RE: [PATCH 1/3] ASoC: codecs: Add da7219 codec driver
From: Opensource [Adam Thomson]
Date: Tue Sep 22 2015 - 09:01:01 EST
On September 21, 2015 18:11, Mark Brown wrote:
> > In a system scenario the likelihood of that happening is small as you
> > cannot use the mic or headphones until they've been inserted. The system is
> > only likely to act after the jack insertion events have occurred. However, it
>
> This really isn't an OK approach here, you're making a whole bunch of
> assumptions about how the system is implemented that aren't robust and
> will lead to loss of audio if things go wrong which is a pretty serious
> consequence. Are you *sure* there's going to be a quick enough response
> to cover all jack inserts and remove (especially under load), or that
> userspace even bothers paying attention given that there's no other
> input and output devices?
You make a fair point, and I'd much rather it was bullet proof.
> > would be better to prevent any chance of concurrent access. The problem is how
> > best to lock the Kcontrols whilst the test procedure in progress. At the moment
> > the only way I can see is to add explicit control set() functions which would
> > use a lock that can also be controlled by the HP test code. Does this make sense
> > to you or do you know of a simpler method? Obviously dapm has function to lock
> > as required.
>
> Yes, you're going to have to do something like that if you want to do
> this - you'll also need to lock the reads since otherwise userspace will
> see the intermediate control states.
Ok, will look at adding set() and get() functions for the controls affected.
>
> > For the cache resync idea, in terms of code, it will look cleaner, but you are
> > talking about 4 to 5 times the number of I2C accesses to the device, to restore
> > configuration. Does that not seem like a bit too much overhead?
>
> There's regcache_sync_region().
That's fine if the registers are clumped closely together. Will have a look and
see if it works out cleaner. Thanks.
> > > Why are we scheduling work - we're already in thread context?
>
> > hptest will take some time to complete (over 100ms), and in that time it's
> > plausible that a user could remove the jack. If we deal with this in the IRQ
> > thread, we won't be aware of jack removal during the process, and will send a
> > report regardless, which will almost definitely be incorrect, and unnecessary.
> > By spawning off work, it allows the removal to be dealt with if the hptest work
> > procedure is currently in process, and then we can avoid sending incorrect jack
> > reports at the end.
>
> OK, please document this then.
Ok, will add comments to clarify.
>
> > > > + /* Un-drive headphones/lineout */
> > > > + snd_soc_update_bits(codec, DA7219_HP_R_CTRL,
> > > > + DA7219_HP_R_AMP_OE_MASK, 0);
> > > > + snd_soc_update_bits(codec, DA7219_HP_L_CTRL,
> > > > + DA7219_HP_L_AMP_OE_MASK, 0);
>
> > > This looks like DAPM?
>
> > The control of driving the headphones or making them high impedance is handled
> > in the AAD code because we cannot have the headphones driven before a jack is
> > inserted as it will affect the pole detection. Adding it to DAPM seemed like it
> > would cause more problems in terms of controlling when it would and wouldn't be
> > enabled.
>
> IIRC you had some DAPM updates in adjacent code?
Yes, there's a disable_pin() call for micbias. However that will not
disable the pin indefinitely which is what I would require for this. I need to
know that there's no chance of the pin being enabled prior to jack insertion.
> > > > + default:
> > > > + return DA7219_AAD_JACK_INS_DEB_20MS;
>
> > > This isn't an error?
>
> > Opted for HW default in case of invalid values provided. Maybe a dev_warn()
> > would be useful though to indicate this is the case?
>
> Yes - the user has explicitly tried to set something and the driver is
> ignoring it.
Agreed. Will update accordingly.
>
> > > > + ret = regmap_bulk_read(da7219->regmap, reg, &val, sizeof(val));
> > > > + if (ret)
> > > > + return ret;
>
> > > > + ucontrol->value.integer.value[0] = le16_to_cpu(val);
>
> > > This is *weird*. We do a bulk read for a single register using an API
> > > that returns CPU endian data then make it CPU endian (without any
> > > annotations on variables...). Why not use regmap_read()? Why swap?
> > > Why not use raw I/O?
>
> > The device is 8-bit register access only, and the value spans two registers,
> > hence why this is done here. The register defined for the Kcontrol is the first
> > in the sequence of two registers (first lower byte, second upper byte). Thought
> > this was cleaner than having two separate controls to configure upper and
> > lower bytes.
>
> Again some documentation would help, and also using raw reads rather
> than bulk reads (which imply that all endianness issues will be taken
> care of). If you're doing a bulk read and handling endianness that's
> worrying. You should also have an endianness annotation for val.
If I had used bulk_read() and an array of 2 u8 values instead, and then
converted what was read into a u16, would that have been better/clearer? I can
do that, but figured this might be a more elegant soluion. Either, way I'll
add some comments to clarify what's going on.
> > > Capture Digital rather than ADC.
>
> > Ok, fine. Is this now the common naming to be used for all future codecs?
>
> It's always been the naming in ControlNames.txt - we don't generally
> worry about it on devices with more flexible routing which mean that the
> associated meaning won't always be really true but for this device it
> seems that the options are sufficiently limited to allow userspace to
> use the standard name.
Ok, understood.
> > > > + /* Internal LDO */
> > > > + if (da7219->use_int_ldo)
> > > > + snd_soc_update_bits(codec, DA7219_LDO_CTRL,
> > > > + DA7219_LDO_EN_MASK,
> > > > + DA7219_LDO_EN_MASK);
>
> > > If there is an option to use an external supply I would expect to see
> > > the regulator API used to discover the external LDO (and ideally also to
> > > configure the integrated LDO). If the driver works outside the
> > > frameworks then it is likely this will lead to integration issues later
> > > on.
>
> > Given the simplistic nature of the internal LDO, I didn't think it would be
> > necessary to use the framework as it seemed overkill. I assume you mean
> > following something like what is done in the sgtl5000 codec?
>
> That should work I think. The point here isn't really the control of
> the LDO itself, it's making sure that the integration with external
> supplies works well - the key bit is that how we figure out that we
> don't have an external supply connected should be joined up with how we
> normally integrate external supplies.
Ok, thanks. Will update.
> > > > + /*
> > > > + * There are multiple control bits for the input mixer.
> > > > + * The following can be enabled now as it's not power related.
> > > > + */
> > > > + snd_soc_update_bits(codec, DA7219_MIXIN_L_CTRL,
> > > > + DA7219_MIXIN_L_MIX_EN_MASK,
> > > > + DA7219_MIXIN_L_MIX_EN_MASK);
>
> > > So the chip designers just put these in for randomness? Fun. It'd be
> > > more idiomatic to do something like making these supply widgets so
> > > they're controlled via DAPM even if they don't matter much.
>
> > Figured we'd be saving on additional I2C accesses if it's just done the once.
> > Do you really think it needs to be a widget as it seems a little unnecessary
> > enabling and disabling every time that path is powered up and down?
>
> It seems likely to be more robust against someone realising that the
> register bits actually do something useful and need toggling and it
> raises less eyebrows code wise.
>
> If you're worried about the register writes you should also be able to
> arrange to map these in as mixer widgets which would mean that the the
> core will combine the writes with the main power controls.
Just didn't seem necessary. However, will change it as requested.
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