On 13/05/15 17:54, Maxime Coquelin wrote:
2015-05-13 18:37 GMT+02:00 Arnd Bergmann <arnd@xxxxxxxx>:
On Wednesday 13 May 2015 18:29:05 Maxime Coquelin wrote:
2015-05-13 17:28 GMT+02:00 Arnd Bergmann <arnd@xxxxxxxx>:
On Wednesday 13 May 2015 16:20:34 Daniel Thompson wrote:
That would suit me very well (although is the 0x20/0x40 not the 8 that
we would need in the middle column).
We don't normally use register offsets in DT. The number 8 here instead
would indicate block 8, where each block is four bytes wide. Using the
same index here for reset and clock would also help readability.
My view is that it makes the bindings usage very complex.
Also, it implies we have a specific compatible for stm32f429, whereas
we didn't need with my earlier proposals.
Indeed, the reset driver will need to know the offset of every reset
registers, because:
1. The AHB registers start at RCC offset 0x10 (up to 0x18)
2. The APB registers start at RCC offset 0x20 (up to 0x24).
We have a gap between AHB and APB registers, so how do we map the
index for the block you propose?
Should the gap be considered as a block, or we should skip it?
I'm afraid it will not be straightforward for a reset user to
understand how to use this bindings.
Either my v7 or v8 versions would have made possible to use a single
compatible for STM32 series.
If we stick with one of these, we could even think to have a "generic"
reset driver, as it could be compatible with sunxi driver bindings.
We should definitely try to use the same compatible string for all of
them, and make a binding that is easy to use.
I haven't fully understood the requirements for the various parts that
are involved here. My understanding so far was that the driver could
use the index from the first cell and compute
void __iomem *reset_reg = rcc_base + 0x10 + 4 * index;
void __iomem *clock_reg = rcc_base + 0x30 + 4 * index;
This calculation is true, but we have to take into account there is a
hole in the middle, between AHB3, and APB1 register:
... and equally importantly, only allows us to use hardware mappings for
the gated clocks.
AHB1RSTR : offset = 0x10, index = 0
AHB2RSTR : offset = 0x14, index = 1
AHB3RSTR : offset = 0x18, index = 2
<HOLE > : offset = 0x1c, index = 3
APB1RSTR : offset = 0x20, index = 4
APB2RSTR : offset = 0x24, index = 5
So we have to carefully document this hole in the bindings, maybe by
listing indexes in the documentation?
The register set has PLL, mux and dividers in the registers at 0x00,
0x04 and 0x08.
Many of these clocks can be kept out of DT entirely because they are
only there to feed other parts of the clock tree. However some of the
dividers flow directly into cells that appear in device tree (such as
the systick) and so we need to be able to reference them.
In other words the proposed mapping cannot allow us to express the
dividers properly (because the index would have to be negative):
void __iomem *clock_reg = rcc_base + 0x30 + 4 * index;
Thus I'd favour using different indexes for reset and clock bindings,
both using the naive mapping function:
void __iomem *reg = rcc_base + 4 * index
I think that its so much easier to check against the datasheet like
that. Admittedly is we follow the block-of-4-bytes idiom we have to
divide a hex number by four but thats not so hard and we end up with:
resets = <&rcc 8 0>;
clocks = <&rcc 16 0>;
At the end of the day if we say we want to follow the datasheet, lets be
do it in the most direct way properly.
Daniel.
PS
I've written a custom lookup function to to get from the DT index to an
offset into the struct clk *array I'm using. That means I don't care
much about any big holes in the register space.
Are there parts that need something else? If the 0x10 offset is
different, we probably want a different compatible string, and I'd
consider it a different part at that point. If there are chips
that do not spread the clock from the reset by exactly 256 bits,
we could add a DT property in the rcc node for that.
I will check other chips, to see if this is valid generally.
Thanks for your feedback,
Maxime
Arnd
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