Possible bug in libchip/i2c/spi-sd-card.c (my MMC/SD problem)

Chris Johns chrisj at rtems.org
Fri Jan 16 00:20:02 UTC 2009 

Gene Smith wrote:
> I don't have a way to check or verify this right now but I may see the 
> reason for the problem I am having doing shell copies on my MMC cards.
> 
> In my previous email 
> http://www.rtems.com/ml/rtems-users/2009/january/msg00078.html
> I mentioned that 4 sectors (flash blocks) were written sequentially that 
> should have been scattered about in flash. Only the first one was at the 
> right place (the first FAT entry).
> 
> Also in this email, before I had a clue as to what I was seeing, I 
> reported 4 multiple blocks being written on file copy and the last 
> contained the copied file data: 
> data:http://www.rtems.com/ml/rtems-users/2009/january/msg00040.html
> 
> In both cases I think I am seeing the same thing.
> 
> The multiple block write occurs in spi-sd-card.c in function 
> sd_card_disk_block_write(..., r) where prm r is a struct/array of 
> scattered buffers (each at a random address). There are 4 block to be 
> written at address 0x200 (main FAT), 0x1ec0 (redundant FAT), 0x3d600 
> (root dir entry) and 0x41600 (cluster 2 with file data). Since there are 
> 4 buffers (r->bufnum > 1) in the scatter array, a multiple block write 
> to MMC/SD is selected. The multiple write sets the starting address to 
> the first block (0x200) and writes all 4 blocks back to back beginning 
> at that address, which is wrong in this case. That's why my blocks end 
> up in the FAT area instead of at the right place.
> 
> So, unless the blocks are known to be truly sequential and not scattered 
> or random, only then should the multiple blocks method be used. I don't 
> know if there is a way to know without parsing the scatter array each 
> time. So it might be better (but slower) to always just use single block 
> write method multiple times if bufnum > 1.
> 

Does the driver set the multi-sector continuous flag when the cache asks for 
capabilities ?

The driver in CVS has the code in 'sd_card_disk_ioctl':

	case RTEMS_BLKDEV_CAPABILITIES:
  		*((uint32_t*) arg)  = RTEMS_BLKDEV_CAP_MULTISECTOR_CONT;
  		return 0;

If this is being set and you are getting sectors that are not continuous I 
would like to know.

Regards
Chris

> Again, this is a theory that has yet to be verified.
> 
> -gene
> 
> 
> 
> _______________________________________________
> rtems-users mailing list
> rtems-users at rtems.com
> http://rtems.rtems.org/mailman/listinfo/rtems-users

More information about the users mailing list