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Simon Glass75ead662021-03-18 20:25:13 +13001.. SPDX-License-Identifier: GPL-2.0+
2.. Copyright (c) 2016 Google, Inc
Simon Glass2574ef62016-11-25 20:15:51 -07003
4Introduction
Simon Glassfa888282021-03-18 20:25:14 +13005============
Simon Glass2574ef62016-11-25 20:15:51 -07006
7Firmware often consists of several components which must be packaged together.
8For example, we may have SPL, U-Boot, a device tree and an environment area
9grouped together and placed in MMC flash. When the system starts, it must be
10able to find these pieces.
11
Simon Glass774b23f2021-03-18 20:25:17 +130012Building firmware should be separate from packaging it. Many of the complexities
13of modern firmware build systems come from trying to do both at once. With
14binman, you build all the pieces that are needed, using whatever assortment of
15projects and build systems are needed, then use binman to stitch everything
16together.
Simon Glass2574ef62016-11-25 20:15:51 -070017
Simon Glass2574ef62016-11-25 20:15:51 -070018
19What it does
20------------
21
22Binman reads your board's device tree and finds a node which describes the
Simon Glass774b23f2021-03-18 20:25:17 +130023required image layout. It uses this to work out what to place where.
24
25Binman provides a mechanism for building images, from simple SPL + U-Boot
26combinations, to more complex arrangements with many parts. It also allows
27users to inspect images, extract and replace binaries within them, repacking if
28needed.
Simon Glass2574ef62016-11-25 20:15:51 -070029
30
31Features
32--------
33
Simon Glass774b23f2021-03-18 20:25:17 +130034Apart from basic padding, alignment and positioning features, Binman supports
35hierarchical images, compression, hashing and dealing with the binary blobs
36which are a sad trend in open-source firmware at present.
Simon Glass2574ef62016-11-25 20:15:51 -070037
Simon Glass774b23f2021-03-18 20:25:17 +130038Executable binaries can access the location of other binaries in an image by
39using special linker symbols (zero-overhead but somewhat limited) or by reading
40the devicetree description of the image.
Simon Glass2574ef62016-11-25 20:15:51 -070041
Simon Glass774b23f2021-03-18 20:25:17 +130042Binman is designed primarily for use with U-Boot and associated binaries such
43as ARM Trusted Firmware, but it is suitable for use with other projects, such
44as Zephyr. Binman also provides facilities useful in Chromium OS, such as CBFS,
45vblocks and and the like.
46
47Binman provides a way to process binaries before they are included, by adding a
48Python plug-in.
Simon Glass2574ef62016-11-25 20:15:51 -070049
50Binman is intended for use with U-Boot but is designed to be general enough
51to be useful in other image-packaging situations.
52
53
54Motivation
55----------
56
Simon Glass774b23f2021-03-18 20:25:17 +130057As mentioned above, packaging of firmware is quite a different task from
58building the various parts. In many cases the various binaries which go into
59the image come from separate build systems. For example, ARM Trusted Firmware
60is used on ARMv8 devices but is not built in the U-Boot tree. If a Linux kernel
61is included in the firmware image, it is built elsewhere.
Simon Glass2574ef62016-11-25 20:15:51 -070062
63It is of course possible to add more and more build rules to the U-Boot
64build system to cover these cases. It can shell out to other Makefiles and
65build scripts. But it seems better to create a clear divide between building
66software and packaging it.
67
68At present this is handled by manual instructions, different for each board,
69on how to create images that will boot. By turning these instructions into a
70standard format, we can support making valid images for any board without
71manual effort, lots of READMEs, etc.
72
73Benefits:
Simon Glass2574ef62016-11-25 20:15:51 -070074
Simon Glass75ead662021-03-18 20:25:13 +130075 - Each binary can have its own build system and tool chain without creating
76 any dependencies between them
77 - Avoids the need for a single-shot build: individual parts can be updated
78 and brought in as needed
79 - Provides for a standard image description available in the build and at
80 run-time
81 - SoC-specific image-signing tools can be accommodated
82 - Avoids cluttering the U-Boot build system with image-building code
83 - The image description is automatically available at run-time in U-Boot,
84 SPL. It can be made available to other software also
85 - The image description is easily readable (it's a text file in device-tree
86 format) and permits flexible packing of binaries
87
Simon Glass2574ef62016-11-25 20:15:51 -070088
89Terminology
90-----------
91
92Binman uses the following terms:
93
94- image - an output file containing a firmware image
95- binary - an input binary that goes into the image
96
97
98Relationship to FIT
99-------------------
100
101FIT is U-Boot's official image format. It supports multiple binaries with
102load / execution addresses, compression. It also supports verification
103through hashing and RSA signatures.
104
105FIT was originally designed to support booting a Linux kernel (with an
106optional ramdisk) and device tree chosen from various options in the FIT.
107Now that U-Boot supports configuration via device tree, it is possible to
108load U-Boot from a FIT, with the device tree chosen by SPL.
109
110Binman considers FIT to be one of the binaries it can place in the image.
111
112Where possible it is best to put as much as possible in the FIT, with binman
113used to deal with cases not covered by FIT. Examples include initial
114execution (since FIT itself does not have an executable header) and dealing
115with device boundaries, such as the read-only/read-write separation in SPI
116flash.
117
118For U-Boot, binman should not be used to create ad-hoc images in place of
119FIT.
120
121
122Relationship to mkimage
123-----------------------
124
125The mkimage tool provides a means to create a FIT. Traditionally it has
126needed an image description file: a device tree, like binman, but in a
127different format. More recently it has started to support a '-f auto' mode
128which can generate that automatically.
129
130More relevant to binman, mkimage also permits creation of many SoC-specific
131image types. These can be listed by running 'mkimage -T list'. Examples
132include 'rksd', the Rockchip SD/MMC boot format. The mkimage tool is often
133called from the U-Boot build system for this reason.
134
135Binman considers the output files created by mkimage to be binary blobs
136which it can place in an image. Binman does not replace the mkimage tool or
Michael Heimpold55c822d2018-08-22 22:01:24 +0200137this purpose. It would be possible in some situations to create a new entry
Simon Glass2574ef62016-11-25 20:15:51 -0700138type for the images in mkimage, but this would not add functionality. It
Michael Heimpold55c822d2018-08-22 22:01:24 +0200139seems better to use the mkimage tool to generate binaries and avoid blurring
Simon Glass2574ef62016-11-25 20:15:51 -0700140the boundaries between building input files (mkimage) and packaging then
141into a final image (binman).
142
Simon Glassfa888282021-03-18 20:25:14 +1300143
144Using binman
145============
Simon Glass2574ef62016-11-25 20:15:51 -0700146
147Example use of binman in U-Boot
148-------------------------------
149
150Binman aims to replace some of the ad-hoc image creation in the U-Boot
151build system.
152
153Consider sunxi. It has the following steps:
154
Simon Glass75ead662021-03-18 20:25:13 +1300155 #. It uses a custom mksunxiboot tool to build an SPL image called
156 sunxi-spl.bin. This should probably move into mkimage.
Simon Glass2574ef62016-11-25 20:15:51 -0700157
Simon Glass75ead662021-03-18 20:25:13 +1300158 #. It uses mkimage to package U-Boot into a legacy image file (so that it can
159 hold the load and execution address) called u-boot.img.
Simon Glass2574ef62016-11-25 20:15:51 -0700160
Simon Glass75ead662021-03-18 20:25:13 +1300161 #. It builds a final output image called u-boot-sunxi-with-spl.bin which
162 consists of sunxi-spl.bin, some padding and u-boot.img.
Simon Glass2574ef62016-11-25 20:15:51 -0700163
164Binman is intended to replace the last step. The U-Boot build system builds
165u-boot.bin and sunxi-spl.bin. Binman can then take over creation of
Simon Glass243c2c12022-02-08 11:49:54 -0700166sunxi-spl.bin by calling mksunxiboot or mkimage. In any case, it would then
167create the image from the component parts.
Simon Glass2574ef62016-11-25 20:15:51 -0700168
169This simplifies the U-Boot Makefile somewhat, since various pieces of logic
170can be replaced by a call to binman.
171
172
173Example use of binman for x86
174-----------------------------
175
176In most cases x86 images have a lot of binary blobs, 'black-box' code
177provided by Intel which must be run for the platform to work. Typically
178these blobs are not relocatable and must be placed at fixed areas in the
Michael Heimpold55c822d2018-08-22 22:01:24 +0200179firmware image.
Simon Glass2574ef62016-11-25 20:15:51 -0700180
181Currently this is handled by ifdtool, which places microcode, FSP, MRC, VGA
182BIOS, reference code and Intel ME binaries into a u-boot.rom file.
183
184Binman is intended to replace all of this, with ifdtool left to handle only
185the configuration of the Intel-format descriptor.
186
187
Simon Glass7a7874f2022-01-09 20:13:48 -0700188Installing binman
189-----------------
Simon Glass2574ef62016-11-25 20:15:51 -0700190
Simon Glass75ead662021-03-18 20:25:13 +1300191First install prerequisites, e.g::
Simon Glass567b6822019-07-08 13:18:35 -0600192
Simon Glass75ead662021-03-18 20:25:13 +1300193 sudo apt-get install python-pyelftools python3-pyelftools lzma-alone \
194 liblz4-tool
Simon Glass567b6822019-07-08 13:18:35 -0600195
Simon Glass7a7874f2022-01-09 20:13:48 -0700196You can run binman directly if you put it on your PATH. But if you want to
197install into your `~/.local` Python directory, use::
198
199 pip install tools/patman tools/dtoc tools/binman
200
201Note that binman makes use of libraries from patman and dtoc, which is why these
202need to be installed. Also you need `libfdt` and `pylibfdt` which can be
203installed like this::
204
205 git clone git://git.kernel.org/pub/scm/utils/dtc/dtc.git
206 cd dtc
207 pip install .
208 make NO_PYTHON=1 install
209
210This installs the `libfdt.so` library into `~/lib` so you can use
211`LD_LIBRARY_PATH=~/lib` when running binman. If you want to install it in the
212system-library directory, replace the last line with::
213
214 make NO_PYTHON=1 PREFIX=/ install
215
216Running binman
217--------------
218
Simon Glass75ead662021-03-18 20:25:13 +1300219Type::
Simon Glass2574ef62016-11-25 20:15:51 -0700220
Simon Glass75ead662021-03-18 20:25:13 +1300221 binman build -b <board_name>
Simon Glass2574ef62016-11-25 20:15:51 -0700222
223to build an image for a board. The board name is the same name used when
224configuring U-Boot (e.g. for sandbox_defconfig the board name is 'sandbox').
225Binman assumes that the input files for the build are in ../b/<board_name>.
226
Simon Glass75ead662021-03-18 20:25:13 +1300227Or you can specify this explicitly::
Simon Glass2574ef62016-11-25 20:15:51 -0700228
Simon Glass75ead662021-03-18 20:25:13 +1300229 binman build -I <build_path>
Simon Glass2574ef62016-11-25 20:15:51 -0700230
231where <build_path> is the build directory containing the output of the U-Boot
232build.
233
234(Future work will make this more configurable)
235
236In either case, binman picks up the device tree file (u-boot.dtb) and looks
237for its instructions in the 'binman' node.
238
239Binman has a few other options which you can see by running 'binman -h'.
240
241
Simon Glass4b94ac92017-11-12 21:52:06 -0700242Enabling binman for a board
243---------------------------
244
Simon Glass774b23f2021-03-18 20:25:17 +1300245At present binman is invoked from a rule in the main Makefile. You should be
246able to enable CONFIG_BINMAN to enable this rule.
Simon Glass4b94ac92017-11-12 21:52:06 -0700247
Simon Glass774b23f2021-03-18 20:25:17 +1300248The output file is typically named image.bin and is located in the output
249directory. If input files are needed to you add these to INPUTS-y either in the
250main Makefile or in a config.mk file in your arch subdirectory.
Simon Glass4b94ac92017-11-12 21:52:06 -0700251
252Once binman is executed it will pick up its instructions from a device-tree
253file, typically <soc>-u-boot.dtsi, where <soc> is your CONFIG_SYS_SOC value.
254You can use other, more specific CONFIG options - see 'Automatic .dtsi
255inclusion' below.
256
257
Simon Glassfa888282021-03-18 20:25:14 +1300258Access to binman entry offsets at run time (symbols)
259----------------------------------------------------
260
261Binman assembles images and determines where each entry is placed in the image.
262This information may be useful to U-Boot at run time. For example, in SPL it
263is useful to be able to find the location of U-Boot so that it can be executed
264when SPL is finished.
265
266Binman allows you to declare symbols in the SPL image which are filled in
267with their correct values during the build. For example::
268
269 binman_sym_declare(ulong, u_boot_any, image_pos);
270
271declares a ulong value which will be assigned to the image-pos of any U-Boot
272image (u-boot.bin, u-boot.img, u-boot-nodtb.bin) that is present in the image.
273You can access this value with something like::
274
275 ulong u_boot_offset = binman_sym(ulong, u_boot_any, image_pos);
276
277Thus u_boot_offset will be set to the image-pos of U-Boot in memory, assuming
278that the whole image has been loaded, or is available in flash. You can then
279jump to that address to start U-Boot.
280
281At present this feature is only supported in SPL and TPL. In principle it is
282possible to fill in such symbols in U-Boot proper, as well, but a future C
283library is planned for this instead, to read from the device tree.
284
285As well as image-pos, it is possible to read the size of an entry and its
286offset (which is the start position of the entry within its parent).
287
288A small technical note: Binman automatically adds the base address of the image
289(i.e. __image_copy_start) to the value of the image-pos symbol, so that when the
290image is loaded to its linked address, the value will be correct and actually
291point into the image.
292
293For example, say SPL is at the start of the image and linked to start at address
29480108000. If U-Boot's image-pos is 0x8000 then binman will write an image-pos
295for U-Boot of 80110000 into the SPL binary, since it assumes the image is loaded
296to 80108000, with SPL at 80108000 and U-Boot at 80110000.
297
298For x86 devices (with the end-at-4gb property) this base address is not added
299since it is assumed that images are XIP and the offsets already include the
300address.
301
302
303Access to binman entry offsets at run time (fdt)
304------------------------------------------------
305
306Binman can update the U-Boot FDT to include the final position and size of
307each entry in the images it processes. The option to enable this is -u and it
308causes binman to make sure that the 'offset', 'image-pos' and 'size' properties
309are set correctly for every entry. Since it is not necessary to specify these in
310the image definition, binman calculates the final values and writes these to
311the device tree. These can be used by U-Boot at run-time to find the location
312of each entry.
313
314Alternatively, an FDT map entry can be used to add a special FDT containing
315just the information about the image. This is preceded by a magic string so can
316be located anywhere in the image. An image header (typically at the start or end
317of the image) can be used to point to the FDT map. See fdtmap and image-header
318entries for more information.
319
320
321Map files
322---------
323
324The -m option causes binman to output a .map file for each image that it
325generates. This shows the offset and size of each entry. For example::
326
327 Offset Size Name
328 00000000 00000028 main-section
329 00000000 00000010 section@0
330 00000000 00000004 u-boot
331 00000010 00000010 section@1
332 00000000 00000004 u-boot
333
334This shows a hierarchical image with two sections, each with a single entry. The
335offsets of the sections are absolute hex byte offsets within the image. The
336offsets of the entries are relative to their respective sections. The size of
337each entry is also shown, in bytes (hex). The indentation shows the entries
338nested inside their sections.
339
340
341Passing command-line arguments to entries
342-----------------------------------------
343
344Sometimes it is useful to pass binman the value of an entry property from the
345command line. For example some entries need access to files and it is not
346always convenient to put these filenames in the image definition (device tree).
347
Bin Meng1fa2b7c2021-05-10 20:23:30 +0800348The -a option supports this::
Simon Glassfa888282021-03-18 20:25:14 +1300349
Bin Meng1fa2b7c2021-05-10 20:23:30 +0800350 -a <prop>=<value>
Simon Glassfa888282021-03-18 20:25:14 +1300351
352where::
353
354 <prop> is the property to set
355 <value> is the value to set it to
356
357Not all properties can be provided this way. Only some entries support it,
358typically for filenames.
359
360
Simon Glass2574ef62016-11-25 20:15:51 -0700361Image description format
Simon Glassfa888282021-03-18 20:25:14 +1300362========================
Simon Glass2574ef62016-11-25 20:15:51 -0700363
364The binman node is called 'binman'. An example image description is shown
Simon Glass75ead662021-03-18 20:25:13 +1300365below::
Simon Glass2574ef62016-11-25 20:15:51 -0700366
Simon Glass75ead662021-03-18 20:25:13 +1300367 binman {
368 filename = "u-boot-sunxi-with-spl.bin";
369 pad-byte = <0xff>;
370 blob {
371 filename = "spl/sunxi-spl.bin";
372 };
373 u-boot {
374 offset = <CONFIG_SPL_PAD_TO>;
375 };
376 };
Simon Glass2574ef62016-11-25 20:15:51 -0700377
378
379This requests binman to create an image file called u-boot-sunxi-with-spl.bin
380consisting of a specially formatted SPL (spl/sunxi-spl.bin, built by the
381normal U-Boot Makefile), some 0xff padding, and a U-Boot legacy image. The
382padding comes from the fact that the second binary is placed at
383CONFIG_SPL_PAD_TO. If that line were omitted then the U-Boot binary would
384immediately follow the SPL binary.
385
386The binman node describes an image. The sub-nodes describe entries in the
387image. Each entry represents a region within the overall image. The name of
388the entry (blob, u-boot) tells binman what to put there. For 'blob' we must
389provide a filename. For 'u-boot', binman knows that this means 'u-boot.bin'.
390
391Entries are normally placed into the image sequentially, one after the other.
392The image size is the total size of all entries. As you can see, you can
Simon Glasse8561af2018-08-01 15:22:37 -0600393specify the start offset of an entry using the 'offset' property.
Simon Glass2574ef62016-11-25 20:15:51 -0700394
395Note that due to a device tree requirement, all entries must have a unique
396name. If you want to put the same binary in the image multiple times, you can
397use any unique name, with the 'type' property providing the type.
398
399The attributes supported for entries are described below.
400
Simon Glasse8561af2018-08-01 15:22:37 -0600401offset:
Simon Glass75ead662021-03-18 20:25:13 +1300402 This sets the offset of an entry within the image or section containing
403 it. The first byte of the image is normally at offset 0. If 'offset' is
404 not provided, binman sets it to the end of the previous region, or the
405 start of the image's entry area (normally 0) if there is no previous
406 region.
Simon Glass2574ef62016-11-25 20:15:51 -0700407
408align:
Simon Glass75ead662021-03-18 20:25:13 +1300409 This sets the alignment of the entry. The entry offset is adjusted
410 so that the entry starts on an aligned boundary within the containing
411 section or image. For example 'align = <16>' means that the entry will
412 start on a 16-byte boundary. This may mean that padding is added before
413 the entry. The padding is part of the containing section but is not
414 included in the entry, meaning that an empty space may be created before
415 the entry starts. Alignment should be a power of 2. If 'align' is not
416 provided, no alignment is performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700417
418size:
Simon Glass75ead662021-03-18 20:25:13 +1300419 This sets the size of the entry. The contents will be padded out to
420 this size. If this is not provided, it will be set to the size of the
421 contents.
Simon Glass2574ef62016-11-25 20:15:51 -0700422
423pad-before:
Simon Glass75ead662021-03-18 20:25:13 +1300424 Padding before the contents of the entry. Normally this is 0, meaning
425 that the contents start at the beginning of the entry. This can be used
426 to offset the entry contents a little. While this does not affect the
427 contents of the entry within binman itself (the padding is performed
428 only when its parent section is assembled), the end result will be that
429 the entry starts with the padding bytes, so may grow. Defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700430
431pad-after:
Simon Glass75ead662021-03-18 20:25:13 +1300432 Padding after the contents of the entry. Normally this is 0, meaning
433 that the entry ends at the last byte of content (unless adjusted by
434 other properties). This allows room to be created in the image for
435 this entry to expand later. While this does not affect the contents of
436 the entry within binman itself (the padding is performed only when its
437 parent section is assembled), the end result will be that the entry ends
438 with the padding bytes, so may grow. Defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700439
440align-size:
Simon Glass75ead662021-03-18 20:25:13 +1300441 This sets the alignment of the entry size. For example, to ensure
442 that the size of an entry is a multiple of 64 bytes, set this to 64.
443 While this does not affect the contents of the entry within binman
444 itself (the padding is performed only when its parent section is
445 assembled), the end result is that the entry ends with the padding
446 bytes, so may grow. If 'align-size' is not provided, no alignment is
447 performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700448
449align-end:
Simon Glass75ead662021-03-18 20:25:13 +1300450 This sets the alignment of the end of an entry with respect to the
451 containing section. Some entries require that they end on an alignment
452 boundary, regardless of where they start. This does not move the start
453 of the entry, so the contents of the entry will still start at the
454 beginning. But there may be padding at the end. While this does not
455 affect the contents of the entry within binman itself (the padding is
456 performed only when its parent section is assembled), the end result
457 is that the entry ends with the padding bytes, so may grow.
458 If 'align-end' is not provided, no alignment is performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700459
460filename:
Simon Glass75ead662021-03-18 20:25:13 +1300461 For 'blob' types this provides the filename containing the binary to
462 put into the entry. If binman knows about the entry type (like
463 u-boot-bin), then there is no need to specify this.
Simon Glass2574ef62016-11-25 20:15:51 -0700464
465type:
Simon Glass75ead662021-03-18 20:25:13 +1300466 Sets the type of an entry. This defaults to the entry name, but it is
467 possible to use any name, and then add (for example) 'type = "u-boot"'
468 to specify the type.
Simon Glass2574ef62016-11-25 20:15:51 -0700469
Simon Glasse8561af2018-08-01 15:22:37 -0600470offset-unset:
Simon Glass75ead662021-03-18 20:25:13 +1300471 Indicates that the offset of this entry should not be set by placing
472 it immediately after the entry before. Instead, is set by another
473 entry which knows where this entry should go. When this boolean
474 property is present, binman will give an error if another entry does
475 not set the offset (with the GetOffsets() method).
Simon Glass4ba8d502018-06-01 09:38:17 -0600476
Simon Glass9dcc8612018-08-01 15:22:42 -0600477image-pos:
Simon Glass75ead662021-03-18 20:25:13 +1300478 This cannot be set on entry (or at least it is ignored if it is), but
479 with the -u option, binman will set it to the absolute image position
480 for each entry. This makes it easy to find out exactly where the entry
481 ended up in the image, regardless of parent sections, etc.
Simon Glass9dcc8612018-08-01 15:22:42 -0600482
Simon Glassdd156a42022-03-05 20:18:59 -0700483extend-size:
484 Extend the size of this entry to fit available space. This space is only
Simon Glass75ead662021-03-18 20:25:13 +1300485 limited by the size of the image/section and the position of the next
486 entry.
Simon Glass2574ef62016-11-25 20:15:51 -0700487
Simon Glassaa2fcf92019-07-08 14:25:30 -0600488compress:
Simon Glass75ead662021-03-18 20:25:13 +1300489 Sets the compression algortihm to use (for blobs only). See the entry
490 documentation for details.
Simon Glassaa2fcf92019-07-08 14:25:30 -0600491
Simon Glassa820af72020-09-06 10:39:09 -0600492missing-msg:
Simon Glass75ead662021-03-18 20:25:13 +1300493 Sets the tag of the message to show if this entry is missing. This is
494 used for external blobs. When they are missing it is helpful to show
495 information about what needs to be fixed. See missing-blob-help for the
496 message for each tag.
Simon Glassa820af72020-09-06 10:39:09 -0600497
Simon Glass7098b7f2021-03-21 18:24:30 +1300498no-expanded:
499 By default binman substitutes entries with expanded versions if available,
500 so that a `u-boot` entry type turns into `u-boot-expanded`, for example. The
501 `--no-expanded` command-line option disables this globally. The
502 `no-expanded` property disables this just for a single entry. Put the
503 `no-expanded` boolean property in the node to select this behaviour.
504
Simon Glass80045812018-09-14 04:57:30 -0600505The attributes supported for images and sections are described below. Several
506are similar to those for entries.
Simon Glass2574ef62016-11-25 20:15:51 -0700507
508size:
Simon Glass75ead662021-03-18 20:25:13 +1300509 Sets the image size in bytes, for example 'size = <0x100000>' for a
510 1MB image.
Simon Glass2574ef62016-11-25 20:15:51 -0700511
Simon Glasseb023b32019-04-25 21:58:39 -0600512offset:
Simon Glass75ead662021-03-18 20:25:13 +1300513 This is similar to 'offset' in entries, setting the offset of a section
514 within the image or section containing it. The first byte of the section
515 is normally at offset 0. If 'offset' is not provided, binman sets it to
516 the end of the previous region, or the start of the image's entry area
517 (normally 0) if there is no previous region.
Simon Glasseb023b32019-04-25 21:58:39 -0600518
Simon Glass2574ef62016-11-25 20:15:51 -0700519align-size:
Simon Glass75ead662021-03-18 20:25:13 +1300520 This sets the alignment of the image size. For example, to ensure
521 that the image ends on a 512-byte boundary, use 'align-size = <512>'.
522 If 'align-size' is not provided, no alignment is performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700523
524pad-before:
Simon Glass75ead662021-03-18 20:25:13 +1300525 This sets the padding before the image entries. The first entry will
526 be positioned after the padding. This defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700527
528pad-after:
Simon Glass75ead662021-03-18 20:25:13 +1300529 This sets the padding after the image entries. The padding will be
530 placed after the last entry. This defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700531
532pad-byte:
Simon Glass75ead662021-03-18 20:25:13 +1300533 This specifies the pad byte to use when padding in the image. It
534 defaults to 0. To use 0xff, you would add 'pad-byte = <0xff>'.
Simon Glass2574ef62016-11-25 20:15:51 -0700535
536filename:
Simon Glass75ead662021-03-18 20:25:13 +1300537 This specifies the image filename. It defaults to 'image.bin'.
Simon Glass2574ef62016-11-25 20:15:51 -0700538
Simon Glasse8561af2018-08-01 15:22:37 -0600539sort-by-offset:
Simon Glass75ead662021-03-18 20:25:13 +1300540 This causes binman to reorder the entries as needed to make sure they
541 are in increasing positional order. This can be used when your entry
542 order may not match the positional order. A common situation is where
543 the 'offset' properties are set by CONFIG options, so their ordering is
544 not known a priori.
Simon Glass2574ef62016-11-25 20:15:51 -0700545
Simon Glass75ead662021-03-18 20:25:13 +1300546 This is a boolean property so needs no value. To enable it, add a
547 line 'sort-by-offset;' to your description.
Simon Glass2574ef62016-11-25 20:15:51 -0700548
549multiple-images:
Simon Glass75ead662021-03-18 20:25:13 +1300550 Normally only a single image is generated. To create more than one
551 image, put this property in the binman node. For example, this will
552 create image1.bin containing u-boot.bin, and image2.bin containing
553 both spl/u-boot-spl.bin and u-boot.bin::
Simon Glass2574ef62016-11-25 20:15:51 -0700554
Simon Glass75ead662021-03-18 20:25:13 +1300555 binman {
556 multiple-images;
557 image1 {
558 u-boot {
559 };
560 };
Simon Glass2574ef62016-11-25 20:15:51 -0700561
Simon Glass75ead662021-03-18 20:25:13 +1300562 image2 {
563 spl {
564 };
565 u-boot {
566 };
567 };
568 };
Simon Glass2574ef62016-11-25 20:15:51 -0700569
570end-at-4gb:
Simon Glass75ead662021-03-18 20:25:13 +1300571 For x86 machines the ROM offsets start just before 4GB and extend
572 up so that the image finished at the 4GB boundary. This boolean
573 option can be enabled to support this. The image size must be
574 provided so that binman knows when the image should start. For an
575 8MB ROM, the offset of the first entry would be 0xfff80000 with
576 this option, instead of 0 without this option.
Simon Glass2574ef62016-11-25 20:15:51 -0700577
Jagdish Gediya0fb978c2018-09-03 21:35:07 +0530578skip-at-start:
Simon Glass75ead662021-03-18 20:25:13 +1300579 This property specifies the entry offset of the first entry.
Jagdish Gediya0fb978c2018-09-03 21:35:07 +0530580
Simon Glass75ead662021-03-18 20:25:13 +1300581 For PowerPC mpc85xx based CPU, CONFIG_SYS_TEXT_BASE is the entry
582 offset of the first entry. It can be 0xeff40000 or 0xfff40000 for
583 nor flash boot, 0x201000 for sd boot etc.
Jagdish Gediya0fb978c2018-09-03 21:35:07 +0530584
Simon Glass75ead662021-03-18 20:25:13 +1300585 'end-at-4gb' property is not applicable where CONFIG_SYS_TEXT_BASE +
586 Image size != 4gb.
Simon Glass2574ef62016-11-25 20:15:51 -0700587
Simon Glassf427c5f2021-03-21 18:24:33 +1300588align-default:
589 Specifies the default alignment for entries in this section, if they do
590 not specify an alignment. Note that this only applies to top-level entries
591 in the section (direct subentries), not any subentries of those entries.
592 This means that each section must specify its own default alignment, if
593 required.
594
Simon Glass2574ef62016-11-25 20:15:51 -0700595Examples of the above options can be found in the tests. See the
596tools/binman/test directory.
597
Simon Glasse76a3e62018-06-01 09:38:11 -0600598It is possible to have the same binary appear multiple times in the image,
599either by using a unit number suffix (u-boot@0, u-boot@1) or by using a
600different name for each and specifying the type with the 'type' attribute.
601
Simon Glass2574ef62016-11-25 20:15:51 -0700602
Michael Heimpold55c822d2018-08-22 22:01:24 +0200603Sections and hierachical images
Simon Glassa91e1152018-06-01 09:38:16 -0600604-------------------------------
605
606Sometimes it is convenient to split an image into several pieces, each of which
607contains its own set of binaries. An example is a flash device where part of
608the image is read-only and part is read-write. We can set up sections for each
609of these, and place binaries in them independently. The image is still produced
610as a single output file.
611
612This feature provides a way of creating hierarchical images. For example here
Simon Glass1e324002018-06-01 09:38:19 -0600613is an example image with two copies of U-Boot. One is read-only (ro), intended
614to be written only in the factory. Another is read-write (rw), so that it can be
Simon Glassa91e1152018-06-01 09:38:16 -0600615upgraded in the field. The sizes are fixed so that the ro/rw boundary is known
Simon Glass75ead662021-03-18 20:25:13 +1300616and can be programmed::
Simon Glassa91e1152018-06-01 09:38:16 -0600617
Simon Glass75ead662021-03-18 20:25:13 +1300618 binman {
619 section@0 {
620 read-only;
621 name-prefix = "ro-";
622 size = <0x100000>;
623 u-boot {
624 };
625 };
626 section@1 {
627 name-prefix = "rw-";
628 size = <0x100000>;
629 u-boot {
630 };
631 };
632 };
Simon Glassa91e1152018-06-01 09:38:16 -0600633
634This image could be placed into a SPI flash chip, with the protection boundary
635set at 1MB.
636
637A few special properties are provided for sections:
638
639read-only:
Simon Glass75ead662021-03-18 20:25:13 +1300640 Indicates that this section is read-only. This has no impact on binman's
641 operation, but his property can be read at run time.
Simon Glassa91e1152018-06-01 09:38:16 -0600642
Simon Glass3b78d532018-06-01 09:38:21 -0600643name-prefix:
Simon Glass75ead662021-03-18 20:25:13 +1300644 This string is prepended to all the names of the binaries in the
645 section. In the example above, the 'u-boot' binaries which actually be
646 renamed to 'ro-u-boot' and 'rw-u-boot'. This can be useful to
647 distinguish binaries with otherwise identical names.
Simon Glass3b78d532018-06-01 09:38:21 -0600648
Simon Glassa91e1152018-06-01 09:38:16 -0600649
Simon Glassfb30e292019-07-20 12:23:51 -0600650Image Properties
651----------------
652
653Image nodes act like sections but also have a few extra properties:
654
655filename:
Simon Glass75ead662021-03-18 20:25:13 +1300656 Output filename for the image. This defaults to image.bin (or in the
657 case of multiple images <nodename>.bin where <nodename> is the name of
658 the image node.
Simon Glassfb30e292019-07-20 12:23:51 -0600659
660allow-repack:
Simon Glass75ead662021-03-18 20:25:13 +1300661 Create an image that can be repacked. With this option it is possible
662 to change anything in the image after it is created, including updating
663 the position and size of image components. By default this is not
664 permitted since it is not possibly to know whether this might violate a
665 constraint in the image description. For example, if a section has to
666 increase in size to hold a larger binary, that might cause the section
667 to fall out of its allow region (e.g. read-only portion of flash).
Simon Glassfb30e292019-07-20 12:23:51 -0600668
Simon Glass75ead662021-03-18 20:25:13 +1300669 Adding this property causes the original offset and size values in the
670 image description to be stored in the FDT and fdtmap.
Simon Glassfb30e292019-07-20 12:23:51 -0600671
672
Simon Glassfa888282021-03-18 20:25:14 +1300673Hashing Entries
674---------------
675
676It is possible to ask binman to hash the contents of an entry and write that
677value back to the device-tree node. For example::
678
679 binman {
680 u-boot {
681 hash {
682 algo = "sha256";
683 };
684 };
685 };
686
687Here, a new 'value' property will be written to the 'hash' node containing
688the hash of the 'u-boot' entry. Only SHA256 is supported at present. Whole
689sections can be hased if desired, by adding the 'hash' node to the section.
690
691The has value can be chcked at runtime by hashing the data actually read and
692comparing this has to the value in the device tree.
693
694
695Expanded entries
696----------------
697
698Binman automatically replaces 'u-boot' with an expanded version of that, i.e.
699'u-boot-expanded'. This means that when you write::
700
701 u-boot {
702 };
703
704you actually get::
705
706 u-boot {
707 type = "u-boot-expanded';
708 };
709
710which in turn expands to::
711
712 u-boot {
713 type = "section";
714
715 u-boot-nodtb {
716 };
717
718 u-boot-dtb {
719 };
720 };
721
722U-Boot's various phase binaries actually comprise two or three pieces.
723For example, u-boot.bin has the executable followed by a devicetree.
724
725With binman we want to be able to update that devicetree with full image
726information so that it is accessible to the executable. This is tricky
727if it is not clear where the devicetree starts.
728
729The above feature ensures that the devicetree is clearly separated from the
730U-Boot executable and can be updated separately by binman as needed. It can be
731disabled with the --no-expanded flag if required.
732
Heiko Thieryd5894562022-01-24 08:11:01 +0100733The same applies for u-boot-spl and u-boot-tpl. In those cases, the expansion
Simon Glassfa888282021-03-18 20:25:14 +1300734includes the BSS padding, so for example::
735
736 spl {
737 type = "u-boot-spl"
738 };
739
740you actually get::
741
742 spl {
743 type = "u-boot-expanded';
744 };
745
746which in turn expands to::
747
748 spl {
749 type = "section";
750
751 u-boot-spl-nodtb {
752 };
753
754 u-boot-spl-bss-pad {
755 };
756
757 u-boot-spl-dtb {
758 };
759 };
760
761Of course we should not expand SPL if it has no devicetree. Also if the BSS
762padding is not needed (because BSS is in RAM as with CONFIG_SPL_SEPARATE_BSS),
763the 'u-boot-spl-bss-pad' subnode should not be created. The use of the expaned
764entry type is controlled by the UseExpanded() method. In the SPL case it checks
765the 'spl-dtb' entry arg, which is 'y' or '1' if SPL has a devicetree.
766
767For the BSS case, a 'spl-bss-pad' entry arg controls whether it is present. All
768entry args are provided by the U-Boot Makefile.
769
770
771Compression
772-----------
773
774Binman support compression for 'blob' entries (those of type 'blob' and
775derivatives). To enable this for an entry, add a 'compress' property::
776
777 blob {
778 filename = "datafile";
779 compress = "lz4";
780 };
781
782The entry will then contain the compressed data, using the 'lz4' compression
783algorithm. Currently this is the only one that is supported. The uncompressed
784size is written to the node in an 'uncomp-size' property, if -u is used.
785
786Compression is also supported for sections. In that case the entire section is
787compressed in one block, including all its contents. This means that accessing
788an entry from the section required decompressing the entire section. Also, the
789size of a section indicates the space that it consumes in its parent section
790(and typically the image). With compression, the section may contain more data,
791and the uncomp-size property indicates that, as above. The contents of the
792section is compressed first, before any padding is added. This ensures that the
793padding itself is not compressed, which would be a waste of time.
794
795
796Automatic .dtsi inclusion
797-------------------------
798
799It is sometimes inconvenient to add a 'binman' node to the .dts file for each
800board. This can be done by using #include to bring in a common file. Another
801approach supported by the U-Boot build system is to automatically include
802a common header. You can then put the binman node (and anything else that is
803specific to U-Boot, such as u-boot,dm-pre-reloc properies) in that header
804file.
805
806Binman will search for the following files in arch/<arch>/dts::
807
808 <dts>-u-boot.dtsi where <dts> is the base name of the .dts file
809 <CONFIG_SYS_SOC>-u-boot.dtsi
810 <CONFIG_SYS_CPU>-u-boot.dtsi
811 <CONFIG_SYS_VENDOR>-u-boot.dtsi
812 u-boot.dtsi
813
814U-Boot will only use the first one that it finds. If you need to include a
815more general file you can do that from the more specific file using #include.
Simon Glass0a1b3b62021-12-16 20:59:23 -0700816If you are having trouble figuring out what is going on, you can use
817`DEVICE_TREE_DEBUG=1` with your build::
Simon Glassfa888282021-03-18 20:25:14 +1300818
Simon Glass0a1b3b62021-12-16 20:59:23 -0700819 make DEVICE_TREE_DEBUG=1
820 scripts/Makefile.lib:334: Automatic .dtsi inclusion: options:
821 arch/arm/dts/juno-r2-u-boot.dtsi arch/arm/dts/-u-boot.dtsi
822 arch/arm/dts/armv8-u-boot.dtsi arch/arm/dts/armltd-u-boot.dtsi
823 arch/arm/dts/u-boot.dtsi ... found: "arch/arm/dts/juno-r2-u-boot.dtsi"
Simon Glassfa888282021-03-18 20:25:14 +1300824
825
Simon Glassadfb8492021-11-03 21:09:18 -0600826Updating an ELF file
827====================
828
829For the EFI app, where U-Boot is loaded from UEFI and runs as an app, there is
830no way to update the devicetree after U-Boot is built. Normally this works by
831creating a new u-boot.dtb.out with he updated devicetree, which is automatically
832built into the output image. With ELF this is not possible since the ELF is
833not part of an image, just a stand-along file. We must create an updated ELF
834file with the new devicetree.
835
836This is handled by the --update-fdt-in-elf option. It takes four arguments,
837separated by comma:
838
839 infile - filename of input ELF file, e.g. 'u-boot's
840 outfile - filename of output ELF file, e.g. 'u-boot.out'
841 begin_sym - symbol at the start of the embedded devicetree, e.g.
842 '__dtb_dt_begin'
843 end_sym - symbol at the start of the embedded devicetree, e.g.
844 '__dtb_dt_end'
845
846When this flag is used, U-Boot does all the normal packaging, but as an
847additional step, it creates a new ELF file with the new devicetree embedded in
848it.
849
850If logging is enabled you will see a message like this::
851
852 Updating file 'u-boot' with data length 0x400a (16394) between symbols
853 '__dtb_dt_begin' and '__dtb_dt_end'
854
855There must be enough space for the updated devicetree. If not, an error like
856the following is produced::
857
858 ValueError: Not enough space in 'u-boot' for data length 0x400a (16394);
859 size is 0x1744 (5956)
860
861
Simon Glass7a61c6b2018-07-17 13:25:37 -0600862Entry Documentation
Simon Glass774b23f2021-03-18 20:25:17 +1300863===================
Simon Glass7a61c6b2018-07-17 13:25:37 -0600864
865For details on the various entry types supported by binman and how to use them,
Simon Glass774b23f2021-03-18 20:25:17 +1300866see entries.rst which is generated from the source code using:
867
868 binman entry-docs >tools/binman/entries.rst
Simon Glass7a61c6b2018-07-17 13:25:37 -0600869
Simon Glass774b23f2021-03-18 20:25:17 +1300870.. toctree::
871 :maxdepth: 2
Simon Glass7a61c6b2018-07-17 13:25:37 -0600872
Simon Glass774b23f2021-03-18 20:25:17 +1300873 entries
874
Simon Glassfa888282021-03-18 20:25:14 +1300875
876Managing images
877===============
Simon Glass7a61c6b2018-07-17 13:25:37 -0600878
Simon Glassb2fd11d2019-07-08 14:25:48 -0600879Listing images
880--------------
881
882It is possible to list the entries in an existing firmware image created by
Simon Glass75ead662021-03-18 20:25:13 +1300883binman, provided that there is an 'fdtmap' entry in the image. For example::
Simon Glassb2fd11d2019-07-08 14:25:48 -0600884
885 $ binman ls -i image.bin
886 Name Image-pos Size Entry-type Offset Uncomp-size
887 ----------------------------------------------------------------------
888 main-section c00 section 0
889 u-boot 0 4 u-boot 0
890 section 5fc section 4
891 cbfs 100 400 cbfs 0
892 u-boot 138 4 u-boot 38
893 u-boot-dtb 180 108 u-boot-dtb 80 3b5
894 u-boot-dtb 500 1ff u-boot-dtb 400 3b5
895 fdtmap 6fc 381 fdtmap 6fc
896 image-header bf8 8 image-header bf8
897
898This shows the hierarchy of the image, the position, size and type of each
899entry, the offset of each entry within its parent and the uncompressed size if
900the entry is compressed.
901
Simon Glass75ead662021-03-18 20:25:13 +1300902It is also possible to list just some files in an image, e.g.::
Simon Glassb2fd11d2019-07-08 14:25:48 -0600903
904 $ binman ls -i image.bin section/cbfs
905 Name Image-pos Size Entry-type Offset Uncomp-size
906 --------------------------------------------------------------------
907 cbfs 100 400 cbfs 0
908 u-boot 138 4 u-boot 38
909 u-boot-dtb 180 108 u-boot-dtb 80 3b5
910
Simon Glass75ead662021-03-18 20:25:13 +1300911or with wildcards::
Simon Glassb2fd11d2019-07-08 14:25:48 -0600912
913 $ binman ls -i image.bin "*cb*" "*head*"
914 Name Image-pos Size Entry-type Offset Uncomp-size
915 ----------------------------------------------------------------------
916 cbfs 100 400 cbfs 0
917 u-boot 138 4 u-boot 38
918 u-boot-dtb 180 108 u-boot-dtb 80 3b5
919 image-header bf8 8 image-header bf8
920
Simon Glassb9028bc2021-11-23 21:09:49 -0700921If an older version of binman is used to list images created by a newer one, it
922is possible that it will contain entry types that are not supported. These still
923show with the correct type, but binman just sees them as blobs (plain binary
924data). Any special features of that etype are not supported by the old binman.
925
Simon Glassb2fd11d2019-07-08 14:25:48 -0600926
Simon Glass980a2842019-07-08 14:25:52 -0600927Extracting files from images
928----------------------------
929
930You can extract files from an existing firmware image created by binman,
Simon Glass75ead662021-03-18 20:25:13 +1300931provided that there is an 'fdtmap' entry in the image. For example::
Simon Glass980a2842019-07-08 14:25:52 -0600932
933 $ binman extract -i image.bin section/cbfs/u-boot
934
935which will write the uncompressed contents of that entry to the file 'u-boot' in
936the current directory. You can also extract to a particular file, in this case
Simon Glass75ead662021-03-18 20:25:13 +1300937u-boot.bin::
Simon Glass980a2842019-07-08 14:25:52 -0600938
939 $ binman extract -i image.bin section/cbfs/u-boot -f u-boot.bin
940
941It is possible to extract all files into a destination directory, which will
Simon Glass75ead662021-03-18 20:25:13 +1300942put files in subdirectories matching the entry hierarchy::
Simon Glass980a2842019-07-08 14:25:52 -0600943
944 $ binman extract -i image.bin -O outdir
945
Simon Glass75ead662021-03-18 20:25:13 +1300946or just a selection::
Simon Glass980a2842019-07-08 14:25:52 -0600947
948 $ binman extract -i image.bin "*u-boot*" -O outdir
949
Simon Glass637958f2021-11-23 21:09:50 -0700950Some entry types have alternative formats, for example fdtmap which allows
951extracted just the devicetree binary without the fdtmap header::
952
953 $ binman extract -i /tmp/b/odroid-c4/image.bin -f out.dtb -F fdt fdtmap
954 $ fdtdump out.dtb
955 /dts-v1/;
956 // magic: 0xd00dfeed
957 // totalsize: 0x8ab (2219)
958 // off_dt_struct: 0x38
959 // off_dt_strings: 0x82c
960 // off_mem_rsvmap: 0x28
961 // version: 17
962 // last_comp_version: 2
963 // boot_cpuid_phys: 0x0
964 // size_dt_strings: 0x7f
965 // size_dt_struct: 0x7f4
966
967 / {
968 image-node = "binman";
969 image-pos = <0x00000000>;
970 size = <0x0011162b>;
971 ...
972
973Use `-F list` to see what alternative formats are available::
974
975 $ binman extract -i /tmp/b/odroid-c4/image.bin -F list
976 Flag (-F) Entry type Description
977 fdt fdtmap Extract the devicetree blob from the fdtmap
978
Simon Glass980a2842019-07-08 14:25:52 -0600979
Simon Glass072959a2019-07-20 12:23:50 -0600980Replacing files in an image
981---------------------------
982
983You can replace files in an existing firmware image created by binman, provided
Simon Glass31cce972021-11-23 21:09:48 -0700984that there is an 'fdtmap' entry in the image. For example::
Simon Glass072959a2019-07-20 12:23:50 -0600985
986 $ binman replace -i image.bin section/cbfs/u-boot
987
988which will write the contents of the file 'u-boot' from the current directory
Simon Glass30033c22019-07-20 12:24:15 -0600989to the that entry, compressing if necessary. If the entry size changes, you must
990add the 'allow-repack' property to the original image before generating it (see
991above), otherwise you will get an error.
Simon Glass072959a2019-07-20 12:23:50 -0600992
Simon Glass75ead662021-03-18 20:25:13 +1300993You can also use a particular file, in this case u-boot.bin::
Simon Glass30033c22019-07-20 12:24:15 -0600994
995 $ binman replace -i image.bin section/cbfs/u-boot -f u-boot.bin
996
997It is possible to replace all files from a source directory which uses the same
Simon Glass75ead662021-03-18 20:25:13 +1300998hierarchy as the entries::
Simon Glass30033c22019-07-20 12:24:15 -0600999
1000 $ binman replace -i image.bin -I indir
1001
1002Files that are missing will generate a warning.
1003
Simon Glass75ead662021-03-18 20:25:13 +13001004You can also replace just a selection of entries::
Simon Glass30033c22019-07-20 12:24:15 -06001005
1006 $ binman replace -i image.bin "*u-boot*" -I indir
1007
Simon Glass072959a2019-07-20 12:23:50 -06001008
Simon Glass233a26a92019-07-08 14:25:49 -06001009Logging
1010-------
1011
1012Binman normally operates silently unless there is an error, in which case it
1013just displays the error. The -D/--debug option can be used to create a full
Simon Glasscaa5f182021-02-06 09:57:28 -07001014backtrace when errors occur. You can use BINMAN_DEBUG=1 when building to select
1015this.
Simon Glass233a26a92019-07-08 14:25:49 -06001016
1017Internally binman logs some output while it is running. This can be displayed
1018by increasing the -v/--verbosity from the default of 1:
1019
1020 0: silent
1021 1: warnings only
1022 2: notices (important messages)
1023 3: info about major operations
1024 4: detailed information about each operation
1025 5: debug (all output)
1026
Simon Glasscaa5f182021-02-06 09:57:28 -07001027You can use BINMAN_VERBOSE=5 (for example) when building to select this.
Simon Glass233a26a92019-07-08 14:25:49 -06001028
Simon Glass72232452016-11-25 20:15:53 -07001029
Simon Glass41424862022-01-09 20:14:12 -07001030Bintools
1031========
1032
1033`Bintool` is the name binman gives to a binary tool which it uses to create and
1034manipulate binaries that binman cannot handle itself. Bintools are often
1035necessary since Binman only supports a subset of the available file formats
1036natively.
1037
1038Many SoC vendors invent ways to load code into their SoC using new file formats,
1039sometimes changing the format with successive SoC generations. Sometimes the
1040tool is available as Open Source. Sometimes it is a pre-compiled binary that
1041must be downloaded from the vendor's website. Sometimes it is available in
1042source form but difficult or slow to build.
1043
1044Even for images that use bintools, binman still assembles the image from its
1045image description. It may handle parts of the image natively and part with
1046various bintools.
1047
1048Binman relies on these tools so provides various features to manage them:
1049
1050- Determining whether the tool is currently installed
1051- Downloading or building the tool
1052- Determining the version of the tool that is installed
1053- Deciding which tools are needed to build an image
1054
1055The Bintool class is an interface to the tool, a thin level of abstration, using
1056Python functions to run the tool for each purpose (e.g. creating a new
1057structure, adding a file to an existing structure) rather than just lists of
1058string arguments.
1059
1060As with external blobs, bintools (which are like 'external' tools) can be
1061missing. When building an image requires a bintool and it is not installed,
1062binman detects this and reports the problem, but continues to build an image.
1063This is useful in CI systems which want to check that everything is correct but
1064don't have access to the bintools.
1065
1066To make this work, all calls to bintools (e.g. with Bintool.run_cmd()) must cope
1067with the tool being missing, i.e. when None is returned, by:
1068
1069- Calling self.record_missing_bintool()
1070- Setting up some fake contents so binman can continue
1071
1072Of course the image will not work, but binman reports which bintools are needed
1073and also provide a way to fetch them.
1074
1075To see the available bintools, use::
1076
1077 binman tool --list
1078
1079To fetch tools which are missing, use::
1080
1081 binman tool --fetch missing
1082
1083You can also use `--fetch all` to fetch all tools or `--fetch <tool>` to fetch
1084a particular tool. Some tools are built from source code, in which case you will
1085need to have at least the `build-essential` and `git` packages installed.
1086
1087Bintool Documentation
1088=====================
1089
1090To provide details on the various bintools supported by binman, bintools.rst is
1091generated from the source code using:
1092
1093 binman bintool-docs >tools/binman/bintools.rst
1094
1095.. toctree::
1096 :maxdepth: 2
1097
1098 bintools
1099
1100
Simon Glassfa888282021-03-18 20:25:14 +13001101Technical details
1102=================
Simon Glass72232452016-11-25 20:15:53 -07001103
Simon Glass2574ef62016-11-25 20:15:51 -07001104Order of image creation
1105-----------------------
1106
1107Image creation proceeds in the following order, for each entry in the image.
1108
Simon Glasse22f8fa2018-07-06 10:27:41 -060011091. AddMissingProperties() - binman can add calculated values to the device
Simon Glasse8561af2018-08-01 15:22:37 -06001110tree as part of its processing, for example the offset and size of each
Simon Glasse22f8fa2018-07-06 10:27:41 -06001111entry. This method adds any properties associated with this, expanding the
1112device tree as needed. These properties can have placeholder values which are
1113set later by SetCalculatedProperties(). By that stage the size of sections
1114cannot be changed (since it would cause the images to need to be repacked),
1115but the correct values can be inserted.
1116
11172. ProcessFdt() - process the device tree information as required by the
Simon Glass92307732018-07-06 10:27:40 -06001118particular entry. This may involve adding or deleting properties. If the
1119processing is complete, this method should return True. If the processing
1120cannot complete because it needs the ProcessFdt() method of another entry to
1121run first, this method should return False, in which case it will be called
1122again later.
1123
Simon Glasse22f8fa2018-07-06 10:27:41 -060011243. GetEntryContents() - the contents of each entry are obtained, normally by
Simon Glass2574ef62016-11-25 20:15:51 -07001125reading from a file. This calls the Entry.ObtainContents() to read the
1126contents. The default version of Entry.ObtainContents() calls
1127Entry.GetDefaultFilename() and then reads that file. So a common mechanism
1128to select a file to read is to override that function in the subclass. The
1129functions must return True when they have read the contents. Binman will
1130retry calling the functions a few times if False is returned, allowing
1131dependencies between the contents of different entries.
1132
Simon Glasse8561af2018-08-01 15:22:37 -060011334. GetEntryOffsets() - calls Entry.GetOffsets() for each entry. This can
Simon Glass2574ef62016-11-25 20:15:51 -07001134return a dict containing entries that need updating. The key should be the
Simon Glasse8561af2018-08-01 15:22:37 -06001135entry name and the value is a tuple (offset, size). This allows an entry to
1136provide the offset and size for other entries. The default implementation
1137of GetEntryOffsets() returns {}.
Simon Glass2574ef62016-11-25 20:15:51 -07001138
Simon Glasse8561af2018-08-01 15:22:37 -060011395. PackEntries() - calls Entry.Pack() which figures out the offset and
1140size of an entry. The 'current' image offset is passed in, and the function
1141returns the offset immediately after the entry being packed. The default
Simon Glass2574ef62016-11-25 20:15:51 -07001142implementation of Pack() is usually sufficient.
1143
Simon Glass2d9570d2020-10-26 17:40:22 -06001144Note: for sections, this also checks that the entries do not overlap, nor extend
1145outside the section. If the section does not have a defined size, the size is
1146set large enough to hold all the entries.
Simon Glass2574ef62016-11-25 20:15:51 -07001147
Simon Glass2d9570d2020-10-26 17:40:22 -060011486. SetImagePos() - sets the image position of every entry. This is the absolute
Simon Glass4b05b2d2019-07-20 12:23:52 -06001149position 'image-pos', as opposed to 'offset' which is relative to the containing
1150section. This must be done after all offsets are known, which is why it is quite
1151late in the ordering.
1152
Simon Glass2d9570d2020-10-26 17:40:22 -060011537. SetCalculatedProperties() - update any calculated properties in the device
Simon Glasse8561af2018-08-01 15:22:37 -06001154tree. This sets the correct 'offset' and 'size' vaues, for example.
Simon Glasse22f8fa2018-07-06 10:27:41 -06001155
Simon Glass2d9570d2020-10-26 17:40:22 -060011568. ProcessEntryContents() - this calls Entry.ProcessContents() on each entry.
Simon Glass2574ef62016-11-25 20:15:51 -07001157The default implementatoin does nothing. This can be overriden to adjust the
1158contents of an entry in some way. For example, it would be possible to create
1159an entry containing a hash of the contents of some other entries. At this
Simon Glasse61b6f62019-07-08 14:25:37 -06001160stage the offset and size of entries should not be adjusted unless absolutely
1161necessary, since it requires a repack (going back to PackEntries()).
Simon Glass2574ef62016-11-25 20:15:51 -07001162
Simon Glass2d9570d2020-10-26 17:40:22 -060011639. ResetForPack() - if the ProcessEntryContents() step failed, in that an entry
Simon Glass4b05b2d2019-07-20 12:23:52 -06001164has changed its size, then there is no alternative but to go back to step 5 and
1165try again, repacking the entries with the updated size. ResetForPack() removes
1166the fixed offset/size values added by binman, so that the packing can start from
1167scratch.
1168
Simon Glass2d9570d2020-10-26 17:40:22 -0600116910. WriteSymbols() - write the value of symbols into the U-Boot SPL binary.
Simon Glasse8561af2018-08-01 15:22:37 -06001170See 'Access to binman entry offsets at run time' below for a description of
Simon Glass29dae672018-07-06 10:27:39 -06001171what happens in this stage.
Simon Glassbe83bc72017-11-13 18:55:05 -07001172
Simon Glass2d9570d2020-10-26 17:40:22 -0600117311. BuildImage() - builds the image and writes it to a file
Simon Glass4b05b2d2019-07-20 12:23:52 -06001174
Simon Glass2d9570d2020-10-26 17:40:22 -0600117512. WriteMap() - writes a text file containing a map of the image. This is the
Simon Glass4b05b2d2019-07-20 12:23:52 -06001176final step.
Simon Glass2574ef62016-11-25 20:15:51 -07001177
1178
Simon Glass6244fa42019-07-08 13:18:28 -06001179External tools
1180--------------
1181
1182Binman can make use of external command-line tools to handle processing of
1183entry contents or to generate entry contents. These tools are executed using
1184the 'tools' module's Run() method. The tools generally must exist on the PATH,
1185but the --toolpath option can be used to specify additional search paths to
1186use. This option can be specified multiple times to add more than one path.
1187
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03001188For some compile tools binman will use the versions specified by commonly-used
1189environment variables like CC and HOSTCC for the C compiler, based on whether
1190the tool's output will be used for the target or for the host machine. If those
1191aren't given, it will also try to derive target-specific versions from the
1192CROSS_COMPILE environment variable during a cross-compilation.
1193
Simon Glass31cce972021-11-23 21:09:48 -07001194If the tool is not available in the path you can use BINMAN_TOOLPATHS to specify
1195a space-separated list of paths to search, e.g.::
1196
1197 BINMAN_TOOLPATHS="/tools/g12a /tools/tegra" binman ...
1198
1199
1200External blobs
1201--------------
1202
1203Binary blobs, even if the source code is available, complicate building
1204firmware. The instructions can involve multiple steps and the binaries may be
1205hard to build or obtain. Binman at least provides a unified description of how
1206to build the final image, no matter what steps are needed to get there.
1207
1208Binman also provides a `blob-ext` entry type that pulls in a binary blob from an
1209external file. If the file is missing, binman can optionally complete the build
1210and just report a warning. Use the `-M/--allow-missing` option to enble this.
1211This is useful in CI systems which want to check that everything is correct but
1212don't have access to the blobs.
1213
1214If the blobs are in a different directory, you can specify this with the `-I`
1215option.
1216
1217For U-Boot, you can use set the BINMAN_INDIRS environment variable to provide a
1218space-separated list of directories to search for binary blobs::
1219
1220 BINMAN_INDIRS="odroid-c4/fip/g12a \
1221 odroid-c4/build/board/hardkernel/odroidc4/firmware \
1222 odroid-c4/build/scp_task" binman ...
Simon Glass6244fa42019-07-08 13:18:28 -06001223
Simon Glass52debad2016-11-25 20:15:59 -07001224Code coverage
1225-------------
1226
1227Binman is a critical tool and is designed to be very testable. Entry
Simon Glassf46732a2019-07-08 14:25:29 -06001228implementations target 100% test coverage. Run 'binman test -T' to check this.
Simon Glass52debad2016-11-25 20:15:59 -07001229
Simon Glass75ead662021-03-18 20:25:13 +13001230To enable Python test coverage on Debian-type distributions (e.g. Ubuntu)::
Simon Glass52debad2016-11-25 20:15:59 -07001231
Simon Glassa16dd6e2019-07-08 13:18:26 -06001232 $ sudo apt-get install python-coverage python3-coverage python-pytest
Simon Glass52debad2016-11-25 20:15:59 -07001233
1234
Simon Glassddd5e1d2022-01-23 12:55:46 -07001235Error messages
1236--------------
1237
1238This section provides some guidance for some of the less obvious error messages
1239produced by binman.
1240
1241
1242Expected __bss_size symbol
1243~~~~~~~~~~~~~~~~~~~~~~~~~~
1244
1245Example::
1246
1247 binman: Node '/binman/u-boot-spl-ddr/u-boot-spl/u-boot-spl-bss-pad':
1248 Expected __bss_size symbol in spl/u-boot-spl
1249
1250This indicates that binman needs the `__bss_size` symbol to be defined in the
1251SPL binary, where `spl/u-boot-spl` is the ELF file containing the symbols. The
1252symbol tells binman the size of the BSS region, in bytes. It needs this to be
1253able to pad the image so that the following entries do not overlap the BSS,
1254which would cause them to be overwritte by variable access in SPL.
1255
1256This symbols is normally defined in the linker script, immediately after
1257_bss_start and __bss_end are defined, like this::
1258
1259 __bss_size = __bss_end - __bss_start;
1260
1261You may need to add it to your linker script if you get this error.
1262
1263
Simon Glass1aeb7512019-05-17 22:00:52 -06001264Concurrent tests
1265----------------
1266
1267Binman tries to run tests concurrently. This means that the tests make use of
1268all available CPUs to run.
1269
Simon Glass75ead662021-03-18 20:25:13 +13001270 To enable this::
Simon Glass1aeb7512019-05-17 22:00:52 -06001271
1272 $ sudo apt-get install python-subunit python3-subunit
1273
1274Use '-P 1' to disable this. It is automatically disabled when code coverage is
1275being used (-T) since they are incompatible.
1276
1277
Simon Glass1c420c92019-07-08 13:18:49 -06001278Debugging tests
1279---------------
1280
1281Sometimes when debugging tests it is useful to keep the input and output
1282directories so they can be examined later. Use -X or --test-preserve-dirs for
1283this.
1284
1285
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03001286Running tests on non-x86 architectures
1287--------------------------------------
1288
1289Binman's tests have been written under the assumption that they'll be run on a
1290x86-like host and there hasn't been an attempt to make them portable yet.
1291However, it's possible to run the tests by cross-compiling to x86.
1292
Simon Glass75ead662021-03-18 20:25:13 +13001293To install an x86 cross-compiler on Debian-type distributions (e.g. Ubuntu)::
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03001294
1295 $ sudo apt-get install gcc-x86-64-linux-gnu
1296
Simon Glass75ead662021-03-18 20:25:13 +13001297Then, you can run the tests under cross-compilation::
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03001298
1299 $ CROSS_COMPILE=x86_64-linux-gnu- binman test -T
1300
1301You can also use gcc-i686-linux-gnu similar to the above.
1302
1303
Simon Glassfa888282021-03-18 20:25:14 +13001304Writing new entries and debugging
1305---------------------------------
Simon Glass2574ef62016-11-25 20:15:51 -07001306
1307The behaviour of entries is defined by the Entry class. All other entries are
1308a subclass of this. An important subclass is Entry_blob which takes binary
1309data from a file and places it in the entry. In fact most entry types are
1310subclasses of Entry_blob.
1311
1312Each entry type is a separate file in the tools/binman/etype directory. Each
1313file contains a class called Entry_<type> where <type> is the entry type.
1314New entry types can be supported by adding new files in that directory.
1315These will automatically be detected by binman when needed.
1316
1317Entry properties are documented in entry.py. The entry subclasses are free
1318to change the values of properties to support special behaviour. For example,
1319when Entry_blob loads a file, it sets content_size to the size of the file.
1320Entry classes can adjust other entries. For example, an entry that knows
Simon Glasse8561af2018-08-01 15:22:37 -06001321where other entries should be positioned can set up those entries' offsets
Simon Glass2574ef62016-11-25 20:15:51 -07001322so they don't need to be set in the binman decription. It can also adjust
1323entry contents.
1324
1325Most of the time such essoteric behaviour is not needed, but it can be
1326essential for complex images.
1327
Simon Glassade2ef62017-12-24 12:12:07 -07001328If you need to specify a particular device-tree compiler to use, you can define
1329the DTC environment variable. This can be useful when the system dtc is too
1330old.
1331
Simon Glasse64a0922018-11-06 15:21:31 -07001332To enable a full backtrace and other debugging features in binman, pass
Simon Glass75ead662021-03-18 20:25:13 +13001333BINMAN_DEBUG=1 to your build::
Simon Glasse64a0922018-11-06 15:21:31 -07001334
Bin Menga089c412019-10-02 19:07:29 -07001335 make qemu-x86_defconfig
Simon Glasse64a0922018-11-06 15:21:31 -07001336 make BINMAN_DEBUG=1
1337
Simon Glass03b1d8f2019-09-25 08:11:11 -06001338To enable verbose logging from binman, base BINMAN_VERBOSE to your build, which
Simon Glass75ead662021-03-18 20:25:13 +13001339adds a -v<level> option to the call to binman::
Simon Glass03b1d8f2019-09-25 08:11:11 -06001340
Bin Menga089c412019-10-02 19:07:29 -07001341 make qemu-x86_defconfig
Simon Glass03b1d8f2019-09-25 08:11:11 -06001342 make BINMAN_VERBOSE=5
1343
Simon Glass2574ef62016-11-25 20:15:51 -07001344
Simon Glass76f496d2021-07-06 10:36:37 -06001345Building sections in parallel
1346-----------------------------
1347
1348By default binman uses multiprocessing to speed up compilation of large images.
1349This works at a section level, with one thread for each entry in the section.
1350This can speed things up if the entries are large and use compression.
1351
1352This feature can be disabled with the '-T' flag, which defaults to a suitable
1353value for your machine. This depends on the Python version, e.g on v3.8 it uses
135412 threads on an 8-core machine. See ConcurrentFutures_ for more details.
1355
1356The special value -T0 selects single-threaded mode, useful for debugging during
1357development, since dealing with exceptions and problems in threads is more
1358difficult. This avoids any use of ThreadPoolExecutor.
1359
1360
Simon Glass6fba35c2022-02-08 11:50:00 -07001361Collecting data for an entry type
1362---------------------------------
1363
1364Some entry types deal with data obtained from others. For example,
1365`Entry_mkimage` calls the `mkimage` tool with data from its subnodes::
1366
1367 mkimage {
1368 args = "-n test -T script";
1369
1370 u-boot-spl {
1371 };
1372
1373 u-boot {
1374 };
1375 };
1376
1377This shows mkimage being passed a file consisting of SPL and U-Boot proper. It
Simon Glass43a98cc2022-03-05 20:18:58 -07001378is created by calling `Entry.collect_contents_to_file()`. Note that in this
1379case, the data is passed to mkimage for processing but does not appear
1380separately in the image. It may not appear at all, depending on what mkimage
1381does. The contents of the `mkimage` entry are entirely dependent on the
1382processing done by the entry, with the provided subnodes (`u-boot-spl` and
1383`u-boot`) simply providing the input data for that processing.
Simon Glass6fba35c2022-02-08 11:50:00 -07001384
1385Note that `Entry.collect_contents_to_file()` simply concatenates the data from
1386the different entries together, with no control over alignment, etc. Another
1387approach is to subclass `Entry_section` so that those features become available,
1388such as `size` and `pad-byte`. Then the contents of the entry can be obtained by
Simon Glass43a98cc2022-03-05 20:18:58 -07001389calling `super().BuildSectionData()` in the entry's BuildSectionData()
1390implementation to get the input data, then write it to a file and process it
1391however is desired.
Simon Glass6fba35c2022-02-08 11:50:00 -07001392
1393There are other ways to obtain data also, depending on the situation. If the
1394entry type is simply signing data which exists elsewhere in the image, then
1395you can use `Entry_collection` as a base class. It lets you use a property
1396called `content` which lists the entries containing data to be processed. This
1397is used by `Entry_vblock`, for example::
1398
1399 u_boot: u-boot {
1400 };
Simon Glass43a98cc2022-03-05 20:18:58 -07001401
Simon Glass6fba35c2022-02-08 11:50:00 -07001402 vblock {
1403 content = <&u_boot &dtb>;
1404 keyblock = "firmware.keyblock";
1405 signprivate = "firmware_data_key.vbprivk";
1406 version = <1>;
1407 kernelkey = "kernel_subkey.vbpubk";
1408 preamble-flags = <1>;
1409 };
1410
1411 dtb: u-boot-dtb {
1412 };
1413
1414which shows an image containing `u-boot` and `u-boot-dtb`, with the `vblock`
1415image collecting their contents to produce input for its signing process,
1416without affecting those entries, which still appear in the final image
1417untouched.
1418
1419Another example is where an entry type needs several independent pieces of input
1420to function. For example, `Entry_fip` allows a number of different binary blobs
1421to be placed in their own individual places in a custom data structure in the
1422output image. To make that work you can add subnodes for each of them and call
1423`Entry.Create()` on each subnode, as `Entry_fip` does. Then the data for each
1424blob can come from any suitable place, such as an `Entry_u_boot` or an
1425`Entry_blob` or anything else::
1426
1427 atf-fip {
1428 fip-hdr-flags = /bits/ 64 <0x123>;
1429 soc-fw {
1430 fip-flags = /bits/ 64 <0x123456789abcdef>;
1431 filename = "bl31.bin";
1432 };
1433
1434 u-boot {
1435 fip-uuid = [fc 65 13 92 4a 5b 11 ec
1436 94 35 ff 2d 1c fc 79 9c];
1437 };
1438 };
1439
1440The `soc-fw` node is a `blob-ext` (i.e. it reads in a named binary file) whereas
1441`u-boot` is a normal entry type. This works because `Entry_fip` selects the
1442`blob-ext` entry type if the node name (here `soc-fw`) is recognised as being
1443a known blob type.
1444
1445When adding new entry types you are encouraged to use subnodes to provide the
Simon Glass43a98cc2022-03-05 20:18:58 -07001446data for processing, unless the `content` approach is more suitable. Consider
1447whether the input entries are contained within (or consumed by) the entry, vs
1448just being 'referenced' by the entry. In the latter case, the `content` approach
1449makes more sense. Ad-hoc properties and other methods of obtaining data are
1450discouraged, since it adds to confusion for users.
Simon Glass6fba35c2022-02-08 11:50:00 -07001451
Simon Glass2574ef62016-11-25 20:15:51 -07001452History / Credits
1453-----------------
1454
1455Binman takes a lot of inspiration from a Chrome OS tool called
1456'cros_bundle_firmware', which I wrote some years ago. That tool was based on
1457a reasonably simple and sound design but has expanded greatly over the
1458years. In particular its handling of x86 images is convoluted.
1459
Simon Glass1e324002018-06-01 09:38:19 -06001460Quite a few lessons have been learned which are hopefully applied here.
Simon Glass2574ef62016-11-25 20:15:51 -07001461
1462
1463Design notes
1464------------
1465
1466On the face of it, a tool to create firmware images should be fairly simple:
1467just find all the input binaries and place them at the right place in the
1468image. The difficulty comes from the wide variety of input types (simple
1469flat binaries containing code, packaged data with various headers), packing
1470requirments (alignment, spacing, device boundaries) and other required
1471features such as hierarchical images.
1472
1473The design challenge is to make it easy to create simple images, while
1474allowing the more complex cases to be supported. For example, for most
1475images we don't much care exactly where each binary ends up, so we should
1476not have to specify that unnecessarily.
1477
1478New entry types should aim to provide simple usage where possible. If new
1479core features are needed, they can be added in the Entry base class.
1480
1481
1482To do
1483-----
1484
1485Some ideas:
Simon Glass75ead662021-03-18 20:25:13 +13001486
Simon Glass2574ef62016-11-25 20:15:51 -07001487- Use of-platdata to make the information available to code that is unable
Simon Glass774b23f2021-03-18 20:25:17 +13001488 to use device tree (such as a very small SPL image). For now, limited info is
1489 available via linker symbols
Simon Glass2574ef62016-11-25 20:15:51 -07001490- Allow easy building of images by specifying just the board name
Simon Glass2574ef62016-11-25 20:15:51 -07001491- Support building an image for a board (-b) more completely, with a
1492 configurable build directory
Simon Glass8100a8e2019-07-20 12:24:02 -06001493- Detect invalid properties in nodes
1494- Sort the fdtmap by offset
Simon Glass01ab2292021-01-06 21:35:12 -07001495- Output temporary files to a different directory
Simon Glasse87009da2022-02-08 11:49:57 -07001496- Rationalise the fdt, fdt_util and pylibfdt modules which currently have some
1497 overlapping and confusing functionality
1498- Update the fdt library to use a better format for Prop.value (the current one
1499 is useful for dtoc but not much else)
1500- Figure out how to make Fdt support changing the node order, so that
1501 Node.AddSubnode() can support adding a node before another, existing node.
1502 Perhaps it should completely regenerate the flat tree?
1503
Simon Glass2574ef62016-11-25 20:15:51 -07001504
1505--
1506Simon Glass <sjg@chromium.org>
15077/7/2016
Simon Glass76f496d2021-07-06 10:36:37 -06001508
1509.. _ConcurrentFutures: https://docs.python.org/3/library/concurrent.futures.html#concurrent.futures.ThreadPoolExecutor