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The main thing here is Ingo's big subdirectory documenting feature support for each architecture. Beyond that, it's the usual pile of fixes, tweaks, and small additions. -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iQIcBAABAgAGBQJVi0g2AAoJEI3ONVYwIuV6Me4QAIfa79z05ABSjlyWaKw46plH lULR9cyHdR59JVPHKjSOfT9/c+GOdoz6kkXQoe/TgVyj5fRB8seUW5GJXCASndkk aVd4c6yKFH1NISXsSdVQC0JbpgAURgcSR6x59It++fG3NINvXronFTWGMBHMLKcI A2hM2jNP914Dy5r4ipWZKzF1KxIlqK9kmLxlNoE6/LoQfBhh1dMdnyfuM11sguAy s5pr9JeCPbWC0RE7st/qEivXF4lpj6hd3XoYfM2Y+oukj5xEPQevLTLHOgtesnx9 guUAul5Sw27n+Dx8I0Qxf1n+5SkrijoAa72g5vAxTs+ilOey67qba012NaYSy7RK s15XOIZ/1JTS9JjkO7GR5NbG6AiIIAH5P+Y501ivCIrsWciTOgKj7cOzakIEV8/P NX4120Lh5lbBrWeYkl8WbgMO0Me8cThbALC+rncF/wjvGyREKyxNlZ9qvBqmHYjG 5Et2DT+rANaDmmblgMK3tX/zI1g3pN51e+CRF+Hzh1jZD3MZ/i+KS4qgfGFDzMIj uoniO5VfyD4zRbyv4Grg7XMpXiP8xFxKDypglYiXzzwlkarUgbMGOoFE7AkiPOKB t9gLPetbDsDyU/bSpzHlfObZp+q+pCxHPhyLS7hxEi3gBxYajIMbkpHHJugnE0+H TfkIhy6QQm1vAPTpRXaE =ODt8 -----END PGP SIGNATURE----- Merge tag 'docs-for-linus' of git://git.lwn.net/linux-2.6 Pull documentation updates from Jonathan Corbet: "The main thing here is Ingo's big subdirectory documenting feature support for each architecture. Beyond that, it's the usual pile of fixes, tweaks, and small additions" * tag 'docs-for-linus' of git://git.lwn.net/linux-2.6: (79 commits) doc:md: fix typo in md.txt. Documentation/mic/mpssd: don't build x86 userspace when cross compiling Documentation/prctl: don't build tsc tests when cross compiling Documentation/vDSO: don't build tests when cross compiling Doc:ABI/testing: Fix typo in sysfs-bus-fcoe Doc: Docbook: Change wikipedia's URL from http to https in scsi.tmpl Doc: Change wikipedia's URL from http to https Documentation/kernel-parameters: add missing pciserial to the earlyprintk Doc:pps: Fix typo in pps.txt kbuild : Fix documentation of INSTALL_HDR_PATH Documentation: filesystems: updated struct file_operations documentation in vfs.txt kbuild: edit explanation of clean-files variable Doc: ja_JP: Fix typo in HOWTO Move freefall program from Documentation/ to tools/ Documentation: ARM: EXYNOS: Describe boot loaders interface Doc:nfc: Fix typo in nfc-hci.txt vfs: Minor documentation fix Doc: networking: txtimestamp: fix printf format warning Documentation, intel_pstate: Improve legacy mode internal governors description Documentation: extend use case for EXPORT_SYMBOL_GPL() ...
341 lines
14 KiB
Plaintext
341 lines
14 KiB
Plaintext
GPIO Descriptor Consumer Interface
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==================================
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This document describes the consumer interface of the GPIO framework. Note that
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it describes the new descriptor-based interface. For a description of the
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deprecated integer-based GPIO interface please refer to gpio-legacy.txt.
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Guidelines for GPIOs consumers
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==============================
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Drivers that can't work without standard GPIO calls should have Kconfig entries
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that depend on GPIOLIB. The functions that allow a driver to obtain and use
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GPIOs are available by including the following file:
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#include <linux/gpio/consumer.h>
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All the functions that work with the descriptor-based GPIO interface are
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prefixed with gpiod_. The gpio_ prefix is used for the legacy interface. No
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other function in the kernel should use these prefixes.
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Obtaining and Disposing GPIOs
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=============================
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With the descriptor-based interface, GPIOs are identified with an opaque,
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non-forgeable handler that must be obtained through a call to one of the
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gpiod_get() functions. Like many other kernel subsystems, gpiod_get() takes the
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device that will use the GPIO and the function the requested GPIO is supposed to
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fulfill:
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struct gpio_desc *gpiod_get(struct device *dev, const char *con_id,
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enum gpiod_flags flags)
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If a function is implemented by using several GPIOs together (e.g. a simple LED
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device that displays digits), an additional index argument can be specified:
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struct gpio_desc *gpiod_get_index(struct device *dev,
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const char *con_id, unsigned int idx,
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enum gpiod_flags flags)
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The flags parameter is used to optionally specify a direction and initial value
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for the GPIO. Values can be:
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* GPIOD_ASIS or 0 to not initialize the GPIO at all. The direction must be set
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later with one of the dedicated functions.
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* GPIOD_IN to initialize the GPIO as input.
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* GPIOD_OUT_LOW to initialize the GPIO as output with a value of 0.
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* GPIOD_OUT_HIGH to initialize the GPIO as output with a value of 1.
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Both functions return either a valid GPIO descriptor, or an error code checkable
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with IS_ERR() (they will never return a NULL pointer). -ENOENT will be returned
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if and only if no GPIO has been assigned to the device/function/index triplet,
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other error codes are used for cases where a GPIO has been assigned but an error
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occurred while trying to acquire it. This is useful to discriminate between mere
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errors and an absence of GPIO for optional GPIO parameters. For the common
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pattern where a GPIO is optional, the gpiod_get_optional() and
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gpiod_get_index_optional() functions can be used. These functions return NULL
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instead of -ENOENT if no GPIO has been assigned to the requested function:
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struct gpio_desc *gpiod_get_optional(struct device *dev,
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const char *con_id,
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enum gpiod_flags flags)
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struct gpio_desc *gpiod_get_index_optional(struct device *dev,
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const char *con_id,
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unsigned int index,
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enum gpiod_flags flags)
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For a function using multiple GPIOs all of those can be obtained with one call:
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struct gpio_descs *gpiod_get_array(struct device *dev,
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const char *con_id,
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enum gpiod_flags flags)
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This function returns a struct gpio_descs which contains an array of
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descriptors:
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struct gpio_descs {
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unsigned int ndescs;
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struct gpio_desc *desc[];
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}
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The following function returns NULL instead of -ENOENT if no GPIOs have been
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assigned to the requested function:
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struct gpio_descs *gpiod_get_array_optional(struct device *dev,
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const char *con_id,
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enum gpiod_flags flags)
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Device-managed variants of these functions are also defined:
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struct gpio_desc *devm_gpiod_get(struct device *dev, const char *con_id,
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enum gpiod_flags flags)
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struct gpio_desc *devm_gpiod_get_index(struct device *dev,
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const char *con_id,
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unsigned int idx,
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enum gpiod_flags flags)
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struct gpio_desc *devm_gpiod_get_optional(struct device *dev,
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const char *con_id,
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enum gpiod_flags flags)
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struct gpio_desc *devm_gpiod_get_index_optional(struct device *dev,
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const char *con_id,
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unsigned int index,
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enum gpiod_flags flags)
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struct gpio_descs *devm_gpiod_get_array(struct device *dev,
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const char *con_id,
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enum gpiod_flags flags)
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struct gpio_descs *devm_gpiod_get_array_optional(struct device *dev,
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const char *con_id,
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enum gpiod_flags flags)
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A GPIO descriptor can be disposed of using the gpiod_put() function:
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void gpiod_put(struct gpio_desc *desc)
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For an array of GPIOs this function can be used:
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void gpiod_put_array(struct gpio_descs *descs)
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It is strictly forbidden to use a descriptor after calling these functions.
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It is also not allowed to individually release descriptors (using gpiod_put())
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from an array acquired with gpiod_get_array().
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The device-managed variants are, unsurprisingly:
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void devm_gpiod_put(struct device *dev, struct gpio_desc *desc)
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void devm_gpiod_put_array(struct device *dev, struct gpio_descs *descs)
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Using GPIOs
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===========
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Setting Direction
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-----------------
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The first thing a driver must do with a GPIO is setting its direction. If no
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direction-setting flags have been given to gpiod_get*(), this is done by
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invoking one of the gpiod_direction_*() functions:
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int gpiod_direction_input(struct gpio_desc *desc)
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int gpiod_direction_output(struct gpio_desc *desc, int value)
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The return value is zero for success, else a negative errno. It should be
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checked, since the get/set calls don't return errors and since misconfiguration
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is possible. You should normally issue these calls from a task context. However,
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for spinlock-safe GPIOs it is OK to use them before tasking is enabled, as part
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of early board setup.
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For output GPIOs, the value provided becomes the initial output value. This
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helps avoid signal glitching during system startup.
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A driver can also query the current direction of a GPIO:
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int gpiod_get_direction(const struct gpio_desc *desc)
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This function will return either GPIOF_DIR_IN or GPIOF_DIR_OUT.
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Be aware that there is no default direction for GPIOs. Therefore, **using a GPIO
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without setting its direction first is illegal and will result in undefined
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behavior!**
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Spinlock-Safe GPIO Access
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-------------------------
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Most GPIO controllers can be accessed with memory read/write instructions. Those
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don't need to sleep, and can safely be done from inside hard (non-threaded) IRQ
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handlers and similar contexts.
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Use the following calls to access GPIOs from an atomic context:
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int gpiod_get_value(const struct gpio_desc *desc);
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void gpiod_set_value(struct gpio_desc *desc, int value);
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The values are boolean, zero for low, nonzero for high. When reading the value
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of an output pin, the value returned should be what's seen on the pin. That
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won't always match the specified output value, because of issues including
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open-drain signaling and output latencies.
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The get/set calls do not return errors because "invalid GPIO" should have been
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reported earlier from gpiod_direction_*(). However, note that not all platforms
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can read the value of output pins; those that can't should always return zero.
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Also, using these calls for GPIOs that can't safely be accessed without sleeping
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(see below) is an error.
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GPIO Access That May Sleep
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--------------------------
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Some GPIO controllers must be accessed using message based buses like I2C or
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SPI. Commands to read or write those GPIO values require waiting to get to the
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head of a queue to transmit a command and get its response. This requires
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sleeping, which can't be done from inside IRQ handlers.
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Platforms that support this type of GPIO distinguish them from other GPIOs by
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returning nonzero from this call:
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int gpiod_cansleep(const struct gpio_desc *desc)
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To access such GPIOs, a different set of accessors is defined:
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int gpiod_get_value_cansleep(const struct gpio_desc *desc)
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void gpiod_set_value_cansleep(struct gpio_desc *desc, int value)
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Accessing such GPIOs requires a context which may sleep, for example a threaded
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IRQ handler, and those accessors must be used instead of spinlock-safe
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accessors without the cansleep() name suffix.
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Other than the fact that these accessors might sleep, and will work on GPIOs
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that can't be accessed from hardIRQ handlers, these calls act the same as the
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spinlock-safe calls.
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Active-low State and Raw GPIO Values
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------------------------------------
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Device drivers like to manage the logical state of a GPIO, i.e. the value their
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device will actually receive, no matter what lies between it and the GPIO line.
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In some cases, it might make sense to control the actual GPIO line value. The
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following set of calls ignore the active-low property of a GPIO and work on the
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raw line value:
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int gpiod_get_raw_value(const struct gpio_desc *desc)
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void gpiod_set_raw_value(struct gpio_desc *desc, int value)
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int gpiod_get_raw_value_cansleep(const struct gpio_desc *desc)
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void gpiod_set_raw_value_cansleep(struct gpio_desc *desc, int value)
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int gpiod_direction_output_raw(struct gpio_desc *desc, int value)
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The active-low state of a GPIO can also be queried using the following call:
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int gpiod_is_active_low(const struct gpio_desc *desc)
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Note that these functions should only be used with great moderation ; a driver
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should not have to care about the physical line level.
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Set multiple GPIO outputs with a single function call
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-----------------------------------------------------
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The following functions set the output values of an array of GPIOs:
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void gpiod_set_array_value(unsigned int array_size,
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struct gpio_desc **desc_array,
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int *value_array)
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void gpiod_set_raw_array_value(unsigned int array_size,
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struct gpio_desc **desc_array,
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int *value_array)
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void gpiod_set_array_value_cansleep(unsigned int array_size,
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struct gpio_desc **desc_array,
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int *value_array)
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void gpiod_set_raw_array_value_cansleep(unsigned int array_size,
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struct gpio_desc **desc_array,
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int *value_array)
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The array can be an arbitrary set of GPIOs. The functions will try to set
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GPIOs belonging to the same bank or chip simultaneously if supported by the
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corresponding chip driver. In that case a significantly improved performance
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can be expected. If simultaneous setting is not possible the GPIOs will be set
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sequentially.
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The gpiod_set_array() functions take three arguments:
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* array_size - the number of array elements
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* desc_array - an array of GPIO descriptors
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* value_array - an array of values to assign to the GPIOs
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The descriptor array can be obtained using the gpiod_get_array() function
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or one of its variants. If the group of descriptors returned by that function
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matches the desired group of GPIOs, those GPIOs can be set by simply using
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the struct gpio_descs returned by gpiod_get_array():
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struct gpio_descs *my_gpio_descs = gpiod_get_array(...);
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gpiod_set_array_value(my_gpio_descs->ndescs, my_gpio_descs->desc,
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my_gpio_values);
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It is also possible to set a completely arbitrary array of descriptors. The
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descriptors may be obtained using any combination of gpiod_get() and
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gpiod_get_array(). Afterwards the array of descriptors has to be setup
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manually before it can be used with gpiod_set_array().
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Note that for optimal performance GPIOs belonging to the same chip should be
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contiguous within the array of descriptors.
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GPIOs mapped to IRQs
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--------------------
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GPIO lines can quite often be used as IRQs. You can get the IRQ number
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corresponding to a given GPIO using the following call:
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int gpiod_to_irq(const struct gpio_desc *desc)
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It will return an IRQ number, or a negative errno code if the mapping can't be
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done (most likely because that particular GPIO cannot be used as IRQ). It is an
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unchecked error to use a GPIO that wasn't set up as an input using
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gpiod_direction_input(), or to use an IRQ number that didn't originally come
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from gpiod_to_irq(). gpiod_to_irq() is not allowed to sleep.
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Non-error values returned from gpiod_to_irq() can be passed to request_irq() or
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free_irq(). They will often be stored into IRQ resources for platform devices,
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by the board-specific initialization code. Note that IRQ trigger options are
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part of the IRQ interface, e.g. IRQF_TRIGGER_FALLING, as are system wakeup
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capabilities.
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GPIOs and ACPI
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==============
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On ACPI systems, GPIOs are described by GpioIo()/GpioInt() resources listed by
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the _CRS configuration objects of devices. Those resources do not provide
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connection IDs (names) for GPIOs, so it is necessary to use an additional
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mechanism for this purpose.
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Systems compliant with ACPI 5.1 or newer may provide a _DSD configuration object
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which, among other things, may be used to provide connection IDs for specific
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GPIOs described by the GpioIo()/GpioInt() resources in _CRS. If that is the
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case, it will be handled by the GPIO subsystem automatically. However, if the
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_DSD is not present, the mappings between GpioIo()/GpioInt() resources and GPIO
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connection IDs need to be provided by device drivers.
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For details refer to Documentation/acpi/gpio-properties.txt
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Interacting With the Legacy GPIO Subsystem
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==========================================
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Many kernel subsystems still handle GPIOs using the legacy integer-based
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interface. Although it is strongly encouraged to upgrade them to the safer
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descriptor-based API, the following two functions allow you to convert a GPIO
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descriptor into the GPIO integer namespace and vice-versa:
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int desc_to_gpio(const struct gpio_desc *desc)
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struct gpio_desc *gpio_to_desc(unsigned gpio)
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The GPIO number returned by desc_to_gpio() can be safely used as long as the
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GPIO descriptor has not been freed. All the same, a GPIO number passed to
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gpio_to_desc() must have been properly acquired, and usage of the returned GPIO
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descriptor is only possible after the GPIO number has been released.
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Freeing a GPIO obtained by one API with the other API is forbidden and an
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unchecked error.
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