifdown'
# and by /etc/init.d/ddns stop
# needed because we also need to kill "sleep" child processes
stop_daemon_for_all_ddns_sections() {
local __EVENTIF="$1"
local __SECTIONS=""
local __SECTIONID=""
local __IFACE=""
load_all_service_sections __SECTIONS
for __SECTIONID in $__SECTIONS; do
config_get __IFACE "$__SECTIONID" interface "wan"
[ -z "$__EVENTIF" -o "$__IFACE" = "$__EVENTIF" ] || continue
stop_section_processes "$__SECTIONID"
done
}
# reports to console, logfile, syslog
# $1 loglevel 7 == Debug to 0 == EMERG
# value +10 will exit the scripts
# $2..n text to report
write_log() {
local __LEVEL __EXIT __CMD __MSG
local __TIME=$(date +%H%M%S)
[ $1 -ge 10 ] && {
__LEVEL=$(($1-10))
__EXIT=1
} || {
__LEVEL=$1
__EXIT=0
}
shift # remove loglevel
[ $__EXIT -eq 0 ] && __MSG="$*" || __MSG="$* - TERMINATE"
case $__LEVEL in # create log message and command depending on loglevel
0) __CMD="logger -p user.emerg -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME EMERG : $__MSG" ;;
1) __CMD="logger -p user.alert -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME ALERT : $__MSG" ;;
2) __CMD="logger -p user.crit -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME CRIT : $__MSG" ;;
3) __CMD="logger -p user.err -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME ERROR : $__MSG" ;;
4) __CMD="logger -p user.warn -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME WARN : $__MSG" ;;
5) __CMD="logger -p user.notice -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME note : $__MSG" ;;
6) __CMD="logger -p user.info -t ddns-scripts[$$] $SECTION_ID: $__MSG"
__MSG=" $__TIME info : $__MSG" ;;
7) __MSG=" $__TIME : $__MSG";;
*) return;;
esac
# verbose echo
[ $VERBOSE -gt 0 -o $__EXIT -gt 0 ] && echo -e "$__MSG"
# write to logfile
if [ ${use_logfile:-1} -eq 1 -o $VERBOSE -gt 1 ]; then
printf "%s\n" "$__MSG" | \
sed -e "s/$password/*password*/g; \
s/$URL_PASS/*URL_PASS*/g" >> $LOGFILE
# VERBOSE > 1 then NO loop so NO truncate log to $ddns_loglines lines
[ $VERBOSE -gt 1 ] || sed -i -e :a -e '$q;N;'$ddns_loglines',$D;ba' $LOGFILE
fi
[ -n "$LUCI_HELPER" ] && return # nothing else todo when running LuCI helper script
[ $__LEVEL -eq 7 ] && return # no syslog for debug messages
__CMD=$(echo -e "$__CMD" | tr -d '\n' | tr '\t' ' ') # remove \n \t chars
[ $__EXIT -eq 1 ] && {
$__CMD # force syslog before exit
exit 1
}
[ $use_syslog -eq 0 ] && return
[ $((use_syslog + __LEVEL)) -le 7 ] && $__CMD
return
}
# replace all special chars to their %hex value
# used for USERNAME and PASSWORD in update_url
# unchanged: "-"(minus) "_"(underscore) "."(dot) "~"(tilde)
# to verify: "'"(single quote) '"'(double quote) # because shell delimiter
# "$"(Dollar) # because used as variable output
# tested with the following string stored via Luci Application as password / username
# A B!"#AA$1BB%&'()*+,-./:;<=>?@[\]^_`{|}~ without problems at Dollar or quotes
urlencode() {
# $1 Name of Variable to store encoded string to
# $2 string to encode
local __STR __LEN __CHAR __OUT
local __ENC=""
local __POS=1
[ $# -ne 2 ] && write_log 12 "Error calling 'urlencode()' - wrong number of parameters"
__STR="$2" # read string to encode
__LEN=${#__STR} # get string length
while [ $__POS -le $__LEN ]; do
# read one chat of the string
__CHAR=$(expr substr "$__STR" $__POS 1)
case "$__CHAR" in
[-_.~a-zA-Z0-9] )
# standard char
__OUT="${__CHAR}"
;;
* )
# special char get %hex code
__OUT=$(printf '%%%02x' "'$__CHAR" )
;;
esac
__ENC="${__ENC}${__OUT}" # append to encoded string
__POS=$(( $__POS + 1 )) # increment position
done
eval "$1=\"$__ENC\"" # transfer back to variable
return 0
}
# extract url or script for given DDNS Provider from
# file /etc/ddns/services for IPv4 or from
# file /etc/ddns/services_ipv6 for IPv6
# $1 Name of Variable to store url to
# $2 Name of Variable to store script to
# $3 Name of Variable to store service answer to
get_service_data() {
[ $# -ne 3 ] && write_log 12 "Error calling 'get_service_data()' - wrong number of parameters"
__FILE="/etc/ddns/services" # IPv4
[ $use_ipv6 -ne 0 ] && __FILE="/etc/ddns/services_ipv6" # IPv6
# workaround with variables; pipe create subshell with no give back of variable content
mkfifo pipe_$$
# only grep without # or whitespace at linestart | remove "
# grep -v -E "(^#|^[[:space:]]*$)" $__FILE | sed -e s/\"//g > pipe_$$ &
sed '/^#/d; /^[ \t]*$/d; s/\"//g' $__FILE > pipe_$$ &
while read __SERVICE __DATA __ANSWER; do
if [ "$__SERVICE" = "$service_name" ]; then
# check if URL or SCRIPT is given
__URL=$(echo "$__DATA" | grep "^http")
[ -z "$__URL" ] && __SCRIPT="/usr/lib/ddns/$__DATA"
eval "$1=\"$__URL\""
eval "$2=\"$__SCRIPT\""
eval "$3=\"$__ANSWER\""
rm pipe_$$
return 0
fi
done < pipe_$$
rm pipe_$$
eval "$1=\"\"" # no service match clear variables
eval "$2=\"\""
eval "$3=\"\""
return 1
}
# Calculate seconds from interval and unit
# $1 Name of Variable to store result in
# $2 Number and
# $3 Unit of time interval
get_seconds() {
[ $# -ne 3 ] && write_log 12 "Error calling 'get_seconds()' - wrong number of parameters"
case "$3" in
"days" ) eval "$1=$(( $2 * 86400 ))";;
"hours" ) eval "$1=$(( $2 * 3600 ))";;
"minutes" ) eval "$1=$(( $2 * 60 ))";;
* ) eval "$1=$2";;
esac
return 0
}
timeout() {
#.copied from http://www.ict.griffith.edu.au/anthony/software/timeout.sh
# only did the following changes
# - commented out "#!/bin/bash" and usage section
# - replace exit by return for usage as function
# - some reformatting
#
# timeout [-SIG] time [--] command args...
#
# Run the given command until completion, but kill it if it runs too long.
# Specifically designed to exit immediately (no sleep interval) and clean up
# nicely without messages or leaving any extra processes when finished.
#
# Example use
# timeout 5 countdown
#
# Based on notes in my "Shell Script Hints", section "Command Timeout"
# http://www.ict.griffith.edu.au/~anthony/info/shell/script.hints
#
# This script uses a lot of tricks to terminate both the background command,
# the timeout script, and even the sleep process. It also includes trap
# commands to prevent sub-shells reporting expected "Termination Errors".
#
# It took years of occasional trials, errors and testing to get a pure bash
# timeout command working as well as this does.
#
#.Anthony Thyssen 6 April 2011
#
# PROGNAME=$(type $0 | awk '{print $3}') # search for executable on path
# PROGDIR=$(dirname $PROGNAME) # extract directory of program
# PROGNAME=$(basename $PROGNAME) # base name of program
# output the script comments as docs
# Usage() {
# echo >&2 "$PROGNAME:" "$@"
# sed >&2 -n '/^###/q; /^#/!q; s/^#//; s/^ //; 3s/^/Usage: /; 2,$ p' "$PROGDIR/$PROGNAME"
# exit 10;
# }
SIG=-TERM
while [ $# -gt 0 ]; do
case "$1" in
--)
# forced end of user options
shift;
break ;;
# -\?|--help|--doc*)
# Usage ;;
[0-9]*)
TIMEOUT="$1" ;;
-*)
SIG="$1" ;;
*)
# unforced end of user options
break ;;
esac
shift # next option
done
# run main command in backgrounds and get its pid
"$@" &
command_pid=$!
# timeout sub-process abort countdown after ABORT seconds! also backgrounded
sleep_pid=0
(
# cleanup sleep process
trap 'kill -TERM $sleep_pid; return 1' 1 2 3 15
# sleep timeout period in background
sleep $TIMEOUT &
sleep_pid=$!
wait $sleep_pid
# Abort the command
kill $SIG $command_pid >/dev/null 2>&1
return 1
) &
timeout_pid=$!
# Wait for main command to finished or be timed out
wait $command_pid
status=$?
# Clean up timeout sub-shell - if it is still running!
kill $timeout_pid 2>/dev/null
wait $timeout_pid 2>/dev/null
# Uncomment to check if a LONG sleep still running (no sleep should be)
# sleep 1
# echo "-----------"
# /bin/ps j # uncomment to show if abort "sleep" is still sleeping
return $status
}
# verify given host and port is connectable
# $1 Host/IP to verify
# $2 Port to verify
verify_host_port() {
local __HOST=$1
local __PORT=$2
local __NC=$(which nc)
local __NCEXT=$($(which nc) --help 2>&1 | grep "\-w" 2>/dev/null) # busybox nc compiled with extensions
local __IP __IPV4 __IPV6 __RUNPROG __PROG __ERR
# return codes
# 1 system specific error
# 2 nslookup/host error
# 3 nc (netcat) error
# 4 unmatched IP version
[ $# -ne 2 ] && write_log 12 "Error calling 'verify_host_port()' - wrong number of parameters"
# check if ip or FQDN was given
__IPV4=$(echo $__HOST | grep -m 1 -o "$IPV4_REGEX$") # do not detect ip in 0.0.0.0.example.com
__IPV6=$(echo $__HOST | grep -m 1 -o "$IPV6_REGEX")
# if FQDN given get IP address
[ -z "$__IPV4" -a -z "$__IPV6" ] && {
if [ -n "$BIND_HOST" ]; then # use BIND host if installed
__PROG="BIND host"
__RUNPROG="$BIND_HOST $__HOST >$DATFILE 2>$ERRFILE"
elif [ -n "$KNOT_HOST" ]; then # use Knot host if installed
__PROG="Knot host"
__RUNPROG="$KNOT_HOST $__HOST >$DATFILE 2>$ERRFILE"
elif [ -n "$DRILL" ]; then # use drill if installed
__PROG="drill"
__RUNPROG="$DRILL -V0 $__HOST A >$DATFILE 2>$ERRFILE" # IPv4
__RUNPROG="$__RUNPROG; $DRILL -V0 $__HOST AAAA >>$DATFILE 2>>$ERRFILE" # IPv6
elif [ -n "$HOSTIP" ]; then # use hostip if installed
__PROG="hostip"
__RUNPROG="$HOSTIP $__HOST >$DATFILE 2>$ERRFILE" # IPv4
__RUNPROG="$__RUNPROG; $HOSTIP -6 $__HOST >>$DATFILE 2>>$ERRFILE" # IPv6
else # use BusyBox nslookup
__PROG="BusyBox nslookup"
__RUNPROG="$NSLOOKUP $__HOST >$DATFILE 2>$ERRFILE"
fi
write_log 7 "#> $__RUNPROG"
eval $__RUNPROG
__ERR=$?
# command error
[ $__ERR -gt 0 ] && {
write_log 3 "DNS Resolver Error - $__PROG Error '$__ERR'"
write_log 7 "$(cat $ERRFILE)"
return 2
}
# extract IP address
if [ -n "$BIND_HOST" -o -n "$KNOT_HOST" ]; then # use BIND host or Knot host if installed
__IPV4=$(cat $DATFILE | awk -F "address " '/has address/ {print $2; exit}' )
__IPV6=$(cat $DATFILE | awk -F "address " '/has IPv6/ {print $2; exit}' )
elif [ -n "$DRILL" ]; then # use drill if installed
__IPV4=$(cat $DATFILE | awk '/^'"$lookup_host"'/ {print $5}' | grep -m 1 -o "$IPV4_REGEX")
__IPV6=$(cat $DATFILE | awk '/^'"$lookup_host"'/ {print $5}' | grep -m 1 -o "$IPV6_REGEX")
elif [ -n "$HOSTIP" ]; then # use hostip if installed
__IPV4=$(cat $DATFILE | grep -m 1 -o "$IPV4_REGEX")
__IPV6=$(cat $DATFILE | grep -m 1 -o "$IPV6_REGEX")
else # use BusyBox nslookup
__IPV4=$(cat $DATFILE | sed -ne "/^Name:/,\$ { s/^Address[0-9 ]\{0,\}: \($IPV4_REGEX\).*$/\\1/p }")
__IPV6=$(cat $DATFILE | sed -ne "/^Name:/,\$ { s/^Address[0-9 ]\{0,\}: \($IPV6_REGEX\).*$/\\1/p }")
fi
}
# check IP version if forced
if [ $force_ipversion -ne 0 ]; then
__ERR=0
[ $use_ipv6 -eq 0 -a -z "$__IPV4" ] && __ERR=4
[ $use_ipv6 -eq 1 -a -z "$__IPV6" ] && __ERR=6
[ $__ERR -gt 0 ] && {
[ -n "$LUCI_HELPER" ] && return 4
write_log 14 "Verify host Error '4' - Forced IP Version IPv$__ERR don't match"
}
fi
# verify nc command
# busybox nc compiled without -l option "NO OPT l!" -> critical error
$__NC --help 2>&1 | grep -i "NO OPT l!" >/dev/null 2>&1 && \
write_log 12 "Busybox nc (netcat) compiled without '-l' option, error 'NO OPT l!'"
# busybox nc compiled with extensions
$__NC --help 2>&1 | grep "\-w" >/dev/null 2>&1 && __NCEXT="TRUE"
# connectivity test
# run busybox nc to HOST PORT
# busybox might be compiled with "FEATURE_PREFER_IPV4_ADDRESS=n"
# then nc will try to connect via IPv6 if there is any IPv6 available on any host interface
# not worrying, if there is an IPv6 wan address
# so if not "force_ipversion" to use_ipv6 then connect test via ipv4, if available
[ $force_ipversion -ne 0 -a $use_ipv6 -ne 0 -o -z "$__IPV4" ] && __IP=$__IPV6 || __IP=$__IPV4
if [ -n "$__NCEXT" ]; then # BusyBox nc compiled with extensions (timeout support)
__RUNPROG="$__NC -w 1 $__IP $__PORT </dev/null >$DATFILE 2>$ERRFILE"
write_log 7 "#> $__RUNPROG"
eval $__RUNPROG
__ERR=$?
[ $__ERR -eq 0 ] && return 0
write_log 3 "Connect error - BusyBox nc (netcat) Error '$__ERR'"
write_log 7 "$(cat $ERRFILE)"
return 3
else # nc compiled without extensions (no timeout support)
__RUNPROG="timeout 2 -- $__NC $__IP $__PORT </dev/null >$DATFILE 2>$ERRFILE"
write_log 7 "#> $__RUNPROG"
eval $__RUNPROG
__ERR=$?
[ $__ERR -eq 0 ] && return 0
write_log 3 "Connect error - BusyBox nc (netcat) timeout Error '$__ERR'"
return 3
fi
}
# verify given DNS server if connectable
# $1 DNS server to verify
verify_dns() {
local __ERR=255 # last error buffer
local __CNT=0 # error counter
[ $# -ne 1 ] && write_log 12 "Error calling 'verify_dns()' - wrong number of parameters"
write_log 7 "Verify DNS server '$1'"
while [ $__ERR -ne 0 ]; do
# DNS uses port 53
verify_host_port "$1" "53"
__ERR=$?
if [ -n "$LUCI_HELPER" ]; then # no retry if called by LuCI helper script
return $__ERR
elif [ $__ERR -ne 0 -a $VERBOSE -gt 1 ]; then # VERBOSE > 1 then NO retry
write_log 4 "Verify DNS server '$1' failed - Verbose Mode: $VERBOSE - NO retry on error"
return $__ERR
elif [ $__ERR -ne 0 ]; then
__CNT=$(( $__CNT + 1 )) # increment error counter
# if error count > retry_count leave here
[ $retry_count -gt 0 -a $__CNT -gt $retry_count ] && \
write_log 14 "Verify DNS server '$1' failed after $retry_count retries"
write_log 4 "Verify DNS server '$1' failed - retry $__CNT/$retry_count in $RETRY_SECONDS seconds"
sleep $RETRY_SECONDS &
PID_SLEEP=$!
wait $PID_SLEEP # enable trap-handler
PID_SLEEP=0
fi
done
return 0
}
# analyze and verify given proxy string
# $1 Proxy-String to verify
verify_proxy() {
# complete entry user:password@host:port
# inside user and password NO '@' of ":" allowed
# host and port only host:port
# host only host ERROR unsupported
# IPv4 address instead of host 123.234.234.123
# IPv6 address instead of host [xxxx:....:xxxx] in square bracket
local __TMP __HOST __PORT
local __ERR=255 # last error buffer
local __CNT=0 # error counter
[ $# -ne 1 ] && write_log 12 "Error calling 'verify_proxy()' - wrong number of parameters"
write_log 7 "Verify Proxy server 'http://$1'"
# try to split user:password "@" host:port
__TMP=$(echo $1 | awk -F "@" '{print $2}')
# no "@" found - only host:port is given
[ -z "$__TMP" ] && __TMP="$1"
# now lets check for IPv6 address
__HOST=$(echo $__TMP | grep -m 1 -o "$IPV6_REGEX")
# IPv6 host address found read port
if [ -n "$__HOST" ]; then
# IPv6 split at "]:"
__PORT=$(echo $__TMP | awk -F "]:" '{print $2}')
else
__HOST=$(echo $__TMP | awk -F ":" '{print $1}')
__PORT=$(echo $__TMP | awk -F ":" '{print $2}')
fi
# No Port detected - EXITING
[ -z "$__PORT" ] && {
[ -n "$LUCI_HELPER" ] && return 5
write_log 14 "Invalid Proxy server Error '5' - proxy port missing"
}
while [ $__ERR -gt 0 ]; do
verify_host_port "$__HOST" "$__PORT"
__ERR=$?
if [ -n "$LUCI_HELPER" ]; then # no retry if called by LuCI helper script
return $__ERR
elif [ $__ERR -gt 0 -a $VERBOSE -gt 1 ]; then # VERBOSE > 1 then NO retry
write_log 4 "Verify Proxy server '$1' failed - Verbose Mode: $VERBOSE - NO retry on error"
return $__ERR
elif [ $__ERR -gt 0 ]; then
__CNT=$(( $__CNT + 1 )) # increment error counter
# if error count > retry_count leave here
[ $retry_count -gt 0 -a $__CNT -gt $retry_count ] && \
write_log 14 "Verify Proxy server '$1' failed after $retry_count retries"
write_log 4 "Verify Proxy server '$1' failed - retry $__CNT/$retry_count in $RETRY_SECONDS seconds"
sleep $RETRY_SECONDS &
PID_SLEEP=$!
wait $PID_SLEEP # enable trap-handler
PID_SLEEP=0
fi
done
return 0
}
do_transfer() {
# $1 # URL to use
local __URL="$1"
local __ERR=0
local __CNT=0 # error counter
local __PROG __RUNPROG
[ $# -ne 1 ] && write_log 12 "Error in 'do_transfer()' - wrong number of parameters"
# lets prefer GNU Wget because it does all for us - IPv4/IPv6/HTTPS/PROXY/force IP version
if [ -n "$WGET_SSL" -a $USE_CURL -eq 0 ]; then # except global option use_curl is set to "1"
__PROG="$WGET_SSL -nv -t 1 -O $DATFILE -o $ERRFILE" # non_verbose no_retry outfile errfile
# force network/ip to use for communication
if [ -n "$bind_network" ]; then
local __BINDIP
# set correct program to detect IP
[ $use_ipv6 -eq 0 ] && __RUNPROG="network_get_ipaddr" || __RUNPROG="network_get_ipaddr6"
eval "$__RUNPROG __BINDIP $bind_network" || \
write_log 13 "Can not detect local IP using '$__RUNPROG $bind_network' - Error: '$?'"
write_log 7 "Force communication via IP '$__BINDIP'"
__PROG="$__PROG --bind-address=$__BINDIP"
fi
# force ip version to use
if [ $force_ipversion -eq 1 ]; then
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -4" || __PROG="$__PROG -6" # force IPv4/IPv6
fi
# set certificate parameters
if [ $use_https -eq 1 ]; then
if [ "$cacert" = "IGNORE" ]; then # idea from Ticket #15327 to ignore server cert
__PROG="$__PROG --no-check-certificate"
elif [ -f "$cacert" ]; then
__PROG="$__PROG --ca-certificate=${cacert}"
elif [ -d "$cacert" ]; then
__PROG="$__PROG --ca-directory=${cacert}"
elif [ -n "$cacert" ]; then # it's not a file and not a directory but given
write_log 14 "No valid certificate(s) found at '$cacert' for HTTPS communication"
fi
fi
# disable proxy if no set (there might be .wgetrc or .curlrc or wrong environment set)
[ -z "$proxy" ] && __PROG="$__PROG --no-proxy"
__RUNPROG="$__PROG '$__URL'" # build final command
__PROG="GNU Wget" # reuse for error logging
# 2nd choice is cURL IPv4/IPv6/HTTPS
# libcurl might be compiled without Proxy or HTTPS Support
elif [ -n "$CURL" ]; then
__PROG="$CURL -RsS -o $DATFILE --stderr $ERRFILE"
# check HTTPS support
[ -z "$CURL_SSL" -a $use_https -eq 1 ] && \
write_log 13 "cURL: libcurl compiled without https support"
# force network/interface-device to use for communication
if [ -n "$bind_network" ]; then
local __DEVICE
network_get_physdev __DEVICE $bind_network || \
write_log 13 "Can not detect local device using 'network_get_physdev $bind_network' - Error: '$?'"
write_log 7 "Force communication via device '$__DEVICE'"
__PROG="$__PROG --interface $__DEVICE"
fi
# force ip version to use
if [ $force_ipversion -eq 1 ]; then
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -4" || __PROG="$__PROG -6" # force IPv4/IPv6
fi
# set certificate parameters
if [ $use_https -eq 1 ]; then
if [ "$cacert" = "IGNORE" ]; then # idea from Ticket #15327 to ignore server cert
__PROG="$__PROG --insecure" # but not empty better to use "IGNORE"
elif [ -f "$cacert" ]; then
__PROG="$__PROG --cacert $cacert"
elif [ -d "$cacert" ]; then
__PROG="$__PROG --capath $cacert"
elif [ -n "$cacert" ]; then # it's not a file and not a directory but given
write_log 14 "No valid certificate(s) found at '$cacert' for HTTPS communication"
fi
fi
# disable proxy if no set (there might be .wgetrc or .curlrc or wrong environment set)
# or check if libcurl compiled with proxy support
if [ -z "$proxy" ]; then
__PROG="$__PROG --noproxy '*'"
elif [ -z "$CURL_PROXY" ]; then
# if libcurl has no proxy support and proxy should be used then force ERROR
write_log 13 "cURL: libcurl compiled without Proxy support"
fi
__RUNPROG="$__PROG '$__URL'" # build final command
__PROG="cURL" # reuse for error logging
# uclient-fetch possibly with ssl support if /lib/libustream-ssl.so installed
elif [ -n "$UCLIENT_FETCH" ]; then
__PROG="$UCLIENT_FETCH -q -O $DATFILE"
# force network/ip not supported
[ -n "$__BINDIP" ] && \
write_log 14 "uclient-fetch: FORCE binding to specific address not supported"
# force ip version to use
if [ $force_ipversion -eq 1 ]; then
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -4" || __PROG="$__PROG -6" # force IPv4/IPv6
fi
# https possibly not supported
[ $use_https -eq 1 -a -z "$UCLIENT_FETCH_SSL" ] && \
write_log 14 "uclient-fetch: no HTTPS support! Additional install one of ustream-ssl packages"
# proxy support
[ -z "$proxy" ] && __PROG="$__PROG -Y off" || __PROG="$__PROG -Y on"
# https & certificates
if [ $use_https -eq 1 ]; then
if [ "$cacert" = "IGNORE" ]; then
__PROG="$__PROG --no-check-certificate"
elif [ -f "$cacert" ]; then
__PROG="$__PROG --ca-certificate=$cacert"
elif [ -n "$cacert" ]; then # it's not a file; nothing else supported
write_log 14 "No valid certificate file '$cacert' for HTTPS communication"
fi
fi
__RUNPROG="$__PROG '$__URL' 2>$ERRFILE" # build final command
__PROG="uclient-fetch" # reuse for error logging
# Busybox Wget or any other wget in search $PATH (did not support neither IPv6 nor HTTPS)
elif [ -n "$WGET" ]; then
__PROG="$WGET -q -O $DATFILE"
# force network/ip not supported
[ -n "$__BINDIP" ] && \
write_log 14 "BusyBox Wget: FORCE binding to specific address not supported"
# force ip version not supported
[ $force_ipversion -eq 1 ] && \
write_log 14 "BusyBox Wget: Force connecting to IPv4 or IPv6 addresses not supported"
# https not supported
[ $use_https -eq 1 ] && \
write_log 14 "BusyBox Wget: no HTTPS support"
# disable proxy if no set (there might be .wgetrc or .curlrc or wrong environment set)
[ -z "$proxy" ] && __PROG="$__PROG -Y off"
__RUNPROG="$__PROG '$__URL' 2>$ERRFILE" # build final command
__PROG="Busybox Wget" # reuse for error logging
else
write_log 13 "Neither 'Wget' nor 'cURL' nor 'uclient-fetch' installed or executable"
fi
while : ; do
write_log 7 "#> $__RUNPROG"
eval $__RUNPROG # DO transfer
__ERR=$? # save error code
[ $__ERR -eq 0 ] && return 0 # no error leave
[ -n "$LUCI_HELPER" ] && return 1 # no retry if called by LuCI helper script
write_log 3 "$__PROG Error: '$__ERR'"
write_log 7 "$(cat $ERRFILE)" # report error
[ $VERBOSE -gt 1 ] && {
# VERBOSE > 1 then NO retry
write_log 4 "Transfer failed - Verbose Mode: $VERBOSE - NO retry on error"
return 1
}
__CNT=$(( $__CNT + 1 )) # increment error counter
# if error count > retry_count leave here
[ $retry_count -gt 0 -a $__CNT -gt $retry_count ] && \
write_log 14 "Transfer failed after $retry_count retries"
write_log 4 "Transfer failed - retry $__CNT/$retry_count in $RETRY_SECONDS seconds"
sleep $RETRY_SECONDS &
PID_SLEEP=$!
wait $PID_SLEEP # enable trap-handler
PID_SLEEP=0
done
# we should never come here there must be a programming error
write_log 12 "Error in 'do_transfer()' - program coding error"
}
send_update() {
# $1 # IP to set at DDNS service provider
local __IP
[ $# -ne 1 ] && write_log 12 "Error calling 'send_update()' - wrong number of parameters"
if [ $upd_privateip -eq 0 ]; then
# verify given IP / no private IPv4's / no IPv6 addr starting with fxxx of with ":"
[ $use_ipv6 -eq 0 ] && __IP=$(echo $1 | grep -v -E "(^0|^10\.|^100\.6[4-9]\.|^100\.[7-9][0-9]\.|^100\.1[0-1][0-9]\.|^100\.12[0-7]\.|^127|^169\.254|^172\.1[6-9]\.|^172\.2[0-9]\.|^172\.3[0-1]\.|^192\.168)")
[ $use_ipv6 -eq 1 ] && __IP=$(echo $1 | grep "^[0-9a-eA-E]")
else
__IP=$(echo $1 | grep -m 1 -o "$IPV4_REGEX") # valid IPv4 or
[ -z "$__IP" ] && __IP=$(echo $1 | grep -m 1 -o "$IPV6_REGEX") # IPv6
fi
[ -z "$__IP" ] && {
write_log 3 "No or private or invalid IP '$1' given! Please check your configuration"
return 127
}
if [ -n "$update_script" ]; then
write_log 7 "parsing script '$update_script'"
. $update_script
else
local __URL __ERR
# do replaces in URL
__URL=$(echo $update_url | sed -e "s#\[USERNAME\]#$URL_USER#g" -e "s#\[PASSWORD\]#$URL_PASS#g" \
-e "s#\[PARAMENC\]#$URL_PENC#g" -e "s#\[PARAMOPT\]#$param_opt#g" \
-e "s#\[DOMAIN\]#$domain#g" -e "s#\[IP\]#$__IP#g")
[ $use_https -ne 0 ] && __URL=$(echo $__URL | sed -e 's#^http:#https:#')
do_transfer "$__URL" || return 1
write_log 7 "DDNS Provider answered:\n$(cat $DATFILE)"
[ -z "$UPD_ANSWER" ] && return 0 # not set then ignore
grep -i -E "$UPD_ANSWER" $DATFILE >/dev/null 2>&1
return $? # "0" if found
fi
}
get_local_ip () {
# $1 Name of Variable to store local IP (LOCAL_IP)
local __CNT=0 # error counter
local __RUNPROG __DATA __URL __ERR
[ $# -ne 1 ] && write_log 12 "Error calling 'get_local_ip()' - wrong number of parameters"
write_log 7 "Detect local IP on '$ip_source'"
while : ; do
if [ -n "$ip_network" ]; then
# set correct program
network_flush_cache # force re-read data from ubus
[ $use_ipv6 -eq 0 ] && __RUNPROG="network_get_ipaddr" \
|| __RUNPROG="network_get_ipaddr6"
eval "$__RUNPROG __DATA $ip_network" || \
write_log 13 "Can not detect local IP using $__RUNPROG '$ip_network' - Error: '$?'"
[ -n "$__DATA" ] && write_log 7 "Local IP '$__DATA' detected on network '$ip_network'"
elif [ -n "$ip_interface" ]; then
local __DATA4=""; local __DATA6=""
if [ -n "$(which ip)" ]; then # ip program installed
write_log 7 "#> ip -o addr show dev $ip_interface scope global >$DATFILE 2>$ERRFILE"
ip -o addr show dev $ip_interface scope global >$DATFILE 2>$ERRFILE
__ERR=$?
if [ $__ERR -eq 0 ]; then
# DATFILE (sample)
# 10: l2tp-inet: <POINTOPOINT,MULTICAST,NOARP,UP,LOWER_UP> mtu 1456 qdisc fq_codel state UNKNOWN qlen 3\ link/ppp
# 10: l2tp-inet inet 95.30.176.51 peer 95.30.176.1/32 scope global l2tp-inet\ valid_lft forever preferred_lft forever
# 5: eth1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc fq_codel state UP qlen 1000\ link/ether 08:00:27:d0:10:32 brd ff:ff:ff:ff:ff:ff
# 5: eth1 inet 172.27.10.128/24 brd 172.27.10.255 scope global eth1\ valid_lft forever preferred_lft forever
# 5: eth1 inet 172.55.55.155/24 brd 172.27.10.255 scope global eth1\ valid_lft 12345sec preferred_lft 12345sec
# 5: eth1 inet6 2002:b0c7:f326::806b:c629:b8b9:433/128 scope global dynamic \ valid_lft 8026sec preferred_lft 8026sec
# 5: eth1 inet6 fd43:5368:6f6d:6500:806b:c629:b8b9:433/128 scope global dynamic \ valid_lft 8026sec preferred_lft 8026sec
# 5: eth1 inet6 fd43:5368:6f6d:6500:a00:27ff:fed0:1032/64 scope global dynamic \ valid_lft 14352sec preferred_lft 14352sec
# 5: eth1 inet6 2002:b0c7:f326::a00:27ff:fed0:1032/64 scope global dynamic \ valid_lft 14352sec preferred_lft 14352sec
# remove remove remove replace replace
# link inet6 fxxx sec forever=>-1 / => ' ' to separate subnet from ip
sed "/link/d; /inet6 f/d; s/sec//g; s/forever/-1/g; s/\// /g" $DATFILE | \
awk '{ print $3" "$4" "$NF }' > $ERRFILE # temp reuse ERRFILE
# we only need inet? IP prefered time
local __TIME4=0; local __TIME6=0
local __TYP __ADR __TIME
while read __TYP __ADR __TIME; do
__TIME=${__TIME:-0} # supress shell errors on last (empty) line of DATFILE
# IPversion no "-1" record stored - now "-1" record or new time > oldtime
[ "$__TYP" = "inet6" -a $__TIME6 -ge 0 -a \( $__TIME -lt 0 -o $__TIME -gt $__TIME6 \) ] && {
__DATA6="$__ADR"
__TIME6="$__TIME"
}
[ "$__TYP" = "inet" -a $__TIME4 -ge 0 -a \( $__TIME -lt 0 -o $__TIME -gt $__TIME4 \) ] && {
__DATA4="$__ADR"
__TIME4="$__TIME"
}
done < $ERRFILE
else
write_log 3 "ip Error: '$__ERR'"
write_log 7 "$(cat $ERRFILE)" # report error
fi
else # use deprecated ifconfig
write_log 7 "#> ifconfig $ip_interface >$DATFILE 2>$ERRFILE"
ifconfig $ip_interface >$DATFILE 2>$ERRFILE
__ERR=$?
if [ $__ERR -eq 0 ]; then
__DATA4=$(awk '
/inet addr:/ { # Filter IPv4
# inet addr:192.168.1.1 Bcast:192.168.1.255 Mask:255.255.255.0
$1=""; # remove inet
$3=""; # remove Bcast: ...
$4=""; # remove Mask: ...
FS=":"; # separator ":"
$0=$0; # reread to activate separator
$1=""; # remove addr
FS=" "; # set back separator to default " "
$0=$0; # reread to activate separator (remove whitespaces)
print $1; # print IPv4 addr
}' $DATFILE
)
__DATA6=$(awk '
/inet6/ && /: [0-9a-eA-E]/ { # Filter IPv6 exclude fxxx
# inet6 addr: 2001:db8::xxxx:xxxx/32 Scope:Global
FS="/"; # separator "/"
$0=$0; # reread to activate separator
$2=""; # remove everything behind "/"
FS=" "; # set back separator to default " "
$0=$0; # reread to activate separator
print $3; # print IPv6 addr
}' $DATFILE
)
else
write_log 3 "ifconfig Error: '$__ERR'"
write_log 7 "$(cat $ERRFILE)" # report error
fi
fi
[ $use_ipv6 -eq 0 ] && __DATA="$__DATA4" || __DATA="$__DATA6"
[ -n "$__DATA" ] && write_log 7 "Local IP '$__DATA' detected on interface '$ip_interface'"
elif [ -n "$ip_script" ]; then
write_log 7 "#> $ip_script >$DATFILE 2>$ERRFILE"
eval $ip_script >$DATFILE 2>$ERRFILE
__ERR=$?
if [ $__ERR -eq 0 ]; then
__DATA=$(cat $DATFILE)
[ -n "$__DATA" ] && write_log 7 "Local IP '$__DATA' detected via script '$ip_script'"
else
write_log 3 "$ip_script Error: '$__ERR'"
write_log 7 "$(cat $ERRFILE)" # report error
fi
elif [ -n "$ip_url" ]; then
do_transfer "$ip_url"
# use correct regular expression
[ $use_ipv6 -eq 0 ] \
&& __DATA=$(grep -m 1 -o "$IPV4_REGEX" $DATFILE) \
|| __DATA=$(grep -m 1 -o "$IPV6_REGEX" $DATFILE)
[ -n "$__DATA" ] && write_log 7 "Local IP '$__DATA' detected on web at '$ip_url'"
else
write_log 12 "Error in 'get_local_ip()' - unhandled ip_source '$ip_source'"
fi
# valid data found return here
[ -n "$__DATA" ] && {
eval "$1=\"$__DATA\""
return 0
}
[ -n "$LUCI_HELPER" ] && return 1 # no retry if called by LuCI helper script
write_log 7 "Data detected:"
write_log 7 "$(cat $DATFILE)"
[ $VERBOSE -gt 1 ] && {
# VERBOSE > 1 then NO retry
write_log 4 "Get local IP via '$ip_source' failed - Verbose Mode: $VERBOSE - NO retry on error"
return 1
}
__CNT=$(( $__CNT + 1 )) # increment error counter
# if error count > retry_count leave here
[ $retry_count -gt 0 -a $__CNT -gt $retry_count ] && \
write_log 14 "Get local IP via '$ip_source' failed after $retry_count retries"
write_log 4 "Get local IP via '$ip_source' failed - retry $__CNT/$retry_count in $RETRY_SECONDS seconds"
sleep $RETRY_SECONDS &
PID_SLEEP=$!
wait $PID_SLEEP # enable trap-handler
PID_SLEEP=0
done
# we should never come here there must be a programming error
write_log 12 "Error in 'get_local_ip()' - program coding error"
}
get_registered_ip() {
# $1 Name of Variable to store public IP (REGISTERED_IP)
# $2 (optional) if set, do not retry on error
local __CNT=0 # error counter
local __ERR=255
local __REGEX __PROG __RUNPROG __DATA __IP
# return codes
# 1 no IP detected
[ $# -lt 1 -o $# -gt 2 ] && write_log 12 "Error calling 'get_registered_ip()' - wrong number of parameters"
[ $is_glue -eq 1 -a -z "$BIND_HOST" ] && write_log 14 "Lookup of glue records is only supported using BIND host"
write_log 7 "Detect registered/public IP"
# set correct regular expression
[ $use_ipv6 -eq 0 ] && __REGEX="$IPV4_REGEX" || __REGEX="$IPV6_REGEX"
if [ -n "$BIND_HOST" ]; then
__PROG="$BIND_HOST"
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -t A" || __PROG="$__PROG -t AAAA"
if [ $force_ipversion -eq 1 ]; then # force IP version
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -4" || __PROG="$__PROG -6"
fi
[ $force_dnstcp -eq 1 ] && __PROG="$__PROG -T" # force TCP
[ $is_glue -eq 1 ] && __PROG="$__PROG -v" # use verbose output to get additional section
__RUNPROG="$__PROG $lookup_host $dns_server >$DATFILE 2>$ERRFILE"
__PROG="BIND host"
elif [ -n "$KNOT_HOST" ]; then
__PROG="$KNOT_HOST"
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -t A" || __PROG="$__PROG -t AAAA"
if [ $force_ipversion -eq 1 ]; then # force IP version
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -4" || __PROG="$__PROG -6"
fi
[ $force_dnstcp -eq 1 ] && __PROG="$__PROG -T" # force TCP
__RUNPROG="$__PROG $lookup_host $dns_server >$DATFILE 2>$ERRFILE"
__PROG="Knot host"
elif [ -n "$DRILL" ]; then
__PROG="$DRILL -V0" # drill options name @server type
if [ $force_ipversion -eq 1 ]; then # force IP version
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG -4" || __PROG="$__PROG -6"
fi
[ $force_dnstcp -eq 1 ] && __PROG="$__PROG -t" || __PROG="$__PROG -u" # force TCP
__PROG="$__PROG $lookup_host"
[ -n "$dns_server" ] && __PROG="$__PROG @$dns_server"
[ $use_ipv6 -eq 0 ] && __PROG="$__PROG A" || __PROG="$__PROG AAAA"
__RUNPROG="$__PROG >$DATFILE 2>$ERRFILE"
__PROG="drill"
elif [ -n "$HOSTIP" ]; then # hostip package installed
__PROG="$HOSTIP"
[ $force_dnstcp -ne 0 ] && \
write_log 14 "hostip - no support for 'DNS over TCP'"
# is IP given as dns_server ?
__IP=$(echo $dns_server | grep -m 1 -o "$IPV4_REGEX")
[ -z "$__IP" ] && __IP=$(echo $dns_server | grep -m 1 -o "$IPV6_REGEX")
# we got NO ip for dns_server, so build command
[ -z "$__IP" -a -n "$dns_server" ] && {
__IP="\`$HOSTIP"
[ $use_ipv6 -eq 1 -a $force_ipversion -eq 1 ] && __IP="$__IP -6"
__IP="$__IP $dns_server | grep -m 1 -o"
[ $use_ipv6 -eq 1 -a $force_ipversion -eq 1 ] \
&& __IP="$__IP '$IPV6_REGEX'" \
|| __IP="$__IP '$IPV4_REGEX'"
__IP="$__IP \`"
}
[ $use_ipv6 -eq 1 ] && __PROG="$__PROG -6"
[ -n "$dns_server" ] && __PROG="$__PROG -r $__IP"
__RUNPROG="$__PROG $lookup_host >$DATFILE 2>$ERRFILE"
__PROG="hostip"
elif [ -n "$NSLOOKUP" ]; then # last use BusyBox nslookup
[ $force_dnstcp -ne 0 ] && \
write_log 14 "Busybox nslookup - no support for 'DNS over TCP'"
[ -n "$NSLOOKUP_MUSL" -a -n "$dns_server" ] && \
write_log 14 "Busybox compiled with musl - nslookup don't support the use of DNS Server"
[ $force_ipversion -ne 0 ] && \
write_log 5 "Busybox nslookup - no support to 'force IP Version' (ignored)"
__RUNPROG="$NSLOOKUP $lookup_host $dns_server >$DATFILE 2>$ERRFILE"
__PROG="BusyBox nslookup"
else # there must be an error
write_log 12 "Error in 'get_registered_ip()' - no supported Name Server lookup software accessible"
fi
while : ; do
write_log 7 "#> $__RUNPROG"
eval $__RUNPROG
__ERR=$?
if [ $__ERR -ne 0 ]; then
write_log 3 "$__PROG error: '$__ERR'"
write_log 7 "$(cat $ERRFILE)"
else
if [ -n "$BIND_HOST" -o -n "$KNOT_HOST" ]; then
if [ $is_glue -eq 1 ]; then
__DATA=$(cat $DATFILE | grep "^$lookup_host" | grep -om1 "$__REGEX" )
else
__DATA=$(cat $DATFILE | awk -F "address " '/has/ {print $2; exit}' )
fi
elif [ -n "$DRILL" ]; then
__DATA=$(cat $DATFILE | awk '/^'"$lookup_host"'/ {print $5; exit}' )
elif [ -n "$HOSTIP" ]; then
__DATA=$(cat $DATFILE | grep -om1 "$__REGEX")
elif [ -n "$NSLOOKUP" ]; then
__DATA=$(cat $DATFILE | sed -ne "/^Name:/,\$ { s/^Address[0-9 ]\{0,\}: \($__REGEX\).*$/\\1/p }" )
fi
[ -n "$__DATA" ] && {
write_log 7 "Registered IP '$__DATA' detected"
[ -z "$IPFILE" ] || echo "$__DATA" > $IPFILE
eval "$1=\"$__DATA\"" # valid data found
return 0 # leave here
}
write_log 4 "NO valid IP found"
__ERR=127
fi
[ -z "$IPFILE" ] || echo "" > $IPFILE
[ -n "$LUCI_HELPER" ] && return $__ERR # no retry if called by LuCI helper script
[ -n "$2" ] && return $__ERR # $2 is given -> no retry
[ $VERBOSE -gt 1 ] && {
# VERBOSE > 1 then NO retry
write_log 4 "Get registered/public IP for '$lookup_host' failed - Verbose Mode: $VERBOSE - NO retry on error"
return $__ERR
}
__CNT=$(( $__CNT + 1 )) # increment error counter
# if error count > retry_count leave here
[ $retry_count -gt 0 -a $__CNT -gt $retry_count ] && \
write_log 14 "Get registered/public IP for '$lookup_host' failed after $retry_count retries"
write_log 4 "Get registered/public IP for '$lookup_host' failed - retry $__CNT/$retry_count in $RETRY_SECONDS seconds"
sleep $RETRY_SECONDS &
PID_SLEEP=$!
wait $PID_SLEEP # enable trap-handler
PID_SLEEP=0
done
# we should never come here there must be a programming error
write_log 12 "Error in 'get_registered_ip()' - program coding error"
}
get_uptime() {
# $1 Variable to store result in
[ $# -ne 1 ] && write_log 12 "Error calling 'verify_host_port()' - wrong number of parameters"
local __UPTIME=$(cat /proc/uptime)
eval "$1=\"${__UPTIME%%.*}\""
}
trap_handler() {
# $1 trap signal
# $2 optional (exit status)
local __PIDS __PID
local __ERR=${2:-0}
local __OLD_IFS=$IFS
local __NEWLINE_IFS='
' # __NEWLINE_IFS
[ $PID_SLEEP -ne 0 ] && kill -$1 $PID_SLEEP 2>/dev/null # kill pending sleep if exist
case $1 in
0) if [ $__ERR -eq 0 ]; then
write_log 5 "PID '$$' exit normal at $(eval $DATE_PROG)\n"
else
write_log 4 "PID '$$' exit WITH ERROR '$__ERR' at $(eval $DATE_PROG)\n"
fi ;;
1) write_log 6 "PID '$$' received 'SIGHUP' at $(eval $DATE_PROG)"
# reload config via starting the script again
/usr/lib/ddns/dynamic_dns_updater.sh -v "0" -S "$__SECTIONID" -- start || true
exit 0 ;; # and leave this one
2) write_log 5 "PID '$$' terminated by 'SIGINT' at $(eval $DATE_PROG)\n";;
3) write_log 5 "PID '$$' terminated by 'SIGQUIT' at $(eval $DATE_PROG)\n";;
15) write_log 5 "PID '$$' terminated by 'SIGTERM' at $(eval $DATE_PROG)\n";;
*) write_log 13 "Unhandled signal '$1' in 'trap_handler()'";;
esac
__PIDS=$(pgrep -P $$) # get my childs (pgrep prints with "newline")
IFS=$__NEWLINE_IFS
for __PID in $__PIDS; do
kill -$1 $__PID # terminate it
done
IFS=$__OLD_IFS
# remove out and err file
[ -f $DATFILE ] && rm -f $DATFILE
[ -f $ERRFILE ] && rm -f $ERRFILE
# exit with correct handling:
# remove trap handling settings and send kill to myself
trap - 0 1 2 3 15
[ $1 -gt 0 ] && kill -$1 $$
}
split_FQDN() {
# $1 FQDN to split
# $2 name of variable to store TLD
# $3 name of variable to store (reg)Domain
# $4 name of variable to store Host/Subdomain
[ $# -ne 4 ] && write_log 12 "Error calling 'split_FQDN()' - wrong number of parameters"
[ -z "$1" ] && write_log 12 "Error calling 'split_FQDN()' - missing FQDN to split"
[ -f $TLDFILE ] || write_log 12 "Error calling 'split_FQDN()' - missing file '$TLDFILE'"
local _HOST _FDOM _CTLD _FTLD
local _SET="$@" # save given function parameters
local _PAR=$(echo "$1" | tr [A-Z] [a-z] | tr "." " ") # to lower and replace DOT with SPACE
set -- $_PAR # set new as function parameters
_PAR="" # clear variable for later reuse
while [ -n "$1" ] ; do # as long we have parameters
_PAR="$1 $_PAR" # invert order of parameters
shift
done
set -- $_PAR # use new as function parameters
_PAR="" # clear variable
while [ -n "$1" ] ; do # as long we have parameters
if [ -z "$_CTLD" ]; then # first loop
_CTLD="$1" # CURRENT TLD to look at
shift
else
_CTLD="$1.$_CTLD" # Next TLD to look at
shift
fi
# check if TLD exact match in tld_names.dat, save TLD
zcat $TLDFILE | grep -E "^$_CTLD$" >/dev/null 2>&1 && {
_FTLD="$_CTLD" # save found
_FDOM="$1" # save domain next step might be invalid
continue
}
# check if match any "*" in tld_names.dat,
zcat $TLDFILE | grep -E "^\*.$_CTLD$" >/dev/null 2>&1 && {
[ -z "$1" ] && break # no more data break
# check if next level TLD match excludes "!" in tld_names.dat
if zcat $TLDFILE | grep -E "^!$1.$_CTLD$" >/dev/null 2>&1 ; then
_FTLD="$_CTLD" # Yes
else
_FTLD="$1.$_CTLD"
shift
fi
_FDOM="$1"; shift
}
[ -n "$_FTLD" ] && break # we have something valid, break
done
# the leftover parameters are the HOST/SUBDOMAIN
while [ -n "$1" ]; do
_HOST="$1 $_HOST" # remember we need to invert
shift
done
_HOST=$(echo $_HOST | tr " " ".") # insert DOT
set -- $_SET # set back parameters from function call
[ -n "$_FTLD" ] && {
eval "$2=$_FTLD" # set TLD
eval "$3=$_FDOM" # set registrable domain
eval "$4=$_HOST" # set HOST/SUBDOMAIN
return 0
}
eval "$2=''" # clear TLD
eval "$3=''" # clear registrable domain
eval "$4=''" # clear HOST/SUBDOMAIN
return 1
}
expand_ipv6() {
# Original written for bash by
#.Author: Florian Streibelt <florian@f-streibelt.de>
# Date: 08.04.2012
# License: Public Domain, but please be fair and
# attribute the original author(s) and provide
# a link to the original source for corrections:
#. https://github.com/mutax/IPv6-Address-checks
# $1 IPv6 to expand
# $2 name of variable to store expanded IPv6
[ $# -ne 2 ] && write_log 12 "Error calling 'expand_ipv6()' - wrong number of parameters"
INPUT="$(echo "$1" | tr 'A-F' 'a-f')"
[ "$INPUT" = "::" ] && INPUT="::0" # special case ::
O=""
while [ "$O" != "$INPUT" ]; do
O="$INPUT"
# fill all words with zeroes
INPUT=$( echo "$INPUT" | sed -e 's|:\([0-9a-f]\{3\}\):|:0\1:|g' \
-e 's|:\([0-9a-f]\{3\}\)$|:0\1|g' \
-e 's|^\([0-9a-f]\{3\}\):|0\1:|g' \
-e 's|:\([0-9a-f]\{2\}\):|:00\1:|g' \
-e 's|:\([0-9a-f]\{2\}\)$|:00\1|g' \
-e 's|^\([0-9a-f]\{2\}\):|00\1:|g' \
-e 's|:\([0-9a-f]\):|:000\1:|g' \
-e 's|:\([0-9a-f]\)$|:000\1|g' \
-e 's|^\([0-9a-f]\):|000\1:|g' )
done
# now expand the ::
ZEROES=""
echo "$INPUT" | grep -qs "::"
if [ "$?" -eq 0 ]; then
GRPS="$( echo "$INPUT" | sed 's|[0-9a-f]||g' | wc -m )"
GRPS=$(( GRPS-1 )) # remove carriage return
MISSING=$(( 8-GRPS ))
while [ $MISSING -gt 0 ]; do
ZEROES="$ZEROES:0000"
MISSING=$(( MISSING-1 ))
done
# be careful where to place the :
INPUT=$( echo "$INPUT" | sed -e 's|\(.\)::\(.\)|\1'$ZEROES':\2|g' \
-e 's|\(.\)::$|\1'$ZEROES':0000|g' \
-e 's|^::\(.\)|'$ZEROES':0000:\1|g;s|^:||g' )
fi
# an expanded address has 39 chars + CR
if [ $(echo $INPUT | wc -m) != 40 ]; then
write_log 4 "Error in 'expand_ipv6()' - invalid IPv6 found: '$1' expanded: '$INPUT'"
eval "$2='invalid'"
return 1
fi
# echo the fully expanded version of the address
eval "$2=$INPUT"
return 0
}