On Thu, Apr 17, 2014 at 09:43:40AM +0200, Arend van Spriel wrote: > + linux-serial@xxxxxxxxxxxxxxx > > On 16/04/14 15:09, Hans de Goede wrote: > >Hi, > > > >On 04/16/2014 12:39 PM, Chen-Yu Tsai wrote: > >>Hi, > >> > >>On Wed, Apr 16, 2014 at 5:44 PM, Maxime Ripard > >><maxime.ripard@xxxxxxxxxxxxxxxxxx> wrote: > >>>Hi, > >>> > >>>Please try to keep me in CC, even though the ML doesn't make it easy.. > >> > >>Sorry about that. > >> > >>>On Wed, Apr 16, 2014 at 12:06:59AM +0800, Chen-Yu Tsai wrote: > >>>>>>@@ -139,4 +152,16 @@ > >>>>>> reg_usb2_vbus: usb2-vbus { > >>>>>> status = "okay"; > >>>>>> }; > >>>>>>+ > >>>>>>+ rfkill_bt { > >>>>>>+ compatible = "rfkill-gpio"; > >>>>>>+ pinctrl-names = "default"; > >>>>>>+ pinctrl-0 = <&bt_pwr_pin_cubietruck>, <&clk_out_a_pins_a>; > >>>>>>+ clocks = <&clk_out_a>; > >>>>>>+ clock-frequency = <32768>; > >>>>>>+ gpios = <&pio 7 18 0>; /* PH18 */ > >>>>>>+ gpio-names = "reset"; > >>>>>>+ rfkill-name = "bt"; > >>>>>>+ rfkill-type = <2>; > >>>>>>+ }; > >>>>> > >>>>>Hmmm, I don't think that's actually right. > >>>>> > >>>>>If you have such a device, then I'd expect it to be represented as a > >>>>>full device in the DT, probably with one part for the WiFi, one part > >>>>>for the Bluetooth, and here the definition of the rfkill device that > >>>>>controls it. > >>>> > >>>>The AP6210 is not one device, but 2 separate chips in one module. Each > >>>>chip has its own controls and interface. They just so happen to share > >>>>the same enclosure. Even 2-in-1 chips by Broadcom have separate controls > >>>>and interfaces. The WiFi side is most likely connected via SDIO, while > >>>>the Bluetooth side is connected to a UART, and optionally I2S for sound. > >>> > >>>It's even easier to represent then. > >>> > >>>>>But tying parts of the device to the rfkill that controls it, such as > >>>>>the clocks, or the frequency it runs at seems just wrong. > >>>> > >>>>I understand where you're coming from. For devices on buses that require > >>>>drivers (such as USB, SDIO) these properties probably should be tied to > >>>>the device node. > >>>> > >>>>For our use case here, which is a bluetooth chip connected on the UART, > >>>>there is no in kernel representation or driver to tie them to. Same goes > >>>>for UART based GPS chips. They just so happen to require toggling a GPIO, > >>>>and maybe enabling a specific clock, to get it running. Afterwards, > >>>>accessing it is done solely from userspace. For our Broadcom chips, the > >>>>user has to upload its firmware first, then designate the tty as a Bluetooth > >>>>HCI using hciattach. > >>>> > >>>>We are using the rfkill device as a on-off switch. > >>> > >>>I understand your point, but the fact that it's implemented in > >>>user-space, or that UART is not a bus (which probably should be), is > >>>only a Linux specific story, and how it's implemented in Linux (even > >>>if the whole rfkill node is another one, but let's stay on topic). > >> > >>I gave it some thought last night. You are right. My whole approach > >>is wrong. But let's try to make it right. > >> > >>So considering the fact that it's primarily connected to a UART, > >>maybe I should make it a sub-node to the UART node it's actually > >>connected to? Something like: > >> > >> uart2: serial@01c28800 { > >> pinctrl-names = "default"; > >> pinctrl-0 = <&uart2_pins_a>; > >> status = "okay"; > >> > >> bt: bt_hci { > >> compatible = "brcm,bcm20710"; > >> /* maybe add some generic compatible */ > >> pinctrl-names = "default"; > >> pinctrl-0 = <&clk_out_a_pins_a>, > >><&bt_pwr_pin_cubietruck>; > >> clocks = <&clk_out_a>; > >> clock-frequency = <32768>; > >> gpios = <&pio 7 18 0>; /* PH18 */ > >> }; > >> }; > >> > >>And let the uart core handle power sequencing for sub-nodes. > > > >Great, I missed this reply when I typed my mail I send a few minutes > >ago. I agree that this approach is how thing should be. > > Regarding the device tree hierarchy this seems right, but powering > the sub-nodes seems outside the realm of uart core. Yet, a lot of devices are connected to an UART: GPS, BT chips, GSM modems, even some odd PMICs, so UART acting like a real bus might make sense. -- Maxime Ripard, Free Electrons Embedded Linux, Kernel and Android engineering http://free-electrons.com
Attachment:
signature.asc
Description: Digital signature