2013-11-16 19:34:21 +07:00
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GPIO Descriptor Driver Interface
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================================
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This document serves as a guide for GPIO chip drivers writers. Note that it
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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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Each GPIO controller driver needs to include the following header, which defines
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the structures used to define a GPIO driver:
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#include <linux/gpio/driver.h>
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Internal Representation of GPIOs
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================================
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Inside a GPIO driver, individual GPIOs are identified by their hardware number,
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which is a unique number between 0 and n, n being the number of GPIOs managed by
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the chip. This number is purely internal: the hardware number of a particular
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GPIO descriptor is never made visible outside of the driver.
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On top of this internal number, each GPIO also need to have a global number in
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the integer GPIO namespace so that it can be used with the legacy GPIO
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interface. Each chip must thus have a "base" number (which can be automatically
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assigned), and for each GPIO the global number will be (base + hardware number).
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Although the integer representation is considered deprecated, it still has many
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users and thus needs to be maintained.
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So for example one platform could use numbers 32-159 for GPIOs, with a
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controller defining 128 GPIOs at a "base" of 32 ; while another platform uses
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numbers 0..63 with one set of GPIO controllers, 64-79 with another type of GPIO
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controller, and on one particular board 80-95 with an FPGA. The numbers need not
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be contiguous; either of those platforms could also use numbers 2000-2063 to
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identify GPIOs in a bank of I2C GPIO expanders.
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Controller Drivers: gpio_chip
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=============================
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In the gpiolib framework each GPIO controller is packaged as a "struct
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gpio_chip" (see linux/gpio/driver.h for its complete definition) with members
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common to each controller of that type:
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- methods to establish GPIO direction
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- methods used to access GPIO values
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- method to return the IRQ number associated to a given GPIO
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- flag saying whether calls to its methods may sleep
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- optional debugfs dump method (showing extra state like pullup config)
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- optional base number (will be automatically assigned if omitted)
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- label for diagnostics and GPIOs mapping using platform data
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The code implementing a gpio_chip should support multiple instances of the
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controller, possibly using the driver model. That code will configure each
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gpio_chip and issue gpiochip_add(). Removing a GPIO controller should be rare;
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use gpiochip_remove() when it is unavoidable.
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Most often a gpio_chip is part of an instance-specific structure with state not
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exposed by the GPIO interfaces, such as addressing, power management, and more.
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Chips such as codecs will have complex non-GPIO state.
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Any debugfs dump method should normally ignore signals which haven't been
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requested as GPIOs. They can use gpiochip_is_requested(), which returns either
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NULL or the label associated with that GPIO when it was requested.
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2014-01-22 21:00:55 +07:00
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GPIO drivers providing IRQs
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---------------------------
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It is custom that GPIO drivers (GPIO chips) are also providing interrupts,
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most often cascaded off a parent interrupt controller, and in some special
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cases the GPIO logic is melded with a SoC's primary interrupt controller.
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The IRQ portions of the GPIO block are implemented using an irqchip, using
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the header <linux/irq.h>. So basically such a driver is utilizing two sub-
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systems simultaneously: gpio and irq.
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2014-04-09 19:36:32 +07:00
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GPIO irqchips usually fall in one of two categories:
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* CHAINED GPIO irqchips: these are usually the type that is embedded on
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an SoC. This means that there is a fast IRQ handler for the GPIOs that
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gets called in a chain from the parent IRQ handler, most typically the
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system interrupt controller. This means the GPIO irqchip is registered
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using irq_set_chained_handler() or the corresponding
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gpiochip_set_chained_irqchip() helper function, and the GPIO irqchip
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handler will be called immediately from the parent irqchip, while
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holding the IRQs disabled. The GPIO irqchip will then end up calling
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something like this sequence in its interrupt handler:
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static irqreturn_t tc3589x_gpio_irq(int irq, void *data)
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chained_irq_enter(...);
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generic_handle_irq(...);
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chained_irq_exit(...);
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Chained GPIO irqchips typically can NOT set the .can_sleep flag on
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struct gpio_chip, as everything happens directly in the callbacks.
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* NESTED THREADED GPIO irqchips: these are off-chip GPIO expanders and any
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other GPIO irqchip residing on the other side of a sleeping bus. Of course
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such drivers that need slow bus traffic to read out IRQ status and similar,
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traffic which may in turn incur other IRQs to happen, cannot be handled
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in a quick IRQ handler with IRQs disabled. Instead they need to spawn a
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thread and then mask the parent IRQ line until the interrupt is handled
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by the driver. The hallmark of this driver is to call something like
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this in its interrupt handler:
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static irqreturn_t tc3589x_gpio_irq(int irq, void *data)
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...
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handle_nested_irq(irq);
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The hallmark of threaded GPIO irqchips is that they set the .can_sleep
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flag on struct gpio_chip to true, indicating that this chip may sleep
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when accessing the GPIOs.
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To help out in handling the set-up and management of GPIO irqchips and the
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associated irqdomain and resource allocation callbacks, the gpiolib has
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some helpers that can be enabled by selecting the GPIOLIB_IRQCHIP Kconfig
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symbol:
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* gpiochip_irqchip_add(): adds an irqchip to a gpiochip. It will pass
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the struct gpio_chip* for the chip to all IRQ callbacks, so the callbacks
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need to embed the gpio_chip in its state container and obtain a pointer
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to the container using container_of().
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(See Documentation/driver-model/design-patterns.txt)
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* gpiochip_set_chained_irqchip(): sets up a chained irq handler for a
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gpio_chip from a parent IRQ and passes the struct gpio_chip* as handler
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data. (Notice handler data, since the irqchip data is likely used by the
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2014-09-26 19:19:52 +07:00
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parent irqchip!) This is for the chained type of chip. This is also used
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to set up a nested irqchip if NULL is passed as handler.
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2014-04-09 19:36:32 +07:00
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To use the helpers please keep the following in mind:
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- Make sure to assign all relevant members of the struct gpio_chip so that
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the irqchip can initialize. E.g. .dev and .can_sleep shall be set up
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properly.
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2014-01-22 21:00:55 +07:00
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It is legal for any IRQ consumer to request an IRQ from any irqchip no matter
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if that is a combined GPIO+IRQ driver. The basic premise is that gpio_chip and
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irq_chip are orthogonal, and offering their services independent of each
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other.
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gpiod_to_irq() is just a convenience function to figure out the IRQ for a
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certain GPIO line and should not be relied upon to have been called before
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the IRQ is used.
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So always prepare the hardware and make it ready for action in respective
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callbacks from the GPIO and irqchip APIs. Do not rely on gpiod_to_irq() having
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been called first.
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This orthogonality leads to ambiguities that we need to solve: if there is
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competition inside the subsystem which side is using the resource (a certain
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GPIO line and register for example) it needs to deny certain operations and
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keep track of usage inside of the gpiolib subsystem. This is why the API
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below exists.
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2013-11-16 19:34:21 +07:00
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Locking IRQ usage
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-----------------
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Input GPIOs can be used as IRQ signals. When this happens, a driver is requested
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to mark the GPIO as being used as an IRQ:
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2014-10-23 15:27:07 +07:00
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int gpiochip_lock_as_irq(struct gpio_chip *chip, unsigned int offset)
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2013-11-16 19:34:21 +07:00
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This will prevent the use of non-irq related GPIO APIs until the GPIO IRQ lock
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is released:
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2014-10-23 15:27:07 +07:00
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void gpiochip_unlock_as_irq(struct gpio_chip *chip, unsigned int offset)
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2014-01-22 21:00:55 +07:00
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When implementing an irqchip inside a GPIO driver, these two functions should
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typically be called in the .startup() and .shutdown() callbacks from the
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irqchip.
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2014-07-22 22:01:01 +07:00
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Requesting self-owned GPIO pins
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-------------------------------
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Sometimes it is useful to allow a GPIO chip driver to request its own GPIO
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descriptors through the gpiolib API. Using gpio_request() for this purpose
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does not help since it pins the module to the kernel forever (it calls
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try_module_get()). A GPIO driver can use the following functions instead
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to request and free descriptors without being pinned to the kernel forever.
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2014-08-20 00:06:09 +07:00
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struct gpio_desc *gpiochip_request_own_desc(struct gpio_desc *desc,
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const char *label)
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2014-07-22 22:01:01 +07:00
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void gpiochip_free_own_desc(struct gpio_desc *desc)
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Descriptors requested with gpiochip_request_own_desc() must be released with
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gpiochip_free_own_desc().
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These functions must be used with care since they do not affect module use
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count. Do not use the functions to request gpio descriptors not owned by the
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calling driver.
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