mirror of
https://github.com/AsahiLinux/u-boot
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698 lines
25 KiB
Text
698 lines
25 KiB
Text
Binman Entry Documentation
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===========================
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This file describes the entry types supported by binman. These entry types can
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be placed in an image one by one to build up a final firmware image. It is
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fairly easy to create new entry types. Just add a new file to the 'etype'
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directory. You can use the existing entries as examples.
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Note that some entries are subclasses of others, using and extending their
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features to produce new behaviours.
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Entry: blob: Entry containing an arbitrary binary blob
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------------------------------------------------------
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Note: This should not be used by itself. It is normally used as a parent
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class by other entry types.
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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- compress: Compression algorithm to use:
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none: No compression
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lz4: Use lz4 compression (via 'lz4' command-line utility)
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This entry reads data from a file and places it in the entry. The
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default filename is often specified specified by the subclass. See for
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example the 'u_boot' entry which provides the filename 'u-boot.bin'.
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If compression is enabled, an extra 'uncomp-size' property is written to
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the node (if enabled with -u) which provides the uncompressed size of the
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data.
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Entry: blob-dtb: A blob that holds a device tree
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------------------------------------------------
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This is a blob containing a device tree. The contents of the blob are
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obtained from the list of available device-tree files, managed by the
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'state' module.
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Entry: blob-named-by-arg: A blob entry which gets its filename property from its subclass
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-----------------------------------------------------------------------------------------
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Properties / Entry arguments:
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- <xxx>-path: Filename containing the contents of this entry (optional,
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defaults to 0)
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where <xxx> is the blob_fname argument to the constructor.
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This entry cannot be used directly. Instead, it is used as a parent class
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for another entry, which defined blob_fname. This parameter is used to
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set the entry-arg or property containing the filename. The entry-arg or
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property is in turn used to set the actual filename.
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See cros_ec_rw for an example of this.
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Entry: cros-ec-rw: A blob entry which contains a Chromium OS read-write EC image
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--------------------------------------------------------------------------------
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Properties / Entry arguments:
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- cros-ec-rw-path: Filename containing the EC image
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This entry holds a Chromium OS EC (embedded controller) image, for use in
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updating the EC on startup via software sync.
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Entry: files: Entry containing a set of files
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---------------------------------------------
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Properties / Entry arguments:
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- pattern: Filename pattern to match the files to include
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- compress: Compression algorithm to use:
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none: No compression
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lz4: Use lz4 compression (via 'lz4' command-line utility)
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This entry reads a number of files and places each in a separate sub-entry
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within this entry. To access these you need to enable device-tree updates
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at run-time so you can obtain the file positions.
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Entry: fill: An entry which is filled to a particular byte value
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----------------------------------------------------------------
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Properties / Entry arguments:
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- fill-byte: Byte to use to fill the entry
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Note that the size property must be set since otherwise this entry does not
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know how large it should be.
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You can often achieve the same effect using the pad-byte property of the
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overall image, in that the space between entries will then be padded with
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that byte. But this entry is sometimes useful for explicitly setting the
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byte value of a region.
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Entry: fmap: An entry which contains an Fmap section
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----------------------------------------------------
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Properties / Entry arguments:
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None
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FMAP is a simple format used by flashrom, an open-source utility for
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reading and writing the SPI flash, typically on x86 CPUs. The format
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provides flashrom with a list of areas, so it knows what it in the flash.
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It can then read or write just a single area, instead of the whole flash.
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The format is defined by the flashrom project, in the file lib/fmap.h -
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see www.flashrom.org/Flashrom for more information.
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When used, this entry will be populated with an FMAP which reflects the
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entries in the current image. Note that any hierarchy is squashed, since
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FMAP does not support this.
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Entry: gbb: An entry which contains a Chromium OS Google Binary Block
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---------------------------------------------------------------------
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Properties / Entry arguments:
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- hardware-id: Hardware ID to use for this build (a string)
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- keydir: Directory containing the public keys to use
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- bmpblk: Filename containing images used by recovery
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Chromium OS uses a GBB to store various pieces of information, in particular
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the root and recovery keys that are used to verify the boot process. Some
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more details are here:
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https://www.chromium.org/chromium-os/firmware-porting-guide/2-concepts
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but note that the page dates from 2013 so is quite out of date. See
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README.chromium for how to obtain the required keys and tools.
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Entry: intel-cmc: Entry containing an Intel Chipset Micro Code (CMC) file
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-------------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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This file contains microcode for some devices in a special format. An
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example filename is 'Microcode/C0_22211.BIN'.
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See README.x86 for information about x86 binary blobs.
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Entry: intel-descriptor: Intel flash descriptor block (4KB)
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-----------------------------------------------------------
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Properties / Entry arguments:
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filename: Filename of file containing the descriptor. This is typically
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a 4KB binary file, sometimes called 'descriptor.bin'
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This entry is placed at the start of flash and provides information about
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the SPI flash regions. In particular it provides the base address and
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size of the ME (Management Engine) region, allowing us to place the ME
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binary in the right place.
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With this entry in your image, the position of the 'intel-me' entry will be
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fixed in the image, which avoids you needed to specify an offset for that
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region. This is useful, because it is not possible to change the position
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of the ME region without updating the descriptor.
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See README.x86 for information about x86 binary blobs.
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Entry: intel-fsp: Entry containing an Intel Firmware Support Package (FSP) file
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-------------------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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This file contains binary blobs which are used on some devices to make the
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platform work. U-Boot executes this code since it is not possible to set up
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the hardware using U-Boot open-source code. Documentation is typically not
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available in sufficient detail to allow this.
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An example filename is 'FSP/QUEENSBAY_FSP_GOLD_001_20-DECEMBER-2013.fd'
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See README.x86 for information about x86 binary blobs.
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Entry: intel-me: Entry containing an Intel Management Engine (ME) file
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----------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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This file contains code used by the SoC that is required to make it work.
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The Management Engine is like a background task that runs things that are
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not clearly documented, but may include keyboard, deplay and network
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access. For platform that use ME it is not possible to disable it. U-Boot
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does not directly execute code in the ME binary.
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A typical filename is 'me.bin'.
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See README.x86 for information about x86 binary blobs.
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Entry: intel-mrc: Entry containing an Intel Memory Reference Code (MRC) file
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----------------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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This file contains code for setting up the SDRAM on some Intel systems. This
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is executed by U-Boot when needed early during startup. A typical filename
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is 'mrc.bin'.
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See README.x86 for information about x86 binary blobs.
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Entry: intel-vbt: Entry containing an Intel Video BIOS Table (VBT) file
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-----------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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This file contains code that sets up the integrated graphics subsystem on
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some Intel SoCs. U-Boot executes this when the display is started up.
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See README.x86 for information about Intel binary blobs.
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Entry: intel-vga: Entry containing an Intel Video Graphics Adaptor (VGA) file
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-----------------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of file to read into entry
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This file contains code that sets up the integrated graphics subsystem on
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some Intel SoCs. U-Boot executes this when the display is started up.
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This is similar to the VBT file but in a different format.
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See README.x86 for information about Intel binary blobs.
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Entry: powerpc-mpc85xx-bootpg-resetvec: PowerPC mpc85xx bootpg + resetvec code for U-Boot
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-----------------------------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot-br.bin (default 'u-boot-br.bin')
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This enrty is valid for PowerPC mpc85xx cpus. This entry holds
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'bootpg + resetvec' code for PowerPC mpc85xx CPUs which needs to be
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placed at offset 'RESET_VECTOR_ADDRESS - 0xffc'.
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Entry: section: Entry that contains other entries
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-------------------------------------------------
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Properties / Entry arguments: (see binman README for more information)
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- size: Size of section in bytes
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- align-size: Align size to a particular power of two
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- pad-before: Add padding before the entry
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- pad-after: Add padding after the entry
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- pad-byte: Pad byte to use when padding
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- sort-by-offset: Reorder the entries by offset
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- end-at-4gb: Used to build an x86 ROM which ends at 4GB (2^32)
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- name-prefix: Adds a prefix to the name of every entry in the section
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when writing out the map
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A section is an entry which can contain other entries, thus allowing
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hierarchical images to be created. See 'Sections and hierarchical images'
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in the binman README for more information.
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Entry: text: An entry which contains text
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-----------------------------------------
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The text can be provided either in the node itself or by a command-line
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argument. There is a level of indirection to allow multiple text strings
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and sharing of text.
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Properties / Entry arguments:
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text-label: The value of this string indicates the property / entry-arg
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that contains the string to place in the entry
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<xxx> (actual name is the value of text-label): contains the string to
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place in the entry.
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Example node:
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text {
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size = <50>;
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text-label = "message";
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};
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You can then use:
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binman -amessage="this is my message"
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and binman will insert that string into the entry.
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It is also possible to put the string directly in the node:
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text {
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size = <8>;
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text-label = "message";
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message = "a message directly in the node"
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};
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The text is not itself nul-terminated. This can be achieved, if required,
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by setting the size of the entry to something larger than the text.
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Entry: u-boot: U-Boot flat binary
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---------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.bin (default 'u-boot.bin')
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This is the U-Boot binary, containing relocation information to allow it
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to relocate itself at runtime. The binary typically includes a device tree
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blob at the end of it. Use u_boot_nodtb if you want to package the device
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tree separately.
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U-Boot can access binman symbols at runtime. See:
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'Access to binman entry offsets at run time (fdt)'
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in the binman README for more information.
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Entry: u-boot-dtb: U-Boot device tree
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-------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.dtb (default 'u-boot.dtb')
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This is the U-Boot device tree, containing configuration information for
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U-Boot. U-Boot needs this to know what devices are present and which drivers
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to activate.
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Note: This is mostly an internal entry type, used by others. This allows
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binman to know which entries contain a device tree.
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Entry: u-boot-dtb-with-ucode: A U-Boot device tree file, with the microcode removed
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-----------------------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.dtb (default 'u-boot.dtb')
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See Entry_u_boot_ucode for full details of the three entries involved in
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this process. This entry provides the U-Boot device-tree file, which
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contains the microcode. If the microcode is not being collated into one
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place then the offset and size of the microcode is recorded by this entry,
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for use by u_boot_with_ucode_ptr. If it is being collated, then this
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entry deletes the microcode from the device tree (to save space) and makes
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it available to u_boot_ucode.
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Entry: u-boot-elf: U-Boot ELF image
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-----------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot (default 'u-boot')
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This is the U-Boot ELF image. It does not include a device tree but can be
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relocated to any address for execution.
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Entry: u-boot-img: U-Boot legacy image
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--------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.img (default 'u-boot.img')
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This is the U-Boot binary as a packaged image, in legacy format. It has a
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header which allows it to be loaded at the correct address for execution.
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You should use FIT (Flat Image Tree) instead of the legacy image for new
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applications.
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Entry: u-boot-nodtb: U-Boot flat binary without device tree appended
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--------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.bin (default 'u-boot-nodtb.bin')
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This is the U-Boot binary, containing relocation information to allow it
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to relocate itself at runtime. It does not include a device tree blob at
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the end of it so normally cannot work without it. You can add a u_boot_dtb
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entry after this one, or use a u_boot entry instead (which contains both
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U-Boot and the device tree).
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Entry: u-boot-spl: U-Boot SPL binary
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------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot-spl.bin (default 'spl/u-boot-spl.bin')
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This is the U-Boot SPL (Secondary Program Loader) binary. This is a small
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binary which loads before U-Boot proper, typically into on-chip SRAM. It is
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responsible for locating, loading and jumping to U-Boot. Note that SPL is
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not relocatable so must be loaded to the correct address in SRAM, or written
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to run from the correct address if direct flash execution is possible (e.g.
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on x86 devices).
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SPL can access binman symbols at runtime. See:
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'Access to binman entry offsets at run time (symbols)'
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in the binman README for more information.
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The ELF file 'spl/u-boot-spl' must also be available for this to work, since
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binman uses that to look up symbols to write into the SPL binary.
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Entry: u-boot-spl-bss-pad: U-Boot SPL binary padded with a BSS region
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---------------------------------------------------------------------
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Properties / Entry arguments:
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None
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This is similar to u_boot_spl except that padding is added after the SPL
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binary to cover the BSS (Block Started by Symbol) region. This region holds
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the various used by SPL. It is set to 0 by SPL when it starts up. If you
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want to append data to the SPL image (such as a device tree file), you must
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pad out the BSS region to avoid the data overlapping with U-Boot variables.
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This entry is useful in that case. It automatically pads out the entry size
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to cover both the code, data and BSS.
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The ELF file 'spl/u-boot-spl' must also be available for this to work, since
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binman uses that to look up the BSS address.
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Entry: u-boot-spl-dtb: U-Boot SPL device tree
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---------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.dtb (default 'spl/u-boot-spl.dtb')
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This is the SPL device tree, containing configuration information for
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SPL. SPL needs this to know what devices are present and which drivers
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to activate.
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Entry: u-boot-spl-elf: U-Boot SPL ELF image
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-------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of SPL u-boot (default 'spl/u-boot')
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This is the U-Boot SPL ELF image. It does not include a device tree but can
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be relocated to any address for execution.
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Entry: u-boot-spl-nodtb: SPL binary without device tree appended
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----------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of spl/u-boot-spl-nodtb.bin (default
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'spl/u-boot-spl-nodtb.bin')
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This is the U-Boot SPL binary, It does not include a device tree blob at
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the end of it so may not be able to work without it, assuming SPL needs
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a device tree to operation on your platform. You can add a u_boot_spl_dtb
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entry after this one, or use a u_boot_spl entry instead (which contains
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both SPL and the device tree).
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Entry: u-boot-spl-with-ucode-ptr: U-Boot SPL with embedded microcode pointer
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----------------------------------------------------------------------------
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This is used when SPL must set up the microcode for U-Boot.
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See Entry_u_boot_ucode for full details of the entries involved in this
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process.
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Entry: u-boot-tpl: U-Boot TPL binary
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------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot-tpl.bin (default 'tpl/u-boot-tpl.bin')
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This is the U-Boot TPL (Tertiary Program Loader) binary. This is a small
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binary which loads before SPL, typically into on-chip SRAM. It is
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responsible for locating, loading and jumping to SPL, the next-stage
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loader. Note that SPL is not relocatable so must be loaded to the correct
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address in SRAM, or written to run from the correct address if direct
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flash execution is possible (e.g. on x86 devices).
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SPL can access binman symbols at runtime. See:
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'Access to binman entry offsets at run time (symbols)'
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in the binman README for more information.
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The ELF file 'tpl/u-boot-tpl' must also be available for this to work, since
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binman uses that to look up symbols to write into the TPL binary.
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Entry: u-boot-tpl-dtb: U-Boot TPL device tree
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---------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot.dtb (default 'tpl/u-boot-tpl.dtb')
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This is the TPL device tree, containing configuration information for
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TPL. TPL needs this to know what devices are present and which drivers
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to activate.
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Entry: u-boot-tpl-dtb-with-ucode: U-Boot TPL with embedded microcode pointer
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----------------------------------------------------------------------------
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This is used when TPL must set up the microcode for U-Boot.
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See Entry_u_boot_ucode for full details of the entries involved in this
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process.
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Entry: u-boot-tpl-with-ucode-ptr: U-Boot TPL with embedded microcode pointer
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----------------------------------------------------------------------------
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See Entry_u_boot_ucode for full details of the entries involved in this
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process.
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Entry: u-boot-ucode: U-Boot microcode block
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-------------------------------------------
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Properties / Entry arguments:
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None
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The contents of this entry are filled in automatically by other entries
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which must also be in the image.
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U-Boot on x86 needs a single block of microcode. This is collected from
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the various microcode update nodes in the device tree. It is also unable
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to read the microcode from the device tree on platforms that use FSP
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(Firmware Support Package) binaries, because the API requires that the
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microcode is supplied before there is any SRAM available to use (i.e.
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the FSP sets up the SRAM / cache-as-RAM but does so in the call that
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requires the microcode!). To keep things simple, all x86 platforms handle
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microcode the same way in U-Boot (even non-FSP platforms). This is that
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a table is placed at _dt_ucode_base_size containing the base address and
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size of the microcode. This is either passed to the FSP (for FSP
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platforms), or used to set up the microcode (for non-FSP platforms).
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This all happens in the build system since it is the only way to get
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the microcode into a single blob and accessible without SRAM.
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There are two cases to handle. If there is only one microcode blob in
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the device tree, then the ucode pointer it set to point to that. This
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entry (u-boot-ucode) is empty. If there is more than one update, then
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this entry holds the concatenation of all updates, and the device tree
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entry (u-boot-dtb-with-ucode) is updated to remove the microcode. This
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last step ensures that that the microcode appears in one contiguous
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block in the image and is not unnecessarily duplicated in the device
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tree. It is referred to as 'collation' here.
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Entry types that have a part to play in handling microcode:
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Entry_u_boot_with_ucode_ptr:
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Contains u-boot-nodtb.bin (i.e. U-Boot without the device tree).
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It updates it with the address and size of the microcode so that
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U-Boot can find it early on start-up.
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Entry_u_boot_dtb_with_ucode:
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Contains u-boot.dtb. It stores the microcode in a
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'self.ucode_data' property, which is then read by this class to
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obtain the microcode if needed. If collation is performed, it
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removes the microcode from the device tree.
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Entry_u_boot_ucode:
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This class. If collation is enabled it reads the microcode from
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the Entry_u_boot_dtb_with_ucode entry, and uses it as the
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contents of this entry.
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Entry: u-boot-with-ucode-ptr: U-Boot with embedded microcode pointer
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--------------------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot-nodtb.dtb (default 'u-boot-nodtb.dtb')
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- optional-ucode: boolean property to make microcode optional. If the
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u-boot.bin image does not include microcode, no error will
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be generated.
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See Entry_u_boot_ucode for full details of the three entries involved in
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this process. This entry updates U-Boot with the offset and size of the
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microcode, to allow early x86 boot code to find it without doing anything
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complicated. Otherwise it is the same as the u_boot entry.
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Entry: vblock: An entry which contains a Chromium OS verified boot block
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------------------------------------------------------------------------
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Properties / Entry arguments:
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- keydir: Directory containing the public keys to use
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- keyblock: Name of the key file to use (inside keydir)
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- signprivate: Name of provide key file to use (inside keydir)
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- version: Version number of the vblock (typically 1)
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- kernelkey: Name of the kernel key to use (inside keydir)
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- preamble-flags: Value of the vboot preamble flags (typically 0)
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Output files:
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- input.<unique_name> - input file passed to futility
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- vblock.<unique_name> - output file generated by futility (which is
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used as the entry contents)
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Chromium OS signs the read-write firmware and kernel, writing the signature
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in this block. This allows U-Boot to verify that the next firmware stage
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and kernel are genuine.
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Entry: x86-start16: x86 16-bit start-up code for U-Boot
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-------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of u-boot-x86-16bit.bin (default
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'u-boot-x86-16bit.bin')
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x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
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must be placed at a particular address. This entry holds that code. It is
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typically placed at offset CONFIG_SYS_X86_START16. The code is responsible
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for changing to 32-bit mode and jumping to U-Boot's entry point, which
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requires 32-bit mode (for 32-bit U-Boot).
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For 64-bit U-Boot, the 'x86_start16_spl' entry type is used instead.
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Entry: x86-start16-spl: x86 16-bit start-up code for SPL
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--------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of spl/u-boot-x86-16bit-spl.bin (default
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'spl/u-boot-x86-16bit-spl.bin')
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x86 CPUs start up in 16-bit mode, even if they are 64-bit CPUs. This code
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must be placed at a particular address. This entry holds that code. It is
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typically placed at offset CONFIG_SYS_X86_START16. The code is responsible
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for changing to 32-bit mode and starting SPL, which in turn changes to
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64-bit mode and jumps to U-Boot (for 64-bit U-Boot).
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For 32-bit U-Boot, the 'x86_start16' entry type is used instead.
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Entry: x86-start16-tpl: x86 16-bit start-up code for TPL
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--------------------------------------------------------
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Properties / Entry arguments:
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- filename: Filename of tpl/u-boot-x86-16bit-tpl.bin (default
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'tpl/u-boot-x86-16bit-tpl.bin')
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x86 CPUs start up in 16-bit mode, even if they are 64-bit CPUs. This code
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must be placed at a particular address. This entry holds that code. It is
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typically placed at offset CONFIG_SYS_X86_START16. The code is responsible
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for changing to 32-bit mode and starting TPL, which in turn jumps to SPL.
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If TPL is not being used, the 'x86_start16_spl or 'x86_start16' entry types
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may be used instead.
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