On Thursday 10 March 2016, Lada Trimasova wrote:
> Driver is 8250, kernel is built for BE arc, nsim option in model
> "nsim_isa_big_endian = 1".
>
> With current "readl" and "writel" implementation for ARC we read word from
> memory without any endianess manipulation. So in case of little endian
> architecture we get what we want: the first memory byte is the low byte in
> the word. But in case of big endian architecture the word endianess is
> swapped: the first memory byte is the high word byte.
>
> And for example, let's see what happens when we use "readl" in function
> "serial8250_early_in" in driver/tty/serial/8250.
>
> Take a look to one line from memory dump:
> 0xf0000010: 0x0b 0x00 0x00 0x00 0x60 0x00 0x00 0x00
>
> When kernel is built for little endian architecture, we read this data in
> status register in function "serial_putc" using "readl" function in
> driver/tty/serial/8250 as:
> r0: 0x0000006
> The low byte is 0x0b, so the condition "if ((status & BOTH_EMPTY) ==
> BOTH_EMPTY)" is true, as BOTH_EMPTY is some mask with low bytes set.
>
> When kernel is built with "CPU_BIG_ENDIAN" and model nsim option is
> "nsim_isa_big_endian=1", we read this data as:
> r0: 0x6000000
> So as you can see the low byte is 0x00 and above mentioned condition never
> becomes true, we can't continue initialization.
>
Ok, this sounds like a completely normal architecture implementation then,
and your patch looks correct.
If some other driver breaks because of this change, you should investigate
what went wrong there, and treat it as a driver specific problem.
Arnd
