On Tuesday 18 January 2011 20:01:12 Lars-Peter Clausen wrote:
> Well, i've though about that as well, but in the current asm-generic/io.h readl is
> unconditionally defined as cpu_to_le32(__raw_readl(addr)) and ioread32 is defined as
> readl.
>
> So unless an arch io.h undefines those macros and redefines them (which none of the
> current archs does, as far as i can see), we are o
>
> If an arch chooses to redefine ioread or readl, it should probably also redefine
> ioread{16,32}be.
Right, but the header file also serves as a template for new architectures
that cannot directly use it. I would prefer not to give a possibly bad example
here, especially when it's in a rarely used function.
> > The right solution is probably to use swab16/swab32 for the
> > big-endian functions. This also corrects the iowrite functions
> > which really should be using cpu_to_be32 instead of be32_to_cpu
> > (although they are always defined to be the same afaict.
>
> This would first cause a conversion to little-endian, which is a swap() in the
> generic case and then you would call swap() again on the result. Which is basically a
> noop, but I'm not sure if compilers will detect this.
The overhead of the swab() is certainly dwarfed by the long time spent in
readl().
I would prefer to swap twice in this case and let the compiler work it out
if possible. The next best alternative would probably be to define both
ioread and ioread_be using __raw_readl in combination with a le32_to_cpu
or be32_to_cpu.
Arnd
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