While it is true that the ACPI spec says that the flag is only valid
on Extended Address Space Descriptors, examples of other descriptors
in the spec use the ProducerConsumer flag explicitly, and real
hardware uses it as well. In fact, even in the ASL of the Thunder X2
for which r330113 was a workaround, some devices use this flag on
non-Extended Address Space Descriptors correctly. Instead, only
ignore the flag for resources associated with the UART devices on the
Thunder X2 using the "ARMH0011" HID to identify these devices.
This should fix regressions from ignoring this flag in other contexts
such as Hyper-V.
PR: 235876
Reported by: Wei Hu <weh@microsoft.com>
Tested by: emaste (Thunder X2)
MFC after: 2 weeks
CPUs can use shared (RF_SHAREABLE) resources for the I/O port used for
entering and exiting C states. If this I/O port is included in an ACPI
system resource device, then this happens to still work, but if the port
wasn't part of a system resource device, only the first CPU could allocate
the I/O port and use C states since resource_list_reserve() was always
allocating the resource from nexus0 without RF_SHAREABLE. By avoiding
the reservation, the flags from the bus_alloc_resource() in the CPU driver
(which include RF_SHAREABLE) are honored.
PR: 236513
Reported by: stockhausen@collogia.de
Sleuthing by: avg
Reviewed by: avg
MFC after: 2 weeks
Add new file arm64/acpica/acpi_iort.c to support the "IO Remapping
Table" (IORT). The table is specified in ARM document "ARM DEN 0049D"
titled "IO Remapping Table Platform Design Document". The IORT table
has information on the associations between PCI root complexes, SMMU
blocks and GIC ITS blocks in the system.
The changes are to parse and save the information in the IORT table.
The API to use this information is added to sys/dev/acpica/acpivar.h.
The acpi_iort.c also has code to check the GIC ITS nodes seen in the
IORT table with corresponding entries in MADT table (for validity)
and with entries in SRAT table (for proximity information).
Reviewed by: andrew
Differential Revision: https://reviews.freebsd.org/D18002
ACPI SRAT table on arm64 uses GICC entries to provide CPU locality
information. These entries use an AcpiProcessorUid to identify the
CPU (unlike on x86 where the entries have an APIC ID).
Update acpi_pxm.c to extend the cpu_add/cpu_find/cpu_get_info
functions to handle AcpiProcessorUid. Use the updated functions
while parsing ACPI_SRAT_GICC_AFFINITY entry for arm64.
Also update sys/conf/files.arm64 to build acpi_pxm.c when ACPI is
enabled.
Reviewed by: markj (previous version)
Differential Revision: https://reviews.freebsd.org/D17942
This moves the architecture independent parts of sys/x86/acpica/srat.c
to sys/dev/acpica/acpi_pxm.c, to be used later on arm64. The function
declarations are moved to sys/dev/acpica/acpivar.h
We also need to update sys/conf/files.{i386,amd64} to use the new file.
No functional changes.
Reviewed by: markj, imp
Differential Revision: https://reviews.freebsd.org/D17941
Specifically, assume that the device is present if evaluation of _STA
method fails.
Before r330957 we ignored any _STA evaluation failure (which was
performed by AcpiGetObjectInfo in ACPICA contrib code) for the purpose
of acpi_DeviceIsPresent and acpi_BatteryIsPresent. ACPICA 20180313
removed evaluation of _STA from AcpiGetObjectInfo. So, we added
evaluation of _STA to acpi_DeviceIsPresent and acpi_BatteryIsPresent.
One important difference is that the new code ignored a failure only if
_STA did not exist (AE_NOT_FOUND). Any other kind of failure was
treated as a fatal failure. Apparently, on some systems we can get
AE_NOT_EXIST when evaluating _STA. And that error is not an evil twin
of AE_NOT_FOUND, despite a very similar name, but a distinct error
related to a missing handler for an ACPI operation region.
It's possible that for some people the problem was already fixed by
changes in ACPICA and/or in acpi_ec driver (or even in BIOS) that fixed
the AE_NOT_EXIST failure related to EC operation region.
This work is based on a great analysis by cem and an earlier patch by
Ali Abdallah <aliovx@gmail.com>.
PR: 227191
Reported by: 0mp
MFC after: 2 weeks
After r340644 there were two things wrong in cases where there is both
an ECDT, and an EC device exposed via acpica. The first is a rather
trivial situation where the device desc would say ECDT even when it was
not implicitly created via ECDT (not really sure why the compiler
doesn't seem to warn about this).
The other more pervasive issue is that the code is designed to
essentially not do anything for EC probe when its uid was already
created an EC based on the ECDT's uid. The issue was that probe would
still return 0 in this case, and so we'd end up with some weird
duplication. Now to be honest, I'm not actually sure what exactly broke,
but it was definitely not working as intended. To fix this, all that is
really needed is to make sure we return ENXIO when we're probing the
device already added for the ECDT entry. While here though, move the
check for this earlier to avoid wasted cycles when we know after
obtaining the uid that it's duplicative.
There remains one questionable bit here which I don't want to touch -
when doing probe for PNP0C09, if acquiring _UID for the device fails, 0
is assumed, which is a valid UID used by the implicit ECDT.
Reported by: Charlie Li, et al.
Reviewed by: jhb
Differential Revision: https://reviews.freebsd.org/D18311
Remove the requirement that a device be a ACPI method battery to be supported
as a battery.
Require now that the device be in the battery devclass and implement the
get_status and get_info functions. This allows batteries which are not ACPI
method batteries to be supported.
Reviewed by: jtl
Approved by: jtl (mentor)
MFC after: 1 Month
Differential Revision: https://reviews.freebsd.org/D17434
This patch utilizes the fixed_devclass attribute in order to make sure
other acpi devices with params don't get confused for an EC device.
The existing code assumes that acpi_ec_probe is only ever called with a
dereferencable acpi param. Aside from being incorrect because other
devices of ACPI_TYPE_DEVICE may be probed here which aren't ec devices,
(and they may have set acpi private data), it is even more nefarious if
another ACPI driver uses private data which is not dereferancable. This
will result in a pointer deref during boot and therefore boot failure.
On X86, as it stands today, no other devices actually do this (acpi_cpu
checks for PROCESSOR type devices) and so there is no issue. I ran into
this because I am adding such a device which gets probed before
acpi_ec_probe and sets private data. If ARM ever has an EC, I think
they'd run into this issue as well.
There have been several iterations of this patch. Earlier
iterations had ECDT enumerated ECs not call into the probe/attach
functions of this driver. This change was Suggested by: jhb@.
Reviewed by: jhb
Approved by: emaste (mentor)
Differential Revision: https://reviews.freebsd.org/D16635
Now that we are handling PCI resources in pci_host_generic_acpi.c, we
don't need these change (made by r336129)
Reviewed by: andrew
Differential Revision: https://reviews.freebsd.org/D17792
This is a major update for pci_host_generic_acpi.c, the current
implementation has some gaps that are better fixed up in one go.
The changes are to:
* Follow x86 method of not adding PCI resources to PCI host bridge in
ACPI code. This has been moved to pci_host_generic_acpi.c, where we
walk thru its resources of the host bridge and add them.
* Fixup code in pci_host_generic_acpi.c to read all decoded ranges
and update the 'ranges' property. This allows us to share most of
the code with generic implementation (and the FDT one).
* Parse and setup IO ranges and bus ranges when walking the resources
above. Drop most of the changes related to this from acpica code.
* Add the ECAM memory area as mem resource 0. Implement the logic to
get the ECAM area from MCFG (using bus range which we now decode),
or from _CBA (using _BBN/bus range). Drop aarch64 ifdefs from acpica
code which did part of this.
* Switch resource activation to similar code as FDT implementation,
this can be moved into generic implementation in a later pass.
* Drop the mechanism of using the 7th bit of bus number as the domain,
this is not correct and will work only in very specific cases. Use
_SEG as PCI domain and use the bus ranges of the host bridge to
provide start bus number.
This commit should not make any functional change to dev/acpica/acpi.c
for other architectures, almost all the changes there are to revert
earlier additions in this file done for aarch64.
Reviewed by: andrew
Differential Revision: https://reviews.freebsd.org/D17791
On arm64 (where INTRNG is enabled), the interrupts have to be mapped
with ACPI_BUS_MAP_INTR() before adding them as resources to devices.
The earlier code did the mapping before calling acpi_set_resource(),
which bypassed code that checked for PCI link interrupts.
To fix this, move the call to map interrupts into acpi_set_resource()
and that requires additional work to lookup interrupt properties.
The changes here are to:
* extend acpi_lookup_irq_handler() to lookup an irq in the ACPI
resources
* create a helper function acpi_map_intr() which uses the updated
acpi_lookup_irq_handler() to look up an irq, and then map it
with ACPI_BUS_MAP_INTR()
* use acpi_map_intr() in acpi_pcib_route_interrupt() to map
pci link interrupts.
With these changes, we can drop the ifdefs in acpi_resource.c, and
we can also drop the call for mapping interrupts in generic_timer.c
Reviewed by: andrew
Differential Revision: https://reviews.freebsd.org/D17790
Curiously, the in-kernel routines always use the design voltage to
convert from mA to mW, but acpiconf in userland uses the current
voltage. As a result, this can report a different mW rate than
acpiconf.
Submitted by: Manuel Stühn <freebsdnewbie@freenet.de>
MFC after: 2 months
Differential Revision: https://reviews.freebsd.org/D17077
The AML is even stupider than always returning 0. It will only return
non-zero for an OS that reports itself as "Windows 2015", at least
on the Threadripper board's AML that I've examined.
Those AMLs also suggest we may need this quirk for AMI0030 as well.
There may be other cases where we need to override the _STA in a
generic way, so we should consider writing code to do that.
The Device Specific Method (_DSM) is on optional object that defines
device specific controls. This will be useful for our power management
controller in upcoming patches. More information can be found in ACPI
spec 6.2 section 9.1.1
https://www.uefi.org/sites/default/files/resources/ACPI_6_2.pdf
This patch had a minor modification changing ENOMEM to AE_NO_MEMORY
after it got review and approval but before committing.
Test Plan: Tested in my s0ix branch
Reviewed by: kib
Approved by: emaste (mentor)
Differential Revision: https://reviews.freebsd.org/D17121
This is an amalgam of a patch by Doug Ambrisko to
generalize uart_acpi_find_device, imp moving the
ACPI table to uart_dev_ns8250.c and advice by jhb
to work around a bug in the EPYC 3151 BIOS
(the BIOS incorrectly marks the serial ports as
disabled)
Reviewed by: imp
MFC after: 8 weeks
Differential Revision: https://reviews.freebsd.org/D16432
The timespecadd(3) family of macros were imported from NetBSD back in
r35029. However, they were initially guarded by #ifdef _KERNEL. In the
meantime, we have grown at least 28 syscalls that use timespecs in some
way, leading many programs both inside and outside of the base system to
redefine those macros. It's better just to make the definitions public.
Our kernel currently defines two-argument versions of timespecadd and
timespecsub. NetBSD, OpenBSD, and FreeDesktop.org's libbsd, however, define
three-argument versions. Solaris also defines a three-argument version, but
only in its kernel. This revision changes our definition to match the
common three-argument version.
Bump _FreeBSD_version due to the breaking KPI change.
Discussed with: cem, jilles, ian, bde
Differential Revision: https://reviews.freebsd.org/D14725
It's likely that the header was needed in the past for swi(9).
But now that code does not use swi(9) or any other interfaces defined
in sys/interrupt.h.
MFC after: 1 week
work when called by members of the 'operator' group. They are already
allowed to eg power off the system (via suid shutdown(8)), so they
might as well be permitted to suspend it.
Tested by: xmj@
Reviewed by: delphij@
MFC after: 2 weeks
Relnotes: yes
Sponsored by: DARPA, AFRL
Differential Revision: https://reviews.freebsd.org/D16062
I want to do this change because this call (actually,
AcpiHwLegacyWakePrep) does a memory allocation and ACPI namespace
evaluation. Although it is not very likely to run into any trouble, it
is still not safe to make those calls with interrupts disabled.
witness(4) and malloc(9) do not currently check for a context with
interrupts disabled via intr_disable and we lack a facility for doing
that. So, those unsafe operations fly under the radar. But if
intr_disable in acpi_EnterSleepState was replaced with spinlock_enter
(which it probably should be), then witness and malloc would immediately
complain.
Also, AcpiLeaveSleepStatePrep is documented as called when interrupts
are enabled. It used to require disabled interrupts, but that
requirement was changed a long time ago when support for _BFS and _GTS
was removed from ACPICA.
The ACPI wakeup sequence is very sensitive to changes. I consider this
change to be correct, but there can be fallouts from it.
What AcpiHwLegacyWakePrep essentially does is writing a value
corresponding to S0 into SLP_TYPx bits of PM1 Control Register(s).
According to ACPI specifications that write should be a NOP as SLP_EN
bit is not set. But I see in some chipset specifications that they
allow to ignore SLP_EN altogether and to act on a change of SLP_TYPx
alone.
Also, there are a couple of accesses to ACPI hardware before the new
location of the call to AcpiLeaveSleepStatePrep. One is to clear the
power button status and the other is to enable SCI. So, the move may
affect the interaction between then OS and ACPI platform.
I have not seen any regressions on my test system, but it's a desktop.
MFC after: 5 weeks
The TSC-s are checked and synchronized only if they were good
originally. That is, invariant, synchronized, etc.
This is necessary on an AMD-based system where after a wakeup from STR I
see that BSP clock differs from AP clocks by a count that roughly
corresponds to one second. The APs are in sync with each other. Not
sure if this is a hardware quirk or a firmware bug.
This is what I see after a resume with this change:
SMP: passed TSC synchronization test after adjustment
acpi_timer0: restoring timecounter, ACPI-fast -> TSC-low
Reviewed by: kib
MFC after: 3 weeks
Differential Revision: https://reviews.freebsd.org/D15551
I have a system that is very unstable after resuming from suspend-to-RAM
but only if HPET is used as the event timer. The theory is that SMM
code / firmware could be enabling HPET for its own uses and unexpected
interrupts cause a trouble for it. Originally I wanted to solve the
problem in hpet_suspend() method, but that was insufficient as the event
timer could get reprogrammed again.
So, it's better, for my case and in general, to stop the event timer(s)
before entering the hardware suspend.
MFC after: 4 weeks
Differential Revision: https://reviews.freebsd.org/D15413
This sysctl allows a deeper dive into the sleep abyss comparing to
debug.acpi.suspend_bounce. When the new sysctl is set the system will
execute the suspend sequence up to the call to AcpiEnterSleepState().
That includes saving processor contexts and parking APs. Then, instead
of actually entering the sleep state, the BSP will call resumectx() to
emulate the wakeup. The APs should get restarted by the sequence of
Init and Startup IPIs that BSP sends to them.
MFC after: 8 days
ACPI I/O port descriptors use _MIN and _MAX fields to specify the set
of allowable base (start) addresses for an I/O port resource along with
a _LEN field specifying the length. A fixed resource is supposed to be
encoded with _MIN == _MAX, but some buggy firmwares instead set _MAX to
the end of the fixed range. Relocating I/O ranges only make sense in
_PRS (possible resource settings), not in _CRS (current resource settings),
so if an I/O port range with _MAX set set to the end of the range is
present in _CRS, treat it as a fixed I/O port resource starting at
_MIN.
PR: 224096
Submitted by: Harald Böhm <harald@boehm.codes>
Pointy hat to: jhb (taking so long to actually commit this)
MFC after: 1 week
opt_compat.h is mentioned in nearly 180 files. In-progress network
driver compabibility improvements may add over 100 more so this is
closer to "just about everywhere" than "only some files" per the
guidance in sys/conf/options.
Keep COMPAT_LINUX32 in opt_compat.h as it is confined to a subset of
sys/compat/linux/*.c. A fake _COMPAT_LINUX option ensure opt_compat.h
is created on all architectures.
Move COMPAT_LINUXKPI to opt_dontuse.h as it is only used to control the
set of compiled files.
Reviewed by: kib, cem, jhb, jtl
Sponsored by: DARPA, AFRL
Differential Revision: https://reviews.freebsd.org/D14941
bus provide it with its needed memory resources.
This allows us to use PCIe on the ThunderX2 and, with a previous version
of the patch, on the SoftIron 3000 with ACPI.
Obtained from: ABT Systems Ltd
Sponsored by: The FreeBSD Foundation
Sponsored by: DARPA, AFRL
Sponsored by: Cavium (Hardware)
Differential Revision: https://reviews.freebsd.org/D8767
6.0 spec 6.4.3.5 bit 0 is ignored on QWord, DWord, and Word Address Space
Descriptors, but not Extended Address Space Descriptors.
Reviewed by: jhb
Sponsored by: DARPA, AFRL
Sponsored by: Cavium (Hardware)
Differential Revision: https://reviews.freebsd.org/D14516
allocated with a tag to come from the specified domain if it meets the
other constraints provided by the tag. Automatically create a tag at
the root of each bus specifying the domain local to that bus if
available.
Reviewed by: jhb, kib
Tested by: pho
Sponsored by: Netflix, Dell/EMC Isilon
Differential Revision: https://reviews.freebsd.org/D13545
This adds a new acpi_bus interface with a map_intr method. This is similar
to the Open Firmware map_intr method and allows us to create the needed
mapping from ACPI space to INTRNG space.
Obtained from: ABT Systems Ltd
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.freebsd.org/D8617
By the ACPI standard (ACPI 5 chapter 8.4 Declaring Processors) Processors
can be implemented in 2 distinct ways:
* Through a Processor object type (which provides P_BLK)
* Through a Device object type
Prior to this change, the FreeBSD driver only supported the former. AMD
Epyc / Poweredge systems we are testing both implement the latter only. Add
the missing support.
Because P_BLK is not defined in the device object case, C-states entering
must be completely controlled via _CST methods rather than P_LVL2/3.
John Baldwin points out that ACPI 6.0 formally deprecates the Processor
keyword, so eventually processors will only be enumerated as Device objects.
Submitted by: attilio
Reviewed by: jhb, markj, Anton Rang <rang AT acm.org>
Relnotes: maybe
Sponsored by: Dell EMC Isilon
Differential Revision: https://reviews.freebsd.org/D13457
From ACPICA 20170929, AcpiOsGetTimer() should be available early because
While() loop timeout mechanism was reimplemented with it. Unfortunately,
it means AcpiLoadTables() may cause panic when a While() loop is executed.
After having lengthy discussions with ACPICA developers, I have concluded
that dummy timecounter is good enough for the purpose and it is the least
intrusive solution for now. Also, they reminded me the ACPI specification
implies OS timer function should be available before loading tables.