#!/bin/sh
#
-# Marta Carbone
-# Copyright (C) 2009 UniPi
+# Marta Carbone, Luigi Rizzo
+# Copyright (C) 2009 Universita` di Pisa
# $Id$
#
-# This script is the backend to be used with
-# the vsys system.
-# It allows to configure dummynet pipes and queues.
+# This script the vsys backend used to configure emulation.
# In detail it:
-# - read the user's input from the input pipe
-# - validate the input
-# - set the firewall
-# - put results on the output vsys pipe
+# - reads the user's input from the vsys input pipe
+# - validates the input
+# - configures the firewall
+# - writes results on the output vsys pipe
#
-# This script expect to read from the input vsys
-# pipe a line formatted as follow:
-# ${PORT} ${TIMEOUT} <dummynet parameters>
-# the timeout value is expressed as:
-# week, day, month or anything else accepted by the date command
+# Configurable variables are at the beginning
-# save the slicename
-SLICE=$1
+DEBUG=0 # set to 0 to disable debug messages
-LOG_FILE=/tmp/netconfig.log
+# if HOOK is set the program is called befor configuring a rule.
+# A sample hook can be found in the ipfw.rpm package
+# HOOK=/tmp/sample_hook
+# XXX HOOK=""
+
+# You should not touch anything below.
+
+# We assume three type of connections
+# SERVER we know the local port P, and do the
+# bind/listen/accept on the local socket.
+# pipe_in in dst-port P
+# pipe_out out src-port P
+#
+# CLIENT we know the remote port P, and do a connect to it
+# (src and dst are swapped wrt the previous case)
+# pipe_in in src-port P
+# pipe_out out dst-port P
+#
+# SERVICE we run a server on local port P, and also connect
+# from local clients to remote servers on port P.
+# pipe_in in { dst-port P or src-port P }
+# pipe_out out { src-port P or dst-port P }
+#
+# On a given port a user can have one CLIENT and/or one SERVER
+# configuration or one SERVICE configuration.
+# When a SERVICE configuration is installed any existing CLIENT
+# and SERVER configuration on the same port are removed.
+# When a CLIENT or SERVER configuration is installed any existing
+# SERVICE configuration on the same port is removed.
+#
+# The following is a case that is implemented as SERVER
+# D we run a server on local port P, and also connect
+# to remote servers but doing a bind(P) before connect().
+# In terms of rules, this is not distinguishable from
+# the SERVER case, however it would be different if we
+# had a way to tell SERVER from CLIENT sockets
+# pipe_in in dst-port P
+# pipe_out out src-port P
+#
+# The database of current ipfw and dummynet configuration is in a
+# file which is regenerated on error.
+# The format is
+#
+# slice_id service_type port rule_nr pipe_base timeout
+#
+# (lines starting with '#' are comments and are ignored)
+# For each configuration we allocate one rule number in ipfw,
+# and two sequential pipe numbers.
+
+# globals, do not touch below
+DBFILE=/tmp/ff
+LOG_FILE=/tmp/netconfig.log # XXX when running from daemon
+lockfile=/var/lock/ipfw.lock
+PIPE_MIN=1000
+PIPE_MAX=30000
# programs
-CUT=/usr/bin/cut
+# XXX check consintency variable {}
SED=/bin/sed
+#IPFW="/bin/echo ipfw:"
IPFW=/sbin/ipfw
-# set to 0 to disable debug messages
-DEBUG=0
+# Call arguments are <backend-program> <caller_slice_name>
+SLICENAME="$1" # save the slice XXX name or id ?
+SLICE_ID=`id -u $SLICENAME`
debug() { # $1 message to be displayed
- [ x"${DEBUG}" != x"0" ] && echo $1 >>{LOG_FILE};
+ #echo "ipfw-be: $1"
+ [ x"${DEBUG}" != x"0" ] && echo "ipfw-be: $1" >>{LOG_FILE};
}
abort() { # $1 message to be displayed
- echo "$1"
+ release_lock
+ echo "ipfw-be aborting: $1"
exit 1
}
user_error() { # $1 message to be displayed
- echo "1 User error: $1"
+ echo "ipfw-be: user error: $1"
exit 1
}
+# remove dangerous characters from user input
filter() { # $* variables to be filtered
# allowed chars are: numbers, upcase and lowecase
# chars, and the following symbols: . _ - /
- echo "$*" | ${SED} -r 's/[^0-9a-zA-Z. _\/\-]*//g'
+ echo "$*" | ${SED} -r 's/[^0-9a-zA-Z. _\/\-{}]*//g'
}
-# Add ipfw pipe and rules
-# We use the PORT number to configure the
-# pipe, and add rules for that port.
-# The default directory is the slicename root
-add_rules() { # $1 timeout value
- local EXPIRE
-
- debug "Add a new rule"
- # schedule the rule deletion
- EXPIRE=`date --date="${TIMEOUT}" +%s`
- [ x"${EXPIRE}" = x"" ] && abort "Date format $1 not valid"
-
- # move in the slice root dir
- cd /vservers/${SLICE}/root
- #echo ${CONFIG_STRING} | ${SED} -e "s/ profile \(.[^ ]\)/ profile \/vservers\/${SLICE}\/\1/g"
-
- # check syntax, if ok execute
- # add rules
- local IPFW_CHECK="${IPFW} -n "
- local ERROR=0
-
- [ $ERROR -eq 0 ] && \
- ${IPFW_CHECK} add ${RULE_N} pipe ${PIPE_N} ip from me to any src-port ${PORT} // ${EXPIRE} ${SLICE}
- let "ERROR += $?"
- [ $ERROR -eq 0 ] && \
- ${IPFW_CHECK} add ${RULE_N} pipe ${PIPE_N} ip from any to me dst-port ${PORT}
-
- let "ERROR += $?"
- [ $ERROR -eq 0 ] && \
- ${IPFW_CHECK} pipe ${PIPE_N} config ${PARSED_CONFIGURATION}
-
- if [ ! $ERROR -eq 0 ]; then
- echo "Some errors occurred not executing"
- user_error "ipfw syntax error"
- fi
-
- # add rules
- ${IPFW} add ${RULE_N} pipe ${PIPE_N} ip from me to any src-port ${PORT} // ${EXPIRE} ${SLICE}
- ${IPFW} add ${RULE_N} pipe ${PIPE_N} ip from any to me dst-port ${PORT}
-
- # config pipe
- ${IPFW} pipe ${PIPE_N} config ${PARSED_CONFIGURATION}
+# Add the ipfw rule/pipe and update the database.
+# The pipe-in and pipe_out config are through global variables
+# CONFIG_IN CONFIG_OUT because they may be long.
+# Other arguments are on the command line
+add_rule() { # new_rule slice_id type port rule pipe_base timeout
+ local new_rule=$1 slice_id=$2 type=$3 port=$4 rule_nr=$5 pipe_base=$6 timeout=$7
+ local pipe_in pipe_out rule_in rule_out check_timeout
+
+ # XXX validate the timeout
+ # schedule the rule deletion
+ check_timeout=`date --date="${timeout}" +%s`
+ [ x"${check_timeout}" = x"" ] && abort "Date format $1 not valid"
+ # XXX tbd
+ timeout="fake_timeout"
+
+ # we could use a profile, so locate the user directory
+ # move in the slice root dir XXX todo
+ cd /vservers/${SLICENAME}/root
+ #echo ${CONFIG_STRING} | ${SED} -e "s/ profile \(.[^ ]\)/ profile \/vservers\/${SLICENAME}\/\1/g"
+
+ # first, call ipfw -n to check syntax
+ # check syntax, if ok move on and do the action
+ local IPFW_CHECK="${IPFW} -n "
+
+ pipe_in=$(($pipe_base + $pipe_base))
+ pipe_out=$(($pipe_in + 1))
+ local del # which one to delete ?
+ if [ x"$new_rule" != x"0" ] ; then
+ case $type in
+ SERVER)
+ rule_in="dst-port $port"
+ rule_out="src-port $port"
+ del=SERVICE
+ ;;
+ CLIENT)
+ rule_in="src-port $port"
+ rule_out="dst-port $port"
+ del=SERVICE
+ ;;
+ SERVICE)
+ rule_in="{ src-port $port or dst-port $port }"
+ rule_out="{ src-port $port or dst-port $port }"
+ del="CLI_SER"
+ ;;
+ *)
+ abort "invalid service type $type"
+ ;;
+ esac
+
+ rule_in="pipe ${pipe_in} in uid $slice_id ${rule_in}"
+ rule_out="pipe ${pipe_out} out uid $slice_id ${rule_out}"
+ ${IPFW_CHECK} add ${rule_nr} $rule_in || \
+ user_error "ipfw syntax error $rule_in"
+ ${IPFW_CHECK} add ${rule_nr} $rule_out || \
+ user_error "ipfw syntax error $rule_out"
+ fi
+
+ # XXX check error reporting
+ ${IPFW_CHECK} pipe ${pipe_in} config ${CONFIG_PIPE_IN} || \
+ user_error "ipfw syntax error pipe_in"
+ ${IPFW_CHECK} pipe ${pipe_out} config ${CONFIG_PIPE_OUT} || \
+ user_error "ipfw syntax error pipe_out"
+
+ # all good, delete and add rules if necessary
+ [ "$del" = "SERVICE" ] && delete_config $slice_id SERVICE $port
+ [ "$del" = "CLI_SER" ] && delete_config $slice_id CLIENT $port
+ [ "$del" = "CLI_SER" ] && delete_config $slice_id SERVER $port
+ [ "$new_rule" != "0" ] && ${IPFW} add ${rule_nr} $rule_in
+ [ "$new_rule" != "0" ] && ${IPFW} add ${rule_nr} $rule_out
+ # config pipes
+ ${IPFW} pipe ${pipe_in} config ${CONFIG_PIPE_IN}
+ ${IPFW} pipe ${pipe_out} config ${CONFIG_PIPE_OUT}
+
+ # add to the database, at least to adjust the timeout
+ ( grep -v -- "^${slice_id} ${type} ${port}" $DBFILE; \
+ echo "${slice_id} ${type} ${port} ${rule_nr} ${pipe_base} ${timeout}" ) > ${DBFILE}.tmp
+ mv ${DBFILE}.tmp ${DBFILE}
+
}
-# Delete a given link
-delete_link()
-{
- ipfw delete ${RULE_N}
- ipfw pipe delete ${RULE_N}
+# Delete a given configuration
+delete_config() { # slice_id type port
+ local pipe_in pipe_out pipe_base
+ local slice_id=$1 type=$2 port=$3
+
+ # XXX test
+ [ $# -lt 3 ] && abort "One or more input parameter is missing"
+ set `find_rule $slice_id $type $port`
+ rule=$1; pipe_base=$2
+ [ "$rule" = "0" ] && return # no rules found
+
+ pipe_in=$(($pipe_base + $pipe_base))
+ pipe_out=$(($pipe_in + 1))
+
+ $IPFW delete ${rule}
+ $IPFW pipe delete ${pipe_in}
+ $IPFW pipe delete ${pipe_out}
+ # remove from the database
+ grep -v -- "^${slice_id} ${type} ${port}" $DBFILE > ${DBFILE}.tmp
+ mv ${DBFILE}.tmp ${DBFILE}
}
-# The rule we want to configure already exist.
-# Check for slice owner matching.
-modify_rule()
-{
- local RULE
-
- RULE=`ipfw list ${PORT} 2>&1 | cut -d ' ' -f 12`;
- if [ "${RULE}" = "${SLICE}" ] ; then # replace the link configuration
- debug "The rule already exist, the owner match, delete old rule"
- echo "Owner match"
- delete_link
- add_rules ${TIMEOUT}
- else
- user_error "the rule already exist, ant you are not the slice owner, try later"
- fi
+# called with the database file as input
+# compare the tuple <slice_id loc_port rem_port> with
+# the current firewall configuration. The database contains
+# slice_id local_port remote_port rule_nr pipe_nr timeout
+# On match returns <rule_nr pipe_base timeout>
+# On non match returns 0 0 0
+find_rule() { # $1 slice_id $2 type $3 port
+ local ret
+ ret=`grep -- "^$1 $2 $3 " $DBFILE`
+
+ [ x"$ret" = x ] && echo "0 0 0 " && return # nothing found
+ # ignore multiple matches. If the db is corrupt we are
+ # screwed anyways
+ set $ret
+ echo "$4 $5 $6"
+}
+
+
+# Find a hole in a list of numbers within a range (boundaries included)
+# The input is passed as a sorted list of numbers on stdin.
+# Return a "0" rule if there is no rule free
+find_hole() { # min max
+ local min=$1 cand=$1 max=$2 line
+ while read line ; do
+ [ $line -lt $min ] && continue
+ [ $line -ne $cand ] && break # found
+ [ $cand -ge $max ] && cand=0 && break # no space
+ cand=$(($cand + 1))
+ done
+ echo $cand
+}
+
+# returns a free rule and pipe base
+# Returns r=0 if there are no resources available
+#
+# This function returns values using echo,
+# this means that we can not easily debug the function
+allocate_resources() {
+ local p r
+ # remove comments, extract field, sort
+ p=`grep -v '^#' $DBFILE | awk '{print $5}' | sort -n | find_hole 1 10000`
+ r=`grep -v '^#' $DBFILE | awk '{print $4}' | sort -n | find_hole $PIPE_MIN $PIPE_MAX`
+ [ $r = 0 -o $p = 0 ] && r=0 # no resources available
+ echo $r $p
+}
+
+
+#
+# process a request.
+# A request is made by a set of arguments formatted as follow:
+#
+# CONFIG ${type} ${port} ${timeout} PIPE_IN <pipe in parameters> PIPE_OUT <pipe out parameters>
+# IPFW_SHOW
+# PIPE_SHOW
+# DELETE ${type} ${port}
+#
+# where uppercase values are keywords.
+# The timeout value is expressed as:
+# week, day, month or anything else accepted by the date command.
+# The id of the slice issuing the request is in the $SLICE_ID variable,
+# set at the beginning of this script.
+process() {
+ local new_pipe=0
+ local timeout TMP i rule_nr pipe_base
+ local type=$2
+ local port=$3
+
+ debug "Received from the input pipe: $*"
+
+ # Handle special requests: show and delete
+ case x"$1" in
+ x"IPFW_SHOW")
+ ${IPFW} show
+ return 0
+ ;;
+ x"PIPE_SHOW")
+ $IPFW pipe show
+ return 0
+ ;;
+ x"DELETE")
+ delete_config ${SLICE_ID} $type $port
+ return 0
+ ;;
+ x"CONFIG")
+ ;;
+ *)
+ abort "Command not recognized"
+ ;;
+ esac
+ shift
+
+ debug "processed initial command, rest of line: $*"
+ # check if we have enough parameters
+ [ $# -lt 9 ] && abort "One or more input parameter is missing"
+
+ type=$1; shift
+ port=$1; shift
+ timeout=$1; shift
+ # XXX check/compute timeout
+
+ [ "$1" != "PIPE_IN" ] && abort "PIPE_IN requested"
+ shift
+
+ i=""
+ while [ "$1" != "" -a "$1" != "PIPE_OUT" ] ; do
+ i="$i $1"
+ shift
+ done
+ CONFIG_PIPE_IN="$i"
+
+ [ "$1" != "PIPE_OUT" ] && abort "PIPE_OUT requested"
+ shift
+
+ i=""
+ while [ "$1" != "" ] ; do
+ i="$i $1"
+ shift
+ done
+ CONFIG_PIPE_OUT="$i"
+
+ debug "Configuration Required:"
+ debug "TYPE: $type"
+ debug "PORT: $port"
+ debug "TIMEOUT: $timeout"
+ debug "pipe in config $CONFIG_PIPE_IN"
+ debug "pipe in config $CONFIG_PIPE_OUT"
+ debug "-----------------------"
+
+ # check if the link is already configured
+ debug "Search for ${SLICE_ID} ${type} ${port}"
+
+ set `find_rule ${SLICE_ID} ${type} ${port}`
+ rule_nr=$1
+ pipe_base=$2
+
+ if [ ${rule_nr} = "0" ] ; then
+ debug "Rule not found, new installation"
+ new_pipe=1
+ set `allocate_resources`
+ rule_nr=$1; pipe_base=$2
+ [ $rule_nr = 0 ] && abort "no resources available"
+ debug "found free resources rule: $rule_nr pipe: $pipe_base"
+ else
+ debug "Rule found, just changing the pipe configuration"
+ fi
+ add_rule $new_pipe $SLICE_ID $type $port $rule_nr $pipe_base $timeout
+
+ # if present, call a hook in order to collect statistical
+ # information on dummynet usage
+ if [ -n "${HOOK}" -a -x "${HOOK}" ]; then
+ # XXX
+ ${HOOK} $SLICE_ID $type $port $rule_nr $pipe_base $timeout &
+ fi
}
-# process a single line of input, a request
-process()
+#
+# acquire the lock XXX check lockfile
+acquire_lock()
{
- local TMP; # temporary var
-
- debug "Received from the input pipe: $1"
-
- # allow netconfig ipfw show
- # allow netconfig pipe show
-
- CMD=`echo $1 | cut -d\ -f 1`
- if [ x${CMD} == x"ipfw" ]; then
- ipfw show
- return 0
- else if [ x${CMD} == x"pipe" ]; then
- ipfw pipe show
- return 0
- fi
- fi
-
- ARGS=`echo $1 | wc -w`
- if [ $ARGS -le 3 ]; then
- abort "One or more input parameter is missing"
- fi
-
- # filter input
- TMP=`echo $1 | cut -d\ -f 1`
- PORT=`filter $TMP`
- TMP=`echo $1 | cut -d\ -f 2`
- TIMEOUT=`filter $TMP`
- TMP=`echo $1 | cut -d\ -f 3-`
- CONFIG_STRING=`filter $TMP`
-
- debug "PORT: $PORT"
- debug "TIMEOUT: $TIMEOUT"
- debug "configuration string: $CONFIG_STRING"
-
- # deny port <= 1024
- [ ${PORT} -le 1024 ] && user_error "it is not allowed to modify the port range [0-1024]"
-
- # start to configure pipes and rules
- PIPE_N=${PORT}
- RULE_N=${PORT}
-
- # check if the link is already configured
- ipfw list ${PORT} 2>&1
-
- if [ x"$?" != x"0" ]; then # new rule, add and set owner/timeout
- add_rules
- else # the rule already exist, check owner
- modify_rule
- fi
+ lockfile -s 0 -r 0 $lockfile 2> /dev/null
+ if [ $? -ne 0 ] ; then
+ echo "lock acquisition failed"
+ exit -1
+ fi
+}
+#
+# release the lock
+release_lock()
+{
+ rm -f $lockfile
}
# main starts here
+ debug "Debug activated"
+ debug "$0 START"
+
+ # create the DBFILE if not exist
+ [ ! -e ${DBFILE} ] && touch ${DBFILE}
requests=[]
i=0
- while read request
- do
+ # lock acquisition
+ acquire_lock
+
+ # A request to the vsys backend is composed by a single line of input
+ while read request; do
# read -a read arguments in array
# XXX skip lines starting with #
- requests[$i]=$request;
- let i=$i+1
+ debug "Received <$request>"
+ requests[$i]="$request"
+ requests[$i]=`filter $request`
+ debug "Filtered ${requests[$i]}"
+ i=$(($i + 1))
done
- # create the lock
-
# process requests
- for i in `/usr/bin/seq 0 $((${#requests[*]} - 1))`
- do
- process "${requests[$i]}"
+ i=0
+ n_req=${#requests[*]}
+ debug "Received $n_req request"
+ while [ $i -lt $n_req ] ; do
+ debug "processing request $i of $n_req"
+ debug "<${requests[$i]}>"
+ process ${requests[$i]}
+ i=$(($i + 1))
done
- # delete the lock
+ # lock release
+ release_lock
+ debug "$0 END"
exit 0