On Tue, 2015-10-13 at 09:07 +0200, David Henningsson wrote:
On 2015-10-12 22:59, James Cameron wrote:
On Mon, Oct 12, 2015 at 02:49:46PM +0100, Liam Girdwood wrote:
I've written up the minutes here below
Thanks!
Splitting out controls: Takashi
- Restricted access. Consensus to restrict access to some controls due
to possibility of breaking HW at kernel level. i.e. prevent feeding digital Mic into HP amp to prevent speaker over heating.
I'd like that. rt5631. Avoiding at the moment by removing the controls.
IIRC, the debate was over "do not expose dangerous controls to userspace at all" vs "expose dangerous controls controls only to root".
I'm strongly voting for "do not expose to userspace at all".
I personally believe that if the physical hardware can be set to state where it's bricked, the hardware itself is buggy.
If the hardware is buggy, this should be worked around in BIOS or whatever firmware is present on the machine. Otherwise there is a bug in BIOS.
If BIOS is buggy and cannot protect the machine from being physically damaged, then we need to work around that in the kernel. Otherwise there is a bug in the kernel.
And if the kernel is buggy, we should fix the kernel. Period. :-)
I agree with you in principle that if it can break the hardware then either it shouldn't be exposed to user-side at all, or it should be checked by the kernel/driver to prevent bad settings.
However, what about this sort of scenario: some codec has a speaker volume range of 0..100, all of which are valid and safe. Manufacturer X makes a device with an inadequate speaker that can be damaged with volume settings above 80. How is that protected? There's nothing wrong with the codec driver. There's no software at all for a speaker - it's just a speaker. Where do we put a hard limit of 80 on a codec control for one specific device? If it was my codec driver I don't want to have to put a workaround for one specific device because manufacturer X chose the wrong type of speaker. Or do we not care about the "stupid manufacturer" cases and we're only interested in protecting the device the control directly applies to - in this example it's a codec control so it mustn't damage the codec but we don't care if poor hardware design means it could damage other hardware connected to the codec.