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Dan Handley610e7e12018-03-01 18:44:00 +00001Trusted Firmware-A User Guide
2=============================
Douglas Raillardd7c21b72017-06-28 15:23:03 +01003
4
5.. section-numbering::
6 :suffix: .
7
8.. contents::
9
Dan Handley610e7e12018-03-01 18:44:00 +000010This document describes how to build Trusted Firmware-A (TF-A) and run it with a
Douglas Raillardd7c21b72017-06-28 15:23:03 +010011tested set of other software components using defined configurations on the Juno
Dan Handley610e7e12018-03-01 18:44:00 +000012Arm development platform and Arm Fixed Virtual Platform (FVP) models. It is
Douglas Raillardd7c21b72017-06-28 15:23:03 +010013possible to use other software components, configurations and platforms but that
14is outside the scope of this document.
15
16This document assumes that the reader has previous experience running a fully
17bootable Linux software stack on Juno or FVP using the prebuilt binaries and
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +010018filesystems provided by `Linaro`_. Further information may be found in the
19`Linaro instructions`_. It also assumes that the user understands the role of
20the different software components required to boot a Linux system:
Douglas Raillardd7c21b72017-06-28 15:23:03 +010021
22- Specific firmware images required by the platform (e.g. SCP firmware on Juno)
23- Normal world bootloader (e.g. UEFI or U-Boot)
24- Device tree
25- Linux kernel image
26- Root filesystem
27
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +010028This document also assumes that the user is familiar with the `FVP models`_ and
Douglas Raillardd7c21b72017-06-28 15:23:03 +010029the different command line options available to launch the model.
30
31This document should be used in conjunction with the `Firmware Design`_.
32
33Host machine requirements
34-------------------------
35
36The minimum recommended machine specification for building the software and
37running the FVP models is a dual-core processor running at 2GHz with 12GB of
38RAM. For best performance, use a machine with a quad-core processor running at
392.6GHz with 16GB of RAM.
40
Joel Huttonfe027712018-03-19 11:59:57 +000041The software has been tested on Ubuntu 16.04 LTS (64-bit). Packages used for
Douglas Raillardd7c21b72017-06-28 15:23:03 +010042building the software were installed from that distribution unless otherwise
43specified.
44
45The software has also been built on Windows 7 Enterprise SP1, using CMD.EXE,
David Cunadob2de0992017-06-29 12:01:33 +010046Cygwin, and Msys (MinGW) shells, using version 5.3.1 of the GNU toolchain.
Douglas Raillardd7c21b72017-06-28 15:23:03 +010047
48Tools
49-----
50
Dan Handley610e7e12018-03-01 18:44:00 +000051Install the required packages to build TF-A with the following command:
Douglas Raillardd7c21b72017-06-28 15:23:03 +010052
53::
54
Sathees Balya2d0aeb02018-07-10 14:46:51 +010055 sudo apt-get install device-tree-compiler build-essential gcc make git libssl-dev
Douglas Raillardd7c21b72017-06-28 15:23:03 +010056
David Cunado05845bf2017-12-19 16:33:25 +000057TF-A has been tested with Linaro Release 18.04.
David Cunadob2de0992017-06-29 12:01:33 +010058
Douglas Raillardd7c21b72017-06-28 15:23:03 +010059Download and install the AArch32 or AArch64 little-endian GCC cross compiler.
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +010060The `Linaro Release Notes`_ documents which version of the compiler to use for a
61given Linaro Release. Also, these `Linaro instructions`_ provide further
62guidance and a script, which can be used to download Linaro deliverables
63automatically.
Douglas Raillardd7c21b72017-06-28 15:23:03 +010064
Roberto Vargas0489bc02018-04-16 15:43:26 +010065Optionally, TF-A can be built using clang version 4.0 or newer or Arm
66Compiler 6. See instructions below on how to switch the default compiler.
Douglas Raillardd7c21b72017-06-28 15:23:03 +010067
68In addition, the following optional packages and tools may be needed:
69
Sathees Balya017a67e2018-08-17 10:22:01 +010070- ``device-tree-compiler`` (dtc) package if you need to rebuild the Flattened Device
71 Tree (FDT) source files (``.dts`` files) provided with this software. The
72 version of dtc must be 1.4.6 or above.
Douglas Raillardd7c21b72017-06-28 15:23:03 +010073
Dan Handley610e7e12018-03-01 18:44:00 +000074- For debugging, Arm `Development Studio 5 (DS-5)`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +010075
Antonio Nino Diazb5d68092017-05-23 11:49:22 +010076- To create and modify the diagram files included in the documentation, `Dia`_.
77 This tool can be found in most Linux distributions. Inkscape is needed to
Antonio Nino Diaz80914a82018-08-08 16:28:43 +010078 generate the actual \*.png files.
Antonio Nino Diazb5d68092017-05-23 11:49:22 +010079
Dan Handley610e7e12018-03-01 18:44:00 +000080Getting the TF-A source code
81----------------------------
Douglas Raillardd7c21b72017-06-28 15:23:03 +010082
Dan Handley610e7e12018-03-01 18:44:00 +000083Download the TF-A source code from Github:
Douglas Raillardd7c21b72017-06-28 15:23:03 +010084
85::
86
87 git clone https://github.com/ARM-software/arm-trusted-firmware.git
88
Paul Beesley8b4bdeb2019-01-21 12:06:24 +000089Checking source code style
90~~~~~~~~~~~~~~~~~~~~~~~~~~
91
92Trusted Firmware follows the `Linux Coding Style`_ . When making changes to the
93source, for submission to the project, the source must be in compliance with
94this style guide.
95
96Additional, project-specific guidelines are defined in the `Trusted Firmware-A
97Coding Guidelines`_ document.
98
99To assist with coding style compliance, the project Makefile contains two
100targets which both utilise the `checkpatch.pl` script that ships with the Linux
101source tree. The project also defines certain *checkpatch* options in the
102``.checkpatch.conf`` file in the top-level directory.
103
104**Note:** Checkpatch errors will gate upstream merging of pull requests.
105Checkpatch warnings will not gate merging but should be reviewed and fixed if
106possible.
107
108To check the entire source tree, you must first download copies of
109``checkpatch.pl``, ``spelling.txt`` and ``const_structs.checkpatch`` available
110in the `Linux master tree`_ *scripts* directory, then set the ``CHECKPATCH``
111environment variable to point to ``checkpatch.pl`` (with the other 2 files in
112the same directory) and build the `checkcodebase` target:
113
114::
115
116 make CHECKPATCH=<path-to-linux>/linux/scripts/checkpatch.pl checkcodebase
117
118To just check the style on the files that differ between your local branch and
119the remote master, use:
120
121::
122
123 make CHECKPATCH=<path-to-linux>/linux/scripts/checkpatch.pl checkpatch
124
125If you wish to check your patch against something other than the remote master,
126set the ``BASE_COMMIT`` variable to your desired branch. By default, ``BASE_COMMIT``
127is set to ``origin/master``.
128
Dan Handley610e7e12018-03-01 18:44:00 +0000129Building TF-A
130-------------
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100131
Dan Handley610e7e12018-03-01 18:44:00 +0000132- Before building TF-A, the environment variable ``CROSS_COMPILE`` must point
133 to the Linaro cross compiler.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100134
135 For AArch64:
136
137 ::
138
139 export CROSS_COMPILE=<path-to-aarch64-gcc>/bin/aarch64-linux-gnu-
140
141 For AArch32:
142
143 ::
144
145 export CROSS_COMPILE=<path-to-aarch32-gcc>/bin/arm-linux-gnueabihf-
146
Roberto Vargas07b1e242018-04-23 08:38:12 +0100147 It is possible to build TF-A using Clang or Arm Compiler 6. To do so
148 ``CC`` needs to point to the clang or armclang binary, which will
149 also select the clang or armclang assembler. Be aware that the
150 GNU linker is used by default. In case of being needed the linker
Paul Beesley1fbc97b2019-01-11 18:26:51 +0000151 can be overridden using the ``LD`` variable. Clang linker version 6 is
Roberto Vargas07b1e242018-04-23 08:38:12 +0100152 known to work with TF-A.
153
154 In both cases ``CROSS_COMPILE`` should be set as described above.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100155
Dan Handley610e7e12018-03-01 18:44:00 +0000156 Arm Compiler 6 will be selected when the base name of the path assigned
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100157 to ``CC`` matches the string 'armclang'.
158
Dan Handley610e7e12018-03-01 18:44:00 +0000159 For AArch64 using Arm Compiler 6:
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100160
161 ::
162
163 export CROSS_COMPILE=<path-to-aarch64-gcc>/bin/aarch64-linux-gnu-
164 make CC=<path-to-armclang>/bin/armclang PLAT=<platform> all
165
166 Clang will be selected when the base name of the path assigned to ``CC``
167 contains the string 'clang'. This is to allow both clang and clang-X.Y
168 to work.
169
170 For AArch64 using clang:
171
172 ::
173
174 export CROSS_COMPILE=<path-to-aarch64-gcc>/bin/aarch64-linux-gnu-
175 make CC=<path-to-clang>/bin/clang PLAT=<platform> all
176
Dan Handley610e7e12018-03-01 18:44:00 +0000177- Change to the root directory of the TF-A source tree and build.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100178
179 For AArch64:
180
181 ::
182
183 make PLAT=<platform> all
184
185 For AArch32:
186
187 ::
188
189 make PLAT=<platform> ARCH=aarch32 AARCH32_SP=sp_min all
190
191 Notes:
192
193 - If ``PLAT`` is not specified, ``fvp`` is assumed by default. See the
194 `Summary of build options`_ for more information on available build
195 options.
196
197 - (AArch32 only) Currently only ``PLAT=fvp`` is supported.
198
199 - (AArch32 only) ``AARCH32_SP`` is the AArch32 EL3 Runtime Software and it
200 corresponds to the BL32 image. A minimal ``AARCH32_SP``, sp\_min, is
Dan Handley610e7e12018-03-01 18:44:00 +0000201 provided by TF-A to demonstrate how PSCI Library can be integrated with
202 an AArch32 EL3 Runtime Software. Some AArch32 EL3 Runtime Software may
203 include other runtime services, for example Trusted OS services. A guide
204 to integrate PSCI library with AArch32 EL3 Runtime Software can be found
205 `here`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100206
207 - (AArch64 only) The TSP (Test Secure Payload), corresponding to the BL32
208 image, is not compiled in by default. Refer to the
209 `Building the Test Secure Payload`_ section below.
210
211 - By default this produces a release version of the build. To produce a
212 debug version instead, refer to the "Debugging options" section below.
213
214 - The build process creates products in a ``build`` directory tree, building
215 the objects and binaries for each boot loader stage in separate
216 sub-directories. The following boot loader binary files are created
217 from the corresponding ELF files:
218
219 - ``build/<platform>/<build-type>/bl1.bin``
220 - ``build/<platform>/<build-type>/bl2.bin``
221 - ``build/<platform>/<build-type>/bl31.bin`` (AArch64 only)
222 - ``build/<platform>/<build-type>/bl32.bin`` (mandatory for AArch32)
223
224 where ``<platform>`` is the name of the chosen platform and ``<build-type>``
225 is either ``debug`` or ``release``. The actual number of images might differ
226 depending on the platform.
227
228- Build products for a specific build variant can be removed using:
229
230 ::
231
232 make DEBUG=<D> PLAT=<platform> clean
233
234 ... where ``<D>`` is ``0`` or ``1``, as specified when building.
235
236 The build tree can be removed completely using:
237
238 ::
239
240 make realclean
241
242Summary of build options
243~~~~~~~~~~~~~~~~~~~~~~~~
244
Dan Handley610e7e12018-03-01 18:44:00 +0000245The TF-A build system supports the following build options. Unless mentioned
246otherwise, these options are expected to be specified at the build command
247line and are not to be modified in any component makefiles. Note that the
248build system doesn't track dependency for build options. Therefore, if any of
249the build options are changed from a previous build, a clean build must be
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100250performed.
251
252Common build options
253^^^^^^^^^^^^^^^^^^^^
254
Antonio Nino Diaz80914a82018-08-08 16:28:43 +0100255- ``AARCH32_INSTRUCTION_SET``: Choose the AArch32 instruction set that the
256 compiler should use. Valid values are T32 and A32. It defaults to T32 due to
257 code having a smaller resulting size.
258
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100259- ``AARCH32_SP`` : Choose the AArch32 Secure Payload component to be built as
260 as the BL32 image when ``ARCH=aarch32``. The value should be the path to the
261 directory containing the SP source, relative to the ``bl32/``; the directory
262 is expected to contain a makefile called ``<aarch32_sp-value>.mk``.
263
Dan Handley610e7e12018-03-01 18:44:00 +0000264- ``ARCH`` : Choose the target build architecture for TF-A. It can take either
265 ``aarch64`` or ``aarch32`` as values. By default, it is defined to
266 ``aarch64``.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100267
Dan Handley610e7e12018-03-01 18:44:00 +0000268- ``ARM_ARCH_MAJOR``: The major version of Arm Architecture to target when
269 compiling TF-A. Its value must be numeric, and defaults to 8 . See also,
270 *Armv8 Architecture Extensions* and *Armv7 Architecture Extensions* in
271 `Firmware Design`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100272
Dan Handley610e7e12018-03-01 18:44:00 +0000273- ``ARM_ARCH_MINOR``: The minor version of Arm Architecture to target when
274 compiling TF-A. Its value must be a numeric, and defaults to 0. See also,
275 *Armv8 Architecture Extensions* in `Firmware Design`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100276
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100277- ``BL2``: This is an optional build option which specifies the path to BL2
Dan Handley610e7e12018-03-01 18:44:00 +0000278 image for the ``fip`` target. In this case, the BL2 in the TF-A will not be
279 built.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100280
281- ``BL2U``: This is an optional build option which specifies the path to
Dan Handley610e7e12018-03-01 18:44:00 +0000282 BL2U image. In this case, the BL2U in TF-A will not be built.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100283
John Tsichritzisee10e792018-06-06 09:38:10 +0100284- ``BL2_AT_EL3``: This is an optional build option that enables the use of
Roberto Vargasb1584272017-11-20 13:36:10 +0000285 BL2 at EL3 execution level.
286
John Tsichritzisee10e792018-06-06 09:38:10 +0100287- ``BL2_IN_XIP_MEM``: In some use-cases BL2 will be stored in eXecute In Place
Jiafei Pan43a7bf42018-03-21 07:20:09 +0000288 (XIP) memory, like BL1. In these use-cases, it is necessary to initialize
289 the RW sections in RAM, while leaving the RO sections in place. This option
290 enable this use-case. For now, this option is only supported when BL2_AT_EL3
291 is set to '1'.
292
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100293- ``BL31``: This is an optional build option which specifies the path to
Dan Handley610e7e12018-03-01 18:44:00 +0000294 BL31 image for the ``fip`` target. In this case, the BL31 in TF-A will not
295 be built.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100296
297- ``BL31_KEY``: This option is used when ``GENERATE_COT=1``. It specifies the
298 file that contains the BL31 private key in PEM format. If ``SAVE_KEYS=1``,
299 this file name will be used to save the key.
300
301- ``BL32``: This is an optional build option which specifies the path to
Dan Handley610e7e12018-03-01 18:44:00 +0000302 BL32 image for the ``fip`` target. In this case, the BL32 in TF-A will not
303 be built.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100304
John Tsichritzisee10e792018-06-06 09:38:10 +0100305- ``BL32_EXTRA1``: This is an optional build option which specifies the path to
Summer Qin80726782017-04-20 16:28:39 +0100306 Trusted OS Extra1 image for the ``fip`` target.
307
John Tsichritzisee10e792018-06-06 09:38:10 +0100308- ``BL32_EXTRA2``: This is an optional build option which specifies the path to
Summer Qin80726782017-04-20 16:28:39 +0100309 Trusted OS Extra2 image for the ``fip`` target.
310
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100311- ``BL32_KEY``: This option is used when ``GENERATE_COT=1``. It specifies the
312 file that contains the BL32 private key in PEM format. If ``SAVE_KEYS=1``,
313 this file name will be used to save the key.
314
315- ``BL33``: Path to BL33 image in the host file system. This is mandatory for
Dan Handley610e7e12018-03-01 18:44:00 +0000316 ``fip`` target in case TF-A BL2 is used.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100317
318- ``BL33_KEY``: This option is used when ``GENERATE_COT=1``. It specifies the
319 file that contains the BL33 private key in PEM format. If ``SAVE_KEYS=1``,
320 this file name will be used to save the key.
321
322- ``BUILD_MESSAGE_TIMESTAMP``: String used to identify the time and date of the
323 compilation of each build. It must be set to a C string (including quotes
324 where applicable). Defaults to a string that contains the time and date of
325 the compilation.
326
Dan Handley610e7e12018-03-01 18:44:00 +0000327- ``BUILD_STRING``: Input string for VERSION\_STRING, which allows the TF-A
328 build to be uniquely identified. Defaults to the current git commit id.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100329
330- ``CFLAGS``: Extra user options appended on the compiler's command line in
331 addition to the options set by the build system.
332
333- ``COLD_BOOT_SINGLE_CPU``: This option indicates whether the platform may
334 release several CPUs out of reset. It can take either 0 (several CPUs may be
335 brought up) or 1 (only one CPU will ever be brought up during cold reset).
336 Default is 0. If the platform always brings up a single CPU, there is no
337 need to distinguish between primary and secondary CPUs and the boot path can
338 be optimised. The ``plat_is_my_cpu_primary()`` and
339 ``plat_secondary_cold_boot_setup()`` platform porting interfaces do not need
340 to be implemented in this case.
341
342- ``CRASH_REPORTING``: A non-zero value enables a console dump of processor
343 register state when an unexpected exception occurs during execution of
344 BL31. This option defaults to the value of ``DEBUG`` - i.e. by default
345 this is only enabled for a debug build of the firmware.
346
347- ``CREATE_KEYS``: This option is used when ``GENERATE_COT=1``. It tells the
348 certificate generation tool to create new keys in case no valid keys are
349 present or specified. Allowed options are '0' or '1'. Default is '1'.
350
351- ``CTX_INCLUDE_AARCH32_REGS`` : Boolean option that, when set to 1, will cause
352 the AArch32 system registers to be included when saving and restoring the
353 CPU context. The option must be set to 0 for AArch64-only platforms (that
354 is on hardware that does not implement AArch32, or at least not at EL1 and
355 higher ELs). Default value is 1.
356
357- ``CTX_INCLUDE_FPREGS``: Boolean option that, when set to 1, will cause the FP
358 registers to be included when saving and restoring the CPU context. Default
359 is 0.
360
361- ``DEBUG``: Chooses between a debug and release build. It can take either 0
362 (release) or 1 (debug) as values. 0 is the default.
363
John Tsichritzisee10e792018-06-06 09:38:10 +0100364- ``DYN_DISABLE_AUTH``: Provides the capability to dynamically disable Trusted
365 Board Boot authentication at runtime. This option is meant to be enabled only
Roberto Vargas025946a2018-09-24 17:20:48 +0100366 for development platforms. ``TRUSTED_BOARD_BOOT`` flag must be set if this
367 flag has to be enabled. 0 is the default.
Soby Mathew9fe88042018-03-26 12:43:37 +0100368
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100369- ``EL3_PAYLOAD_BASE``: This option enables booting an EL3 payload instead of
370 the normal boot flow. It must specify the entry point address of the EL3
371 payload. Please refer to the "Booting an EL3 payload" section for more
372 details.
373
Dimitris Papastamosfcedb692017-10-16 11:40:10 +0100374- ``ENABLE_AMU``: Boolean option to enable Activity Monitor Unit extensions.
Dimitris Papastamose08005a2017-10-12 13:02:29 +0100375 This is an optional architectural feature available on v8.4 onwards. Some
376 v8.2 implementations also implement an AMU and this option can be used to
377 enable this feature on those systems as well. Default is 0.
Dimitris Papastamosfcedb692017-10-16 11:40:10 +0100378
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100379- ``ENABLE_ASSERTIONS``: This option controls whether or not calls to ``assert()``
380 are compiled out. For debug builds, this option defaults to 1, and calls to
381 ``assert()`` are left in place. For release builds, this option defaults to 0
382 and calls to ``assert()`` function are compiled out. This option can be set
383 independently of ``DEBUG``. It can also be used to hide any auxiliary code
384 that is only required for the assertion and does not fit in the assertion
385 itself.
386
Douglas Raillard77414632018-08-21 12:54:45 +0100387- ``ENABLE_BACKTRACE``: This option controls whether to enables backtrace
388 dumps or not. It is supported in both AArch64 and AArch32. However, in
389 AArch32 the format of the frame records are not defined in the AAPCS and they
390 are defined by the implementation. This implementation of backtrace only
391 supports the format used by GCC when T32 interworking is disabled. For this
392 reason enabling this option in AArch32 will force the compiler to only
393 generate A32 code. This option is enabled by default only in AArch64 debug
Paul Beesley1fbc97b2019-01-11 18:26:51 +0000394 builds, but this behaviour can be overridden in each platform's Makefile or
395 in the build command line.
Douglas Raillard77414632018-08-21 12:54:45 +0100396
Jeenu Viswambharan2da918c2018-07-31 16:13:33 +0100397- ``ENABLE_MPAM_FOR_LOWER_ELS``: Boolean option to enable lower ELs to use MPAM
398 feature. MPAM is an optional Armv8.4 extension that enables various memory
399 system components and resources to define partitions; software running at
400 various ELs can assign themselves to desired partition to control their
401 performance aspects.
402
403 When this option is set to ``1``, EL3 allows lower ELs to access their own
404 MPAM registers without trapping into EL3. This option doesn't make use of
405 partitioning in EL3, however. Platform initialisation code should configure
406 and use partitions in EL3 as required. This option defaults to ``0``.
407
Soby Mathew078f1a42018-08-28 11:13:55 +0100408- ``ENABLE_PIE``: Boolean option to enable Position Independent Executable(PIE)
409 support within generic code in TF-A. This option is currently only supported
410 in BL31. Default is 0.
411
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100412- ``ENABLE_PMF``: Boolean option to enable support for optional Performance
413 Measurement Framework(PMF). Default is 0.
414
415- ``ENABLE_PSCI_STAT``: Boolean option to enable support for optional PSCI
416 functions ``PSCI_STAT_RESIDENCY`` and ``PSCI_STAT_COUNT``. Default is 0.
417 In the absence of an alternate stat collection backend, ``ENABLE_PMF`` must
418 be enabled. If ``ENABLE_PMF`` is set, the residency statistics are tracked in
419 software.
420
421- ``ENABLE_RUNTIME_INSTRUMENTATION``: Boolean option to enable runtime
Dan Handley610e7e12018-03-01 18:44:00 +0000422 instrumentation which injects timestamp collection points into TF-A to
423 allow runtime performance to be measured. Currently, only PSCI is
424 instrumented. Enabling this option enables the ``ENABLE_PMF`` build option
425 as well. Default is 0.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100426
Jeenu Viswambharand73dcf32017-07-19 13:52:12 +0100427- ``ENABLE_SPE_FOR_LOWER_ELS`` : Boolean option to enable Statistical Profiling
Dimitris Papastamos9da09cd2017-10-13 15:07:45 +0100428 extensions. This is an optional architectural feature for AArch64.
429 The default is 1 but is automatically disabled when the target architecture
430 is AArch32.
Jeenu Viswambharand73dcf32017-07-19 13:52:12 +0100431
Sandrine Bailleux604f0a42018-09-20 12:44:39 +0200432- ``ENABLE_SPM`` : Boolean option to enable the Secure Partition Manager (SPM).
433 Refer to the `Secure Partition Manager Design guide`_ for more details about
434 this feature. Default is 0.
435
David Cunadoce88eee2017-10-20 11:30:57 +0100436- ``ENABLE_SVE_FOR_NS``: Boolean option to enable Scalable Vector Extension
437 (SVE) for the Non-secure world only. SVE is an optional architectural feature
438 for AArch64. Note that when SVE is enabled for the Non-secure world, access
439 to SIMD and floating-point functionality from the Secure world is disabled.
440 This is to avoid corruption of the Non-secure world data in the Z-registers
441 which are aliased by the SIMD and FP registers. The build option is not
442 compatible with the ``CTX_INCLUDE_FPREGS`` build option, and will raise an
443 assert on platforms where SVE is implemented and ``ENABLE_SVE_FOR_NS`` set to
444 1. The default is 1 but is automatically disabled when the target
445 architecture is AArch32.
446
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100447- ``ENABLE_STACK_PROTECTOR``: String option to enable the stack protection
448 checks in GCC. Allowed values are "all", "strong" and "0" (default).
449 "strong" is the recommended stack protection level if this feature is
450 desired. 0 disables the stack protection. For all values other than 0, the
451 ``plat_get_stack_protector_canary()`` platform hook needs to be implemented.
452 The value is passed as the last component of the option
453 ``-fstack-protector-$ENABLE_STACK_PROTECTOR``.
454
455- ``ERROR_DEPRECATED``: This option decides whether to treat the usage of
456 deprecated platform APIs, helper functions or drivers within Trusted
457 Firmware as error. It can take the value 1 (flag the use of deprecated
458 APIs as error) or 0. The default is 0.
459
Jeenu Viswambharan10a67272017-09-22 08:32:10 +0100460- ``EL3_EXCEPTION_HANDLING``: When set to ``1``, enable handling of exceptions
461 targeted at EL3. When set ``0`` (default), no exceptions are expected or
462 handled at EL3, and a panic will result. This is supported only for AArch64
463 builds.
464
Paul Beesley1fbc97b2019-01-11 18:26:51 +0000465- ``FAULT_INJECTION_SUPPORT``: ARMv8.4 extensions introduced support for fault
Jeenu Viswambharanf00da742017-12-08 12:13:51 +0000466 injection from lower ELs, and this build option enables lower ELs to use
467 Error Records accessed via System Registers to inject faults. This is
468 applicable only to AArch64 builds.
469
470 This feature is intended for testing purposes only, and is advisable to keep
471 disabled for production images.
472
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100473- ``FIP_NAME``: This is an optional build option which specifies the FIP
474 filename for the ``fip`` target. Default is ``fip.bin``.
475
476- ``FWU_FIP_NAME``: This is an optional build option which specifies the FWU
477 FIP filename for the ``fwu_fip`` target. Default is ``fwu_fip.bin``.
478
479- ``GENERATE_COT``: Boolean flag used to build and execute the ``cert_create``
480 tool to create certificates as per the Chain of Trust described in
481 `Trusted Board Boot`_. The build system then calls ``fiptool`` to
482 include the certificates in the FIP and FWU\_FIP. Default value is '0'.
483
484 Specify both ``TRUSTED_BOARD_BOOT=1`` and ``GENERATE_COT=1`` to include support
485 for the Trusted Board Boot feature in the BL1 and BL2 images, to generate
486 the corresponding certificates, and to include those certificates in the
487 FIP and FWU\_FIP.
488
489 Note that if ``TRUSTED_BOARD_BOOT=0`` and ``GENERATE_COT=1``, the BL1 and BL2
490 images will not include support for Trusted Board Boot. The FIP will still
491 include the corresponding certificates. This FIP can be used to verify the
492 Chain of Trust on the host machine through other mechanisms.
493
494 Note that if ``TRUSTED_BOARD_BOOT=1`` and ``GENERATE_COT=0``, the BL1 and BL2
495 images will include support for Trusted Board Boot, but the FIP and FWU\_FIP
496 will not include the corresponding certificates, causing a boot failure.
497
Jeenu Viswambharanc06f05c2017-09-22 08:32:09 +0100498- ``GICV2_G0_FOR_EL3``: Unlike GICv3, the GICv2 architecture doesn't have
499 inherent support for specific EL3 type interrupts. Setting this build option
500 to ``1`` assumes GICv2 *Group 0* interrupts are expected to target EL3, both
501 by `platform abstraction layer`__ and `Interrupt Management Framework`__.
502 This allows GICv2 platforms to enable features requiring EL3 interrupt type.
503 This also means that all GICv2 Group 0 interrupts are delivered to EL3, and
504 the Secure Payload interrupts needs to be synchronously handed over to Secure
505 EL1 for handling. The default value of this option is ``0``, which means the
506 Group 0 interrupts are assumed to be handled by Secure EL1.
507
508 .. __: `platform-interrupt-controller-API.rst`
509 .. __: `interrupt-framework-design.rst`
510
Julius Wernerc51a2ec2018-08-28 14:45:43 -0700511- ``HANDLE_EA_EL3_FIRST``: When set to ``1``, External Aborts and SError
512 Interrupts will be always trapped in EL3 i.e. in BL31 at runtime. When set to
513 ``0`` (default), these exceptions will be trapped in the current exception
514 level (or in EL1 if the current exception level is EL0).
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100515
Dan Handley610e7e12018-03-01 18:44:00 +0000516- ``HW_ASSISTED_COHERENCY``: On most Arm systems to-date, platform-specific
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100517 software operations are required for CPUs to enter and exit coherency.
518 However, there exists newer systems where CPUs' entry to and exit from
519 coherency is managed in hardware. Such systems require software to only
520 initiate the operations, and the rest is managed in hardware, minimizing
Dan Handley610e7e12018-03-01 18:44:00 +0000521 active software management. In such systems, this boolean option enables
522 TF-A to carry out build and run-time optimizations during boot and power
523 management operations. This option defaults to 0 and if it is enabled,
524 then it implies ``WARMBOOT_ENABLE_DCACHE_EARLY`` is also enabled.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100525
Jeenu Viswambharane834ee12018-04-27 15:17:03 +0100526 Note that, when ``HW_ASSISTED_COHERENCY`` is enabled, version 2 of
527 translation library (xlat tables v2) must be used; version 1 of translation
528 library is not supported.
529
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100530- ``JUNO_AARCH32_EL3_RUNTIME``: This build flag enables you to execute EL3
531 runtime software in AArch32 mode, which is required to run AArch32 on Juno.
532 By default this flag is set to '0'. Enabling this flag builds BL1 and BL2 in
533 AArch64 and facilitates the loading of ``SP_MIN`` and BL33 as AArch32 executable
534 images.
535
Soby Mathew13b16052017-08-31 11:49:32 +0100536- ``KEY_ALG``: This build flag enables the user to select the algorithm to be
537 used for generating the PKCS keys and subsequent signing of the certificate.
Qixiang Xu1a1f2912017-11-09 13:56:29 +0800538 It accepts 3 values viz. ``rsa``, ``rsa_1_5``, ``ecdsa``. The ``rsa_1_5`` is
Soby Mathew2fd70f62017-08-31 11:50:29 +0100539 the legacy PKCS#1 RSA 1.5 algorithm which is not TBBR compliant and is
540 retained only for compatibility. The default value of this flag is ``rsa``
541 which is the TBBR compliant PKCS#1 RSA 2.1 scheme.
Soby Mathew13b16052017-08-31 11:49:32 +0100542
Qixiang Xu1a1f2912017-11-09 13:56:29 +0800543- ``HASH_ALG``: This build flag enables the user to select the secure hash
544 algorithm. It accepts 3 values viz. ``sha256``, ``sha384``, ``sha512``.
545 The default value of this flag is ``sha256``.
546
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100547- ``LDFLAGS``: Extra user options appended to the linkers' command line in
548 addition to the one set by the build system.
549
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100550- ``LOG_LEVEL``: Chooses the log level, which controls the amount of console log
551 output compiled into the build. This should be one of the following:
552
553 ::
554
555 0 (LOG_LEVEL_NONE)
Daniel Boulby86c6b072018-06-14 10:07:40 +0100556 10 (LOG_LEVEL_ERROR)
557 20 (LOG_LEVEL_NOTICE)
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100558 30 (LOG_LEVEL_WARNING)
559 40 (LOG_LEVEL_INFO)
560 50 (LOG_LEVEL_VERBOSE)
561
John Tsichritzis35006c42018-10-05 12:02:29 +0100562 All log output up to and including the selected log level is compiled into
563 the build. The default value is 40 in debug builds and 20 in release builds.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100564
565- ``NON_TRUSTED_WORLD_KEY``: This option is used when ``GENERATE_COT=1``. It
566 specifies the file that contains the Non-Trusted World private key in PEM
567 format. If ``SAVE_KEYS=1``, this file name will be used to save the key.
568
569- ``NS_BL2U``: Path to NS\_BL2U image in the host file system. This image is
570 optional. It is only needed if the platform makefile specifies that it
571 is required in order to build the ``fwu_fip`` target.
572
573- ``NS_TIMER_SWITCH``: Enable save and restore for non-secure timer register
574 contents upon world switch. It can take either 0 (don't save and restore) or
575 1 (do save and restore). 0 is the default. An SPD may set this to 1 if it
576 wants the timer registers to be saved and restored.
577
578- ``PL011_GENERIC_UART``: Boolean option to indicate the PL011 driver that
579 the underlying hardware is not a full PL011 UART but a minimally compliant
580 generic UART, which is a subset of the PL011. The driver will not access
581 any register that is not part of the SBSA generic UART specification.
582 Default value is 0 (a full PL011 compliant UART is present).
583
Dan Handley610e7e12018-03-01 18:44:00 +0000584- ``PLAT``: Choose a platform to build TF-A for. The chosen platform name
585 must be subdirectory of any depth under ``plat/``, and must contain a
586 platform makefile named ``platform.mk``. For example, to build TF-A for the
587 Arm Juno board, select PLAT=juno.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100588
589- ``PRELOADED_BL33_BASE``: This option enables booting a preloaded BL33 image
590 instead of the normal boot flow. When defined, it must specify the entry
591 point address for the preloaded BL33 image. This option is incompatible with
592 ``EL3_PAYLOAD_BASE``. If both are defined, ``EL3_PAYLOAD_BASE`` has priority
593 over ``PRELOADED_BL33_BASE``.
594
595- ``PROGRAMMABLE_RESET_ADDRESS``: This option indicates whether the reset
596 vector address can be programmed or is fixed on the platform. It can take
597 either 0 (fixed) or 1 (programmable). Default is 0. If the platform has a
598 programmable reset address, it is expected that a CPU will start executing
599 code directly at the right address, both on a cold and warm reset. In this
600 case, there is no need to identify the entrypoint on boot and the boot path
601 can be optimised. The ``plat_get_my_entrypoint()`` platform porting interface
602 does not need to be implemented in this case.
603
604- ``PSCI_EXTENDED_STATE_ID``: As per PSCI1.0 Specification, there are 2 formats
605 possible for the PSCI power-state parameter viz original and extended
606 State-ID formats. This flag if set to 1, configures the generic PSCI layer
607 to use the extended format. The default value of this flag is 0, which
608 means by default the original power-state format is used by the PSCI
609 implementation. This flag should be specified by the platform makefile
610 and it governs the return value of PSCI\_FEATURES API for CPU\_SUSPEND
Dan Handley610e7e12018-03-01 18:44:00 +0000611 smc function id. When this option is enabled on Arm platforms, the
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100612 option ``ARM_RECOM_STATE_ID_ENC`` needs to be set to 1 as well.
613
Jeenu Viswambharan9a7ce2f2018-04-04 16:07:11 +0100614- ``RAS_EXTENSION``: When set to ``1``, enable Armv8.2 RAS features. RAS features
615 are an optional extension for pre-Armv8.2 CPUs, but are mandatory for Armv8.2
616 or later CPUs.
617
618 When ``RAS_EXTENSION`` is set to ``1``, ``HANDLE_EA_EL3_FIRST`` must also be
619 set to ``1``.
620
621 This option is disabled by default.
622
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100623- ``RESET_TO_BL31``: Enable BL31 entrypoint as the CPU reset vector instead
624 of the BL1 entrypoint. It can take the value 0 (CPU reset to BL1
625 entrypoint) or 1 (CPU reset to BL31 entrypoint).
626 The default value is 0.
627
Dan Handley610e7e12018-03-01 18:44:00 +0000628- ``RESET_TO_SP_MIN``: SP\_MIN is the minimal AArch32 Secure Payload provided
629 in TF-A. This flag configures SP\_MIN entrypoint as the CPU reset vector
630 instead of the BL1 entrypoint. It can take the value 0 (CPU reset to BL1
631 entrypoint) or 1 (CPU reset to SP\_MIN entrypoint). The default value is 0.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100632
633- ``ROT_KEY``: This option is used when ``GENERATE_COT=1``. It specifies the
634 file that contains the ROT private key in PEM format. If ``SAVE_KEYS=1``, this
635 file name will be used to save the key.
636
637- ``SAVE_KEYS``: This option is used when ``GENERATE_COT=1``. It tells the
638 certificate generation tool to save the keys used to establish the Chain of
639 Trust. Allowed options are '0' or '1'. Default is '0' (do not save).
640
641- ``SCP_BL2``: Path to SCP\_BL2 image in the host file system. This image is optional.
642 If a SCP\_BL2 image is present then this option must be passed for the ``fip``
643 target.
644
645- ``SCP_BL2_KEY``: This option is used when ``GENERATE_COT=1``. It specifies the
646 file that contains the SCP\_BL2 private key in PEM format. If ``SAVE_KEYS=1``,
647 this file name will be used to save the key.
648
649- ``SCP_BL2U``: Path to SCP\_BL2U image in the host file system. This image is
650 optional. It is only needed if the platform makefile specifies that it
651 is required in order to build the ``fwu_fip`` target.
652
Jeenu Viswambharan04e3a7f2017-10-16 08:43:14 +0100653- ``SDEI_SUPPORT``: Setting this to ``1`` enables support for Software
654 Delegated Exception Interface to BL31 image. This defaults to ``0``.
655
656 When set to ``1``, the build option ``EL3_EXCEPTION_HANDLING`` must also be
657 set to ``1``.
658
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100659- ``SEPARATE_CODE_AND_RODATA``: Whether code and read-only data should be
660 isolated on separate memory pages. This is a trade-off between security and
661 memory usage. See "Isolating code and read-only data on separate memory
662 pages" section in `Firmware Design`_. This flag is disabled by default and
663 affects all BL images.
664
Dan Handley610e7e12018-03-01 18:44:00 +0000665- ``SPD``: Choose a Secure Payload Dispatcher component to be built into TF-A.
666 This build option is only valid if ``ARCH=aarch64``. The value should be
667 the path to the directory containing the SPD source, relative to
668 ``services/spd/``; the directory is expected to contain a makefile called
669 ``<spd-value>.mk``.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100670
671- ``SPIN_ON_BL1_EXIT``: This option introduces an infinite loop in BL1. It can
672 take either 0 (no loop) or 1 (add a loop). 0 is the default. This loop stops
673 execution in BL1 just before handing over to BL31. At this point, all
674 firmware images have been loaded in memory, and the MMU and caches are
675 turned off. Refer to the "Debugging options" section for more details.
676
Antonio Nino Diazd9166ac2018-05-11 11:15:10 +0100677- ``SP_MIN_WITH_SECURE_FIQ``: Boolean flag to indicate the SP_MIN handles
Etienne Carrieredc0fea72017-08-09 15:48:53 +0200678 secure interrupts (caught through the FIQ line). Platforms can enable
679 this directive if they need to handle such interruption. When enabled,
680 the FIQ are handled in monitor mode and non secure world is not allowed
681 to mask these events. Platforms that enable FIQ handling in SP_MIN shall
682 implement the api ``sp_min_plat_fiq_handler()``. The default value is 0.
683
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100684- ``TRUSTED_BOARD_BOOT``: Boolean flag to include support for the Trusted Board
685 Boot feature. When set to '1', BL1 and BL2 images include support to load
686 and verify the certificates and images in a FIP, and BL1 includes support
687 for the Firmware Update. The default value is '0'. Generation and inclusion
688 of certificates in the FIP and FWU\_FIP depends upon the value of the
689 ``GENERATE_COT`` option.
690
691 Note: This option depends on ``CREATE_KEYS`` to be enabled. If the keys
692 already exist in disk, they will be overwritten without further notice.
693
694- ``TRUSTED_WORLD_KEY``: This option is used when ``GENERATE_COT=1``. It
695 specifies the file that contains the Trusted World private key in PEM
696 format. If ``SAVE_KEYS=1``, this file name will be used to save the key.
697
698- ``TSP_INIT_ASYNC``: Choose BL32 initialization method as asynchronous or
699 synchronous, (see "Initializing a BL32 Image" section in
700 `Firmware Design`_). It can take the value 0 (BL32 is initialized using
701 synchronous method) or 1 (BL32 is initialized using asynchronous method).
702 Default is 0.
703
704- ``TSP_NS_INTR_ASYNC_PREEMPT``: A non zero value enables the interrupt
705 routing model which routes non-secure interrupts asynchronously from TSP
706 to EL3 causing immediate preemption of TSP. The EL3 is responsible
707 for saving and restoring the TSP context in this routing model. The
708 default routing model (when the value is 0) is to route non-secure
709 interrupts to TSP allowing it to save its context and hand over
710 synchronously to EL3 via an SMC.
711
Jeenu Viswambharan2f40f322018-01-11 14:30:22 +0000712 Note: when ``EL3_EXCEPTION_HANDLING`` is ``1``, ``TSP_NS_INTR_ASYNC_PREEMPT``
713 must also be set to ``1``.
714
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100715- ``USE_COHERENT_MEM``: This flag determines whether to include the coherent
716 memory region in the BL memory map or not (see "Use of Coherent memory in
Dan Handley610e7e12018-03-01 18:44:00 +0000717 TF-A" section in `Firmware Design`_). It can take the value 1
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100718 (Coherent memory region is included) or 0 (Coherent memory region is
719 excluded). Default is 1.
720
721- ``V``: Verbose build. If assigned anything other than 0, the build commands
722 are printed. Default is 0.
723
Dan Handley610e7e12018-03-01 18:44:00 +0000724- ``VERSION_STRING``: String used in the log output for each TF-A image.
725 Defaults to a string formed by concatenating the version number, build type
726 and build string.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100727
728- ``WARMBOOT_ENABLE_DCACHE_EARLY`` : Boolean option to enable D-cache early on
729 the CPU after warm boot. This is applicable for platforms which do not
730 require interconnect programming to enable cache coherency (eg: single
731 cluster platforms). If this option is enabled, then warm boot path
732 enables D-caches immediately after enabling MMU. This option defaults to 0.
733
Dan Handley610e7e12018-03-01 18:44:00 +0000734Arm development platform specific build options
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100735^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
736
737- ``ARM_BL31_IN_DRAM``: Boolean option to select loading of BL31 in TZC secured
738 DRAM. By default, BL31 is in the secure SRAM. Set this flag to 1 to load
739 BL31 in TZC secured DRAM. If TSP is present, then setting this option also
740 sets the TSP location to DRAM and ignores the ``ARM_TSP_RAM_LOCATION`` build
741 flag.
742
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100743- ``ARM_CONFIG_CNTACR``: boolean option to unlock access to the ``CNTBase<N>``
744 frame registers by setting the ``CNTCTLBase.CNTACR<N>`` register bits. The
745 frame number ``<N>`` is defined by ``PLAT_ARM_NSTIMER_FRAME_ID``, which should
746 match the frame used by the Non-Secure image (normally the Linux kernel).
747 Default is true (access to the frame is allowed).
748
749- ``ARM_DISABLE_TRUSTED_WDOG``: boolean option to disable the Trusted Watchdog.
Dan Handley610e7e12018-03-01 18:44:00 +0000750 By default, Arm platforms use a watchdog to trigger a system reset in case
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100751 an error is encountered during the boot process (for example, when an image
752 could not be loaded or authenticated). The watchdog is enabled in the early
753 platform setup hook at BL1 and disabled in the BL1 prepare exit hook. The
754 Trusted Watchdog may be disabled at build time for testing or development
755 purposes.
756
Antonio Nino Diazd9166ac2018-05-11 11:15:10 +0100757- ``ARM_LINUX_KERNEL_AS_BL33``: The Linux kernel expects registers x0-x3 to
758 have specific values at boot. This boolean option allows the Trusted Firmware
759 to have a Linux kernel image as BL33 by preparing the registers to these
Manish Pandey37c4ec22018-11-02 13:28:25 +0000760 values before jumping to BL33. This option defaults to 0 (disabled). For
761 AArch64 ``RESET_TO_BL31`` and for AArch32 ``RESET_TO_SP_MIN`` must be 1 when
762 using it. If this option is set to 1, ``ARM_PRELOADED_DTB_BASE`` must be set
763 to the location of a device tree blob (DTB) already loaded in memory. The
764 Linux Image address must be specified using the ``PRELOADED_BL33_BASE``
765 option.
Antonio Nino Diazd9166ac2018-05-11 11:15:10 +0100766
Sandrine Bailleux281f8f72019-01-31 13:12:41 +0100767- ``ARM_PLAT_MT``: This flag determines whether the Arm platform layer has to
768 cater for the multi-threading ``MT`` bit when accessing MPIDR. When this flag
769 is set, the functions which deal with MPIDR assume that the ``MT`` bit in
770 MPIDR is set and access the bit-fields in MPIDR accordingly. Default value of
771 this flag is 0. Note that this option is not used on FVP platforms.
772
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100773- ``ARM_RECOM_STATE_ID_ENC``: The PSCI1.0 specification recommends an encoding
774 for the construction of composite state-ID in the power-state parameter.
775 The existing PSCI clients currently do not support this encoding of
776 State-ID yet. Hence this flag is used to configure whether to use the
777 recommended State-ID encoding or not. The default value of this flag is 0,
778 in which case the platform is configured to expect NULL in the State-ID
779 field of power-state parameter.
780
781- ``ARM_ROTPK_LOCATION``: used when ``TRUSTED_BOARD_BOOT=1``. It specifies the
782 location of the ROTPK hash returned by the function ``plat_get_rotpk_info()``
Dan Handley610e7e12018-03-01 18:44:00 +0000783 for Arm platforms. Depending on the selected option, the proper private key
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100784 must be specified using the ``ROT_KEY`` option when building the Trusted
785 Firmware. This private key will be used by the certificate generation tool
786 to sign the BL2 and Trusted Key certificates. Available options for
787 ``ARM_ROTPK_LOCATION`` are:
788
789 - ``regs`` : return the ROTPK hash stored in the Trusted root-key storage
790 registers. The private key corresponding to this ROTPK hash is not
791 currently available.
792 - ``devel_rsa`` : return a development public key hash embedded in the BL1
793 and BL2 binaries. This hash has been obtained from the RSA public key
794 ``arm_rotpk_rsa.der``, located in ``plat/arm/board/common/rotpk``. To use
795 this option, ``arm_rotprivk_rsa.pem`` must be specified as ``ROT_KEY`` when
796 creating the certificates.
Qixiang Xu1c2aef12017-08-24 15:12:20 +0800797 - ``devel_ecdsa`` : return a development public key hash embedded in the BL1
798 and BL2 binaries. This hash has been obtained from the ECDSA public key
799 ``arm_rotpk_ecdsa.der``, located in ``plat/arm/board/common/rotpk``. To use
800 this option, ``arm_rotprivk_ecdsa.pem`` must be specified as ``ROT_KEY``
801 when creating the certificates.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100802
803- ``ARM_TSP_RAM_LOCATION``: location of the TSP binary. Options:
804
Qixiang Xuc7b12c52017-10-13 09:04:12 +0800805 - ``tsram`` : Trusted SRAM (default option when TBB is not enabled)
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100806 - ``tdram`` : Trusted DRAM (if available)
John Tsichritzisee10e792018-06-06 09:38:10 +0100807 - ``dram`` : Secure region in DRAM (default option when TBB is enabled,
808 configured by the TrustZone controller)
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100809
Dan Handley610e7e12018-03-01 18:44:00 +0000810- ``ARM_XLAT_TABLES_LIB_V1``: boolean option to compile TF-A with version 1
811 of the translation tables library instead of version 2. It is set to 0 by
812 default, which selects version 2.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100813
Dan Handley610e7e12018-03-01 18:44:00 +0000814- ``ARM_CRYPTOCELL_INTEG`` : bool option to enable TF-A to invoke Arm®
815 TrustZone® CryptoCell functionality for Trusted Board Boot on capable Arm
816 platforms. If this option is specified, then the path to the CryptoCell
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100817 SBROM library must be specified via ``CCSBROM_LIB_PATH`` flag.
818
Dan Handley610e7e12018-03-01 18:44:00 +0000819For a better understanding of these options, the Arm development platform memory
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100820map is explained in the `Firmware Design`_.
821
Dan Handley610e7e12018-03-01 18:44:00 +0000822Arm CSS platform specific build options
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100823^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
824
825- ``CSS_DETECT_PRE_1_7_0_SCP``: Boolean flag to detect SCP version
826 incompatibility. Version 1.7.0 of the SCP firmware made a non-backwards
827 compatible change to the MTL protocol, used for AP/SCP communication.
Dan Handley610e7e12018-03-01 18:44:00 +0000828 TF-A no longer supports earlier SCP versions. If this option is set to 1
829 then TF-A will detect if an earlier version is in use. Default is 1.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100830
831- ``CSS_LOAD_SCP_IMAGES``: Boolean flag, which when set, adds SCP\_BL2 and
832 SCP\_BL2U to the FIP and FWU\_FIP respectively, and enables them to be loaded
833 during boot. Default is 1.
834
Soby Mathew1ced6b82017-06-12 12:37:10 +0100835- ``CSS_USE_SCMI_SDS_DRIVER``: Boolean flag which selects SCMI/SDS drivers
836 instead of SCPI/BOM driver for communicating with the SCP during power
837 management operations and for SCP RAM Firmware transfer. If this option
838 is set to 1, then SCMI/SDS drivers will be used. Default is 0.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100839
Dan Handley610e7e12018-03-01 18:44:00 +0000840Arm FVP platform specific build options
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100841^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
842
843- ``FVP_CLUSTER_COUNT`` : Configures the cluster count to be used to
Dan Handley610e7e12018-03-01 18:44:00 +0000844 build the topology tree within TF-A. By default TF-A is configured for dual
845 cluster topology and this option can be used to override the default value.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100846
847- ``FVP_INTERCONNECT_DRIVER``: Selects the interconnect driver to be built. The
848 default interconnect driver depends on the value of ``FVP_CLUSTER_COUNT`` as
849 explained in the options below:
850
851 - ``FVP_CCI`` : The CCI driver is selected. This is the default
852 if 0 < ``FVP_CLUSTER_COUNT`` <= 2.
853 - ``FVP_CCN`` : The CCN driver is selected. This is the default
854 if ``FVP_CLUSTER_COUNT`` > 2.
855
Jeenu Viswambharan75421132018-01-31 14:52:08 +0000856- ``FVP_MAX_CPUS_PER_CLUSTER``: Sets the maximum number of CPUs implemented in
857 a single cluster. This option defaults to 4.
858
Jeenu Viswambharan528d21b2016-11-15 13:53:57 +0000859- ``FVP_MAX_PE_PER_CPU``: Sets the maximum number of PEs implemented on any CPU
860 in the system. This option defaults to 1. Note that the build option
861 ``ARM_PLAT_MT`` doesn't have any effect on FVP platforms.
862
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100863- ``FVP_USE_GIC_DRIVER`` : Selects the GIC driver to be built. Options:
864
865 - ``FVP_GIC600`` : The GIC600 implementation of GICv3 is selected
866 - ``FVP_GICV2`` : The GICv2 only driver is selected
867 - ``FVP_GICV3`` : The GICv3 only driver is selected (default option)
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100868
869- ``FVP_USE_SP804_TIMER`` : Use the SP804 timer instead of the Generic Timer
870 for functions that wait for an arbitrary time length (udelay and mdelay).
871 The default value is 0.
872
Soby Mathewb1bf0442018-02-16 14:52:52 +0000873- ``FVP_HW_CONFIG_DTS`` : Specify the path to the DTS file to be compiled
874 to DTB and packaged in FIP as the HW_CONFIG. See `Firmware Design`_ for
875 details on HW_CONFIG. By default, this is initialized to a sensible DTS
876 file in ``fdts/`` folder depending on other build options. But some cases,
877 like shifted affinity format for MPIDR, cannot be detected at build time
878 and this option is needed to specify the appropriate DTS file.
879
880- ``FVP_HW_CONFIG`` : Specify the path to the HW_CONFIG blob to be packaged in
881 FIP. See `Firmware Design`_ for details on HW_CONFIG. This option is
882 similar to the ``FVP_HW_CONFIG_DTS`` option, but it directly specifies the
883 HW_CONFIG blob instead of the DTS file. This option is useful to override
884 the default HW_CONFIG selected by the build system.
885
Summer Qin13b95c22018-03-02 15:51:14 +0800886ARM JUNO platform specific build options
887^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
888
889- ``JUNO_TZMP1`` : Boolean option to configure Juno to be used for TrustZone
890 Media Protection (TZ-MP1). Default value of this flag is 0.
891
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100892Debugging options
893~~~~~~~~~~~~~~~~~
894
895To compile a debug version and make the build more verbose use
896
897::
898
899 make PLAT=<platform> DEBUG=1 V=1 all
900
901AArch64 GCC uses DWARF version 4 debugging symbols by default. Some tools (for
902example DS-5) might not support this and may need an older version of DWARF
903symbols to be emitted by GCC. This can be achieved by using the
904``-gdwarf-<version>`` flag, with the version being set to 2 or 3. Setting the
905version to 2 is recommended for DS-5 versions older than 5.16.
906
907When debugging logic problems it might also be useful to disable all compiler
908optimizations by using ``-O0``.
909
910NOTE: Using ``-O0`` could cause output images to be larger and base addresses
Dan Handley610e7e12018-03-01 18:44:00 +0000911might need to be recalculated (see the **Memory layout on Arm development
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100912platforms** section in the `Firmware Design`_).
913
914Extra debug options can be passed to the build system by setting ``CFLAGS`` or
915``LDFLAGS``:
916
917.. code:: makefile
918
919 CFLAGS='-O0 -gdwarf-2' \
920 make PLAT=<platform> DEBUG=1 V=1 all
921
922Note that using ``-Wl,`` style compilation driver options in ``CFLAGS`` will be
923ignored as the linker is called directly.
924
925It is also possible to introduce an infinite loop to help in debugging the
Dan Handley610e7e12018-03-01 18:44:00 +0000926post-BL2 phase of TF-A. This can be done by rebuilding BL1 with the
927``SPIN_ON_BL1_EXIT=1`` build flag. Refer to the `Summary of build options`_
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100928section. In this case, the developer may take control of the target using a
929debugger when indicated by the console output. When using DS-5, the following
930commands can be used:
931
932::
933
934 # Stop target execution
935 interrupt
936
937 #
938 # Prepare your debugging environment, e.g. set breakpoints
939 #
940
941 # Jump over the debug loop
942 set var $AARCH64::$Core::$PC = $AARCH64::$Core::$PC + 4
943
944 # Resume execution
945 continue
946
947Building the Test Secure Payload
948~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
949
950The TSP is coupled with a companion runtime service in the BL31 firmware,
951called the TSPD. Therefore, if you intend to use the TSP, the BL31 image
952must be recompiled as well. For more information on SPs and SPDs, see the
953`Secure-EL1 Payloads and Dispatchers`_ section in the `Firmware Design`_.
954
Dan Handley610e7e12018-03-01 18:44:00 +0000955First clean the TF-A build directory to get rid of any previous BL31 binary.
956Then to build the TSP image use:
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100957
958::
959
960 make PLAT=<platform> SPD=tspd all
961
962An additional boot loader binary file is created in the ``build`` directory:
963
964::
965
966 build/<platform>/<build-type>/bl32.bin
967
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100968
969Building and using the FIP tool
970~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
971
Dan Handley610e7e12018-03-01 18:44:00 +0000972Firmware Image Package (FIP) is a packaging format used by TF-A to package
973firmware images in a single binary. The number and type of images that should
974be packed in a FIP is platform specific and may include TF-A images and other
975firmware images required by the platform. For example, most platforms require
976a BL33 image which corresponds to the normal world bootloader (e.g. UEFI or
977U-Boot).
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100978
Dan Handley610e7e12018-03-01 18:44:00 +0000979The TF-A build system provides the make target ``fip`` to create a FIP file
980for the specified platform using the FIP creation tool included in the TF-A
981project. Examples below show how to build a FIP file for FVP, packaging TF-A
982and BL33 images.
Douglas Raillardd7c21b72017-06-28 15:23:03 +0100983
984For AArch64:
985
986::
987
988 make PLAT=fvp BL33=<path/to/bl33.bin> fip
989
990For AArch32:
991
992::
993
994 make PLAT=fvp ARCH=aarch32 AARCH32_SP=sp_min BL33=<path/to/bl33.bin> fip
995
996Note that AArch32 support for Normal world boot loader (BL33), like U-boot or
997UEFI, on FVP is not available upstream. Hence custom solutions are required to
998allow Linux boot on FVP. These instructions assume such a custom boot loader
999(BL33) is available.
1000
1001The resulting FIP may be found in:
1002
1003::
1004
1005 build/fvp/<build-type>/fip.bin
1006
1007For advanced operations on FIP files, it is also possible to independently build
1008the tool and create or modify FIPs using this tool. To do this, follow these
1009steps:
1010
1011It is recommended to remove old artifacts before building the tool:
1012
1013::
1014
1015 make -C tools/fiptool clean
1016
1017Build the tool:
1018
1019::
1020
1021 make [DEBUG=1] [V=1] fiptool
1022
1023The tool binary can be located in:
1024
1025::
1026
1027 ./tools/fiptool/fiptool
1028
1029Invoking the tool with ``--help`` will print a help message with all available
1030options.
1031
1032Example 1: create a new Firmware package ``fip.bin`` that contains BL2 and BL31:
1033
1034::
1035
1036 ./tools/fiptool/fiptool create \
1037 --tb-fw build/<platform>/<build-type>/bl2.bin \
1038 --soc-fw build/<platform>/<build-type>/bl31.bin \
1039 fip.bin
1040
1041Example 2: view the contents of an existing Firmware package:
1042
1043::
1044
1045 ./tools/fiptool/fiptool info <path-to>/fip.bin
1046
1047Example 3: update the entries of an existing Firmware package:
1048
1049::
1050
1051 # Change the BL2 from Debug to Release version
1052 ./tools/fiptool/fiptool update \
1053 --tb-fw build/<platform>/release/bl2.bin \
1054 build/<platform>/debug/fip.bin
1055
1056Example 4: unpack all entries from an existing Firmware package:
1057
1058::
1059
1060 # Images will be unpacked to the working directory
1061 ./tools/fiptool/fiptool unpack <path-to>/fip.bin
1062
1063Example 5: remove an entry from an existing Firmware package:
1064
1065::
1066
1067 ./tools/fiptool/fiptool remove \
1068 --tb-fw build/<platform>/debug/fip.bin
1069
1070Note that if the destination FIP file exists, the create, update and
1071remove operations will automatically overwrite it.
1072
1073The unpack operation will fail if the images already exist at the
1074destination. In that case, use -f or --force to continue.
1075
1076More information about FIP can be found in the `Firmware Design`_ document.
1077
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001078Building FIP images with support for Trusted Board Boot
1079~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1080
1081Trusted Board Boot primarily consists of the following two features:
1082
1083- Image Authentication, described in `Trusted Board Boot`_, and
1084- Firmware Update, described in `Firmware Update`_
1085
1086The following steps should be followed to build FIP and (optionally) FWU\_FIP
1087images with support for these features:
1088
1089#. Fulfill the dependencies of the ``mbedtls`` cryptographic and image parser
1090 modules by checking out a recent version of the `mbed TLS Repository`_. It
Dan Handley610e7e12018-03-01 18:44:00 +00001091 is important to use a version that is compatible with TF-A and fixes any
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001092 known security vulnerabilities. See `mbed TLS Security Center`_ for more
Dan Handley610e7e12018-03-01 18:44:00 +00001093 information. The latest version of TF-A is tested with tag
David Cunado05845bf2017-12-19 16:33:25 +00001094 ``mbedtls-2.12.0``.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001095
1096 The ``drivers/auth/mbedtls/mbedtls_*.mk`` files contain the list of mbed TLS
1097 source files the modules depend upon.
1098 ``include/drivers/auth/mbedtls/mbedtls_config.h`` contains the configuration
1099 options required to build the mbed TLS sources.
1100
1101 Note that the mbed TLS library is licensed under the Apache version 2.0
Dan Handley610e7e12018-03-01 18:44:00 +00001102 license. Using mbed TLS source code will affect the licensing of TF-A
1103 binaries that are built using this library.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001104
1105#. To build the FIP image, ensure the following command line variables are set
Dan Handley610e7e12018-03-01 18:44:00 +00001106 while invoking ``make`` to build TF-A:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001107
1108 - ``MBEDTLS_DIR=<path of the directory containing mbed TLS sources>``
1109 - ``TRUSTED_BOARD_BOOT=1``
1110 - ``GENERATE_COT=1``
1111
Dan Handley610e7e12018-03-01 18:44:00 +00001112 In the case of Arm platforms, the location of the ROTPK hash must also be
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001113 specified at build time. Two locations are currently supported (see
1114 ``ARM_ROTPK_LOCATION`` build option):
1115
1116 - ``ARM_ROTPK_LOCATION=regs``: the ROTPK hash is obtained from the Trusted
1117 root-key storage registers present in the platform. On Juno, this
1118 registers are read-only. On FVP Base and Cortex models, the registers
1119 are read-only, but the value can be specified using the command line
1120 option ``bp.trusted_key_storage.public_key`` when launching the model.
1121 On both Juno and FVP models, the default value corresponds to an
1122 ECDSA-SECP256R1 public key hash, whose private part is not currently
1123 available.
1124
1125 - ``ARM_ROTPK_LOCATION=devel_rsa``: use the ROTPK hash that is hardcoded
Dan Handley610e7e12018-03-01 18:44:00 +00001126 in the Arm platform port. The private/public RSA key pair may be
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001127 found in ``plat/arm/board/common/rotpk``.
1128
Qixiang Xu1c2aef12017-08-24 15:12:20 +08001129 - ``ARM_ROTPK_LOCATION=devel_ecdsa``: use the ROTPK hash that is hardcoded
Dan Handley610e7e12018-03-01 18:44:00 +00001130 in the Arm platform port. The private/public ECDSA key pair may be
Qixiang Xu1c2aef12017-08-24 15:12:20 +08001131 found in ``plat/arm/board/common/rotpk``.
1132
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001133 Example of command line using RSA development keys:
1134
1135 ::
1136
1137 MBEDTLS_DIR=<path of the directory containing mbed TLS sources> \
1138 make PLAT=<platform> TRUSTED_BOARD_BOOT=1 GENERATE_COT=1 \
1139 ARM_ROTPK_LOCATION=devel_rsa \
1140 ROT_KEY=plat/arm/board/common/rotpk/arm_rotprivk_rsa.pem \
1141 BL33=<path-to>/<bl33_image> \
1142 all fip
1143
1144 The result of this build will be the bl1.bin and the fip.bin binaries. This
1145 FIP will include the certificates corresponding to the Chain of Trust
1146 described in the TBBR-client document. These certificates can also be found
1147 in the output build directory.
1148
1149#. The optional FWU\_FIP contains any additional images to be loaded from
1150 Non-Volatile storage during the `Firmware Update`_ process. To build the
1151 FWU\_FIP, any FWU images required by the platform must be specified on the
Dan Handley610e7e12018-03-01 18:44:00 +00001152 command line. On Arm development platforms like Juno, these are:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001153
1154 - NS\_BL2U. The AP non-secure Firmware Updater image.
1155 - SCP\_BL2U. The SCP Firmware Update Configuration image.
1156
1157 Example of Juno command line for generating both ``fwu`` and ``fwu_fip``
1158 targets using RSA development:
1159
1160 ::
1161
1162 MBEDTLS_DIR=<path of the directory containing mbed TLS sources> \
1163 make PLAT=juno TRUSTED_BOARD_BOOT=1 GENERATE_COT=1 \
1164 ARM_ROTPK_LOCATION=devel_rsa \
1165 ROT_KEY=plat/arm/board/common/rotpk/arm_rotprivk_rsa.pem \
1166 BL33=<path-to>/<bl33_image> \
1167 SCP_BL2=<path-to>/<scp_bl2_image> \
1168 SCP_BL2U=<path-to>/<scp_bl2u_image> \
1169 NS_BL2U=<path-to>/<ns_bl2u_image> \
1170 all fip fwu_fip
1171
1172 Note: The BL2U image will be built by default and added to the FWU\_FIP.
1173 The user may override this by adding ``BL2U=<path-to>/<bl2u_image>``
1174 to the command line above.
1175
1176 Note: Building and installing the non-secure and SCP FWU images (NS\_BL1U,
1177 NS\_BL2U and SCP\_BL2U) is outside the scope of this document.
1178
1179 The result of this build will be bl1.bin, fip.bin and fwu\_fip.bin binaries.
1180 Both the FIP and FWU\_FIP will include the certificates corresponding to the
1181 Chain of Trust described in the TBBR-client document. These certificates
1182 can also be found in the output build directory.
1183
1184Building the Certificate Generation Tool
1185~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1186
Dan Handley610e7e12018-03-01 18:44:00 +00001187The ``cert_create`` tool is built as part of the TF-A build process when the
1188``fip`` make target is specified and TBB is enabled (as described in the
1189previous section), but it can also be built separately with the following
1190command:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001191
1192::
1193
1194 make PLAT=<platform> [DEBUG=1] [V=1] certtool
1195
Antonio Nino Diazd8d734c2018-09-25 09:41:08 +01001196For platforms that require their own IDs in certificate files, the generic
1197'cert\_create' tool can be built with the following command:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001198
1199::
1200
Antonio Nino Diazd8d734c2018-09-25 09:41:08 +01001201 make USE_TBBR_DEFS=0 [DEBUG=1] [V=1] certtool
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001202
1203``DEBUG=1`` builds the tool in debug mode. ``V=1`` makes the build process more
1204verbose. The following command should be used to obtain help about the tool:
1205
1206::
1207
1208 ./tools/cert_create/cert_create -h
1209
1210Building a FIP for Juno and FVP
1211-------------------------------
1212
1213This section provides Juno and FVP specific instructions to build Trusted
1214Firmware, obtain the additional required firmware, and pack it all together in
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001215a single FIP binary. It assumes that a `Linaro Release`_ has been installed.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001216
David Cunadob2de0992017-06-29 12:01:33 +01001217Note: Pre-built binaries for AArch32 are available from Linaro Release 16.12
1218onwards. Before that release, pre-built binaries are only available for AArch64.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001219
Joel Huttonfe027712018-03-19 11:59:57 +00001220Note: Follow the full instructions for one platform before switching to a
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001221different one. Mixing instructions for different platforms may result in
1222corrupted binaries.
1223
Joel Huttonfe027712018-03-19 11:59:57 +00001224Note: The uboot image downloaded by the Linaro workspace script does not always
1225match the uboot image packaged as BL33 in the corresponding fip file. It is
1226recommended to use the version that is packaged in the fip file using the
1227instructions below.
1228
Soby Mathewecd94ad2018-05-09 13:59:29 +01001229Note: For the FVP, the kernel FDT is packaged in FIP during build and loaded
1230by the firmware at runtime. See `Obtaining the Flattened Device Trees`_
1231section for more info on selecting the right FDT to use.
1232
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001233#. Clean the working directory
1234
1235 ::
1236
1237 make realclean
1238
1239#. Obtain SCP\_BL2 (Juno) and BL33 (all platforms)
1240
1241 Use the fiptool to extract the SCP\_BL2 and BL33 images from the FIP
1242 package included in the Linaro release:
1243
1244 ::
1245
1246 # Build the fiptool
1247 make [DEBUG=1] [V=1] fiptool
1248
1249 # Unpack firmware images from Linaro FIP
1250 ./tools/fiptool/fiptool unpack \
1251 <path/to/linaro/release>/fip.bin
1252
1253 The unpack operation will result in a set of binary images extracted to the
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001254 current working directory. The SCP\_BL2 image corresponds to
1255 ``scp-fw.bin`` and BL33 corresponds to ``nt-fw.bin``.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001256
Joel Huttonfe027712018-03-19 11:59:57 +00001257 Note: The fiptool will complain if the images to be unpacked already
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001258 exist in the current directory. If that is the case, either delete those
1259 files or use the ``--force`` option to overwrite.
1260
Joel Huttonfe027712018-03-19 11:59:57 +00001261 Note: For AArch32, the instructions below assume that nt-fw.bin is a custom
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001262 Normal world boot loader that supports AArch32.
1263
Dan Handley610e7e12018-03-01 18:44:00 +00001264#. Build TF-A images and create a new FIP for FVP
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001265
1266 ::
1267
1268 # AArch64
1269 make PLAT=fvp BL33=nt-fw.bin all fip
1270
1271 # AArch32
1272 make PLAT=fvp ARCH=aarch32 AARCH32_SP=sp_min BL33=nt-fw.bin all fip
1273
Dan Handley610e7e12018-03-01 18:44:00 +00001274#. Build TF-A images and create a new FIP for Juno
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001275
1276 For AArch64:
1277
1278 Building for AArch64 on Juno simply requires the addition of ``SCP_BL2``
1279 as a build parameter.
1280
1281 ::
1282
1283 make PLAT=juno all fip \
1284 BL33=<path-to-juno-oe-uboot>/SOFTWARE/bl33-uboot.bin \
1285 SCP_BL2=<path-to-juno-busybox-uboot>/SOFTWARE/scp_bl2.bin
1286
1287 For AArch32:
1288
1289 Hardware restrictions on Juno prevent cold reset into AArch32 execution mode,
1290 therefore BL1 and BL2 must be compiled for AArch64, and BL32 is compiled
1291 separately for AArch32.
1292
1293 - Before building BL32, the environment variable ``CROSS_COMPILE`` must point
1294 to the AArch32 Linaro cross compiler.
1295
1296 ::
1297
1298 export CROSS_COMPILE=<path-to-aarch32-gcc>/bin/arm-linux-gnueabihf-
1299
1300 - Build BL32 in AArch32.
1301
1302 ::
1303
1304 make ARCH=aarch32 PLAT=juno AARCH32_SP=sp_min \
1305 RESET_TO_SP_MIN=1 JUNO_AARCH32_EL3_RUNTIME=1 bl32
1306
1307 - Before building BL1 and BL2, the environment variable ``CROSS_COMPILE``
1308 must point to the AArch64 Linaro cross compiler.
1309
1310 ::
1311
1312 export CROSS_COMPILE=<path-to-aarch64-gcc>/bin/aarch64-linux-gnu-
1313
1314 - The following parameters should be used to build BL1 and BL2 in AArch64
1315 and point to the BL32 file.
1316
1317 ::
1318
Soby Mathew97b1bff2018-09-27 16:46:41 +01001319 make ARCH=aarch64 PLAT=juno JUNO_AARCH32_EL3_RUNTIME=1 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001320 BL33=<path-to-juno32-oe-uboot>/SOFTWARE/bl33-uboot.bin \
Soby Mathewbf169232017-11-14 14:10:10 +00001321 SCP_BL2=<path-to-juno32-oe-uboot>/SOFTWARE/scp_bl2.bin \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001322 BL32=<path-to-bl32>/bl32.bin all fip
1323
1324The resulting BL1 and FIP images may be found in:
1325
1326::
1327
1328 # Juno
1329 ./build/juno/release/bl1.bin
1330 ./build/juno/release/fip.bin
1331
1332 # FVP
1333 ./build/fvp/release/bl1.bin
1334 ./build/fvp/release/fip.bin
1335
Roberto Vargas096f3a02017-10-17 10:19:00 +01001336
1337Booting Firmware Update images
1338-------------------------------------
1339
1340When Firmware Update (FWU) is enabled there are at least 2 new images
1341that have to be loaded, the Non-Secure FWU ROM (NS-BL1U), and the
1342FWU FIP.
1343
1344Juno
1345~~~~
1346
1347The new images must be programmed in flash memory by adding
1348an entry in the ``SITE1/HBI0262x/images.txt`` configuration file
1349on the Juno SD card (where ``x`` depends on the revision of the Juno board).
1350Refer to the `Juno Getting Started Guide`_, section 2.3 "Flash memory
1351programming" for more information. User should ensure these do not
1352overlap with any other entries in the file.
1353
1354::
1355
1356 NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
1357 NOR10ADDRESS: 0x00400000 ;Image Flash Address [ns_bl2u_base_address]
1358 NOR10FILE: \SOFTWARE\fwu_fip.bin ;Image File Name
1359 NOR10LOAD: 00000000 ;Image Load Address
1360 NOR10ENTRY: 00000000 ;Image Entry Point
1361
1362 NOR11UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
1363 NOR11ADDRESS: 0x03EB8000 ;Image Flash Address [ns_bl1u_base_address]
1364 NOR11FILE: \SOFTWARE\ns_bl1u.bin ;Image File Name
1365 NOR11LOAD: 00000000 ;Image Load Address
1366
1367The address ns_bl1u_base_address is the value of NS_BL1U_BASE - 0x8000000.
1368In the same way, the address ns_bl2u_base_address is the value of
1369NS_BL2U_BASE - 0x8000000.
1370
1371FVP
1372~~~
1373
1374The additional fip images must be loaded with:
1375
1376::
1377
1378 --data cluster0.cpu0="<path_to>/ns_bl1u.bin"@0x0beb8000 [ns_bl1u_base_address]
1379 --data cluster0.cpu0="<path_to>/fwu_fip.bin"@0x08400000 [ns_bl2u_base_address]
1380
1381The address ns_bl1u_base_address is the value of NS_BL1U_BASE.
1382In the same way, the address ns_bl2u_base_address is the value of
1383NS_BL2U_BASE.
1384
1385
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001386EL3 payloads alternative boot flow
1387----------------------------------
1388
1389On a pre-production system, the ability to execute arbitrary, bare-metal code at
1390the highest exception level is required. It allows full, direct access to the
1391hardware, for example to run silicon soak tests.
1392
1393Although it is possible to implement some baremetal secure firmware from
1394scratch, this is a complex task on some platforms, depending on the level of
1395configuration required to put the system in the expected state.
1396
1397Rather than booting a baremetal application, a possible compromise is to boot
Dan Handley610e7e12018-03-01 18:44:00 +00001398``EL3 payloads`` through TF-A instead. This is implemented as an alternative
1399boot flow, where a modified BL2 boots an EL3 payload, instead of loading the
1400other BL images and passing control to BL31. It reduces the complexity of
1401developing EL3 baremetal code by:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001402
1403- putting the system into a known architectural state;
1404- taking care of platform secure world initialization;
1405- loading the SCP\_BL2 image if required by the platform.
1406
Dan Handley610e7e12018-03-01 18:44:00 +00001407When booting an EL3 payload on Arm standard platforms, the configuration of the
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001408TrustZone controller is simplified such that only region 0 is enabled and is
1409configured to permit secure access only. This gives full access to the whole
1410DRAM to the EL3 payload.
1411
1412The system is left in the same state as when entering BL31 in the default boot
1413flow. In particular:
1414
1415- Running in EL3;
1416- Current state is AArch64;
1417- Little-endian data access;
1418- All exceptions disabled;
1419- MMU disabled;
1420- Caches disabled.
1421
1422Booting an EL3 payload
1423~~~~~~~~~~~~~~~~~~~~~~
1424
1425The EL3 payload image is a standalone image and is not part of the FIP. It is
Dan Handley610e7e12018-03-01 18:44:00 +00001426not loaded by TF-A. Therefore, there are 2 possible scenarios:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001427
1428- The EL3 payload may reside in non-volatile memory (NVM) and execute in
1429 place. In this case, booting it is just a matter of specifying the right
Dan Handley610e7e12018-03-01 18:44:00 +00001430 address in NVM through ``EL3_PAYLOAD_BASE`` when building TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001431
1432- The EL3 payload needs to be loaded in volatile memory (e.g. DRAM) at
1433 run-time.
1434
1435To help in the latter scenario, the ``SPIN_ON_BL1_EXIT=1`` build option can be
1436used. The infinite loop that it introduces in BL1 stops execution at the right
1437moment for a debugger to take control of the target and load the payload (for
1438example, over JTAG).
1439
1440It is expected that this loading method will work in most cases, as a debugger
1441connection is usually available in a pre-production system. The user is free to
1442use any other platform-specific mechanism to load the EL3 payload, though.
1443
1444Booting an EL3 payload on FVP
1445^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
1446
1447The EL3 payloads boot flow requires the CPU's mailbox to be cleared at reset for
1448the secondary CPUs holding pen to work properly. Unfortunately, its reset value
1449is undefined on the FVP platform and the FVP platform code doesn't clear it.
1450Therefore, one must modify the way the model is normally invoked in order to
1451clear the mailbox at start-up.
1452
1453One way to do that is to create an 8-byte file containing all zero bytes using
1454the following command:
1455
1456::
1457
1458 dd if=/dev/zero of=mailbox.dat bs=1 count=8
1459
1460and pre-load it into the FVP memory at the mailbox address (i.e. ``0x04000000``)
1461using the following model parameters:
1462
1463::
1464
1465 --data cluster0.cpu0=mailbox.dat@0x04000000 [Base FVPs]
1466 --data=mailbox.dat@0x04000000 [Foundation FVP]
1467
1468To provide the model with the EL3 payload image, the following methods may be
1469used:
1470
1471#. If the EL3 payload is able to execute in place, it may be programmed into
1472 flash memory. On Base Cortex and AEM FVPs, the following model parameter
1473 loads it at the base address of the NOR FLASH1 (the NOR FLASH0 is already
1474 used for the FIP):
1475
1476 ::
1477
1478 -C bp.flashloader1.fname="/path/to/el3-payload"
1479
1480 On Foundation FVP, there is no flash loader component and the EL3 payload
1481 may be programmed anywhere in flash using method 3 below.
1482
1483#. When using the ``SPIN_ON_BL1_EXIT=1`` loading method, the following DS-5
1484 command may be used to load the EL3 payload ELF image over JTAG:
1485
1486 ::
1487
1488 load /path/to/el3-payload.elf
1489
1490#. The EL3 payload may be pre-loaded in volatile memory using the following
1491 model parameters:
1492
1493 ::
1494
1495 --data cluster0.cpu0="/path/to/el3-payload"@address [Base FVPs]
1496 --data="/path/to/el3-payload"@address [Foundation FVP]
1497
1498 The address provided to the FVP must match the ``EL3_PAYLOAD_BASE`` address
Dan Handley610e7e12018-03-01 18:44:00 +00001499 used when building TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001500
1501Booting an EL3 payload on Juno
1502^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
1503
1504If the EL3 payload is able to execute in place, it may be programmed in flash
1505memory by adding an entry in the ``SITE1/HBI0262x/images.txt`` configuration file
1506on the Juno SD card (where ``x`` depends on the revision of the Juno board).
1507Refer to the `Juno Getting Started Guide`_, section 2.3 "Flash memory
1508programming" for more information.
1509
1510Alternatively, the same DS-5 command mentioned in the FVP section above can
1511be used to load the EL3 payload's ELF file over JTAG on Juno.
1512
1513Preloaded BL33 alternative boot flow
1514------------------------------------
1515
1516Some platforms have the ability to preload BL33 into memory instead of relying
Dan Handley610e7e12018-03-01 18:44:00 +00001517on TF-A to load it. This may simplify packaging of the normal world code and
1518improve performance in a development environment. When secure world cold boot
1519is complete, TF-A simply jumps to a BL33 base address provided at build time.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001520
1521For this option to be used, the ``PRELOADED_BL33_BASE`` build option has to be
Dan Handley610e7e12018-03-01 18:44:00 +00001522used when compiling TF-A. For example, the following command will create a FIP
1523without a BL33 and prepare to jump to a BL33 image loaded at address
15240x80000000:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001525
1526::
1527
1528 make PRELOADED_BL33_BASE=0x80000000 PLAT=fvp all fip
1529
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001530Boot of a preloaded kernel image on Base FVP
1531~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001532
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001533The following example uses a simplified boot flow by directly jumping from the
1534TF-A to the Linux kernel, which will use a ramdisk as filesystem. This can be
1535useful if both the kernel and the device tree blob (DTB) are already present in
1536memory (like in FVP).
1537
1538For example, if the kernel is loaded at ``0x80080000`` and the DTB is loaded at
1539address ``0x82000000``, the firmware can be built like this:
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001540
1541::
1542
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001543 CROSS_COMPILE=aarch64-linux-gnu- \
1544 make PLAT=fvp DEBUG=1 \
1545 RESET_TO_BL31=1 \
1546 ARM_LINUX_KERNEL_AS_BL33=1 \
1547 PRELOADED_BL33_BASE=0x80080000 \
1548 ARM_PRELOADED_DTB_BASE=0x82000000 \
1549 all fip
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001550
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001551Now, it is needed to modify the DTB so that the kernel knows the address of the
1552ramdisk. The following script generates a patched DTB from the provided one,
1553assuming that the ramdisk is loaded at address ``0x84000000``. Note that this
1554script assumes that the user is using a ramdisk image prepared for U-Boot, like
1555the ones provided by Linaro. If using a ramdisk without this header,the ``0x40``
1556offset in ``INITRD_START`` has to be removed.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001557
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001558.. code:: bash
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001559
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001560 #!/bin/bash
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001561
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001562 # Path to the input DTB
1563 KERNEL_DTB=<path-to>/<fdt>
1564 # Path to the output DTB
1565 PATCHED_KERNEL_DTB=<path-to>/<patched-fdt>
1566 # Base address of the ramdisk
1567 INITRD_BASE=0x84000000
1568 # Path to the ramdisk
1569 INITRD=<path-to>/<ramdisk.img>
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001570
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001571 # Skip uboot header (64 bytes)
1572 INITRD_START=$(printf "0x%x" $((${INITRD_BASE} + 0x40)) )
1573 INITRD_SIZE=$(stat -Lc %s ${INITRD})
1574 INITRD_END=$(printf "0x%x" $((${INITRD_BASE} + ${INITRD_SIZE})) )
1575
1576 CHOSEN_NODE=$(echo \
1577 "/ { \
1578 chosen { \
1579 linux,initrd-start = <${INITRD_START}>; \
1580 linux,initrd-end = <${INITRD_END}>; \
1581 }; \
1582 };")
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001583
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001584 echo $(dtc -O dts -I dtb ${KERNEL_DTB}) ${CHOSEN_NODE} | \
1585 dtc -O dtb -o ${PATCHED_KERNEL_DTB} -
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001586
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001587And the FVP binary can be run with the following command:
1588
1589::
1590
1591 <path-to>/FVP_Base_AEMv8A-AEMv8A \
1592 -C pctl.startup=0.0.0.0 \
1593 -C bp.secure_memory=1 \
1594 -C cluster0.NUM_CORES=4 \
1595 -C cluster1.NUM_CORES=4 \
1596 -C cache_state_modelled=1 \
1597 -C cluster0.cpu0.RVBAR=0x04020000 \
1598 -C cluster0.cpu1.RVBAR=0x04020000 \
1599 -C cluster0.cpu2.RVBAR=0x04020000 \
1600 -C cluster0.cpu3.RVBAR=0x04020000 \
1601 -C cluster1.cpu0.RVBAR=0x04020000 \
1602 -C cluster1.cpu1.RVBAR=0x04020000 \
1603 -C cluster1.cpu2.RVBAR=0x04020000 \
1604 -C cluster1.cpu3.RVBAR=0x04020000 \
1605 --data cluster0.cpu0="<path-to>/bl31.bin"@0x04020000 \
1606 --data cluster0.cpu0="<path-to>/<patched-fdt>"@0x82000000 \
1607 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
1608 --data cluster0.cpu0="<path-to>/<ramdisk.img>"@0x84000000
1609
1610Boot of a preloaded kernel image on Juno
1611~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001612
Antonio Nino Diazb1881552018-05-14 09:12:34 +01001613The Trusted Firmware must be compiled in a similar way as for FVP explained
1614above. The process to load binaries to memory is the one explained in
1615`Booting an EL3 payload on Juno`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001616
1617Running the software on FVP
1618---------------------------
1619
David Cunado7c032642018-03-12 18:47:05 +00001620The latest version of the AArch64 build of TF-A has been tested on the following
1621Arm FVPs without shifted affinities, and that do not support threaded CPU cores
1622(64-bit host machine only).
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001623
David Cunado05845bf2017-12-19 16:33:25 +00001624NOTE: Unless otherwise stated, the model version is Version 11.4 Build 37.
David Cunado124415e2017-06-27 17:31:12 +01001625
David Cunado05845bf2017-12-19 16:33:25 +00001626- ``FVP_Base_Aresx4``
1627- ``FVP_Base_AEMv8A-AEMv8A``
1628- ``FVP_Base_AEMv8A-AEMv8A-AEMv8A-AEMv8A-CCN502``
1629- ``FVP_Base_AEMv8A-AEMv8A``
1630- ``FVP_Base_RevC-2xAEMv8A``
1631- ``FVP_Base_Cortex-A32x4``
David Cunado124415e2017-06-27 17:31:12 +01001632- ``FVP_Base_Cortex-A35x4``
1633- ``FVP_Base_Cortex-A53x4``
David Cunado05845bf2017-12-19 16:33:25 +00001634- ``FVP_Base_Cortex-A55x4+Cortex-A75x4``
1635- ``FVP_Base_Cortex-A55x4``
David Cunado124415e2017-06-27 17:31:12 +01001636- ``FVP_Base_Cortex-A57x4-A53x4``
1637- ``FVP_Base_Cortex-A57x4``
1638- ``FVP_Base_Cortex-A72x4-A53x4``
1639- ``FVP_Base_Cortex-A72x4``
1640- ``FVP_Base_Cortex-A73x4-A53x4``
1641- ``FVP_Base_Cortex-A73x4``
David Cunado05845bf2017-12-19 16:33:25 +00001642- ``FVP_Base_Cortex-A75x4``
1643- ``FVP_Base_Cortex-A76x4``
1644- ``FVP_CSS_SGI-575`` (Version 11.3 build 40)
1645- ``Foundation_Platform``
David Cunado7c032642018-03-12 18:47:05 +00001646
1647The latest version of the AArch32 build of TF-A has been tested on the following
1648Arm FVPs without shifted affinities, and that do not support threaded CPU cores
1649(64-bit host machine only).
1650
1651- ``FVP_Base_AEMv8A-AEMv8A``
David Cunado124415e2017-06-27 17:31:12 +01001652- ``FVP_Base_Cortex-A32x4``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001653
David Cunado7c032642018-03-12 18:47:05 +00001654NOTE: The ``FVP_Base_RevC-2xAEMv8A`` FVP only supports shifted affinities, which
1655is not compatible with legacy GIC configurations. Therefore this FVP does not
1656support these legacy GIC configurations.
1657
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001658NOTE: The build numbers quoted above are those reported by launching the FVP
1659with the ``--version`` parameter.
1660
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001661NOTE: Linaro provides a ramdisk image in prebuilt FVP configurations and full
1662file systems that can be downloaded separately. To run an FVP with a virtio
1663file system image an additional FVP configuration option
1664``-C bp.virtioblockdevice.image_path="<path-to>/<file-system-image>`` can be
1665used.
1666
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001667NOTE: The software will not work on Version 1.0 of the Foundation FVP.
1668The commands below would report an ``unhandled argument`` error in this case.
1669
1670NOTE: FVPs can be launched with ``--cadi-server`` option such that a
Dan Handley610e7e12018-03-01 18:44:00 +00001671CADI-compliant debugger (for example, Arm DS-5) can connect to and control its
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001672execution.
1673
Eleanor Bonnicie124dc42017-10-04 15:03:33 +01001674NOTE: Since FVP model Version 11.0 Build 11.0.34 and Version 8.5 Build 0.8.5202
David Cunado97309462017-07-31 12:24:51 +01001675the internal synchronisation timings changed compared to older versions of the
1676models. The models can be launched with ``-Q 100`` option if they are required
1677to match the run time characteristics of the older versions.
1678
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001679The Foundation FVP is a cut down version of the AArch64 Base FVP. It can be
Dan Handley610e7e12018-03-01 18:44:00 +00001680downloaded for free from `Arm's website`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001681
David Cunado124415e2017-06-27 17:31:12 +01001682The Cortex-A models listed above are also available to download from
Dan Handley610e7e12018-03-01 18:44:00 +00001683`Arm's website`_.
David Cunado124415e2017-06-27 17:31:12 +01001684
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001685Please refer to the FVP documentation for a detailed description of the model
Dan Handley610e7e12018-03-01 18:44:00 +00001686parameter options. A brief description of the important ones that affect TF-A
1687and normal world software behavior is provided below.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001688
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001689Obtaining the Flattened Device Trees
1690~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1691
1692Depending on the FVP configuration and Linux configuration used, different
Soby Mathewecd94ad2018-05-09 13:59:29 +01001693FDT files are required. FDT source files for the Foundation and Base FVPs can
1694be found in the TF-A source directory under ``fdts/``. The Foundation FVP has
1695a subset of the Base FVP components. For example, the Foundation FVP lacks
1696CLCD and MMC support, and has only one CPU cluster.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001697
1698Note: It is not recommended to use the FDTs built along the kernel because not
1699all FDTs are available from there.
1700
Soby Mathewecd94ad2018-05-09 13:59:29 +01001701The dynamic configuration capability is enabled in the firmware for FVPs.
1702This means that the firmware can authenticate and load the FDT if present in
1703FIP. A default FDT is packaged into FIP during the build based on
1704the build configuration. This can be overridden by using the ``FVP_HW_CONFIG``
1705or ``FVP_HW_CONFIG_DTS`` build options (refer to the
1706`Arm FVP platform specific build options`_ section for detail on the options).
1707
1708- ``fvp-base-gicv2-psci.dts``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001709
David Cunado7c032642018-03-12 18:47:05 +00001710 For use with models such as the Cortex-A57-A53 Base FVPs without shifted
1711 affinities and with Base memory map configuration.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001712
Soby Mathewecd94ad2018-05-09 13:59:29 +01001713- ``fvp-base-gicv2-psci-aarch32.dts``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001714
David Cunado7c032642018-03-12 18:47:05 +00001715 For use with models such as the Cortex-A32 Base FVPs without shifted
1716 affinities and running Linux in AArch32 state with Base memory map
1717 configuration.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001718
Soby Mathewecd94ad2018-05-09 13:59:29 +01001719- ``fvp-base-gicv3-psci.dts``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001720
David Cunado7c032642018-03-12 18:47:05 +00001721 For use with models such as the Cortex-A57-A53 Base FVPs without shifted
1722 affinities and with Base memory map configuration and Linux GICv3 support.
1723
Soby Mathewecd94ad2018-05-09 13:59:29 +01001724- ``fvp-base-gicv3-psci-1t.dts``
David Cunado7c032642018-03-12 18:47:05 +00001725
1726 For use with models such as the AEMv8-RevC Base FVP with shifted affinities,
1727 single threaded CPUs, Base memory map configuration and Linux GICv3 support.
1728
Soby Mathewecd94ad2018-05-09 13:59:29 +01001729- ``fvp-base-gicv3-psci-dynamiq.dts``
David Cunado7c032642018-03-12 18:47:05 +00001730
1731 For use with models as the Cortex-A55-A75 Base FVPs with shifted affinities,
1732 single cluster, single threaded CPUs, Base memory map configuration and Linux
1733 GICv3 support.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001734
Soby Mathewecd94ad2018-05-09 13:59:29 +01001735- ``fvp-base-gicv3-psci-aarch32.dts``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001736
David Cunado7c032642018-03-12 18:47:05 +00001737 For use with models such as the Cortex-A32 Base FVPs without shifted
1738 affinities and running Linux in AArch32 state with Base memory map
1739 configuration and Linux GICv3 support.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001740
Soby Mathewecd94ad2018-05-09 13:59:29 +01001741- ``fvp-foundation-gicv2-psci.dts``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001742
1743 For use with Foundation FVP with Base memory map configuration.
1744
Soby Mathewecd94ad2018-05-09 13:59:29 +01001745- ``fvp-foundation-gicv3-psci.dts``
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001746
1747 (Default) For use with Foundation FVP with Base memory map configuration
1748 and Linux GICv3 support.
1749
1750Running on the Foundation FVP with reset to BL1 entrypoint
1751~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1752
1753The following ``Foundation_Platform`` parameters should be used to boot Linux with
Dan Handley610e7e12018-03-01 18:44:00 +000017544 CPUs using the AArch64 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001755
1756::
1757
1758 <path-to>/Foundation_Platform \
1759 --cores=4 \
Antonio Nino Diazb44eda52018-02-23 11:01:31 +00001760 --arm-v8.0 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001761 --secure-memory \
1762 --visualization \
1763 --gicv3 \
1764 --data="<path-to>/<bl1-binary>"@0x0 \
1765 --data="<path-to>/<FIP-binary>"@0x08000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001766 --data="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001767 --data="<path-to>/<ramdisk-binary>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001768
1769Notes:
1770
1771- BL1 is loaded at the start of the Trusted ROM.
1772- The Firmware Image Package is loaded at the start of NOR FLASH0.
Soby Mathewecd94ad2018-05-09 13:59:29 +01001773- The firmware loads the FDT packaged in FIP to the DRAM. The FDT load address
1774 is specified via the ``hw_config_addr`` property in `TB_FW_CONFIG for FVP`_.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001775- The default use-case for the Foundation FVP is to use the ``--gicv3`` option
1776 and enable the GICv3 device in the model. Note that without this option,
1777 the Foundation FVP defaults to legacy (Versatile Express) memory map which
Dan Handley610e7e12018-03-01 18:44:00 +00001778 is not supported by TF-A.
1779- In order for TF-A to run correctly on the Foundation FVP, the architecture
1780 versions must match. The Foundation FVP defaults to the highest v8.x
1781 version it supports but the default build for TF-A is for v8.0. To avoid
1782 issues either start the Foundation FVP to use v8.0 architecture using the
1783 ``--arm-v8.0`` option, or build TF-A with an appropriate value for
1784 ``ARM_ARCH_MINOR``.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001785
1786Running on the AEMv8 Base FVP with reset to BL1 entrypoint
1787~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1788
David Cunado7c032642018-03-12 18:47:05 +00001789The following ``FVP_Base_RevC-2xAEMv8A`` parameters should be used to boot Linux
Dan Handley610e7e12018-03-01 18:44:00 +00001790with 8 CPUs using the AArch64 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001791
1792::
1793
David Cunado7c032642018-03-12 18:47:05 +00001794 <path-to>/FVP_Base_RevC-2xAEMv8A \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001795 -C pctl.startup=0.0.0.0 \
1796 -C bp.secure_memory=1 \
1797 -C bp.tzc_400.diagnostics=1 \
1798 -C cluster0.NUM_CORES=4 \
1799 -C cluster1.NUM_CORES=4 \
1800 -C cache_state_modelled=1 \
1801 -C bp.secureflashloader.fname="<path-to>/<bl1-binary>" \
1802 -C bp.flashloader0.fname="<path-to>/<FIP-binary>" \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001803 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001804 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001805
1806Running on the AEMv8 Base FVP (AArch32) with reset to BL1 entrypoint
1807~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1808
1809The following ``FVP_Base_AEMv8A-AEMv8A`` parameters should be used to boot Linux
Dan Handley610e7e12018-03-01 18:44:00 +00001810with 8 CPUs using the AArch32 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001811
1812::
1813
1814 <path-to>/FVP_Base_AEMv8A-AEMv8A \
1815 -C pctl.startup=0.0.0.0 \
1816 -C bp.secure_memory=1 \
1817 -C bp.tzc_400.diagnostics=1 \
1818 -C cluster0.NUM_CORES=4 \
1819 -C cluster1.NUM_CORES=4 \
1820 -C cache_state_modelled=1 \
1821 -C cluster0.cpu0.CONFIG64=0 \
1822 -C cluster0.cpu1.CONFIG64=0 \
1823 -C cluster0.cpu2.CONFIG64=0 \
1824 -C cluster0.cpu3.CONFIG64=0 \
1825 -C cluster1.cpu0.CONFIG64=0 \
1826 -C cluster1.cpu1.CONFIG64=0 \
1827 -C cluster1.cpu2.CONFIG64=0 \
1828 -C cluster1.cpu3.CONFIG64=0 \
1829 -C bp.secureflashloader.fname="<path-to>/<bl1-binary>" \
1830 -C bp.flashloader0.fname="<path-to>/<FIP-binary>" \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001831 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001832 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001833
1834Running on the Cortex-A57-A53 Base FVP with reset to BL1 entrypoint
1835~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1836
1837The following ``FVP_Base_Cortex-A57x4-A53x4`` model parameters should be used to
Dan Handley610e7e12018-03-01 18:44:00 +00001838boot Linux with 8 CPUs using the AArch64 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001839
1840::
1841
1842 <path-to>/FVP_Base_Cortex-A57x4-A53x4 \
1843 -C pctl.startup=0.0.0.0 \
1844 -C bp.secure_memory=1 \
1845 -C bp.tzc_400.diagnostics=1 \
1846 -C cache_state_modelled=1 \
1847 -C bp.secureflashloader.fname="<path-to>/<bl1-binary>" \
1848 -C bp.flashloader0.fname="<path-to>/<FIP-binary>" \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001849 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001850 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001851
1852Running on the Cortex-A32 Base FVP (AArch32) with reset to BL1 entrypoint
1853~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1854
1855The following ``FVP_Base_Cortex-A32x4`` model parameters should be used to
Dan Handley610e7e12018-03-01 18:44:00 +00001856boot Linux with 4 CPUs using the AArch32 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001857
1858::
1859
1860 <path-to>/FVP_Base_Cortex-A32x4 \
1861 -C pctl.startup=0.0.0.0 \
1862 -C bp.secure_memory=1 \
1863 -C bp.tzc_400.diagnostics=1 \
1864 -C cache_state_modelled=1 \
1865 -C bp.secureflashloader.fname="<path-to>/<bl1-binary>" \
1866 -C bp.flashloader0.fname="<path-to>/<FIP-binary>" \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001867 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001868 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001869
1870Running on the AEMv8 Base FVP with reset to BL31 entrypoint
1871~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1872
David Cunado7c032642018-03-12 18:47:05 +00001873The following ``FVP_Base_RevC-2xAEMv8A`` parameters should be used to boot Linux
Dan Handley610e7e12018-03-01 18:44:00 +00001874with 8 CPUs using the AArch64 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001875
1876::
1877
David Cunado7c032642018-03-12 18:47:05 +00001878 <path-to>/FVP_Base_RevC-2xAEMv8A \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001879 -C pctl.startup=0.0.0.0 \
1880 -C bp.secure_memory=1 \
1881 -C bp.tzc_400.diagnostics=1 \
1882 -C cluster0.NUM_CORES=4 \
1883 -C cluster1.NUM_CORES=4 \
1884 -C cache_state_modelled=1 \
Soby Mathewba678c32018-12-12 14:54:23 +00001885 -C cluster0.cpu0.RVBAR=0x04010000 \
1886 -C cluster0.cpu1.RVBAR=0x04010000 \
1887 -C cluster0.cpu2.RVBAR=0x04010000 \
1888 -C cluster0.cpu3.RVBAR=0x04010000 \
1889 -C cluster1.cpu0.RVBAR=0x04010000 \
1890 -C cluster1.cpu1.RVBAR=0x04010000 \
1891 -C cluster1.cpu2.RVBAR=0x04010000 \
1892 -C cluster1.cpu3.RVBAR=0x04010000 \
1893 --data cluster0.cpu0="<path-to>/<bl31-binary>"@0x04010000 \
1894 --data cluster0.cpu0="<path-to>/<bl32-binary>"@0xff000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001895 --data cluster0.cpu0="<path-to>/<bl33-binary>"@0x88000000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001896 --data cluster0.cpu0="<path-to>/<fdt>"@0x82000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001897 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001898 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001899
1900Notes:
1901
Soby Mathewba678c32018-12-12 14:54:23 +00001902- Since Position Independent Executable (PIE) support is enabled for BL31
1903 in this config, it can be loaded at any valid address for execution.
1904
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001905- Since a FIP is not loaded when using BL31 as reset entrypoint, the
1906 ``--data="<path-to><bl31|bl32|bl33-binary>"@<base-address-of-binary>``
1907 parameter is needed to load the individual bootloader images in memory.
1908 BL32 image is only needed if BL31 has been built to expect a Secure-EL1
Soby Mathewecd94ad2018-05-09 13:59:29 +01001909 Payload. For the same reason, the FDT needs to be compiled from the DT source
1910 and loaded via the ``--data cluster0.cpu0="<path-to>/<fdt>"@0x82000000``
1911 parameter.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001912
1913- The ``-C cluster<X>.cpu<Y>.RVBAR=@<base-address-of-bl31>`` parameter, where
1914 X and Y are the cluster and CPU numbers respectively, is used to set the
1915 reset vector for each core.
1916
1917- Changing the default value of ``ARM_TSP_RAM_LOCATION`` will also require
1918 changing the value of
1919 ``--data="<path-to><bl32-binary>"@<base-address-of-bl32>`` to the new value of
1920 ``BL32_BASE``.
1921
1922Running on the AEMv8 Base FVP (AArch32) with reset to SP\_MIN entrypoint
1923~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1924
1925The following ``FVP_Base_AEMv8A-AEMv8A`` parameters should be used to boot Linux
Dan Handley610e7e12018-03-01 18:44:00 +00001926with 8 CPUs using the AArch32 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001927
1928::
1929
1930 <path-to>/FVP_Base_AEMv8A-AEMv8A \
1931 -C pctl.startup=0.0.0.0 \
1932 -C bp.secure_memory=1 \
1933 -C bp.tzc_400.diagnostics=1 \
1934 -C cluster0.NUM_CORES=4 \
1935 -C cluster1.NUM_CORES=4 \
1936 -C cache_state_modelled=1 \
1937 -C cluster0.cpu0.CONFIG64=0 \
1938 -C cluster0.cpu1.CONFIG64=0 \
1939 -C cluster0.cpu2.CONFIG64=0 \
1940 -C cluster0.cpu3.CONFIG64=0 \
1941 -C cluster1.cpu0.CONFIG64=0 \
1942 -C cluster1.cpu1.CONFIG64=0 \
1943 -C cluster1.cpu2.CONFIG64=0 \
1944 -C cluster1.cpu3.CONFIG64=0 \
Soby Mathewba678c32018-12-12 14:54:23 +00001945 -C cluster0.cpu0.RVBAR=0x04002000 \
1946 -C cluster0.cpu1.RVBAR=0x04002000 \
1947 -C cluster0.cpu2.RVBAR=0x04002000 \
1948 -C cluster0.cpu3.RVBAR=0x04002000 \
1949 -C cluster1.cpu0.RVBAR=0x04002000 \
1950 -C cluster1.cpu1.RVBAR=0x04002000 \
1951 -C cluster1.cpu2.RVBAR=0x04002000 \
1952 -C cluster1.cpu3.RVBAR=0x04002000 \
Soby Mathewaf14b462018-06-01 16:53:38 +01001953 --data cluster0.cpu0="<path-to>/<bl32-binary>"@0x04002000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001954 --data cluster0.cpu0="<path-to>/<bl33-binary>"@0x88000000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001955 --data cluster0.cpu0="<path-to>/<fdt>"@0x82000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001956 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001957 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001958
1959Note: The load address of ``<bl32-binary>`` depends on the value ``BL32_BASE``.
1960It should match the address programmed into the RVBAR register as well.
1961
1962Running on the Cortex-A57-A53 Base FVP with reset to BL31 entrypoint
1963~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1964
1965The following ``FVP_Base_Cortex-A57x4-A53x4`` model parameters should be used to
Dan Handley610e7e12018-03-01 18:44:00 +00001966boot Linux with 8 CPUs using the AArch64 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001967
1968::
1969
1970 <path-to>/FVP_Base_Cortex-A57x4-A53x4 \
1971 -C pctl.startup=0.0.0.0 \
1972 -C bp.secure_memory=1 \
1973 -C bp.tzc_400.diagnostics=1 \
1974 -C cache_state_modelled=1 \
Soby Mathewba678c32018-12-12 14:54:23 +00001975 -C cluster0.cpu0.RVBARADDR=0x04010000 \
1976 -C cluster0.cpu1.RVBARADDR=0x04010000 \
1977 -C cluster0.cpu2.RVBARADDR=0x04010000 \
1978 -C cluster0.cpu3.RVBARADDR=0x04010000 \
1979 -C cluster1.cpu0.RVBARADDR=0x04010000 \
1980 -C cluster1.cpu1.RVBARADDR=0x04010000 \
1981 -C cluster1.cpu2.RVBARADDR=0x04010000 \
1982 -C cluster1.cpu3.RVBARADDR=0x04010000 \
1983 --data cluster0.cpu0="<path-to>/<bl31-binary>"@0x04010000 \
1984 --data cluster0.cpu0="<path-to>/<bl32-binary>"@0xff000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001985 --data cluster0.cpu0="<path-to>/<bl33-binary>"@0x88000000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001986 --data cluster0.cpu0="<path-to>/<fdt>"@0x82000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001987 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01001988 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001989
1990Running on the Cortex-A32 Base FVP (AArch32) with reset to SP\_MIN entrypoint
1991~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1992
1993The following ``FVP_Base_Cortex-A32x4`` model parameters should be used to
Dan Handley610e7e12018-03-01 18:44:00 +00001994boot Linux with 4 CPUs using the AArch32 build of TF-A.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01001995
1996::
1997
1998 <path-to>/FVP_Base_Cortex-A32x4 \
1999 -C pctl.startup=0.0.0.0 \
2000 -C bp.secure_memory=1 \
2001 -C bp.tzc_400.diagnostics=1 \
2002 -C cache_state_modelled=1 \
Soby Mathewba678c32018-12-12 14:54:23 +00002003 -C cluster0.cpu0.RVBARADDR=0x04002000 \
2004 -C cluster0.cpu1.RVBARADDR=0x04002000 \
2005 -C cluster0.cpu2.RVBARADDR=0x04002000 \
2006 -C cluster0.cpu3.RVBARADDR=0x04002000 \
Soby Mathewaf14b462018-06-01 16:53:38 +01002007 --data cluster0.cpu0="<path-to>/<bl32-binary>"@0x04002000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002008 --data cluster0.cpu0="<path-to>/<bl33-binary>"@0x88000000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01002009 --data cluster0.cpu0="<path-to>/<fdt>"@0x82000000 \
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002010 --data cluster0.cpu0="<path-to>/<kernel-binary>"@0x80080000 \
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01002011 --data cluster0.cpu0="<path-to>/<ramdisk>"@0x84000000
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002012
2013Running the software on Juno
2014----------------------------
2015
Dan Handley610e7e12018-03-01 18:44:00 +00002016This version of TF-A has been tested on variants r0, r1 and r2 of Juno.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002017
2018To execute the software stack on Juno, the version of the Juno board recovery
2019image indicated in the `Linaro Release Notes`_ must be installed. If you have an
2020earlier version installed or are unsure which version is installed, please
2021re-install the recovery image by following the
2022`Instructions for using Linaro's deliverables on Juno`_.
2023
Dan Handley610e7e12018-03-01 18:44:00 +00002024Preparing TF-A images
2025~~~~~~~~~~~~~~~~~~~~~
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002026
Dan Handley610e7e12018-03-01 18:44:00 +00002027After building TF-A, the files ``bl1.bin`` and ``fip.bin`` need copying to the
2028``SOFTWARE/`` directory of the Juno SD card.
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002029
2030Other Juno software information
2031~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2032
Dan Handley610e7e12018-03-01 18:44:00 +00002033Please visit the `Arm Platforms Portal`_ to get support and obtain any other Juno
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002034software information. Please also refer to the `Juno Getting Started Guide`_ to
Dan Handley610e7e12018-03-01 18:44:00 +00002035get more detailed information about the Juno Arm development platform and how to
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002036configure it.
2037
2038Testing SYSTEM SUSPEND on Juno
2039~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2040
2041The SYSTEM SUSPEND is a PSCI API which can be used to implement system suspend
2042to RAM. For more details refer to section 5.16 of `PSCI`_. To test system suspend
2043on Juno, at the linux shell prompt, issue the following command:
2044
2045::
2046
2047 echo +10 > /sys/class/rtc/rtc0/wakealarm
2048 echo -n mem > /sys/power/state
2049
2050The Juno board should suspend to RAM and then wakeup after 10 seconds due to
2051wakeup interrupt from RTC.
2052
2053--------------
2054
Antonio Nino Diaz0e402d32019-01-30 16:01:49 +00002055*Copyright (c) 2013-2019, Arm Limited and Contributors. All rights reserved.*
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002056
David Cunadob2de0992017-06-29 12:01:33 +01002057.. _Linaro: `Linaro Release Notes`_
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01002058.. _Linaro Release: `Linaro Release Notes`_
David Cunado82509be2017-12-19 16:33:25 +00002059.. _Linaro Release Notes: https://community.arm.com/dev-platforms/w/docs/226/old-linaro-release-notes
David Cunado82509be2017-12-19 16:33:25 +00002060.. _Linaro instructions: https://community.arm.com/dev-platforms/w/docs/304/linaro-software-deliverables
2061.. _Instructions for using Linaro's deliverables on Juno: https://community.arm.com/dev-platforms/w/docs/303/juno
Dan Handley610e7e12018-03-01 18:44:00 +00002062.. _Arm Platforms Portal: https://community.arm.com/dev-platforms/
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002063.. _Development Studio 5 (DS-5): http://www.arm.com/products/tools/software-tools/ds-5/index.php
Paul Beesley8b4bdeb2019-01-21 12:06:24 +00002064.. _`Linux Coding Style`: https://www.kernel.org/doc/html/latest/process/coding-style.html
Sandrine Bailleux771535b2018-09-20 10:27:13 +02002065.. _Linux master tree: https://github.com/torvalds/linux/tree/master/
Antonio Nino Diazb5d68092017-05-23 11:49:22 +01002066.. _Dia: https://wiki.gnome.org/Apps/Dia/Download
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01002067.. _here: psci-lib-integration-guide.rst
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002068.. _Trusted Board Boot: trusted-board-boot.rst
Soby Mathewecd94ad2018-05-09 13:59:29 +01002069.. _TB_FW_CONFIG for FVP: ../plat/arm/board/fvp/fdts/fvp_tb_fw_config.dts
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002070.. _Secure-EL1 Payloads and Dispatchers: firmware-design.rst#user-content-secure-el1-payloads-and-dispatchers
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01002071.. _Firmware Update: firmware-update.rst
2072.. _Firmware Design: firmware-design.rst
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002073.. _mbed TLS Repository: https://github.com/ARMmbed/mbedtls.git
2074.. _mbed TLS Security Center: https://tls.mbed.org/security
Dan Handley610e7e12018-03-01 18:44:00 +00002075.. _Arm's website: `FVP models`_
Eleanor Bonnicic61b22e2017-07-07 14:33:24 +01002076.. _FVP models: https://developer.arm.com/products/system-design/fixed-virtual-platforms
Douglas Raillardd7c21b72017-06-28 15:23:03 +01002077.. _Juno Getting Started Guide: http://infocenter.arm.com/help/topic/com.arm.doc.dui0928e/DUI0928E_juno_arm_development_platform_gsg.pdf
David Cunadob2de0992017-06-29 12:01:33 +01002078.. _PSCI: http://infocenter.arm.com/help/topic/com.arm.doc.den0022d/Power_State_Coordination_Interface_PDD_v1_1_DEN0022D.pdf
Sandrine Bailleux604f0a42018-09-20 12:44:39 +02002079.. _Secure Partition Manager Design guide: secure-partition-manager-design.rst
Paul Beesley8b4bdeb2019-01-21 12:06:24 +00002080.. _`Trusted Firmware-A Coding Guidelines`: coding-guidelines.rst