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-rw-r--r--config/pfblockerng/pfblockerng.inc99
1 files changed, 97 insertions, 2 deletions
diff --git a/config/pfblockerng/pfblockerng.inc b/config/pfblockerng/pfblockerng.inc
index bc2ccfe1..86052f6b 100644
--- a/config/pfblockerng/pfblockerng.inc
+++ b/config/pfblockerng/pfblockerng.inc
@@ -240,6 +240,101 @@ function pfb_create_suppression_file() {
}
+// IPv6 Range to CIDR function used courtesey from:
+// https://github.com/stilez/pfsense-leases/blob/50cc0fa81dba5fe91bcddaea016c245d1b8479cc/etc/inc/util.inc
+function ip_range_to_subnet_array_temp2($ip1, $ip2) {
+
+ if (is_ipaddrv4($ip1) && is_ipaddrv4($ip2)) {
+ $proto = 'ipv4'; // for clarity
+ $bits = 32;
+ $ip1bin = decbin(ip2long32($ip1));
+ $ip2bin = decbin(ip2long32($ip2));
+ } elseif (is_ipaddrv6($ip1) && is_ipaddrv6($ip2)) {
+ $proto = 'ipv6';
+ $bits = 128;
+ $ip1bin = Net_IPv6::_ip2Bin($ip1);
+ $ip2bin = Net_IPv6::_ip2Bin($ip2);
+ } else
+ return array();
+
+ // it's *crucial* that binary strings are guaranteed the expected length; do this for certainty even though for IPv6 it's redundant
+ $ip1bin = str_pad($ip1bin, $bits, '0', STR_PAD_LEFT);
+ $ip2bin = str_pad($ip2bin, $bits, '0', STR_PAD_LEFT);
+
+ if ($ip1bin === $ip2bin)
+ return array($ip1 . '/' . $bits);
+
+ if (strcmp($ip1bin, $ip2bin) > 0)
+ list ($ip1bin, $ip2bin) = array($ip2bin, $ip1bin); // swap contents of ip1 <= ip2
+
+ $rangesubnets = array();
+ $netsize = 0;
+
+ do {
+ // at loop start, $ip1 is guaranteed strictly less than $ip2 (important for edge case trapping and preventing accidental binary wrapround)
+ // which means the assignments $ip1 += 1 and $ip2 -= 1 will always be "binary-wrapround-safe"
+
+ // step #1 if start ip (as shifted) ends in any '1's, then it must have a single cidr to itself (any cidr would include the '0' below it)
+
+ if (substr($ip1bin, -1, 1) == '1') {
+ // the start ip must be in a separate one-IP cidr range
+ $new_subnet_ip = substr($ip1bin, $netsize, $bits - $netsize) . str_repeat('0', $netsize);
+ $rangesubnets[$new_subnet_ip] = $bits - $netsize;
+ $n = strrpos($ip1bin, '0'); //can't be all 1's
+ $ip1bin = ($n == 0 ? '' : substr($ip1bin, 0, $n)) . '1' . str_repeat('0', $bits - $n - 1); // BINARY VERSION OF $ip1 += 1
+ }
+
+ // step #2, if end ip (as shifted) ends in any zeros then that must have a cidr to itself (as cidr cant span the 1->0 gap)
+
+ if (substr($ip2bin, -1, 1) == '0') {
+ // the end ip must be in a separate one-IP cidr range
+ $new_subnet_ip = substr($ip2bin, $netsize, $bits - $netsize) . str_repeat('0', $netsize);
+ $rangesubnets[$new_subnet_ip] = $bits - $netsize;
+ $n = strrpos($ip2bin, '1'); //can't be all 0's
+ $ip2bin = ($n == 0 ? '' : substr($ip2bin, 0, $n)) . '0' . str_repeat('1', $bits - $n - 1); // BINARY VERSION OF $ip2 -= 1
+ // already checked for the edge case where end = start+1 and start ends in 0x1, above, so it's safe
+ }
+
+ // this is the only edge case arising from increment/decrement.
+ // it happens if the range at start of loop is exactly 2 adjacent ips, that spanned the 1->0 gap. (we will have enumerated both by now)
+
+ if (strcmp($ip2bin, $ip1bin) < 0)
+ continue;
+
+ // step #3 the start and end ip MUST now end in '0's and '1's respectively
+ // so we have a non-trivial range AND the last N bits are no longer important for CIDR purposes.
+
+ $shift = $bits - max(strrpos($ip1bin, '0'), strrpos($ip2bin, '1')); // num of low bits which are '0' in ip1 and '1' in ip2
+ $ip1bin = str_repeat('0', $shift) . substr($ip1bin, 0, $bits - $shift);
+ $ip2bin = str_repeat('0', $shift) . substr($ip2bin, 0, $bits - $shift);
+ $netsize += $shift;
+ if ($ip1bin === $ip2bin) {
+ // we're done.
+ $new_subnet_ip = substr($ip1bin, $netsize, $bits - $netsize) . str_repeat('0', $netsize);
+ $rangesubnets[$new_subnet_ip] = $bits - $netsize;
+ continue;
+ }
+
+ // at this point there's still a remaining range, and either startip ends with '1', or endip ends with '0'. So repeat cycle.
+ } while (strcmp($ip1bin, $ip2bin) < 0);
+
+ // subnets are ordered by bit size. Re sort by IP ("naturally") and convert back to IPv4/IPv6
+
+ ksort($rangesubnets, SORT_STRING);
+ $out = array();
+
+ foreach ($rangesubnets as $ip => $netmask) {
+ if ($proto == 'ipv4') {
+ $i = str_split($ip, 8);
+ $out[] = implode('.', array( bindec($i[0]),bindec($i[1]),bindec($i[2]),bindec($i[3]))) . '/' . $netmask;
+ } else
+ $out[] = Net_IPv6::compress(Net_IPv6::_bin2Ip($ip)) . '/' . $netmask;
+ }
+
+ return $out;
+}
+
+
# Main pfBlockerNG Function
function sync_package_pfblockerng($cron = "") {
@@ -1280,7 +1375,7 @@ function sync_package_pfblockerng($cron = "") {
foreach ($url_list as $line) {
# Network range 192.168.0.0-192.168.0.254
if (preg_match($pfb['range'],$line,$matches)) {
- $a_cidr = ip_range_to_subnet_array($matches[1],$matches[2]);
+ $a_cidr = ip_range_to_subnet_array_temp2($matches[1],$matches[2]);
if (!empty($a_cidr)) {
foreach ($a_cidr as $cidr) {
$new_file .= preg_replace($pfb_ipreg,'',$cidr) . "\n";
@@ -1498,7 +1593,7 @@ function sync_package_pfblockerng($cron = "") {
}
# Network range 192.168.0.0-192.168.0.254
elseif (preg_match($pfb['range'],$line,$matches)) {
- $a_cidr = ip_range_to_subnet_array($matches[1],$matches[2]);
+ $a_cidr = ip_range_to_subnet_array_temp2($matches[1],$matches[2]);
if (!empty($a_cidr)) {
foreach ($a_cidr as $cidr) {
$new_file .= preg_replace($pfb_ipreg, '',$cidr) . "\n";