# inet_aton converts 010.000.000.001 wrong?

I am having problem with `inet_aton` to convert a network address. The code below works fine to convert the address `10.0.0.1`

``````char *x1;
printf("x1=%s\n",x1);
``````

It outputs:

``````si_other.sin_addr =16777226
x1=10.0.0.01
``````

No problem so far. However, the function works weird when `010.000.000.001` is passed

``````char *x2;
printf("x2=%s\n",x2);
``````

outputs:

``````si_other.sin_addr2 =16777224
x2=8.0.0.01
``````

The function works fine when `192.168.0.1` and `192.168.000.001` are passed.

Can anyone explain me what is the problem and how I can fix the problem? (note: I need to pass the IP address as `010.000.000.001` in my code)

-
If you can't normalize your dotted-decimal addresses to the standard variable-width notation, you'll have to write your own function approximately equivalent to `inet_aton` that handles non-standard fixed width, leading-zero padded IPv4 addresses. Have fun! –  Jonathan Leffler Jan 6 '13 at 22:37

The leading 0 is being interpreted as indicating the number is octal. 010 (oct) == 8 (dec). You need to modify the input to `inet_aton` to avoid this, or convert it yourself in a different way.

``````const char *str = "010.000.000.001";
inet_aton(str[0] == '0' ? str+1:str, &si_other.sin_addr);
``````

Is the simplest solution, but it would be better to fix whatever (`snprintf`?) produces the string in the first place to avoid the confusion.

(As it stands that solution won't work with a number of edge cases still, including "001.0.0.1", "0xF.0.0.1", "1" and many more valid IPv4 addressees).

You can trivially "normalise" your input using `sscanf`, even if you can't control how it gets generated in the first place (although that really ought to be a bug whever it came from in my view):

``````#include <stdio.h>
#include <stdlib.h>

int main() {
const char *str="010.020.030.040";
int parts[4];
sscanf(str, "%d.%d.%d.%d", parts+0, parts+1, parts+2, parts+3);
char *out = NULL;
asprintf(&out, "%d.%d.%d.%d", parts[0], parts[1], parts[2], parts[3]);
printf("%s\n", out);
free(out);
return 0;
}
``````
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What would that yield on `010.020.030.040`? Clearly, the first field would be `10` (decimal), but what about the others? –  Jonathan Leffler Jan 6 '13 at 22:38
@JonathanLeffler still wouldn't fix that case. –  Flexo Jan 6 '13 at 22:41
The correct solution would be to left-trim the 0's from all octets. +1 nevertheless. –  jweyrich Jan 6 '13 at 22:41
Sven also said that `090` and `070` are also producing `8`, but `090` octal is not valid, and `070` octal is `56` decimal. –  Remy Lebeau Jan 6 '13 at 22:42
@jweyrich: in this particular case, yes trim the leading zeros. But what if you actually want to convert a string with octals in it? The zeros are then needed. –  Remy Lebeau Jan 6 '13 at 22:44