s doesn't stand for "safe" in this case, it stands for "security enhanced". For
fopen_s, the parameters are checked for validity before attempting to open the file.
fopen, you can pass a NULL pointer for the filename and everything will most likely fall to pieces.
fopen_s doesn't have that problem (a).
Keep in mind that these bounds checking interfaces like
fopen_s are an optional part of the ISO standard, detailed in Annex K (as at C11, anyway). Implementations are not required to provide them and, to be honest,
fopen, and many other so-called unsafe functions, are perfectly safe if you know what you're doing as a coder.
It's interesting to note that
fopen_s will trap NULL pointers for you but not invalid pointers, hence why it's security enhanced rather than safe - you can still cause some damage if you pass an invalid but non-NULL pointer.
Other "safe" functions which force you to provide destination buffer sizes are also safe only as long as you pass the right size. Pass something too big and all bets are off.
C11 K.220.127.116.11 The fopen_s function:
errno_t fopen_s (
FILE * restrict * restrict streamptr,
const char * restrict filename,
const char * restrict mode);
None of streamptr, filename, or mode shall be a null pointer.
If there is a runtime-constraint violation, fopen_s does not attempt to open a file. Furthermore, if streamptr is not a null pointer, fopen_s sets *streamptr to the null pointer.
Contrast that with
C11 18.104.22.168 The fopen function which states that the filename and mode must both point to a string but don't specify what happens if you provide a NULL pointer (most implementations would likely crash with a null pointer dereference).