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Simon Glass7a61c6b2018-07-17 13:25:37 -06001Binman Entry Documentation
2===========================
3
4This file describes the entry types supported by binman. These entry types can
5be placed in an image one by one to build up a final firmware image. It is
6fairly easy to create new entry types. Just add a new file to the 'etype'
7directory. You can use the existing entries as examples.
8
9Note that some entries are subclasses of others, using and extending their
10features to produce new behaviours.
11
12
13
Simon Glass559c4de2020-09-01 05:13:58 -060014Entry: atf-bl31: Entry containing an ARM Trusted Firmware (ATF) BL31 blob
15-------------------------------------------------------------------------
16
17Properties / Entry arguments:
18 - atf-bl31-path: Filename of file to read into entry. This is typically
19 called bl31.bin or bl31.elf
20
21This entry holds the run-time firmware, typically started by U-Boot SPL.
22See the U-Boot README for your architecture or board for how to use it. See
23https://github.com/ARM-software/arm-trusted-firmware for more information
24about ATF.
25
26
27
Simon Glass7a61c6b2018-07-17 13:25:37 -060028Entry: blob: Entry containing an arbitrary binary blob
29------------------------------------------------------
30
31Note: This should not be used by itself. It is normally used as a parent
32class by other entry types.
33
34Properties / Entry arguments:
35 - filename: Filename of file to read into entry
Simon Glass7ba33592018-09-14 04:57:26 -060036 - compress: Compression algorithm to use:
37 none: No compression
38 lz4: Use lz4 compression (via 'lz4' command-line utility)
Simon Glass7a61c6b2018-07-17 13:25:37 -060039
40This entry reads data from a file and places it in the entry. The
41default filename is often specified specified by the subclass. See for
42example the 'u_boot' entry which provides the filename 'u-boot.bin'.
43
Simon Glass7ba33592018-09-14 04:57:26 -060044If compression is enabled, an extra 'uncomp-size' property is written to
45the node (if enabled with -u) which provides the uncompressed size of the
46data.
Simon Glass7a61c6b2018-07-17 13:25:37 -060047
48
Simon Glass7a61c6b2018-07-17 13:25:37 -060049
Simon Glasse219aa42018-09-14 04:57:24 -060050Entry: blob-dtb: A blob that holds a device tree
51------------------------------------------------
52
53This is a blob containing a device tree. The contents of the blob are
54obtained from the list of available device-tree files, managed by the
55'state' module.
56
57
58
Simon Glass5e560182020-07-09 18:39:36 -060059Entry: blob-ext: Entry containing an externally built binary blob
60-----------------------------------------------------------------
61
62Note: This should not be used by itself. It is normally used as a parent
63class by other entry types.
64
Simon Glass5d94cc62020-07-09 18:39:38 -060065If the file providing this blob is missing, binman can optionally ignore it
66and produce a broken image with a warning.
67
Simon Glass5e560182020-07-09 18:39:36 -060068See 'blob' for Properties / Entry arguments.
69
70
71
Simon Glassdb168d42018-07-17 13:25:39 -060072Entry: blob-named-by-arg: A blob entry which gets its filename property from its subclass
73-----------------------------------------------------------------------------------------
74
75Properties / Entry arguments:
76 - <xxx>-path: Filename containing the contents of this entry (optional,
Simon Glass21db0ff2020-09-01 05:13:54 -060077 defaults to None)
Simon Glassdb168d42018-07-17 13:25:39 -060078
79where <xxx> is the blob_fname argument to the constructor.
80
81This entry cannot be used directly. Instead, it is used as a parent class
82for another entry, which defined blob_fname. This parameter is used to
83set the entry-arg or property containing the filename. The entry-arg or
84property is in turn used to set the actual filename.
85
86See cros_ec_rw for an example of this.
87
88
89
Simon Glass1de34482019-07-08 13:18:53 -060090Entry: cbfs: Entry containing a Coreboot Filesystem (CBFS)
91----------------------------------------------------------
92
93A CBFS provides a way to group files into a group. It has a simple directory
94structure and allows the position of individual files to be set, since it is
95designed to support execute-in-place in an x86 SPI-flash device. Where XIP
96is not used, it supports compression and storing ELF files.
97
98CBFS is used by coreboot as its way of orgnanising SPI-flash contents.
99
100The contents of the CBFS are defined by subnodes of the cbfs entry, e.g.:
101
102 cbfs {
103 size = <0x100000>;
104 u-boot {
105 cbfs-type = "raw";
106 };
107 u-boot-dtb {
108 cbfs-type = "raw";
109 };
110 };
111
112This creates a CBFS 1MB in size two files in it: u-boot.bin and u-boot.dtb.
113Note that the size is required since binman does not support calculating it.
114The contents of each entry is just what binman would normally provide if it
115were not a CBFS node. A blob type can be used to import arbitrary files as
116with the second subnode below:
117
118 cbfs {
119 size = <0x100000>;
120 u-boot {
121 cbfs-name = "BOOT";
122 cbfs-type = "raw";
123 };
124
125 dtb {
126 type = "blob";
127 filename = "u-boot.dtb";
128 cbfs-type = "raw";
129 cbfs-compress = "lz4";
Simon Glassc2f1aed2019-07-08 13:18:56 -0600130 cbfs-offset = <0x100000>;
Simon Glass1de34482019-07-08 13:18:53 -0600131 };
132 };
133
134This creates a CBFS 1MB in size with u-boot.bin (named "BOOT") and
135u-boot.dtb (named "dtb") and compressed with the lz4 algorithm.
136
137
138Properties supported in the top-level CBFS node:
139
140cbfs-arch:
141 Defaults to "x86", but you can specify the architecture if needed.
142
143
144Properties supported in the CBFS entry subnodes:
145
146cbfs-name:
147 This is the name of the file created in CBFS. It defaults to the entry
148 name (which is the node name), but you can override it with this
149 property.
150
151cbfs-type:
152 This is the CBFS file type. The following are supported:
153
154 raw:
155 This is a 'raw' file, although compression is supported. It can be
156 used to store any file in CBFS.
157
158 stage:
159 This is an ELF file that has been loaded (i.e. mapped to memory), so
160 appears in the CBFS as a flat binary. The input file must be an ELF
161 image, for example this puts "u-boot" (the ELF image) into a 'stage'
162 entry:
163
164 cbfs {
165 size = <0x100000>;
166 u-boot-elf {
167 cbfs-name = "BOOT";
168 cbfs-type = "stage";
169 };
170 };
171
172 You can use your own ELF file with something like:
173
174 cbfs {
175 size = <0x100000>;
176 something {
177 type = "blob";
178 filename = "cbfs-stage.elf";
179 cbfs-type = "stage";
180 };
181 };
182
183 As mentioned, the file is converted to a flat binary, so it is
184 equivalent to adding "u-boot.bin", for example, but with the load and
185 start addresses specified by the ELF. At present there is no option
186 to add a flat binary with a load/start address, similar to the
187 'add-flat-binary' option in cbfstool.
188
Simon Glassc2f1aed2019-07-08 13:18:56 -0600189cbfs-offset:
190 This is the offset of the file's data within the CBFS. It is used to
191 specify where the file should be placed in cases where a fixed position
192 is needed. Typical uses are for code which is not relocatable and must
193 execute in-place from a particular address. This works because SPI flash
194 is generally mapped into memory on x86 devices. The file header is
195 placed before this offset so that the data start lines up exactly with
196 the chosen offset. If this property is not provided, then the file is
197 placed in the next available spot.
Simon Glass1de34482019-07-08 13:18:53 -0600198
199The current implementation supports only a subset of CBFS features. It does
200not support other file types (e.g. payload), adding multiple files (like the
201'files' entry with a pattern supported by binman), putting files at a
202particular offset in the CBFS and a few other things.
203
204Of course binman can create images containing multiple CBFSs, simply by
205defining these in the binman config:
206
207
208 binman {
209 size = <0x800000>;
210 cbfs {
211 offset = <0x100000>;
212 size = <0x100000>;
213 u-boot {
214 cbfs-type = "raw";
215 };
216 u-boot-dtb {
217 cbfs-type = "raw";
218 };
219 };
220
221 cbfs2 {
222 offset = <0x700000>;
223 size = <0x100000>;
224 u-boot {
225 cbfs-type = "raw";
226 };
227 u-boot-dtb {
228 cbfs-type = "raw";
229 };
230 image {
231 type = "blob";
232 filename = "image.jpg";
233 };
234 };
235 };
236
237This creates an 8MB image with two CBFSs, one at offset 1MB, one at 7MB,
238both of size 1MB.
239
240
241
Simon Glassdb168d42018-07-17 13:25:39 -0600242Entry: cros-ec-rw: A blob entry which contains a Chromium OS read-write EC image
243--------------------------------------------------------------------------------
244
245Properties / Entry arguments:
246 - cros-ec-rw-path: Filename containing the EC image
247
248This entry holds a Chromium OS EC (embedded controller) image, for use in
249updating the EC on startup via software sync.
250
251
252
Simon Glass0f621332019-07-08 14:25:27 -0600253Entry: fdtmap: An entry which contains an FDT map
254-------------------------------------------------
255
256Properties / Entry arguments:
257 None
258
259An FDT map is just a header followed by an FDT containing a list of all the
Simon Glassfb30e292019-07-20 12:23:51 -0600260entries in the image. The root node corresponds to the image node in the
261original FDT, and an image-name property indicates the image name in that
262original tree.
Simon Glass0f621332019-07-08 14:25:27 -0600263
264The header is the string _FDTMAP_ followed by 8 unused bytes.
265
266When used, this entry will be populated with an FDT map which reflects the
267entries in the current image. Hierarchy is preserved, and all offsets and
268sizes are included.
269
270Note that the -u option must be provided to ensure that binman updates the
271FDT with the position of each entry.
272
273Example output for a simple image with U-Boot and an FDT map:
274
275/ {
Simon Glassfb30e292019-07-20 12:23:51 -0600276 image-name = "binman";
Simon Glass0f621332019-07-08 14:25:27 -0600277 size = <0x00000112>;
278 image-pos = <0x00000000>;
279 offset = <0x00000000>;
280 u-boot {
281 size = <0x00000004>;
282 image-pos = <0x00000000>;
283 offset = <0x00000000>;
284 };
285 fdtmap {
286 size = <0x0000010e>;
287 image-pos = <0x00000004>;
288 offset = <0x00000004>;
289 };
290};
291
Simon Glassfb30e292019-07-20 12:23:51 -0600292If allow-repack is used then 'orig-offset' and 'orig-size' properties are
293added as necessary. See the binman README.
294
Simon Glass0f621332019-07-08 14:25:27 -0600295
296
Simon Glassac6328c2018-09-14 04:57:28 -0600297Entry: files: Entry containing a set of files
298---------------------------------------------
299
300Properties / Entry arguments:
301 - pattern: Filename pattern to match the files to include
302 - compress: Compression algorithm to use:
303 none: No compression
304 lz4: Use lz4 compression (via 'lz4' command-line utility)
305
306This entry reads a number of files and places each in a separate sub-entry
307within this entry. To access these you need to enable device-tree updates
308at run-time so you can obtain the file positions.
Simon Glass7a61c6b2018-07-17 13:25:37 -0600309
310
Simon Glassac6328c2018-09-14 04:57:28 -0600311
Simon Glass53f53992018-07-17 13:25:40 -0600312Entry: fill: An entry which is filled to a particular byte value
313----------------------------------------------------------------
314
315Properties / Entry arguments:
316 - fill-byte: Byte to use to fill the entry
317
318Note that the size property must be set since otherwise this entry does not
319know how large it should be.
320
321You can often achieve the same effect using the pad-byte property of the
322overall image, in that the space between entries will then be padded with
323that byte. But this entry is sometimes useful for explicitly setting the
324byte value of a region.
325
326
Simon Glassc7b010d2020-07-09 18:39:45 -0600327
Simon Glass45d556d2020-07-09 18:39:45 -0600328Entry: fit: Entry containing a FIT
329----------------------------------
330
331This calls mkimage to create a FIT (U-Boot Flat Image Tree) based on the
332input provided.
333
334Nodes for the FIT should be written out in the binman configuration just as
335they would be in a file passed to mkimage.
336
337For example, this creates an image containing a FIT with U-Boot SPL:
338
339 binman {
340 fit {
341 description = "Test FIT";
Simon Glassa435cd12020-09-01 05:13:59 -0600342 fit,fdt-list = "of-list";
Simon Glass45d556d2020-07-09 18:39:45 -0600343
344 images {
345 kernel@1 {
346 description = "SPL";
347 os = "u-boot";
348 type = "rkspi";
349 arch = "arm";
350 compression = "none";
351 load = <0>;
352 entry = <0>;
353
354 u-boot-spl {
355 };
356 };
357 };
358 };
359 };
360
Simon Glassa435cd12020-09-01 05:13:59 -0600361U-Boot supports creating fdt and config nodes automatically. To do this,
362pass an of-list property (e.g. -a of-list=file1 file2). This tells binman
363that you want to generates nodes for two files: file1.dtb and file2.dtb
364The fit,fdt-list property (see above) indicates that of-list should be used.
365If the property is missing you will get an error.
366
367Then add a 'generator node', a node with a name starting with '@':
368
369 images {
370 @fdt-SEQ {
371 description = "fdt-NAME";
372 type = "flat_dt";
373 compression = "none";
374 };
375 };
376
377This tells binman to create nodes fdt-1 and fdt-2 for each of your two
378files. All the properties you specify will be included in the node. This
379node acts like a template to generate the nodes. The generator node itself
380does not appear in the output - it is replaced with what binman generates.
381
382You can create config nodes in a similar way:
383
384 configurations {
385 default = "@config-DEFAULT-SEQ";
386 @config-SEQ {
387 description = "NAME";
Samuel Holland91079ac2020-10-21 21:12:14 -0500388 firmware = "atf";
389 loadables = "uboot";
Simon Glassa435cd12020-09-01 05:13:59 -0600390 fdt = "fdt-SEQ";
391 };
392 };
393
394This tells binman to create nodes config-1 and config-2, i.e. a config for
395each of your two files.
396
397Available substitutions for '@' nodes are:
398
399 SEQ Sequence number of the generated fdt (1, 2, ...)
400 NAME Name of the dtb as provided (i.e. without adding '.dtb')
401
402Note that if no devicetree files are provided (with '-a of-list' as above)
403then no nodes will be generated.
404
Simon Glass1032acc2020-09-06 10:39:08 -0600405The 'default' property, if present, will be automatically set to the name
406if of configuration whose devicetree matches the 'default-dt' entry
407argument, e.g. with '-a default-dt=sun50i-a64-pine64-lts'.
408
Simon Glassa435cd12020-09-01 05:13:59 -0600409
410Properties (in the 'fit' node itself):
Simon Glass45d556d2020-07-09 18:39:45 -0600411 fit,external-offset: Indicates that the contents of the FIT are external
412 and provides the external offset. This is passsed to mkimage via
413 the -E and -p flags.
414
415
416
417
Simon Glass7a61c6b2018-07-17 13:25:37 -0600418Entry: fmap: An entry which contains an Fmap section
419----------------------------------------------------
420
421Properties / Entry arguments:
422 None
423
424FMAP is a simple format used by flashrom, an open-source utility for
425reading and writing the SPI flash, typically on x86 CPUs. The format
426provides flashrom with a list of areas, so it knows what it in the flash.
427It can then read or write just a single area, instead of the whole flash.
428
429The format is defined by the flashrom project, in the file lib/fmap.h -
430see www.flashrom.org/Flashrom for more information.
431
432When used, this entry will be populated with an FMAP which reflects the
433entries in the current image. Note that any hierarchy is squashed, since
Simon Glasscf0b21c2019-07-20 12:24:00 -0600434FMAP does not support this. Also, CBFS entries appear as a single entry -
435the sub-entries are ignored.
Simon Glass7a61c6b2018-07-17 13:25:37 -0600436
437
438
Simon Glassc1ae83c2018-07-17 13:25:44 -0600439Entry: gbb: An entry which contains a Chromium OS Google Binary Block
440---------------------------------------------------------------------
441
442Properties / Entry arguments:
443 - hardware-id: Hardware ID to use for this build (a string)
444 - keydir: Directory containing the public keys to use
445 - bmpblk: Filename containing images used by recovery
446
447Chromium OS uses a GBB to store various pieces of information, in particular
448the root and recovery keys that are used to verify the boot process. Some
449more details are here:
450
451 https://www.chromium.org/chromium-os/firmware-porting-guide/2-concepts
452
453but note that the page dates from 2013 so is quite out of date. See
454README.chromium for how to obtain the required keys and tools.
455
456
457
Simon Glasscec34ba2019-07-08 14:25:28 -0600458Entry: image-header: An entry which contains a pointer to the FDT map
459---------------------------------------------------------------------
460
461Properties / Entry arguments:
462 location: Location of header ("start" or "end" of image). This is
463 optional. If omitted then the entry must have an offset property.
464
465This adds an 8-byte entry to the start or end of the image, pointing to the
466location of the FDT map. The format is a magic number followed by an offset
467from the start or end of the image, in twos-compliment format.
468
469This entry must be in the top-level part of the image.
470
471NOTE: If the location is at the start/end, you will probably need to specify
472sort-by-offset for the image, unless you actually put the image header
473first/last in the entry list.
474
475
476
Simon Glass7a61c6b2018-07-17 13:25:37 -0600477Entry: intel-cmc: Entry containing an Intel Chipset Micro Code (CMC) file
478-------------------------------------------------------------------------
479
480Properties / Entry arguments:
481 - filename: Filename of file to read into entry
482
483This file contains microcode for some devices in a special format. An
484example filename is 'Microcode/C0_22211.BIN'.
485
486See README.x86 for information about x86 binary blobs.
487
488
489
490Entry: intel-descriptor: Intel flash descriptor block (4KB)
491-----------------------------------------------------------
492
493Properties / Entry arguments:
494 filename: Filename of file containing the descriptor. This is typically
495 a 4KB binary file, sometimes called 'descriptor.bin'
496
497This entry is placed at the start of flash and provides information about
498the SPI flash regions. In particular it provides the base address and
499size of the ME (Management Engine) region, allowing us to place the ME
500binary in the right place.
501
502With this entry in your image, the position of the 'intel-me' entry will be
503fixed in the image, which avoids you needed to specify an offset for that
504region. This is useful, because it is not possible to change the position
505of the ME region without updating the descriptor.
506
507See README.x86 for information about x86 binary blobs.
508
509
510
Simon Glass232f90c2019-08-24 07:22:50 -0600511Entry: intel-fit: Intel Firmware Image Table (FIT)
512--------------------------------------------------
513
514This entry contains a dummy FIT as required by recent Intel CPUs. The FIT
515contains information about the firmware and microcode available in the
516image.
517
518At present binman only supports a basic FIT with no microcode.
519
520
521
522Entry: intel-fit-ptr: Intel Firmware Image Table (FIT) pointer
523--------------------------------------------------------------
524
525This entry contains a pointer to the FIT. It is required to be at address
5260xffffffc0 in the image.
527
528
529
Simon Glass7a61c6b2018-07-17 13:25:37 -0600530Entry: intel-fsp: Entry containing an Intel Firmware Support Package (FSP) file
531-------------------------------------------------------------------------------
532
533Properties / Entry arguments:
534 - filename: Filename of file to read into entry
535
536This file contains binary blobs which are used on some devices to make the
537platform work. U-Boot executes this code since it is not possible to set up
538the hardware using U-Boot open-source code. Documentation is typically not
539available in sufficient detail to allow this.
540
541An example filename is 'FSP/QUEENSBAY_FSP_GOLD_001_20-DECEMBER-2013.fd'
542
543See README.x86 for information about x86 binary blobs.
544
545
546
Simon Glassba7985d2019-08-24 07:23:07 -0600547Entry: intel-fsp-m: Entry containing Intel Firmware Support Package (FSP) memory init
548-------------------------------------------------------------------------------------
549
550Properties / Entry arguments:
551 - filename: Filename of file to read into entry
552
553This file contains a binary blob which is used on some devices to set up
554SDRAM. U-Boot executes this code in SPL so that it can make full use of
555memory. Documentation is typically not available in sufficient detail to
556allow U-Boot do this this itself..
557
558An example filename is 'fsp_m.bin'
559
560See README.x86 for information about x86 binary blobs.
561
562
563
Simon Glass4d9086d2019-10-20 21:31:35 -0600564Entry: intel-fsp-s: Entry containing Intel Firmware Support Package (FSP) silicon init
565--------------------------------------------------------------------------------------
566
567Properties / Entry arguments:
568 - filename: Filename of file to read into entry
569
570This file contains a binary blob which is used on some devices to set up
571the silicon. U-Boot executes this code in U-Boot proper after SDRAM is
572running, so that it can make full use of memory. Documentation is typically
573not available in sufficient detail to allow U-Boot do this this itself.
574
575An example filename is 'fsp_s.bin'
576
577See README.x86 for information about x86 binary blobs.
578
579
580
Simon Glass9ea87b22019-10-20 21:31:36 -0600581Entry: intel-fsp-t: Entry containing Intel Firmware Support Package (FSP) temp ram init
582---------------------------------------------------------------------------------------
583
584Properties / Entry arguments:
585 - filename: Filename of file to read into entry
586
587This file contains a binary blob which is used on some devices to set up
588temporary memory (Cache-as-RAM or CAR). U-Boot executes this code in TPL so
589that it has access to memory for its stack and initial storage.
590
591An example filename is 'fsp_t.bin'
592
593See README.x86 for information about x86 binary blobs.
594
595
596
Simon Glassc2f1aed2019-07-08 13:18:56 -0600597Entry: intel-ifwi: Entry containing an Intel Integrated Firmware Image (IFWI) file
598----------------------------------------------------------------------------------
599
600Properties / Entry arguments:
601 - filename: Filename of file to read into entry. This is either the
602 IFWI file itself, or a file that can be converted into one using a
603 tool
604 - convert-fit: If present this indicates that the ifwitool should be
605 used to convert the provided file into a IFWI.
606
607This file contains code and data used by the SoC that is required to make
608it work. It includes U-Boot TPL, microcode, things related to the CSE
609(Converged Security Engine, the microcontroller that loads all the firmware)
610and other items beyond the wit of man.
611
612A typical filename is 'ifwi.bin' for an IFWI file, or 'fitimage.bin' for a
613file that will be converted to an IFWI.
614
615The position of this entry is generally set by the intel-descriptor entry.
616
617The contents of the IFWI are specified by the subnodes of the IFWI node.
618Each subnode describes an entry which is placed into the IFWFI with a given
619sub-partition (and optional entry name).
620
Simon Glass8a5e2492019-08-24 07:22:47 -0600621Properties for subnodes:
622 ifwi-subpart - sub-parition to put this entry into, e.g. "IBBP"
623 ifwi-entry - entry name t use, e.g. "IBBL"
624 ifwi-replace - if present, indicates that the item should be replaced
625 in the IFWI. Otherwise it is added.
626
Simon Glassc2f1aed2019-07-08 13:18:56 -0600627See README.x86 for information about x86 binary blobs.
628
629
630
Simon Glass7a61c6b2018-07-17 13:25:37 -0600631Entry: intel-me: Entry containing an Intel Management Engine (ME) file
632----------------------------------------------------------------------
633
634Properties / Entry arguments:
635 - filename: Filename of file to read into entry
636
637This file contains code used by the SoC that is required to make it work.
638The Management Engine is like a background task that runs things that are
Thomas Hebbfd37f242019-11-13 18:18:03 -0800639not clearly documented, but may include keyboard, display and network
Simon Glass7a61c6b2018-07-17 13:25:37 -0600640access. For platform that use ME it is not possible to disable it. U-Boot
641does not directly execute code in the ME binary.
642
643A typical filename is 'me.bin'.
644
Simon Glassc4056b82019-07-08 13:18:38 -0600645The position of this entry is generally set by the intel-descriptor entry.
646
Simon Glass7a61c6b2018-07-17 13:25:37 -0600647See README.x86 for information about x86 binary blobs.
648
649
650
651Entry: intel-mrc: Entry containing an Intel Memory Reference Code (MRC) file
652----------------------------------------------------------------------------
653
654Properties / Entry arguments:
655 - filename: Filename of file to read into entry
656
657This file contains code for setting up the SDRAM on some Intel systems. This
658is executed by U-Boot when needed early during startup. A typical filename
659is 'mrc.bin'.
660
661See README.x86 for information about x86 binary blobs.
662
663
664
Simon Glass17b84eb2019-05-17 22:00:53 -0600665Entry: intel-refcode: Entry containing an Intel Reference Code file
666-------------------------------------------------------------------
667
668Properties / Entry arguments:
669 - filename: Filename of file to read into entry
670
671This file contains code for setting up the platform on some Intel systems.
672This is executed by U-Boot when needed early during startup. A typical
673filename is 'refcode.bin'.
674
675See README.x86 for information about x86 binary blobs.
676
677
678
Simon Glass7a61c6b2018-07-17 13:25:37 -0600679Entry: intel-vbt: Entry containing an Intel Video BIOS Table (VBT) file
680-----------------------------------------------------------------------
681
682Properties / Entry arguments:
683 - filename: Filename of file to read into entry
684
685This file contains code that sets up the integrated graphics subsystem on
686some Intel SoCs. U-Boot executes this when the display is started up.
687
688See README.x86 for information about Intel binary blobs.
689
690
691
692Entry: intel-vga: Entry containing an Intel Video Graphics Adaptor (VGA) file
693-----------------------------------------------------------------------------
694
695Properties / Entry arguments:
696 - filename: Filename of file to read into entry
697
698This file contains code that sets up the integrated graphics subsystem on
699some Intel SoCs. U-Boot executes this when the display is started up.
700
701This is similar to the VBT file but in a different format.
702
703See README.x86 for information about Intel binary blobs.
704
705
706
Simon Glass48f3aad2020-07-09 18:39:31 -0600707Entry: mkimage: Entry containing a binary produced by mkimage
708-------------------------------------------------------------
709
710Properties / Entry arguments:
711 - datafile: Filename for -d argument
712 - args: Other arguments to pass
713
714The data passed to mkimage is collected from subnodes of the mkimage node,
715e.g.:
716
717 mkimage {
718 args = "-n test -T imximage";
719
720 u-boot-spl {
721 };
722 };
723
724This calls mkimage to create an imximage with u-boot-spl.bin as the input
725file. The output from mkimage then becomes part of the image produced by
726binman.
727
728
729
Jagdish Gediya311d4842018-09-03 21:35:08 +0530730Entry: powerpc-mpc85xx-bootpg-resetvec: PowerPC mpc85xx bootpg + resetvec code for U-Boot
731-----------------------------------------------------------------------------------------
732
733Properties / Entry arguments:
734 - filename: Filename of u-boot-br.bin (default 'u-boot-br.bin')
735
Thomas Hebbfd37f242019-11-13 18:18:03 -0800736This entry is valid for PowerPC mpc85xx cpus. This entry holds
Jagdish Gediya311d4842018-09-03 21:35:08 +0530737'bootpg + resetvec' code for PowerPC mpc85xx CPUs which needs to be
738placed at offset 'RESET_VECTOR_ADDRESS - 0xffc'.
739
740
741
Simon Glass7a61c6b2018-07-17 13:25:37 -0600742Entry: section: Entry that contains other entries
743-------------------------------------------------
744
745Properties / Entry arguments: (see binman README for more information)
Simon Glass39dd2152019-07-08 14:25:47 -0600746 pad-byte: Pad byte to use when padding
747 sort-by-offset: True if entries should be sorted by offset, False if
748 they must be in-order in the device tree description
749 end-at-4gb: Used to build an x86 ROM which ends at 4GB (2^32)
750 skip-at-start: Number of bytes before the first entry starts. These
751 effectively adjust the starting offset of entries. For example,
752 if this is 16, then the first entry would start at 16. An entry
753 with offset = 20 would in fact be written at offset 4 in the image
754 file, since the first 16 bytes are skipped when writing.
755 name-prefix: Adds a prefix to the name of every entry in the section
Simon Glass7a61c6b2018-07-17 13:25:37 -0600756 when writing out the map
757
Simon Glass21db0ff2020-09-01 05:13:54 -0600758Properties:
Simon Glassb8f90372020-09-01 05:13:57 -0600759 allow_missing: True if this section permits external blobs to be
Simon Glass21db0ff2020-09-01 05:13:54 -0600760 missing their contents. The second will produce an image but of
761 course it will not work.
762
Simon Glass39dd2152019-07-08 14:25:47 -0600763Since a section is also an entry, it inherits all the properies of entries
764too.
765
Simon Glass7a61c6b2018-07-17 13:25:37 -0600766A section is an entry which can contain other entries, thus allowing
767hierarchical images to be created. See 'Sections and hierarchical images'
768in the binman README for more information.
769
770
771
772Entry: text: An entry which contains text
773-----------------------------------------
774
775The text can be provided either in the node itself or by a command-line
776argument. There is a level of indirection to allow multiple text strings
777and sharing of text.
778
779Properties / Entry arguments:
780 text-label: The value of this string indicates the property / entry-arg
781 that contains the string to place in the entry
782 <xxx> (actual name is the value of text-label): contains the string to
783 place in the entry.
Simon Glass47f6a622019-07-08 13:18:40 -0600784 <text>: The text to place in the entry (overrides the above mechanism).
785 This is useful when the text is constant.
Simon Glass7a61c6b2018-07-17 13:25:37 -0600786
787Example node:
788
789 text {
790 size = <50>;
791 text-label = "message";
792 };
793
794You can then use:
795
796 binman -amessage="this is my message"
797
798and binman will insert that string into the entry.
799
800It is also possible to put the string directly in the node:
801
802 text {
803 size = <8>;
804 text-label = "message";
805 message = "a message directly in the node"
806 };
807
Simon Glass47f6a622019-07-08 13:18:40 -0600808or just:
809
810 text {
811 size = <8>;
812 text = "some text directly in the node"
813 };
814
Simon Glass7a61c6b2018-07-17 13:25:37 -0600815The text is not itself nul-terminated. This can be achieved, if required,
816by setting the size of the entry to something larger than the text.
817
818
819
820Entry: u-boot: U-Boot flat binary
821---------------------------------
822
823Properties / Entry arguments:
824 - filename: Filename of u-boot.bin (default 'u-boot.bin')
825
826This is the U-Boot binary, containing relocation information to allow it
827to relocate itself at runtime. The binary typically includes a device tree
828blob at the end of it. Use u_boot_nodtb if you want to package the device
829tree separately.
830
831U-Boot can access binman symbols at runtime. See:
832
833 'Access to binman entry offsets at run time (fdt)'
834
835in the binman README for more information.
836
837
838
839Entry: u-boot-dtb: U-Boot device tree
840-------------------------------------
841
842Properties / Entry arguments:
843 - filename: Filename of u-boot.dtb (default 'u-boot.dtb')
844
845This is the U-Boot device tree, containing configuration information for
846U-Boot. U-Boot needs this to know what devices are present and which drivers
847to activate.
848
Simon Glasse219aa42018-09-14 04:57:24 -0600849Note: This is mostly an internal entry type, used by others. This allows
850binman to know which entries contain a device tree.
Simon Glass7a61c6b2018-07-17 13:25:37 -0600851
852
Simon Glass7a61c6b2018-07-17 13:25:37 -0600853
854Entry: u-boot-dtb-with-ucode: A U-Boot device tree file, with the microcode removed
855-----------------------------------------------------------------------------------
856
857Properties / Entry arguments:
858 - filename: Filename of u-boot.dtb (default 'u-boot.dtb')
859
860See Entry_u_boot_ucode for full details of the three entries involved in
861this process. This entry provides the U-Boot device-tree file, which
862contains the microcode. If the microcode is not being collated into one
863place then the offset and size of the microcode is recorded by this entry,
864for use by u_boot_with_ucode_ptr. If it is being collated, then this
865entry deletes the microcode from the device tree (to save space) and makes
866it available to u_boot_ucode.
867
868
869
Simon Glassb1714232018-09-14 04:57:35 -0600870Entry: u-boot-elf: U-Boot ELF image
871-----------------------------------
872
873Properties / Entry arguments:
874 - filename: Filename of u-boot (default 'u-boot')
875
876This is the U-Boot ELF image. It does not include a device tree but can be
877relocated to any address for execution.
878
879
880
Simon Glass7a61c6b2018-07-17 13:25:37 -0600881Entry: u-boot-img: U-Boot legacy image
882--------------------------------------
883
884Properties / Entry arguments:
885 - filename: Filename of u-boot.img (default 'u-boot.img')
886
887This is the U-Boot binary as a packaged image, in legacy format. It has a
888header which allows it to be loaded at the correct address for execution.
889
890You should use FIT (Flat Image Tree) instead of the legacy image for new
891applications.
892
893
894
895Entry: u-boot-nodtb: U-Boot flat binary without device tree appended
896--------------------------------------------------------------------
897
898Properties / Entry arguments:
899 - filename: Filename of u-boot.bin (default 'u-boot-nodtb.bin')
900
901This is the U-Boot binary, containing relocation information to allow it
902to relocate itself at runtime. It does not include a device tree blob at
903the end of it so normally cannot work without it. You can add a u_boot_dtb
904entry after this one, or use a u_boot entry instead (which contains both
905U-Boot and the device tree).
906
907
908
909Entry: u-boot-spl: U-Boot SPL binary
910------------------------------------
911
912Properties / Entry arguments:
913 - filename: Filename of u-boot-spl.bin (default 'spl/u-boot-spl.bin')
914
915This is the U-Boot SPL (Secondary Program Loader) binary. This is a small
916binary which loads before U-Boot proper, typically into on-chip SRAM. It is
917responsible for locating, loading and jumping to U-Boot. Note that SPL is
918not relocatable so must be loaded to the correct address in SRAM, or written
Simon Glass8425a1f2018-07-17 13:25:48 -0600919to run from the correct address if direct flash execution is possible (e.g.
Simon Glass7a61c6b2018-07-17 13:25:37 -0600920on x86 devices).
921
922SPL can access binman symbols at runtime. See:
923
924 'Access to binman entry offsets at run time (symbols)'
925
926in the binman README for more information.
927
928The ELF file 'spl/u-boot-spl' must also be available for this to work, since
929binman uses that to look up symbols to write into the SPL binary.
930
931
932
933Entry: u-boot-spl-bss-pad: U-Boot SPL binary padded with a BSS region
934---------------------------------------------------------------------
935
936Properties / Entry arguments:
937 None
938
939This is similar to u_boot_spl except that padding is added after the SPL
940binary to cover the BSS (Block Started by Symbol) region. This region holds
941the various used by SPL. It is set to 0 by SPL when it starts up. If you
942want to append data to the SPL image (such as a device tree file), you must
943pad out the BSS region to avoid the data overlapping with U-Boot variables.
944This entry is useful in that case. It automatically pads out the entry size
945to cover both the code, data and BSS.
946
947The ELF file 'spl/u-boot-spl' must also be available for this to work, since
948binman uses that to look up the BSS address.
949
950
951
952Entry: u-boot-spl-dtb: U-Boot SPL device tree
953---------------------------------------------
954
955Properties / Entry arguments:
956 - filename: Filename of u-boot.dtb (default 'spl/u-boot-spl.dtb')
957
958This is the SPL device tree, containing configuration information for
959SPL. SPL needs this to know what devices are present and which drivers
960to activate.
961
962
963
Simon Glassb1714232018-09-14 04:57:35 -0600964Entry: u-boot-spl-elf: U-Boot SPL ELF image
965-------------------------------------------
966
967Properties / Entry arguments:
Simon Glass5dcc21d2019-07-08 13:18:45 -0600968 - filename: Filename of SPL u-boot (default 'spl/u-boot-spl')
Simon Glassb1714232018-09-14 04:57:35 -0600969
970This is the U-Boot SPL ELF image. It does not include a device tree but can
971be relocated to any address for execution.
972
973
974
Simon Glass7a61c6b2018-07-17 13:25:37 -0600975Entry: u-boot-spl-nodtb: SPL binary without device tree appended
976----------------------------------------------------------------
977
978Properties / Entry arguments:
979 - filename: Filename of spl/u-boot-spl-nodtb.bin (default
980 'spl/u-boot-spl-nodtb.bin')
981
982This is the U-Boot SPL binary, It does not include a device tree blob at
983the end of it so may not be able to work without it, assuming SPL needs
984a device tree to operation on your platform. You can add a u_boot_spl_dtb
985entry after this one, or use a u_boot_spl entry instead (which contains
986both SPL and the device tree).
987
988
989
990Entry: u-boot-spl-with-ucode-ptr: U-Boot SPL with embedded microcode pointer
991----------------------------------------------------------------------------
992
Simon Glass3fb4f422018-09-14 04:57:32 -0600993This is used when SPL must set up the microcode for U-Boot.
994
Simon Glass7a61c6b2018-07-17 13:25:37 -0600995See Entry_u_boot_ucode for full details of the entries involved in this
996process.
997
998
999
Simon Glass8425a1f2018-07-17 13:25:48 -06001000Entry: u-boot-tpl: U-Boot TPL binary
1001------------------------------------
1002
1003Properties / Entry arguments:
1004 - filename: Filename of u-boot-tpl.bin (default 'tpl/u-boot-tpl.bin')
1005
1006This is the U-Boot TPL (Tertiary Program Loader) binary. This is a small
1007binary which loads before SPL, typically into on-chip SRAM. It is
1008responsible for locating, loading and jumping to SPL, the next-stage
1009loader. Note that SPL is not relocatable so must be loaded to the correct
1010address in SRAM, or written to run from the correct address if direct
1011flash execution is possible (e.g. on x86 devices).
1012
1013SPL can access binman symbols at runtime. See:
1014
1015 'Access to binman entry offsets at run time (symbols)'
1016
1017in the binman README for more information.
1018
1019The ELF file 'tpl/u-boot-tpl' must also be available for this to work, since
1020binman uses that to look up symbols to write into the TPL binary.
1021
1022
1023
1024Entry: u-boot-tpl-dtb: U-Boot TPL device tree
1025---------------------------------------------
1026
1027Properties / Entry arguments:
1028 - filename: Filename of u-boot.dtb (default 'tpl/u-boot-tpl.dtb')
1029
1030This is the TPL device tree, containing configuration information for
1031TPL. TPL needs this to know what devices are present and which drivers
1032to activate.
1033
1034
1035
Simon Glass3fb4f422018-09-14 04:57:32 -06001036Entry: u-boot-tpl-dtb-with-ucode: U-Boot TPL with embedded microcode pointer
1037----------------------------------------------------------------------------
1038
1039This is used when TPL must set up the microcode for U-Boot.
1040
1041See Entry_u_boot_ucode for full details of the entries involved in this
1042process.
1043
1044
1045
Simon Glassa899f712019-07-08 13:18:46 -06001046Entry: u-boot-tpl-elf: U-Boot TPL ELF image
1047-------------------------------------------
1048
1049Properties / Entry arguments:
1050 - filename: Filename of TPL u-boot (default 'tpl/u-boot-tpl')
1051
1052This is the U-Boot TPL ELF image. It does not include a device tree but can
1053be relocated to any address for execution.
1054
1055
1056
Simon Glass3fb4f422018-09-14 04:57:32 -06001057Entry: u-boot-tpl-with-ucode-ptr: U-Boot TPL with embedded microcode pointer
1058----------------------------------------------------------------------------
1059
1060See Entry_u_boot_ucode for full details of the entries involved in this
1061process.
1062
1063
1064
Simon Glass7a61c6b2018-07-17 13:25:37 -06001065Entry: u-boot-ucode: U-Boot microcode block
1066-------------------------------------------
1067
1068Properties / Entry arguments:
1069 None
1070
1071The contents of this entry are filled in automatically by other entries
1072which must also be in the image.
1073
1074U-Boot on x86 needs a single block of microcode. This is collected from
1075the various microcode update nodes in the device tree. It is also unable
1076to read the microcode from the device tree on platforms that use FSP
1077(Firmware Support Package) binaries, because the API requires that the
1078microcode is supplied before there is any SRAM available to use (i.e.
1079the FSP sets up the SRAM / cache-as-RAM but does so in the call that
1080requires the microcode!). To keep things simple, all x86 platforms handle
1081microcode the same way in U-Boot (even non-FSP platforms). This is that
1082a table is placed at _dt_ucode_base_size containing the base address and
1083size of the microcode. This is either passed to the FSP (for FSP
1084platforms), or used to set up the microcode (for non-FSP platforms).
1085This all happens in the build system since it is the only way to get
1086the microcode into a single blob and accessible without SRAM.
1087
1088There are two cases to handle. If there is only one microcode blob in
1089the device tree, then the ucode pointer it set to point to that. This
1090entry (u-boot-ucode) is empty. If there is more than one update, then
1091this entry holds the concatenation of all updates, and the device tree
1092entry (u-boot-dtb-with-ucode) is updated to remove the microcode. This
1093last step ensures that that the microcode appears in one contiguous
1094block in the image and is not unnecessarily duplicated in the device
1095tree. It is referred to as 'collation' here.
1096
1097Entry types that have a part to play in handling microcode:
1098
1099 Entry_u_boot_with_ucode_ptr:
1100 Contains u-boot-nodtb.bin (i.e. U-Boot without the device tree).
1101 It updates it with the address and size of the microcode so that
1102 U-Boot can find it early on start-up.
1103 Entry_u_boot_dtb_with_ucode:
1104 Contains u-boot.dtb. It stores the microcode in a
1105 'self.ucode_data' property, which is then read by this class to
1106 obtain the microcode if needed. If collation is performed, it
1107 removes the microcode from the device tree.
1108 Entry_u_boot_ucode:
1109 This class. If collation is enabled it reads the microcode from
1110 the Entry_u_boot_dtb_with_ucode entry, and uses it as the
1111 contents of this entry.
1112
1113
1114
1115Entry: u-boot-with-ucode-ptr: U-Boot with embedded microcode pointer
1116--------------------------------------------------------------------
1117
1118Properties / Entry arguments:
Masahiro Yamadaa7a0ca42019-12-14 13:47:26 +09001119 - filename: Filename of u-boot-nodtb.bin (default 'u-boot-nodtb.bin')
Simon Glassee21d3a2018-09-14 04:57:07 -06001120 - optional-ucode: boolean property to make microcode optional. If the
1121 u-boot.bin image does not include microcode, no error will
1122 be generated.
Simon Glass7a61c6b2018-07-17 13:25:37 -06001123
1124See Entry_u_boot_ucode for full details of the three entries involved in
1125this process. This entry updates U-Boot with the offset and size of the
1126microcode, to allow early x86 boot code to find it without doing anything
1127complicated. Otherwise it is the same as the u_boot entry.
1128
1129
1130
Simon Glass5c350162018-07-17 13:25:47 -06001131Entry: vblock: An entry which contains a Chromium OS verified boot block
1132------------------------------------------------------------------------
1133
1134Properties / Entry arguments:
Simon Glass17b84eb2019-05-17 22:00:53 -06001135 - content: List of phandles to entries to sign
Simon Glass5c350162018-07-17 13:25:47 -06001136 - keydir: Directory containing the public keys to use
1137 - keyblock: Name of the key file to use (inside keydir)
1138 - signprivate: Name of provide key file to use (inside keydir)
1139 - version: Version number of the vblock (typically 1)
1140 - kernelkey: Name of the kernel key to use (inside keydir)
1141 - preamble-flags: Value of the vboot preamble flags (typically 0)
1142
Simon Glass639505b2018-09-14 04:57:11 -06001143Output files:
1144 - input.<unique_name> - input file passed to futility
1145 - vblock.<unique_name> - output file generated by futility (which is
1146 used as the entry contents)
1147
Jagdish Gediya311d4842018-09-03 21:35:08 +05301148Chromium OS signs the read-write firmware and kernel, writing the signature
Simon Glass5c350162018-07-17 13:25:47 -06001149in this block. This allows U-Boot to verify that the next firmware stage
1150and kernel are genuine.
1151
1152
1153
Simon Glass0b074d62019-08-24 07:22:48 -06001154Entry: x86-reset16: x86 16-bit reset code for U-Boot
1155----------------------------------------------------
1156
1157Properties / Entry arguments:
1158 - filename: Filename of u-boot-x86-reset16.bin (default
1159 'u-boot-x86-reset16.bin')
1160
1161x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
1162must be placed at a particular address. This entry holds that code. It is
1163typically placed at offset CONFIG_RESET_VEC_LOC. The code is responsible
1164for jumping to the x86-start16 code, which continues execution.
1165
1166For 64-bit U-Boot, the 'x86_reset16_spl' entry type is used instead.
1167
1168
1169
1170Entry: x86-reset16-spl: x86 16-bit reset code for U-Boot
1171--------------------------------------------------------
1172
1173Properties / Entry arguments:
1174 - filename: Filename of u-boot-x86-reset16.bin (default
1175 'u-boot-x86-reset16.bin')
1176
1177x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
1178must be placed at a particular address. This entry holds that code. It is
1179typically placed at offset CONFIG_RESET_VEC_LOC. The code is responsible
1180for jumping to the x86-start16 code, which continues execution.
1181
1182For 32-bit U-Boot, the 'x86_reset_spl' entry type is used instead.
1183
1184
1185
1186Entry: x86-reset16-tpl: x86 16-bit reset code for U-Boot
1187--------------------------------------------------------
1188
1189Properties / Entry arguments:
1190 - filename: Filename of u-boot-x86-reset16.bin (default
1191 'u-boot-x86-reset16.bin')
1192
1193x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
1194must be placed at a particular address. This entry holds that code. It is
1195typically placed at offset CONFIG_RESET_VEC_LOC. The code is responsible
1196for jumping to the x86-start16 code, which continues execution.
1197
1198For 32-bit U-Boot, the 'x86_reset_tpl' entry type is used instead.
1199
1200
1201
Simon Glass7a61c6b2018-07-17 13:25:37 -06001202Entry: x86-start16: x86 16-bit start-up code for U-Boot
1203-------------------------------------------------------
1204
1205Properties / Entry arguments:
Simon Glassabab18c2019-08-24 07:22:49 -06001206 - filename: Filename of u-boot-x86-start16.bin (default
1207 'u-boot-x86-start16.bin')
Simon Glass7a61c6b2018-07-17 13:25:37 -06001208
1209x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
Simon Glassabab18c2019-08-24 07:22:49 -06001210must be placed in the top 64KB of the ROM. The reset code jumps to it. This
1211entry holds that code. It is typically placed at offset
1212CONFIG_SYS_X86_START16. The code is responsible for changing to 32-bit mode
1213and jumping to U-Boot's entry point, which requires 32-bit mode (for 32-bit
1214U-Boot).
Simon Glass7a61c6b2018-07-17 13:25:37 -06001215
1216For 64-bit U-Boot, the 'x86_start16_spl' entry type is used instead.
1217
1218
1219
1220Entry: x86-start16-spl: x86 16-bit start-up code for SPL
1221--------------------------------------------------------
1222
1223Properties / Entry arguments:
Simon Glassabab18c2019-08-24 07:22:49 -06001224 - filename: Filename of spl/u-boot-x86-start16-spl.bin (default
1225 'spl/u-boot-x86-start16-spl.bin')
Simon Glass7a61c6b2018-07-17 13:25:37 -06001226
Simon Glassabab18c2019-08-24 07:22:49 -06001227x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
1228must be placed in the top 64KB of the ROM. The reset code jumps to it. This
1229entry holds that code. It is typically placed at offset
1230CONFIG_SYS_X86_START16. The code is responsible for changing to 32-bit mode
1231and jumping to U-Boot's entry point, which requires 32-bit mode (for 32-bit
1232U-Boot).
Simon Glass7a61c6b2018-07-17 13:25:37 -06001233
Simon Glassabab18c2019-08-24 07:22:49 -06001234For 32-bit U-Boot, the 'x86-start16' entry type is used instead.
Simon Glass7a61c6b2018-07-17 13:25:37 -06001235
1236
1237
Simon Glassed40e962018-09-14 04:57:10 -06001238Entry: x86-start16-tpl: x86 16-bit start-up code for TPL
1239--------------------------------------------------------
1240
1241Properties / Entry arguments:
Simon Glassabab18c2019-08-24 07:22:49 -06001242 - filename: Filename of tpl/u-boot-x86-start16-tpl.bin (default
1243 'tpl/u-boot-x86-start16-tpl.bin')
Simon Glassed40e962018-09-14 04:57:10 -06001244
Simon Glassabab18c2019-08-24 07:22:49 -06001245x86 CPUs start up in 16-bit mode, even if they are 32-bit CPUs. This code
1246must be placed in the top 64KB of the ROM. The reset code jumps to it. This
1247entry holds that code. It is typically placed at offset
1248CONFIG_SYS_X86_START16. The code is responsible for changing to 32-bit mode
1249and jumping to U-Boot's entry point, which requires 32-bit mode (for 32-bit
1250U-Boot).
Simon Glassed40e962018-09-14 04:57:10 -06001251
Simon Glassabab18c2019-08-24 07:22:49 -06001252If TPL is not being used, the 'x86-start16-spl or 'x86-start16' entry types
Simon Glassed40e962018-09-14 04:57:10 -06001253may be used instead.
1254
1255
1256