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authorStephen Warren <swarren@nvidia.com>2012-03-02 13:05:47 -0700
committerLinus Walleij <linus.walleij@linaro.org>2012-03-05 11:22:59 +0100
commit6e5e959dde0d92d177f035652aeaa77f9330c9c6 (patch)
treec2d874df6a1c591b558a17591a1c8fbc2ba7a1e1 /Documentation/pinctrl.txt
parent0e3db173e2b9fd3b82246516e72c17763eb5f98d (diff)
downloadtalos-obmc-linux-6e5e959dde0d92d177f035652aeaa77f9330c9c6.tar.gz
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pinctrl: API changes to support multiple states per device
The API model is changed from: p = pinctrl_get(dev, "state1"); pinctrl_enable(p); ... pinctrl_disable(p); pinctrl_put(p); p = pinctrl_get(dev, "state2"); pinctrl_enable(p); ... pinctrl_disable(p); pinctrl_put(p); to this: p = pinctrl_get(dev); s1 = pinctrl_lookup_state(p, "state1"); s2 = pinctrl_lookup_state(p, "state2"); pinctrl_select_state(p, s1); ... pinctrl_select_state(p, s2); ... pinctrl_put(p); This allows devices to directly transition between states without disabling the pin controller programming and put()/get()ing the configuration data each time. This model will also better suit pinconf programming, which doesn't have a concept of "disable". The special-case hogging feature of pin controllers is re-written to use the regular APIs instead of special-case code. Hence, the pinmux-hogs debugfs file is removed; see the top-level pinctrl-handles files for equivalent data. Signed-off-by: Stephen Warren <swarren@nvidia.com> Acked-by: Dong Aisheng <dong.aisheng@linaro.org> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
Diffstat (limited to 'Documentation/pinctrl.txt')
-rw-r--r--Documentation/pinctrl.txt120
1 files changed, 79 insertions, 41 deletions
diff --git a/Documentation/pinctrl.txt b/Documentation/pinctrl.txt
index 558aac554d09..23426c7bc8dc 100644
--- a/Documentation/pinctrl.txt
+++ b/Documentation/pinctrl.txt
@@ -847,8 +847,8 @@ As it is possible to map a function to different groups of pins an optional
This example mapping is used to switch between two positions for spi0 at
runtime, as described further below under the heading "Runtime pinmuxing".
-Further it is possible to match several groups of pins to the same function
-for a single device, say for example in the mmc0 example above, where you can
+Further it is possible for one named state to affect the muxing of several
+groups of pins, say for example in the mmc0 example above, where you can
additively expand the mmc0 bus from 2 to 4 to 8 pins. If we want to use all
three groups for a total of 2+2+4 = 8 pins (for an 8-bit MMC bus as is the
case), we define a mapping like this:
@@ -879,6 +879,7 @@ case), we define a mapping like this:
.dev_name = "foo-mmc.0",
.name = "8bit"
.ctrl_dev_name = "pinctrl-foo",
+ .function = "mmc0",
.group = "mmc0_1_grp",
},
{
@@ -900,10 +901,16 @@ case), we define a mapping like this:
The result of grabbing this mapping from the device with something like
this (see next paragraph):
- p = pinctrl_get(&device, "8bit");
+ p = pinctrl_get(dev);
+ s = pinctrl_lookup_state(p, "8bit");
+ ret = pinctrl_select_state(p, s);
+
+or more simply:
+
+ p = pinctrl_get_select(dev, "8bit");
Will be that you activate all the three bottom records in the mapping at
-once. Since they share the same name, pin controller device, funcion and
+once. Since they share the same name, pin controller device, function and
device, and since we allow multiple groups to match to a single device, they
all get selected, and they all get enabled and disable simultaneously by the
pinmux core.
@@ -925,45 +932,63 @@ default state like this:
struct foo_state {
struct pinctrl *p;
+ struct pinctrl_state *s;
...
};
foo_probe()
{
- /* Allocate a state holder named "state" etc */
- struct pinctrl p;
+ /* Allocate a state holder named "foo" etc */
+ struct foo_state *foo = ...;
+
+ foo->p = pinctrl_get(&device);
+ if (IS_ERR(foo->p)) {
+ /* FIXME: clean up "foo" here */
+ return PTR_ERR(foo->p);
+ }
- p = pinctrl_get(&device, PINCTRL_STATE_DEFAULT);
- if IS_ERR(p)
- return PTR_ERR(p);
- pinctrl_enable(p);
+ foo->s = pinctrl_lookup_state(foo->p, PINCTRL_STATE_DEFAULT);
+ if (IS_ERR(foo->s)) {
+ pinctrl_put(foo->p);
+ /* FIXME: clean up "foo" here */
+ return PTR_ERR(s);
+ }
- state->p = p;
+ ret = pinctrl_select_state(foo->s);
+ if (ret < 0) {
+ pinctrl_put(foo->p);
+ /* FIXME: clean up "foo" here */
+ return ret;
+ }
}
foo_remove()
{
- pinctrl_disable(state->p);
pinctrl_put(state->p);
}
-This get/enable/disable/put sequence can just as well be handled by bus drivers
+This get/lookup/select/put sequence can just as well be handled by bus drivers
if you don't want each and every driver to handle it and you know the
arrangement on your bus.
-The semantics of the get/enable respective disable/put is as follows:
+The semantics of the pinctrl APIs are:
+
+- pinctrl_get() is called in process context to obtain a handle to all pinctrl
+ information for a given client device. It will allocate a struct from the
+ kernel memory to hold the pinmux state. All mapping table parsing or similar
+ slow operations take place within this API.
-- pinctrl_get() is called in process context to reserve the pins affected with
- a certain mapping and set up the pinmux core and the driver. It will allocate
- a struct from the kernel memory to hold the pinmux state.
+- pinctrl_lookup_state() is called in process context to obtain a handle to a
+ specific state for a the client device. This operation may be slow too.
-- pinctrl_enable()/pinctrl_disable() is quick and can be called from fastpath
- (irq context) when you quickly want to set up/tear down the hardware muxing
- when running a device driver. Usually it will just poke some values into a
- register.
+- pinctrl_select_state() programs pin controller hardware according to the
+ definition of the state as given by the mapping table. In theory this is a
+ fast-path operation, since it only involved blasting some register settings
+ into hardware. However, note that some pin controllers may have their
+ registers on a slow/IRQ-based bus, so client devices should not assume they
+ can call pinctrl_select_state() from non-blocking contexts.
-- pinctrl_disable() is called in process context to tear down the pin requests
- and release the state holder struct for the mux setting etc.
+- pinctrl_put() frees all information associated with a pinctrl handle.
Usually the pin control core handled the get/put pair and call out to the
device drivers bookkeeping operations, like checking available functions and
@@ -979,12 +1004,12 @@ System pin control hogging
==========================
Pin control map entries can be hogged by the core when the pin controller
-is registered. This means that the core will attempt to call pinctrl_get() and
-pinctrl_enable() on it immediately after the pin control device has been
-registered.
+is registered. This means that the core will attempt to call pinctrl_get(),
+lookup_state() and select_state() on it immediately after the pin control
+device has been registered.
-This is enabled by simply setting the .dev_name field in the map to the name
-of the pin controller itself, like this:
+This occurs for mapping table entries where the client device name is equal
+to the pin controller device name, and the state name is PINCTRL_STATE_DEFAULT.
{
.dev_name = "pinctrl-foo",
@@ -1009,8 +1034,8 @@ It is possible to mux a certain function in and out at runtime, say to move
an SPI port from one set of pins to another set of pins. Say for example for
spi0 in the example above, we expose two different groups of pins for the same
function, but with different named in the mapping as described under
-"Advanced mapping" above. So we have two mappings named "spi0-pos-A" and
-"spi0-pos-B".
+"Advanced mapping" above. So that for an SPI device, we have two states named
+"pos-A" and "pos-B".
This snippet first muxes the function in the pins defined by group A, enables
it, disables and releases it, and muxes it in on the pins defined by group B:
@@ -1020,23 +1045,36 @@ it, disables and releases it, and muxes it in on the pins defined by group B:
foo_switch()
{
struct pinctrl *p;
+ struct pinctrl_state *s1, *s2;
+
+ /* Setup */
+ p = pinctrl_get(&device);
+ if (IS_ERR(p))
+ ...
+
+ s1 = pinctrl_lookup_state(foo->p, "pos-A");
+ if (IS_ERR(s1))
+ ...
+
+ s2 = pinctrl_lookup_state(foo->p, "pos-B");
+ if (IS_ERR(s2))
+ ...
/* Enable on position A */
- p = pinctrl_get(&device, "spi0-pos-A");
- if IS_ERR(p)
- return PTR_ERR(p);
- pinctrl_enable(p);
+ ret = pinctrl_select_state(s1);
+ if (ret < 0)
+ ...
- /* This releases the pins again */
- pinctrl_disable(p);
- pinctrl_put(p);
+ ...
/* Enable on position B */
- p = pinctrl_get(&device, "spi0-pos-B");
- if IS_ERR(p)
- return PTR_ERR(p);
- pinctrl_enable(p);
+ ret = pinctrl_select_state(s2);
+ if (ret < 0)
+ ...
+
...
+
+ pinctrl_put(p);
}
The above has to be done from process context.
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