Your program is, as it says, calculating the CRC for the string
34 38 35), which is the decimal string representation for the number
0x1E5. Meanwhile the web site is calculating the CRC for the bytes
01 e5. I can't tell which one, if either, you want.
What is definitely true is that the web site isn't calculating any sort of CRC32, because its results aren't 32-bits long and seem to depend on the size of the polynomial you specify.
Also, if you use
type => 'crc32' it will ignore all the other parameters and simply calculate a standard CRC32.
If you want a 32-bit CRC with a polynomial of 0x2D then you can try
my $ctx = Digest::CRC->new(width => 32, poly => 0x2D);
but there are several other things you need to define to specify a CRC, including (but not limited to) bit and byte order, initial value and end xor value, and there is no way of telling whether this will give you the correct checksum without seeing the full specification.
Surely you have a document that says something more than "CRC32, polynomial 0x2d"?
How can I use the
Digest::CRC to treat the data as hex bytes and not as a string?
Digest::CRC only processes strings and you need to pack your data that way. In this case you probably want
my $string = "\x01\xe5"
In addition, what is the "end xor value"?
end xor value is simply a bit pattern that is XORed with the result as the last step to get the final CRC.
In addition If I understood you correctly, the following 2 methods should give the same result:
my $ctx1 = Digest::CRC->new(type => "crc32");
my $rr1 = $ctx1->add(pack 'H*', '1e5')->hexdigest;
my $ctx2 = Digest::CRC->new(width => 32, poly => 0x04c11db7);
my $rr2 = $ctx2->add(pack 'H*', '1e5')->hexdigest;
However I get different results:
Can you tell me where is my mistake?
- As I said, there are many specifiers for a CRC. That is why you must establish the full specification of the CRC that you need, including more than just the width and the polynomial. To explicitly produce a CRC32 checksum you would need this
my $ctx = Digest::CRC->new(width => 32, poly => 0x04c11db7, init => 0xFFFFFFFF, xorout => 0xFFFFFFFF, refin => 1, refout => 1);
This applies initial and final values of
0xFFFFFFFF and sets
refout to true. This reverses the bit order (ref is short for reflect) both before and after processing, and is the difference between MSB first and LSB first.