/usr/share/tcltk/tcllib1.18/dns/ip.tcl is in tcllib 1.18-dfsg-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# Internet address manipulation.
#
# RFC 3513: IPv6 addressing.
#
# -------------------------------------------------------------------------
# See the file "license.terms" for information on usage and redistribution
# of this file, and for a DISCLAIMER OF ALL WARRANTIES.
# -------------------------------------------------------------------------
# @mdgen EXCLUDE: ipMoreC.tcl
package require Tcl 8.2; # tcl minimum version
namespace eval ip {
namespace export is version normalize equal type contract mask collapse subtract
#catch {namespace ensemble create}
variable IPv4Ranges
if {![info exists IPv4Ranges]} {
array set IPv4Ranges {
0/8 private
10/8 private
127/8 private
172.16/12 private
192.168/16 private
223/8 reserved
224/3 reserved
}
}
variable IPv6Ranges
if {![info exists IPv6Ranges]} {
# RFC 3513: 2.4
# RFC 3056: 2
array set IPv6Ranges {
2002::/16 "6to4 unicast"
fe80::/10 "link local"
fec0::/10 "site local"
ff00::/8 "multicast"
::/128 "unspecified"
::1/128 "localhost"
}
}
}
proc ::ip::is {class ip} {
foreach {ip mask} [split $ip /] break
switch -exact -- $class {
ipv4 - IPv4 - 4 {
return [IPv4? $ip]
}
ipv6 - IPv6 - 6 {
return [IPv6? $ip]
}
default {
return -code error "bad class \"$class\": must be ipv4 or ipv6"
}
}
}
proc ::ip::version {ip} {
set version -1
if {[string equal $ip {}]} { return $version}
foreach {addr mask} [split $ip /] break
if {[IPv4? $addr]} {
set version 4
} elseif {[IPv6? $addr]} {
set version 6
}
return $version
}
proc ::ip::equal {lhs rhs} {
foreach {LHS LM} [SplitIp $lhs] break
foreach {RHS RM} [SplitIp $rhs] break
if {[set version [version $LHS]] != [version $RHS]} {
return -code error "type mismatch:\
cannot compare different address types"
}
if {$version == 4} {set fmt I} else {set fmt I4}
set LHS [Mask$version [Normalize $LHS $version] $LM]
set RHS [Mask$version [Normalize $RHS $version] $RM]
binary scan $LHS $fmt LLL
binary scan $RHS $fmt RRR
foreach L $LLL R $RRR {
if {$L != $R} {return 0}
}
return 1
}
proc ::ip::collapse {prefixlist} {
#puts **[llength $prefixlist]||$prefixlist
# Force mask parts into length notation for the following merge
# loop to work.
foreach ip $prefixlist {
foreach {addr mask} [SplitIp $ip] break
set nip $addr/[maskToLength [maskToInt $mask]]
#puts "prefix $ip = $nip"
lappend tmp $nip
}
set prefixlist $tmp
#puts @@[llength $prefixlist]||$prefixlist
set ret {}
set can_normalize_more 1
while {$can_normalize_more} {
set prefixlist [lsort -dict $prefixlist]
#puts ||[llength $prefixlist]||$prefixlist
set can_normalize_more 0
for {set idx 0} {$idx < [llength $prefixlist]} {incr idx} {
set nextidx [expr {$idx + 1}]
set item [lindex $prefixlist $idx]
set nextitem [lindex $prefixlist $nextidx]
if {$nextitem eq ""} {
lappend ret $item
continue
}
set itemmask [mask $item]
set nextitemmask [mask $nextitem]
set item [prefix $item]
if {$itemmask ne $nextitemmask} {
lappend ret $item/$itemmask
continue
}
set adjacentitem [intToString [nextNet $item $itemmask]]/$itemmask
if {$nextitem ne $adjacentitem} {
lappend ret $item/$itemmask
continue
}
set upmask [expr {$itemmask - 1}]
set upitem "$item/$upmask"
# Maybe just checking the llength of the result is enough ?
if {[reduceToAggregates [list $item $nextitem $upitem]] != [list $upitem]} {
lappend ret $item/$itemmask
continue
}
set can_normalize_more 1
incr idx
lappend ret $upitem
}
set prefixlist $ret
set ret {}
}
return $prefixlist
}
proc ::ip::normalize {ip {Ip4inIp6 0}} {
foreach {ip mask} [SplitIp $ip] break
set version [version $ip]
set s [ToString [Normalize $ip $version] $Ip4inIp6]
if {($version == 6 && $mask != 128) || ($version == 4 && $mask != 32)} {
append s /$mask
}
return $s
}
proc ::ip::contract {ip} {
foreach {ip mask} [SplitIp $ip] break
set version [version $ip]
set s [ToString [Normalize $ip $version]]
if {$version == 6} {
set r ""
foreach o [split $s :] {
append r [format %x: 0x$o]
}
set r [string trimright $r :]
regsub {(?:^|:)0(?::0)+(?::|$)} $r {::} r
} else {
set r [string trimright $s .0]
}
return $r
}
proc ::ip::subtract {hosts} {
set positives {}
set negatives {}
foreach host $hosts {
foreach {addr mask} [SplitIp $host] break
set host $addr/[maskToLength [maskToInt $mask]]
if {[string match "-*" $host]} {
set host [string trimleft $host "-"]
lappend negatives $host
} else {
lappend positives $host
}
}
# Reduce to aggregates if needed
if {[llength $positives] > 1} {
set positives [reduceToAggregates $positives]
}
if {![llength $positives]} {
return {}
}
if {[llength $negatives] > 1} {
set negatives [reduceToAggregates $negatives]
}
if {![llength $negatives]} {
return $positives
}
# Remove positives that are cancelled out entirely
set new_positives {}
foreach positive $positives {
set found 0
foreach negative $negatives {
# Do we need the exact check, i.e. ==, or 'eq', or would
# checking the length of result == 1 be good enough?
if {[reduceToAggregates [list $positive $negative]] == [list $negative]} {
set found 1
break
}
}
if {!$found} {
lappend new_positives $positive
}
}
set positives $new_positives
set retval {}
foreach positive $positives {
set negatives_found {}
foreach negative $negatives {
if {[isOverlap $positive $negative]} {
lappend negatives_found $negative
}
}
if {![llength $negatives_found]} {
lappend retval $positive
continue
}
# Convert the larger subnet
## Determine smallest subnet involved
set maxmask 0
foreach subnet [linsert $negatives 0 $positive] {
set mask [mask $subnet]
if {$mask > $maxmask} {
set maxmask $mask
}
}
set positive_list [ExpandSubnet $positive $maxmask]
set negative_list {}
foreach negative $negatives_found {
foreach negative_subnet [ExpandSubnet $negative $maxmask] {
lappend negative_list $negative_subnet
}
}
foreach positive_sub $positive_list {
if {[lsearch -exact $negative_list $positive_sub] < 0} {
lappend retval $positive_sub
}
}
}
return $retval
}
proc ::ip::ExpandSubnet {subnet newmask} {
#set oldmask [maskToLength [maskToInt [mask $subnet]]]
set oldmask [mask $subnet]
set subnet [prefix $subnet]
set numsubnets [expr {round(pow(2, ($newmask - $oldmask)))}]
set ret {}
for {set idx 0} {$idx < $numsubnets} {incr idx} {
lappend ret "${subnet}/${newmask}"
set subnet [intToString [nextNet $subnet $newmask]]
}
return $ret
}
# Returns an IP address prefix.
# For instance:
# prefix 192.168.1.4/16 => 192.168.0.0
# prefix fec0::4/16 => fec0:0:0:0:0:0:0:0
# prefix fec0::4/ffff:: => fec0:0:0:0:0:0:0:0
#
proc ::ip::prefix {ip} {
foreach {addr mask} [SplitIp $ip] break
set version [version $addr]
set addr [Normalize $addr $version]
return [ToString [Mask$version $addr $mask]]
}
# Return the address type. For IPv4 this is one of private, reserved
# or normal
# For IPv6 it is one of site local, link local, multicast, unicast,
# unspecified or loopback.
proc ::ip::type {ip} {
set version [version $ip]
upvar [namespace current]::IPv${version}Ranges types
set ip [prefix $ip]
foreach prefix [array names types] {
set mask [mask $prefix]
if {[equal $ip/$mask $prefix]} {
return $types($prefix)
}
}
if {$version == 4} {
return "normal"
} else {
return "unicast"
}
}
proc ::ip::mask {ip} {
foreach {addr mask} [split $ip /] break
return $mask
}
# -------------------------------------------------------------------------
# Returns true is the argument can be converted into an IPv4 address.
#
proc ::ip::IPv4? {ip} {
if {[string first : $ip] >= 0} {
return 0
}
if {[catch {Normalize4 $ip}]} {
return 0
}
return 1
}
proc ::ip::IPv6? {ip} {
set octets [split $ip :]
if {[llength $octets] < 3 || [llength $octets] > 8} {
return 0
}
set ndx 0
foreach octet $octets {
incr ndx
if {[string length $octet] < 1} continue
if {[regexp {^[a-fA-F\d]{1,4}$} $octet]} continue
if {$ndx >= [llength $octets] && [IPv4? $octet]} continue
if {$ndx == 2 && [lindex $octets 0] == 2002 && [IPv4? $octet]} continue
#"Invalid IPv6 address \"$ip\""
return 0
}
if {[regexp {^:[^:]} $ip]} {
#"Invalid ipv6 address \"$ip\" (starts with :)"
return 0
}
if {[regexp {[^:]:$} $ip]} {
# "Invalid IPv6 address \"$ip\" (ends with :)"
return 0
}
if {[regsub -all :: $ip "|" junk] > 1} {
# "Invalid IPv6 address \"$ip\" (more than one :: pattern)"
return 0
}
return 1
}
proc ::ip::Mask4 {ip {bits {}}} {
if {[string length $bits] < 1} { set bits 32 }
binary scan $ip I ipx
if {[string is integer $bits]} {
set mask [expr {(0xFFFFFFFF << (32 - $bits)) & 0xFFFFFFFF}]
} else {
binary scan [Normalize4 $bits] I mask
}
return [binary format I [expr {$ipx & $mask}]]
}
proc ::ip::Mask6 {ip {bits {}}} {
if {[string length $bits] < 1} { set bits 128 }
if {[string is integer $bits]} {
set mask [binary format B128 [string repeat 1 $bits]]
} else {
binary scan [Normalize6 $bits] I4 mask
}
binary scan $ip I4 Addr
binary scan $mask I4 Mask
foreach A $Addr M $Mask {
lappend r [expr {$A & $M}]
}
return [binary format I4 $r]
}
# A network address specification is an IPv4 address with an optional bitmask
# Split an address specification into a IPv4 address and a network bitmask.
# This doesn't validate the address portion.
# If a spec with no mask is provided then the mask will be 32
# (all bits significant).
# Masks may be either integer number of significant bits or dotted-quad
# notation.
#
proc ::ip::SplitIp {spec} {
set slash [string last / $spec]
if {$slash != -1} {
incr slash -1
set ip [string range $spec 0 $slash]
incr slash 2
set bits [string range $spec $slash end]
} else {
set ip $spec
if {[string length $ip] > 0 && [version $ip] == 6} {
set bits 128
} else {
set bits 32
}
}
return [list $ip $bits]
}
# Given an IP string from the user, convert to a normalized internal rep.
# For IPv4 this is currently a hex string (0xHHHHHHHH).
# For IPv6 this is a binary string or 16 chars.
proc ::ip::Normalize {ip {version 0}} {
if {$version < 0} {
set version [version $ip]
if {$version < 0} {
return -code error "invalid address \"$ip\":\
value must be a valid IPv4 or IPv6 address"
}
}
return [Normalize$version $ip]
}
proc ::ip::Normalize4 {ip} {
set octets [split $ip .]
if {[llength $octets] > 4} {
return -code error "invalid ip address \"$ip\""
} elseif {[llength $octets] < 4} {
set octets [lrange [concat $octets 0 0 0] 0 3]
}
foreach oct $octets {
if {$oct < 0 || $oct > 255} {
return -code error "invalid ip address"
}
}
return [binary format c4 $octets]
}
proc ::ip::Normalize6 {ip} {
set octets [split $ip :]
set ip4embed [string first . $ip]
set len [llength $octets]
if {$len < 0 || $len > 8} {
return -code error "invalid address: this is not an IPv6 address"
}
set result ""
for {set n 0} {$n < $len} {incr n} {
set octet [lindex $octets $n]
if {$octet == {}} {
if {$n == 0 || $n == ($len - 1)} {
set octet \0\0
} else {
set missing [expr {9 - $len}]
if {$ip4embed != -1} {incr missing -1}
set octet [string repeat \0\0 $missing]
}
} elseif {[string first . $octet] != -1} {
set octet [Normalize4 $octet]
} else {
set m [expr {4 - [string length $octet]}]
if {$m != 0} {
set octet [string repeat 0 $m]$octet
}
set octet [binary format H4 $octet]
}
append result $octet
}
if {[string length $result] != 16} {
return -code error "invalid address: \"$ip\" is not an IPv6 address"
}
return $result
}
# This will convert a full ipv4/ipv6 in binary format into a normal
# expanded string rep.
proc ::ip::ToString {bin {Ip4inIp6 0}} {
set len [string length $bin]
set r ""
if {$len == 4} {
binary scan $bin c4 octets
foreach octet $octets {
lappend r [expr {$octet & 0xff}]
}
return [join $r .]
} elseif {$len == 16} {
if {$Ip4inIp6 == 0} {
binary scan $bin H32 hex
for {set n 0} {$n < 32} {incr n} {
append r [string range $hex $n [incr n 3]]:
}
return [string trimright $r :]
} else {
binary scan $bin H24c4 hex octets
for {set n 0} {$n < 24} {incr n} {
append r [string range $hex $n [incr n 3]]:
}
foreach octet $octets {
append r [expr {$octet & 0xff}].
}
return [string trimright $r .]
}
} else {
return -code error "invalid binary address:\
argument is neither an IPv4 nor an IPv6 address"
}
}
# -------------------------------------------------------------------------
# Load extended command set.
source [file join [file dirname [info script]] ipMore.tcl]
# -------------------------------------------------------------------------
package provide ip 1.3
# -------------------------------------------------------------------------
# Local Variables:
# indent-tabs-mode: nil
# End:
|