User talk:MrNuke

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Ideas for generic handling of devices

IMPORTANT! Feel free to edit this page to share your thoughts and ideas. This is the official MMC open brainstorming page.

Proposal 1: Unified API

Chan is an IO channel.

This struct is used in Inferno and has been for a long time; so it works. It's also in the opcodes somewhat like what we did for EMMC on ARM.

struct Dev
{
	char*	name;
	void	(*reset)(void);
	void	(*init)(void);
	void	(*shutdown)(void);
	Chan*	(*attach)(char*); /* tell the device you want to use it */
	Walkqid*	(*walk)(Chan*, Chan*, char**, int); /* walk to a name in the device's managed name space; return a handle */
	int	(*stat)(Chan*, uchar*, int); // status info
	Chan*	(*open)(Chan*, int); /* get access to a resource in the device name space */
	void	(*close)(Chan*); /* tell it you are done with whatever it is. */
	long	(*read)(Chan*, void*, long, vlong);
	long	(*write)(Chan*, void*, long, vlong);
	void	(*power)(int);	/* power mgt: power(1) ? on, power (0) ? off */
};

Questions

  1. Do we want to expose or hide the block nature of some devces (i.e. force reading multiples of blocksize, or allow reading any number of bytes, with no alignment requirement) ?
  2. How do we connect the dots, such that most of the details can be handled transparently ?
  3. How simple or complex do we want the API to be such that it can work in any stage (including bootblock, assuming some SRAM and a stack are available) ?
  4. Can we integrate this into libpayload such that the same sources can be used for both coreboot and libpayload ?
    • think "Device specfic storage drivers -> [*] Allwinner A10 MMC driver" in libpayload config
  5. More questions coming soon (TM)

Extending CBFS to support partitioning

Reasoning

  • To separate write-protected (RO) and writeable (RW) regions of flash chip
  • To incorporate relevant FMAP features directly into CBFS
  • To be able to better handle the requirements of ChromeOS

Tentative terminology

  • Partition
    • A region indexed by CBFS
  • File
    • Same meaning as before. A CBFS file that resides entirely within the boundaries of one partition.

Design constraints

  • Backwards compatibility
    • New CBFS structure should be backwards compatible with old structure
    • Old payloads should still be able to access old features of CBFS

Tentative API

  • cbfs_get_file(const char *name) <- Get file in main partition, also backwards compatible
  • cbfs_get_partition(const char *name) <- Get location of partition other than main (or even main)
  • cbfs_get_partition_file(cbfs_part_t partition, const char *name) <- Get file in given partition

Hypothetical examples

Partition in read-write portion of flash

Here, we assume that "rw1" is not in a write-protected area of flash.

void *rw1 = cbfs_get_partition("rw1");
file *romstage cbfs_get_partition_file(rw1, "fallback/romstage);
load_and_run_stage(romstage);

MRC cache

void *mrc_cache = cbfs_get_partition("mrc.cache");
/* Access raw partition, there is no file in this partition */
mrc_cache_check(mrc_cache);
mrc_cache_write(mrc_cache, data);

Technical stuff

Current CBFS master header

All values are big endian

Offset 0 1 2 3 4 5 6 7 8 9 A B C D E F
0x00 "ORBC" version romsize bootblocksize
0x10 align offset arch padding

Proposed partition entry

All values are big endian

Offset 0 1 2 3 4 5 6 7 8 9 A B C D E F
0x00 "CBPT" offset size region_name
0x10 region_name ...
  • region_name shall be null-terminated.
  • Each partition entry shall be 16 byte aligned.
  • Subsequent entries shall be placed at the closest 16-byte aligned offset

Proposed partition table

Offset 0 1 2 3 4 5 6 7 8 9 A B C D E F
0x10 CBPT1
0x_0 CBPT2
0x_0 CBPT3
0x10 terminator all '1's
Example partition table
Offset 0 1 2 3 4 5 6 7 8 9 A B C D E F
0x00 "CBPT" 0x00070000 0x00010000 c o r e
0x10 b o o t \0 0xff
0x20 "CBPT" 0x00040000 0x00020000 t h i s
0x30 _ p a r t i t i o n _ h a s _ a
0x40 _ l u d i c r o u s l y _ l o n
0x50 g . n a m e \0 0xff
0x60 "CBPT" 0x00060000 0x00010000 m r c .
0x70 c a c h e \0 0xff
0x80 0xffffffff