On 02/02/2016 10:44 AM, Philipp Zabel wrote:
Hi Andrew,
I like the idea to introduce a generic binding in principle, but it
should be able to cover a lot of the cases in the wild. And I'm not sure
we know this to be the case yet.
Currently we have three syscon users in drivers/reset: reset-berlin,
reset-zynq, and sti/reset-syscfg.
berlin is special in that it only has trigger bits, and no state.
zynq would fit this binding, but it already chose a binding with a
single address cell because all its resets are in a contiguous range and
the state and control bits are in the same place.
sti also chose a single address cell and a logical number to enumerate
the resets and to store the actual reset control and status bit position
in a table in the driver. Is there a reason not to follow the same
approach for ti?
The number of reset-able modules is rather large, and we would have to
have an entry for them, and then a table of them for each chip, I
would like to avoid this as it may become unmaintainable with the number
of devices we would like to support.
We currently only need to reset one module this way currently anyway, we
will be moving away from toggling bits from the host side to perform resets,
but rather ask a power management controller to perform the reset for us
(I also have a reset driver that communicates with this controller that I
will post when the rest of the needed framework is upstreamed). So, for TI,
this syscon based driver will probably mostly be used for compatibility with
older SoCs that do not support the management controller, allowing new device
drivers to use the reset framework and still function with older SoCs.
This approach of specifying bits in the device tree at
the consumer side doesn't allow any error handling in the driver to
determine if the bits are in fact valid.
Yes, that is lost by not having a table of all valid resets, but this would
be like many DT driver/node that allow registers/addresses to be specified
and then write/read from those.
Am Montag, den 25.01.2016, 13:02 -0600 schrieb Andrew F. Davis:
Add syscon reset controller binding. This will hook to the reset
framework and use syscon/regmap to set reset bits. This allows
reset control of individual SoC subsytems and devices with
memory-mapped reset registers in a common register memory
space.
Signed-off-by: Andrew F. Davis <afd@xxxxxx>
[s-anna@xxxxxx: revise the binding format]
Signed-off-by: Suman Anna <s-anna@xxxxxx>
---
.../devicetree/bindings/reset/syscon-reset.txt | 84 ++++++++++++++++++++++
1 file changed, 84 insertions(+)
create mode 100644 Documentation/devicetree/bindings/reset/syscon-reset.txt
diff --git a/Documentation/devicetree/bindings/reset/syscon-reset.txt b/Documentation/devicetree/bindings/reset/syscon-reset.txt
new file mode 100644
index 0000000..466378a
--- /dev/null
+++ b/Documentation/devicetree/bindings/reset/syscon-reset.txt
@@ -0,0 +1,84 @@
+SysCon Reset Controller
+=======================
+
+Almost all SoCs have hardware modules that require reset control in addition
+to clock and power control for their functionality. The reset control is
+typically provided by means of memory-mapped I/O registers. These registers are
+sometimes a part of a larger register space region implementing various
+functionalities. This register range is best represented as a syscon node to
+allow multiple entities to access their relevant registers in the common
+register space.
So far, so good.
+A SysCon Reset Controller node defines a device that uses a syscon node
+and provides reset management functionality for various hardware modules
+present on the SoC.
But this wording is a bit strange when there is no device.
Agreed, I'll clarify this.
+
+SysCon Reset Controller Node
+============================
+Each of the reset provider/controller nodes should have the following
+properties.
+
+Required properties:
+--------------------
+ - compatible : Should be "syscon-reset"
What if later an erratum turns up and something special needs to be done
(delays, special care about other bits in the same register, etc.)?
This should always contain a soc specific compatible.
In this case a specific reset driver would be needed for that device, this
driver only intends to cover the more traditional base cases.
+ - syscon : phandle to the syscon node containing the reset registers
This is not needed, the reset node can be mad a child of the syscon and
then grab the regmap from its parent of_node.
Rob also made this suggestion, so I'll change this as it seems to be the
way the community would like to move forward with syscon based drivers.
+ - #reset-cells : Should be 6. Please see the reset consumer node below for
+ usage details
This is a binding for single reset bits that are spread throughout the
register space. For any syscon that has a few registers of contiguous
resets this is rather suboptimal.
Yes, this is only intended for when a few resets need controlling out of
a large reset space without having to directly encode the reset information
into the device driver for that hardware module.
+SysCon Reset Consumer Nodes
+===========================
+Each of the reset consumer nodes should have the following properties,
+in addition to their own properties.
+
+Required properties:
+--------------------
+ - resets : A phandle and reset specifier pair, one pair for each reset
+ signal that affects the device, or that the device manages.
+ The phandle should point to the syscon node containing the
+ reset registers, and the reset specifier should have 6
+ cell-values. The reset specifier contains two similar pairs
One pair, then, not two?
Err, two similar triples, may make more sense, will fix.
+ of 3 cell-values each, the first of the pair containing the
+ reset control register information, and the second of the pair
+ containing the reset status register information. The reset
+ control and status registers can be same on some devices/SoCs.
+
+ Each of the pairs of 3 cell-values should have the following
+ values:
+ Cell #1 : register offset of the reset control/status
+ register from the syscon register base
+ Cell #2 : bit shift value for the reset in the respective
+ reset control/status register
+ Cell #3 : polarity of the reset bit. Should be 1 for resets
+ that are asserted when the bit is set, 0 for
+ resets that are asserted when the bit is cleared
The polarity should have some RESET_ACTIVE_HIGH/LOW #define. Using
numbers in the gpio phandle bindings in the beginning has caused a lot
of problems over time.
That works, I'll add these. Something like RESET_ASSERT_{SET,CLEAR} work?
Do you really have varying polarity across the resets?
Not on the part I'm using, but this should keep things generic.
The alternative would be to set the polarity per reset controller node, then
if a system has both it could have two controllers and the consumers would
have a phandle to the correct one, then all consumers would only need 4
instead of 6 args. Actually now that I think about it, this is probably the
way to go as most systems I would imagine only have one polarity and it still
can work for systems that do have both. I think I'll make this change.
+Please also refer to Documentation/devicetree/bindings/reset/reset.txt for
+common reset controller usage by consumers.
+
+Example:
+--------
+The following example demonstrates a syscon node, the reset controller node
+using the syscon node, and a consumer (a DSP device) on the TI Keystone 2
+Hawking SoC.
+
+/ {
+ soc {
+ psc: power-sleep-controller@02350000 {
+ compatible = "syscon";
Add "simple-mfd", and then ...
+ reg = <0x02350000 0x1000>;
+ };
+
+ pscrst: psc-reset {
+ compatible = "syscon-reset";
+ syscon = <&psc>;
+ #reset-cells = <6>;
+ };
... psc-reset can be put inside power-sleep-controller, and the syscon
property can be removed.
Agreed, will change.
+ dsp0: dsp0 {
+ ...
+ resets = <&pscrst 0xa3c 8 0 0x83c 8 0>;
This sounds a bit error prone and rather verbose for all controllers
that don't have control and status bits peppered randomly around the
register space.
I was also thinking about adding the ability to have only one set of args
for control, then we just return ENOTSUPP when asked for status when only
the control register is provided.
With the above polarity change, we end up allowing:
resets = <&pscrst 0xa3c 8>;
when appropriate. This would cover many common use-cases and keep the
framework clean for unique case drivers when needed. It would eliminate
the need for many reset-berlin like drivers that only differentiate
themselves in trivial ways, like offsets/polarity, etc..
Thanks,
Andrew
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