Re: [PATCH v4 4/8] qcom: spm-devices: Add SPM device manager for the SoC

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On Mon, Aug 25, 2014 at 07:17:15PM -0700, Stephen Boyd wrote:
On 08/25/14 17:31, Lina Iyer wrote:
On Mon, Aug 25, 2014 at 04:40:33PM -0700, Stephen Boyd wrote:
On 08/19/14 15:15, Lina Iyer wrote:
diff --git a/Documentation/devicetree/bindings/arm/msm/spm.txt
b/Documentation/devicetree/bindings/arm/msm/spm.txt
new file mode 100644
index 0000000..318e024
--- /dev/null
+++ b/Documentation/devicetree/bindings/arm/msm/spm.txt

We already have a binding document for SAW. Please add stuff there
because SPM is just a component of SAW.

I agree that SPM is just a component of the SAW. But the document there
seems to indicate regulator details, totally unrelated to the actual SAW
hardware functionality.

Huh? The SAW binding should be extended with whatever properties are
necessary. Probably the only thing we need is the delays. Everything
else can be determined from the compatible?

Thats not true. There are many voltage related properties that are yet
to come. Not everything else can be determined from the compatible flag.
The idea behind having SPM nodes in the DT is that different SoCs may
have the same version of SPM but may have to talk to different
components. The delays, the PMIC register and the PMIC data all change
with the components that SPM communicates.

SAW has a connection to the PMIC, does it not? If it isn't directly
connected we can come up with a different name for the node, but just
because the node name in the example is misleading doesn't mean we
should completely disregard what we already have.

Yes the SAW has a connection to the PMIC. But what the nodes represent
are just regulator nodes and have no bearing on the SAW. You could use
SPMI/I2C writes to convey the same value without having to go through
SAW using those nodes. I have no reasonable understanding as to why they
are called SAW regulators in the first place. They are just regulators.
The mechanism of using SPM to communicate with the PMIC does not exist
in the kernel and is not part of those nodes. So adding to that
confusion wasn't a wise choice for me.


@@ -0,0 +1,47 @@
+* Subsystem Power Manager (SAW2)
+
+S4 generation of MSMs have SPM hardware blocks to control the
Application
+Processor Sub-System power. These SPM blocks run individual state
machine
+to determine what the core (L2 or Krait/Scorpion) would do when the
WFI
+instruction is executed by the core.
+
+The devicetree representation of the SPM block should be:
+
+Required properties
+
+- compatible: Could be one of -
+        "qcom,spm-v2.1"
+        "qcom,spm-v3.0"
+- reg: The physical address and the size of the SPM's memory mapped
registers
+- qcom,cpu: phandle for the CPU that the SPM block is attached to.
+    This field is required on only for SPMs that control the CPU.

We have a phandle from the CPU/L2 to the SAW, so this isn't necessary.

Sorry, I dont understand. Care to explain pls? Its necessary to know
what SPM instance controls which CPU or L2, so as to pick the right SPM
device to configure.

We have a phandle in the CPU nodes pointing to the SAW that is
associated with that CPU (qcom,saw). SPM is a part of a SAW. Thus there
is no need for this qcom,cpu property once the SAW node is used.
Instead, we can search the CPU and cache nodes for a qcom,saw that
matches the of_node for the platform device we're probing.

I agree thats doable. The cpu node can point to the SPM node or the
otherway as it is done here. I dont have a strong preference eitherway.
Lets resolve the earlier and we may have a solution for this, in our
hands.


+- qcom,saw2-cfg: SAW2 configuration register

Why? Compatible should indicate where this register is.

There are multiple versions of saw handled by the same driver and
distinguished by the version register. These SAW revisions differ in the
register offset organization. The variable holds the value to be
configured in the saw2-cfg register. I will update the documentation to
be more clear.
+- qcom,saw2-spm-ctl: The SPM control register

Why? Compatible should indicate where this register is.

See above.

Ah this is more register jam table in DT? cfg should probably be
described in desired clock rate and then the driver can figure out the
value by multiplying that the input clock rate. spm-ctl looks like it's
usually used to describe "enable", which seems rather obvious. Why isn't
the driver always writing the enable bit (bit 0)?

Kumar already had suggested that. I changed the code, but forgot to
update the documentation, which I noticed and amended in my local tree.
Waiting for some more comments and some changes in cpuidle stuff before
I submit the next rev. Thanks.
That said, figuring out the input clock rate and the multiplication is
still unnecessary. There are not much options on the hardware to change
clock rate and different parameters that will work well on a SoC. SPMs
are generic state machines and are designed to support multiple QCOM
SoCs and hence the configuration options. They dont generally run at
different clock rates and different configurations on the same SoCs.


+- qcom,saw2-spm-dly: Provides the values for the SPM delay command
in the SPM
+    sequence

This is actually three values packed into one register for three
different selectable delays, right? We don't typically do register jam
tables in DT. Perhaps it should be split out into 3 different
properties. Or maybe it shouldn't be specified in DT at all and should
be determined algorithmically from the command sequences? From what I
can tell most of the sequences don't even use these delays.

Not at all sequences use the delays. These cannot be determined
algorithmatically, They may be added to the sequence for changes in
hardware. Let me revisit the sequences to see if they need to be set
with the current sequence in use.


I was thinking perhaps these should be more structured binary blobs that
indicate the delays that would be necessary in the first 3 bytes or
something and then the command sequence after that.

       <delay1> <delay2> <delay3> <sequence>

Or perhaps

       <num delays=N> <delayN-1> <delayN> <sequence>

and then the code would parse these first few bytes and compress them
into 3 values that are written into the register.

Phew..A lot of splits and merge to get the SPM configured. The hardware
specs dictate a certain value, most of the time you just go with that
for that SoC and dont meddle around with these values. Given that, I
wonder how much benefit do we get by these reorganizations and
interpretations? Dont get me wrong, I am not resisting change. I just am
trying to find justification for making changes downstream as well.

BTW, I wonder if these sequences should be firmware blobs? Or at least,
different files that we then /incbin/ into the final DT blob (if DT
reviewers approve putting blobs like this into the kernel, Cc'ed the DT
list just in case).

I dint know better. Hence this place, I am not sure the
advantages/disadvantages of putting the sequences in firmware blobs. Let
me hunt for some information.



+
+Optional properties
+
+- qcom,saw2-spm-cmd-wfi: The WFI command sequence
+- qcom,saw2-spm-cmd-ret: The Retention command sequence
+- qcom,saw2-spm-cmd-spc: The Standalone PC command sequence
+- qcom,saw2-spm-cmd-pc: The Power Collapse command sequence. This
sequence may
+    turn off other SoC components.
+- qcom,saw2-spm-cmd-gdhs: GDHS (Globally Distributed Head Switch)
command
+    sequence. This sequence will retain the memory but turn off the
logic.

I wonder if these should be properties of the idle states? That way the
driver isn't searching for them by name in DT, instead it knows what
state is associated with what sequence that the SPM needs to have
programmed.

I see the relation you are seeing. But its not a property of the idle
state. Its an SoC specific property that the idle uses to indicate a
state. Better off lying here. I doubt there would be a good support for
holding SoC specific stuff in the ARM idle-states nodes.



What isn't specifically related to the 1) idle state and 2) CPU/L2/etc.
that the idle state is used in? I would think that by pointing to
different idle states from different CPU nodes we could cover all cases.
What is the SoC specific stuff in here?

SPM is specific to SoC. I am not sure if people are open to pointing to
SPM and its sequences from a node thats generic to all ARM cores. If
thats allowed, I will be open to add these to the idle-state nodes, just
not sure what it buys us. There is no commonality to other vendor's
SoCs.

--
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