On 10/17/2014 06:18 PM, Ray Jui wrote:
On 10/17/2014 4:15 AM, Lars-Peter Clausen wrote:
On 10/17/2014 09:35 AM, Vinod Koul wrote:
On Fri, Oct 17, 2014 at 09:45:45AM +0200, Lars-Peter Clausen wrote:
On 10/17/2014 02:48 AM, Ray Jui wrote:
As part of subsystem that many slave drivers depend on, it's more
appropriate for the pl330 DMA driver to be initialized at
subsys_initcall than device_initcall
Well, we do have -EPROBE_DEFER these days to handle these kinds of
dependencies so we no longer have to these kinds of manual init
reordering tricks.
How ould that work?
Consider for example SPI and dmanegine. SPI driver got probed, then to
start
a transaction requested a channel... while dmaengine driver is still
getting
probed/not probed yet. So SPI driver didnt get a channel.
Ideally the SPI driver requests the channel in probe function and if the
DMA controller is not yet probed returns EPROBE_DEFER. If the SPI driver
requests the channel in the transfer handler it needs to deal with being
able to fall back to non DMA transfers anyway so this shouldn't be a
problem.
So in the case of the spi-pl022 driver. It requests the channel in probe
function. And obviously DMA is not mandatory, so when the channel request
fails the probe won't fail and instead it falls back to PIO. In this case,
can you recommend a different way to solve this problem without having the
DMA driver probed earlier than its slaves?
dma_request_slave_channel() has the problem that we can't differentiate
between no channel provided and channel provided but the dma driver hasn't
probed yet. The function will return NULL in both cases. But Stephen Warren
added dma_request_slave_channel_reason() a while ago to solve this problem.
This function returns a ERR_PTR. If it returns ERR_PTR(-EPROBE_DEFER) it
means that a channel has been provided but the DMA driver hasn't probed yet.
In this case the SPI driver should return -EPROBE_DEFER to try again later.
If the function returns a different error code that means that it was not
possible to get the DMA channel and it should fall back to PIO.
But in any case fiddling around with the init sequences is just a quick
hack and might makes the problem less likely to appear in some cases,
but there is no guarantee that it works. And I think the proper solution
at the moment is to use probe deferral.
I think it makes sense to have the DMA driver, as one of the core components
in various SoCs that a lot of peripheral drivers depend on, to be registered
at the level of subsys_init or somewhere close. We are not changing this
just to get SPI to work. We are changing this because we think DMA should be
ready before a lot of its slaves, which are typically done at device_initcall.
But if the DMA driver for example depends on a clock driver do you put the
clock driver at a even earlier init level? The problem with using init
levels for solving this problem is that there is only a small amount of init
levels available and representing the dependency chains is neither possible
with it nor were init level ever intended for solving this. EPROBE_DEFER on
the other hand is.
I have no problem relying on EPROBE_DEFER for this, provided that it works.
The issue is, like I mentioned above, for a lot of slave devices DMA is not
mandatory, when DMA fails at probe they would fall back to PIO and never use
DMA. Another disadvantage I see with EPROBE_DEFER is delayed boot time.
Yea, the EPROBE_DEFER implementation is not ideal, but that is a problem
that should be solved rather than working around it. I think there are
patches somewhere for example that build a device dependency graph from the
phandles in the devicetree and than probe devices in the correct order to
reduce the number of times probe deferral is necessary.
Other subsystems have seen patches which moved drivers from using
subsys_initcall to device_initcall/module_..._driver/ with the reasoning
that this is no longer necessary because of EPROBE_DEFER. So I don't
think we should be doing the exact opposite in DMA framework. Also if
we'd apply this patch it won't take to long until somebody suggest going
back to module_platform_driver() instead of subsys_initcall.
- Lars
There are currently 12 DMA drivers under drivers/dma registering themselves
at subsys_init. I don't see why pl330 cannot do the same. Is there any
concern that it may not work for some other SoCs when it's done at
subsys_init? So far I cannot think of any. The only dependency of pl330 is
the ARM apb_pclk, required during AMBA bus probe. But that's usually ready
before subsys_init.
Those other drivers should be converted to device_initcall rather than
converting the PL330 driver to subsys_init. Using subsys_init for device
drivers is a hack which was used to try to solve ordering problems. But it
doesn't work that great, especially if you have more than two devices in
your dependency chain. The solution that people have come up with to solve
this problem in a better way is probe deferral by the means of -EPROBE_DEFER.
- Lars
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