On Mon, Jun 26, 2017 at 10:25:14PM +0200, Johannes Berg wrote:
> On Mon, 2017-06-26 at 18:40 +0100, Al Viro wrote:
>
> > Only two of dev_ioctl() callers may pass SIOCGIFCONF to it.
> > Separating that codepath from the rest of dev_ioctl() allows both
> > to simplify dev_ioctl() itself (all other cases work with struct
> > ifreq *)
> > *and* seriously simplify the compat side of that beast: all it takes
> > is passing to inet_gifconf() an extra argument - the size of
> > individual
> > records (sizeof(struct ifreq) or sizeof(struct compat_ifreq)). With
> > dev_ifconf() called directly from sock_do_ioctl()/compat_dev_ifconf()
> > that's easy to arrange.
>
> No objection from me; however, I just introduced another special case
> (in a bugfix for a >20yo bug ...) here:
>
> https://git.kernel.org/pub/scm/linux/kernel/git/davem/net.git/commit/?id=68dd02d19c811ca8ea60220a9d73e13b4bdad73a
>
> It would perhaps make sense to also pull that out into the caller,
> which could also get rid of the stupid way the #ifdef is placed in
> sock_ioctl(). For compat, it's already pulled out anyway, even a level
> up than where you're calling it for SIOCGIFCONF - might make sense to
> put the wext stuff into compat_sock_ioctl_trans() too.
BTW, speaking of odd ioctls - e.g. SIOCGIFMETRIC does
* for AF_AX25, AF_X25, AF_IRDA, AF_NETROM, AF_ROSE: fail with -EINVAL
* everything else - store 0 in ifr->ifr_metric and succeed.
Is there anything special about that set of families or is it just a cut'n'paste
accident? SIOCGIFNETMASK:
* AF_AX25, AF_X25, AF_IRDA, AF_NETROM, AF_ROSE, AF_IPX, AF_QIPCRTR:
-EINVAL
* AF_INET: return ipv4 netmask associated with the interface in
question.
* AF_PACKET: if CONFIG_INET => as AF_INET, otherwise -ENOIOCTLCMD
* everything else: -ENOTTY, as far as I can tell
Again, what makes ax25 different from e.g. decnet? netmask makes no sense for
either, and AFAICS in exact same way. And the set of -EINVAL ones is similar,
but not identical to SIOCGIFMETRIC case...
And then there's SIOCGSTAMP and friends; AFAICS, they are identical for
everything
that implements them, modulo differences in locking. The set of those who have
those also looks fairly random...
