On Tue, May 18, 2021 at 11:25:55AM -0400, Krzysztof Kozlowski wrote: > On 18/05/2021 11:00, Stephan Gerhold wrote: > > On Tue, May 18, 2021 at 10:30:43AM -0400, Krzysztof Kozlowski wrote: > >> On 18/05/2021 09:39, Stephan Gerhold wrote: > >>> s3fwrn5 has a NFC_CLK_REQ output GPIO, which is asserted whenever > >>> the clock is needed for the current operation. This GPIO can be either > >>> connected directly to the clock provider, or must be monitored by > >>> this driver. > >>> > >>> As an example for the first case, on many Qualcomm devices the > >>> NFC clock is provided by the main PMIC. The clock can be either > >>> permanently enabled (clocks = <&rpmcc RPM_SMD_BB_CLK2>) or enabled > >>> only when requested through a special input pin on the PMIC > >>> (clocks = <&rpmcc RPM_SMD_BB_CLK2_PIN>). > >>> > >>> On the Samsung Galaxy A3/A5 (2015, Qualcomm MSM8916) this mechanism > >>> is used with S3FWRN5's NFC_CLK_REQ output GPIO to enable the clock > >>> only when necessary. However, to make that work the s3fwrn5 driver > >>> must keep the RPM_SMD_BB_CLK2_PIN clock enabled. > >> > >> This contradicts the code. You wrote that pin should be kept enabled > >> (somehow... by driver? by it's firmware?) but your code requests the > >> clock from provider. > >> > > > > Yeah, I see how that's a bit confusing. Let me try to explain it a bit > > better. So the Samsung Galaxy A5 (2015) has a "S3FWRN5XS1-YF30", some > > variant of S3FWRN5 I guess. That S3FWRN5 has a "XI" and "XO" pin in the > > schematics. "XO" seems to be floating, but "XI" goes to "BB_CLK2" > > on PM8916 (the main PMIC). > > > > Then, there is "GPIO2/NFC_CLK_REQ" on the S3FWRN5. This goes to > > GPIO_2_NFC_CLK_REQ on PM8916. (Note: I'm talking about two different > > GPIO2 here, one on S3FWRN5 and one on PM8916, they just happen to have > > the same number...) > > > > So in other words, S3FWRN5 gets some clock from BB_CLK2 on PM8916, > > and can tell PM8916 that it needs the clock via GPIO2/NFC_CLK_REQ. > > > > Now the confusing part is that the rpmcc/clk-smd-rpm driver has two > > clocks that represent BB_CLK2 (see include/dt-bindings/clock/qcom,rpmcc.h): > > > > - RPM_SMD_BB_CLK2 > > - RPM_SMD_BB_CLK2_PIN > > > > (There are also *_CLK2_A variants but they are even more confusing > > and not needed here...) > > > > Those end up in different register settings in PM8916. There is one bit > > to permanently enable BB_CLK2 (= RPM_SMD_BB_CLK2), and one bit to enable > > BB_CLK2 based on the status of GPIO_2_NFC_CLK_REQ on PM8916 > > (= RPM_SMD_BB_CLK2_PIN). > > > > So there is indeed some kind of "AND" inside PM8916 (the register bit > > and "NFC_CLK_REQ" input pin). To make that "AND" work I need to make > > some driver (here: the s3fwrn5 driver) enable the clock so the register > > bit in PM8916 gets set. > > Thanks for the explanation, it sounds good. The GPIO2 (or how you call > it NFC_CLK_REQ) on S3FWRN5 looks like non-configurable from Linux point > of view. Probably the device firmware plays with it always or at least > handles it in an unknown way for us. > FWIW, I was looking at some more s3fwrn5 code yesterday and came across this (in s3fwrn5_nci_rf_configure()): /* Set default clock configuration for external crystal */ fw_cfg.clk_type = 0x01; fw_cfg.clk_speed = 0xff; fw_cfg.clk_req = 0xff; ret = nci_prop_cmd(info->ndev, NCI_PROP_FW_CFG, sizeof(fw_cfg), (__u8 *)&fw_cfg); if (ret < 0) goto out; It does look quite suspiciously like that configures how s3fwrn5 expects the clock and possibly (fw_cfg.clk_req?) how GPIO2 behaves. But it's not particularly useful without some documentation for the magic numbers. Personally, I just skip all firmware/RF configuration (which works thanks to commit 4fb7b98c7be3 ("nfc: s3fwrn5: skip the NFC bootloader mode")). That way, S3FWRN5 just continues using the proper configuration that was loaded by the vendor drivers at some point. :) Stephan