Just looked up the code for `Zend_Crypt_Math_BigInteger_Bcmath`

and `Zend_Crypt_Math_BigInteger_Gmp`

which deals with this problem:

## Using BCmath (Big-Endian)

This is essentially the solution posted by Chad Birch.

```
public static function bc_binaryToInteger($operand)
{
$result = '0';
while (strlen($operand)) {
$ord = ord(substr($operand, 0, 1));
$result = bcadd(bcmul($result, 256), $ord);
$operand = substr($operand, 1);
}
return $result;
}
```

## Using GMP (Big-Endian)

Same algorithem - just different function names.

```
public static function gmp_binaryToInteger($operand)
{
$result = '0';
while (strlen($operand)) {
$ord = ord(substr($operand, 0, 1));
$result = gmp_add(gmp_mul($result, 256), $ord);
$operand = substr($operand, 1);
}
return gmp_strval($result);
}
```

Changing the algorithem to use Litte-Endian byte-order is quite simple: just read the binary data from end to start:

## Using BCmath (Litte-Endian)

```
public static function bc_binaryToInteger($operand)
{
// Just reverse the binray data
$operand = strrev($operand);
$result = '0';
while (strlen($operand)) {
$ord = ord(substr($operand, 0, 1));
$result = bcadd(bcmul($result, 256), $ord);
$operand = substr($operand, 1);
}
return $result;
}
```

## Using GMP (Litte-Endian)

```
public static function gmp_binaryToInteger($operand)
{
// Just reverse the binray data
$operand = strrev($operand);
$result = '0';
while (strlen($operand)) {
$ord = ord(substr($operand, 0, 1));
$result = gmp_add(gmp_mul($result, 256), $ord);
$operand = substr($operand, 1);
}
return gmp_strval($result);
}
```