core-extra/gui/ipv4.tcl

#
# Copyright 2005-2008 University of Zagreb, Croatia.
#
# 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 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 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.
#
# This work was supported in part by Croatian Ministry of Science
# and Technology through the research contract #IP-2003-143.
#

#****h* imunes/ipv4.tcl
# NAME
#   ipv4.tcl -- file for handeling IPv4
#****

#****f* ipv4.tcl/findFreeIPv4Net
# NAME
#   findFreeIPv4Net -- find free IPv4 network
# SYNOPSIS
#   set ipnet [findFreeIPv4Net $mask]
# FUNCTION
#   Finds a free IPv4 network. Network is concidered to be free
#   if there are no simulated nodes attached to it. 
# INPUTS
#   * mask -- this parameter is left unused for now
# RESULT
#   * ipnet -- returns the free IPv4 network address in the form 10.a.b 
#****
 
proc findFreeIPv4Net { mask } {
    global g_prefs node_list

    set ipnets {}
    foreach node $node_list {
	foreach ifc [ifcList $node] {
	    set ipnet [lrange [split [getIfcIPv4addr $node $ifc] .] 0 2]
	    if {[lsearch $ipnets $ipnet] == -1} {
		lappend ipnets $ipnet
	    }
	}
    }
    # include mobility newlinks in search
    foreach newlink [.c find withtag "newlink"] {
        set ipnet [lrange [split [lindex [.c gettags $newlink] 4] .] 0 2]
	lappend ipnets $ipnet
    }
    if {![info exists g_prefs(gui_ipv4_addr)]} { setDefaultAddrs ipv4 }
    set abc [split $g_prefs(gui_ipv4_addr) .]
    set a [lindex $abc 0]
    set b [lindex $abc 1]
    set c [lindex $abc 2]

    for { set i $b } { $i <= 255 } { incr i } {
	for { set j $c } { $j <= 255 } { incr j } {
	    if {[lsearch $ipnets "$a $i $j"] == -1} {
		set ipnet "$a.$i.$j"
		return $ipnet
	    }
	}
    }
}

#****f* ipv4.tcl/autoIPv4addr 
# NAME
#   autoIPv4addr -- automaticaly assign an IPv4 address
# SYNOPSIS
#   autoIPv4addr $node $iface 
# FUNCTION
#   automaticaly assignes an IPv4 address to the interface $iface of 
#   of the node $node  
# INPUTS
#   * node -- the node containing the interface to which a new 
#     IPv4 address should be assigned
#   * iface -- the interface to witch a new, automatilacy generated, IPv4  
#     address will be assigned
#****

proc autoIPv4addr { node iface } {
    set peer_ip4addrs {}
    set netmaskbits 24 ;# default

    if { [[typemodel $node].layer] != "NETWORK" } {
	#
	# Shouldn't get called at all for link-layer nodes
	#
	puts "autoIPv4 called for a [[typemodel $node].layer] layer node"
	return
    }
    setIfcIPv4addr $node $iface ""

    set peer_node [logicalPeerByIfc $node $iface]
    # find addresses of NETWORK layer peer nodes
    if { [[typemodel $peer_node].layer] == "LINK" } {
	foreach l2node [listLANnodes $peer_node {}] {
	    foreach ifc [ifcList $l2node] {
		set peer [logicalPeerByIfc $l2node $ifc]
		set peer_if [ifcByLogicalPeer $peer $l2node]
		set peer_ip4addr [getIfcIPv4addr $peer $peer_if]
		if { $peer_ip4addr != "" } {
		    lappend peer_ip4addrs [lindex [split $peer_ip4addr /] 0]
		    set netmaskbits [lindex [split $peer_ip4addr /] 1]
		}
	    }
	}
    # point-to-point link with another NETWORK layer peer
    } else {
	set peer_if [ifcByLogicalPeer $peer_node $node]
	set peer_ip4addr [getIfcIPv4addr $peer_node $peer_if]
	set peer_ip4addrs [lindex [split $peer_ip4addr /] 0]
	if { $peer_ip4addr != "" } {
	    set netmaskbits [lindex [split $peer_ip4addr /] 1]
	}
    }
    # first node connected to wlan should use wlan prefix
    if { [nodeType $peer_node] == "wlan" && 
    	 [llength $peer_ip4addrs] == 0 } {
	# use the special "wireless" pseudo-interface
	set peer_ip4addr [getIfcIPv4addr $peer_node wireless]
	set peer_ip4addrs [lindex [split $peer_ip4addr /] 0]
	set netmaskbits [lindex [split $peer_ip4addr /] 1]
    }
    set nodetype [nodeType $node]
    if { $nodetype == "router" } { set nodetype [getNodeModel $node] }
    switch -exact -- $nodetype {
	router {
	    set targetbyte 1
	}
	host {
	    set targetbyte 10
	}
	PC -
	pc {
	    set targetbyte 20
	}
	default {
	    set targetbyte 1
	}
    }
    # peer has an IPv4 address, allocate a new address on the same network
    if { $peer_ip4addrs != "" } {
	set ipnums [split [lindex $peer_ip4addrs 0] .]
	set net "[lindex $ipnums 0].[lindex $ipnums 1].[lindex $ipnums 2]"
	set ipaddr $net.$targetbyte
	while { [lsearch $peer_ip4addrs $ipaddr] >= 0 } {
	    incr targetbyte
	    set ipaddr $net.$targetbyte
	}
	setIfcIPv4addr $node $iface "$ipaddr/$netmaskbits"
    } else {
	set ipnet [findFreeIPv4Net 24]
	setIfcIPv4addr $node $iface "$ipnet.$targetbyte/$netmaskbits"
    }
}


#****f* ipv4.tcl/autoIPv4defaultroute 
# NAME
#   autoIPvdefaultroute -- automaticaly assign a default route 
# SYNOPSIS
#   autoIPv4defaultroute $node $iface 
# FUNCTION
#   searches the interface of the node for a router, if a router is found
#   then it is a new default gateway. 
# INPUTS
#   * node  -- default gateway is provided for this node 
#   * iface -- the interface on witch we search for a new default gateway
#****

proc autoIPv4defaultroute { node iface } {
    if { [[typemodel $node].layer] != "NETWORK" } {
	#
	# Shouldn't get called at all for link-layer nodes
	#
	puts "autoIPv4defaultroute called for [[typemodel $node].layer] node"
	return
    }

    set peer_node [logicalPeerByIfc $node $iface]

    if { [[typemodel $peer_node].layer] == "LINK" } {
	foreach l2node [listLANnodes $peer_node {}] {
	    foreach ifc [ifcList $l2node] {
		set peer [logicalPeerByIfc $l2node $ifc]
		if { [nodeType $peer] != "router" && 
		     [nodeType $peer] != "ine" } {
		    continue
		}
		set peer_if [ifcByLogicalPeer $peer $l2node]
		set peer_ip4addr [getIfcIPv4addr $peer $peer_if]
		if { $peer_ip4addr != "" } {
		    set gw [lindex [split $peer_ip4addr /] 0]
		    setStatIPv4routes $node [list "0.0.0.0/0 $gw"]
		    return
		}
	    }
	}
    } else {
	if { [nodeType $peer_node] != "router" && 
	     [nodeType $peer_node] != "ine" } {
	    return
	}
	set peer_if [ifcByLogicalPeer $peer_node $node]
	set peer_ip4addr [getIfcIPv4addr $peer_node $peer_if]
	if { $peer_ip4addr != "" } {
	    set gw [lindex [split $peer_ip4addr /] 0]
	    setStatIPv4routes $node [list "0.0.0.0/0 $gw"]
	    return
	}
    }
}


#****f* ipv4.tcl/checkIPv4Addr 
# NAME
#   checkIPv4Addr -- check the IPv4 address 
# SYNOPSIS
#   set valid [checkIPv4Addr $str]
# FUNCTION
#   Checks if the provided string is a valid IPv4 address. 
# INPUTS
#   * str -- string to be evaluated. Valid IPv4 address is writen in form
#     a.b.c.d 
# RESULT
#   * valid -- function returns 0 if the input string is not in the form
#     of a valid IP address, 1 otherwise
#****

proc checkIPv4Addr { str } {
    set n 0
    if { $str == "" } {
	return 1
    }
    while { $n < 4 } {
	if { $n < 3 } {
	    set i [string first . $str]
	} else {
	    set i [string length $str]
	}
	if { $i < 1 } {
	    return 0
	}
	set part [string range $str 0 [expr $i - 1]]
	if { [string length [string trim $part]] != $i } {
	    return 0
	}
	if { ![string is integer $part] } {
	    return 0
	}
	if { $part < 0 || $part > 255 } {
	    return 0
	}
	set str [string range $str [expr $i + 1] end]
	incr n
    }
    return 1
}


#****f* ipv4.tcl/checkIPv4Net 
# NAME
#   checkIPv4Net -- check the IPv4 network 
# SYNOPSIS
#   set valid [checkIPv4Net $str]
# FUNCTION
#   Checks if the provided string is a valid IPv4 network. 
# INPUTS
#   * str -- string to be evaluated. Valid string is in form a.b.c.d/m 
# RESULT
#   * valid -- function returns 0 if the input string is not in the form
#     of a valid IP address, 1 otherwise
#****

proc checkIPv4Net { str } {
    if { $str == "" } {
	return 1
    }
    if { ![checkIPv4Addr [lindex [split $str /] 0]]} {
	return 0
    }
    set net [string trim [lindex [split $str /] 1]]
    if { [string length $net] == 0 } {
	return 0
    }
    return [checkIntRange $net 0 32]
}

#
# Boeing
# ***** ipv4.tcl/ipv4ToString
# NAME
#  ipv4ToString -- convert 32-bit integer to dotted decimal notation
# ****

proc ipv4ToString { ip } {
	return "[expr ($ip >> 24) & 0xFF].[expr ($ip >> 16) & 0xFF].[expr ($ip >> 8) & 0xFF].[expr $ip & 0xFF]"
}

#
# Boeing
# ***** ipv4.tcl/stringToIPv4
# NAME
#  stringToIPv4 -- convert dotted decimal string to 32-bit integer 
proc stringToIPv4 { ip } {
    set parts [split $ip .]
    set a [lindex $parts 0]; set b [lindex $parts 1];
    set c [lindex $parts 2]; set d [lindex $parts 3];
    return [expr {(($a << 24) + ($b << 16) + ($c << 8) + $d ) & 0xFFFFFFFF}]
}


proc ipv4ToNet { ip prefixlen } {
    set ipn [stringToIPv4 $ip]
    set ones [string repeat 1 $prefixlen]
    set zeroes [string repeat 0 [expr {32 - $prefixlen}]]
    binary scan [binary format B32 $ones$zeroes] H8 mask
    set netn [expr {$ipn & "0x$mask"}]
    return [ipv4ToString $netn]
}

proc getDefaultIPv4Addrs { } {
    global g_prefs
    return [list "10.0.0.0" "192.168.0.0" "172.16.0.0"]
}

proc isMulticast { str } {
    set i [string first . $str]
    if { $i < 1 } { return false }
    set part [string range $str 0 [expr {$i - 1}]]
    if { ![string is integer $part] } { return false }
    if { $part < 224 || $part > 239 } { return false }
    return true
}

proc ipv4List { node wantmask } {
    set r ""
    foreach ifc [ifcList $node] {
	foreach ip [getIfcIPv4addr $node $ifc] {
	    if { $wantmask } {
		lappend r $ip
	    } else {
		lappend r [lindex [split $ip /] 0]
	    }
	}
    }
    return $r
}


# this can be called with node_list to get a list of all subnets
proc ipv4SubnetList { nodes } {
    set r ""
    foreach node $nodes {
	foreach ipnet [ipv4List $node 1] {
	    set ip [lindex [split $ipnet /] 0]
	    set pl [lindex [split $ipnet /] 1]
	    set net "[ipv4ToNet $ip $pl]/$pl"
	    if { [lsearch $r $net] < 0 } {
		lappend r $net
	    }
	}
    }
    return $r
}
initial import (Boeing r1752, NRL r878) 2013-08-29 15:21:13 +01:00			`#`
			`# Copyright 2005-2008 University of Zagreb, Croatia.`
			`#`
			`# 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 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 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.`
			`#`
			`# This work was supported in part by Croatian Ministry of Science`
			`# and Technology through the research contract #IP-2003-143.`
			`#`

			`#***h imunes/ipv4.tcl`
			`# NAME`
			`# ipv4.tcl -- file for handeling IPv4`
			`#****`

			`#***f ipv4.tcl/findFreeIPv4Net`
			`# NAME`
			`# findFreeIPv4Net -- find free IPv4 network`
			`# SYNOPSIS`
			`# set ipnet [findFreeIPv4Net $mask]`
			`# FUNCTION`
			`# Finds a free IPv4 network. Network is concidered to be free`
			`# if there are no simulated nodes attached to it.`
			`# INPUTS`
			`# * mask -- this parameter is left unused for now`
			`# RESULT`
			`# * ipnet -- returns the free IPv4 network address in the form 10.a.b`
			`#****`

			`proc findFreeIPv4Net { mask } {`
			`global g_prefs node_list`

			`set ipnets {}`
			`foreach node $node_list {`
			`foreach ifc [ifcList $node] {`
			`set ipnet [lrange [split [getIfcIPv4addr $node $ifc] .] 0 2]`
			`if {[lsearch $ipnets $ipnet] == -1} {`
			`lappend ipnets $ipnet`
			`}`
			`}`
			`}`
			`# include mobility newlinks in search`
			`foreach newlink [.c find withtag "newlink"] {`
			`set ipnet [lrange [split [lindex [.c gettags $newlink] 4] .] 0 2]`
			`lappend ipnets $ipnet`
			`}`
			`if {![info exists g_prefs(gui_ipv4_addr)]} { setDefaultAddrs ipv4 }`
			`set abc [split $g_prefs(gui_ipv4_addr) .]`
			`set a [lindex $abc 0]`
			`set b [lindex $abc 1]`
			`set c [lindex $abc 2]`

			`for { set i $b } { $i <= 255 } { incr i } {`
			`for { set j $c } { $j <= 255 } { incr j } {`
			`if {[lsearch $ipnets "$a $i $j"] == -1} {`
			`set ipnet "$a.$i.$j"`
			`return $ipnet`
			`}`
			`}`
			`}`
			`}`

			`#***f ipv4.tcl/autoIPv4addr`
			`# NAME`
			`# autoIPv4addr -- automaticaly assign an IPv4 address`
			`# SYNOPSIS`
			`# autoIPv4addr $node $iface`
			`# FUNCTION`
			`# automaticaly assignes an IPv4 address to the interface $iface of`
			`# of the node $node`
			`# INPUTS`
			`# * node -- the node containing the interface to which a new`
			`# IPv4 address should be assigned`
			`# * iface -- the interface to witch a new, automatilacy generated, IPv4`
			`# address will be assigned`
			`#****`

			`proc autoIPv4addr { node iface } {`
			`set peer_ip4addrs {}`
			`set netmaskbits 24 ;# default`

			`if { [[typemodel $node].layer] != "NETWORK" } {`
			`#`
			`# Shouldn't get called at all for link-layer nodes`
			`#`
			`puts "autoIPv4 called for a [[typemodel $node].layer] layer node"`
			`return`
			`}`
			`setIfcIPv4addr $node $iface ""`

			`set peer_node [logicalPeerByIfc $node $iface]`
			`# find addresses of NETWORK layer peer nodes`
removed ovs node from gui 2019-09-25 18:46:41 +01:00			`if { [[typemodel $peer_node].layer] == "LINK" } {`
initial import (Boeing r1752, NRL r878) 2013-08-29 15:21:13 +01:00			`foreach l2node [listLANnodes $peer_node {}] {`
			`foreach ifc [ifcList $l2node] {`
			`set peer [logicalPeerByIfc $l2node $ifc]`
			`set peer_if [ifcByLogicalPeer $peer $l2node]`
			`set peer_ip4addr [getIfcIPv4addr $peer $peer_if]`
			`if { $peer_ip4addr != "" } {`
			`lappend peer_ip4addrs [lindex [split $peer_ip4addr /] 0]`
			`set netmaskbits [lindex [split $peer_ip4addr /] 1]`
			`}`
			`}`
			`}`
			`# point-to-point link with another NETWORK layer peer`
			`} else {`
			`set peer_if [ifcByLogicalPeer $peer_node $node]`
			`set peer_ip4addr [getIfcIPv4addr $peer_node $peer_if]`
			`set peer_ip4addrs [lindex [split $peer_ip4addr /] 0]`
			`if { $peer_ip4addr != "" } {`
			`set netmaskbits [lindex [split $peer_ip4addr /] 1]`
			`}`
			`}`
			`# first node connected to wlan should use wlan prefix`
			`if { [nodeType $peer_node] == "wlan" &&`
			`[llength $peer_ip4addrs] == 0 } {`
			`# use the special "wireless" pseudo-interface`
			`set peer_ip4addr [getIfcIPv4addr $peer_node wireless]`
			`set peer_ip4addrs [lindex [split $peer_ip4addr /] 0]`
			`set netmaskbits [lindex [split $peer_ip4addr /] 1]`
			`}`
			`set nodetype [nodeType $node]`
			`if { $nodetype == "router" } { set nodetype [getNodeModel $node] }`
			`switch -exact -- $nodetype {`
			`router {`
			`set targetbyte 1`
			`}`
			`host {`
			`set targetbyte 10`
			`}`
			`PC -`
			`pc {`
			`set targetbyte 20`
			`}`
			`default {`
			`set targetbyte 1`
			`}`
			`}`
			`# peer has an IPv4 address, allocate a new address on the same network`
			`if { $peer_ip4addrs != "" } {`
			`set ipnums [split [lindex $peer_ip4addrs 0] .]`
			`set net "[lindex $ipnums 0].[lindex $ipnums 1].[lindex $ipnums 2]"`
			`set ipaddr $net.$targetbyte`
			`while { [lsearch $peer_ip4addrs $ipaddr] >= 0 } {`
			`incr targetbyte`
			`set ipaddr $net.$targetbyte`
			`}`
			`setIfcIPv4addr $node $iface "$ipaddr/$netmaskbits"`
			`} else {`
			`set ipnet [findFreeIPv4Net 24]`
			`setIfcIPv4addr $node $iface "$ipnet.$targetbyte/$netmaskbits"`
			`}`
			`}`


			`#***f ipv4.tcl/autoIPv4defaultroute`
			`# NAME`
			`# autoIPvdefaultroute -- automaticaly assign a default route`
			`# SYNOPSIS`
			`# autoIPv4defaultroute $node $iface`
			`# FUNCTION`
			`# searches the interface of the node for a router, if a router is found`
			`# then it is a new default gateway.`
			`# INPUTS`
			`# * node -- default gateway is provided for this node`
			`# * iface -- the interface on witch we search for a new default gateway`
			`#****`

			`proc autoIPv4defaultroute { node iface } {`
			`if { [[typemodel $node].layer] != "NETWORK" } {`
			`#`
			`# Shouldn't get called at all for link-layer nodes`
			`#`
			`puts "autoIPv4defaultroute called for [[typemodel $node].layer] node"`
			`return`
			`}`

			`set peer_node [logicalPeerByIfc $node $iface]`

			`if { [[typemodel $peer_node].layer] == "LINK" } {`
			`foreach l2node [listLANnodes $peer_node {}] {`
			`foreach ifc [ifcList $l2node] {`
			`set peer [logicalPeerByIfc $l2node $ifc]`
			`if { [nodeType $peer] != "router" &&`
			`[nodeType $peer] != "ine" } {`
			`continue`
			`}`
			`set peer_if [ifcByLogicalPeer $peer $l2node]`
			`set peer_ip4addr [getIfcIPv4addr $peer $peer_if]`
			`if { $peer_ip4addr != "" } {`
			`set gw [lindex [split $peer_ip4addr /] 0]`
			`setStatIPv4routes $node [list "0.0.0.0/0 $gw"]`
			`return`
			`}`
			`}`
			`}`
			`} else {`
			`if { [nodeType $peer_node] != "router" &&`
			`[nodeType $peer_node] != "ine" } {`
			`return`
			`}`
			`set peer_if [ifcByLogicalPeer $peer_node $node]`
			`set peer_ip4addr [getIfcIPv4addr $peer_node $peer_if]`
			`if { $peer_ip4addr != "" } {`
			`set gw [lindex [split $peer_ip4addr /] 0]`
			`setStatIPv4routes $node [list "0.0.0.0/0 $gw"]`
			`return`
			`}`
			`}`
			`}`


			`#***f ipv4.tcl/checkIPv4Addr`
			`# NAME`
			`# checkIPv4Addr -- check the IPv4 address`
			`# SYNOPSIS`
			`# set valid [checkIPv4Addr $str]`
			`# FUNCTION`
			`# Checks if the provided string is a valid IPv4 address.`
			`# INPUTS`
			`# * str -- string to be evaluated. Valid IPv4 address is writen in form`
			`# a.b.c.d`
			`# RESULT`
			`# * valid -- function returns 0 if the input string is not in the form`
			`# of a valid IP address, 1 otherwise`
			`#****`

			`proc checkIPv4Addr { str } {`
			`set n 0`
			`if { $str == "" } {`
			`return 1`
			`}`
			`while { $n < 4 } {`
			`if { $n < 3 } {`
			`set i [string first . $str]`
			`} else {`
			`set i [string length $str]`
			`}`
			`if { $i < 1 } {`
			`return 0`
			`}`
			`set part [string range $str 0 [expr $i - 1]]`
			`if { [string length [string trim $part]] != $i } {`
			`return 0`
			`}`
			`if { ![string is integer $part] } {`
			`return 0`
			`}`
			`if { $part < 0 \|\| $part > 255 } {`
			`return 0`
			`}`
			`set str [string range $str [expr $i + 1] end]`
			`incr n`
			`}`
			`return 1`
			`}`


			`#***f ipv4.tcl/checkIPv4Net`
			`# NAME`
			`# checkIPv4Net -- check the IPv4 network`
			`# SYNOPSIS`
			`# set valid [checkIPv4Net $str]`
			`# FUNCTION`
			`# Checks if the provided string is a valid IPv4 network.`
			`# INPUTS`
			`# * str -- string to be evaluated. Valid string is in form a.b.c.d/m`
			`# RESULT`
			`# * valid -- function returns 0 if the input string is not in the form`
			`# of a valid IP address, 1 otherwise`
			`#****`

			`proc checkIPv4Net { str } {`
			`if { $str == "" } {`
			`return 1`
			`}`
			`if { ![checkIPv4Addr [lindex [split $str /] 0]]} {`
			`return 0`
			`}`
			`set net [string trim [lindex [split $str /] 1]]`
			`if { [string length $net] == 0 } {`
			`return 0`
			`}`
			`return [checkIntRange $net 0 32]`
			`}`

			`#`
			`# Boeing`
			`# ***** ipv4.tcl/ipv4ToString`
			`# NAME`
			`# ipv4ToString -- convert 32-bit integer to dotted decimal notation`
			`# ****`

			`proc ipv4ToString { ip } {`
			`return "[expr ($ip >> 24) & 0xFF].[expr ($ip >> 16) & 0xFF].[expr ($ip >> 8) & 0xFF].[expr $ip & 0xFF]"`
			`}`

			`#`
			`# Boeing`
			`# ***** ipv4.tcl/stringToIPv4`
			`# NAME`
			`# stringToIPv4 -- convert dotted decimal string to 32-bit integer`
			`proc stringToIPv4 { ip } {`
			`set parts [split $ip .]`
			`set a [lindex $parts 0]; set b [lindex $parts 1];`
			`set c [lindex $parts 2]; set d [lindex $parts 3];`
			`return [expr {(($a << 24) + ($b << 16) + ($c << 8) + $d ) & 0xFFFFFFFF}]`
			`}`


			`proc ipv4ToNet { ip prefixlen } {`
			`set ipn [stringToIPv4 $ip]`
			`set ones [string repeat 1 $prefixlen]`
			`set zeroes [string repeat 0 [expr {32 - $prefixlen}]]`
			`binary scan [binary format B32 $ones$zeroes] H8 mask`
			`set netn [expr {$ipn & "0x$mask"}]`
			`return [ipv4ToString $netn]`
			`}`

			`proc getDefaultIPv4Addrs { } {`
			`global g_prefs`
			`return [list "10.0.0.0" "192.168.0.0" "172.16.0.0"]`
			`}`

			`proc isMulticast { str } {`
			`set i [string first . $str]`
			`if { $i < 1 } { return false }`
			`set part [string range $str 0 [expr {$i - 1}]]`
			`if { ![string is integer $part] } { return false }`
			`if { $part < 224 \|\| $part > 239 } { return false }`
			`return true`
			`}`

			`proc ipv4List { node wantmask } {`
			`set r ""`
			`foreach ifc [ifcList $node] {`
			`foreach ip [getIfcIPv4addr $node $ifc] {`
			`if { $wantmask } {`
			`lappend r $ip`
			`} else {`
			`lappend r [lindex [split $ip /] 0]`
			`}`
			`}`
			`}`
			`return $r`
			`}`


			`# this can be called with node_list to get a list of all subnets`
			`proc ipv4SubnetList { nodes } {`
			`set r ""`
			`foreach node $nodes {`
			`foreach ipnet [ipv4List $node 1] {`
			`set ip [lindex [split $ipnet /] 0]`
			`set pl [lindex [split $ipnet /] 1]`
			`set net "[ipv4ToNet $ip $pl]/$pl"`
			`if { [lsearch $r $net] < 0 } {`
			`lappend r $net`
			`}`
			`}`
			`}`
			`return $r`
			`}`