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|
#!/usr/bin/perl -Tw
######################################################################
#
# Copyright (C) 2020 Network RADIUS
#
# $Id$
#
######################################################################
#
# Helper script for populating IP pools with address entries.
#
# This script generates output that is useful for populating an IP pool for
# use with FreeRADIUS (and possibly other purposes). The pool may be
# implemented as an SQL IP Pool (rlm_sqlippool) or any other backing store
# that has one entry per IP address.
#
# This script output a list of address to add, retain and remove in order to
# align a pool to a specification. It is likely that you will want to
# process the output to generate the actual commands (e.g. SQL statements)
# that make changes to the datastore. For example:
#
# generate_pool_addresses.pl ... | align_sql_pools.pl postgresql
#
#
# Use with a single address range
# -------------------------------
#
# For basic use, arguments can be provided to this script that denote the ends
# of a single IP (v4 or v6) address range together with the pool_name.
#
# Optionally the number of IPs to sparsely populate the range with can be
# provided. If the range is wider than a /16 then the population of the range
# is capped at 65536 IPs, unless otherwise specified.
#
# In the case that a sparse range is defined, a file containing pre-existing
# IP entries can be provided. The range will be populated with entries from
# this file that fall within the range, prior to the remainder of the range
# being populated with random address in the range.
#
# generate_pool_addresses.pl <pool_name> <range_start> <range_end> \
# [ <capacity> [ <existing_ips_file> ] ]
#
# Note: Sparse ranges are populated using a deterministic, pseudo-random
# function. This allows pools to be trivially extended without having to
# supply the existing contents using a file. If you require
# less-predictable randomness or a different random sequence then remove
# or modify the line calling srand(), below.
#
#
# Use with multiple pools and address ranges
# ------------------------------------------
#
# For more complex us, the script allows a set of pool definitions to be
# provided in a YAML file which describes a set of one or more pools, each
# containing a set of one or more ranges. The first argument in this case is
# always "yaml":
#
# generate_pool_addresses.pl yaml <pool_defs_yaml_file> [ <existing_ips_file> ]
#
# The format for the YAML file is demonstrated by the following example:
#
# pool_with_a_single_contiguous_range:
# - start: 192.0.2.3
# end: 192.0.2.250
#
# pool_with_a_single_sparse_range:
# - start: 10.10.10.0
# end: 10.10.20.255
# capacity: 200
#
# pool_with_multiple_ranges:
# - start: 10.10.10.1
# end: 10.10.10.253
# - start: 10.10.100.0
# end: 10.10.199.255
# capacity: 1000
#
# v6_pool_with_contiguous_range:
# - start: '2001:db8:1:2:3:4:5:10'
# end: '2001:db8:1:2:3:4:5:7f'
#
# v6_pool_with_sparse_range:
# - start: '2001:db8:1:2::'
# end: '2001:db8:1:2:ffff:ffff:ffff:ffff'
# capacity: 200
#
# As with the basic use case, a file containing pre-existing IP entries can be
# provided with which any sparse ranges will be populated ahead of any random
# addresses.
#
#
# Output
# ------
#
# The script returns line-based output beginning with "+", "=" or "-", and
# includes the pool_name and an IP address.
#
# + pool_name 192.0.2.10
#
# A new address to be added to the corresponding range in the pool.
#
# = pool_name 192.0.2.20
#
# A pre-existing address that is to be retained in the pool. (Only if a
# pre-existing pool entries file is given.)
#
# - pool_name 192.0.2.30
#
# A pre-existing address that is to be removed from the corresponding
# range in the pool. (Only if a pre-existing pool entries file is given.)
#
# # main_pool: 192.0.10.3 - 192.0.12.250 (500)
#
# Lines beginning with "#" are comments
#
#
# Examples
# --------
#
# generate_pool_addresses.pl main_pool 192.0.2.3 192.0.2.249
#
# Will create a pool from a full populated IPv4 range, i.e. all IPs in the
# range available for allocation).
#
# generate_pool_addresses.pl main_pool 10.66.0.0 10.66.255.255 10000
#
# Will create a pool from a sparsely populated IPv4 range for a /16
# network (maximum of 65.536 addresses), populating the range with 10,000
# addreses. The effective size of the pool can be increased in future by
# increasing the capacity of the range with:
#
# generate_pool_addresses.pl main_pool 10.66.0.0 10.66.255.255 20000
#
# This generates the same initial set of 10,000 addresses as the previous
# example but will create 20,000 addresses overall, unless the random seed
# has been amended since the initial run.
#
# generate_pool_addresses.pl main_pool 2001:db8:1:2:: \
# 2001:db8:1:2:ffff:ffff:ffff:ffff
#
# Will create a pool from the IPv6 range 2001:db8:1:2::/64, initially
# populating the range with 65536 (by default) addresses.
#
# generate_pool_addresses.pl main_pool 2001:db8:1:2:: \
# 2001:db8:1:2:ffff:ffff:ffff:ffff \
# 10000 existing_ips.txt
#
# Will create a pool using the same range as the previous example, but
# this time the range will be populated with 10,000 addresses. The range
# will be populated using lines extracted from the `existing_ips.txt` file
# that represent IPs which fall within range.
#
# generate_pool_addresses.pl yaml pool_defs.yml existing_ips.txt
#
# Will create one of more pools using the definitions found in the
# pool_defs.yml YAML file. The pools will contain one or more ranges with
# each of the ranges first being populated with entries from the
# existing_ips.txt file that fall within the range, before being filled
# with random addresses to the defined capacity.
#
use strict;
use Net::IP qw/ip_bintoip ip_iptobin ip_bincomp ip_binadd ip_is_ipv4 ip_is_ipv6/;
my $yaml_available = 0;
eval {
require YAML::XS;
YAML::XS->import('LoadFile');
$yaml_available = 1;
};
if ($#ARGV < 2 || $#ARGV > 4) {
usage();
exit 1;
}
if ($ARGV[0] eq 'yaml') {
if ($#ARGV > 3) {
usage();
exit 1;
}
unless ($yaml_available) {
die "ERROR: YAML is not available. Install the YAML::XS Perl module.";
}
process_yaml_file();
goto done;
}
process_commandline();
done:
exit 0;
sub usage {
print STDERR <<'EOF'
Usage:
generate_pool_addresses.pl <pool_name> <range_start> <range_end> [ <capacity> [ <existing_ips_file> ] ]
or:
generate_pool_addresses.pl yaml <pool_defs_yaml_file> [ <existing_ips_file> ]
EOF
}
sub process_commandline {
$SIG{__DIE__} = sub { usage(); die(@_); };
my $pool_name = $ARGV[0];
my $range_start = $ARGV[1];
my $range_end = $ARGV[2];
my $capacity = $ARGV[3];
my @entries = ();
@entries = load_entries($ARGV[4]) if ($#ARGV >= 4);
handle_range($pool_name, $range_start, $range_end, $capacity, @entries);
}
sub process_yaml_file {
my $yaml_file = $ARGV[1];
unless (-r $yaml_file) {
die "ERROR: Cannot open <pool_defs_yaml_file> for reading: $yaml_file";
}
my %pool_defs = %{LoadFile($yaml_file)};
my @entries = ();
@entries = load_entries($ARGV[2]) if ($#ARGV >= 2);
foreach my $pool_name (sort keys %pool_defs) {
foreach my $range (@{$pool_defs{$pool_name}}) {
my $range_start = $range->{start};
my $range_end = $range->{end};
my $capacity = $range->{capacity};
handle_range($pool_name, $range_start, $range_end, $capacity, @entries);
}
}
}
sub load_entries {
my $entries_file = shift;
my @entries = ();
unless (-r $entries_file) {
die "ERROR: Cannot open <existing_ips_file> for reading: $entries_file"
}
open(my $fh, "<", $entries_file) || die "Failed to open $entries_file";
while(<$fh>) {
chomp;
push @entries, $_;
}
return @entries;
}
sub handle_range {
my $pool_name = shift;
my $range_start = shift;
my $range_end = shift;
my $capacity = shift;
my @entries = @_;
unless (ip_is_ipv4($range_start) || ip_is_ipv6($range_start)) {
die "ERROR: Incorrectly formatted IPv4/IPv6 address for range_start: $range_start";
}
unless (ip_is_ipv4($range_end) || ip_is_ipv6($range_end)) {
die "ERROR: Incorrectly formatted IPv4/IPv6 address for range_end: $range_end";
}
my $ip_start = new Net::IP($range_start);
my $ip_end = new Net::IP($range_end);
my $ip_range = new Net::IP("$range_start - $range_end");
unless (defined $ip_range) {
die "ERROR: The range defined by <range_start> - <range_end> is invalid: $range_start - $range_end";
}
my $range_size = $ip_range->size;
$capacity = $range_size < 65536 ? "$range_size" : 65536 unless defined $capacity;
if ($range_size < $capacity) {
$capacity = "$range_size";
warn "WARNING: Insufficent IPs in the range. Will create $capacity entries.";
}
# Prune the entries to only those within the specified range
for (my $i = 0; $i <= $#entries; $i++) {
my $version = ip_is_ipv4($entries[$i]) ? 4 : 6;
my $binip = ip_iptobin($entries[$i],$version);
if ($ip_start->version != $version ||
ip_bincomp($binip, 'lt', $ip_start->binip) == 1 ||
ip_bincomp($binip, 'gt', $ip_end->binip) == 1) {
$entries[$i]='';
}
}
#
# We use the sparse method if the number of entries available occupies < 80% of
# the network range, otherwise we use a method that involves walking the
# entire range.
#
srand(42); # Set the seed for the PRNG
if (length($range_size) > 9 || $capacity / "$range_size" < 0.8) { # From "BigInt" to FP
@entries = sparse_fill($pool_name, $ip_start, $ip_end, $capacity, @entries);
} else {
@entries = dense_fill($pool_name, $ip_start, $ip_end, $ip_range, $capacity, @entries);
}
print "# $pool_name: $range_start - $range_end ($capacity)\n";
print "$_\n" foreach @entries;
print "\n";
}
#
# With this sparse fill method we randomly allocate within the scope of the
# smallest enclosing network prefix, checking that we are within the given
# range, retrying if we are outside or we hit a duplicate.
#
# This method can efficiently choose a small number of addresses relative to
# the size of the range. It becomes slower as the population of a range nears
# the range's limit since it is harder to choose a free address at random.
#
# It is useful for selecting a handful of addresses from an enourmous IPv6 /64
# network for example.
#
sub sparse_fill {
my $pool_name = shift;
my $ip_start = shift;
my $ip_end = shift;
my $capacity = shift;
my @entries = @_;
# Find the smallest network that encloses the given range
my $version = $ip_start->version;
( $ip_start->binip ^ $ip_end->binip ) =~ /^\0*/;
my $net_prefix = $+[0];
my $net_bits = substr($ip_start->binip, 0, $net_prefix);
my $host_length = length($ip_start->binip) - $net_prefix;
my %ips = ();
my $i = 0;
while ($i < $capacity) {
# Use the given entries first
my $rand_ip;
my $given_lease = 0;
shift @entries while $#entries >= 0 && $entries[0] eq '';
if ($#entries >= 0) {
$rand_ip = ip_iptobin(shift @entries, $version);
$given_lease = 1;
} else {
$rand_ip = $net_bits;
$rand_ip .= [0..1]->[rand 2] for 1..$host_length;
# Check that we are inside the given range
next if ip_bincomp($rand_ip, 'lt', $ip_start->binip) == 1 ||
ip_bincomp($rand_ip, 'gt', $ip_end->binip) == 1;
}
next if defined $ips{$rand_ip};
$ips{$rand_ip} = $given_lease ? '=' : '+';
$i++;
}
# Allow the pool to be shrunk
$ips{ip_iptobin($_, $version)} = '-' foreach @entries;
return map { $ips{$_}." ".$pool_name." ".ip_bintoip($_, $version) } sort keys %ips;
}
#
# With this dense fill method, after first selecting the given entries we walk
# the network range picking IPs with evenly distributed probability.
#
# This method can efficiently choose a large number of addresses relative to
# the size of a range, provided that the range isn't massive. It becomes
# slower as the range size increases.
#
sub dense_fill {
my $pool_name = shift;
my $ip_start = shift;
my $ip_end = shift;
my $ip_range = shift;
my $capacity = shift;
my @entries = @_;
my $version = $ip_start->version;
my $one = ("0"x($version == 4 ? 31 : 127)) . '1';
my %ips = ();
my $remaining_entries = $capacity;
my $remaining_ips = $ip_range->size;
my $ipbin = $ip_start->binip;
while ($remaining_entries > 0 && (ip_bincomp($ipbin, 'le', $ip_end->binip) == 1)) {
# Use the given entries first
shift @entries while $#entries >= 0 && $entries[0] eq '';
if ($#entries >= 0) {
$ips{ip_iptobin(shift @entries, $version)} = '=';
$remaining_entries--;
$remaining_ips--;
next;
}
goto next_ip if defined $ips{$ipbin};
# Skip the IP that we have already selected by given entries, otherwise
# randomly pick it
if (!defined $ips{$ipbin} &&
(rand) <= $remaining_entries / "$remaining_ips") { # From "BigInt" to FP
$ips{$ipbin} = '+';
$remaining_entries--;
}
$remaining_ips--;
$ipbin = ip_binadd($ipbin,$one);
}
# Allow the pool to be shrunk
$ips{ip_iptobin($_, $version)} = '-' foreach @entries;
return map { $ips{$_}." ".$pool_name." ".ip_bintoip($_, $version) } sort keys %ips;
}
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