On Thu, May 15, 2014 at 10:07:17PM +0100, One Thousand Gnomes wrote:
> True sort of for the kernel (except you've got problems with file system
> compatibility and I believe stuff like NFS and that fact some file
> systems just break).
modern filesystems including NFS don't use anything that corresponds to
a time_t on disk or on the wire, so we'd just need to adjust the few
places the conert time representations.
> > The main advantage that I see with 64-bit time_t is that a lot of user
> > space already works with it, because NetBSD and OpenBSD use this, and
> > all 64-bit Linux systems already work with this without changing the ABI.
> > If we want a POSIX extension to cover a new ABI, this would be the most
> > likely candidate.
>
> The main advantage IMHO of just using 64bit on 32bit boxes is getting it
> right. I'd go so far as to consider changing userspace time_t to be a
> struct. Yes it'll break lots of code but at least you'll know about it.
I think we're attacking that from the wrong angle. We'll need to work
with the glibc and other libc folks to what can be implemented as the
library API/ABI and then ensure the kernel provides proper support for
it.
Chaning the size of time_t in the library seems like the only feasible
approach that keeps existing programs compatible. If we support this
with a time64_, a shifted epoch or structures at the kernel ABI is a
question of balaning what libc needs and what we can use efficiently
internally.
> > As mentioned earlier, between kernel and user space it's probably best
> > to avoid time_t and timeval completely and just use timespec64 or some
> > other safe type, but there has to be a way to port user space that relies
> > on time_t or timespec.
>
> This I think is bang on. We've already got lots of cases where we can't
> shoehorn useful info into syscalls due to time_t, including stuff like
> exposing accurate stamps in stat(). On an 8MHz 68000 not much happened in
> the same second, on a 32 core x86 it's a bit different.
The stat(64) syscall already has stopped time_t for a long time:
struct stat64 {
...
int st_atime; /* Time of last access. */
unsigned int st_atime_nsec;
int st_mtime; /* Time of last modification. */
unsigned int st_mtime_nsec;
int st_ctime; /* Time of last status change. */
unsigned int st_ctime_nsec;
};
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