"simple_region_start" is the offset from the starting of
physical memory out of which our sub-region needs to be mapped
off = start of the physical memory (page aligned)= 0xd000 8000
simple_region_start = 0x1000
therefore the physical address of the start of the sub region
we want to map is = 0xd000 8000 + 0x1000
= 0xd000 9000
now virtual size is the portion that needs to be mapped from the
physical memory available. This must be defined properly by the user.
simple_region_size = physical address pointing to last of the
portion that we need to map.
So if we wanted 8KBs to be mapped from the physical memory available
then following is how the calculation goes
simple_region_size = physical address just beyond the last of our portion
simple_region_size = 0xd000 9000 + 0x2000 (for the 8KBs)
simple_region_size = 0xd000 B000
So our 8KBs of portion will range from physical addresses [0xd000 B000 to 0xd000 9000]
Hence physical size i.e. psize = 0x2000
We perform the sanity check i.e
If the size of our portion of physical memory is smaller
than what the user tries to map using the full length
virtual address range of this memory region, then we
raise an exception. i.e say for ex. vsize = 0x3000
Otherwise we use the API "remap_pfn_range" to map the
portion of the physical memory passing in the the
physical address and not the page frame number as
was done previously since this is the IO memory.
I feel it should have been the API "io_remap_page_range"
here the aforementioned.
So it will map the portion of physical memory starting
from the physical address 0xd000 9000 on the the user
linear address starting from vma->vm_start of vsize.
N.B As before I have yet to test this out !