Hello Adrian,
On Mon, 2020-10-12 at 23:59 +0300, Adrian Ratiu wrote:
Dear all,
This series introduces a regmap infrastructure for the Hantro driver
which is used to compensate for different HW-revision register layouts.
To justify it h264 decoding capability is added for newer VC8000 chips.
This is a gradual conversion to the new infra - a complete conversion
would have been very big and I do not have all the HW yet to test (I'm
expecting a RK3399 shipment next week though ;). I think converting the
h264 decoder provides a nice blueprint for how the other codecs can be
converted and enabled for different HW revisions.
The end goal of this is to make the driver more generic and eliminate
entirely custom boilerplate like `struct hantro_reg` or headers with
core-specific bit manipulations like `hantro_g1_regs.h` and instead rely
on the well-tested albeit more verbose regmap subsytem.
To give just two examples of bugs which are easily discovered by using
more verbose regmap fields (very easy to compare with the datasheets)
instead of relying on bit-magic tricks: G1_REG_DEC_CTRL3_INIT_QP(x) was
off-by-1 and the wrong .clk_gate bit was set in hantro_postproc.c.
Anyway, this series also extends the MMIO regmap API to allow relaxed
writes for the theoretical reason that avoiding unnecessary membarriers
leads to less CPU usage and small improvements to battery life. However,
in practice I could not measure differences between relaxed/non-relaxed
IO, so I'm on the fence whether to keep or remove the relaxed calls.
What I could masure is the performance impact of adding more sub-reg
field acesses: a constant ~ 20 microsecond bump per G1 h264 frame. This
is acceptable considering the total time to decode a frame takes three
orders of magnitude longer, i.e. miliseconds ranges, depending on the
frame size and bitstream params, so it is an acceptable trade-off to
have a more generic driver.
Before going forward with using regmap, I would like to have a sense
of the footprint it adds, and see if we can avoid that 20 us penalty.
I'd also like to try another approach, something that has less
memory footprint and less runtime penalty.
How about something like this:
#define G1_PIC_WIDTH 4, 0xff8, 23
#define ...
struct hantro_swreg {
u32 value[399 /*whatever size goes here*/];
};
void hantro_reg_write(struct hantro_swreg *r,
unsigned int swreg, u32 mask, u32 offset, u32 new_val)
{
r->value[swreg] = (r->value[swreg] & ~(mask)) |
((new_val << offset) & mask);
}
Which you can then use in a very similar way as the current proposal:
hantro_reg_write(&swreg, G1_PIC_WIDTH, width);
The first advantage here is that we no longer have any
footprint for the fields.
The ugly macros for "4, 0xff8, 23" can be auto-generated from
existing vendor headers, when possible, so that shouldn't
bother us.
The register set is "flushed" using _relaxed, but it
could be still costly.
If that is indeed costly, perhaps we can avoid writing
the entire set by having a dirty bit somewhere.
In any case, it's worth exploring our options first, I think.
PS: Another option is to just fork RK3399 to its
own driver and call the day, given how different it is :)
Thanks!
Ezequiel
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