ANOTHER PERSPECTIVE
Hello. You can check if an address is blocked or not, via accessing two bytes in two data chunks each 8KB long. Yes, I am serious... Please be patient because it takes a little bit long to explain it.
THE THEORY
An IP address is an address, actually a 4 byte number.
The question is, what if we make it to address bit positions?.
The answer: Well ok, we will have
2^32 = 4 Giga Bits
of addressing space and that will take
4Gb/8 = 512 Mega Bytes
of allocation. Ouch! But do not worry, we are not going to block everything in the ipverse and 512MB is an exaggeration.
This can open us a path to the solution.
The Lilliputian Case
Think of a Lilliputian world which there exists only ip addresses from 0 to 65535. So addresses are like 0.1 or 42.42 up to 255.255.
Now King of this world wants to block several L-IP (lilliput ip) addresses.
First he builds a virtual 2D bit map which is 256 * 256 bits long that takes up :
64 K Bits = 8 K Bytes.
He decides to block that nasty "revolution" site which he hates because he is the king, the address is 56.28 for instance.
Address = (56 * 256) + 28 = 14364.(bit position in whole map)
Byte in map = floor(14364 / 8) = 1795.
Bit position= 14364 % 8 = 4.(modulus)
He opens the map file, accesses 1795th byte and sets the bit 4 (by an | 16), then writes it back to mark the site as blocked.
When his script sees the 56.28, it does the same calculation and looks at the bit, and if it is set, blocks the address.
Now what is the moral of the story? Well we can use this lilliputian structure.
THE PRACTICE
The Real World Case
We can apply the Lilliputian case to real world with a "use it when you need" approach since allocating a 512MB file is not a good choice.
Think of a database table named BLOCKS with entries like that:
IpHead(key): unsigned 16 bit integer,
Map : 8KB BLOB(fixed size),
EntryCount : unsigned 16 bit integer.
And another table with just one entry with the structure below named BASE
Map : 8KB BLOB(fixed size).
Now lets say you have an incoming address 56.28.10.2
Script accesses BASE table and gets the Map.
It looks up the higher order IP numbers 56.28:
Address = (56 * 256) + 28 = 14364.(bit position in whole map)
Byte in map = floor(14364 / 8) = 1795.
Bit position= 14364 % 8 = 4.(modulus)
Looks at byte 1795 bit 4 in the Map.
If bit is not set no further operation is needed meaning there is no blocked ip address in range 56.28.0.0 - 56.28.255.255 .
If bit is set then the script accesses the BLOCKS table.
The higher order IP numbers were 56.28 which gives 14364 so the script queries the BLOCKS table with index IpHead = 14364. Fetches the record. The record should exist since it is marked at BASE.
Script does the calculation for lower order IP address
Address = (10 * 256) + 2 = 2562.(bit position in whole map)
Byte in map = floor(2562 / 8) = 320.
Bit position= 2562 % 8 = 2.(modulus)
Then it checks if address is blocked by looking at bit 2 of byte 320 of field Map.
Job done!
Q1: Why do we use BASE at all, we could directly query BLOCKS with 14364.
A1: Yes we could but BASE map lookup will be faster then BTREE search of any database server.
Q2: What is the EntryCount field in BLOCKS table for?
A2: It is the count of ip addresses blocked in the map field at the same record.
So if we unblock ip's and EntryCount reaches 0 that BLOCKS record becomes
unnecessary. It can be erased and the corresponding bit on BASE map will be unset.
IMHO this approach will be lightning fast. Also for the blob allocation is 8K per record. Since db servers keep blobs in seperate files, file systems with 4K, 8K or multiples of 4K paging will react fast.
In case blocked addresses are too dispersed
Well that is a concern, which will make the database BLOCKS table to grow unnecessarily.
But for such cases the alternative is to use a 256*256*256 bit cube which is 16777216 bits long, equaling to 2097152 bytes = 2MB.
For our previous example Higher Ip resolving is :
(56 * 65536)+(28 * 256)+10
So BASE will become a 2MB file instead of a db table record, which will be opened (fopen etc.) and bit will be addressed via seeking (like fseek, never read whole file contents, unnecessary) then access the BLOCKS table with structure below:
IpHead(key): unsigned 32 bit integer, (only 24 bit is used)
Map : 32 unsigned 8 bit integers(char maybe),(256 bit fixed)
EntryCount : unsigned 8 bit integer.
Here is the php example code for block checking of bitplane-bitplane (8K 8K) version:
Side Note: This script can be optimized further via elimination of several calls etc..
But written like this for keeping it easy to understand.
<?
define('BLOCK_ON_ERROR', true); // WARNING if true errors block everyone
$shost = 'hosturl';
$suser = 'username';
$spass = 'password';
$sdbip = 'database';
$slink = null;
$slink = mysqli_connect($shost, $suser, $spass, $sdbip);
if (! $slink) {
$blocked = BLOCK_ON_ERROR;
} else {
$blocked = isBlocked();
mysqli_close($slink); // clean, tidy...
}
if ($blocked) {
// do what ever you want when blocked
} else {
// do what ever you want when not blocked
}
exit(0);
function getUserIp() {
$st = array(
'HTTP_CLIENT_IP',
'REMOTE_ADDR',
'HTTP_X_FORWARDED_FOR'
);
foreach ( $st as $v )
if (! empty($_SERVER[$v]))
return ($_SERVER[$v]);
return ("");
}
function ipToArray($ip) {
$ip = explode('.', $ip);
foreach ( $ip as $k => $v )
$ip[$k] = intval($v);
return ($ip);
}
function calculateBitPos($IpH, $IpL) {
$BitAdr = ($IpH * 256) + $IpL;
$BytAdr = floor($BitAdr / 8);
$BitOfs = $BitAdr % 8;
$BitMask = 1;
$BitMask = $BitMask << $BitOfs;
return (array(
'bytePos' => $BytAdr,
'bitMask' => $BitMask
));
}
function getBaseMap($link) {
$q = 'SELECT * FROM BASE WHERE id = 0';
$r = mysqli_query($link, $q);
if (! $r)
return (null);
$m = mysqli_fetch_assoc($r);
mysqli_free_result($r);
return ($m['map']);
}
function getBlocksMap($link, $IpHead) {
$q = "SELECT * FROM BLOCKS WHERE IpHead = $IpHead";
$r = mysqli_query($link, $q);
if (! $r)
return (null);
$m = mysqli_fetch_assoc($r);
mysqli_free_result($r);
return ($m['map']);
}
function isBlocked() {
global $slink;
$ip = getUserIp();
if($ip == "")
return (BLOCK_ON_ERROR);
$ip = ipToArray($ip);
// here you can embed preliminary checks like ip[0] = 10 exit(0)
// for unblocking or blocking address range 10 or 192 or 127 etc....
// Look at base table base record.
// map is a php string, which in fact is a good byte array
$map = getBaseMap($slink);
if (! $map)
return (BLOCK_ON_ERROR);
$p = calculateBitPos($ip[0], $ip[1]);
$c = ord($map[$p['bytePos']]);
if (($c & $p['bitMask']) == 0)
return (false); // No address blocked
// Look at blocks table related record
$map = getBlocksMap($slink, $p[0]);
if (! $map)
return (BLOCK_ON_ERROR);
$p = calculateBitPos($ip[2], $ip[3]);
$c = ord($map[$p['bytePos']]);
return (($c & $p['bitMask']) != 0);
}
?>
I hope this helps.
If you have questions on the details, I will be happy to answer.