Assuming you have two file names, then you don't want to use the
link() system call. If for some reason you do want to link the files, you need to worry about it return value (which will be an error if the second file already exists; you have to
unlink() the new file name first). Once the files are linked, they are two references to the same inode and inevitably have the same access time.
You then need to decide whether you want the first file to have the modification time of the second file or vice versa, or whether you want them both to have the same other access time (such as now, or some time in the past - or future!).
Assuming you want the second file's access time to be the same as the first file's access time (but the modification time of the second file to be unchanged), then you need to:
- Collect the times of the first file.
- Collect the times of the second file.
- Create an appropriate
struct utimbuf structure.
Alternatively, for steps 3 and 4, you create an appropriate array of
struct timeval, and use
I'm intrigued (even puzzled) to see that the
struct stat in POSIX 2008 has no members
st_ctime (of type
time_t) any more: instead, it has
st_ctim of type
struct timeval. These allow for sub-second resolution on the timestamps. I strongly suspect that the older members are typically present for reasons of backwards compatibility, if nothing else.
I am going to assume
utime() (and no linking). This leads to revised code:
int myLink(const char *oldfile, const char *newfile)
struct stat buf1;
struct stat buf2;
if (stat(oldfile, &buf1) != 0)
if (stat(newfile, &buf2) != 0)
struct utimbuf puttime;
puttime.modtime = buf2.st_mtime;
puttime.acttime = buf1.st_atime;
return utime(newfile, &puttime);
If you want diagnostic printing, you can easily add it. In general, library functions should not exit the program; it makes them unusable. Diagnostic printing is also problematic - maybe you should not be writing to
stderr, for example.