Documentation/devicetree/bindings/gpio/nvidia,tegra186-gpio.yaml - linux - Git at Google

 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
 %YAML 1.2
 ---
 $id: http://devicetree.org/schemas/gpio/nvidia,tegra186-gpio.yaml#
 $schema: http://devicetree.org/meta-schemas/core.yaml#

 title: NVIDIA Tegra GPIO Controller (Tegra186 and later)

 maintainers:
   - Thierry Reding <thierry.reding@gmail.com>
   - Jon Hunter <jonathanh@nvidia.com>

 description: |
   Tegra186 contains two GPIO controllers; a main controller and an "AON"
   controller. This binding document applies to both controllers. The register
   layouts for the controllers share many similarities, but also some
   significant differences. Hence, this document describes closely related but
   different bindings and compatible values.

   The Tegra186 GPIO controller allows software to set the IO direction of,
   and read/write the value of, numerous GPIO signals. Routing of GPIO signals
   to package balls is under the control of a separate pin controller hardware
   block. Two major sets of registers exist:

     a) Security registers, which allow configuration of allowed access to the
        GPIO register set. These registers exist in a single contiguous block
        of physical address space. The size of this block, and the security
        features available, varies between the different GPIO controllers.

        Access to this set of registers is not necessary in all circumstances.
        Code that wishes to configure access to the GPIO registers needs access
        to these registers to do so. Code which simply wishes to read or write
        GPIO data does not need access to these registers.

     b) GPIO registers, which allow manipulation of the GPIO signals. In some
        GPIO controllers, these registers are exposed via multiple "physical
        aliases" in address space, each of which access the same underlying
        state. See the hardware documentation for rationale. Any particular
        GPIO client is expected to access just one of these physical aliases.

     Tegra HW documentation describes a unified naming convention for all GPIOs
     implemented by the SoC. Each GPIO is assigned to a port, and a port may
     control a number of GPIOs. Thus, each GPIO is named according to an
     alphabetical port name and an integer GPIO name within the port. For
     example, GPIO_PA0, GPIO_PN6, or GPIO_PCC3.

     The number of ports implemented by each GPIO controller varies. The number
     of implemented GPIOs within each port varies. GPIO registers within a
     controller are grouped and laid out according to the port they affect.

     The mapping from port name to the GPIO controller that implements that
     port, and the mapping from port name to register offset within a
     controller, are both extremely non-linear. The header file
     <dt-bindings/gpio/tegra186-gpio.h> describes the port-level mapping. In
     that file, the naming convention for ports matches the HW documentation.
     The values chosen for the names are alphabetically sorted within a
     particular controller. Drivers need to map between the DT GPIO IDs and HW
     register offsets using a lookup table.

     Each GPIO controller can generate a number of interrupt signals. Each
     signal represents the aggregate status for all GPIOs within a set of
     ports. Thus, the number of interrupt signals generated by a controller
     varies as a rough function of the number of ports it implements. Note
     that the HW documentation refers to both the overall controller HW
     module and the sets-of-ports as "controllers".

     Each GPIO controller in fact generates multiple interrupts signals for
     each set of ports. Each GPIO may be configured to feed into a specific
     one of the interrupt signals generated by a set-of-ports. The intent is
     for each generated signal to be routed to a different CPU, thus allowing
     different CPUs to each handle subsets of the interrupts within a port.
     The status of each of these per-port-set signals is reported via a
     separate register. Thus, a driver needs to know which status register to
     observe. This binding currently defines no configuration mechanism for
     this. By default, drivers should use register
     GPIO_${port}_INTERRUPT_STATUS_G1_0. Future revisions to the binding could
     define a property to configure this.

 properties:
   compatible:
     enum:
       - nvidia,tegra186-gpio
       - nvidia,tegra186-gpio-aon
       - nvidia,tegra194-gpio
       - nvidia,tegra194-gpio-aon
       - nvidia,tegra234-gpio
       - nvidia,tegra234-gpio-aon

   reg-names:
     items:
       - const: security
       - const: gpio
     minItems: 1

   reg:
     items:
       - description: Security configuration registers.
       - description: |
           GPIO control registers. This may cover either:

             a) The single physical alias that this OS should use.
             b) All physical aliases that exist in the controller. This is
                appropriate when the OS is responsible for managing assignment
                of the physical aliases.
     minItems: 1

   interrupts:
     description: The interrupt outputs from the HW block, one per set of
       ports, in the order the HW manual describes them. The number of entries
       required varies depending on compatible value.

   gpio-controller: true

   "#gpio-cells":
     description: |
       Indicates how many cells are used in a consumer's GPIO specifier. In the
       specifier:

         - The first cell is the pin number.
           See <dt-bindings/gpio/tegra186-gpio.h>.
         - The second cell contains flags:
           - Bit 0 specifies polarity
             - 0: Active-high (normal).
             - 1: Active-low (inverted).
     const: 2

   interrupt-controller: true

   "#interrupt-cells":
     description: |
       Indicates how many cells are used in a consumer's interrupt specifier.
       In the specifier:

         - The first cell is the GPIO number.
           See <dt-bindings/gpio/tegra186-gpio.h>.
         - The second cell is contains flags:
           - Bits [3:0] indicate trigger type and level:
             - 1: Low-to-high edge triggered.
             - 2: High-to-low edge triggered.
             - 4: Active high level-sensitive.
             - 8: Active low level-sensitive.

             Valid combinations are 1, 2, 3, 4, 8.
     const: 2

 allOf:
   - if:
       properties:
         compatible:
           contains:
             enum:
               - nvidia,tegra186-gpio
               - nvidia,tegra194-gpio
               - nvidia,tegra234-gpio
     then:
       properties:
         interrupts:
           minItems: 6
           maxItems: 48

   - if:
       properties:
         compatible:
           contains:
             enum:
               - nvidia,tegra186-gpio-aon
               - nvidia,tegra194-gpio-aon
               - nvidia,tegra234-gpio-aon
     then:
       properties:
         interrupts:
           minItems: 1
           maxItems: 4

 required:
   - compatible
   - reg
   - reg-names
   - interrupts

 additionalProperties: false

 examples:
   - |
     #include <dt-bindings/interrupt-controller/irq.h>

     gpio@2200000 {
         compatible = "nvidia,tegra186-gpio";
         reg-names = "security", "gpio";
         reg = <0x2200000 0x10000>,
               <0x2210000 0x10000>;
         interrupts = <0  47 IRQ_TYPE_LEVEL_HIGH>,
                      <0  50 IRQ_TYPE_LEVEL_HIGH>,
                      <0  53 IRQ_TYPE_LEVEL_HIGH>,
                      <0  56 IRQ_TYPE_LEVEL_HIGH>,
                      <0  59 IRQ_TYPE_LEVEL_HIGH>,
                      <0 180 IRQ_TYPE_LEVEL_HIGH>;
         gpio-controller;
         #gpio-cells = <2>;
         interrupt-controller;
         #interrupt-cells = <2>;
     };

     gpio@c2f0000 {
         compatible = "nvidia,tegra186-gpio-aon";
         reg-names = "security", "gpio";
         reg = <0xc2f0000 0x1000>,
               <0xc2f1000 0x1000>;
         interrupts = <0 60 IRQ_TYPE_LEVEL_HIGH>;
         gpio-controller;
         #gpio-cells = <2>;
         interrupt-controller;
         #interrupt-cells = <2>;
     };
	# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
	%YAML 1.2
	---
	$id: http://devicetree.org/schemas/gpio/nvidia,tegra186-gpio.yaml#
	$schema: http://devicetree.org/meta-schemas/core.yaml#

	title: NVIDIA Tegra GPIO Controller (Tegra186 and later)

	maintainers:
	- Thierry Reding <thierry.reding@gmail.com>
	- Jon Hunter <jonathanh@nvidia.com>

	description: \|
	Tegra186 contains two GPIO controllers; a main controller and an "AON"
	controller. This binding document applies to both controllers. The register
	layouts for the controllers share many similarities, but also some
	significant differences. Hence, this document describes closely related but
	different bindings and compatible values.

	The Tegra186 GPIO controller allows software to set the IO direction of,
	and read/write the value of, numerous GPIO signals. Routing of GPIO signals
	to package balls is under the control of a separate pin controller hardware
	block. Two major sets of registers exist:

	a) Security registers, which allow configuration of allowed access to the
	GPIO register set. These registers exist in a single contiguous block
	of physical address space. The size of this block, and the security
	features available, varies between the different GPIO controllers.

	Access to this set of registers is not necessary in all circumstances.
	Code that wishes to configure access to the GPIO registers needs access
	to these registers to do so. Code which simply wishes to read or write
	GPIO data does not need access to these registers.

	b) GPIO registers, which allow manipulation of the GPIO signals. In some
	GPIO controllers, these registers are exposed via multiple "physical
	aliases" in address space, each of which access the same underlying
	state. See the hardware documentation for rationale. Any particular
	GPIO client is expected to access just one of these physical aliases.

	Tegra HW documentation describes a unified naming convention for all GPIOs
	implemented by the SoC. Each GPIO is assigned to a port, and a port may
	control a number of GPIOs. Thus, each GPIO is named according to an
	alphabetical port name and an integer GPIO name within the port. For
	example, GPIO_PA0, GPIO_PN6, or GPIO_PCC3.

	The number of ports implemented by each GPIO controller varies. The number
	of implemented GPIOs within each port varies. GPIO registers within a
	controller are grouped and laid out according to the port they affect.

	The mapping from port name to the GPIO controller that implements that
	port, and the mapping from port name to register offset within a
	controller, are both extremely non-linear. The header file
	<dt-bindings/gpio/tegra186-gpio.h> describes the port-level mapping. In
	that file, the naming convention for ports matches the HW documentation.
	The values chosen for the names are alphabetically sorted within a
	particular controller. Drivers need to map between the DT GPIO IDs and HW
	register offsets using a lookup table.

	Each GPIO controller can generate a number of interrupt signals. Each
	signal represents the aggregate status for all GPIOs within a set of
	ports. Thus, the number of interrupt signals generated by a controller
	varies as a rough function of the number of ports it implements. Note
	that the HW documentation refers to both the overall controller HW
	module and the sets-of-ports as "controllers".

	Each GPIO controller in fact generates multiple interrupts signals for
	each set of ports. Each GPIO may be configured to feed into a specific
	one of the interrupt signals generated by a set-of-ports. The intent is
	for each generated signal to be routed to a different CPU, thus allowing
	different CPUs to each handle subsets of the interrupts within a port.
	The status of each of these per-port-set signals is reported via a
	separate register. Thus, a driver needs to know which status register to
	observe. This binding currently defines no configuration mechanism for
	this. By default, drivers should use register
	GPIO_${port}_INTERRUPT_STATUS_G1_0. Future revisions to the binding could
	define a property to configure this.

	properties:
	compatible:
	enum:
	- nvidia,tegra186-gpio
	- nvidia,tegra186-gpio-aon
	- nvidia,tegra194-gpio
	- nvidia,tegra194-gpio-aon
	- nvidia,tegra234-gpio
	- nvidia,tegra234-gpio-aon

	reg-names:
	items:
	- const: security
	- const: gpio
	minItems: 1

	reg:
	items:
	- description: Security configuration registers.
	- description: \|
	GPIO control registers. This may cover either:

	a) The single physical alias that this OS should use.
	b) All physical aliases that exist in the controller. This is
	appropriate when the OS is responsible for managing assignment
	of the physical aliases.
	minItems: 1

	interrupts:
	description: The interrupt outputs from the HW block, one per set of
	ports, in the order the HW manual describes them. The number of entries
	required varies depending on compatible value.

	gpio-controller: true

	"#gpio-cells":
	description: \|
	Indicates how many cells are used in a consumer's GPIO specifier. In the
	specifier:

	- The first cell is the pin number.
	See <dt-bindings/gpio/tegra186-gpio.h>.
	- The second cell contains flags:
	- Bit 0 specifies polarity
	- 0: Active-high (normal).
	- 1: Active-low (inverted).
	const: 2

	interrupt-controller: true

	"#interrupt-cells":
	description: \|
	Indicates how many cells are used in a consumer's interrupt specifier.
	In the specifier:

	- The first cell is the GPIO number.
	See <dt-bindings/gpio/tegra186-gpio.h>.
	- The second cell is contains flags:
	- Bits [3:0] indicate trigger type and level:
	- 1: Low-to-high edge triggered.
	- 2: High-to-low edge triggered.
	- 4: Active high level-sensitive.
	- 8: Active low level-sensitive.

	Valid combinations are 1, 2, 3, 4, 8.
	const: 2

	allOf:
	- if:
	properties:
	compatible:
	contains:
	enum:
	- nvidia,tegra186-gpio
	- nvidia,tegra194-gpio
	- nvidia,tegra234-gpio
	then:
	properties:
	interrupts:
	minItems: 6
	maxItems: 48

	- if:
	properties:
	compatible:
	contains:
	enum:
	- nvidia,tegra186-gpio-aon
	- nvidia,tegra194-gpio-aon
	- nvidia,tegra234-gpio-aon
	then:
	properties:
	interrupts:
	minItems: 1
	maxItems: 4

	required:
	- compatible
	- reg
	- reg-names
	- interrupts

	additionalProperties: false

	examples:
	- \|
	#include <dt-bindings/interrupt-controller/irq.h>

	gpio@2200000 {
	compatible = "nvidia,tegra186-gpio";
	reg-names = "security", "gpio";
	reg = <0x2200000 0x10000>,
	<0x2210000 0x10000>;
	interrupts = <0 47 IRQ_TYPE_LEVEL_HIGH>,
	<0 50 IRQ_TYPE_LEVEL_HIGH>,
	<0 53 IRQ_TYPE_LEVEL_HIGH>,
	<0 56 IRQ_TYPE_LEVEL_HIGH>,
	<0 59 IRQ_TYPE_LEVEL_HIGH>,
	<0 180 IRQ_TYPE_LEVEL_HIGH>;
	gpio-controller;
	#gpio-cells = <2>;
	interrupt-controller;
	#interrupt-cells = <2>;
	};

	gpio@c2f0000 {
	compatible = "nvidia,tegra186-gpio-aon";
	reg-names = "security", "gpio";
	reg = <0xc2f0000 0x1000>,
	<0xc2f1000 0x1000>;
	interrupts = <0 60 IRQ_TYPE_LEVEL_HIGH>;
	gpio-controller;
	#gpio-cells = <2>;
	interrupt-controller;
	#interrupt-cells = <2>;
	};