Am 28.04.2015 um 14:49 schrieb Tomeu Vizoso:
On 25 April 2015 at 01:15, Alexander Holler <holler@xxxxxxxxxxxxx> wrote:
Am 24.04.2015 um 16:47 schrieb Tomeu Vizoso:
Hi,
while reading the thread [0] that Alexander Holler started with his series to make probing order deterministic, it occurred to me that it should be possible to achieve the same by probing devices as they are referenced by other devices.
This basically reuses the information that is already embedded in the probe() implementations, saving us from refactoring existing drivers or adding information to DTBs.
The main issue I see is that the registration code path in some subsystems may not be reentrant, so some refactoring of the locking will be needed. In my testing I have found this problem with regulators, as the supply of a regulator might end up being registered during the registration of the first one.
Something I'm not completely happy with is that I have had to move the population of the device tree after all platform drivers have been registered. Otherwise I don't see how I could register drivers on demand as we don't have yet each driver's compatible strings.
I have done my testing on a Tegra124-based Chromebook, and these patches were enough to eliminate all the deferred probes.
First you have to solve a problem which is totally unrelated to DT or
ACPI or x86 or ARM:
I think as long as drivers don't register themself whithout any side
effect, this problem isn't solvable. In order to make an ordered list of
drivers to start, you need to know which drivers are actually available.
Yeah, I kind of side-stepped that issue by waiting until all drivers
have been registered before registering devices. I think someone
suggested doing so in your thread (maybe Grant?).
That doesn't work. As said above, several drivers doing a lot more than
just registering in their initcall. They might even crash if some
prerequisits aren't given. And several of these prerequisits (init
orders) are hardcoded by various means.
There's lots of things that can be improved regarding driver and
device initialization, but we have to start somewhere :)
That's what I've tried by marking good drivers as such (and by placing
them in their own initcall level group).
But as said, good luck. I've tried it already and nobody seemed
interested. Some people even seem to panic if they see a patch which
changes something in linux/init/ ;)
Regards,
Alexander Holler
Thanks,
Tomeu
And also drivers are registering themself with their initcall, they
might do an awfull lot of stuff besides just registering themself. That
means several drivers already have prerequisites and dependcies for
their initcall. That means you can't just call their initcall to get and
idea of which driver an initcall is even part of.
That ends up with the fact that you just don't have a list of drivers
you can sort, based on whatever algorithm you might have in mind.
I've tried to solve that problem with marking drivers which don't have
any prerequisits (and side effects) as "well done".
The patch which did that was 5/9 in my series, this one:
https://lkml.org/lkml/2014/5/12/414
Unfortunately nobody seemed really interested and without one of the few
"big guys" in your pocket, it's absolutely impossible to get such
changes into the kernel.
Not to speak about all the unavoidable discussions about absolutely
silly things.
But maybe I'm the problem here. No idea. I wish you more luck than I had
in the past two or three years.
Regards,
Alexander Holler
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