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e86328c489
GPIO core:
- Define and handle flags for open drain/open collector
and open source/open emitter, also know as "single-ended"
configurations.
- Generic request/free operations that handle calling out
to the (optional) pin control backend.
- Some refactoring related to an ABI change that did not
happen, yet provide useful.
- Added a real-time compliance checklist. Many GPIO chips
have irqchips, and need to think this over with the RT
patches going upstream.
- Restructure, fix and clean up Kconfig menus a bit.
New drivers:
- New driver for AMD Promony.
- New driver for ACCES 104-IDIO-16, a port-mapped I/O
card, ISA-style. Very retro.
Subdriver changes:
- OMAP changes to handle real time requirements.
- Handle trigger types for edge and level IRQs on PL061
properly. As this hardware is very common it needs to
set a proper example for others to follow.
- Some container_of() cleanups.
- Delete the unused MSM driver in favor of the driver that
is embedded inside the pin control driver.
- Cleanup of the ath79 GPIO driver used by many, many
OpenWRT router targets.
- A consolidated IT87xx driver replacing the earlier
very specific IT8761e driver.
- Handle the TI TCA9539 in the PCA953x driver. Also
handle ACPI devices in this subdriver.
- Drop xilinx arch dependencies as these FPGAs seem to
profilate over a few different architectures. MIPS and
ARM come to mind.
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Merge tag 'gpio-v4.4-1' of git://git.kernel.org/pub/scm/linux/kernel/git/linusw/linux-gpio
Pull GPIO updates from Linus Walleij:
"Here is the bulk of GPIO changes for the v4.4 development cycle.
The only changes hitting outside drivers/gpio are in the pin control
subsystem and these seem to have settled nicely in linux-next.
Development mistakes and catfights are nicely documented in the
reverts as you can see. The outcome of the ABI fight is that we're
working on a chardev ABI for GPIO now, where hope to show results for
the v4.5 kernel.
Summary of changes:
GPIO core:
- Define and handle flags for open drain/open collector and open
source/open emitter, also know as "single-ended" configurations.
- Generic request/free operations that handle calling out to the
(optional) pin control backend.
- Some refactoring related to an ABI change that did not happen, yet
provide useful.
- Added a real-time compliance checklist. Many GPIO chips have
irqchips, and need to think this over with the RT patches going
upstream.
- Restructure, fix and clean up Kconfig menus a bit.
New drivers:
- New driver for AMD Promony.
- New driver for ACCES 104-IDIO-16, a port-mapped I/O card,
ISA-style. Very retro.
Subdriver changes:
- OMAP changes to handle real time requirements.
- Handle trigger types for edge and level IRQs on PL061 properly. As
this hardware is very common it needs to set a proper example for
others to follow.
- Some container_of() cleanups.
- Delete the unused MSM driver in favor of the driver that is
embedded inside the pin control driver.
- Cleanup of the ath79 GPIO driver used by many, many OpenWRT router
targets.
- A consolidated IT87xx driver replacing the earlier very specific
IT8761e driver.
- Handle the TI TCA9539 in the PCA953x driver. Also handle ACPI
devices in this subdriver.
- Drop xilinx arch dependencies as these FPGAs seem to profilate over
a few different architectures. MIPS and ARM come to mind"
* tag 'gpio-v4.4-1' of git://git.kernel.org/pub/scm/linux/kernel/git/linusw/linux-gpio: (57 commits)
gpio: fix up SPI submenu
gpio: drop surplus I2C dependencies
gpio: drop surplus X86 dependencies
gpio: dt-bindings: document the official use of "ngpios"
gpio: MAINTAINERS: Add an entry for the ATH79 GPIO driver
gpio / ACPI: Allow shared GPIO event to be read via operation region
gpio: group port-mapped I/O drivers in a menu
gpio: Add ACCES 104-IDIO-16 driver maintainer entry
gpio: zynq: Document interrupt-controller DT binding
gpio: xilinx: Drop architecture dependencies
gpio: generic: Revert to old error handling in bgpio_map
gpio: add a real time compliance notes
Revert "gpio: add a real time compliance checklist"
gpio: Add GPIO support for the ACCES 104-IDIO-16
gpio: driver for AMD Promontory
gpio: xlp: Convert to use gpiolib irqchip helpers
gpio: add a real time compliance checklist
gpio/xilinx: enable for MIPS
gpiolib: Add and use OF_GPIO_SINGLE_ENDED flag
gpiolib: Split GPIO flags parsing and GPIO configuration
...
282 lines
10 KiB
Plaintext
282 lines
10 KiB
Plaintext
Specifying GPIO information for devices
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============================================
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1) gpios property
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-----------------
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Nodes that makes use of GPIOs should specify them using one or more
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properties, each containing a 'gpio-list':
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gpio-list ::= <single-gpio> [gpio-list]
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single-gpio ::= <gpio-phandle> <gpio-specifier>
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gpio-phandle : phandle to gpio controller node
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gpio-specifier : Array of #gpio-cells specifying specific gpio
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(controller specific)
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GPIO properties should be named "[<name>-]gpios", with <name> being the purpose
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of this GPIO for the device. While a non-existent <name> is considered valid
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for compatibility reasons (resolving to the "gpios" property), it is not allowed
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for new bindings. Also, GPIO properties named "[<name>-]gpio" are valid and old
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bindings use it, but are only supported for compatibility reasons and should not
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be used for newer bindings since it has been deprecated.
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GPIO properties can contain one or more GPIO phandles, but only in exceptional
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cases should they contain more than one. If your device uses several GPIOs with
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distinct functions, reference each of them under its own property, giving it a
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meaningful name. The only case where an array of GPIOs is accepted is when
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several GPIOs serve the same function (e.g. a parallel data line).
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The exact purpose of each gpios property must be documented in the device tree
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binding of the device.
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The following example could be used to describe GPIO pins used as device enable
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and bit-banged data signals:
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gpio1: gpio1 {
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gpio-controller
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#gpio-cells = <2>;
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};
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gpio2: gpio2 {
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gpio-controller
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#gpio-cells = <1>;
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};
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[...]
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enable-gpios = <&gpio2 2>;
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data-gpios = <&gpio1 12 0>,
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<&gpio1 13 0>,
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<&gpio1 14 0>,
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<&gpio1 15 0>;
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Note that gpio-specifier length is controller dependent. In the
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above example, &gpio1 uses 2 cells to specify a gpio, while &gpio2
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only uses one.
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gpio-specifier may encode: bank, pin position inside the bank,
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whether pin is open-drain and whether pin is logically inverted.
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Exact meaning of each specifier cell is controller specific, and must
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be documented in the device tree binding for the device.
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Most controllers are however specifying a generic flag bitfield
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in the last cell, so for these, use the macros defined in
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include/dt-bindings/gpio/gpio.h whenever possible:
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Example of a node using GPIOs:
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node {
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enable-gpios = <&qe_pio_e 18 GPIO_ACTIVE_HIGH>;
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};
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GPIO_ACTIVE_HIGH is 0, so in this example gpio-specifier is "18 0" and encodes
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GPIO pin number, and GPIO flags as accepted by the "qe_pio_e" gpio-controller.
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Optional standard bitfield specifiers for the last cell:
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- Bit 0: 0 means active high, 1 means active low
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- Bit 1: 1 means single-ended wiring, see:
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https://en.wikipedia.org/wiki/Single-ended_triode
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When used with active-low, this means open drain/collector, see:
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https://en.wikipedia.org/wiki/Open_collector
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When used with active-high, this means open source/emitter
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1.1) GPIO specifier best practices
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----------------------------------
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A gpio-specifier should contain a flag indicating the GPIO polarity; active-
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high or active-low. If it does, the following best practices should be
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followed:
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The gpio-specifier's polarity flag should represent the physical level at the
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GPIO controller that achieves (or represents, for inputs) a logically asserted
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value at the device. The exact definition of logically asserted should be
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defined by the binding for the device. If the board inverts the signal between
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the GPIO controller and the device, then the gpio-specifier will represent the
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opposite physical level than the signal at the device's pin.
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When the device's signal polarity is configurable, the binding for the
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device must either:
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a) Define a single static polarity for the signal, with the expectation that
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any software using that binding would statically program the device to use
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that signal polarity.
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The static choice of polarity may be either:
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a1) (Preferred) Dictated by a binding-specific DT property.
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or:
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a2) Defined statically by the DT binding itself.
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In particular, the polarity cannot be derived from the gpio-specifier, since
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that would prevent the DT from separately representing the two orthogonal
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concepts of configurable signal polarity in the device, and possible board-
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level signal inversion.
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or:
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b) Pick a single option for device signal polarity, and document this choice
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in the binding. The gpio-specifier should represent the polarity of the signal
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(at the GPIO controller) assuming that the device is configured for this
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particular signal polarity choice. If software chooses to program the device
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to generate or receive a signal of the opposite polarity, software will be
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responsible for correctly interpreting (inverting) the GPIO signal at the GPIO
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controller.
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2) gpio-controller nodes
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------------------------
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Every GPIO controller node must contain both an empty "gpio-controller"
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property, and a #gpio-cells integer property, which indicates the number of
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cells in a gpio-specifier.
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Optionally, a GPIO controller may have a "ngpios" property. This property
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indicates the number of in-use slots of available slots for GPIOs. The
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typical example is something like this: the hardware register is 32 bits
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wide, but only 18 of the bits have a physical counterpart. The driver is
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generally written so that all 32 bits can be used, but the IP block is reused
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in a lot of designs, some using all 32 bits, some using 18 and some using
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12. In this case, setting "ngpios = <18>;" informs the driver that only the
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first 18 GPIOs, at local offset 0 .. 17, are in use.
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If these GPIOs do not happen to be the first N GPIOs at offset 0...N-1, an
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additional bitmask is needed to specify which GPIOs are actually in use,
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and which are dummies. The bindings for this case has not yet been
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specified, but should be specified if/when such hardware appears.
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Example:
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gpio-controller@00000000 {
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compatible = "foo";
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reg = <0x00000000 0x1000>;
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gpio-controller;
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#gpio-cells = <2>;
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ngpios = <18>;
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}
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The GPIO chip may contain GPIO hog definitions. GPIO hogging is a mechanism
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providing automatic GPIO request and configuration as part of the
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gpio-controller's driver probe function.
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Each GPIO hog definition is represented as a child node of the GPIO controller.
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Required properties:
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- gpio-hog: A property specifying that this child node represent a GPIO hog.
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- gpios: Store the GPIO information (id, flags, ...). Shall contain the
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number of cells specified in its parent node (GPIO controller
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node).
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Only one of the following properties scanned in the order shown below.
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This means that when multiple properties are present they will be searched
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in the order presented below and the first match is taken as the intended
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configuration.
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- input: A property specifying to set the GPIO direction as input.
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- output-low A property specifying to set the GPIO direction as output with
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the value low.
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- output-high A property specifying to set the GPIO direction as output with
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the value high.
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Optional properties:
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- line-name: The GPIO label name. If not present the node name is used.
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Example of two SOC GPIO banks defined as gpio-controller nodes:
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qe_pio_a: gpio-controller@1400 {
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compatible = "fsl,qe-pario-bank-a", "fsl,qe-pario-bank";
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reg = <0x1400 0x18>;
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gpio-controller;
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#gpio-cells = <2>;
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line_b {
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gpio-hog;
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gpios = <6 0>;
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output-low;
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line-name = "foo-bar-gpio";
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};
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};
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qe_pio_e: gpio-controller@1460 {
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compatible = "fsl,qe-pario-bank-e", "fsl,qe-pario-bank";
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reg = <0x1460 0x18>;
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gpio-controller;
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#gpio-cells = <2>;
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};
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2.1) gpio- and pin-controller interaction
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-----------------------------------------
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Some or all of the GPIOs provided by a GPIO controller may be routed to pins
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on the package via a pin controller. This allows muxing those pins between
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GPIO and other functions.
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It is useful to represent which GPIOs correspond to which pins on which pin
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controllers. The gpio-ranges property described below represents this, and
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contains information structures as follows:
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gpio-range-list ::= <single-gpio-range> [gpio-range-list]
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single-gpio-range ::= <numeric-gpio-range> | <named-gpio-range>
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numeric-gpio-range ::=
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<pinctrl-phandle> <gpio-base> <pinctrl-base> <count>
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named-gpio-range ::= <pinctrl-phandle> <gpio-base> '<0 0>'
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pinctrl-phandle : phandle to pin controller node
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gpio-base : Base GPIO ID in the GPIO controller
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pinctrl-base : Base pinctrl pin ID in the pin controller
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count : The number of GPIOs/pins in this range
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The "pin controller node" mentioned above must conform to the bindings
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described in ../pinctrl/pinctrl-bindings.txt.
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In case named gpio ranges are used (ranges with both <pinctrl-base> and
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<count> set to 0), the property gpio-ranges-group-names contains one string
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for every single-gpio-range in gpio-ranges:
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gpiorange-names-list ::= <gpiorange-name> [gpiorange-names-list]
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gpiorange-name : Name of the pingroup associated to the GPIO range in
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the respective pin controller.
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Elements of gpiorange-names-list corresponding to numeric ranges contain
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the empty string. Elements of gpiorange-names-list corresponding to named
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ranges contain the name of a pin group defined in the respective pin
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controller. The number of pins/GPIOs in the range is the number of pins in
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that pin group.
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Previous versions of this binding required all pin controller nodes that
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were referenced by any gpio-ranges property to contain a property named
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#gpio-range-cells with value <3>. This requirement is now deprecated.
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However, that property may still exist in older device trees for
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compatibility reasons, and would still be required even in new device
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trees that need to be compatible with older software.
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Example 1:
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qe_pio_e: gpio-controller@1460 {
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#gpio-cells = <2>;
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compatible = "fsl,qe-pario-bank-e", "fsl,qe-pario-bank";
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reg = <0x1460 0x18>;
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gpio-controller;
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gpio-ranges = <&pinctrl1 0 20 10>, <&pinctrl2 10 50 20>;
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};
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Here, a single GPIO controller has GPIOs 0..9 routed to pin controller
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pinctrl1's pins 20..29, and GPIOs 10..19 routed to pin controller pinctrl2's
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pins 50..59.
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Example 2:
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gpio_pio_i: gpio-controller@14B0 {
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#gpio-cells = <2>;
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compatible = "fsl,qe-pario-bank-e", "fsl,qe-pario-bank";
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reg = <0x1480 0x18>;
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gpio-controller;
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gpio-ranges = <&pinctrl1 0 20 10>,
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<&pinctrl2 10 0 0>,
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<&pinctrl1 15 0 10>,
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<&pinctrl2 25 0 0>;
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gpio-ranges-group-names = "",
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"foo",
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"",
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"bar";
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};
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Here, three GPIO ranges are defined wrt. two pin controllers. pinctrl1 GPIO
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ranges are defined using pin numbers whereas the GPIO ranges wrt. pinctrl2
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are named "foo" and "bar".
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