Hi Johan,
Am 12.01.2018 um 16:39 schrieb Johan Hovold johan@kernel.org:
Let's restart this discussion and focus on the main roadblock (others are minor details which can be sorted out later).
If it feels like a hack, the key issue seems to me to be the choice of the API to present the GPS data to user space. Right?
Or even more fundamentally, does this belong in the kernel at all?
Yes, that can be questioned of course. It was questioned and discussed several times and I thought the answer was a clear yes. But let's reiterate.
Also it seems at least part of your specific problem is that you have failed to wire up the WAKEUP pin of the W2SG0004/84 properly,
The w2sg0004 has no wakeup pin. At least I can't find one in the data sheet.
The two pins you refer to from the 0084 data sheet are called BootSelect0/1 in the 0004 and have a different function.
To be clear, we did not fail to wire it up. We did the design before the 0084 was announced and available. We just had to swap in the 0084 into existing PCBs during production because the 0004 became EOL. Otherwise we would probably still use the 0004 without WAKEUP output.
To make it worse, we have no documentation for an individual board if an 0004 or 0084 chip is installed and there is no means how a software can find out which one it is talking to (especially before properly powering on). Therefore we can not even provide two different device trees or drivers or whatever, unless we ask people to open their device and look on the chip. Quite crazy wrt. user-friendlyness of software installation in 2018...
Therefore, a driver must be capable to handle both chips in the same way, with minimalistic assumptions, even if the 0084 could provide a direct signal to make it easier than using serdev to monitor the data stream.
which then forces you to look at the data stream to determine the power state of the chip. Judging from a quick look at the GTA04 schematics it seems you've even connected the WAKEUP output to the 1V8_OUT output?!
No. You failed to see that this is an optional 0R, which is not installed. The 0R on pin 7 (BootSelect1) to GND was removed when we did switch from 0004 to 0084. Pin 6 (BootSelect0/WAKEUP) was never connected.
The kernel is probably not the place to be working around issues like that,
You appear to assume this our only motivation is to make a workaround for a hardware design flaw but that isn't.
The purpose of the driver is to provide power management for the GPS subsystem which happens to be based on a chip with limited functionality.
And the serdev thing is the solution, not the requirement...
even if serdev at least allows for such hacks to be fairly isolated in drivers (unlike some of the earlier proposals touching core code).
Please tell me why there are so many hacks for hardware issues in certain drivers. Any why those are good and this one (if it is one at all) is not.
Some picks random fgrep -iR hack drivers
drivers/char/random.c: * Hack to deal with crazy userspace progams when they are all trying drivers/clk/meson/meson8b.c: * a new clk_hw, and this hack will no longer work. Releasing the ccr drivers/clk/samsung/clk-exynos3250.c: /* HACK: fin_pll hardcoded to xusbxti until detection is implemented. */ drivers/gpu/drm/amd/amdkfd/kfd_events.c: * This hack is wrong, but nobody is likely to notice. drivers/gpu/drm/amd/display/amdgpu_dm/amdgpu_dm.c: * HACK: IGT tests expect that each plane can only have one drivers/gpu/drm/amd/display/amdgpu_dm/amdgpu_dm.c: /* It's a hack for s3 since in 4.9 kernel filter out cursor buffer drivers/gpu/drm/amd/display/amdgpu_dm/amdgpu_dm.c: /* TODO This hack should go away */ drivers/gpu/drm/amd/display/dc/core/dc_link.c: /* A hack to avoid failing any modes for EDID override feature on
What I can learn from your discussion is that it might be considerable to add an optional gpio for the 0084 WAKEUP and add some logic to support users who have or will have that pin connected.
But even then we would need a driver to handle this gpio and issue an on/off impulse on the other to switch states. It would be a different driver (variant - maybe some CONFIG option or handled by code), but not "no driver".
I see three reasonable options how this presentation can be done:
- char device
- tty device
- some new gps interface API (similar to network, bluetooth interfaces)
- no driver and use the UART tty directly
Pros and cons:
- no driver and use UART directly
- a non-solution seems to be attractive
- must turn on/off chip by gpio hacks from user-space
I'm not sure that would amount to more of hack then doing it in the kernel would.
It might not be big effort in the user-space code/scripts.
But much effort to convince all the plethora of user-space client maintainers to integrate something. And have them roll out. And have distributions take it. And have users upgrade to it. 5 years later...
Do you think it is easier to convince them than you? They usually assume a power management issue should be solved by the kernel driver.
That is what Andreas did remark as motivation: provide a solution for *existing* user spaces.
- can not guarantee (!) to power off the chip if the last user-space
process using it is killed (which is essential for power-management of a handheld, battery operated device)
That depends on how you implement things (extending gpsd, wrapper script, pty daemon, ...).
No. You can of course cover all standard cases but there is one fundamental issue which is IMHO a problem of any user-space implementation:
How can you guarantee that the chip is powered off if no user-space process is using it or if the last process doing this is killed by *whatever* reason?
E.g. after a kill -9. Or if someone deinstalls gpsd or whatever and assumes (and wants a guarantee) that GPS is now turned off and never turned on drawing precious milliamps from the battery for no use.
As it is well known, a user-space process can't protect itself against kill -9. Or has this recently been changed and I am not aware of?
This is the fundamental reason why we need a kernel driver to provide reliable, repeatable and trustable power management of this chip.
It is equally fundamental as a hard disk should spin down after the last file is closed. Even if this process ends by a kill -9.
A second almost equally fundamental aspect to be considered is how you want to automatically and reliably turn off the chip by pure user-space code when entering suspend.
I would clearly prefer 3 over 2 over 1 over 4.
So do you see a chance that the kernel core team provides something useable (not perfect) for variant 3 in reasonable time (let's say 3-6 months)?
No, I'm afraid not. At least not if we're talking about a framework that would replace gpsd.
This confirms my assumption that there is nothing really good to expect soon to implement a driver for variant 3.
If not, I want to suggest to accept the second-best choice 2. for now and we will update the driver as soon as 3. appears. IMHO it would be a good test case for a new subsystem.
Getting the interface right from the start is quite important, as otherwise we may end up having to support a superseded one for a long time.
This seems to contradict your argument that user-space can very easily adapt to everything. If the latter were true there would be no need to keep old interfaces supported for a long time.
So can you agree to that a battery powered portable device must have reliable and trustable power management? And if it provable can't be implemented in user-space (a single counter example suffices) it must be a kernel driver?
BR, Nikolaus