Re: [PATCH 4/7] mfd: ds90ux9xx: add TI DS90Ux9xx de-/serializer MFD driver

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Hi Vladimir,

On 23/10/18 10:16, Vladimir Zapolskiy wrote:
> Hi Laurent,
> 
> On 10/12/2018 02:59 PM, Vladimir Zapolskiy wrote:
>> Hello Laurent.
>>
>> On 10/12/2018 04:01 PM, Laurent Pinchart wrote:
>>> Hello Vladimir,
>>>
> 
> ...
> 
>>> then move to the driver side. In that area I would like to have a full example 
>>> of a system using these chips, as the "initial support" is too limited for a 
>>> proper review. This won't come as a surprise, but I will expect the OF graph 
>>> bindings to be used to model data connections.
>>>
>>
>> The leverage of "the initial support" to "the complete support" requires:
>> * audio bridge cell driver -- trivial, just one mute/unmute control,
>> * interrupt controller cell driver -- trivial, but for sake of perfection
>>   it requires some minimal changes in drivers/base/regmap/regmap-irq.c
>> * DS90Ux940 MIPI CSI-2 -- non-trivial one, but we have it ready, I just
>>   don't want to add it to the pile at the moment, otherwise we'll continue
>>   discussing cameras, and I'd like to postpone it :)
>>
>> No more than that is needed to get absolutely complete support of 5 claimed
>> DS90UB9xx ICs, really. 5 other DS90UH9xx will require HDCP support in addition.
>>
>> I'll try to roll out an example of DTS snippet soon.
> 
> Below I share an example of the serializer and deserializer equipped boards
> described in DT.
> 
> The example naturally describes *two* simplistic boards in device tree
> representation -- main board with an application SoC (ordinary i.MX6*)
> and panel display module board. For demonstation I select a simple
> FPD-Link III connection between two boards, note that significantly
> more advanced configurations are also supported by the published
> drivers, for example deliberately I skip audio bridging functionality.

Thanks for the comprehensive example, it helps a lot in understanding
your proposal.

> The main board features:
> * TI DS90UB927Q serializer (LVDS input) at 0xc, connected to SoC over I2C2,
>   SoC GPIO5[10] signal is connected to the IC PDB pin,
> * a status LED connected to DS90UB927Q GPIO2, it shall turn on,
>   if FPD-Link III connection is established,
> * TI DS90UB928Q GPIO0 line signal is pulled-up,
> * TI DS90UB927Q GPIO3 line serves as generic GPIO, it is supposed to be
>   controlled from userspace,
> * TI DS90UB927Q INTB line is connected to SoC GPIO5[4], the line serves
>   as an interrupt line routed from a touchscreen controller on a panel
>   display module.
> 
> The panel display module board features:
> * TI DS90UB928Q deserializer (LVDS output), *mapped* to have 0x3b address,
> * AUO C070EAT01 panel,
> * I2C EEPROM at 0x50, *mapped* to have 0x52 address on SoC I2C bus,
> * Atmel MaxTouch touchscreen controller at 0x4b, *mapped* to have 0x60
>   address on SoC I2C bus, power-up control signal is connected to DS90UB928Q GPIO4,
> * a status LED connected to DS90UB928Q GPIO0, its on/off status shall
>   repeat a user-defined status of DS90UB927Q GPIO0 on the main board,
> * TI DS90UB928Q GPIO1 controls panel backlight, bridges DS90UB927Q
>   GPIO1 signal level, which in turn is connected to a SoC controlled GPIO,
> * TI DS90UB928Q GPIO2 line signal is pulled-up,
> * TI DS90UB928Q GPIO3 line serves as generic GPIOs, it is supposed to be
>   controlled from userspace.
> 
> All OF hard-coded controls like pinmuxing, I2C bridging of a remote
> deserializer and I2C devices behind it, GPIO line state setting and so
> forth must be applied with no interaction from a user -- and it just
> works with the current / published versions of the drivers, in other
> words a panel display module as a whole is truly hot-pluggable over
> FPD-Link III connection.
> 
> The example is quite close to ones found in reality, if we put aside
> production main boards from the real world, *the panel display modules*
> or sensor modules (in case of a reverted serializer to deserializer link
> connection to SoC) are even more complex, they host FPGAs, all kinds of
> sensors, RF tuners, audio sources and sinks, and loads of other
> incredible and fascinating stuff.
> 
> The published drivers allow to support very intricate and fine grained
> control of "remote" PCBs, and reducing the complexity to "just a media
> device" level could be done only if various IC functions are excluded
> from the consideration. Here my purpose is to demonstrate that
> * pinmux and GPIO controller functions are crucial and non-replaceable,
> * I2C bridge function modeled as another cell device actually does not
>   fit into the existing I2C host/mux device driver models, and it is
>   a completely new abstraction with custom device tree properties,
> * video bridge is absolutely transparent, thus trivial, and is modeled
>   as another cell device, if needed it would be possible to write a
>   DRM driver at no cost,
> * reusing OF graph model fits naturally, bus vs. link discussion can
>   be started separately, note that LVDS (a.k.a FPD-Link) is formally
>   an electric bus, so please define the difference,
> * to sum up I see no real objections to the given model of IC series
>   support in Linux as an MFD parent device driver, plus pinmux/GPIO
>   controller cell device driver, plus other needed cell device drivers.
> 
> For video bridging I fabricated a "video-bridge" device driver, it can
> be substituted by your "lvds-encoder" driver, here I just need a simple
> transparent video bridge driver with NO media controls, its only purpose
> is to establish OF graph links, also note that on "remote" side a
> video bridge cell node can be omitted (but it may ).
> 
> The example is NOT build tested and it may contain errors of secondary
> importance, but it tends to repeat the real usage and description of
> TI DS90Ux9xx equipped boards.
> 
> ======== The panel display module board device tree description ========
> 
> / {
> 	display-module {
> 		panel {
> 			compatible = "auo,c070eat01", "panel-lvds";
> 			pinctrl-names = "default";
> 			pinctrl-0 = <&panel_pins>;
> 
> 			width-mm = <153>;
> 			height-mm = <90>;
> 
> 			data-mapping = "jeida-24";
> 
> 			panel-timing {
> 				clock-frequency = <71000000>;
> 				hactive = <1280>;
> 				vactive = <800>;
> 				hsync-len = <70>;
> 				hfront-porch = <20>;
> 				hback-porch = <70>;
> 				vsync-len = <5>;
> 				vfront-porch = <3>;
> 				vback-porch = <15>;
> 			};
> 
> 			port {
> 				panel_input: endpoint {
> 					remote-endpoint = <&ds90ub928_output>;
> 				};
> 			};
> 		};
> 
> 		deserializer: deserializer {
> 			compatible = "ti,ds90ub928q", "ti,ds90ux9xx";
> 
> 			i2c-bridge {
> 				compatible = "ti,ds90ux9xx-i2c-bridge";
> 				#address-cells = <1>;
> 				#size-cells = <0>;
> 
> 				touchscreen@4b {
> 					compatible = "atmel,maxtouch";
> 					reg = <0x4b>;
> 					pinctrl-names = "default";
> 					pinctrl-0 = <&touchscreen_pins>;
> 					interrupt-parent = <&ds90ub927_intc>;
> 					interrupts = <0>;
> 					atmel,mtu = <200>;
> 				};
> 
> 				eeprom@50 {
> 					compatible = "microchip,24lc128";
> 					reg = <0x50>;
> 					pagesize = <64>;
> 				};
> 			};
> 
> 			ds90ub928_pctrl: pin-controller {
> 				compatible = "ti,ds90ub928q-pinctrl", "ti,ds90ux9xx-pinctrl";
> 				gpio-controller;
> 				#gpio-cells = <2>;
> 				gpio-ranges = <&ds90ub928_pctrl 0 0 8>;
> 
> 				pinctrl-names = "default";
> 				pinctrl-0 = <&led_pins>;
> 
> 				led_pins: pinmux {
> 					gpio-remote {
> 						pins = "gpio0";
> 						function = "gpio-remote";
> 					};
> 				};
> 
> 				panel_pins: panel-pwm {
> 					gpio-remote {
> 						pins = "gpio1";
> 						function = "gpio-remote";
> 					};
> 				};
> 
> 				touchscreen_pins: touchscreen-power-up {
> 					gpio-hog;
> 					gpios = <4 GPIO_ACTIVE_HIGH>;
> 					output-high;
> 				};
> 			};
> 
> 			/*
> 			 * For simplicity video-bridge can be simply removed here
> 			 * by "connecting" ds90ub927_fpd to &panel_input directly.
> 			 */
> 			video-bridge {
> 				compatible = "ti,ds90ux9xx-video-bridge", "video-bridge";
> 
> 				ports {
> 					#address-cells = <1>;
> 					#size-cells = <0>;
> 
> 					port@0 {
> 						reg = <0>;
> 						ds90ub928_fpd: endpoint {
> 							remote-endpoint = <&ds90ub927_fpd>;
> 						};
> 					};
> 
> 					port@1 {
> 						reg = <1>;
> 						ds90ub928_output: endpoint {
> 							remote-endpoint = <&panel_input>;
> 						};
> 					};
> 				};
> 			};
> 		};
> 	};
> };
> 
> ======== The main board device tree description ========
> 
> / {
> 	/* iMX6 series SoC for demonstration purpose */
> 
> 	&ldb {
> 		status = "okay";
> 
> 		lvds-channel@1 {
> 			status = "okay";
> 			fsl,data-mapping = "jeida";
> 			fsl,data-width = <24>;
> 
> 			port@4 {
> 				reg = <4>;
> 
> 				lvds1_out: endpoint {
> 					remote-endpoint = <&ds90ub927_lvds>;
> 				};
> 			};
> 		};
> 	};
> 
> 	&i2c2 {
> 		status = "okay";
> 		clock-frequency = <400000>;
> 
> 		serializer: serializer@c {
> 			compatible = "ti,ds90ub927q", "ti,ds90ux9xx";
> 			reg = <0xc>;
> 			power-gpios = <&gpio5 10 GPIO_ACTIVE_HIGH>;
> 			ti,backward-compatible-mode = <0>;
> 			ti,low-frequency-mode = <0>;
> 
> 			i2c-bridge {
> 				compatible = "ti,ds90ux9xx-i2c-bridge";
> 				ti,i2c-bridges = <&deserializer 0 0x3b>;

DT should describe the connections with leaf nodes pointing towards the
centre (CPU). Thus the local chip (serializer) pointing to the remote
chip (serializer) is wrong here. Among others, it forbids the
display-module tree from being a DT overlay inserted at runtime. This is
fundamental to have different remote boards, detected at runtime.

Of course runtime insertion/removal opens other issues, namely the fact
that media-ctl nodes point to each other, and a media pipeline is not
quite modifiable while streaming. But that is another issue.

> 				ti,i2c-bridge-maps = <0 0x4b 0x60>, <0 0x50 0x52>;
> 			};
> 
> 			ds90ub927_intc: interrupt-controller {
> 				compatible = "ti,ds90ub927-intc";
> 				interrupt-parent = <&gpio5>;
> 				interrupts = <4 IRQ_TYPE_EDGE_RISING>;
> 				interrupt-controller;
> 				#interrupt-cells = <1>;
> 			};
> 
> 			ds90ub927_pctrl: pin-controller {
> 				compatible = "ti,ds90ub927b-pinctrl", "ti,ds90ux9xx-pinctrl";
> 				gpio-controller;
> 				#gpio-cells = <2>;
> 				gpio-ranges = <&ds90ub927_pctrl 0 0 8>;
> 
> 				/* Wired to some SoC controlled GPIO */
> 				pwm-backlight {
> 					gpio-hog;
> 					gpios = <1 GPIO_ACTIVE_HIGH>;
> 					input;
> 				};
> 
> 				led_pins: pinmux {
> 					gpio-remote {
> 						pins = "gpio2";
> 						function = "gpio-remote";
> 					};
> 				};
> 			};
> 
> 			video-bridge {
> 				compatible = "ti,ds90ux9xx-video-bridge", "video-bridge";
> 
> 				ports {
> 					#address-cells = <1>;
> 					#size-cells = <0>;
> 
> 					port@0 {
> 						reg = <0>;
> 						ds90ub927_lvds: endpoint {
> 							remote-endpoint = <&lvds1_out>;
> 						};
> 					};
> 
> 					port@1 {
> 						reg = <1>;
> 						ds90ub927_fpd: endpoint {
> 							remote-endpoint = <&ds90ub928_fpd>;
> 						};
> 					};
> 				};
> 			};
> 		};
> 	};
> };
> 
> ==== end of example =====
> 
> --
> Best wishes,
> Vladimir
> 

-- 
Luca



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