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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;
struct sockaddr_in si_other;
inet_aton("10.0.0.1", &si_other.sin_addr);
printf("si_other.sin_addr =%lu\n",si_other.sin_addr);
x1 = inet_ntoa(si_other.sin_addr);
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;
struct sockaddr_in si_other2;
inet_aton("010.000.000.001", &si_other2.sin_addr);
printf("si_other2.sin_addr =%lu\n",si_other2.sin_addr);
x2 = inet_ntoa(si_other2.sin_addr);
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)

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2  
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

1 Answer 1

up vote 10 down vote accepted

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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2  
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
3  
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

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