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I have to compare two IPv6 addresses and their masks to see if they are the same. They are both in strings, such as "xxxx:xxxx:xxxx:xxxx/xx". I would just use memcmp to compare them bit by bit, however this may return false when true, due to the fact that xxxx:xxxx:0000:xxxx/xx and xxxx:xxxxx::xxxxx/xx are technically the same address.

I would prefer not to create substrings of the addresses and masks, but I will if there's a function that compares two IPv6 addresses. Any suggestions? :)

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4 Answers 4

up vote 5 down vote accepted

You should convert both addressed to binary form using inet_pton and then compare the binary forms (which are just 16 bytes of data you can compare with memcmp).

If you need to compare masked addresses then you will have to do a little more work. inet_pton will not parse prefix lengths ("/something") for you so you will have to:

  1. Find the slash
  2. Pass the part before the slash to inet_pton
  3. Parse the integer after the slash with plain ol' atoi
  4. Manually zero out 128 minus that number of bits at the end of the binary form of the address

...on each address before comparing them.

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Thanks! I think I'll take this approach. –  user1553248 Jul 31 '12 at 0:57
@user1553248: hint: if you use this solution then mark the answer as accepted ;-) See meta.stackexchange.com/questions/5234/… –  Sander Steffann Jul 31 '12 at 10:08
Why is the fourth step needed? Once I have the addresses in binary form, shouldn't I already be able to call memcmp to test if their equal? –  user1553248 Aug 1 '12 at 20:58
In your question you implied that you wanted to consider prefix lengths in the matching, so that for example ::1234:5678:9abc/128 and ::1234:5678:def0/128 would be unequal (compares all 128 bits) whereas ::1234:5678:9abc/112 and ::1234:5678:def0/112 would be equal (because of the /112 prefix length, the last 16 bits don't count). To achieve that, you have to zero out the bits that don't count. –  Celada Aug 1 '12 at 22:34
How to do 4th step? Can not do bit shift on in6_addr ? –  AJ. Apr 12 at 11:50

As usual, do not reinvent the wheel. The excellent libcidr library does what you want and more. http://www.over-yonder.net/~fullermd/projects/libcidr

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Cool!, somehow no amount of search from any search engine pointed me to libcidr!!, thanks for making a reference. –  vyom Nov 23 '13 at 17:07

I would still suggest using substrings since they are fairly easy to extract. Then, you could overload string's equals() function to return true when comparing "0000" and "", and any other corner cases you might run into.

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There are way too many cases for this to be a viable option: 0, 00, 000, and 0000 are all equal, :: collapses any number of 16-bit groups of zero bits and it may be located differently in each address, there's uppercase and lowercase hex digits, addresses like ::ffff: which is the same as ::ffff:102:304, and more. –  Celada Jul 31 '12 at 0:58
Good point. You should go with Celada's method. –  sebo Jul 31 '12 at 1:01

You can also pass both addresses through a function which would convert them to the same format. After that you can compare them as strings.

The function example:

string Ip6(const string& data) {
    struct in6_addr ip6;
    if (inet_pton(AF_INET6, data.c_str(), &ip6) != 1)
        throw str::runtime_error("bad ivp6 address");

    char buf[INET6_ADDRSTRLEN];
    return inet_ntop(AF_INET6, &ip6, buf, sizeof(buf));
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