is the highest acceptable value for the ending of the resource being
allocated. One could also believe that it is the highest starting
value of the resource. The code definitely expects the former, but I
could find no documentation of this apart from TFSC.
instead of failing.
When looking for a region to allocate, we used to check to see if the
start address was < end. In the case where A..B is allocated already,
and one wants to allocate A..C (B < C), then this test would
improperly fail (which means we'd examine that region as a possible
one), and we'd return the region B+1..C+(B-A+1) rather than NULL.
Since C+(B-A+1) is necessarily larger than C (end argument), this is
incorrect behavior for rman_reserve_resource_bound().
The fix is to exclude those regions where r->r_start + count - 1 > end
rather than r->r_start > end. This bug has been in this code for a
very long time. I believe that all other tests against end are
correctly done.
This is why sio0 generated a message about interrupts not being
enabled properly for the device. When fdc had a bug that allocated
from 0x3f7 to 0x3fb, sio0 was then given 0x3fc-0x404 rather than the
0x3f8-0x3ff that it wanted. Now when fdc has the same bug, sio0 fails
to allocate its ports, which is the proper behavior. Since the probe
failed, we never saw the messed up resources reported.
I suspect that there are other places in the tree that have weird
looping or other odd work arounds to try to cope with the observed
weirdness this bug can introduce. These workarounds should be located
and eliminated.
Minor debug write fix to match the above test done as well.
'nice' by: mdodd
Sponsored by: timing solutions (http://www.timing.com/)
I think all we really need is -fno-sse2.
I really don't like cluttering up the compiler invocation,
but this bigger hammer will fix reported problems for now.
to mistakes from day 1, it has always had semantics inconsistent with
SVR4 and its successors. In particular, given argument M:
- On Solaris and FreeBSD/{alpha,sparc64}, it clobbers the old flags
and *sets* the new flag word to M. (NetBSD, too?)
- On FreeBSD/{amd64,i386}, it *clears* the flags that are specified in M
and leaves the remaining flags unchanged (modulo a small bug on amd64.)
- On FreeBSD/ia64, it is not implemented.
There is no way to fix fpsetsticky() to DTRT for both old FreeBSD apps
and apps ported from other operating systems, so the best approach
seems to be to kill the function and fix any apps that break. I
couldn't find any ports that use it, and any such ports would already
be broken on FreeBSD/ia64 and Linux anyway.
By the way, the routine has always been undocumented in FreeBSD,
except for an MLINK to a manpage that doesn't describe it. This
manpage has stated since 5.3-RELEASE that the functions it describes
are deprecated, so that must mean that functions that it is *supposed*
to describe but doesn't are even *more* deprecated. ;-)
Note that fpresetsticky() has been retained on FreeBSD/i386. As far
as I can tell, no other operating systems or ports of FreeBSD
implement it, so there's nothing for it to be inconsistent with.
PR: 75862
Suggested by: bde
Rename result variable so common code becomes more visible.
Rename freePtr to freeResult to make clear what pointer must be freed.
Patch: 7.116, 7.116a
Submitted by: Max Okumoto <okumoto@ucsd.edu>
- Move VSHOULDBUSY, VSHOULDFREE, and VTRYRECYCLE into vfs_subr.c so
no one else attempts to grow a dependency on them.
- Now that objects with pages hold the vnode we don't have to do unlocked
checks for the page count in the vm object in VSHOULDFREE. These three
macros could simply check for holdcnt state transitions to determine
whether the vnode is on the free list already, but the extra safety
the flag affords us is probably worth the minimal cost.
- The leafonly sysctl and code have been dead for several years now,
remove the sysctl and the code that employed it from vtryrecycle().
- vtryrecycle() also no longer has to check the object's page count as
the object holds the vnode until it reaches 0.
Sponsored by: Isilon Systems, Inc.
the loop. Add a comment why the 'consumed' variable is updated.
Rename lengthPtr to consumed.
Patch: 7.115
Submitted by: Max Okumoto <okumoto@ucsd.edu>
It turns out that some ports use the obscure feature of spreading
a dependency block across multiple include files. While this seems
bad style, allow it for now and call said function only at end of
all input to process the really last line of everything.
is inserted.
- In vm_page_remove() drop the backing vnode when the last page
is removed.
- Don't check the vnode to see if it must be reclaimed on every
call to vm_page_free_toq() as we only check it now when it is
actually required. This saves us two lock operations per call.
Sponsored by: Isilon Systems, Inc.
that they set v->v_vnlock. This is true for all filesystems in the
tree.
- Remove all uses of LK_THISLAYER. If the lower layer is locked, the
null layer is locked. We only use vget() to get a reference now.
null essentially does no locking. This fixes LOOKUP_SHARED with
nullfs.
- Remove the special LK_DRAIN considerations, I do not believe this is
needed now as LK_DRAIN doesn't destroy the lower vnode's lock, and
it's hardly used anymore.
- Add one well commented hack to prevent the lowervp from going away
while we're in it's VOP_LOCK routine. This can only happen if we're
forcibly unmounted while some callers are waiting in the lock. In
this case the lowervp could be recycled after we drop our last ref
in null_reclaim(). Prevent this with a vhold().
that we free that resource. All the other resources are freed in
their own routine, but since we haven't saved a pointer to this one,
it is leaked. This is the failure case that lead to the sio ports
that weren't working, I think.