Note: At this time, this has only been tested on a single board from one of
the supported SoCs. This is enough to boot the board from MMC and have
functional USB- which is still an improvement over where we were at just
before with no functional clocks.
Differential Revision: https://reviews.freebsd.org/D15810
This happens in two cases for a20 clocks:
pll_core for 'n' factor:
factor=0, val=1
factor=n, val=n
ahb divisor:
factor=0,val=/2
factor=n,val=/2^n
Reviewed by: manu
Differential Revision: https://reviews.freebsd.org/D15806
- Calculate the number of segments based on the page size
- Add some comments on dma function so it's easier to read
- Only enable interrupts on the last dma segment
- If the segments size is the max transfer size, use the special size 0
for the controller.
- The max_data ivars is in block so calculate it properly.
Always disable FIFO access as we don't use it.
Rename some register bits so they are in sync with the register name.
While here add my copyright as I've probably wrote 70% of the code here.
The module uses the mod clock and not the ahb one.
We need to set the mod clock to twice the speed requested as the smallest
divider in the controller is 2.
The clock test function weren't calculating the register value best on the
best div but on the max one.
The cdr2 test function was using the cdr1 formula.
Pointy Hat: manu
Don't enable regulator on attach but dealt with them on power_up/power_off
Only set the voltage for the signaling regulator since I don't have boards
that can change the supply voltage.
Enable 1.8v signaling voltage.
Only do a reset of the controller at attach and init it at power_up.
We use to enable some interrupts in reset, only enable the interrupts
we are interested in when doing a request.
While here remove the regulators handling in power_on as it is very wrong
and will be dealt with in another commit.
Tested on: A31, A64
Move the allwinner early printf support to the snps driver as it
should work with all implementation.
While here add instruction for enabling it on 64bits SoCs.
Name each ehci driver uniquely.
This remove the warning printed at each arm boot :
module_register: cannot register simplebus/ehci from kernel; already loaded from kernel
Name each ahci driver uniquely.
This remove the warning printed at each arm boot :
module_register: cannot register simplebus/ahci from kernel; already loaded from kernel
WHile gate_shift was present in the NM_CLK macro it wasn't set into the
clock definition structure resulting in NM clocks not being correctly
gated when they should.
If the module wasn't enabled by the bootloader it will have stayed ungated.
Switch test between zero based factor and power of two one.
This resulted in a miscalculation of the factor if it was a power
of two one.
Some clocks frequencies were not calculated correctly because of that.
Split out delay parsing into a separate function; we'll support both
{tx,rx}-delay as well as the new versions.
While here, validate that they're within the expected range and fail to
attach if they are not. Assuming that we can clamp the delay is a bad idea
that might result in a non-working awg anyways, so we'll fail early to make
it easier to catch.
This version also unsets the tx and rx delay registers unconditionally and
then sets them if we read a non-zero delay. These delay properties should
default to 0 if not specified, as declared in the binding documentation.
Presumably the delays will be set via hardware configuration if they're not
explicitly set in FDT.
OF_getprop_alloc takes element size argument and returns number of
elements in the property. There are valid use cases for such behavior
but mostly API consumers pass 1 as element size to get string
properties. What API users would expect from OF_getprop_alloc is to be
a combination of malloc + OF_getprop with the same semantic of return
value. This patch modifies API signature to match these expectations.
For the valid use cases with element size != 1 and to reduce
modification scope new OF_getprop_alloc_multi function has been
introduced that behaves the same way OF_getprop_alloc behaved prior to
this patch.
Reviewed by: ian, manu
Differential Revision: https://reviews.freebsd.org/D14850
If a regulator is missing a mandatory property (like 'regulator-name'), do
not fail, regulator_parse_ofw_stdparam is returning a non-zero value so just
skip this regulator.
Also if any regulator fails to attach continue with the rest of the regulators
instead of returning ENXIO in axp8xx_attach
Tested On: BananaPi M3
It was later found that some operation on the OrangePi one will cause
direct accesses to the eeprom to return wrong data again, so reading it all
once via prctl at attach time is no longer sufficient.
vbus-supply properties may be specified for each PHY. These properties
reference a regulator that we must turn on/off as we turn the PHY on/off.
However, if the usbphy comes up before the regulator in question (as is the
case with GPIO-controlled regulators), then we will fail to grab a handle to
the regulator and control it as the PHY power state changes.
Fix it by just attaching the usbphy driver later. We don't really need it at
RESOURCE, we just need it to be before DEFAULT when ehci/ohci attach. In
particular, this fixes the USB NIC on a board that we don't yet supported-
without this, it will not power on and if_ure cannot attach.
Tested on: various boards [manu]
Tested on: OrangePi R1 [Rap2 (irc)]
Reported by: Rap2 (irc, "Cannot find USB NIC")
It would have been on an actual named pass before, but none were really
appropriate in name. Move it to the recently created SUPPORTDEV pass, which
perfectly describes it and keeps it in the right order.
Getting regulator is good, enabling them is better.
When the mmc stack decide to change the voltage for IO, don't
change the main vcc of the sd/mmc, only the io vcc.
AXP803 and AXP813/818 are very similar, only two regulators differs.
AXP803 is the companion chip for A64/R18
AXP813 is the companion chip for A83T
AXP818 is the companion chip for H8 (~A83T)
Add support for all regulators found in both of them.
On the OrangePi One at least, emac reset when an ethernet cable is not
plugged in seems to break ethernet. Soft reset will fail, even with
increasing the delay and retries to wait for up to 20 seconds. This can be
reproduced across at least two different OrangePi One's by simply leaving
ethernet cable unplugged when awg attaches. Whether it's plugged in or not
through u-boot process makes no difference.
Skipping the reset in this configuration doesn't seem to cause any problems,
tried across many many reboots with and without ethernet cable plugged in.
Tested on: OrangePi One
Tested on: Other boards (manu)
Reviewed by: manu
Differential Revision: https://reviews.freebsd.org/D13974
Similarly as other extres pseudo-drivers, implement phy by using kobj model.
This detaches it from provider device, so single device driver can export
multiple different phys. Additionally, this allows phy to be subclassed to
more specialized drivers, like is USB OTG phy, or PCIe phy with hot-plug
capability.
Tested by: manu (previous version, on Allwinner board)
MFC after: 1 month
- Add a per compatible configuration struct
- Not all SoC uses the same size for DMA transfert, add this into the
configuration data
- Use new timing mode for some SoC (A64 mmc)
- Auto calibrate clock for A64 mmc/emmc
- A64 mmc controller need masking of data0
- Add support for vmmc/vqmmc regulator
- Add more capabilities, r/w speed is better for eMMC
- MMC_CAP_SIGNALING_180 gives weird result so do not enable it for now.
- Add new register documented in H3/A64 user manual
Tested-On: Pine64-LTS (A64), eMMC still doesn't work
Tested-On: A64-Olinuxino (A64), sd and eMMC are working
Tested-On: NanoPi Neo Plus2 (H5), sd and eMMC are working
Tested-On: OrangePi PC2 (H5), sd only (no eMMC)
Tested-On: OrangePi One (H3), sd only (no eMMC)
Tested-On: BananaPi M2 (A31s), sd only (no eMMC)
Attaching syscon_generic earlier than BUS_PASS_DEFAULT makes it more
difficult for specific syscon drivers to attach to the syscon node and to
get ordering right. Further discussion yielded the following set of
decisions:
- Move syscon_generic to BUS_PASS_DEFAULT
- If a platform needs a syscon with different attach order or probe
behavior, it should subclass syscon_generic and match on the SoC specific
compat string
- When we come across a need for a syscon that attaches earlier but only
specifies compatible = "syscon", we should create a syscon_exclusive driver
that provides generic access but probes earlier and only matches if "syscon"
is the only compatible. Such fdt nodes do exist in the wild right now, but
we don't really use them at the moment.
Additionally:
- Any syscon provider that has needs any more complex than a spinlock solely
for syscon access and a single memory resource should subclass syscon
directly rather than attempting to subclass syscon_generic or add complexity
to it. syscon_generic's attach/detach methods may be made public should the
need arise to subclass it with additional attach/detach behavior.
We introduce aw_syscon(4) that just subclasses syscon_generic but probes
earlier to meet our requirements for if_awg and implements #2 above for this
specific situation. It currently only matches a64/a83t/h3 since these are
the only platforms that really need it at the time being.
Discussed with: ian
Reviewed by: manu, andrew, bcr (manpages, content unchanged since review)
Differential Revision: https://reviews.freebsd.org/D13793
Although these should have been 'emac', upstream DTS is going with using
'gmac' as the function name for the emac RGMII pins. Rename here to
accommodate.
emac support for the a83t should come in with the 4.16 DTS update, in
another couple of months.
Highlights of the new bindings:
- ahb clock is specified as 'stmmaceth'
- The PHY to be used is now specified as phy-handle
- We must now check the parent of the node phy-handle points to in order to
discover if we're using internal PHY.
- The ephy clk/reset will be specified on the PHY node, not the emac node.
Care has been taken to ensure that we remain compatible with the older
bindings that we were previously using.
Tested on: Pine64 (A64, old bindings)
Tested on: Pine64-LTS (A64, new bindings) [manu]
Tested on: OrangePi-One (H3, internal PHY) [manu]
Tested on: NanoPi M1 Plus (H3, external PHY) [manu]
Reviewed by: manu
Differential Revision: https://reviews.freebsd.org/D13777
The sid controller on the H3 is generally identical in location, size, and
efuse offset to the a64 and the a83t. The main difference is that the H3 has
a silicon bug that sometimes causes the rootkey (at least) to be garbled
unless first read by the prctl registers.
This device is currently not in our DTS and, as of now, is not yet present
in mainline Linux DTS.
Tested on: OrangePi One
Technically supported on the later SoCs, this will only really be used to
add support for the H3 sid. The H3 has a silicon bug that manifests itself
by returning garbled rootkeys unless first read via the prctl registers.
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
Newer Allwinner SoCs have nearly identical SID controllers with efuse space
starting at 0x200 into their register space and thermal data available at
0x234, making all of these fairly trivial additions.
The h3 will be added at a later time after some testing, due to a silicon
bug that causes the rootkey (at least) to be read incorrectly unless first
read via the control register.
files that can use the default value.
It used to be required that the low-order bits of KERNVIRTADDR matched
the low-order bits of the physical load address for all arm platforms.
That hasn't been a requirement for armv6 platforms since FreeBSD 10.
There is no longer any relationship between load addr and KERNVIRTADDR
except that both must be aligned to a 2 MiB boundary.
This change makes the default KERNVIRTADDR value 0xc0000000, and removes the
options from all the platforms that can use the default value. The default
is now defined in vmparam.h, and that file is now included in a few new
places that reference KERNVIRTADDR, since it may not come in via the
forced-include of opt_global.h on the compile command line.