On 1/5/2020 10:33 AM, Sowjanya Komatineni wrote:
On 1/4/20 5:05 PM, Dmitry Osipenko wrote:
04.01.2020 08:49, Sowjanya Komatineni пишет:
On 1/2/20 8:12 AM, Dmitry Osipenko wrote:
02.01.2020 10:03, Sowjanya Komatineni пишет:
On 12/27/19 1:19 PM, Sowjanya Komatineni wrote:
On 12/27/19 6:56 AM, Dmitry Osipenko wrote:
25.12.2019 20:57, Mark Brown пишет:
On Mon, Dec 23, 2019 at 12:14:34AM +0300, Dmitry Osipenko wrote:
21.12.2019 01:26, Sowjanya Komatineni пишет:
Tegra PMC clock clk_out_1 is dedicated for audio mclk from
Tegra30
through Tegra210 and currently Tegra clock driver does
initial parent
configuration for audio mclk "clk_out_1" and enables them by
default.
Please delete unneeded context from mails when replying. Doing
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material.
Ok
- clk_disable_unprepare(data->clk_cdev1);
- clk_disable_unprepare(data->clk_pll_a_out0);
- clk_disable_unprepare(data->clk_pll_a);
+ if (__clk_is_enabled(data->clk_cdev1))
+ clk_disable_unprepare(data->clk_cdev1);
The root of the problem is that you removed clocks enabling from
tegra_asoc_utils_init().
currently, audio mclk and its parent clocks enabling are from clock
driver init and not from tegra_asoc_utils_init.
I'm not sure why clocks should be disabled during the
rate-changing,
probably this action is not really needed.
I know nothing about this particular device but this is not that
unusual a restriction for audio hardware, you often can't
robustly reconfigure the clocking for a device while it's active
due to issues in the hardware. You often see issues with FIFOs
glitching or state machines getting stuck. This may not be an
issue here but if it's something that's documented as a
requirement it's probably good to pay attention.
I don't know details about that hardware either, maybe it is
simply not
safe to change PLL_A rate dynamically and then CLK_SET_RATE_GATE
could
be used.
If nobody knows for sure, then will be better to keep
tegra_asoc_utils_set_rate() unchanged.
plla rate change through tegra_asoc_utils_set_rate() happens only
when
there is not active playback or record corresponding to this sound
device.
So, I don't see reason for disabling clock during rate change and
not
sure why we had this from the beginning.
Thierry/Sameer,
Can you please comment?
Yes, we can use CLK_SET_RATE_GATE for PLLA and remove clock
disabling
before rate change.
PLLA is used for both I2S controller clock and also for audio
mclk. I2S
driver suspend resume implementations takes care of enabling and
disabling I2S clock but audio mclk will be enabled during that
time and
PLLA disable might not happen. So using CLK_SET_RATE_GATE prevents
rate
change to happen and as rate change happens only when there is no
active
audio record/playback, we can perform rate change without
disable/enable
during rate change.
So probably below changes should be good.
* remove asoc_utils_set_rate call from asoc_utils_init as set_rate
happens during existing hw_params callback implementations in
sound
drivers and there is no need to do rate change during
asoc_utils_init.
* remove disable/enable clocks during rate change in
asoc_utils_set_rate.
* add startup and shutdown snd_soc_ops callbacks to do enable and
disable audio mclk.
Sounds good, thanks. I'll be happy to review and test it.
Regarding disabling audio mclk during PLLA rate change, no need to
explicitly disable PLLA on asoc utils as clock driver takes care of it
properly during pll rate change.
But the downstream clock divider hardware can malfunction without
recovery when subject to unstable PLL output during locking, unless
clock is gated.
So it is recommended to disable downstream clocks during PLL rate
change.
PLLA downstream clocks are I2S and audio mclk (cdev1/clk1 and extern1
clocks) and I2S clock is disabled in I2S driver by PM runtime ops.
The I2S driver uses asynchronous pm_runtime_put() and thus there is no
guarantee that I2S clock is disabled at the time of changing PLLA rate.
Could this be a problem?
Looking into soc_pcm_hw_params, I see dai_link hw_params ops happens
prior to platform snd_soc_dai_driver hw_params ops.
This is true.
So, PLL rate change thru asoc_utils_set_rate happens during sample
rate config of dai_link hw_params ops and during this time I2S will
always be in idle state.
This is probably not the case, since runtime resume for I2S would have
already enabled the clock for I2S and in turn PLLA. The hw_param() call
would happen later.
We could have used a fixed clock rate for PLLA, but the reason why we
are setting the rate at runtime is, we support sample rates (and
multuples) of 8kHz and 11.025kHz.
Both of these require a different PLLA base rate for downstream clock
dividers to work properly. That is why, I think we have two base rates
for PLLA.
Even if we want to enable the clocks (for i2s) in hw_param(), this still
may not help.
For example there could be multiple I2S instances, which can use the
same PLLA source. ALSA playback/capture on different I2S can run
independently.
Hence we are not sure if clk_disable_unprepare() in tegra_asoc_utils.c
would actually disable PLLA. Hence I think the problem exists in current
code too.
We really want to allow user to run any sample rate in the supported
range. However the sample rate is known during hw_param() callback.
Looking at current discussion, we may have to provide an aternate way of
switching PLLA base rate (may be not in ALSA callbacks)
Sameer, Please confirm.
For audio mclk, need to make sure mclk are disabled during rate change.
So below are the changes to audio clocks that will be in next version.
* remove tegra_asoc_utils_set_rate call from
tegra_asoc_utils_init as
tegra_asoc_utils_set_rate happens during hw_params callback.
* add shutdown snd_soc_ops callbacks to disable of audio mclk.
* remove disable audio mclk (cdev1) and plla clocks prior to rate
change in tegra_asoc_utils_set_rate (as audio mclk will always
be in
disabled state every time hw_param callback gets executed) and
keep
audio mclk enable after the rate change in
tegra_asoc_utils_set_rate.
