Documentation/devicetree/bindings/mux/mux-controller.yaml - linux - Git at Google

 # SPDX-License-Identifier: GPL-2.0
 %YAML 1.2
 ---
 $id: http://devicetree.org/schemas/mux/mux-controller.yaml#
 $schema: http://devicetree.org/meta-schemas/core.yaml#

 title: Common multiplexer controller provider bindings

 maintainers:
   - Peter Rosin <peda@axentia.se>

 description: |
   A multiplexer (or mux) controller will have one, or several, consumer devices
   that uses the mux controller. Thus, a mux controller can possibly control
   several parallel multiplexers. Presumably there will be at least one
   multiplexer needed by each consumer, but a single mux controller can of course
   control several multiplexers for a single consumer.

   A mux controller provides a number of states to its consumers, and the state
   space is a simple zero-based enumeration. I.e. 0-1 for a 2-way multiplexer,
   0-7 for an 8-way multiplexer, etc.


   Mux controller nodes
   --------------------

   Mux controller nodes must specify the number of cells used for the
   specifier using the '#mux-control-cells' property.

   Optionally, mux controller nodes can also specify the state the mux should
   have when it is idle. The idle-state property is used for this. If the
   idle-state is not present, the mux controller is typically left as is when
   it is idle. For multiplexer chips that expose several mux controllers, the
   idle-state property is an array with one idle state for each mux controller.

   The special value (-1) may be used to indicate that the mux should be left
   as is when it is idle. This is the default, but can still be useful for
   mux controller chips with more than one mux controller, particularly when
   there is a need to "step past" a mux controller and set some other idle
   state for a mux controller with a higher index.

   Some mux controllers have the ability to disconnect the input/output of the
   multiplexer. Using this disconnected high-impedance state as the idle state
   is indicated with idle state (-2).

   These constants are available in

         #include <dt-bindings/mux/mux.h>

   as MUX_IDLE_AS_IS (-1) and MUX_IDLE_DISCONNECT (-2).

   An example mux controller node look like this (the adg972a chip is a triple
   4-way multiplexer):

     mux: mux-controller@50 {
       compatible = "adi,adg792a";
       reg = <0x50>;
       #mux-control-cells = <1>;

       idle-state = <MUX_IDLE_DISCONNECT MUX_IDLE_AS_IS 2>;
     };

 select:
   anyOf:
     - properties:
         $nodename:
           pattern: '^mux-controller'
     - required:
         - '#mux-control-cells'

 properties:
   $nodename:
     pattern: '^mux-controller(@.*|-[0-9a-f]+)?$'

   '#mux-control-cells':
     enum: [ 0, 1 ]

   idle-state:
     $ref: /schemas/types.yaml#/definitions/int32
     minimum: -2

   idle-states:
     description: |
       Mux controller nodes can specify the state the mux should have when it is
       idle. If the idle-state is not present, the mux controller is typically
       left as is when it is idle. For multiplexer chips that expose several mux
       controllers, the idle-state property is an array with one idle state for
       each mux controller.

       The special value (-1) may be used to indicate that the mux should be left
       as is when it is idle. This is the default, but can still be useful for
       mux controller chips with more than one mux controller, particularly when
       there is a need to "step past" a mux controller and set some other idle
       state for a mux controller with a higher index.

       Some mux controllers have the ability to disconnect the input/output of the
       multiplexer. Using this disconnected high-impedance state as the idle state
       is indicated with idle state (-2).
     $ref: /schemas/types.yaml#/definitions/int32-array
     items:
       minimum: -2

 additionalProperties: true

 examples:
   - |
     #include <dt-bindings/gpio/gpio.h>

     /* One consumer of a 2-way mux controller (one GPIO-line) */
     mux: mux-controller {
         compatible = "gpio-mux";
         #mux-control-cells = <0>;

         mux-gpios = <&pioA 0 GPIO_ACTIVE_HIGH>;
     };

     adc-mux {
         compatible = "io-channel-mux";
         io-channels = <&adc 0>;
         io-channel-names = "parent";

         mux-controls = <&mux>;
         mux-control-names = "adc";

         channels = "sync", "in";
     };

   - |
     #include <dt-bindings/gpio/gpio.h>

     /*
      * Two consumers (one for an ADC line and one for an i2c bus) of
      * parallel 4-way multiplexers controlled by the same two GPIO-lines.
      */
     mux2: mux-controller {
         compatible = "gpio-mux";
         #mux-control-cells = <0>;

         mux-gpios = <&pioA 0 GPIO_ACTIVE_HIGH>,
               <&pioA 1 GPIO_ACTIVE_HIGH>;
     };

     adc-mux {
         compatible = "io-channel-mux";
         io-channels = <&adc 0>;
         io-channel-names = "parent";

         mux-controls = <&mux2>;

         channels = "sync-1", "in", "out", "sync-2";
     };

     i2c-mux {
         compatible = "i2c-mux";
         i2c-parent = <&i2c1>;

         mux-controls = <&mux2>;

         #address-cells = <1>;
         #size-cells = <0>;

         i2c@0 {
             reg = <0>;
             #address-cells = <1>;
             #size-cells = <0>;

             ssd1307: oled@3c {
                 reg = <0x3c>;
             };
         };

         i2c@3 {
             reg = <3>;
             #address-cells = <1>;
             #size-cells = <0>;

             pca9555: pca9555@20 {
                 reg = <0x20>;
             };
         };
     };
 ...
	# SPDX-License-Identifier: GPL-2.0
	%YAML 1.2
	---
	$id: http://devicetree.org/schemas/mux/mux-controller.yaml#
	$schema: http://devicetree.org/meta-schemas/core.yaml#

	title: Common multiplexer controller provider bindings

	maintainers:
	- Peter Rosin <peda@axentia.se>

	description: \|
	A multiplexer (or mux) controller will have one, or several, consumer devices
	that uses the mux controller. Thus, a mux controller can possibly control
	several parallel multiplexers. Presumably there will be at least one
	multiplexer needed by each consumer, but a single mux controller can of course
	control several multiplexers for a single consumer.

	A mux controller provides a number of states to its consumers, and the state
	space is a simple zero-based enumeration. I.e. 0-1 for a 2-way multiplexer,
	0-7 for an 8-way multiplexer, etc.


	Mux controller nodes
	--------------------

	Mux controller nodes must specify the number of cells used for the
	specifier using the '#mux-control-cells' property.

	Optionally, mux controller nodes can also specify the state the mux should
	have when it is idle. The idle-state property is used for this. If the
	idle-state is not present, the mux controller is typically left as is when
	it is idle. For multiplexer chips that expose several mux controllers, the
	idle-state property is an array with one idle state for each mux controller.

	The special value (-1) may be used to indicate that the mux should be left
	as is when it is idle. This is the default, but can still be useful for
	mux controller chips with more than one mux controller, particularly when
	there is a need to "step past" a mux controller and set some other idle
	state for a mux controller with a higher index.

	Some mux controllers have the ability to disconnect the input/output of the
	multiplexer. Using this disconnected high-impedance state as the idle state
	is indicated with idle state (-2).

	These constants are available in

	#include <dt-bindings/mux/mux.h>

	as MUX_IDLE_AS_IS (-1) and MUX_IDLE_DISCONNECT (-2).

	An example mux controller node look like this (the adg972a chip is a triple
	4-way multiplexer):

	mux: mux-controller@50 {
	compatible = "adi,adg792a";
	reg = <0x50>;
	#mux-control-cells = <1>;

	idle-state = <MUX_IDLE_DISCONNECT MUX_IDLE_AS_IS 2>;
	};

	select:
	anyOf:
	- properties:
	$nodename:
	pattern: '^mux-controller'
	- required:
	- '#mux-control-cells'

	properties:
	$nodename:
	pattern: '^mux-controller(@.*\|-[0-9a-f]+)?$'

	'#mux-control-cells':
	enum: [ 0, 1 ]

	idle-state:
	$ref: /schemas/types.yaml#/definitions/int32
	minimum: -2

	idle-states:
	description: \|
	Mux controller nodes can specify the state the mux should have when it is
	idle. If the idle-state is not present, the mux controller is typically
	left as is when it is idle. For multiplexer chips that expose several mux
	controllers, the idle-state property is an array with one idle state for
	each mux controller.

	The special value (-1) may be used to indicate that the mux should be left
	as is when it is idle. This is the default, but can still be useful for
	mux controller chips with more than one mux controller, particularly when
	there is a need to "step past" a mux controller and set some other idle
	state for a mux controller with a higher index.

	Some mux controllers have the ability to disconnect the input/output of the
	multiplexer. Using this disconnected high-impedance state as the idle state
	is indicated with idle state (-2).
	$ref: /schemas/types.yaml#/definitions/int32-array
	items:
	minimum: -2

	additionalProperties: true

	examples:
	- \|
	#include <dt-bindings/gpio/gpio.h>

	/* One consumer of a 2-way mux controller (one GPIO-line) */
	mux: mux-controller {
	compatible = "gpio-mux";
	#mux-control-cells = <0>;

	mux-gpios = <&pioA 0 GPIO_ACTIVE_HIGH>;
	};

	adc-mux {
	compatible = "io-channel-mux";
	io-channels = <&adc 0>;
	io-channel-names = "parent";

	mux-controls = <&mux>;
	mux-control-names = "adc";

	channels = "sync", "in";
	};

	- \|
	#include <dt-bindings/gpio/gpio.h>

	/*
	* Two consumers (one for an ADC line and one for an i2c bus) of
	* parallel 4-way multiplexers controlled by the same two GPIO-lines.
	*/
	mux2: mux-controller {
	compatible = "gpio-mux";
	#mux-control-cells = <0>;

	mux-gpios = <&pioA 0 GPIO_ACTIVE_HIGH>,
	<&pioA 1 GPIO_ACTIVE_HIGH>;
	};

	adc-mux {
	compatible = "io-channel-mux";
	io-channels = <&adc 0>;
	io-channel-names = "parent";

	mux-controls = <&mux2>;

	channels = "sync-1", "in", "out", "sync-2";
	};

	i2c-mux {
	compatible = "i2c-mux";
	i2c-parent = <&i2c1>;

	mux-controls = <&mux2>;

	#address-cells = <1>;
	#size-cells = <0>;

	i2c@0 {
	reg = <0>;
	#address-cells = <1>;
	#size-cells = <0>;

	ssd1307: oled@3c {
	reg = <0x3c>;
	};
	};

	i2c@3 {
	reg = <3>;
	#address-cells = <1>;
	#size-cells = <0>;

	pca9555: pca9555@20 {
	reg = <0x20>;
	};
	};
	};
	...