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731e97e076
The gpio-line-names lists must respect some rules. This patch adds a new rule in documentation, to avoid the use of duplicate names in the same gpiochip. Signed-off-by: Flavio Suligoi <f.suligoi@asem.it> Reviewed-by: Andy Shevchenko <andy.shevchenko@gmail.com> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
316 lines
12 KiB
ReStructuredText
316 lines
12 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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======================================
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_DSD Device Properties Related to GPIO
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======================================
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With the release of ACPI 5.1, the _DSD configuration object finally
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allows names to be given to GPIOs (and other things as well) returned
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by _CRS. Previously, we were only able to use an integer index to find
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the corresponding GPIO, which is pretty error prone (it depends on
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the _CRS output ordering, for example).
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With _DSD we can now query GPIOs using a name instead of an integer
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index, like the ASL example below shows::
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// Bluetooth device with reset and shutdown GPIOs
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Device (BTH)
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{
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Name (_HID, ...)
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Name (_CRS, ResourceTemplate ()
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{
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GpioIo (Exclusive, PullUp, 0, 0, IoRestrictionOutputOnly,
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"\\_SB.GPO0", 0, ResourceConsumer) {15}
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GpioIo (Exclusive, PullUp, 0, 0, IoRestrictionOutputOnly,
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"\\_SB.GPO0", 0, ResourceConsumer) {27, 31}
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})
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Name (_DSD, Package ()
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{
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ToUUID("daffd814-6eba-4d8c-8a91-bc9bbf4aa301"),
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Package ()
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{
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Package () {"reset-gpios", Package() {^BTH, 1, 1, 0 }},
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Package () {"shutdown-gpios", Package() {^BTH, 0, 0, 0 }},
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}
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})
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}
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The format of the supported GPIO property is::
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Package () { "name", Package () { ref, index, pin, active_low }}
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ref
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The device that has _CRS containing GpioIo()/GpioInt() resources,
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typically this is the device itself (BTH in our case).
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index
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Index of the GpioIo()/GpioInt() resource in _CRS starting from zero.
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pin
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Pin in the GpioIo()/GpioInt() resource. Typically this is zero.
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active_low
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If 1, the GPIO is marked as active_low.
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Since ACPI GpioIo() resource does not have a field saying whether it is
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active low or high, the "active_low" argument can be used here. Setting
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it to 1 marks the GPIO as active low.
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Note, active_low in _DSD does not make sense for GpioInt() resource and
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must be 0. GpioInt() resource has its own means of defining it.
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In our Bluetooth example the "reset-gpios" refers to the second GpioIo()
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resource, second pin in that resource with the GPIO number of 31.
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The GpioIo() resource unfortunately doesn't explicitly provide an initial
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state of the output pin which driver should use during its initialization.
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Linux tries to use common sense here and derives the state from the bias
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and polarity settings. The table below shows the expectations:
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========= ============= ==============
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Pull Bias Polarity Requested...
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========= ============= ==============
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Implicit x AS IS (assumed firmware configured for us)
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Explicit x (no _DSD) as Pull Bias (Up == High, Down == Low),
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assuming non-active (Polarity = !Pull Bias)
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Down Low as low, assuming active
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Down High as low, assuming non-active
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Up Low as high, assuming non-active
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Up High as high, assuming active
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========= ============= ==============
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That said, for our above example the both GPIOs, since the bias setting
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is explicit and _DSD is present, will be treated as active with a high
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polarity and Linux will configure the pins in this state until a driver
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reprograms them differently.
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It is possible to leave holes in the array of GPIOs. This is useful in
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cases like with SPI host controllers where some chip selects may be
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implemented as GPIOs and some as native signals. For example a SPI host
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controller can have chip selects 0 and 2 implemented as GPIOs and 1 as
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native::
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Package () {
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"cs-gpios",
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Package () {
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^GPIO, 19, 0, 0, // chip select 0: GPIO
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0, // chip select 1: native signal
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^GPIO, 20, 0, 0, // chip select 2: GPIO
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}
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}
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Other supported properties
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==========================
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Following Device Tree compatible device properties are also supported by
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_DSD device properties for GPIO controllers:
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- gpio-hog
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- output-high
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- output-low
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- input
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- line-name
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Example::
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Name (_DSD, Package () {
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// _DSD Hierarchical Properties Extension UUID
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ToUUID("dbb8e3e6-5886-4ba6-8795-1319f52a966b"),
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Package () {
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Package () {"hog-gpio8", "G8PU"}
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}
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})
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Name (G8PU, Package () {
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ToUUID("daffd814-6eba-4d8c-8a91-bc9bbf4aa301"),
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Package () {
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Package () {"gpio-hog", 1},
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Package () {"gpios", Package () {8, 0}},
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Package () {"output-high", 1},
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Package () {"line-name", "gpio8-pullup"},
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}
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})
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- gpio-line-names
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The ``gpio-line-names`` declaration is a list of strings ("names"), which
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describes each line/pin of a GPIO controller/expander. This list, contained in
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a package, must be inserted inside the GPIO controller declaration of an ACPI
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table (typically inside the DSDT). The ``gpio-line-names`` list must respect the
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following rules (see also the examples):
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- the first name in the list corresponds with the first line/pin of the GPIO
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controller/expander
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- the names inside the list must be consecutive (no "holes" are permitted)
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- the list can be incomplete and can end before the last GPIO line: in
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other words, it is not mandatory to fill all the GPIO lines
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- empty names are allowed (two quotation marks ``""`` correspond to an empty
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name)
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- names inside one GPIO controller/expander must be unique
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Example of a GPIO controller of 16 lines, with an incomplete list with two
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empty names::
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Package () {
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"gpio-line-names",
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Package () {
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"pin_0",
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"pin_1",
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"",
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"",
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"pin_3",
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"pin_4_push_button",
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}
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}
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At runtime, the above declaration produces the following result (using the
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"libgpiod" tools)::
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root@debian:~# gpioinfo gpiochip4
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gpiochip4 - 16 lines:
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line 0: "pin_0" unused input active-high
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line 1: "pin_1" unused input active-high
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line 2: unnamed unused input active-high
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line 3: unnamed unused input active-high
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line 4: "pin_3" unused input active-high
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line 5: "pin_4_push_button" unused input active-high
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line 6: unnamed unused input active-high
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line 7 unnamed unused input active-high
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line 8: unnamed unused input active-high
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line 9: unnamed unused input active-high
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line 10: unnamed unused input active-high
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line 11: unnamed unused input active-high
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line 12: unnamed unused input active-high
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line 13: unnamed unused input active-high
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line 14: unnamed unused input active-high
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line 15: unnamed unused input active-high
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root@debian:~# gpiofind pin_4_push_button
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gpiochip4 5
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root@debian:~#
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Another example::
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Package () {
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"gpio-line-names",
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Package () {
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"SPI0_CS_N", "EXP2_INT", "MUX6_IO", "UART0_RXD",
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"MUX7_IO", "LVL_C_A1", "MUX0_IO", "SPI1_MISO",
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}
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}
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See Documentation/devicetree/bindings/gpio/gpio.txt for more information
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about these properties.
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ACPI GPIO Mappings Provided by Drivers
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======================================
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There are systems in which the ACPI tables do not contain _DSD but provide _CRS
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with GpioIo()/GpioInt() resources and device drivers still need to work with
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them.
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In those cases ACPI device identification objects, _HID, _CID, _CLS, _SUB, _HRV,
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available to the driver can be used to identify the device and that is supposed
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to be sufficient to determine the meaning and purpose of all of the GPIO lines
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listed by the GpioIo()/GpioInt() resources returned by _CRS. In other words,
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the driver is supposed to know what to use the GpioIo()/GpioInt() resources for
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once it has identified the device. Having done that, it can simply assign names
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to the GPIO lines it is going to use and provide the GPIO subsystem with a
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mapping between those names and the ACPI GPIO resources corresponding to them.
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To do that, the driver needs to define a mapping table as a NULL-terminated
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array of struct acpi_gpio_mapping objects that each contains a name, a pointer
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to an array of line data (struct acpi_gpio_params) objects and the size of that
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array. Each struct acpi_gpio_params object consists of three fields,
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crs_entry_index, line_index, active_low, representing the index of the target
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GpioIo()/GpioInt() resource in _CRS starting from zero, the index of the target
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line in that resource starting from zero, and the active-low flag for that line,
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respectively, in analogy with the _DSD GPIO property format specified above.
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For the example Bluetooth device discussed previously the data structures in
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question would look like this::
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static const struct acpi_gpio_params reset_gpio = { 1, 1, false };
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static const struct acpi_gpio_params shutdown_gpio = { 0, 0, false };
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static const struct acpi_gpio_mapping bluetooth_acpi_gpios[] = {
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{ "reset-gpios", &reset_gpio, 1 },
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{ "shutdown-gpios", &shutdown_gpio, 1 },
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{ }
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};
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Next, the mapping table needs to be passed as the second argument to
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acpi_dev_add_driver_gpios() or its managed analogue that will
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register it with the ACPI device object pointed to by its first
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argument. That should be done in the driver's .probe() routine.
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On removal, the driver should unregister its GPIO mapping table by
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calling acpi_dev_remove_driver_gpios() on the ACPI device object where that
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table was previously registered.
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Using the _CRS fallback
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=======================
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If a device does not have _DSD or the driver does not create ACPI GPIO
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mapping, the Linux GPIO framework refuses to return any GPIOs. This is
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because the driver does not know what it actually gets. For example if we
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have a device like below::
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Device (BTH)
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{
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Name (_HID, ...)
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Name (_CRS, ResourceTemplate () {
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GpioIo (Exclusive, PullNone, 0, 0, IoRestrictionNone,
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"\\_SB.GPO0", 0, ResourceConsumer) {15}
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GpioIo (Exclusive, PullNone, 0, 0, IoRestrictionNone,
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"\\_SB.GPO0", 0, ResourceConsumer) {27}
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})
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}
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The driver might expect to get the right GPIO when it does::
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desc = gpiod_get(dev, "reset", GPIOD_OUT_LOW);
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but since there is no way to know the mapping between "reset" and
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the GpioIo() in _CRS desc will hold ERR_PTR(-ENOENT).
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The driver author can solve this by passing the mapping explicitly
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(this is the recommended way and it's documented in the above chapter).
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The ACPI GPIO mapping tables should not contaminate drivers that are not
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knowing about which exact device they are servicing on. It implies that
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the ACPI GPIO mapping tables are hardly linked to an ACPI ID and certain
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objects, as listed in the above chapter, of the device in question.
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Getting GPIO descriptor
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=======================
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There are two main approaches to get GPIO resource from ACPI::
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desc = gpiod_get(dev, connection_id, flags);
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desc = gpiod_get_index(dev, connection_id, index, flags);
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We may consider two different cases here, i.e. when connection ID is
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provided and otherwise.
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Case 1::
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desc = gpiod_get(dev, "non-null-connection-id", flags);
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desc = gpiod_get_index(dev, "non-null-connection-id", index, flags);
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Case 2::
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desc = gpiod_get(dev, NULL, flags);
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desc = gpiod_get_index(dev, NULL, index, flags);
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Case 1 assumes that corresponding ACPI device description must have
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defined device properties and will prevent to getting any GPIO resources
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otherwise.
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Case 2 explicitly tells GPIO core to look for resources in _CRS.
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Be aware that gpiod_get_index() in cases 1 and 2, assuming that there
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are two versions of ACPI device description provided and no mapping is
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present in the driver, will return different resources. That's why a
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certain driver has to handle them carefully as explained in the previous
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chapter.
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