On 1/22/2020 6:14 PM, Michael Walle wrote: > Hi Vignesh, > > Am 2020-01-22 13:10, schrieb Vignesh Raghavendra: >> On 22/01/20 12:23 am, Tudor.Ambarus@xxxxxxxxxxxxx wrote: >>> Hi, Michael, Vignesh, >>> >>> On Sunday, January 12, 2020 12:50:57 AM EET Michael Walle wrote: >>>> EXTERNAL EMAIL: Do not click links or open attachments unless you >>>> know the >>>> content is safe >> [...] >> [...] >>>>> Preferences or suggestions? >>>> >>> I would go with 2/ or 3/. Vignesh, what do you prefer and why? >>> >> >> I dont like option 1, because I am not convinced that this is a HW >> description to be put in DT. IIUC, problem is more of what to do with >> locking configuration that is done before Linux comes up(either in >> previous boot or by bootloader or POR default). Current code just >> discards it and unlocks entire flash. > > But this is not the main problem. It is rather the intention of the > user to actually want write protect the flash (for flashes who has > proper support for them, that is the ones which have non-volatile > bits). > > Flashes with volatile bits are another subject. Here it might be useful > to unlock them either at probe time or when we first write to them, so > the user doesn't need to know if its this kind of flash and he would > actually have to unlock the flash before writing. I've left the > behaviour for these flashes as it was before. > > And yes, u-boot suffers from the same problem, eg. it unlocks the whole > flash too. I guess they inherited the behaviour from linux. But I > wanted to start with linux first. > U-Boot only unlocks entire flash in case of Atmel or SST or Intel. >> But proposal is not to touch those bits at probe time and leave this >> upto userspace to handle. > > No, my proposal was to divide the flashes into two categories. The > unlocking is only done on the flashes which have volatile locking bits, > thus even when the new option is enabled it won't break access to these > flashes. > Hmm, looks like before commit 3e0930f109e7 ("mtd: spi-nor: Rework the disabling of block write protection") global unlock was being done only for Atmel, SST and Intel flashes. So 3e0930f109e7 definitely changes this behavior to unlock all flashes that have SPI_NOR_HAS_LOCK set (in addition to Atmel,SST and Intel). I think we should just revert to the behavior before 3e0930f109e7 so as not to break userspace expectation of preserving non volatile BP setting across boots Are we sure there are no Atmel and SST flashes that have non-volatile BP bits? If so, then I have no objection for this patch as this effectively reverts back to behavior before 3e0930f109e7. Regards Vignesh >> Adding a Kconfig does not scale well for multi-platform builds. There >> would not be a way to have protection enabled on one platform but >> disabled on other. Does not scale for multiple flashes either >> >> Option 3 sounds least bad among all. If module param can be designed to >> be a string then, we could control locking behavior to be per flash >> using flash name. > > What about both? A kconfig option which defines the default for the > kernel parameter? My fear is that once it is a kernel parameter it is > easy to forget (thus having the non-volatile bits, the flash is > completely unlocked again) and it is not very handy; for proper write > protection you'd always have to have this parameter. > > btw. I don't see a need to have this option per flash, because once > the user actually enables it, he is aware that its for all of his > flashes. I haven't seen flashes which has non-volatile protection bits > _and_ are protected by default. There shouldn't be a noticable > difference for the user if the option when enabled. > > -michael ______________________________________________________ Linux MTD discussion mailing list http://lists.infradead.org/mailman/listinfo/linux-mtd/