For MMC cards, add partitions found on the card as separate disk(9) devices.
Don't do anything with RPMB partition for now.
Lots of code is copied almost 1:1 from the mmcsd.c in the old stack,
credits Marius Strobl (marius@FreeBSD.org)
Reviewed by: marius
Approved by: imp (mentor)
Differential Revision: https://reviews.freebsd.org/D12762
This driver was developed for the LAN7800 and the register-compatible
LAN7515 (found on Raspberry Pi 3B+) and has only been tested on those
devices.
Sponsored by: The FreeBSD Foundation
We shouldn't be mapping this memory, so we need to find it so it
can be excluded from the phys_avail map.
Reviewed by: manu
Obtained from: ABT Systems Ltd
Sponsored by: Turing Robotic Industries
Differential Revision: https://reviews.freebsd.org/D15518
Fields owned by the generic code were being left uninitialized,
causing problems in clear_dumper() if an error occurred.
Coverity CID: 1391200
X-MFC with: r333283
When large SPDs are used, we face two problems:
- too many CPU cycles are spent during the linear searches in the SPD
for each packet
- too much contention on multi socket systems, since we use a single
shared lock.
Main changes:
- added the sysctl tree 'net.key.spdcache' to control the SPD cache
(disabled by default).
- cache the sp indexes that are used to perform SP lookups.
- use a range of dedicated mutexes to protect the cache lines.
Submitted by: Emeric Poupon <emeric.poupon@stormshield.eu>
Reviewed by: ae
Sponsored by: Stormshield
Differential Revision: https://reviews.freebsd.org/D15050
Rather than using #ifdef's around a static char array, use the
existing helper macro from <sys/cdefs.h> for SCCS IDs. To
preserve existing behavior, add -DNO__SCCSID to CFLAGS to not
include SCCS IDs in the built library by default.
Reviewed by: brooks, dab (older version)
Reviewed by: rgrimes
Differential Revision: https://reviews.freebsd.org/D15459
This apparently works around issues with updates of certain Broadwell
CPUs.
Reviewed by: emaste, kib, sbruno
MFC after: 3 days
Differential Revision: https://reviews.freebsd.org/D15520
If a thread waiting on sx dropped Giant it would not be properly
reacquired on exit from the routine, later resulting in panics
indicating Giant is not held (when it should be).
The bug was not present in the original patch sent to pho, I wittingly
added it just prior to the commit and only smoke-tested it.
Reported by: pho
On arm64 we will need to get the phys_avail array from before the kernel
is excluded to create teh DMAP region. In preperation for this pass in the
array length into regions_to_avail.
This feature is disabled by default and was removed when dynamic states
implementation changed to be lockless. Now it is reimplemented with small
differences - when dyn_keep_states sysctl variable is enabled,
dyn_match_ipv[46]_state() function doesn't match child states of deleted
rule. And thus they are keept alive until expired. ipfw_dyn_lookup_state()
function does check that state was not orphaned, and if so, it returns
pointer to default_rule and its position in the rules map. The main visible
difference is that orphaned states still have the same rule number that
they have before parent rule deleted, because now a state has many fields
related to rule and changing them all atomically to point to default_rule
seems hard enough.
Reported by: <lantw44 at gmail.com>
MFC after: 2 days
lists in the EFI memory map. As such we need to reduce the mappings to
restrict them to not be the full 1G block. For now reduce this to a 2M
block, however this may be further restricted to be 4k page aligned as
other SoCs may require.
This allows ThunderX2 to boot reliably to userspace without performing
any speculative memory accesses to invalid physical memory.
Sponsored by: DARPA, AFRL
On some arm64 boards we need to access memory in ACPI tables that is not
mapped in the DMAP region. To handle this create the needed mappings in
pmap_mapbios in the KVA space.
Submitted by: Michal Stanek (mst@semihalf.com)
Sponsored by: Cavium
Differential Revision: https://reviews.freebsd.org/D15059
The main advantage of this is to allow us to exclude memory from being
used by the kernel. This may be from the memreserve property, or ranges
marked as no-map under the reserved-memory node.
More work is still needed to remove the physmap array. This is still used
for creating the DMAP region, however other patches need to be committed
before we can remove this.
Obtained from: ABT Systems Ltd
Sponsored by: Turing Robotic Industries
This will help simplify the arm64 code and allow us to properly exclude
memory that should never be mapped.
Obtained from: ABT Systems Ltd
Sponsored by: Turing Robotic Industries
This reduces the overhead when we have many small mappings, e.g. on some
EFI systems. This is to help use this code on arm64 where we may have a
large number of entries from the EFI firmware.
Obtained from: ABT Systems Ltd
Sponsored by: Turing Robotic Industries
Differential Revision: https://reviews.freebsd.org/D15477
Linux will not connect to a backend that's in state 3
(XenbusStateInitialised), it needs to be in state 2
(XenbusStateInitWait) for Linux to attempt to connect to the backend.
The protocol seems to suggest that the backend should indeed wait in
state 2 for the frontend to connect, which makes state 3 unusable for
disk backends.
Also make sure blkback will connect to the frontend if the frontend
reaches state 3 (XenbusStateInitialised) before blkback has processed
the results from the hotplug script (Submitted by Nathan Friess).
MFC after: 1 week
This corrects a warning issues by gcc9:
/srv/src/freebsd/head/usr.bin/top/machine.c:988:22: warning: '%5zu'
directive writing between 5 and 20 bytes into a
region of size 15 [-Wformat-overflow=]
sprintf(status, "?%5zu", state);
A constant stream of readers could completely starve writers and this is not
a hypothetical scenario.
The 'poll2_threads' test from the will-it-scale suite reliably starves writers
even with concurrency < 10 threads.
The problem was run into and diagnosed by dillon@backplane.com
There was next to no change in lock contention profile during -j 128 pkg build,
despite an sx lock being at the top.
Tested by: pho
Writers waiting on readers to finish can set the RW_LOCK_WRITE_SPINNER
bit. This prevents most new readers from coming on. However, the last
reader to unlock also clears the bit which means new readers can sneak
in and the cycle starts over.
Change the code to keep the bit after last unlock.
Note that starvation potential is still there: no matter how many write
spinners are there, there is one bit. After the writer unlocks, the lock
is free to get raided by readers again. It is good enough for the time
being.
The real fix would include counting writers.
This runs into a caveat: the writer which set the bit may now be preempted.
In order to get rid of the problem all attempts to set the bit are preceeded
with critical_enter.
The bit gets cleared when the thread which set it goes to sleep. This way
an invariant holds that if the bit is set, someone is actively spinning and
will grab the lock soon. In particular this means that readers which find
the lock in this transient state can safely spin until the lock finds itself
an owner (i.e. they don't need to block nor speculate how long to spin
speculatively).
Tested by: pho
r334005: add pc_ibpb_set as it is now referenced by common code
(although presumably not needed on i386 since it has been there
since the first spectre mitigation work on amd64)
r334009: there is no amd64 rflags -> i386 eflags
IPMI access on PowerNV systems is done through the OPAL firmware. This adds a
simple attachment for communicating with the FSP/BMC on these machines. This
has been tested on a Talos POWER9 workstation, only in the bootup phase, noting
the successful attachment messages:
...
ipmi0: IPMI device rev. 0, firmware rev. 2.00, version 2.0, device support mask 0
ipmi0: Number of channels 2
...
The ipmi device has not been added to GENERIC64, but may be after further
testing. It may also eventually be added to the ipmi module at that point.
Summary:
PowerNV architectures (in the test case POWER9) export sensors via the device
tree, which are accessed via OPAL calls. This adds sysctl nodes for each
device in a generic fashion. New sysctl nodes are:
dev.opal_sensor.N.sensor
dev.opal_sensor.N.sensor_min
dev.opal_sensor.N.sensor_max
dev.opal_sensor.N.type
dev.opal_sensor.N.label
These are rooted at a parent attachment under opal, called opalsens. This does
not add support for the "sensor groups" defined in the device tree.
Reviewed by: breno.leitao_gmail.com
Differential Revision: https://reviews.freebsd.org/D15362