Hi Dimitar,
On 30/11/18 23:39, Dimitar Dimitrov wrote:
> On Monday, 12/26/2018, 9:52:37 EET Roger Quadros wrote:
>> +/*
>> + * Convert PRU device address (instruction space) to kernel virtual address
>> + *
>> + * A PRU does not have an unified address space. Each PRU has its very own
>> + * private Instruction RAM, and its device address is identical to that of
>> + * its primary Data RAM device address.
>> + */
>> +static void *pru_i_da_to_va(struct pru_rproc *pru, u32 da, int len)
>> +{
>> + u32 offset;
>> + void *va = NULL;
>> +
>> + if (len <= 0)
>> + return NULL;
>
> Could you please clear the upper 4 bits the of IRAM device address, in order
> to support binutils ELF images? Here is an example line to add here:
>
> + /* GNU binutils do not support multiple address spaces. The
> + * default linker script from the official GNU pru-ld places
> + * IRAM at an arbitrary high offset, in order to differentiate it
> + * from DRAM. Hence we need to strip the artificial offset
> + * from the IRAM address.
> + */
> + da &= ~0xf0000000u;
> +
>
After some more thought I'm not very sure how to proceed.
I'll be using the below 2 patches in the next patch spin in place of
patch 1 in the current series.
https://lore.kernel.org/lkml/20180623210810.21232-2-david@xxxxxxxxxxxxxx/
https://lore.kernel.org/lkml/20180623210810.21232-3-david@xxxxxxxxxxxxxx/
They figure out the PAGE (IRAM vs DRAM) by looking at TI specific section
attributes.
e.g.
[18] .TI.phattrs LOPROC+f000004 00000000 000e08 000010 00 0 0 4
[19] .TI.section.flags LOPROC+f000005 00000000 000e68 00002a 00 0 0 0
[20] .TI.section.page LOPROC+f000007 00000000 000e92 00002a 00 0 0 0
AFAIK the ELF by GNU pru-ld won't contain these sections.
We need to support ELF generated by both tools (TI clpru and GNU pru-ld).
Is it safe to assume that if the ELF doesn't have the TI specific sections
then it was generated by gnupru?
Is there a more straight forward way of differentiating the two. e.g. by looking
at something in the ELF header?
>
>> +
>> + if (da >= pru->iram_da &&
>> + da + len <= pru->iram_da + pru->mem_regions[PRU_MEM_IRAM].size {
>> + offset = da - pru->iram_da;
>> + va = (__force void *)(pru->mem_regions[PRU_MEM_IRAM].va +
>> + offset);
>> + }
>> +
>> + return va;
>> +}
>
>
cheers,
-roger
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