Re: [PATCH v5 2/5] dt-bindings: net: wireless: brcm4329-fmac: add clock description for AP6275P

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On 7/31/2024 7:50 PM, Sebastian Reichel wrote:
Hi,

On Wed, Jul 31, 2024 at 05:12:43PM GMT, Arend Van Spriel wrote:
On July 31, 2024 3:54:52 PM Sebastian Reichel
<sebastian.reichel@xxxxxxxxxxxxx> wrote:
On Wed, Jul 31, 2024 at 02:57:37PM GMT, Arend van Spriel wrote:
On 7/30/2024 7:38 PM, Sebastian Reichel wrote:
On Tue, Jul 30, 2024 at 01:16:57PM GMT, Arend Van Spriel wrote:
On July 30, 2024 12:18:20 PM Krzysztof Kozlowski <krzk@xxxxxxxxxx> wrote:

On 30/07/2024 11:52, Arend Van Spriel wrote:
On July 30, 2024 11:01:43 AM Krzysztof Kozlowski <krzk@xxxxxxxxxx> wrote:

On 30/07/2024 08:37, Arend Van Spriel wrote:
+ Linus W

On July 30, 2024 5:31:15 AM Jacobe Zang <jacobe.zang@xxxxxxxxxx> wrote:

Not only AP6275P Wi-Fi device but also all Broadcom wireless devices allow
external low power clock input. In DTS the clock as an optional choice in
the absence of an internal clock.

Reviewed-by: Arend van Spriel <arend.vanspriel@xxxxxxxxxxxx>
Signed-off-by: Jacobe Zang <jacobe.zang@xxxxxxxxxx>
---
.../bindings/net/wireless/brcm,bcm4329-fmac.yaml          | 8 ++++++++
1 file changed, 8 insertions(+)

diff --git
a/Documentation/devicetree/bindings/net/wireless/brcm,bcm4329-fmac.yaml
b/Documentation/devicetree/bindings/net/wireless/brcm,bcm4329-fmac.yaml
index 2c2093c77ec9a..a3607d55ef367 100644
--- a/Documentation/devicetree/bindings/net/wireless/brcm,bcm4329-fmac.yaml
+++ b/Documentation/devicetree/bindings/net/wireless/brcm,bcm4329-fmac.yaml
@@ -122,6 +122,14 @@ properties:
NVRAM. This would normally be filled in by the bootloader from platform
configuration data.

+  clocks:
+    items:
+      - description: External Low Power Clock input (32.768KHz)
+
+  clock-names:
+    items:
+      - const: lpo
+

We still have an issue that this clock input is also present in the
bindings specification broadcom-bluetooth.yaml (not in bluetooth
subfolder). This clock is actually a chip resource. What happens if both
are defined and both wifi and bt drivers try to enable this clock? Can this
be expressed in yaml or can we only put a textual warning in the property
descriptions?

Just like all clocks, what would happen? It will be enabled.

Oh, wow! Cool stuff. But seriously is it not a problem to have two entities
controlling one and the same clock? Is this use-case taken into account by
the clock framework?

Yes, it is handled correctly. That's a basic use-case, handled by CCF
since some years (~12?). Anyway, whatever OS is doing (or not doing)
with the clocks is independent of the bindings here. The question is

Agree. Probably the bindings would not be the place to document this if it
would be an issue.

about hardware - does this node, which represents PCI interface of the
chip, has/uses the clocks.

The schematics I found for the wifi module and the khadas edge platform show
these are indeed wired to the chip.

I have a Rockchip RK3588 Evaluation Board on my desk, which uses the
same WLAN AP6275P module. I think I already commented on a prior
version of this series: The LPO clock is needed to make the PCIe
device visible on the bus. That means this series only works if the
clock has already been running. Otherwise the PCIe driver will never
be probed. To become visible the devices requires:

1. The LPO clock to be enabled
2. Power to be applied
3. The WL_EN gpio to be configured correctly

If one of the above is not met, the device will not even appear in
'lspci'. I believe the binding needs to take into consideration, that
pwrseq is needed for the PCIe side. Fortuantely the heavy lifting of
creating the proper infrastructure for this has already been done by
Bartosz Golaszewski for Qualcomm WLAN chips. What is missing is a
pwrseq driver for the Broadcom chip (or this specific module?).

That does not really make sense. There is no relation between the LPO clock
and the PCIe clocks so 1) being a requirement for probing the device looks
odd. It also does not match past experience when I assisted Andy Green in
getting this module up and running almost two years ago.

Well, first of all I can easily reproduce this on my RK3588 EVB1. I
intentionally ignore any bluetooth bits to avoid cross-effects from
bluetooth enabling any clocks / regulators / GPIOs and make sure the
RTC output clock is disabled at boot time (i.e. boot once without
any reference to the RTC clock and without 'clk_ignore_unused'
kernel argument). When booting up like this the WLAN device is not
visible in 'lspci' despite the WL_REG_ON GPIO being hogged. If I
additionally hack the RTC output clock to be enabled the WLAN device
becomes visible in 'lspci'.

The datasheet fully explains this:

https://www.lcsc.com/datasheet/lcsc_datasheet_2203281730_AMPAK-Tech-AP6275P_C2984107.pdf

PDF Page 23/24 (20/21 in the footer) has the Host Interface Timing
Diagram. WL_REG_ON should only be enabled after 2 cycles from LPO.
That means with LPO being disabled WL_REG_ON cannot be enabled. I'm
pretty sure WL_REG_ON means WLAN_REGULATOR_ON, so the logic is not
powered. On page 27 (24 in the footer) there is also a PCIe Power-On
Timing diagram, which shows that WL_REG_ON must be enabled before
the PCIe refclk is enabled.

So there is a specific power up sequence, which must be followed.

The chip also has an (less accurate) internal LPO so the 32khz sleep clock
in the diagram does not have to be an external clock. Maybe Ampak
bootstrapped the chip to disable the internal clock. Dunno.

What Andy needed back then to get firmware running was a change in the nvram
file to force using the internal LPO, but the device was already visible on
the PCIe bus.

mh, I just tested again and I can no longer reproduce the LPO
requirement for PCIe detection. Maybe it was something else all
along (I did most of my tests quite some time ago).
Sorry for the noise.

Hi Sebastian,

Thanks for letting it know.

Regards,
Arend




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