On Sunday 28 August 2016, Martin Blumenstingl wrote: > On Mon, Aug 22, 2016 at 1:52 PM, Arnd Bergmann <arnd@xxxxxxxx> wrote: > > On Sunday, August 21, 2016 4:49:06 PM CEST Martin Blumenstingl wrote: > >> +- qca,check-eeprom-endianness: When enabled, the driver checks if the > >> + endianness of the EEPROM (using two checks, > >> + one is based on the two magic bytes at the > >> + start of the EEPROM and a second one which > >> + relies on a flag within the EEPROM data) > >> + matches the host system's native endianness. > >> + The data will be swapped accordingly if there > >> + is a mismatch. > >> + Leaving this disabled means that the EEPROM > >> + data will always be interpreted in the > >> + system's native endianness. > >> + Enable this option only when the EEPROMs > >> + endianness identifiers are known to be > >> + correct, because otherwise the EEPROM data > >> + may be swapped and thus interpreted > >> + incorrectly. > > > > The property should not describe the driver behavior, but instead > > describe what the hardware is like. > > > > A default of "system's native endianess" should not be specified > > in a binding, as the same DTB can be used with both big-endian or > > little-endian kernels on some architectures (ARM and PowerPC among > > others), so disabling the property means that it is guaranteed to > > be broken on one of the two. > OK, I went back to have a separate look at the whole issue again. > Let's recap, there are two types of swapping: > 1. swab16 for the whole EEPROM data > 2. EEPROM format specific swapping (for all u16 and u32 values) Right, this is part of what makes the suggested DT property a bit problematic (it's not obvious which swap is referred to), though the other part is more important. Note that for #1, there isn't really a big-endian and a little-endian variant, only one that is correct and one that is incorrect (i.e. fields are in the wrong place). In either case, it should be independent of the CPU endianess. > Actually I am not 100% sure what #1 exists. In OpenWrt and LEDE it's > only used by the brcm63xx and lantiq targets (I personally have only > lantiq based devices, so that's what I can test with). Ok. > Without patch 4 from this series the EEPROM data is loaded like this: > 1. out of tree code extracts the EEPROM data from NOR/SPI/NAND flash > 2. board specific entry (usually device-tree) tells the code to apply > swab16 to the data > 3. board specific entry (usually device-tree again) sets the > "endian_check" property in the ath9k_platform_data to true > 4.a ath9k sees that the magic bytes are not matching and applies swab16 > 4.b while doing that it notifies the EEPROM format specific swapping > > However, with patch 4 from this series steps 4.a and 4.b are replaced with: > 4. ath9k checks the eepMisc field of the EEPROM and applies the EEPROM > format specific swapping I think the intention of the patch is right, but it needs to go further: It seems wrong to have 'u32' members e.g. in struct modal_eep_ar9287_header { u32 antCtrlChain[AR9287_MAX_CHAINS]; u32 antCtrlCommon; and then do a swab32() on them. I suspect these should just be __le32 (and __le16, respectively where needed), using appropriate accessors everywhere that those fields are being read instead of having one function that tries to turn them into cpu-native ordering. If we can manage to convert the code into doing this consistently, maybe only the 16-bit swaps of the data stream are left over. Arnd -- To unsubscribe from this list: send the line "unsubscribe devicetree" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html