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SubjectRe: [PATCH v6 1/3] clk: qcom: Configure the RCGs to a safe source as needed
On 2018-05-05 08:54, Stephen Boyd wrote:
> Quoting Amit Nischal (2018-05-03 04:57:37)
>> On 2018-05-02 13:15, Stephen Boyd wrote:
>> > Quoting Amit Nischal (2018-04-30 09:20:08)
>> >
>> >> +}
>> >> +
>> >> +static void clk_rcg2_shared_disable(struct clk_hw *hw)
>> >> +{
>> >> + struct clk_rcg2 *rcg = to_clk_rcg2(hw);
>> >> + struct freq_tbl safe_src_tbl = { 0 };
>> >> +
>> >> + /*
>> >> + * Park the RCG at a safe configuration - sourced off from
>> >> safe source.
>> >> + * Force enable and disable the RCG while configuring it to
>> >> safeguard
>> >> + * against any update signal coming from the downstream clock.
>> >> + * The current parent is still prepared and enabled at this
>> >> point, and
>> >> + * the safe source is always on while application processor
>> >> subsystem
>> >> + * is online. Therefore, the RCG can safely switch its parent.
>> >> + */
>> >> + safe_src_tbl.src = rcg->safe_src_index;
>> >> + clk_rcg2_shared_force_enable_clear(hw, &safe_src_tbl);
>> >
>> > This should then re-dirty the config register to have the software
>> > frequency settings that existed in the hardware when disable was
>> > called.
>> > Given that MND shouldn't be changed here, this should be as simple as
>> > saving away the CFG register, forcing it to XO speed by changing the
>> > src
>> > and disabling dual edge in the CFG register (please don't call
>> > force_enable_clear with some frequency pointer, just do this inline
>> > here), and then rewriting the cfg register with the "real" settings for
>> > whatever frequency it's supposed to run at and then returning from this
>> > function.
>> >
>> > I guess we have to do a read cfg from hardware, write cfg, hit update
>> > config, and then write cfg again each time we disable. For enable, we
>> > just do an update config (if it's dirty?) inside of a force
>> > enable/disable pair. And set_rate doesn't really change except it
>> > either
>> > does or doesn't hit the update config bit if the clk is enabled or
>> > disabled respectively.
>> >
>>
>> We have done the below changes suggested by you and that logic seems
>> to
>> be
>> working fine. But we have one concern about leaving the RCG registers
>> in
>> dirty state and would like to have a little bit modification as
>> explained
>> below:
>>
>> Suggested Logic:
>> 1. set_rate()--> Update CFG, M, N and D registers and don't hit the
>> update
>> bit if clock is disabled - call new
>> __clk_rcg2_configure().
>> Above will make the CFG register as dirty.
>>
>> 2. _disable()--> 2.1 - Store the CFG register configuration in a
>> variable.
>> 2.2 - Move to the safe source (XO) and hit the
>> update
>> bit.
>> It will only touch the CFG register and M, N,
>> D
>> register values will remain as it was.
>> 2.3 - Write back the stored CFG value done in step
>> #2.1
>> This will again redirty the CFG register.
>>
>> 3. _enable()--> Just hit the update bit as the configuration write
>> will
>> be taken care in the steps #1 and #2.
>>
>> It would be great if we don't redirty the CFG register and leave the
>> RCG
>> CFG register to at safe source(XO) in disable() path.
>>
>> This would help us to debug the issues where device crashes and we
>> want
>> to dump the RCG registers to know whether from software, we have
>> actually
>> moved to safe source or not. Otherwise, we would get the dirty
>> register
>> values in crash dumps.
>>
>> So instead of writing back the stored CFG(corresponding to real rate
>> settings) in disable path, we want to restore the stored CFG in enable
>> path and then hit the update bit.
>> CFG configuration store can happen at two places - set_rate() and
>> disable()
>> path and above logic will be modified as below:
>>
>> 1. set_rate()--> 1.1 - Update CFG, M, N and D registers and don't hit
>> the
>> update bit if clock is disabled.
>> 1.2 - Store CFG register value in 'current_cfg'
>> member
>> of 'rcg2' structure.
>>
>> 2. _disable()--> 2.1 - Store the CFG register value in 'current_cfg'
>> before
>> switching to the safe source (XO).
>> 2.2 - Move to the safe source (XO) and hit the
>> update
>> bit.
>> Now RCG configuration wil not be dirty.
>>
>> 3. _enable()--> 3.1 - Check for 'current_cfg' value and if 0 then
>> return.
>> This would catch the below one time condition:
>> - when clk_enable() gets call without
>> set_rate().
>
> We want clk_enable() to work without set_rate() though. So returning 0
> if the value is 0 is wrong.
>
>> 3.2 - Write the CFG value from 'current_cfg' to CFG
>> register.
>> 3.2 - Hit the update bit as we have already written
>> the
>> latest
>> configuration in step #3.2.
>> 3.3 - Clear the 'current_cfg' value.
>>
>> We feel above logic will work as expected and in this way, we don't
>> have
>> CFG
>> registers in dirty state when clock is disabled.
>> Could you please inform us your thoughts about above implementation
>> and
>> based
>> on that I will send the required changes.
>>
>
> If you want to save away current_cfg in a memory location so you know
> what it was before it was dirty, then perhaps that needs to be a debug
> patch that you stack on top when debugging. In the end, it would just
> be
> saving the state of the frequency setting that we have in software
> though, and that would be the latest rate of the clk we have configured
> the clk for. There aren't any mux switches going on when the clk is
> off,
> so you're saying you want to know the rate of the clk that the kernel
> set when we turned the clk off, which we already have with the clk
> rate.
> I'm confused.

Thanks for the suggestions. We will implement the new ops with the below
logic which you suggested earlier i.e. re-dirtying the RCG in disable()
path
with real CFG settings and in enable() path, only hit the update bit.

1. set_rate()--> Update CFG, M, N and D registers and don't hit the
update bit if clock is disabled - call new
__clk_rcg2_configure().
Above will make the CFG register as dirty.

2. _disable()--> 2.1 - Store the CFG register configuration in a
variable.
2.2 - Move to the safe source (XO) and hit the update
bit. It will only touch the CFG register and M,
N, D
register values will remain as it was.
2.3 - Write back the stored CFG value done in step #2.1
This will again redirty the CFG register.

3. _enable()--> Just hit the update bit as the configuration write will
be taken care in the steps #1 and #2.

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