blob: aeea33fddb9505e270b348e7eebdbcf0d159cfa9 [file] [log] [blame]
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,
Simon Glass76d71b02022-08-07 16:33:26 -060045vblocks and the like.
Simon Glass774b23f2021-03-18 20:25:17 +130046
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
Simon Glassbf3e1c62023-02-23 18:18:23 -070098Installation
99------------
100
101You can install binman using::
102
103 pip install binary-manager
104
105The name is chosen since binman conflicts with an existing package.
106
107If you are using binman within the U-Boot tree, it may be easiest to add a
108symlink from your local `~/.bin` directory to `/path/to/tools/binman/binman`.
109
110
Simon Glass2574ef62016-11-25 20:15:51 -0700111Relationship to FIT
112-------------------
113
114FIT is U-Boot's official image format. It supports multiple binaries with
115load / execution addresses, compression. It also supports verification
116through hashing and RSA signatures.
117
118FIT was originally designed to support booting a Linux kernel (with an
119optional ramdisk) and device tree chosen from various options in the FIT.
120Now that U-Boot supports configuration via device tree, it is possible to
121load U-Boot from a FIT, with the device tree chosen by SPL.
122
123Binman considers FIT to be one of the binaries it can place in the image.
124
125Where possible it is best to put as much as possible in the FIT, with binman
126used to deal with cases not covered by FIT. Examples include initial
127execution (since FIT itself does not have an executable header) and dealing
128with device boundaries, such as the read-only/read-write separation in SPI
129flash.
130
131For U-Boot, binman should not be used to create ad-hoc images in place of
132FIT.
133
Simon Glass76d71b02022-08-07 16:33:26 -0600134Note that binman can itself create a FIT. This helps to move mkimage
135invocations out of the Makefile and into binman image descriptions. It also
136helps by removing the need for ad-hoc tools like `make_fit_atf.py`.
137
Simon Glass2574ef62016-11-25 20:15:51 -0700138
139Relationship to mkimage
140-----------------------
141
142The mkimage tool provides a means to create a FIT. Traditionally it has
143needed an image description file: a device tree, like binman, but in a
144different format. More recently it has started to support a '-f auto' mode
145which can generate that automatically.
146
147More relevant to binman, mkimage also permits creation of many SoC-specific
148image types. These can be listed by running 'mkimage -T list'. Examples
149include 'rksd', the Rockchip SD/MMC boot format. The mkimage tool is often
150called from the U-Boot build system for this reason.
151
152Binman considers the output files created by mkimage to be binary blobs
153which it can place in an image. Binman does not replace the mkimage tool or
Michael Heimpold55c822d2018-08-22 22:01:24 +0200154this purpose. It would be possible in some situations to create a new entry
Simon Glass2574ef62016-11-25 20:15:51 -0700155type for the images in mkimage, but this would not add functionality. It
Michael Heimpold55c822d2018-08-22 22:01:24 +0200156seems better to use the mkimage tool to generate binaries and avoid blurring
Simon Glass2574ef62016-11-25 20:15:51 -0700157the boundaries between building input files (mkimage) and packaging then
158into a final image (binman).
159
Simon Glass76d71b02022-08-07 16:33:26 -0600160Note that binman can itself invoke mkimage. This helps to move mkimage
161invocations out of the Makefile and into binman image descriptions.
162
Simon Glassfa888282021-03-18 20:25:14 +1300163
164Using binman
165============
Simon Glass2574ef62016-11-25 20:15:51 -0700166
167Example use of binman in U-Boot
168-------------------------------
169
170Binman aims to replace some of the ad-hoc image creation in the U-Boot
171build system.
172
173Consider sunxi. It has the following steps:
174
Simon Glass75ead662021-03-18 20:25:13 +1300175 #. It uses a custom mksunxiboot tool to build an SPL image called
176 sunxi-spl.bin. This should probably move into mkimage.
Simon Glass2574ef62016-11-25 20:15:51 -0700177
Simon Glass75ead662021-03-18 20:25:13 +1300178 #. It uses mkimage to package U-Boot into a legacy image file (so that it can
179 hold the load and execution address) called u-boot.img.
Simon Glass2574ef62016-11-25 20:15:51 -0700180
Simon Glass75ead662021-03-18 20:25:13 +1300181 #. It builds a final output image called u-boot-sunxi-with-spl.bin which
182 consists of sunxi-spl.bin, some padding and u-boot.img.
Simon Glass2574ef62016-11-25 20:15:51 -0700183
184Binman is intended to replace the last step. The U-Boot build system builds
185u-boot.bin and sunxi-spl.bin. Binman can then take over creation of
Simon Glass243c2c12022-02-08 11:49:54 -0700186sunxi-spl.bin by calling mksunxiboot or mkimage. In any case, it would then
187create the image from the component parts.
Simon Glass2574ef62016-11-25 20:15:51 -0700188
189This simplifies the U-Boot Makefile somewhat, since various pieces of logic
190can be replaced by a call to binman.
191
Simon Glass76d71b02022-08-07 16:33:26 -0600192
193Invoking binman within U-Boot
194-----------------------------
195
196Within U-Boot, binman is invoked by the build system, i.e. when you type 'make'
197or use buildman to build U-Boot. There is no need to run binman independently
198during development. Everything happens automatically and is set up for your
199SoC or board so that binman produced the right things.
200
201The general policy is that the Makefile builds all the binaries in INPUTS-y
202(the 'inputs' rule), then binman is run to produce the final images (the 'all'
203rule).
204
205There should be only one invocation of binman in Makefile, the very last step
206that pulls everything together. At present there are some arch-specific
207invocations as well, but these should be dropped when those architectures are
208converted to use binman properly.
209
210As above, the term 'binary' is used for something in INPUTS-y and 'image' is
211used for the things that binman creates. So the binaries are inputs to the
212image(s) and it is the image that is actually loaded on the board.
213
214Again, at present, there are a number of things created in Makefile which should
215be done by binman (when we get around to it), like `u-boot-ivt.img`,
216`lpc32xx-spl.img`, `u-boot-with-nand-spl.imx`, `u-boot-spl-padx4.sfp` and
217`u-boot-mtk.bin`, just to pick on a few. When completed this will remove about
218400 lines from `Makefile`.
219
220Since binman is invoked only once, it must of course create all the images that
221are needed, in that one invocation. It does this by working through the image
222descriptions one by one, collecting the input binaries, processing them as
223needed and producing the final images.
224
225The same binaries may be used by multiple images. For example binman may be used
226to produce an SD-card image and a SPI-flash image. In this case the binaries
227going into the process are the same, but binman produces slightly different
228images in each case.
229
230For some SoCs, U-Boot is not the only project that produces the necessary
231binaries. For example, ARM Trusted Firmware (ATF) is a project that produces
232binaries which must be incorporate, such as `bl31.elf` or `bl31.bin`. For this
233to work you must have built ATF before you build U-Boot and you must tell U-Boot
234where to find the bl31 image, using the BL31 environment variable.
235
236How do you know how to incorporate ATF? It is handled by the atf-bl31 entry type
237(etype). An etype is an implementation of reading a binary into binman, in this
238case the `bl31.bin` file. When you build U-Boot but do not set the BL31
239environment variable, binman provides a help message, which comes from
240`missing-blob-help`::
241
242 See the documentation for your board. You may need to build ARM Trusted
243 Firmware and build with BL31=/path/to/bl31.bin
244
245The mechanism by which binman is advised of this is also in the Makefile. See
246the `-a atf-bl31-path=${BL31}` piece in `cmd_binman`. This tells binman to
247set the EntryArg `atf-bl31-path` to the value of the `BL31` environment
248variable. Within binman, this EntryArg is picked up by the `Entry_atf_bl31`
249etype. An EntryArg is simply an argument to the entry. The `atf-bl31-path`
250name is documented in :ref:`etype_atf_bl31`.
251
Simon Glass7d959c52022-08-18 02:16:45 -0600252Taking this a little further, when binman is used to create a FIT, it supports
253using an ELF file, e.g. `bl31.elf` and splitting it into separate pieces (with
254`fit,operation = "split-elf"`), each with its own load address.
255
Simon Glass76d71b02022-08-07 16:33:26 -0600256
257Invoking binman outside U-Boot
258------------------------------
259
260While binman is invoked from within the U-Boot build system, it is also possible
261to invoke it separately. This is typically used in a production build system,
262where signing is completed (with real keys) and any missing binaries are
263provided.
264
265For example, for build testing there is no need to provide a real signature,
266nor is there any need to provide a real ATF BL31 binary (for example). These can
267be added later by invoking binman again, providing all the required inputs
268from the first time, plus any that were missing or placeholders.
269
270So in practice binman is often used twice:
271
272- once within the U-Boot build system, for development and testing
273- again outside U-Boot to assembly and final production images
274
275While the same input binaries are used in each case, you will of course you will
276need to create your own binman command line, similar to that in `cmd_binman` in
277the Makefile. You may find the -I and --toolpath options useful. The
278device tree file is provided to binman in binary form, so there is no need to
279have access to the original `.dts` sources.
280
281
282Assembling the image description
283--------------------------------
284
285Since binman uses the device tree for its image description, you can use the
286same files that describe your board's hardware to describe how the image is
287assembled. Typically the images description is in a common file used by all
288boards with a particular SoC (e.g. `imx8mp-u-boot.dtsi`).
289
290Where a particular boards needs to make changes, it can override properties in
291the SoC file, just as it would for any other device tree property. It can also
292add a image that is specific to the board.
293
294Another way to control the image description to make use of CONFIG options in
295the description. For example, if the start offset of a particular entry varies
296by board, you can add a Kconfig for that and reference it in the description::
297
298 u-boot-spl {
299 };
300
301 fit {
302 offset = <CONFIG_SPL_PAD_TO>;
303 ...
304 };
305
306The SoC can provide a default value but boards can override that as needed and
307binman will take care of it.
308
309It is even possible to control which entries appear in the image, by using the
310C preprocessor::
311
312 #ifdef CONFIG_HAVE_MRC
313 intel-mrc {
Tom Riniaefad5d2022-12-04 10:14:07 -0500314 offset = <CFG_X86_MRC_ADDR>;
Simon Glass76d71b02022-08-07 16:33:26 -0600315 };
316 #endif
317
318Only boards which enable `HAVE_MRC` will include this entry.
319
320Obviously a similar approach can be used to control which images are produced,
321with a Kconfig option to enable a SPI image, for example. However there is
322generally no harm in producing an image that is not used. If a board uses MMC
323but not SPI, but the SoC supports booting from both, then both images can be
324produced, with only on or other being used by particular boards. This can help
325reduce the need for having multiple defconfig targets for a board where the
326only difference is the boot media, enabling / disabling secure boot, etc.
327
328Of course you can use the device tree itself to pass any board-specific
329information that is needed by U-Boot at runtime (see binman_syms_ for how to
330make binman insert these values directly into executables like SPL).
331
332There is one more way this can be done: with individual .dtsi files for each
333image supported by the SoC. Then the board `.dts` file can include the ones it
334wants. This is not recommended, since it is likely to be difficult to maintain
335and harder to understand the relationship between the different boards.
336
337
338Producing images for multiple boards
339------------------------------------
340
341When invoked within U-Boot, binman only builds a single set of images, for
342the chosen board. This is set by the `CONFIG_DEFAULT_DEVICE_TREE` option.
343
344However, U-Boot generally builds all the device tree files associated with an
345SoC. These are written to the (e.g. for ARM) `arch/arm/dts` directory. Each of
346these contains the full binman description for that board. Often the best
347approach is to build a single image that includes all these device tree binaries
348and allow SPL to select the correct one on boot.
349
350However, it is also possible to build separate images for each board, simply by
351invoking binman multiple times, once for each device tree file, using a
352different output directory. This will produce one set of images for each board.
353
Simon Glass2574ef62016-11-25 20:15:51 -0700354
355Example use of binman for x86
356-----------------------------
357
358In most cases x86 images have a lot of binary blobs, 'black-box' code
359provided by Intel which must be run for the platform to work. Typically
360these blobs are not relocatable and must be placed at fixed areas in the
Michael Heimpold55c822d2018-08-22 22:01:24 +0200361firmware image.
Simon Glass2574ef62016-11-25 20:15:51 -0700362
363Currently this is handled by ifdtool, which places microcode, FSP, MRC, VGA
364BIOS, reference code and Intel ME binaries into a u-boot.rom file.
365
366Binman is intended to replace all of this, with ifdtool left to handle only
367the configuration of the Intel-format descriptor.
368
369
Simon Glass7a7874f2022-01-09 20:13:48 -0700370Installing binman
371-----------------
Simon Glass2574ef62016-11-25 20:15:51 -0700372
Simon Glass76d71b02022-08-07 16:33:26 -0600373First install prerequisites, e.g:
374
375.. code-block:: bash
Simon Glass567b6822019-07-08 13:18:35 -0600376
Simon Glass75ead662021-03-18 20:25:13 +1300377 sudo apt-get install python-pyelftools python3-pyelftools lzma-alone \
378 liblz4-tool
Simon Glass567b6822019-07-08 13:18:35 -0600379
Simon Glass7a7874f2022-01-09 20:13:48 -0700380You can run binman directly if you put it on your PATH. But if you want to
Simon Glass76d71b02022-08-07 16:33:26 -0600381install into your `~/.local` Python directory, use:
382
383.. code-block:: bash
Simon Glass7a7874f2022-01-09 20:13:48 -0700384
385 pip install tools/patman tools/dtoc tools/binman
386
387Note that binman makes use of libraries from patman and dtoc, which is why these
388need to be installed. Also you need `libfdt` and `pylibfdt` which can be
Simon Glass76d71b02022-08-07 16:33:26 -0600389installed like this:
390
391.. code-block:: bash
Simon Glass7a7874f2022-01-09 20:13:48 -0700392
393 git clone git://git.kernel.org/pub/scm/utils/dtc/dtc.git
394 cd dtc
395 pip install .
396 make NO_PYTHON=1 install
397
398This installs the `libfdt.so` library into `~/lib` so you can use
399`LD_LIBRARY_PATH=~/lib` when running binman. If you want to install it in the
Simon Glass76d71b02022-08-07 16:33:26 -0600400system-library directory, replace the last line with:
401
402.. code-block:: bash
Simon Glass7a7874f2022-01-09 20:13:48 -0700403
404 make NO_PYTHON=1 PREFIX=/ install
405
406Running binman
407--------------
408
Ralph Siemsend4f763c2023-02-22 15:56:59 -0500409Type:
Simon Glass2574ef62016-11-25 20:15:51 -0700410
Ralph Siemsend4f763c2023-02-22 15:56:59 -0500411.. code-block:: bash
Simon Glass76d71b02022-08-07 16:33:26 -0600412
413 make NO_PYTHON=1 PREFIX=/ install
Simon Glass75ead662021-03-18 20:25:13 +1300414 binman build -b <board_name>
Simon Glass2574ef62016-11-25 20:15:51 -0700415
416to build an image for a board. The board name is the same name used when
417configuring U-Boot (e.g. for sandbox_defconfig the board name is 'sandbox').
418Binman assumes that the input files for the build are in ../b/<board_name>.
419
Simon Glass76d71b02022-08-07 16:33:26 -0600420Or you can specify this explicitly:
421
422.. code-block:: bash
Simon Glass2574ef62016-11-25 20:15:51 -0700423
Simon Glass76d71b02022-08-07 16:33:26 -0600424 make NO_PYTHON=1 PREFIX=/ install
Simon Glass75ead662021-03-18 20:25:13 +1300425 binman build -I <build_path>
Simon Glass2574ef62016-11-25 20:15:51 -0700426
427where <build_path> is the build directory containing the output of the U-Boot
428build.
429
430(Future work will make this more configurable)
431
432In either case, binman picks up the device tree file (u-boot.dtb) and looks
433for its instructions in the 'binman' node.
434
435Binman has a few other options which you can see by running 'binman -h'.
436
437
Simon Glass4b94ac92017-11-12 21:52:06 -0700438Enabling binman for a board
439---------------------------
440
Simon Glass774b23f2021-03-18 20:25:17 +1300441At present binman is invoked from a rule in the main Makefile. You should be
442able to enable CONFIG_BINMAN to enable this rule.
Simon Glass4b94ac92017-11-12 21:52:06 -0700443
Simon Glass774b23f2021-03-18 20:25:17 +1300444The output file is typically named image.bin and is located in the output
445directory. If input files are needed to you add these to INPUTS-y either in the
446main Makefile or in a config.mk file in your arch subdirectory.
Simon Glass4b94ac92017-11-12 21:52:06 -0700447
448Once binman is executed it will pick up its instructions from a device-tree
449file, typically <soc>-u-boot.dtsi, where <soc> is your CONFIG_SYS_SOC value.
450You can use other, more specific CONFIG options - see 'Automatic .dtsi
451inclusion' below.
452
Simon Glass76d71b02022-08-07 16:33:26 -0600453.. _binman_syms:
Simon Glass4b94ac92017-11-12 21:52:06 -0700454
Simon Glassfa888282021-03-18 20:25:14 +1300455Access to binman entry offsets at run time (symbols)
456----------------------------------------------------
457
458Binman assembles images and determines where each entry is placed in the image.
459This information may be useful to U-Boot at run time. For example, in SPL it
460is useful to be able to find the location of U-Boot so that it can be executed
461when SPL is finished.
462
463Binman allows you to declare symbols in the SPL image which are filled in
Simon Glass76d71b02022-08-07 16:33:26 -0600464with their correct values during the build. For example:
465
466.. code-block:: c
Simon Glassfa888282021-03-18 20:25:14 +1300467
468 binman_sym_declare(ulong, u_boot_any, image_pos);
469
470declares a ulong value which will be assigned to the image-pos of any U-Boot
471image (u-boot.bin, u-boot.img, u-boot-nodtb.bin) that is present in the image.
Simon Glass76d71b02022-08-07 16:33:26 -0600472You can access this value with something like:
473
474.. code-block:: c
Simon Glassfa888282021-03-18 20:25:14 +1300475
476 ulong u_boot_offset = binman_sym(ulong, u_boot_any, image_pos);
477
478Thus u_boot_offset will be set to the image-pos of U-Boot in memory, assuming
479that the whole image has been loaded, or is available in flash. You can then
480jump to that address to start U-Boot.
481
482At present this feature is only supported in SPL and TPL. In principle it is
483possible to fill in such symbols in U-Boot proper, as well, but a future C
484library is planned for this instead, to read from the device tree.
485
486As well as image-pos, it is possible to read the size of an entry and its
487offset (which is the start position of the entry within its parent).
488
489A small technical note: Binman automatically adds the base address of the image
490(i.e. __image_copy_start) to the value of the image-pos symbol, so that when the
491image is loaded to its linked address, the value will be correct and actually
492point into the image.
493
494For example, say SPL is at the start of the image and linked to start at address
49580108000. If U-Boot's image-pos is 0x8000 then binman will write an image-pos
496for U-Boot of 80110000 into the SPL binary, since it assumes the image is loaded
497to 80108000, with SPL at 80108000 and U-Boot at 80110000.
498
499For x86 devices (with the end-at-4gb property) this base address is not added
500since it is assumed that images are XIP and the offsets already include the
501address.
502
Simon Glasse0035c92023-01-11 16:10:17 -0700503While U-Boot's symbol updating is handled automatically by the u-boot-spl
504entry type (and others), it is possible to use this feature with any blob. To
505do this, add a `write-symbols` (boolean) property to the node, set the ELF
506filename using `elf-filename` and set 'elf-base-sym' to the base symbol for the
507start of the binary image (this defaults to `__image_copy_start` which is what
508U-Boot uses). See `testBlobSymbol()` for an example.
509
Simon Glass18ed9962023-01-07 14:07:11 -0700510.. _binman_fdt:
Simon Glassfa888282021-03-18 20:25:14 +1300511
512Access to binman entry offsets at run time (fdt)
513------------------------------------------------
514
515Binman can update the U-Boot FDT to include the final position and size of
516each entry in the images it processes. The option to enable this is -u and it
517causes binman to make sure that the 'offset', 'image-pos' and 'size' properties
518are set correctly for every entry. Since it is not necessary to specify these in
519the image definition, binman calculates the final values and writes these to
520the device tree. These can be used by U-Boot at run-time to find the location
521of each entry.
522
523Alternatively, an FDT map entry can be used to add a special FDT containing
524just the information about the image. This is preceded by a magic string so can
525be located anywhere in the image. An image header (typically at the start or end
526of the image) can be used to point to the FDT map. See fdtmap and image-header
527entries for more information.
528
Simon Glassfa888282021-03-18 20:25:14 +1300529Map files
530---------
531
532The -m option causes binman to output a .map file for each image that it
533generates. This shows the offset and size of each entry. For example::
534
535 Offset Size Name
536 00000000 00000028 main-section
537 00000000 00000010 section@0
538 00000000 00000004 u-boot
539 00000010 00000010 section@1
540 00000000 00000004 u-boot
541
542This shows a hierarchical image with two sections, each with a single entry. The
543offsets of the sections are absolute hex byte offsets within the image. The
544offsets of the entries are relative to their respective sections. The size of
545each entry is also shown, in bytes (hex). The indentation shows the entries
546nested inside their sections.
547
548
549Passing command-line arguments to entries
550-----------------------------------------
551
552Sometimes it is useful to pass binman the value of an entry property from the
553command line. For example some entries need access to files and it is not
554always convenient to put these filenames in the image definition (device tree).
555
Bin Meng1fa2b7c2021-05-10 20:23:30 +0800556The -a option supports this::
Simon Glassfa888282021-03-18 20:25:14 +1300557
Bin Meng1fa2b7c2021-05-10 20:23:30 +0800558 -a <prop>=<value>
Simon Glassfa888282021-03-18 20:25:14 +1300559
560where::
561
562 <prop> is the property to set
563 <value> is the value to set it to
564
565Not all properties can be provided this way. Only some entries support it,
566typically for filenames.
567
568
Simon Glass2574ef62016-11-25 20:15:51 -0700569Image description format
Simon Glassfa888282021-03-18 20:25:14 +1300570========================
Simon Glass2574ef62016-11-25 20:15:51 -0700571
572The binman node is called 'binman'. An example image description is shown
Simon Glass75ead662021-03-18 20:25:13 +1300573below::
Simon Glass2574ef62016-11-25 20:15:51 -0700574
Simon Glass75ead662021-03-18 20:25:13 +1300575 binman {
576 filename = "u-boot-sunxi-with-spl.bin";
577 pad-byte = <0xff>;
578 blob {
579 filename = "spl/sunxi-spl.bin";
580 };
581 u-boot {
582 offset = <CONFIG_SPL_PAD_TO>;
583 };
584 };
Simon Glass2574ef62016-11-25 20:15:51 -0700585
586
587This requests binman to create an image file called u-boot-sunxi-with-spl.bin
588consisting of a specially formatted SPL (spl/sunxi-spl.bin, built by the
589normal U-Boot Makefile), some 0xff padding, and a U-Boot legacy image. The
590padding comes from the fact that the second binary is placed at
591CONFIG_SPL_PAD_TO. If that line were omitted then the U-Boot binary would
592immediately follow the SPL binary.
593
594The binman node describes an image. The sub-nodes describe entries in the
595image. Each entry represents a region within the overall image. The name of
596the entry (blob, u-boot) tells binman what to put there. For 'blob' we must
597provide a filename. For 'u-boot', binman knows that this means 'u-boot.bin'.
598
599Entries are normally placed into the image sequentially, one after the other.
600The image size is the total size of all entries. As you can see, you can
Simon Glasse8561af2018-08-01 15:22:37 -0600601specify the start offset of an entry using the 'offset' property.
Simon Glass2574ef62016-11-25 20:15:51 -0700602
603Note that due to a device tree requirement, all entries must have a unique
604name. If you want to put the same binary in the image multiple times, you can
605use any unique name, with the 'type' property providing the type.
606
607The attributes supported for entries are described below.
608
Simon Glasse8561af2018-08-01 15:22:37 -0600609offset:
Simon Glass75ead662021-03-18 20:25:13 +1300610 This sets the offset of an entry within the image or section containing
611 it. The first byte of the image is normally at offset 0. If 'offset' is
612 not provided, binman sets it to the end of the previous region, or the
613 start of the image's entry area (normally 0) if there is no previous
614 region.
Simon Glass2574ef62016-11-25 20:15:51 -0700615
616align:
Simon Glass75ead662021-03-18 20:25:13 +1300617 This sets the alignment of the entry. The entry offset is adjusted
618 so that the entry starts on an aligned boundary within the containing
619 section or image. For example 'align = <16>' means that the entry will
620 start on a 16-byte boundary. This may mean that padding is added before
621 the entry. The padding is part of the containing section but is not
622 included in the entry, meaning that an empty space may be created before
623 the entry starts. Alignment should be a power of 2. If 'align' is not
624 provided, no alignment is performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700625
626size:
Simon Glass75ead662021-03-18 20:25:13 +1300627 This sets the size of the entry. The contents will be padded out to
628 this size. If this is not provided, it will be set to the size of the
629 contents.
Simon Glass2574ef62016-11-25 20:15:51 -0700630
Samuel Hollande2574022023-01-21 17:25:16 -0600631min-size:
632 Sets the minimum size of the entry. This size includes explicit padding
633 ('pad-before' and 'pad-after'), but not padding added to meet alignment
634 requirements. While this does not affect the contents of the entry within
635 binman itself (the padding is performed only when its parent section is
636 assembled), the end result will be that the entry ends with the padding
637 bytes, so may grow. Defaults to 0.
638
Simon Glass2574ef62016-11-25 20:15:51 -0700639pad-before:
Simon Glass75ead662021-03-18 20:25:13 +1300640 Padding before the contents of the entry. Normally this is 0, meaning
641 that the contents start at the beginning of the entry. This can be used
642 to offset the entry contents a little. While this does not affect the
643 contents of the entry within binman itself (the padding is performed
644 only when its parent section is assembled), the end result will be that
645 the entry starts with the padding bytes, so may grow. Defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700646
647pad-after:
Simon Glass75ead662021-03-18 20:25:13 +1300648 Padding after the contents of the entry. Normally this is 0, meaning
649 that the entry ends at the last byte of content (unless adjusted by
650 other properties). This allows room to be created in the image for
651 this entry to expand later. While this does not affect the contents of
652 the entry within binman itself (the padding is performed only when its
653 parent section is assembled), the end result will be that the entry ends
654 with the padding bytes, so may grow. Defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700655
656align-size:
Simon Glass75ead662021-03-18 20:25:13 +1300657 This sets the alignment of the entry size. For example, to ensure
658 that the size of an entry is a multiple of 64 bytes, set this to 64.
659 While this does not affect the contents of the entry within binman
660 itself (the padding is performed only when its parent section is
661 assembled), the end result is that the entry ends with the padding
662 bytes, so may grow. If 'align-size' is not provided, no alignment is
663 performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700664
665align-end:
Simon Glass75ead662021-03-18 20:25:13 +1300666 This sets the alignment of the end of an entry with respect to the
667 containing section. Some entries require that they end on an alignment
668 boundary, regardless of where they start. This does not move the start
669 of the entry, so the contents of the entry will still start at the
670 beginning. But there may be padding at the end. While this does not
671 affect the contents of the entry within binman itself (the padding is
672 performed only when its parent section is assembled), the end result
673 is that the entry ends with the padding bytes, so may grow.
674 If 'align-end' is not provided, no alignment is performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700675
676filename:
Simon Glass75ead662021-03-18 20:25:13 +1300677 For 'blob' types this provides the filename containing the binary to
678 put into the entry. If binman knows about the entry type (like
679 u-boot-bin), then there is no need to specify this.
Simon Glass2574ef62016-11-25 20:15:51 -0700680
681type:
Simon Glass75ead662021-03-18 20:25:13 +1300682 Sets the type of an entry. This defaults to the entry name, but it is
683 possible to use any name, and then add (for example) 'type = "u-boot"'
684 to specify the type.
Simon Glass2574ef62016-11-25 20:15:51 -0700685
Simon Glasse8561af2018-08-01 15:22:37 -0600686offset-unset:
Simon Glass75ead662021-03-18 20:25:13 +1300687 Indicates that the offset of this entry should not be set by placing
688 it immediately after the entry before. Instead, is set by another
689 entry which knows where this entry should go. When this boolean
690 property is present, binman will give an error if another entry does
691 not set the offset (with the GetOffsets() method).
Simon Glass4ba8d502018-06-01 09:38:17 -0600692
Simon Glass9dcc8612018-08-01 15:22:42 -0600693image-pos:
Simon Glass75ead662021-03-18 20:25:13 +1300694 This cannot be set on entry (or at least it is ignored if it is), but
695 with the -u option, binman will set it to the absolute image position
696 for each entry. This makes it easy to find out exactly where the entry
697 ended up in the image, regardless of parent sections, etc.
Simon Glass9dcc8612018-08-01 15:22:42 -0600698
Simon Glassdd156a42022-03-05 20:18:59 -0700699extend-size:
700 Extend the size of this entry to fit available space. This space is only
Simon Glass75ead662021-03-18 20:25:13 +1300701 limited by the size of the image/section and the position of the next
702 entry.
Simon Glass2574ef62016-11-25 20:15:51 -0700703
Simon Glassaa2fcf92019-07-08 14:25:30 -0600704compress:
Simon Glass75ead662021-03-18 20:25:13 +1300705 Sets the compression algortihm to use (for blobs only). See the entry
706 documentation for details.
Simon Glassaa2fcf92019-07-08 14:25:30 -0600707
Simon Glassa820af72020-09-06 10:39:09 -0600708missing-msg:
Simon Glass75ead662021-03-18 20:25:13 +1300709 Sets the tag of the message to show if this entry is missing. This is
710 used for external blobs. When they are missing it is helpful to show
711 information about what needs to be fixed. See missing-blob-help for the
712 message for each tag.
Simon Glassa820af72020-09-06 10:39:09 -0600713
Simon Glass7098b7f2021-03-21 18:24:30 +1300714no-expanded:
715 By default binman substitutes entries with expanded versions if available,
716 so that a `u-boot` entry type turns into `u-boot-expanded`, for example. The
717 `--no-expanded` command-line option disables this globally. The
718 `no-expanded` property disables this just for a single entry. Put the
719 `no-expanded` boolean property in the node to select this behaviour.
720
Simon Glass63328f12023-01-07 14:07:15 -0700721optional:
722 External blobs are normally required to be present for the image to be
723 built (but see `External blobs`_). This properly allows an entry to be
724 optional, so that when it is cannot be found, this problem is ignored and
725 an empty file is used for this blob. This should be used only when the blob
726 is entirely optional and is not needed for correct operation of the image.
727 Note that missing, optional blobs do not produce a non-zero exit code from
728 binman, although it does show a warning about the missing external blob.
729
Simon Glassfc792842023-07-18 07:24:04 -0600730insert-template:
731 This is not strictly speaking an entry property, since it is processed early
732 in Binman before the entries are read. It is a list of phandles of nodes to
733 include in the current (target) node. For each node, its subnodes and their
734 properties are brought into the target node. See Templates_ below for
735 more information.
736
Simon Glass80045812018-09-14 04:57:30 -0600737The attributes supported for images and sections are described below. Several
738are similar to those for entries.
Simon Glass2574ef62016-11-25 20:15:51 -0700739
740size:
Simon Glass75ead662021-03-18 20:25:13 +1300741 Sets the image size in bytes, for example 'size = <0x100000>' for a
742 1MB image.
Simon Glass2574ef62016-11-25 20:15:51 -0700743
Simon Glasseb023b32019-04-25 21:58:39 -0600744offset:
Simon Glass75ead662021-03-18 20:25:13 +1300745 This is similar to 'offset' in entries, setting the offset of a section
746 within the image or section containing it. The first byte of the section
747 is normally at offset 0. If 'offset' is not provided, binman sets it to
748 the end of the previous region, or the start of the image's entry area
749 (normally 0) if there is no previous region.
Simon Glasseb023b32019-04-25 21:58:39 -0600750
Simon Glass2574ef62016-11-25 20:15:51 -0700751align-size:
Simon Glass75ead662021-03-18 20:25:13 +1300752 This sets the alignment of the image size. For example, to ensure
753 that the image ends on a 512-byte boundary, use 'align-size = <512>'.
754 If 'align-size' is not provided, no alignment is performed.
Simon Glass2574ef62016-11-25 20:15:51 -0700755
756pad-before:
Simon Glass75ead662021-03-18 20:25:13 +1300757 This sets the padding before the image entries. The first entry will
758 be positioned after the padding. This defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700759
760pad-after:
Simon Glass75ead662021-03-18 20:25:13 +1300761 This sets the padding after the image entries. The padding will be
762 placed after the last entry. This defaults to 0.
Simon Glass2574ef62016-11-25 20:15:51 -0700763
764pad-byte:
Simon Glass75ead662021-03-18 20:25:13 +1300765 This specifies the pad byte to use when padding in the image. It
766 defaults to 0. To use 0xff, you would add 'pad-byte = <0xff>'.
Simon Glass2574ef62016-11-25 20:15:51 -0700767
768filename:
Simon Glass75ead662021-03-18 20:25:13 +1300769 This specifies the image filename. It defaults to 'image.bin'.
Simon Glass2574ef62016-11-25 20:15:51 -0700770
Simon Glasse8561af2018-08-01 15:22:37 -0600771sort-by-offset:
Simon Glass75ead662021-03-18 20:25:13 +1300772 This causes binman to reorder the entries as needed to make sure they
773 are in increasing positional order. This can be used when your entry
774 order may not match the positional order. A common situation is where
775 the 'offset' properties are set by CONFIG options, so their ordering is
776 not known a priori.
Simon Glass2574ef62016-11-25 20:15:51 -0700777
Simon Glass75ead662021-03-18 20:25:13 +1300778 This is a boolean property so needs no value. To enable it, add a
779 line 'sort-by-offset;' to your description.
Simon Glass2574ef62016-11-25 20:15:51 -0700780
781multiple-images:
Simon Glass75ead662021-03-18 20:25:13 +1300782 Normally only a single image is generated. To create more than one
783 image, put this property in the binman node. For example, this will
784 create image1.bin containing u-boot.bin, and image2.bin containing
785 both spl/u-boot-spl.bin and u-boot.bin::
Simon Glass2574ef62016-11-25 20:15:51 -0700786
Simon Glass75ead662021-03-18 20:25:13 +1300787 binman {
788 multiple-images;
789 image1 {
790 u-boot {
791 };
792 };
Simon Glass2574ef62016-11-25 20:15:51 -0700793
Simon Glass75ead662021-03-18 20:25:13 +1300794 image2 {
795 spl {
796 };
797 u-boot {
798 };
799 };
800 };
Simon Glass2574ef62016-11-25 20:15:51 -0700801
802end-at-4gb:
Simon Glass75ead662021-03-18 20:25:13 +1300803 For x86 machines the ROM offsets start just before 4GB and extend
804 up so that the image finished at the 4GB boundary. This boolean
805 option can be enabled to support this. The image size must be
806 provided so that binman knows when the image should start. For an
807 8MB ROM, the offset of the first entry would be 0xfff80000 with
808 this option, instead of 0 without this option.
Simon Glass2574ef62016-11-25 20:15:51 -0700809
Jagdish Gediya0fb978c2018-09-03 21:35:07 +0530810skip-at-start:
Simon Glass75ead662021-03-18 20:25:13 +1300811 This property specifies the entry offset of the first entry.
Jagdish Gediya0fb978c2018-09-03 21:35:07 +0530812
Simon Glass72cc5382022-10-20 18:22:39 -0600813 For PowerPC mpc85xx based CPU, CONFIG_TEXT_BASE is the entry
Simon Glass75ead662021-03-18 20:25:13 +1300814 offset of the first entry. It can be 0xeff40000 or 0xfff40000 for
815 nor flash boot, 0x201000 for sd boot etc.
Jagdish Gediya0fb978c2018-09-03 21:35:07 +0530816
Simon Glass72cc5382022-10-20 18:22:39 -0600817 'end-at-4gb' property is not applicable where CONFIG_TEXT_BASE +
Simon Glass75ead662021-03-18 20:25:13 +1300818 Image size != 4gb.
Simon Glass2574ef62016-11-25 20:15:51 -0700819
Simon Glassf427c5f2021-03-21 18:24:33 +1300820align-default:
821 Specifies the default alignment for entries in this section, if they do
822 not specify an alignment. Note that this only applies to top-level entries
823 in the section (direct subentries), not any subentries of those entries.
824 This means that each section must specify its own default alignment, if
825 required.
826
Neha Malcom Francis3eb4be32022-10-17 16:36:25 +0530827symlink:
828 Adds a symlink to the image with string given in the symlink property.
829
Simon Glassf1ee03b2023-01-11 16:10:16 -0700830overlap:
831 Indicates that this entry overlaps with others in the same section. These
832 entries should appear at the end of the section. Overlapping entries are not
833 packed with other entries, but their contents are written over other entries
834 in the section. Overlapping entries must have an explicit offset and size.
835
Simon Glasse0035c92023-01-11 16:10:17 -0700836write-symbols:
837 Indicates that the blob should be updated with symbol values calculated by
838 binman. This is automatic for certain entry types, e.g. `u-boot-spl`. See
839 binman_syms_ for more information.
840
Simon Glass4abf7842023-07-18 07:23:54 -0600841no-write-symbols:
842 Disables symbol writing for this entry. This can be used in entry types
843 where symbol writing is automatic. For example, if `u-boot-spl` refers to
844 the `u_boot_any_image_pos` symbol but U-Boot is not available in the image
845 containing SPL, this can be used to disable the writing. Quite likely this
846 indicates a bug in your setup.
847
Simon Glasse0035c92023-01-11 16:10:17 -0700848elf-filename:
849 Sets the file name of a blob's associated ELF file. For example, if the
850 blob is `zephyr.bin` then the ELF file may be `zephyr.elf`. This allows
851 binman to locate symbols and understand the structure of the blob. See
852 binman_syms_ for more information.
853
854elf-base-sym:
855 Sets the name of the ELF symbol that points to the start of a blob. For
856 U-Boot this is `__image_copy_start` and that is the default used by binman
857 if this property is missing. For other projects, a difference symbol may be
858 needed. Add this symbol to the properties for the blob so that symbols can
859 be read correctly. See binman_syms_ for more information.
860
Simon Glass49e9c002023-01-11 16:10:19 -0700861offset-from-elf:
862 Sets the offset of an entry based on a symbol value in an another entry.
863 The format is <&phandle>, "sym_name", <offset> where phandle is the entry
864 containing the blob (with associated ELF file providing symbols), <sym_name>
865 is the symbol to lookup (relative to elf-base-sym) and <offset> is an offset
866 to add to that value.
867
Simon Glasscda991e2023-02-12 17:11:15 -0700868preserve:
869 Indicates that this entry should be preserved by any firmware updates. This
870 flag should be checked by the updater when it is deciding which entries to
871 update. This flag is normally attached to sections but can be attached to
872 a single entry in a section if the updater supports it. Not that binman
873 itself has no control over the updater's behaviour, so this is just a
874 signal. It is not enforced by binman.
875
Simon Glass2574ef62016-11-25 20:15:51 -0700876Examples of the above options can be found in the tests. See the
877tools/binman/test directory.
878
Simon Glasse76a3e62018-06-01 09:38:11 -0600879It is possible to have the same binary appear multiple times in the image,
880either by using a unit number suffix (u-boot@0, u-boot@1) or by using a
881different name for each and specifying the type with the 'type' attribute.
882
Simon Glass2574ef62016-11-25 20:15:51 -0700883
Michael Heimpold55c822d2018-08-22 22:01:24 +0200884Sections and hierachical images
Simon Glassa91e1152018-06-01 09:38:16 -0600885-------------------------------
886
887Sometimes it is convenient to split an image into several pieces, each of which
888contains its own set of binaries. An example is a flash device where part of
889the image is read-only and part is read-write. We can set up sections for each
890of these, and place binaries in them independently. The image is still produced
891as a single output file.
892
893This feature provides a way of creating hierarchical images. For example here
Simon Glass1e324002018-06-01 09:38:19 -0600894is an example image with two copies of U-Boot. One is read-only (ro), intended
895to be written only in the factory. Another is read-write (rw), so that it can be
Simon Glassa91e1152018-06-01 09:38:16 -0600896upgraded in the field. The sizes are fixed so that the ro/rw boundary is known
Simon Glass75ead662021-03-18 20:25:13 +1300897and can be programmed::
Simon Glassa91e1152018-06-01 09:38:16 -0600898
Simon Glass75ead662021-03-18 20:25:13 +1300899 binman {
900 section@0 {
901 read-only;
902 name-prefix = "ro-";
903 size = <0x100000>;
904 u-boot {
905 };
906 };
907 section@1 {
908 name-prefix = "rw-";
909 size = <0x100000>;
910 u-boot {
911 };
912 };
913 };
Simon Glassa91e1152018-06-01 09:38:16 -0600914
915This image could be placed into a SPI flash chip, with the protection boundary
916set at 1MB.
917
918A few special properties are provided for sections:
919
920read-only:
Simon Glass75ead662021-03-18 20:25:13 +1300921 Indicates that this section is read-only. This has no impact on binman's
922 operation, but his property can be read at run time.
Simon Glassa91e1152018-06-01 09:38:16 -0600923
Simon Glass3b78d532018-06-01 09:38:21 -0600924name-prefix:
Simon Glass75ead662021-03-18 20:25:13 +1300925 This string is prepended to all the names of the binaries in the
926 section. In the example above, the 'u-boot' binaries which actually be
927 renamed to 'ro-u-boot' and 'rw-u-boot'. This can be useful to
928 distinguish binaries with otherwise identical names.
Simon Glass3b78d532018-06-01 09:38:21 -0600929
Simon Glassde244162023-01-07 14:07:08 -0700930filename:
931 This allows the contents of the section to be written to a file in the
932 output directory. This can sometimes be useful to use the data in one
933 section in different image, since there is currently no way to share data
934 beteen images other than through files.
Simon Glassa91e1152018-06-01 09:38:16 -0600935
Simon Glassfb30e292019-07-20 12:23:51 -0600936Image Properties
937----------------
938
939Image nodes act like sections but also have a few extra properties:
940
941filename:
Simon Glass75ead662021-03-18 20:25:13 +1300942 Output filename for the image. This defaults to image.bin (or in the
943 case of multiple images <nodename>.bin where <nodename> is the name of
944 the image node.
Simon Glassfb30e292019-07-20 12:23:51 -0600945
946allow-repack:
Simon Glass75ead662021-03-18 20:25:13 +1300947 Create an image that can be repacked. With this option it is possible
948 to change anything in the image after it is created, including updating
949 the position and size of image components. By default this is not
950 permitted since it is not possibly to know whether this might violate a
951 constraint in the image description. For example, if a section has to
952 increase in size to hold a larger binary, that might cause the section
953 to fall out of its allow region (e.g. read-only portion of flash).
Simon Glassfb30e292019-07-20 12:23:51 -0600954
Simon Glass75ead662021-03-18 20:25:13 +1300955 Adding this property causes the original offset and size values in the
956 image description to be stored in the FDT and fdtmap.
Simon Glassfb30e292019-07-20 12:23:51 -0600957
958
Simon Glassfca38562022-08-18 02:16:46 -0600959Image dependencies
960------------------
961
962Binman does not currently support images that depend on each other. For example,
963if one image creates `fred.bin` and then the next uses this `fred.bin` to
964produce a final `image.bin`, then the behaviour is undefined. It may work, or it
965may produce an error about `fred.bin` being missing, or it may use a version of
966`fred.bin` from a previous run.
967
968Often this can be handled by incorporating the dependency into the second
969image. For example, instead of::
970
971 binman {
972 multiple-images;
973
974 fred {
975 u-boot {
976 };
977 fill {
978 size = <0x100>;
979 };
980 };
981
982 image {
983 blob {
984 filename = "fred.bin";
985 };
986 u-boot-spl {
987 };
988 };
989
990you can do this::
991
992 binman {
993 image {
994 fred {
995 type = "section";
996 u-boot {
997 };
998 fill {
999 size = <0x100>;
1000 };
1001 };
1002 u-boot-spl {
1003 };
1004 };
1005
1006
1007
Simon Glassfa888282021-03-18 20:25:14 +13001008Hashing Entries
1009---------------
1010
1011It is possible to ask binman to hash the contents of an entry and write that
1012value back to the device-tree node. For example::
1013
1014 binman {
1015 u-boot {
1016 hash {
1017 algo = "sha256";
1018 };
1019 };
1020 };
1021
1022Here, a new 'value' property will be written to the 'hash' node containing
1023the hash of the 'u-boot' entry. Only SHA256 is supported at present. Whole
1024sections can be hased if desired, by adding the 'hash' node to the section.
1025
1026The has value can be chcked at runtime by hashing the data actually read and
1027comparing this has to the value in the device tree.
1028
1029
1030Expanded entries
1031----------------
1032
1033Binman automatically replaces 'u-boot' with an expanded version of that, i.e.
1034'u-boot-expanded'. This means that when you write::
1035
1036 u-boot {
1037 };
1038
1039you actually get::
1040
1041 u-boot {
1042 type = "u-boot-expanded';
1043 };
1044
1045which in turn expands to::
1046
1047 u-boot {
1048 type = "section";
1049
1050 u-boot-nodtb {
1051 };
1052
1053 u-boot-dtb {
1054 };
1055 };
1056
1057U-Boot's various phase binaries actually comprise two or three pieces.
1058For example, u-boot.bin has the executable followed by a devicetree.
1059
1060With binman we want to be able to update that devicetree with full image
1061information so that it is accessible to the executable. This is tricky
1062if it is not clear where the devicetree starts.
1063
1064The above feature ensures that the devicetree is clearly separated from the
1065U-Boot executable and can be updated separately by binman as needed. It can be
1066disabled with the --no-expanded flag if required.
1067
Heiko Thieryd5894562022-01-24 08:11:01 +01001068The same applies for u-boot-spl and u-boot-tpl. In those cases, the expansion
Simon Glassfa888282021-03-18 20:25:14 +13001069includes the BSS padding, so for example::
1070
1071 spl {
1072 type = "u-boot-spl"
1073 };
1074
1075you actually get::
1076
1077 spl {
1078 type = "u-boot-expanded';
1079 };
1080
1081which in turn expands to::
1082
1083 spl {
1084 type = "section";
1085
1086 u-boot-spl-nodtb {
1087 };
1088
1089 u-boot-spl-bss-pad {
1090 };
1091
1092 u-boot-spl-dtb {
1093 };
1094 };
1095
1096Of course we should not expand SPL if it has no devicetree. Also if the BSS
1097padding is not needed (because BSS is in RAM as with CONFIG_SPL_SEPARATE_BSS),
1098the 'u-boot-spl-bss-pad' subnode should not be created. The use of the expaned
1099entry type is controlled by the UseExpanded() method. In the SPL case it checks
1100the 'spl-dtb' entry arg, which is 'y' or '1' if SPL has a devicetree.
1101
1102For the BSS case, a 'spl-bss-pad' entry arg controls whether it is present. All
1103entry args are provided by the U-Boot Makefile.
1104
1105
Simon Glass1e9e61c2023-01-07 14:07:12 -07001106Optional entries
1107----------------
1108
1109Some entries need to exist only if certain conditions are met. For example, an
1110entry may want to appear in the image only if a file has a particular format.
1111Obviously the entry must exist in the image description for it to be processed
1112at all, so a way needs to be found to have the entry remove itself.
1113
1114To handle this, when entry.ObtainContents() is called, the entry can call
1115entry.mark_absent() to mark itself as absent, passing a suitable message as the
1116reason.
1117
1118Any absent entries are dropped immediately after ObtainContents() has been
1119called on all entries.
1120
1121It is not possible for an entry to mark itself absent at any other point in the
1122processing. It must happen in the ObtainContents() method.
1123
1124The effect is as if the entry had never been present at all, since the image
1125is packed without it and it disappears from the list of entries.
1126
1127
Simon Glassfa888282021-03-18 20:25:14 +13001128Compression
1129-----------
1130
1131Binman support compression for 'blob' entries (those of type 'blob' and
1132derivatives). To enable this for an entry, add a 'compress' property::
1133
1134 blob {
1135 filename = "datafile";
1136 compress = "lz4";
1137 };
1138
1139The entry will then contain the compressed data, using the 'lz4' compression
1140algorithm. Currently this is the only one that is supported. The uncompressed
1141size is written to the node in an 'uncomp-size' property, if -u is used.
1142
1143Compression is also supported for sections. In that case the entire section is
1144compressed in one block, including all its contents. This means that accessing
1145an entry from the section required decompressing the entire section. Also, the
1146size of a section indicates the space that it consumes in its parent section
1147(and typically the image). With compression, the section may contain more data,
1148and the uncomp-size property indicates that, as above. The contents of the
1149section is compressed first, before any padding is added. This ensures that the
1150padding itself is not compressed, which would be a waste of time.
1151
1152
1153Automatic .dtsi inclusion
1154-------------------------
1155
1156It is sometimes inconvenient to add a 'binman' node to the .dts file for each
1157board. This can be done by using #include to bring in a common file. Another
1158approach supported by the U-Boot build system is to automatically include
1159a common header. You can then put the binman node (and anything else that is
Simon Glassfc1aa352023-02-13 08:56:34 -07001160specific to U-Boot, such as bootph-all properies) in that header file.
Simon Glassfa888282021-03-18 20:25:14 +13001161
1162Binman will search for the following files in arch/<arch>/dts::
1163
1164 <dts>-u-boot.dtsi where <dts> is the base name of the .dts file
1165 <CONFIG_SYS_SOC>-u-boot.dtsi
1166 <CONFIG_SYS_CPU>-u-boot.dtsi
1167 <CONFIG_SYS_VENDOR>-u-boot.dtsi
1168 u-boot.dtsi
1169
1170U-Boot will only use the first one that it finds. If you need to include a
1171more general file you can do that from the more specific file using #include.
Simon Glass0a1b3b62021-12-16 20:59:23 -07001172If you are having trouble figuring out what is going on, you can use
1173`DEVICE_TREE_DEBUG=1` with your build::
Simon Glassfa888282021-03-18 20:25:14 +13001174
Simon Glass0a1b3b62021-12-16 20:59:23 -07001175 make DEVICE_TREE_DEBUG=1
1176 scripts/Makefile.lib:334: Automatic .dtsi inclusion: options:
1177 arch/arm/dts/juno-r2-u-boot.dtsi arch/arm/dts/-u-boot.dtsi
1178 arch/arm/dts/armv8-u-boot.dtsi arch/arm/dts/armltd-u-boot.dtsi
1179 arch/arm/dts/u-boot.dtsi ... found: "arch/arm/dts/juno-r2-u-boot.dtsi"
Simon Glassfa888282021-03-18 20:25:14 +13001180
1181
Simon Glassfc792842023-07-18 07:24:04 -06001182Templates
1183=========
1184
1185Sometimes multiple images need to be created which have all have a common
1186part. For example, a board may generate SPI and eMMC images which both include
1187a FIT. Since the FIT includes many entries, it is tedious to repeat them twice
1188in the image description.
1189
1190Templates provide a simple way to handle this::
1191
1192 binman {
1193 multiple-images;
1194 common_part: template-1 {
1195 some-property;
1196 fit {
1197 ... lots of entries in here
1198 };
1199
1200 text {
1201 text = "base image";
1202 };
1203 };
1204
1205 spi-image {
1206 filename = "image-spi.bin";
1207 insert-template = <&fit>;
1208
1209 /* things specific to SPI follow */
1210 footer {
1211 ];
1212
1213 text {
1214 text = "SPI image";
1215 };
1216 };
1217
1218 mmc-image {
1219 filename = "image-mmc.bin";
1220 insert-template = <&fit>;
1221
1222 /* things specific to MMC follow */
1223 footer {
1224 ];
1225
1226 text {
1227 text = "MMC image";
1228 };
1229 };
1230 };
1231
1232The template node name must start with 'template', so it is not considered to be
1233an image itself.
1234
1235The mechanism is very simple. For each phandle in the 'insert-templates'
1236property, the source node is looked up. Then the subnodes of that source node
1237are copied into the target node, i.e. the one containing the `insert-template`
1238property.
1239
1240If the target node has a node with the same name as a template, its properties
1241override corresponding properties in the template. This allows the template to
1242be uses as a base, with the node providing updates to the properties as needed.
1243The overriding happens recursively.
1244
1245Template nodes appear first in each node that they are inserted into and
1246ordering of template nodes is preserved. Other nodes come afterwards. If a
1247template node also appears in the target node, then the template node sets the
1248order. Thus the template can be used to set the ordering, even if the target
1249node provides all the properties. In the above example, `fit` and `text` appear
1250first in the `spi-image` and `mmc-image` images, followed by `footer`.
1251
1252Where there are multiple template nodes, they are inserted in that order. so
1253the first template node appears first, then the second.
1254
1255Properties in the template node are inserted into the destination node if they
1256do not exist there. In the example above, `some-property` is added to each of
1257`spi-image` and `mmc-image`.
1258
Simon Glass54825e12023-07-22 21:43:56 -06001259Note that template nodes are removed from the binman description after
1260processing and before binman builds the image descriptions.
1261
Simon Glass09490b02023-07-22 21:43:52 -06001262The initial devicetree produced by the templating process is written to the
1263`u-boot.dtb.tmpl1` file. This can be useful to see what is going on if there is
Simon Glass54825e12023-07-22 21:43:56 -06001264a failure before the final `u-boot.dtb.out` file is written. A second
1265`u-boot.dtb.tmpl2` file is written when the templates themselves are removed.
Simon Glassfc792842023-07-18 07:24:04 -06001266
Simon Glass86b3e472023-07-22 21:43:57 -06001267Dealing with phandles
1268---------------------
1269
1270Templates can contain phandles and these are copied to the destination node.
1271However this should be used with care, since if a template is instantiated twice
1272then the phandle will be copied twice, resulting in a devicetree with duplicate
1273phandles, i.e. the same phandle used by two different nodes. Binman detects this
1274situation and produces an error, for example::
1275
1276 Duplicate phandle 1 in nodes /binman/image/fit/images/atf/atf-bl31 and
1277 /binman/image-2/fit/images/atf/atf-bl31
1278
1279In this case an atf-bl31 node containing a phandle has been copied into two
1280different target nodes, resulting in the same phandle for each. See
1281testTemplatePhandleDup() for the test case.
1282
1283The solution is typically to put the phandles in the corresponding target nodes
1284(one for each) and remove the phandle from the template.
Simon Glassfc792842023-07-18 07:24:04 -06001285
Simon Glassadfb8492021-11-03 21:09:18 -06001286Updating an ELF file
1287====================
1288
1289For the EFI app, where U-Boot is loaded from UEFI and runs as an app, there is
1290no way to update the devicetree after U-Boot is built. Normally this works by
1291creating a new u-boot.dtb.out with he updated devicetree, which is automatically
1292built into the output image. With ELF this is not possible since the ELF is
1293not part of an image, just a stand-along file. We must create an updated ELF
1294file with the new devicetree.
1295
1296This is handled by the --update-fdt-in-elf option. It takes four arguments,
1297separated by comma:
1298
1299 infile - filename of input ELF file, e.g. 'u-boot's
1300 outfile - filename of output ELF file, e.g. 'u-boot.out'
1301 begin_sym - symbol at the start of the embedded devicetree, e.g.
1302 '__dtb_dt_begin'
1303 end_sym - symbol at the start of the embedded devicetree, e.g.
1304 '__dtb_dt_end'
1305
1306When this flag is used, U-Boot does all the normal packaging, but as an
1307additional step, it creates a new ELF file with the new devicetree embedded in
1308it.
1309
1310If logging is enabled you will see a message like this::
1311
1312 Updating file 'u-boot' with data length 0x400a (16394) between symbols
1313 '__dtb_dt_begin' and '__dtb_dt_end'
1314
1315There must be enough space for the updated devicetree. If not, an error like
1316the following is produced::
1317
1318 ValueError: Not enough space in 'u-boot' for data length 0x400a (16394);
1319 size is 0x1744 (5956)
1320
1321
Simon Glass7a61c6b2018-07-17 13:25:37 -06001322Entry Documentation
Simon Glass774b23f2021-03-18 20:25:17 +13001323===================
Simon Glass7a61c6b2018-07-17 13:25:37 -06001324
1325For details on the various entry types supported by binman and how to use them,
Simon Glass774b23f2021-03-18 20:25:17 +13001326see entries.rst which is generated from the source code using:
1327
1328 binman entry-docs >tools/binman/entries.rst
Simon Glass7a61c6b2018-07-17 13:25:37 -06001329
Simon Glass774b23f2021-03-18 20:25:17 +13001330.. toctree::
1331 :maxdepth: 2
Simon Glass7a61c6b2018-07-17 13:25:37 -06001332
Simon Glass774b23f2021-03-18 20:25:17 +13001333 entries
1334
Simon Glassfa888282021-03-18 20:25:14 +13001335
1336Managing images
1337===============
Simon Glass7a61c6b2018-07-17 13:25:37 -06001338
Simon Glassb2fd11d2019-07-08 14:25:48 -06001339Listing images
1340--------------
1341
1342It is possible to list the entries in an existing firmware image created by
Simon Glass75ead662021-03-18 20:25:13 +13001343binman, provided that there is an 'fdtmap' entry in the image. For example::
Simon Glassb2fd11d2019-07-08 14:25:48 -06001344
1345 $ binman ls -i image.bin
1346 Name Image-pos Size Entry-type Offset Uncomp-size
1347 ----------------------------------------------------------------------
1348 main-section c00 section 0
1349 u-boot 0 4 u-boot 0
1350 section 5fc section 4
1351 cbfs 100 400 cbfs 0
1352 u-boot 138 4 u-boot 38
1353 u-boot-dtb 180 108 u-boot-dtb 80 3b5
1354 u-boot-dtb 500 1ff u-boot-dtb 400 3b5
1355 fdtmap 6fc 381 fdtmap 6fc
1356 image-header bf8 8 image-header bf8
1357
1358This shows the hierarchy of the image, the position, size and type of each
1359entry, the offset of each entry within its parent and the uncompressed size if
1360the entry is compressed.
1361
Simon Glass75ead662021-03-18 20:25:13 +13001362It is also possible to list just some files in an image, e.g.::
Simon Glassb2fd11d2019-07-08 14:25:48 -06001363
1364 $ binman ls -i image.bin section/cbfs
1365 Name Image-pos Size Entry-type Offset Uncomp-size
1366 --------------------------------------------------------------------
1367 cbfs 100 400 cbfs 0
1368 u-boot 138 4 u-boot 38
1369 u-boot-dtb 180 108 u-boot-dtb 80 3b5
1370
Simon Glass75ead662021-03-18 20:25:13 +13001371or with wildcards::
Simon Glassb2fd11d2019-07-08 14:25:48 -06001372
1373 $ binman ls -i image.bin "*cb*" "*head*"
1374 Name Image-pos Size Entry-type Offset Uncomp-size
1375 ----------------------------------------------------------------------
1376 cbfs 100 400 cbfs 0
1377 u-boot 138 4 u-boot 38
1378 u-boot-dtb 180 108 u-boot-dtb 80 3b5
1379 image-header bf8 8 image-header bf8
1380
Simon Glassb9028bc2021-11-23 21:09:49 -07001381If an older version of binman is used to list images created by a newer one, it
1382is possible that it will contain entry types that are not supported. These still
1383show with the correct type, but binman just sees them as blobs (plain binary
1384data). Any special features of that etype are not supported by the old binman.
1385
Simon Glassb2fd11d2019-07-08 14:25:48 -06001386
Simon Glass980a2842019-07-08 14:25:52 -06001387Extracting files from images
1388----------------------------
1389
1390You can extract files from an existing firmware image created by binman,
Simon Glass75ead662021-03-18 20:25:13 +13001391provided that there is an 'fdtmap' entry in the image. For example::
Simon Glass980a2842019-07-08 14:25:52 -06001392
1393 $ binman extract -i image.bin section/cbfs/u-boot
1394
1395which will write the uncompressed contents of that entry to the file 'u-boot' in
1396the current directory. You can also extract to a particular file, in this case
Simon Glass75ead662021-03-18 20:25:13 +13001397u-boot.bin::
Simon Glass980a2842019-07-08 14:25:52 -06001398
1399 $ binman extract -i image.bin section/cbfs/u-boot -f u-boot.bin
1400
1401It is possible to extract all files into a destination directory, which will
Simon Glass75ead662021-03-18 20:25:13 +13001402put files in subdirectories matching the entry hierarchy::
Simon Glass980a2842019-07-08 14:25:52 -06001403
1404 $ binman extract -i image.bin -O outdir
1405
Simon Glass75ead662021-03-18 20:25:13 +13001406or just a selection::
Simon Glass980a2842019-07-08 14:25:52 -06001407
1408 $ binman extract -i image.bin "*u-boot*" -O outdir
1409
Simon Glass637958f2021-11-23 21:09:50 -07001410Some entry types have alternative formats, for example fdtmap which allows
1411extracted just the devicetree binary without the fdtmap header::
1412
1413 $ binman extract -i /tmp/b/odroid-c4/image.bin -f out.dtb -F fdt fdtmap
1414 $ fdtdump out.dtb
1415 /dts-v1/;
1416 // magic: 0xd00dfeed
1417 // totalsize: 0x8ab (2219)
1418 // off_dt_struct: 0x38
1419 // off_dt_strings: 0x82c
1420 // off_mem_rsvmap: 0x28
1421 // version: 17
1422 // last_comp_version: 2
1423 // boot_cpuid_phys: 0x0
1424 // size_dt_strings: 0x7f
1425 // size_dt_struct: 0x7f4
1426
1427 / {
1428 image-node = "binman";
1429 image-pos = <0x00000000>;
1430 size = <0x0011162b>;
1431 ...
1432
1433Use `-F list` to see what alternative formats are available::
1434
1435 $ binman extract -i /tmp/b/odroid-c4/image.bin -F list
1436 Flag (-F) Entry type Description
1437 fdt fdtmap Extract the devicetree blob from the fdtmap
1438
Simon Glass980a2842019-07-08 14:25:52 -06001439
Simon Glass072959a2019-07-20 12:23:50 -06001440Replacing files in an image
1441---------------------------
1442
1443You can replace files in an existing firmware image created by binman, provided
Simon Glass31cce972021-11-23 21:09:48 -07001444that there is an 'fdtmap' entry in the image. For example::
Simon Glass072959a2019-07-20 12:23:50 -06001445
1446 $ binman replace -i image.bin section/cbfs/u-boot
1447
1448which will write the contents of the file 'u-boot' from the current directory
Simon Glass30033c22019-07-20 12:24:15 -06001449to the that entry, compressing if necessary. If the entry size changes, you must
1450add the 'allow-repack' property to the original image before generating it (see
1451above), otherwise you will get an error.
Simon Glass072959a2019-07-20 12:23:50 -06001452
Simon Glass75ead662021-03-18 20:25:13 +13001453You can also use a particular file, in this case u-boot.bin::
Simon Glass30033c22019-07-20 12:24:15 -06001454
1455 $ binman replace -i image.bin section/cbfs/u-boot -f u-boot.bin
1456
1457It is possible to replace all files from a source directory which uses the same
Simon Glass75ead662021-03-18 20:25:13 +13001458hierarchy as the entries::
Simon Glass30033c22019-07-20 12:24:15 -06001459
1460 $ binman replace -i image.bin -I indir
1461
1462Files that are missing will generate a warning.
1463
Simon Glass75ead662021-03-18 20:25:13 +13001464You can also replace just a selection of entries::
Simon Glass30033c22019-07-20 12:24:15 -06001465
1466 $ binman replace -i image.bin "*u-boot*" -I indir
1467
Simon Glass49b77e82023-03-02 17:02:44 -07001468It is possible to replace whole sections as well, but in that case any
1469information about entries within the section may become outdated. This is
1470because Binman cannot know whether things have moved around or resized within
1471the section, once you have updated its data.
1472
1473Technical note: With 'allow-repack', Binman writes information about the
1474original offset and size properties of each entry, if any were specified, in
1475the 'orig-offset' and 'orig-size' properties. This allows Binman to distinguish
1476between an entry which ended up being packed at an offset (or assigned a size)
1477and an entry which had a particular offset / size requested in the Binman
1478configuration. Where are particular offset / size was requested, this is treated
1479as set in stone, so Binman will ensure it doesn't change. Without this feature,
1480repacking an entry might cause it to disobey the original constraints provided
1481when it was created.
1482
1483 Repacking an image involves
Simon Glass072959a2019-07-20 12:23:50 -06001484
Simon Glassa9223472022-11-09 19:14:49 -07001485.. _`BinmanLogging`:
1486
Ivan Mikhaylov3d80de02023-03-08 01:13:38 +00001487Signing FIT container with private key in an image
1488--------------------------------------------------
1489
1490You can sign FIT container with private key in your image.
1491For example::
1492
1493 $ binman sign -i image.bin -k privatekey -a sha256,rsa4096 fit
1494
1495binman will extract FIT container, sign and replace it immediately.
1496
1497If you want to sign and replace FIT container in place::
1498
1499 $ binman sign -i image.bin -k privatekey -a sha256,rsa4096 -f fit.fit fit
1500
1501which will sign FIT container with private key and replace it immediately
1502inside your image.
1503
1504
Simon Glass233a26a92019-07-08 14:25:49 -06001505Logging
1506-------
1507
1508Binman normally operates silently unless there is an error, in which case it
1509just displays the error. The -D/--debug option can be used to create a full
Simon Glasscaa5f182021-02-06 09:57:28 -07001510backtrace when errors occur. You can use BINMAN_DEBUG=1 when building to select
1511this.
Simon Glass233a26a92019-07-08 14:25:49 -06001512
1513Internally binman logs some output while it is running. This can be displayed
1514by increasing the -v/--verbosity from the default of 1:
1515
1516 0: silent
1517 1: warnings only
1518 2: notices (important messages)
1519 3: info about major operations
1520 4: detailed information about each operation
1521 5: debug (all output)
1522
Simon Glasscaa5f182021-02-06 09:57:28 -07001523You can use BINMAN_VERBOSE=5 (for example) when building to select this.
Simon Glass233a26a92019-07-08 14:25:49 -06001524
Simon Glass72232452016-11-25 20:15:53 -07001525
Simon Glass41424862022-01-09 20:14:12 -07001526Bintools
1527========
1528
1529`Bintool` is the name binman gives to a binary tool which it uses to create and
1530manipulate binaries that binman cannot handle itself. Bintools are often
1531necessary since Binman only supports a subset of the available file formats
1532natively.
1533
1534Many SoC vendors invent ways to load code into their SoC using new file formats,
1535sometimes changing the format with successive SoC generations. Sometimes the
1536tool is available as Open Source. Sometimes it is a pre-compiled binary that
1537must be downloaded from the vendor's website. Sometimes it is available in
1538source form but difficult or slow to build.
1539
1540Even for images that use bintools, binman still assembles the image from its
1541image description. It may handle parts of the image natively and part with
1542various bintools.
1543
1544Binman relies on these tools so provides various features to manage them:
1545
1546- Determining whether the tool is currently installed
1547- Downloading or building the tool
1548- Determining the version of the tool that is installed
1549- Deciding which tools are needed to build an image
1550
1551The Bintool class is an interface to the tool, a thin level of abstration, using
1552Python functions to run the tool for each purpose (e.g. creating a new
1553structure, adding a file to an existing structure) rather than just lists of
1554string arguments.
1555
1556As with external blobs, bintools (which are like 'external' tools) can be
1557missing. When building an image requires a bintool and it is not installed,
1558binman detects this and reports the problem, but continues to build an image.
1559This is useful in CI systems which want to check that everything is correct but
1560don't have access to the bintools.
1561
1562To make this work, all calls to bintools (e.g. with Bintool.run_cmd()) must cope
1563with the tool being missing, i.e. when None is returned, by:
1564
1565- Calling self.record_missing_bintool()
1566- Setting up some fake contents so binman can continue
1567
1568Of course the image will not work, but binman reports which bintools are needed
1569and also provide a way to fetch them.
1570
1571To see the available bintools, use::
1572
1573 binman tool --list
1574
1575To fetch tools which are missing, use::
1576
1577 binman tool --fetch missing
1578
1579You can also use `--fetch all` to fetch all tools or `--fetch <tool>` to fetch
1580a particular tool. Some tools are built from source code, in which case you will
1581need to have at least the `build-essential` and `git` packages installed.
1582
Simon Glass9a1c7262023-02-22 12:14:49 -07001583Tools are fetched into the `~/.binman-tools` directory. This directory is
1584automatically added to the toolpath so there is no need to use `--toolpath` to
1585specify it. If you want to use these tools outside binman, you may want to
1586add this directory to your `PATH`. For example, if you use bash, add this to
1587the end of `.bashrc`::
1588
1589 PATH="$HOME/.binman-tools:$PATH"
1590
1591To select a custom directory, use the `--tooldir` option.
Simon Glassc9114962023-02-22 12:14:48 -07001592
Simon Glass41424862022-01-09 20:14:12 -07001593Bintool Documentation
1594=====================
1595
1596To provide details on the various bintools supported by binman, bintools.rst is
1597generated from the source code using:
1598
1599 binman bintool-docs >tools/binman/bintools.rst
1600
1601.. toctree::
1602 :maxdepth: 2
1603
1604 bintools
1605
Simon Glassa20c0412022-11-09 19:14:54 -07001606Binman commands and arguments
1607=============================
1608
1609Usage::
1610
Simon Glass9a1c7262023-02-22 12:14:49 -07001611 binman [-h] [-B BUILD_DIR] [-D] [--tooldir TOOLDIR] [-H]
1612 [--toolpath TOOLPATH] [-T THREADS] [--test-section-timeout]
1613 [-v VERBOSITY] [-V]
Simon Glassa20c0412022-11-09 19:14:54 -07001614 {build,bintool-docs,entry-docs,ls,extract,replace,test,tool} ...
1615
1616Binman provides the following commands:
1617
1618- **build** - build images
1619- **bintools-docs** - generate documentation about bintools
1620- **entry-docs** - generate documentation about entry types
1621- **ls** - list an image
1622- **extract** - extract files from an image
1623- **replace** - replace one or more entries in an image
1624- **test** - run tests
1625- **tool** - manage bintools
1626
1627Options:
1628
1629-h, --help
1630 Show help message and exit
1631
1632-B BUILD_DIR, --build-dir BUILD_DIR
1633 Directory containing the build output
1634
1635-D, --debug
1636 Enabling debugging (provides a full traceback on error)
1637
Simon Glass9a1c7262023-02-22 12:14:49 -07001638--tooldir TOOLDIR Set the directory to store tools
1639
Simon Glassa20c0412022-11-09 19:14:54 -07001640-H, --full-help
1641 Display the README file
1642
1643--toolpath TOOLPATH
Simon Glass9a1c7262023-02-22 12:14:49 -07001644 Add a path to the list of directories containing tools
Simon Glassa20c0412022-11-09 19:14:54 -07001645
1646-T THREADS, --threads THREADS
1647 Number of threads to use (0=single-thread). Note that -T0 is useful for
1648 debugging since everything runs in one thread.
1649
1650-v VERBOSITY, --verbosity VERBOSITY
1651 Control verbosity: 0=silent, 1=warnings, 2=notices, 3=info, 4=detail,
1652 5=debug
1653
1654-V, --version
1655 Show the binman version
1656
1657Test options:
1658
1659--test-section-timeout
1660 Use a zero timeout for section multi-threading (for testing)
1661
1662Commands are described below.
1663
1664binman build
1665------------
1666
1667This builds one or more images using the provided image description.
1668
1669Usage::
1670
1671 binman build [-h] [-a ENTRY_ARG] [-b BOARD] [-d DT] [--fake-dtb]
1672 [--fake-ext-blobs] [--force-missing-bintools FORCE_MISSING_BINTOOLS]
1673 [-i IMAGE] [-I INDIR] [-m] [-M] [-n] [-O OUTDIR] [-p] [-u]
1674 [--update-fdt-in-elf UPDATE_FDT_IN_ELF] [-W]
1675
1676Options:
1677
1678-h, --help
1679 Show help message and exit
1680
1681-a ENTRY_ARG, --entry-arg ENTRY_ARG
1682 Set argument value `arg=value`. See
1683 `Passing command-line arguments to entries`_.
1684
1685-b BOARD, --board BOARD
1686 Board name to build. This can be used instead of `-d`, in which case the
1687 file `u-boot.dtb` is used, within the build directory's board subdirectory.
1688
1689-d DT, --dt DT
1690 Configuration file (.dtb) to use. This must have a top-level node called
1691 `binman`. See `Image description format`_.
1692
1693-i IMAGE, --image IMAGE
1694 Image filename to build (if not specified, build all)
1695
1696-I INDIR, --indir INDIR
1697 Add a path to the list of directories to use for input files. This can be
1698 specified multiple times to add more than one path.
1699
1700-m, --map
1701 Output a map file for each image. See `Map files`_.
1702
1703-M, --allow-missing
1704 Allow external blobs and bintools to be missing. See `External blobs`_.
1705
1706-n, --no-expanded
1707 Don't use 'expanded' versions of entries where available; normally 'u-boot'
1708 becomes 'u-boot-expanded', for example. See `Expanded entries`_.
1709
1710-O OUTDIR, --outdir OUTDIR
1711 Path to directory to use for intermediate and output files
1712
1713-p, --preserve
1714 Preserve temporary output directory even if option -O is not given
1715
1716-u, --update-fdt
1717 Update the binman node with offset/size info. See
1718 `Access to binman entry offsets at run time (fdt)`_.
1719
1720--update-fdt-in-elf UPDATE_FDT_IN_ELF
1721 Update an ELF file with the output dtb. The argument is a string consisting
1722 of four parts, separated by commas. See `Updating an ELF file`_.
1723
1724-W, --ignore-missing
1725 Return success even if there are missing blobs/bintools (requires -M)
1726
1727Options used only for testing:
1728
1729--fake-dtb
1730 Use fake device tree contents
1731
1732--fake-ext-blobs
1733 Create fake ext blobs with dummy content
1734
1735--force-missing-bintools FORCE_MISSING_BINTOOLS
1736 Comma-separated list of bintools to consider missing
1737
1738binman bintool-docs
1739-------------------
1740
1741Usage::
1742
1743 binman bintool-docs [-h]
1744
1745This outputs documentation for the bintools in rST format. See
1746`Bintool Documentation`_.
1747
1748binman entry-docs
1749-----------------
1750
1751Usage::
1752
1753 binman entry-docs [-h]
1754
1755This outputs documentation for the entry types in rST format. See
1756`Entry Documentation`_.
1757
1758binman ls
1759---------
1760
1761Usage::
1762
1763 binman ls [-h] -i IMAGE [paths ...]
1764
1765Positional arguments:
1766
1767paths
1768 Paths within file to list (wildcard)
1769
1770Pptions:
1771
1772-h, --help
1773 show help message and exit
1774
1775-i IMAGE, --image IMAGE
1776 Image filename to list
1777
1778This lists an image, showing its contents. See `Listing images`_.
1779
1780binman extract
1781--------------
1782
1783Usage::
1784
1785 binman extract [-h] [-F FORMAT] -i IMAGE [-f FILENAME] [-O OUTDIR] [-U]
1786 [paths ...]
1787
1788Positional arguments:
1789
1790Paths
1791 Paths within file to extract (wildcard)
1792
1793Options:
1794
1795-h, --help
1796 show help message and exit
1797
1798-F FORMAT, --format FORMAT
1799 Select an alternative format for extracted data
1800
1801-i IMAGE, --image IMAGE
1802 Image filename to extract
1803
1804-f FILENAME, --filename FILENAME
1805 Output filename to write to
1806
1807-O OUTDIR, --outdir OUTDIR
1808 Path to directory to use for output files
1809
1810-U, --uncompressed
1811 Output raw uncompressed data for compressed entries
1812
1813This extracts the contents of entries from an image. See
1814`Extracting files from images`_.
1815
1816binman replace
1817--------------
1818
1819Usage::
1820
1821 binman replace [-h] [-C] -i IMAGE [-f FILENAME] [-F] [-I INDIR] [-m]
1822 [paths ...]
1823
1824Positional arguments:
1825
1826paths
1827 Paths within file to replace (wildcard)
1828
1829Options:
1830
1831-h, --help
1832 show help message and exit
1833
1834-C, --compressed
1835 Input data is already compressed if needed for the entry
1836
1837-i IMAGE, --image IMAGE
1838 Image filename to update
1839
1840-f FILENAME, --filename FILENAME
1841 Input filename to read from
1842
1843-F, --fix-size
1844 Don't allow entries to be resized
1845
1846-I INDIR, --indir INDIR
1847 Path to directory to use for input files
1848
1849-m, --map
1850 Output a map file for the updated image
1851
Simon Glassb9b9b272023-03-02 17:02:42 -07001852-O OUTDIR, --outdir OUTDIR
1853 Path to directory to use for intermediate and output files
1854
1855-p, --preserve
1856 Preserve temporary output directory even if option -O is not given
1857
Simon Glassa20c0412022-11-09 19:14:54 -07001858This replaces one or more entries in an existing image. See
1859`Replacing files in an image`_.
1860
1861binman test
1862-----------
1863
1864Usage::
1865
1866 binman test [-h] [-P PROCESSES] [-T] [-X] [tests ...]
1867
1868Positional arguments:
1869
1870tests
1871 Test names to run (omit for all)
1872
1873Options:
1874
1875-h, --help
1876 show help message and exit
1877
1878-P PROCESSES, --processes PROCESSES
1879 set number of processes to use for running tests. This defaults to the
1880 number of CPUs on the machine
1881
1882-T, --test-coverage
1883 run tests and check for 100% coverage
1884
1885-X, --test-preserve-dirs
1886 Preserve and display test-created input directories; also preserve the
1887 output directory if a single test is run (pass test name at the end of the
1888 command line
1889
Ivan Mikhaylov3d80de02023-03-08 01:13:38 +00001890binman sign
1891-----------
1892
1893Usage::
1894
1895 binman sign [-h] -a ALGO [-f FILE] -i IMAGE -k KEY [paths ...]
1896
1897positional arguments:
1898
1899paths
1900 Paths within file to sign (wildcard)
1901
1902options:
1903
1904-h, --help
1905 show this help message and exit
1906
1907-a ALGO, --algo ALGO
1908 Hash algorithm e.g. sha256,rsa4096
1909
1910-f FILE, --file FILE
1911 Input filename to sign
1912
1913-i IMAGE, --image IMAGE
1914 Image filename to update
1915
1916-k KEY, --key KEY
1917 Private key file for signing
1918
Simon Glassa20c0412022-11-09 19:14:54 -07001919binman tool
1920-----------
1921
1922Usage::
1923
1924 binman tool [-h] [-l] [-f] [bintools ...]
1925
1926Positional arguments:
1927
1928bintools
1929 Bintools to process
1930
1931Options:
1932
1933-h, --help
1934 show help message and exit
1935
1936-l, --list
1937 List all known bintools
1938
1939-f, --fetch
1940 Fetch a bintool from a known location. Use `all` to fetch all and `missing`
1941 to fetch any missing tools.
1942
Simon Glass41424862022-01-09 20:14:12 -07001943
Simon Glassfa888282021-03-18 20:25:14 +13001944Technical details
1945=================
Simon Glass72232452016-11-25 20:15:53 -07001946
Simon Glass2574ef62016-11-25 20:15:51 -07001947Order of image creation
1948-----------------------
1949
1950Image creation proceeds in the following order, for each entry in the image.
1951
Simon Glasse22f8fa2018-07-06 10:27:41 -060019521. AddMissingProperties() - binman can add calculated values to the device
Simon Glasse8561af2018-08-01 15:22:37 -06001953tree as part of its processing, for example the offset and size of each
Simon Glasse22f8fa2018-07-06 10:27:41 -06001954entry. This method adds any properties associated with this, expanding the
1955device tree as needed. These properties can have placeholder values which are
1956set later by SetCalculatedProperties(). By that stage the size of sections
1957cannot be changed (since it would cause the images to need to be repacked),
1958but the correct values can be inserted.
1959
19602. ProcessFdt() - process the device tree information as required by the
Simon Glass92307732018-07-06 10:27:40 -06001961particular entry. This may involve adding or deleting properties. If the
1962processing is complete, this method should return True. If the processing
1963cannot complete because it needs the ProcessFdt() method of another entry to
1964run first, this method should return False, in which case it will be called
1965again later.
1966
Simon Glasse22f8fa2018-07-06 10:27:41 -060019673. GetEntryContents() - the contents of each entry are obtained, normally by
Simon Glass2574ef62016-11-25 20:15:51 -07001968reading from a file. This calls the Entry.ObtainContents() to read the
1969contents. The default version of Entry.ObtainContents() calls
1970Entry.GetDefaultFilename() and then reads that file. So a common mechanism
1971to select a file to read is to override that function in the subclass. The
1972functions must return True when they have read the contents. Binman will
1973retry calling the functions a few times if False is returned, allowing
1974dependencies between the contents of different entries.
1975
Simon Glasse8561af2018-08-01 15:22:37 -060019764. GetEntryOffsets() - calls Entry.GetOffsets() for each entry. This can
Simon Glass2574ef62016-11-25 20:15:51 -07001977return a dict containing entries that need updating. The key should be the
Simon Glasse8561af2018-08-01 15:22:37 -06001978entry name and the value is a tuple (offset, size). This allows an entry to
1979provide the offset and size for other entries. The default implementation
1980of GetEntryOffsets() returns {}.
Simon Glass2574ef62016-11-25 20:15:51 -07001981
Simon Glasse8561af2018-08-01 15:22:37 -060019825. PackEntries() - calls Entry.Pack() which figures out the offset and
1983size of an entry. The 'current' image offset is passed in, and the function
1984returns the offset immediately after the entry being packed. The default
Simon Glass2574ef62016-11-25 20:15:51 -07001985implementation of Pack() is usually sufficient.
1986
Simon Glass2d9570d2020-10-26 17:40:22 -06001987Note: for sections, this also checks that the entries do not overlap, nor extend
1988outside the section. If the section does not have a defined size, the size is
Simon Glassf1ee03b2023-01-11 16:10:16 -07001989set large enough to hold all the entries. For entries that are explicitly marked
1990as overlapping, this check is skipped.
Simon Glass2574ef62016-11-25 20:15:51 -07001991
Simon Glass2d9570d2020-10-26 17:40:22 -060019926. SetImagePos() - sets the image position of every entry. This is the absolute
Simon Glass4b05b2d2019-07-20 12:23:52 -06001993position 'image-pos', as opposed to 'offset' which is relative to the containing
1994section. This must be done after all offsets are known, which is why it is quite
1995late in the ordering.
1996
Simon Glass2d9570d2020-10-26 17:40:22 -060019977. SetCalculatedProperties() - update any calculated properties in the device
Simon Glasse8561af2018-08-01 15:22:37 -06001998tree. This sets the correct 'offset' and 'size' vaues, for example.
Simon Glasse22f8fa2018-07-06 10:27:41 -06001999
Simon Glass2d9570d2020-10-26 17:40:22 -060020008. ProcessEntryContents() - this calls Entry.ProcessContents() on each entry.
Simon Glass2574ef62016-11-25 20:15:51 -07002001The default implementatoin does nothing. This can be overriden to adjust the
2002contents of an entry in some way. For example, it would be possible to create
2003an entry containing a hash of the contents of some other entries. At this
Simon Glasse61b6f62019-07-08 14:25:37 -06002004stage the offset and size of entries should not be adjusted unless absolutely
2005necessary, since it requires a repack (going back to PackEntries()).
Simon Glass2574ef62016-11-25 20:15:51 -07002006
Simon Glass2d9570d2020-10-26 17:40:22 -060020079. ResetForPack() - if the ProcessEntryContents() step failed, in that an entry
Simon Glass4b05b2d2019-07-20 12:23:52 -06002008has changed its size, then there is no alternative but to go back to step 5 and
2009try again, repacking the entries with the updated size. ResetForPack() removes
2010the fixed offset/size values added by binman, so that the packing can start from
2011scratch.
2012
Simon Glass2d9570d2020-10-26 17:40:22 -0600201310. WriteSymbols() - write the value of symbols into the U-Boot SPL binary.
Simon Glasse8561af2018-08-01 15:22:37 -06002014See 'Access to binman entry offsets at run time' below for a description of
Simon Glass29dae672018-07-06 10:27:39 -06002015what happens in this stage.
Simon Glassbe83bc72017-11-13 18:55:05 -07002016
Simon Glass2d9570d2020-10-26 17:40:22 -0600201711. BuildImage() - builds the image and writes it to a file
Simon Glass4b05b2d2019-07-20 12:23:52 -06002018
Simon Glass2d9570d2020-10-26 17:40:22 -0600201912. WriteMap() - writes a text file containing a map of the image. This is the
Simon Glass4b05b2d2019-07-20 12:23:52 -06002020final step.
Simon Glass2574ef62016-11-25 20:15:51 -07002021
2022
Simon Glassa9223472022-11-09 19:14:49 -07002023.. _`External tools`:
2024
Simon Glass6244fa42019-07-08 13:18:28 -06002025External tools
2026--------------
2027
2028Binman can make use of external command-line tools to handle processing of
2029entry contents or to generate entry contents. These tools are executed using
2030the 'tools' module's Run() method. The tools generally must exist on the PATH,
2031but the --toolpath option can be used to specify additional search paths to
2032use. This option can be specified multiple times to add more than one path.
2033
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03002034For some compile tools binman will use the versions specified by commonly-used
2035environment variables like CC and HOSTCC for the C compiler, based on whether
2036the tool's output will be used for the target or for the host machine. If those
2037aren't given, it will also try to derive target-specific versions from the
2038CROSS_COMPILE environment variable during a cross-compilation.
2039
Simon Glass31cce972021-11-23 21:09:48 -07002040If the tool is not available in the path you can use BINMAN_TOOLPATHS to specify
2041a space-separated list of paths to search, e.g.::
2042
2043 BINMAN_TOOLPATHS="/tools/g12a /tools/tegra" binman ...
2044
2045
Simon Glassa9223472022-11-09 19:14:49 -07002046.. _`External blobs`:
2047
Simon Glass31cce972021-11-23 21:09:48 -07002048External blobs
2049--------------
2050
2051Binary blobs, even if the source code is available, complicate building
2052firmware. The instructions can involve multiple steps and the binaries may be
2053hard to build or obtain. Binman at least provides a unified description of how
2054to build the final image, no matter what steps are needed to get there.
2055
2056Binman also provides a `blob-ext` entry type that pulls in a binary blob from an
2057external file. If the file is missing, binman can optionally complete the build
2058and just report a warning. Use the `-M/--allow-missing` option to enble this.
2059This is useful in CI systems which want to check that everything is correct but
2060don't have access to the blobs.
2061
2062If the blobs are in a different directory, you can specify this with the `-I`
2063option.
2064
2065For U-Boot, you can use set the BINMAN_INDIRS environment variable to provide a
2066space-separated list of directories to search for binary blobs::
2067
2068 BINMAN_INDIRS="odroid-c4/fip/g12a \
2069 odroid-c4/build/board/hardkernel/odroidc4/firmware \
2070 odroid-c4/build/scp_task" binman ...
Simon Glass6244fa42019-07-08 13:18:28 -06002071
Simon Glass6bce5dc2022-11-09 19:14:42 -07002072Note that binman fails with exit code 103 when there are missing blobs. If you
2073wish binman to continue anyway, you can pass `-W` to binman.
2074
2075
Simon Glass52debad2016-11-25 20:15:59 -07002076Code coverage
2077-------------
2078
2079Binman is a critical tool and is designed to be very testable. Entry
Simon Glassf46732a2019-07-08 14:25:29 -06002080implementations target 100% test coverage. Run 'binman test -T' to check this.
Simon Glass52debad2016-11-25 20:15:59 -07002081
Simon Glass75ead662021-03-18 20:25:13 +13002082To enable Python test coverage on Debian-type distributions (e.g. Ubuntu)::
Simon Glass52debad2016-11-25 20:15:59 -07002083
Simon Glassa16dd6e2019-07-08 13:18:26 -06002084 $ sudo apt-get install python-coverage python3-coverage python-pytest
Simon Glass52debad2016-11-25 20:15:59 -07002085
2086
Simon Glass6bce5dc2022-11-09 19:14:42 -07002087Exit status
2088-----------
2089
2090Binman produces the following exit codes:
2091
20920
2093 Success
2094
20951
2096 Any sort of failure - see output for more details
2097
2098103
2099 There are missing external blobs or bintools. This is only returned if
2100 -M is passed to binman, otherwise missing blobs return an exit status of 1.
2101 Note, if -W is passed as well as -M, then this is converted into a warning
2102 and will return an exit status of 0 instead.
2103
2104
Simon Glassa9223472022-11-09 19:14:49 -07002105U-Boot environment variables for binman
2106---------------------------------------
2107
2108The U-Boot Makefile supports various environment variables to control binman.
2109All of these are set within the Makefile and result in passing various
2110environment variables (or make flags) to binman:
2111
2112BINMAN_DEBUG
2113 Enables backtrace debugging by adding a `-D` argument. See
2114 :ref:`BinmanLogging`.
2115
2116BINMAN_INDIRS
2117 Sets the search path for input files used by binman by adding one or more
2118 `-I` arguments. See :ref:`External blobs`.
2119
2120BINMAN_TOOLPATHS
2121 Sets the search path for external tool used by binman by adding one or more
2122 `--toolpath` arguments. See :ref:`External tools`.
2123
2124BINMAN_VERBOSE
2125 Sets the logging verbosity of binman by adding a `-v` argument. See
2126 :ref:`BinmanLogging`.
2127
2128
Simon Glassddd5e1d2022-01-23 12:55:46 -07002129Error messages
2130--------------
2131
2132This section provides some guidance for some of the less obvious error messages
2133produced by binman.
2134
2135
2136Expected __bss_size symbol
2137~~~~~~~~~~~~~~~~~~~~~~~~~~
2138
2139Example::
2140
2141 binman: Node '/binman/u-boot-spl-ddr/u-boot-spl/u-boot-spl-bss-pad':
2142 Expected __bss_size symbol in spl/u-boot-spl
2143
2144This indicates that binman needs the `__bss_size` symbol to be defined in the
2145SPL binary, where `spl/u-boot-spl` is the ELF file containing the symbols. The
2146symbol tells binman the size of the BSS region, in bytes. It needs this to be
2147able to pad the image so that the following entries do not overlap the BSS,
2148which would cause them to be overwritte by variable access in SPL.
2149
2150This symbols is normally defined in the linker script, immediately after
2151_bss_start and __bss_end are defined, like this::
2152
2153 __bss_size = __bss_end - __bss_start;
2154
2155You may need to add it to your linker script if you get this error.
2156
2157
Simon Glass1aeb7512019-05-17 22:00:52 -06002158Concurrent tests
2159----------------
2160
2161Binman tries to run tests concurrently. This means that the tests make use of
2162all available CPUs to run.
2163
Simon Glass75ead662021-03-18 20:25:13 +13002164 To enable this::
Simon Glass1aeb7512019-05-17 22:00:52 -06002165
2166 $ sudo apt-get install python-subunit python3-subunit
2167
2168Use '-P 1' to disable this. It is automatically disabled when code coverage is
2169being used (-T) since they are incompatible.
2170
2171
Simon Glass1c420c92019-07-08 13:18:49 -06002172Debugging tests
2173---------------
2174
2175Sometimes when debugging tests it is useful to keep the input and output
2176directories so they can be examined later. Use -X or --test-preserve-dirs for
2177this.
2178
2179
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03002180Running tests on non-x86 architectures
2181--------------------------------------
2182
2183Binman's tests have been written under the assumption that they'll be run on a
2184x86-like host and there hasn't been an attempt to make them portable yet.
2185However, it's possible to run the tests by cross-compiling to x86.
2186
Simon Glass75ead662021-03-18 20:25:13 +13002187To install an x86 cross-compiler on Debian-type distributions (e.g. Ubuntu)::
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03002188
2189 $ sudo apt-get install gcc-x86-64-linux-gnu
2190
Simon Glass75ead662021-03-18 20:25:13 +13002191Then, you can run the tests under cross-compilation::
Alper Nebi Yasakfb4e5382020-09-06 14:46:07 +03002192
2193 $ CROSS_COMPILE=x86_64-linux-gnu- binman test -T
2194
2195You can also use gcc-i686-linux-gnu similar to the above.
2196
2197
Simon Glassfa888282021-03-18 20:25:14 +13002198Writing new entries and debugging
2199---------------------------------
Simon Glass2574ef62016-11-25 20:15:51 -07002200
2201The behaviour of entries is defined by the Entry class. All other entries are
2202a subclass of this. An important subclass is Entry_blob which takes binary
2203data from a file and places it in the entry. In fact most entry types are
2204subclasses of Entry_blob.
2205
2206Each entry type is a separate file in the tools/binman/etype directory. Each
2207file contains a class called Entry_<type> where <type> is the entry type.
2208New entry types can be supported by adding new files in that directory.
2209These will automatically be detected by binman when needed.
2210
2211Entry properties are documented in entry.py. The entry subclasses are free
2212to change the values of properties to support special behaviour. For example,
2213when Entry_blob loads a file, it sets content_size to the size of the file.
2214Entry classes can adjust other entries. For example, an entry that knows
Simon Glasse8561af2018-08-01 15:22:37 -06002215where other entries should be positioned can set up those entries' offsets
Simon Glass2574ef62016-11-25 20:15:51 -07002216so they don't need to be set in the binman decription. It can also adjust
2217entry contents.
2218
2219Most of the time such essoteric behaviour is not needed, but it can be
2220essential for complex images.
2221
Simon Glassade2ef62017-12-24 12:12:07 -07002222If you need to specify a particular device-tree compiler to use, you can define
2223the DTC environment variable. This can be useful when the system dtc is too
2224old.
2225
Simon Glasse64a0922018-11-06 15:21:31 -07002226To enable a full backtrace and other debugging features in binman, pass
Simon Glass75ead662021-03-18 20:25:13 +13002227BINMAN_DEBUG=1 to your build::
Simon Glasse64a0922018-11-06 15:21:31 -07002228
Bin Menga089c412019-10-02 19:07:29 -07002229 make qemu-x86_defconfig
Simon Glasse64a0922018-11-06 15:21:31 -07002230 make BINMAN_DEBUG=1
2231
Simon Glass03b1d8f2019-09-25 08:11:11 -06002232To enable verbose logging from binman, base BINMAN_VERBOSE to your build, which
Simon Glass75ead662021-03-18 20:25:13 +13002233adds a -v<level> option to the call to binman::
Simon Glass03b1d8f2019-09-25 08:11:11 -06002234
Bin Menga089c412019-10-02 19:07:29 -07002235 make qemu-x86_defconfig
Simon Glass03b1d8f2019-09-25 08:11:11 -06002236 make BINMAN_VERBOSE=5
2237
Simon Glass2574ef62016-11-25 20:15:51 -07002238
Simon Glass76f496d2021-07-06 10:36:37 -06002239Building sections in parallel
2240-----------------------------
2241
2242By default binman uses multiprocessing to speed up compilation of large images.
2243This works at a section level, with one thread for each entry in the section.
2244This can speed things up if the entries are large and use compression.
2245
2246This feature can be disabled with the '-T' flag, which defaults to a suitable
2247value for your machine. This depends on the Python version, e.g on v3.8 it uses
224812 threads on an 8-core machine. See ConcurrentFutures_ for more details.
2249
2250The special value -T0 selects single-threaded mode, useful for debugging during
2251development, since dealing with exceptions and problems in threads is more
2252difficult. This avoids any use of ThreadPoolExecutor.
2253
2254
Simon Glass6fba35c2022-02-08 11:50:00 -07002255Collecting data for an entry type
2256---------------------------------
2257
2258Some entry types deal with data obtained from others. For example,
2259`Entry_mkimage` calls the `mkimage` tool with data from its subnodes::
2260
2261 mkimage {
2262 args = "-n test -T script";
2263
2264 u-boot-spl {
2265 };
2266
2267 u-boot {
2268 };
2269 };
2270
2271This shows mkimage being passed a file consisting of SPL and U-Boot proper. It
Simon Glass43a98cc2022-03-05 20:18:58 -07002272is created by calling `Entry.collect_contents_to_file()`. Note that in this
2273case, the data is passed to mkimage for processing but does not appear
2274separately in the image. It may not appear at all, depending on what mkimage
2275does. The contents of the `mkimage` entry are entirely dependent on the
2276processing done by the entry, with the provided subnodes (`u-boot-spl` and
2277`u-boot`) simply providing the input data for that processing.
Simon Glass6fba35c2022-02-08 11:50:00 -07002278
2279Note that `Entry.collect_contents_to_file()` simply concatenates the data from
2280the different entries together, with no control over alignment, etc. Another
2281approach is to subclass `Entry_section` so that those features become available,
2282such as `size` and `pad-byte`. Then the contents of the entry can be obtained by
Simon Glass43a98cc2022-03-05 20:18:58 -07002283calling `super().BuildSectionData()` in the entry's BuildSectionData()
2284implementation to get the input data, then write it to a file and process it
2285however is desired.
Simon Glass6fba35c2022-02-08 11:50:00 -07002286
2287There are other ways to obtain data also, depending on the situation. If the
2288entry type is simply signing data which exists elsewhere in the image, then
2289you can use `Entry_collection` as a base class. It lets you use a property
2290called `content` which lists the entries containing data to be processed. This
2291is used by `Entry_vblock`, for example::
2292
2293 u_boot: u-boot {
2294 };
Simon Glass43a98cc2022-03-05 20:18:58 -07002295
Simon Glass6fba35c2022-02-08 11:50:00 -07002296 vblock {
2297 content = <&u_boot &dtb>;
2298 keyblock = "firmware.keyblock";
2299 signprivate = "firmware_data_key.vbprivk";
2300 version = <1>;
2301 kernelkey = "kernel_subkey.vbpubk";
2302 preamble-flags = <1>;
2303 };
2304
2305 dtb: u-boot-dtb {
2306 };
2307
2308which shows an image containing `u-boot` and `u-boot-dtb`, with the `vblock`
2309image collecting their contents to produce input for its signing process,
2310without affecting those entries, which still appear in the final image
2311untouched.
2312
2313Another example is where an entry type needs several independent pieces of input
2314to function. For example, `Entry_fip` allows a number of different binary blobs
2315to be placed in their own individual places in a custom data structure in the
2316output image. To make that work you can add subnodes for each of them and call
2317`Entry.Create()` on each subnode, as `Entry_fip` does. Then the data for each
2318blob can come from any suitable place, such as an `Entry_u_boot` or an
2319`Entry_blob` or anything else::
2320
2321 atf-fip {
2322 fip-hdr-flags = /bits/ 64 <0x123>;
2323 soc-fw {
2324 fip-flags = /bits/ 64 <0x123456789abcdef>;
2325 filename = "bl31.bin";
2326 };
2327
2328 u-boot {
2329 fip-uuid = [fc 65 13 92 4a 5b 11 ec
2330 94 35 ff 2d 1c fc 79 9c];
2331 };
2332 };
2333
2334The `soc-fw` node is a `blob-ext` (i.e. it reads in a named binary file) whereas
2335`u-boot` is a normal entry type. This works because `Entry_fip` selects the
2336`blob-ext` entry type if the node name (here `soc-fw`) is recognised as being
2337a known blob type.
2338
2339When adding new entry types you are encouraged to use subnodes to provide the
Simon Glass43a98cc2022-03-05 20:18:58 -07002340data for processing, unless the `content` approach is more suitable. Consider
2341whether the input entries are contained within (or consumed by) the entry, vs
2342just being 'referenced' by the entry. In the latter case, the `content` approach
2343makes more sense. Ad-hoc properties and other methods of obtaining data are
2344discouraged, since it adds to confusion for users.
Simon Glass6fba35c2022-02-08 11:50:00 -07002345
Simon Glass2574ef62016-11-25 20:15:51 -07002346History / Credits
2347-----------------
2348
2349Binman takes a lot of inspiration from a Chrome OS tool called
2350'cros_bundle_firmware', which I wrote some years ago. That tool was based on
2351a reasonably simple and sound design but has expanded greatly over the
2352years. In particular its handling of x86 images is convoluted.
2353
Simon Glass1e324002018-06-01 09:38:19 -06002354Quite a few lessons have been learned which are hopefully applied here.
Simon Glass2574ef62016-11-25 20:15:51 -07002355
2356
2357Design notes
2358------------
2359
2360On the face of it, a tool to create firmware images should be fairly simple:
2361just find all the input binaries and place them at the right place in the
2362image. The difficulty comes from the wide variety of input types (simple
2363flat binaries containing code, packaged data with various headers), packing
2364requirments (alignment, spacing, device boundaries) and other required
2365features such as hierarchical images.
2366
2367The design challenge is to make it easy to create simple images, while
2368allowing the more complex cases to be supported. For example, for most
2369images we don't much care exactly where each binary ends up, so we should
2370not have to specify that unnecessarily.
2371
2372New entry types should aim to provide simple usage where possible. If new
2373core features are needed, they can be added in the Entry base class.
2374
2375
2376To do
2377-----
2378
2379Some ideas:
Simon Glass75ead662021-03-18 20:25:13 +13002380
Simon Glass2574ef62016-11-25 20:15:51 -07002381- Use of-platdata to make the information available to code that is unable
Simon Glass774b23f2021-03-18 20:25:17 +13002382 to use device tree (such as a very small SPL image). For now, limited info is
2383 available via linker symbols
Simon Glass2574ef62016-11-25 20:15:51 -07002384- Allow easy building of images by specifying just the board name
Simon Glass2574ef62016-11-25 20:15:51 -07002385- Support building an image for a board (-b) more completely, with a
2386 configurable build directory
Simon Glass8100a8e2019-07-20 12:24:02 -06002387- Detect invalid properties in nodes
2388- Sort the fdtmap by offset
Simon Glass01ab2292021-01-06 21:35:12 -07002389- Output temporary files to a different directory
Simon Glasse87009da2022-02-08 11:49:57 -07002390- Rationalise the fdt, fdt_util and pylibfdt modules which currently have some
2391 overlapping and confusing functionality
2392- Update the fdt library to use a better format for Prop.value (the current one
2393 is useful for dtoc but not much else)
2394- Figure out how to make Fdt support changing the node order, so that
2395 Node.AddSubnode() can support adding a node before another, existing node.
2396 Perhaps it should completely regenerate the flat tree?
Simon Glassfca38562022-08-18 02:16:46 -06002397- Support images which depend on each other
Simon Glass2574ef62016-11-25 20:15:51 -07002398
2399--
2400Simon Glass <sjg@chromium.org>
24017/7/2016
Simon Glass76f496d2021-07-06 10:36:37 -06002402
2403.. _ConcurrentFutures: https://docs.python.org/3/library/concurrent.futures.html#concurrent.futures.ThreadPoolExecutor