forked from Minki/linux
msm: documentation: add gpiomux documentation.
Signed-off-by: Gregory Bean <gbean@codeaurora.org> Signed-off-by: Daniel Walker <dwalker@codeaurora.org>
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@ -6,6 +6,8 @@ Interrupts
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- ARM Interrupt subsystem documentation
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IXP2000
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- Release Notes for Linux on Intel's IXP2000 Network Processor
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msm
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- MSM specific documentation
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Netwinder
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- Netwinder specific documentation
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Porting
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176
Documentation/arm/msm/gpiomux.txt
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176
Documentation/arm/msm/gpiomux.txt
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@ -0,0 +1,176 @@
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This document provides an overview of the msm_gpiomux interface, which
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is used to provide gpio pin multiplexing and configuration on mach-msm
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targets.
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History
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=======
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The first-generation API for gpio configuration & multiplexing on msm
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is the function gpio_tlmm_config(). This function has a few notable
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shortcomings, which led to its deprecation and replacement by gpiomux:
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The 'disable' parameter: Setting the second parameter to
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gpio_tlmm_config to GPIO_CFG_DISABLE tells the peripheral
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processor in charge of the subsystem to perform a look-up into a
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low-power table and apply the low-power/sleep setting for the pin.
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As the msm family evolved this became problematic. Not all pins
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have sleep settings, not all peripheral processors will accept requests
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to apply said sleep settings, and not all msm targets have their gpio
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subsystems managed by a peripheral processor. In order to get consistent
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behavior on all targets, drivers are forced to ignore this parameter,
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rendering it useless.
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The 'direction' flag: for all mux-settings other than raw-gpio (0),
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the output-enable bit of a gpio is hard-wired to a known
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input (usually VDD or ground). For those settings, the direction flag
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is meaningless at best, and deceptive at worst. In addition, using the
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direction flag to change output-enable (OE) directly can cause trouble in
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gpiolib, which has no visibility into gpio direction changes made
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in this way. Direction control in gpio mode should be made through gpiolib.
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Key Features of gpiomux
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=======================
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- A consistent interface across all generations of msm. Drivers can expect
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the same results on every target.
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- gpiomux plays nicely with gpiolib. Functions that should belong to gpiolib
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are left to gpiolib and not duplicated here. gpiomux is written with the
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intent that gpio_chips will call gpiomux reference-counting methods
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from their request() and free() hooks, providing full integration.
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- Tabular configuration. Instead of having to call gpio_tlmm_config
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hundreds of times, gpio configuration is placed in a single table.
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- Per-gpio sleep. Each gpio is individually reference counted, allowing only
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those lines which are in use to be put in high-power states.
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- 0 means 'do nothing': all flags are designed so that the default memset-zero
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equates to a sensible default of 'no configuration', preventing users
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from having to provide hundreds of 'no-op' configs for unused or
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unwanted lines.
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Usage
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=====
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To use gpiomux, provide configuration information for relevant gpio lines
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in the msm_gpiomux_configs table. Since a 0 equates to "unconfigured",
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only those lines to be managed by gpiomux need to be specified. Here
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is a completely fictional example:
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struct msm_gpiomux_config msm_gpiomux_configs[GPIOMUX_NGPIOS] = {
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[12] = {
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.active = GPIOMUX_VALID | GPIOMUX_DRV_8MA | GPIOMUX_FUNC_1,
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.suspended = GPIOMUX_VALID | GPIOMUX_PULL_DOWN,
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},
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[34] = {
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.suspended = GPIOMUX_VALID | GPIOMUX_PULL_DOWN,
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},
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};
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To indicate that a gpio is in use, call msm_gpiomux_get() to increase
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its reference count. To decrease the reference count, call msm_gpiomux_put().
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The effect of this configuration is as follows:
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When the system boots, gpios 12 and 34 will be initialized with their
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'suspended' configurations. All other gpios, which were left unconfigured,
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will not be touched.
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When msm_gpiomux_get() is called on gpio 12 to raise its reference count
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above 0, its active configuration will be applied. Since no other gpio
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line has a valid active configuration, msm_gpiomux_get() will have no
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effect on any other line.
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When msm_gpiomux_put() is called on gpio 12 or 34 to drop their reference
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count to 0, their suspended configurations will be applied.
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Since no other gpio line has a valid suspended configuration, no other
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gpio line will be effected by msm_gpiomux_put(). Since gpio 34 has no valid
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active configuration, this is effectively a no-op for gpio 34 as well,
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with one small caveat, see the section "About Output-Enable Settings".
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All of the GPIOMUX_VALID flags may seem like unnecessary overhead, but
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they address some important issues. As unused entries (all those
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except 12 and 34) are zero-filled, gpiomux needs a way to distinguish
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the used fields from the unused. In addition, the all-zero pattern
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is a valid configuration! Therefore, gpiomux defines an additional bit
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which is used to indicate when a field is used. This has the pleasant
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side-effect of allowing calls to msm_gpiomux_write to use '0' to indicate
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that a value should not be changed:
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msm_gpiomux_write(0, GPIOMUX_VALID, 0);
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replaces the active configuration of gpio 0 with an all-zero configuration,
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but leaves the suspended configuration as it was.
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Static Configurations
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=====================
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To install a static configuration, which is applied at boot and does
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not change after that, install a configuration with a suspended component
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but no active component, as in the previous example:
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[34] = {
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.suspended = GPIOMUX_VALID | GPIOMUX_PULL_DOWN,
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},
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The suspended setting is applied during boot, and the lack of any valid
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active setting prevents any other setting from being applied at runtime.
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If other subsystems attempting to access the line is a concern, one could
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*really* anchor the configuration down by calling msm_gpiomux_get on the
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line at initialization to move the line into active mode. With the line
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held, it will never be re-suspended, and with no valid active configuration,
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no new configurations will be applied.
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But then, if having other subsystems grabbing for the line is truly a concern,
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it should be reserved with gpio_request instead, which carries an implicit
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msm_gpiomux_get.
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gpiomux and gpiolib
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===================
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It is expected that msm gpio_chips will call msm_gpiomux_get() and
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msm_gpiomux_put() from their request and free hooks, like this fictional
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example:
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static int request(struct gpio_chip *chip, unsigned offset)
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{
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return msm_gpiomux_get(chip->base + offset);
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}
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static void free(struct gpio_chip *chip, unsigned offset)
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{
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msm_gpiomux_put(chip->base + offset);
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}
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...somewhere in a gpio_chip declaration...
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.request = request,
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.free = free,
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This provides important functionality:
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- It guarantees that a gpio line will have its 'active' config applied
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when the line is requested, and will not be suspended while the line
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remains requested; and
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- It guarantees that gpio-direction settings from gpiolib behave sensibly.
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See "About Output-Enable Settings."
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This mechanism allows for "auto-request" of gpiomux lines via gpiolib
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when it is suitable. Drivers wishing more exact control are, of course,
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free to also use msm_gpiomux_set and msm_gpiomux_get.
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About Output-Enable Settings
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============================
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Some msm targets do not have the ability to query the current gpio
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configuration setting. This means that changes made to the output-enable
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(OE) bit by gpiolib cannot be consistently detected and preserved by gpiomux.
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Therefore, when gpiomux applies a configuration setting, any direction
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settings which may have been applied by gpiolib are lost and the default
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input settings are re-applied.
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For this reason, drivers should not assume that gpio direction settings
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continue to hold if they free and then re-request a gpio. This seems like
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common sense - after all, anybody could have obtained the line in the
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meantime - but it needs saying.
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This also means that calls to msm_gpiomux_write will reset the OE bit,
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which means that if the gpio line is held by a client of gpiolib and
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msm_gpiomux_write is called, the direction setting has been lost and
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gpiolib's internal state has been broken.
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Release gpio lines before reconfiguring them.
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