Both the in-kernel C variant and libc asm variant have very poor performance.
The former compiles to a single byte comparison loop, which breaks down even
for small sizes. The latter uses rep cmpsq/b which turn out to have very poor
throughput and are slower than a hand-coded 32-byte comparison loop.
Depending on size this is about 3-4 times faster than the current routines.
Reviewed by: kib
Approved by: re (gjb)
Differential Revision: https://reviews.freebsd.org/D17328
Both drivers use this interface so add a dependancy on it.
Since awg uses aw_sid for generating the MAC address, make it
depend on both aw_sid and nmvem so when only removing nvmem from
kernel config it will not include this driver.
Reported by: sbruno
Approved by: re (gjb)
a10_timer is currently use in UP allwinner SoC (A10 and A13).
Those don't have the generic arm timer.
The arm generic timecounter is broken in the A64 SoC, some attempts have
been made to fix the glitch but users still reported some minor ones.
Since the A64 (and all Allwinner SoC) still have this timer controller, rework
the driver so we can use it in any SoC.
Since it doesn't have the 64 bits counter on all SoC, use one of the
generic 32 bits counter as the timecounter source.
PR: 229644
Recent DTS use the syscon for the emac controller.
We support this but since U-Boot is still using old DTS it was never
needed for us to add this support, but this is a problem when using upstream
recent DTS and will be when U-Boot will catch up.
While here add a new compatible to the aw_syscon driver as Linux changed it ...
The armv8crypto module includes arm_neon.h for the compiler intrinsic
functions. This includes the userland stdint.h file that doesn't exist in
the kernel. Fix this by providing an empty stdint.h to be used when we
include arm_neon.h.
Sponsored by: DARPA, AFRL
Differential Revision: https://reviews.freebsd.org/D16254
Xilinx Ultrascale+ are based on Cortex-A53 and use existing
UART driver (uart_dev_cdnc). Enable it in arm64 GENERIC config.
Submitted by: Michal Stanek <mst@semihalf.com>
Obtained from: Semihalf
SDHOST is another SD controller that is present on Raspberry Pi (the
other one is SDHC and handled by bcm2835_sdhci driver). Both
controllers are capable of providing interface to SD card, actual
configuration can be set in dtb file. At the moment custom DTBs for
RPi/RPi2 have sdhost node disabled. On RPi3 sdhost is disabled in
snapshot images by applying mmc.dtbo overlay. To enalbe both devices
user has to edit config.txt on FAT partition and remove or comment
"dtoverlay=mmc" line.
When no overlay applied on RPi3 SDHOST controls SD card and SDHC
interface can be used for SDIO. mmc.dtbo overlay disables SDHOST node
and switches SD card over to SDHC. Likewise sdhost.dtbo overlay (not
currently included in snapshot image, but can be obtained from firmare
repo[1]) disabled SDHC node and switch SD card over to SDHOST.
[1] https://github.com/raspberrypi/firmware/tree/master/boot/overlays
Submitted by: Klaus P. Ohrhallinger <k@7he.at>
Differential Revision: https://reviews.freebsd.org/D14168
Using MMCCAM on AllWinner boards is now possible, reaching highest
possible data transfer speed.
For now, MMCCAM doesn't scan cards on boot. This means that scanning
has to be done manually and that it's not possible to mount root FS
from MMC/SD card since there is no block device at the boot time.
For manually scanning the cards, run:
# camcontrol rescan X:0:0
Where X is the bus number (look at camcontrol devlist to determine
bus number assigned to the MMC controller).
Reviewed by: manu
Approved by: imp (mentor)
Differential Revision: https://reviews.freebsd.org/D15891
This controller have a special mode for RX to help with smbus-like transfer
when the controller will automatically send the slave address, register address
and read the data. Use it when possible.
The same mode for TX is describe is the datasheet but is broken and have been
since ~10 years of presence of this controller in RockChip SoCs.
Attach this driver early at we need it to communicate with the PMIC early in the
boot.
Do not hook it to the kernel build for now.
Add driver for the designware ethernet controller found in some RockChip SoCs.
The driver still rely on a lot of things setup by the bootloader like clocks
and phy mode.
But since netbooting is the only/easiest way to boot rockchip board at the
moment add the driver so other people can test/dev on thoses boards.
to call into the firmware in a similar way to the existing PSCI, and used
PSCI to detect when SMCCC is enabled.
There is a function ID space we can use. Currently we only support 3
functions in the ARM Architecture Calls region, however it is expected we
will expend these in the future.
Sponsored by: DARPA, AFRL
The core clock (armclk) on RockChip SoC is special.
It can derive it's clock from many PLLs but RockChip recommand to do it
from "apll" on old SoC and "npll" on new SoC. The reason for choosing npll
is that it's have less jitter and is more close to the arm core on the SoC.
r333314 added the core clock as a composite clock but due to it's specials
property we need to deal with it differently.
A new rk_clk_armclk type is added for this and it supports only the "npll"
as we don't run on old RockChip SoC that only have the "apll".
It will always reparent to "npll" and set the frequency according to a rate
table that is known to be good.
For now we set the "npll" to the desired frequency and just set the core clk
divider to 1 as its parent it just used for the core clk.
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 driver is compatible with H3/H5/A64.
Test was done on the OrangePi-PC2 board (H5 based), which have a mx25l1606e
spi flash on it, by writing u-boot image, reading it and booting from the spi.
There is still room for improvement especially on reading using the controller
automatic burst which will avoid us to write dummy data to the TX FIFO.
DMA is also not supported as we currently don't support the DMA controller on
those SoCs
Only add a kernel module for it.
Add a driver that match on 'rockchip,gpio-bank', this compatible
string is found on almost all RockChip SoC so this driver is compatible
with almost all of the RockChip SoCs.
The only features missing for this driver are :
- Interrupts support
- Debouncing
Add pinctrl driver for RockChip SoCs. This device manage which function
to set on which pin and some other properties like pull up/down, drive
strength etc ...
For now the driver only support RK3328 but it is versatile enough to
add support for other RockChip SoC in the future.
RockChip GRF (General Register Files) is present on almost all RockChip
SoC and is used to control some area of the system like iomuxing, gpio
or usb phy.
We need it to be probed and attached early in the boot process so
subclass syscon_generic and set the pass to BUS_PASS_BUS + BUS_PASS_ORDER_MIDDLE.
ARM Coresight is a solution for debug and trace of complex SoC designs.
This includes a collection of drivers for ARM Coresight interconnect
devices within a small Coresight framework.
Supported devices are:
o Embedded Trace Macrocell v4 (ETMv4)
o Funnel
o Dynamic Replicator
o Trace Memory Controller (TMC)
o CPU debug module
Devices are connected to each other internally in SoC and the
configuration of each device endpoints is described in FDT.
Typical trace flow (as found on Qualcomm Snapdragon 410e):
CPU0 -> ETM0 -> funnel1 -> funnel0 -> ETF -> replicator -> ETR -> DRAM
CPU1 -> ETM1 -^
CPU2 -> ETM2 -^
CPU3 -> ETM3 -^
Note that both Embedded Trace FIFO (ETF) and Embedded Trace Router (ETR)
are hardware configurations of TMC.
This is required for upcoming HWPMC tracing support.
This is tested on single-core system only.
Reviewed by: andrew (partially)
Sponsored by: DARPA, AFRL
Differential Revision: https://reviews.freebsd.org/D14618
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
* rk_cru is a cru driver that needs to be subclassed by
the real CRU driver
* rk_clk_pll handle the pll type clock on RockChip SoC, it's only read
only for now.
* rk_clk_composite handle the different composite clock types (with gate,
with mux etc ...)
* rk_clk_gate handle the RockChip gates
* rk_clk_mux handle the RockChip muxes (unused for now)
* Only clocks for supported devices are supported for now, the rest will be
added when driver support comes
* The assigned-clock* property are not handled for now so we rely a lot on the
bootloader to setup some initial values for some clocks.
For each we need to walk the MADT to find which we have, then add the
driver as needed. As each may have a child they will each walk the same
table to find these details.
Reviewed by: mmel
Obtained from: ABT Systems Ltd
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.freebsd.org/D8720
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
a mask and value to compare with the Main ID Register. If these match then a
function is called to handle the installation of the erratum workaround.
No errata are currently handled, however this will change soon in a future
commit.
MFC after: 1 week
Sponsored by: DARPA, AFRL
The emac bindings that are landing in Linux 4.15 specify a syscon property
on the emac node that point to /soc/syscon. Use this property if it's
specified, but maintain backwards compatibility with the old method.
The older method is still used for boards that we get .dtb from u-boot, such
as pine64, that did not yet have stable emac bindings.
Tested on: Banana Pi-M3 (a83t)
Tested on: Pine64 (a64)
Reviewed by: manu
Differential Revision: https://reviews.freebsd.org/D13296
This change adds an implementation of a sysent for running CloudABI
armv6 and armv7 binaries on FreeBSD/arm64. It is a somewhat literal copy
of the armv6 version, except that it's been patched up to use the proper
registers.
Just like for cloudabi32.ko on FreeBSD/amd64, we make use of a vDSO that
automatically pads system call parameters to 64-bit value. These are
stored in a buffer on the stack, meaning we need to use copyin() and
copyout() unconditionally.
Right now I'm using two Raspberry Pi's (2 and 3) to test CloudABI
support for armv6, armv7 and aarch64. It would be nice if I could
restrict this to just a single instance when testing smaller changes.
This is why I'd like to get COMPAT_CLOUDABI32 to work on arm64.
As COMPAT_CLOUDABI32 depends on COMPAT_FREEBSD32, at least for the ELF
loading, this change adds all of the bits necessary to at least build a
kernel with COMPAT_FREEBSD32. All of the machine dependent system calls
are still stubbed out, for the reason that implementations for these are
only useful if actual support for running FreeBSD binaries is added.
This is outside the scope of this work.
Reviewed by: andrew
Differential Revision: https://reviews.freebsd.org/D13144
mapping. This uses the new common code shared with amd64.
The RTC should only be accessed via EFI. There is no locking around it as
the spec only has this as a requirement for the PC-AT CMOS device.
Reviewed by: kib, imp
Sponsored by: DARPA, AFRL
Differential Revision: https://reviews.freebsd.org/D12595
SUN8I and SUN50I (H3, H5, A83T and A64) have a second clock controller
unit. It controls the clocks for the second gpio controller, the IR
controller etc ...
Support for A83T is not supported.
Tested On: OrangePi One, Pine64
kernel. We can register callbacks to perform the required operation on the
saved registers before returning.
This is initially used to work around a bug in old versions of QEMU that
trigger such an exception when reading from an ID register when it should
load z zero value.
I expect this could be used with other exception types, e.g. to emulate
special register access from userland.
Sponsored by: DARPA, AFRL
the driver in a place where it will be built for all targets. x86 doesn't
have all the required build bits for this device.
Move the uart(4) device mvebu to arm64 only.
This patch enables using NETA driver on Marvell Armada 3700 SoC
by introducing new compatible string, modifying clock source
obtaining and also excluding unnecessary parts.
The driver is added as a build option for arm64 platforms as well.
Submitted by: Patryk Duda <pdk@semihalf.com>
Obtained from: Semihalf
Sponsored by: Semihalf
Differential Revision: https://reviews.freebsd.org/D12258
This patch reuses ehci_mv driver by adding a support for the new
compatible string and adding ehci_mv.c to list of available options
for arm64 platforms.
Submitted by: Patryk Duda <pdk@semihalf.com>
Obtained from: Semihalf
Sponsored by: Semihalf
Differential Revision: https://reviews.freebsd.org/D12255
This driver will be used by Marvell Armada 3700 and 7k/8k SoC families.
The same, generic xhci device also appears in Armada 380, so we are reusing
driver.
This patch also adds xhci_mv.c entry to the arm64 files list.
Submitted by: Patryk Duda <pdk@semihalf.com>
Obtained from: Semihalf
Sponsored by: Semihalf
Differential Revision: https://reviews.freebsd.org/D12252
Marvell Armada 80x0/70x0 SoC family uses same RTC IP as
Armada 38x. This patch adds necessary files and enable driver in
GENERIC config.
Submitted by: Rafal Kozik <rk@semihalf.com>
Obtained from: Semihalf
Sponsored by: Semihalf
Differential Revision: https://reviews.freebsd.org/D12200
Upstream DTS for A64 SoC doesn't provide a /clocks node as Linux switched
to ccu-ng
This commit adds the necessary bits to boot on pine64 with latest DTS from
upstream.
USB is not working for now and some node aren't present in the DTS (like the
PMU, Power Management Unit).
Tested on: Pine64
available and if that is true make use of them.
Thank you very much to Andrew Turner for providing help and review the patch!
Reviewed by: andrew
MFC after: 1 week
Differential Revision: https://reviews.freebsd.org/D10499
we will import a newer version of the Linux code so the linuxkpi was not
used.
This is still missing 10G support, and multicast has not been tested.
Reviewed by: gnn
Obtained from: ABT Systems Ltd
Sponsored by: SoftIron Inc
Differential Revision: https://reviews.freebsd.org/D8549