# IFD Layout A coreboot image for an Intel SoC contains two separate definitions of the layout of the flash. The Intel Flash Descriptor (IFD) which defines offsets and sizes of various regions of flash and the [coreboot FMAP](../../lib/flashmap.md). The FMAP should define all of the of the regions defined by the IFD to ensure that those regions are accounted for by coreboot and will not be accidentally modified. ## IFD mapping The names of the IFD regions in the FMAP should follow the convention of starting with the prefix `SI_` which stands for `silicon initialization` as a way to categorize anything required by the SoC but not provided by coreboot. ```{eval-rst} +------------+------------------+-----------+-------------------------------------------+ | IFD Region | IFD Region name | FMAP Name | Notes | | index | | | | +============+==================+===========+===========================================+ | 0 | Flash Descriptor | SI_DESC | Always the top 4 KiB of flash | +------------+------------------+-----------+-------------------------------------------+ | 1 | BIOS | SI_BIOS | This is the region that contains coreboot | +------------+------------------+-----------+-------------------------------------------+ | 2 | Intel ME | SI_ME | | +------------+------------------+-----------+-------------------------------------------+ | 3 | Gigabit Ethernet | SI_GBE | | +------------+------------------+-----------+-------------------------------------------+ | 4 | Platform Data | SI_PDR | | +------------+------------------+-----------+-------------------------------------------+ | 8 | EC Firmware | SI_EC | Most ChromeOS devices do not use this | | | | | region; EC firmware is stored in BIOS | | | | | region of flash | +------------+------------------+-----------+-------------------------------------------+ ``` ## Validation The ifdtool can be used to manipulate a firmware image with a IFD. This tool will not take into account the FMAP while modifying the image which can lead to unexpected and hard to debug issues with the firmware image. For example if the ME region is defined at 6 MiB in the IFD but the FMAP only allocates 4 MiB for the ME, then when the ME is added by the ifdtool 6 MiB will be written which could overwrite 2 MiB of the BIOS. In order to validate that the FMAP and the IFD are compatible the ifdtool provides --validate (-t) option. `ifdtool -t` will read both the IFD and the FMAP in the image and for every non empty region in the IFD if that region is defined in the FMAP but the offset or size is different then the tool will return an error. Example: ```console foo@bar:~$ ifdtool -t bad_image.bin Region mismatch between bios and SI_BIOS Descriptor region bios: offset: 0x00400000 length: 0x01c00000 FMAP area SI_BIOS: offset: 0x00800000 length: 0x01800000 Region mismatch between me and SI_ME Descriptor region me: offset: 0x00103000 length: 0x002f9000 FMAP area SI_ME: offset: 0x00103000 length: 0x006f9000 Region mismatch between pd and SI_PDR Descriptor region pd: offset: 0x003fc000 length: 0x00004000 FMAP area SI_PDR: offset: 0x007fc000 length: 0x00004000 ```