appeared to rely on all kinds of non-guaranteed behaviours: the
transfer abort code assumed that TDs with no interrupt timeout
configured would end up on the done queue within 20ms, the done
queue processing assumed that all TDs from a transfer would appear
at the same time, and there were access-after-free bugs triggered
on failed transfers.
Attempt to fix these problems by the following changes:
- Use a maximum (6-frame) interrupt delay instead of no interrupt
delay to ensure that the 20ms wait in ohci_abort_xfer() is enough
for the TDs to have been taken off the hardware done queue.
- Defer cancellation of timeouts and freeing of TDs until we either
hit an error or reach the final TD.
- Remove TDs from the done queue before freeing them so that it
is safe to continue traversing the done queue.
This appears to fix a hang that was reproducable with revision 1.67
or 1.68 of ulpt.c (earlier revisions had a different transfer
pattern). With certain HP printers, the command "true > /dev/ulpt0"
would cause ohci_add_done() to spin because the done queue had a
loop. The list corruption was caused by a 3-TD transfer where the
first TD completed but remained on the internal host controller
done queue because it had no interrupt timeout. When the transfer
timed out, the TD got freed and reused, so it caused a loop in the
done queue when it was inserted a second time from a different
transfer.
Reported by: Alex Pivovarov
MFC after: 1 week
refers to and add extra '#' comment characters at the beginning of two
lines that started with TABs, to avoid warnings like:
"/etc/make.conf", line 128: Unassociated shell command "# If set, you might need to adopt your"
"/etc/make.conf", line 129: Unassociated shell command "# nsswitch.conf(5) and remove `nis' entries."
PR: misc/89423
Submitted by: Scot W. Hetzel
libarchive doesn't make malloc(0) requests, so the autoconf
checks aren't needed and the autoconf workarounds for
broken malloc(0) just create problems.
Thanks to: Dan Nelson, who reports that this fixes libarchive on AIX 5.2
application wishes to request high precision time stamps be returned:
Alias Existing
CLOCK_REALTIME_PRECISE CLOCK_REALTIME
CLOCK_MONOTONIC_PRECISE CLOCK_MONOTONIC
CLOCK_UPTIME_PRECISE CLOCK_UPTIME
Add experimental low-precision clockid_t names corresponding to these
clocks, but implemented using cached timestamps in kernel rather than
a full time counter query. This offers a minimum update rate of 1/HZ,
but in practice will often be more frequent due to the frequency of
time stamping in the kernel:
New clockid_t name Approximates existing clockid_t
CLOCK_REALTIME_FAST CLOCK_REALTIME
CLOCK_MONOTONIC_FAST CLOCK_MONOTONIC
CLOCK_UPTIME_FAST CLOCK_UPTIME
Add one additional new clockid_t, CLOCK_SECOND, which returns the
current second without performing a full time counter query or cache
lookup overhead to make sure the cached timestamp is stable. This is
intended to support very low granularity consumers, such as time(3).
The names, visibility, and implementation of the above are subject
to change, and will not be MFC'd any time soon. The goal is to
expose lower quality time measurement to applications willing to
sacrifice accuracy in performance critical paths, such as when taking
time stamps for the purpose of rescheduling select() and poll()
timeouts. Future changes might include retrofitting the time counter
infrastructure to allow the "fast" time query mechanisms to use a
different time counter, rather than a cached time counter (i.e.,
TSC).
NOTE: With different underlying time mechanisms exposed, using
different time query mechanisms in the same application may result in
relative non-monoticity or the appearance of clock stalling for a
single clockid_t, as a cached time stamp queried after a precision
time stamp lookup may be "before" the time returned by the earlier
live time counter query.
Don't keep duplicate files in the files list just to
mark the device as "known" later. XXX: Since the
device list isn't unique (there can be two "device foo"
directives, as this the case with LINT+DEFAULTS), we
have to traverse it all to mark all copies of the same
device as "used", but this is not worse than it was.
iov address internally through realloc(3). However, since the function
parameter wasn't designed to allow the modified iov being passed back to
the caller, we ended up feeding iov with several corrupted entries(this
depends on how many arguments were pushed into iovec before set_charset())
to nmount(2).
This commit fixes this regression introduced in rev1.37 such that
mount_msdosfs(8) with code page conversion option(-W,-D) enabled works again.
Reviewed by: rodrigc
iov address internally through realloc(3). However, since the function
parameter wasn't designed to allow the modified iov being passed back to
the caller, we end up feeding iov with several corrupted entries(depends on
how many arguments were pushed into iovec before set_charset()) to nmount(2).
This commit fixes this regression introduced in rev1.31 such that
mount_cd9660(8) with code page conversion option(-C) enabled works again.
Reviewed by: rodrigc
This shouldn't happen as far as the self-id buffer is vaild but
some people have this problem.
PR: kern/83999
Submitted by: Markus Wild <fbsd-lists@dudes.ch>
MFC after: 3 days
- In ifc_name2unit(), disallow leading zeroes in a unit.
Exploit: ifconfig lo01 create
- In ifc_name2unit(), properly handle overflows. Otherwise,
either of two local panic()'s can occur, either because
no interface with such a name could be found after it was
successfully created, or because the code will bogusly
assume that it's a wildcard (unit < 0 due to overflow).
Exploit: ifconfig lo<overflowed_integer> create
- Previous revision made the following sequence trigger
a KASSERT() failure in queue(3):
Exploit: ifconfig lo0 destroy; ifconfig lo0 destroy
This is because IFC_IFLIST_REMOVE() is always called
before ifc->ifc_destroy() has been run, not accounting
for the fact that the latter can fail and leave the
interface operating (like is the case for "lo0").
So we ended up calling LIST_REMOVE() twice. We cannot
defer IFC_IFLIST_REMOVE() until after a call to
ifc->ifc_destroy() because the ifnet may have been
removed and its memory has been freed, so recover from
this by re-inserting the ifnet in the cloned interfaces
list if ifc->ifc_destroy() indicates a failure.
external mounting program list as well; otherwise, entry like the following
in /etc/fstab wouldn't work:
/dev/acd0 /mnt/cdrom cd9660 ro,-C=big5 0 0
Reviewed by: rodrigc