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Dan Handley610e7e12018-03-01 18:44:00 +00001Trusted Firmware-A for Raspberry Pi 3
2=====================================
Antonio Nino Diaz8869b482017-12-01 11:11:26 +00003
4.. section-numbering::
5 :suffix: .
6
7.. contents::
8
9The `Raspberry Pi 3`_ is an inexpensive single-board computer that contains four
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +010010Arm Cortex-A53 cores.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +000011
Dan Handley610e7e12018-03-01 18:44:00 +000012The following instructions explain how to use this port of the TF-A with the
13default distribution of `Raspbian`_ because that's the distribution officially
14supported by the Raspberry Pi Foundation. At the moment of writing this, the
15officially supported kernel is a AArch32 kernel. This doesn't mean that this
16port of TF-A can't boot a AArch64 kernel. The `Linux tree fork`_ maintained by
17the Foundation can be compiled for AArch64 by following the steps in
18`AArch64 kernel build instructions`_.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +000019
20**IMPORTANT NOTE**: This port isn't secure. All of the memory used is DRAM,
21which is available from both the Non-secure and Secure worlds. This port
22shouldn't be considered more than a prototype to play with and implement
23elements like PSCI to support the Linux kernel.
24
25Design
26------
27
28The SoC used by the Raspberry Pi 3 is the Broadcom BCM2837. It is a SoC with a
29VideoCore IV that acts as primary processor (and loads everything from the SD
30card) and is located between all Arm cores and the DRAM. Check the `Raspberry Pi
313 documentation`_ for more information.
32
33This explains why it is possible to change the execution state (AArch64/AArch32)
34depending on a few files on the SD card. We only care about the cases in which
35the cores boot in AArch64 mode.
36
37The rules are simple:
38
39- If a file called ``kernel8.img`` is located on the ``boot`` partition of the
40 SD card, it will load it and execute in EL2 in AArch64. Basically, it executes
41 a `default AArch64 stub`_ at address **0x0** that jumps to the kernel.
42
43- If there is also a file called ``armstub8.bin``, it will load it at address
44 **0x0** (instead of the default stub) and execute it in EL3 in AArch64. All
45 the cores are powered on at the same time and start at address **0x0**.
46
47This means that we can use the default AArch32 kernel provided in the official
Dan Handley610e7e12018-03-01 18:44:00 +000048`Raspbian`_ distribution by renaming it to ``kernel8.img``, while TF-A and
49anything else we need is in ``armstub8.bin``. This way we can forget about the
50default bootstrap code. When using a AArch64 kernel, it is only needed to make
51sure that the name on the SD card is ``kernel8.img``.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +000052
53Ideally, we want to load the kernel and have all cores available, which means
54that we need to make the secondary cores work in the way the kernel expects, as
55explained in `Secondary cores`_. In practice, a small bootstrap is needed
Dan Handley610e7e12018-03-01 18:44:00 +000056between TF-A and the kernel.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +000057
58To get the most out of a AArch32 kernel, we want to boot it in Hypervisor mode
59in AArch32. This means that BL33 can't be in EL2 in AArch64 mode. The
60architecture specifies that AArch32 Hypervisor mode isn't present when AArch64
61is used for EL2. When using a AArch64 kernel, it should simply start in EL2.
62
63Placement of images
64~~~~~~~~~~~~~~~~~~~
65
66The file ``armstub8.bin`` contains BL1 and the FIP. It is needed to add padding
67between them so that the addresses they are loaded to match the ones specified
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +010068when compiling TF-A. This is done automatically by the build system.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +000069
70The device tree block is loaded by the VideoCore loader from an appropriate
71file, but we can specify the address it is loaded to in ``config.txt``.
72
73The file ``kernel8.img`` contains a kernel image that is loaded to the address
74specified in ``config.txt``. The `Linux kernel tree`_ has information about how
75a AArch32 Linux kernel image is loaded in ``Documentation/arm/Booting``:
76
77::
78
79 The zImage may also be placed in system RAM and called there. The
80 kernel should be placed in the first 128MiB of RAM. It is recommended
81 that it is loaded above 32MiB in order to avoid the need to relocate
82 prior to decompression, which will make the boot process slightly
83 faster.
84
85There are no similar restrictions for AArch64 kernels, as specified in the file
86``Documentation/arm64/booting.txt``.
87
88This means that we need to avoid the first 128 MiB of RAM when placing the
Dan Handley610e7e12018-03-01 18:44:00 +000089TF-A images (and specially the first 32 MiB, as they are directly used to
90place the uncompressed AArch32 kernel image. This way, both AArch32 and
Antonio Nino Diaz8869b482017-12-01 11:11:26 +000091AArch64 kernels can be placed at the same address.
92
93In the end, the images look like the following diagram when placed in memory.
94All addresses are Physical Addresses from the point of view of the Arm cores.
95Again, note that this is all just part of the same DRAM that goes from
96**0x00000000** to **0x3F000000**, it just has different names to simulate a real
97secure platform!
98
99::
100
101 0x00000000 +-----------------+
102 | ROM | BL1
Ying-Chun Liu (PaulLiu)51b146f2018-07-04 02:32:27 +0800103 0x00020000 +-----------------+
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000104 | FIP |
105 0x00200000 +-----------------+
106 | |
107 | ... |
108 | |
109 0x01000000 +-----------------+
Antonio Nino Diaz85135962018-07-15 11:54:42 +0100110 | DTB | (Loaded by the VideoCore)
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000111 +-----------------+
112 | |
113 | ... |
114 | |
115 0x02000000 +-----------------+
Antonio Nino Diaz85135962018-07-15 11:54:42 +0100116 | Kernel | (Loaded by the VideoCore)
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000117 +-----------------+
118 | |
119 | ... |
120 | |
121 0x10000000 +-----------------+
122 | Secure SRAM | BL2, BL31
123 0x10100000 +-----------------+
Ying-Chun Liu (PaulLiu)64c6ff12018-06-13 20:53:08 +0800124 | Secure DRAM | BL32 (Secure payload)
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000125 0x11000000 +-----------------+
Antonio Nino Diaz50c5a9e2018-07-15 11:56:33 +0100126 | Non-secure DRAM | BL33
127 +-----------------+
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000128 | |
129 | ... |
130 | |
131 0x3F000000 +-----------------+
132 | I/O |
133 0x40000000 +-----------------+
134
Antonio Nino Diaz85135962018-07-15 11:54:42 +0100135The area between **0x10000000** and **0x11000000** has to be manually protected
Antonio Nino Diazf96582a2018-10-19 00:57:16 +0100136so that the kernel doesn't use it. The current port tries to modify the live DTB
137to add a memreserve region that reserves the previously mentioned area.
138
139If this is not possible, the user may manually add ``memmap=16M$256M`` to the
140command line passed to the kernel in ``cmdline.txt``. See the `Setup SD card`_
141instructions to see how to do it. This system is strongly discouraged.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000142
143The last 16 MiB of DRAM can only be accessed by the VideoCore, that has
144different mappings than the Arm cores in which the I/O addresses don't overlap
145the DRAM. The memory reserved to be used by the VideoCore is always placed at
146the end of the DRAM, so this space isn't wasted.
147
Dan Handley610e7e12018-03-01 18:44:00 +0000148Considering the 128 MiB allocated to the GPU and the 16 MiB allocated for
149TF-A, there are 880 MiB available for Linux.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000150
151Boot sequence
152~~~~~~~~~~~~~
153
Dan Handley610e7e12018-03-01 18:44:00 +0000154The boot sequence of TF-A is the usual one except when booting an AArch32
155kernel. In that case, BL33 is booted in AArch32 Hypervisor mode so that it
156can jump to the kernel in the same mode and let it take over that privilege
157level. If BL33 was running in EL2 in AArch64 (as in the default bootflow of
158TF-A) it could only jump to the kernel in AArch32 in Supervisor mode.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000159
160The `Linux kernel tree`_ has instructions on how to jump to the Linux kernel
161in ``Documentation/arm/Booting`` and ``Documentation/arm64/booting.txt``. The
162bootstrap should take care of this.
163
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100164This port support a direct boot of the Linux kernel from the firmware (as a BL33
165image). Alternatively, U-Boot or other bootloaders may be used.
166
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000167Secondary cores
168~~~~~~~~~~~~~~~
169
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100170This port of the Trusted Firmware-A supports ``PSCI_CPU_ON``,
171`PSCI_SYSTEM_RESET`` and ``PSCI_SYSTEM_OFF``. The last one doesn't really turn
172the system off, it simply reboots it and asks the VideoCore firmware to keep it
173in a low power mode permanently.
174
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000175The kernel used by `Raspbian`_ doesn't have support for PSCI, so it is needed to
176use mailboxes to trap the secondary cores until they are ready to jump to the
177kernel. This mailbox is located at a different address in the AArch32 default
178kernel than in the AArch64 kernel.
179
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100180Kernels with PSCI support can use the PSCI calls instead for a cleaner boot.
181
Dan Handley610e7e12018-03-01 18:44:00 +0000182Also, this port of TF-A has another Trusted Mailbox in Shared BL RAM. During
183cold boot, all secondary cores wait in a loop until they are given given an
184address to jump to in this Mailbox (``bl31_warm_entrypoint``).
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000185
186Once BL31 has finished and the primary core has jumped to the BL33 payload, it
187has to call ``PSCI_CPU_ON`` to release the secondary CPUs from the wait loop.
188The payload then makes them wait in another waitloop listening from messages
189from the kernel. When the primary CPU jumps into the kernel, it will send an
190address to the mailbox so that the secondary CPUs jump to it and are recognised
191by the kernel.
192
193Build Instructions
194------------------
195
196To boot a AArch64 kernel, only the AArch64 toolchain is required.
197
198To boot a AArch32 kernel, both AArch64 and AArch32 toolchains are required. The
199AArch32 toolchain is needed for the AArch32 bootstrap needed to load a 32-bit
200kernel.
201
Antonio Nino Diazdfe895d2018-07-12 08:58:38 +0100202The build system concatenates BL1 and the FIP so that the addresses match the
203ones in the memory map. The resulting file is ``armstub8.bin``, located in the
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100204build folder (e.g. ``build/rpi3/debug/armstub8.bin``). To know how to use this
205file, follow the instructions in `Setup SD card`_.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000206
207The following build options are supported:
208
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000209- ``RPI3_BL33_IN_AARCH32``: This port can load a AArch64 or AArch32 BL33 image.
Dan Handley610e7e12018-03-01 18:44:00 +0000210 By default this option is 0, which means that TF-A will jump to BL33 in EL2
211 in AArch64 mode. If set to 1, it will jump to BL33 in Hypervisor in AArch32
212 mode.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000213
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100214- ``PRELOADED_BL33_BASE``: Used to specify the address of a BL33 binary that has
215 been preloaded by any other system than using the firmware. ``BL33`` isn't
216 needed in the build command line if this option is used. Specially useful
217 because the file ``kernel8.img`` can be loaded anywhere by modifying the file
218 ``config.txt``. It doesn't have to contain a kernel, it could have any
219 arbitrary payload.
220
221- ``RPI3_DIRECT_LINUX_BOOT``: Disabled by default. Set to 1 to enable the direct
222 boot of the Linux kernel from the firmware. Option ``RPI3_PRELOADED_DTB_BASE``
223 is mandatory when the direct Linux kernel boot is used. Options
224 ``PRELOADED_BL33_BASE`` will most likely be needed as well because it is
225 unlikely that the kernel image will fit in the space reserved for BL33 images.
226 This option can be combined with ``RPI3_BL33_IN_AARCH32`` in order to boot a
227 32-bit kernel. The only thing this option does is to set the arguments in
228 registers x0-x3 or r0-r2 as expected by the kernel.
229
230- ``RPI3_PRELOADED_DTB_BASE``: Auxiliary build option needed when using
231 ``RPI3_DIRECT_LINUX_BOOT=1``. This option allows to specify the location of a
232 DTB in memory.
233
Ying-Chun Liu (PaulLiu)64c6ff12018-06-13 20:53:08 +0800234- ``BL32``: This port can load and run OP-TEE. The OP-TEE image is optional.
235 Please use the code from `here <https://github.com/OP-TEE/optee_os>`__.
236 Build the Trusted Firmware with option ``BL32=tee-header_v2.bin
237 BL32_EXTRA1=tee-pager_v2.bin BL32_EXTRA2=tee-pageable_v2.bin``
238 to put the binaries into the FIP.
239
Antonio Nino Diaz9abd78d2018-07-11 21:00:32 +0100240 Note: If OP-TEE is used it may be needed to add the following options to the
241 Linux command line so that the USB driver doesn't use FIQs:
242 ``dwc_otg.fiq_enable=0 dwc_otg.fiq_fsm_enable=0 dwc_otg.nak_holdoff=0``.
243 This will unfortunately reduce the performance of the USB driver. It is needed
244 when using Raspbian, for example.
245
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100246- ``TRUSTED_BOARD_BOOT``: This port supports TBB. Set this option to 1 to enable
247 it. In order to use TBB, you might want to set ``GENERATE_COT=1`` to let the
248 contents of the FIP automatically signed by the build process. The ROT key
249 will be generated and output to ``rot_key.pem`` in the build directory. It is
250 able to set ROT_KEY to your own key in PEM format. Also in order to build,
251 you need to clone mbed TLS from `here <https://github.com/ARMmbed/mbedtls>`__.
252 ``MBEDTLS_DIR`` must point at the mbed TLS source directory.
253
254- ``ENABLE_STACK_PROTECTOR``: Disabled by default. It uses the hardware RNG of
255 the board.
Ying-Chun Liu (PaulLiu)4176e0f2018-07-05 14:55:21 +0800256
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000257The following is not currently supported:
258
Dan Handley610e7e12018-03-01 18:44:00 +0000259- AArch32 for TF-A itself.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000260
261- ``EL3_PAYLOAD_BASE``: The reason is that you can already load anything to any
262 address by changing the file ``armstub8.bin``, so there's no point in using
Dan Handley610e7e12018-03-01 18:44:00 +0000263 TF-A in this case.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000264
Antonio Nino Diaz1f470022018-03-27 09:39:47 +0100265- ``MULTI_CONSOLE_API=0``: The multi console API must be enabled. Note that the
266 crash console uses the internal 16550 driver functions directly in order to be
267 able to print error messages during early crashes before setting up the
268 multi console API.
269
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100270Building the firmware for kernels that don't support PSCI
271~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
272
273This is the case for the 32-bit image of Raspbian, for example. 64-bit kernels
274always support PSCI, but they may not know that the system understands PSCI due
275to an incorrect DTB file.
276
277First, clone and compile the 32-bit version of the `Raspberry Pi 3 TF-A
278bootstrap`_. Choose the one needed for the architecture of your kernel.
279
280Then compile TF-A. For a 32-bit kernel, use the following command line:
281
282.. code:: shell
283
284 CROSS_COMPILE=aarch64-linux-gnu- make PLAT=rpi3 \
285 RPI3_BL33_IN_AARCH32=1 \
286 BL33=../rpi3-arm-tf-bootstrap/aarch32/el2-bootstrap.bin
287
288For a 64-bit kernel, use this other command line:
289
290.. code:: shell
291
292 CROSS_COMPILE=aarch64-linux-gnu- make PLAT=rpi3 \
293 BL33=../rpi3-arm-tf-bootstrap/aarch64/el2-bootstrap.bin
294
295However, enabling PSCI support in a 64-bit kernel is really easy. In the
296repository `Raspberry Pi 3 TF-A bootstrap`_ there is a patch that can be applied
297to the Linux kernel tree maintained by the Raspberry Pi foundation. It modifes
298the DTS to tell the kernel to use PSCI. Once this patch is applied, follow the
299instructions in `AArch64 kernel build instructions`_ to get a working 64-bit
300kernel image and supporting files.
301
302Building the firmware for kernels that support PSCI
303~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
304
305For a 64-bit kernel:
306
307.. code:: shell
308
309 CROSS_COMPILE=aarch64-linux-gnu- make PLAT=rpi3 \
Antonio Nino Diaz85135962018-07-15 11:54:42 +0100310 PRELOADED_BL33_BASE=0x02000000 \
311 RPI3_PRELOADED_DTB_BASE=0x01000000 \
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100312 RPI3_DIRECT_LINUX_BOOT=1
313
314For a 32-bit kernel:
315
316.. code:: shell
317
318 CROSS_COMPILE=aarch64-linux-gnu- make PLAT=rpi3 \
Antonio Nino Diaz85135962018-07-15 11:54:42 +0100319 PRELOADED_BL33_BASE=0x02000000 \
320 RPI3_PRELOADED_DTB_BASE=0x01000000 \
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100321 RPI3_DIRECT_LINUX_BOOT=1 \
322 RPI3_BL33_IN_AARCH32=1
323
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000324AArch64 kernel build instructions
325---------------------------------
326
327The following instructions show how to install and run a AArch64 kernel by
328using a SD card with the default `Raspbian`_ install as base. Skip them if you
329want to use the default 32-bit kernel.
330
331Note that this system won't be fully 64-bit because all the tools in the
332filesystem are 32-bit binaries, but it's a quick way to get it working, and it
333allows the user to run 64-bit binaries in addition to 32-bit binaries.
334
3351. Clone the `Linux tree fork`_ maintained by the Raspberry Pi Foundation. To
336 speed things up, do a shallow clone of the desired branch.
337
338.. code:: shell
339
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100340 git clone --depth=1 -b rpi-4.18.y https://github.com/raspberrypi/linux
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000341 cd linux
342
3432. Configure and compile the kernel. Adapt the number after ``-j`` so that it is
344 1.5 times the number of CPUs in your computer. This may take some time to
345 finish.
346
347.. code:: shell
348
349 make ARCH=arm64 CROSS_COMPILE=aarch64-linux-gnu- bcmrpi3_defconfig
350 make -j 6 ARCH=arm64 CROSS_COMPILE=aarch64-linux-gnu-
351
3523. Copy the kernel image and the device tree to the SD card. Replace the path
353 by the corresponding path in your computers to the ``boot`` partition of the
354 SD card.
355
356.. code:: shell
357
358 cp arch/arm64/boot/Image /path/to/boot/kernel8.img
359 cp arch/arm64/boot/dts/broadcom/bcm2710-rpi-3-b.dtb /path/to/boot/
Antonio Nino Diaz7c4ab212018-07-14 02:03:38 +0100360 cp arch/arm64/boot/dts/broadcom/bcm2710-rpi-3-b-plus.dtb /path/to/boot/
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000361
3624. Install the kernel modules. Replace the path by the corresponding path to the
363 filesystem partition of the SD card on your computer.
364
365.. code:: shell
366
367 make ARCH=arm64 CROSS_COMPILE=aarch64-linux-gnu- \
368 INSTALL_MOD_PATH=/path/to/filesystem modules_install
369
3705. Follow the instructions in `Setup SD card`_ except for the step of renaming
371 the existing ``kernel7.img`` (we have already copied a AArch64 kernel).
372
373Setup SD card
374-------------
375
376The instructions assume that you have an SD card with a fresh install of
377`Raspbian`_ (or that, at least, the ``boot`` partition is untouched, or nearly
Antonio Nino Diaz1f470022018-03-27 09:39:47 +0100378untouched). They have been tested with the image available in 2018-03-13.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000379
3801. Insert the SD card and open the ``boot`` partition.
381
3822. Rename ``kernel7.img`` to ``kernel8.img``. This tricks the VideoCore
Dan Handley610e7e12018-03-01 18:44:00 +0000383 bootloader into booting the Arm cores in AArch64 mode, like TF-A needs,
384 even though the kernel is not compiled for AArch64.
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000385
3863. Copy ``armstub8.bin`` here. When ``kernel8.img`` is available, The VideoCore
387 bootloader will look for a file called ``armstub8.bin`` and load it at
388 address **0x0** instead of a predefined one.
389
Antonio Nino Diazf96582a2018-10-19 00:57:16 +01003904. To enable the serial port "Mini UART" in Linux, open ``cmdline.txt`` and add
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000391 ``console=serial0,115200 console=tty1``.
392
Antonio Nino Diaz8869b482017-12-01 11:11:26 +00003935. Open ``config.txt`` and add the following lines at the end (``enable_uart=1``
394 is only needed to enable debugging through the Mini UART):
395
396::
397
398 enable_uart=1
Antonio Nino Diaz85135962018-07-15 11:54:42 +0100399 kernel_address=0x02000000
400 device_tree_address=0x01000000
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000401
402If you connect a serial cable to the Mini UART and your computer, and connect
403to it (for example, with ``screen /dev/ttyUSB0 115200``) you should see some
404text. In the case of an AArch32 kernel, you should see something like this:
405
406::
407
408 NOTICE: Booting Trusted Firmware
409 NOTICE: BL1: v1.4(release):v1.4-329-g61e94684-dirty
410 NOTICE: BL1: Built : 00:09:25, Nov 6 2017
411 NOTICE: BL1: Booting BL2
412 NOTICE: BL2: v1.4(release):v1.4-329-g61e94684-dirty
413 NOTICE: BL2: Built : 00:09:25, Nov 6 2017
414 NOTICE: BL1: Booting BL31
415 NOTICE: BL31: v1.4(release):v1.4-329-g61e94684-dirty
416 NOTICE: BL31: Built : 00:09:25, Nov 6 2017
417 [ 0.266484] bcm2835-aux-uart 3f215040.serial: could not get clk: -517
418
419 Raspbian GNU/Linux 9 raspberrypi ttyS0
420 raspberrypi login:
421
422Just enter your credentials, everything should work as expected. Note that the
423HDMI output won't show any text during boot.
424
425.. _default Arm stub: https://github.com/raspberrypi/tools/blob/master/armstubs/armstub7.S
426.. _default AArch64 stub: https://github.com/raspberrypi/tools/blob/master/armstubs/armstub8.S
427.. _Linux kernel tree: https://github.com/torvalds/linux
428.. _Linux tree fork: https://github.com/raspberrypi/linux
429.. _Raspberry Pi 3: https://www.raspberrypi.org/products/raspberry-pi-3-model-b/
Dan Handley610e7e12018-03-01 18:44:00 +0000430.. _Raspberry Pi 3 TF-A bootstrap: https://github.com/AntonioND/rpi3-arm-tf-bootstrap
Antonio Nino Diaz8869b482017-12-01 11:11:26 +0000431.. _Raspberry Pi 3 documentation: https://www.raspberrypi.org/documentation/
432.. _Raspbian: https://www.raspberrypi.org/downloads/raspbian/