Am Mittwoch, den 20.01.2010, 03:55 -0800 schrieb Sean Nelson:
On 1/20/10 2:16 AM, Michael Karcher wrote:
- .block_erasers =
- {
- {
- .eraseblocks = { {4 * 1024, 64} },
- .block_erase = erase_sector_jedec,
- }, {
- .eraseblocks = { {16 * 1024, 16} },
- .block_erase = erase_block_jedec,
- }, {
- .eraseblocks = { {256 * 1024, 1} },
- .block_erase = erase_chip_block_jedec,
- }
- },
This chip supports erase_chip only in A/A mux mode (although the datasheet calls it "parallel". Do we really want to have that listed? This also applies to:
I don't think we can determine if the chip is in LPC or A/A mux mode.
Is there *any* available chipset that uses A/A mux? I think this mode is only usable by external programmers, and I also don't think that flashrom is supporting any external programmer that does A/A mux.
- .block_erasers =
- {
- {
- .eraseblocks = { {4 * 1024, 512} },
- .block_erase = erase_sector_49lfxxxc,
- }, {
- .eraseblocks = {
- {64 * 1024, 31},
- {32 * 1024, 1},
- {8 * 1024, 2},
- {16 * 1024, 1},
- },
- .block_erase = erase_block_49lfxxxc,
- }, {
- .eraseblocks = { {2 * 1024 * 1024, 1} },
- .block_erase = erase_chip_49lfxxxc,
- }
- },
erase_chip_49lfxxxc is just calling erase_sector_49lfxxxc. No need to add it as chip erase function.
erase_chip_49lfxxc is needed to convert to block_eraser(struct flashrom *flash, unsigned int addr, unsigned int size), its also needed because of unlocking.
Right. So erase_sector_49lfxxxc and your new erase_block_49lfxxxc don't work if you don't unlock beforehands. You might try sector erase anyway (the chip could be unlocked already), but I would add unlocking stuff into erase_block_49lfxxxc, as unlocking is done on block level. As the chip-erase has to be emulated by walking either sectors or blocks, I don't see the point of doing the walk yourself if the generic eraseblock walker we are trying to use does exactly that. And after adding blockwise unlock to erase_block_49lfxxxc, you don't need the unlocking part of erase_49lfxxxc anymore.
And then you can also kill erase_49lfxxxc completely.
Regards, Michael Karcher