here's my current scenario:
I'm currently writing a block driver for some scsi block device. My setup uses a 32-bit kernel 2.6.35. When copying files to my device, I'm seeing scatterlists being sent from high memory (dma address are higher, virt address non-existent, etc.) These buffers are meant to be copied via memcpy to another buffer in memory prior to dma, and so I needed virt addresses for those in high memory. I used kmap_atomic to the sgl to get virtual address, did the memcpy, and then kunmap_atomic those previous mappings. Everything's ok so far until I hit a bug: unable to handle kernel paging request at 0xfff34000.
I was logging the scatterlist (let's call this variable sg) values sg dma_address 0x67891c00 sg page_link 0xc1cf2222 sg offset 0xc00 sg len 0x800 size 0x800
The mem location to transfer the buff contents baddr 0xf1270000
after I did kmap_atomic, I got a virt address vaddr 0xfff33c00
then proceed to memcpy
memcpy(baddr, vaddr, size);
This is where the bug appeared.
My analysis is that, given that the offset within the page of the buffer is 0xc00, and the buffer size is 0x800, the buffer will exceed the current page boundary. Since this current page is the one currently mapped and has a virt address, the excess part of the buffer went to an unmapped (or without virt address) page. Since offset is 0xc00, only 0x400 of the 0x800 sized buffer made it within. And 0xfff33c00+0x400 = 0xfff3400, the start of teh excess buffer, now in unmapped page, caused the bug.
I can't believe that this is possible, for a scatterlist to span more than one page, especially in the high memory region of all the places there. This would be easier to handle if it's not in high memory, since virt address would be available throughout the buffer for the memcpy. Is this possible? Is there any setting I can set to prevent this?
Assuming my analysis that the high memory sg buffer crossed over to a new buffer, also in the high mem region, is there a way to get hold of the page link for the new buffer? This is so that I can kmap_atomic it again to get its virtual address, for memcpy'ing the remaining part of the buffer over the new page. But this single sgl has only one page information, and that is for the first page.
Let me also know if I possible missed anything.