Commit 4cd1769f authored by Roberto Vargas's avatar Roberto Vargas
Browse files

bl2-el3: Add documentation for BL2 at EL3



Update firmware-design.rst, porting-guide.rst and user-guide.rst
with the information about BL2 at EL3. Firmware-design.rst is
also update to explain how to test this feauture with FVP.

Change-Id: I86d64bc64594e13eb041cea9cefa3f7f3fa745bd
Signed-off-by: default avatarRoberto Vargas <roberto.vargas@arm.com>
parent 487d3bf2
...@@ -418,6 +418,63 @@ BL2 execution continues as follows: ...@@ -418,6 +418,63 @@ BL2 execution continues as follows:
#. BL1 passes control to BL31 at the specified entrypoint at EL3. #. BL1 passes control to BL31 at the specified entrypoint at EL3.
Running BL2 at EL3 execution level
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Some platforms have a non-TF Boot ROM that expects the next boot stage
to execute at EL3. On these platforms, TF BL1 is a waste of memory
as its only purpose is to ensure TF BL2 is entered at S-EL1. To avoid
this waste, a special mode enables BL2 to execute at EL3, which allows
a non-TF Boot ROM to load and jump directly to BL2. This mode is selected
when the build flag BL2_AT_EL3 is enabled. The main differences in this
mode are:
#. BL2 includes the reset code and the mailbox mechanism to differentiate
cold boot and warm boot. It runs at EL3 doing the arch
initialization required for EL3.
#. BL2 does not receive the meminfo information from BL1 anymore. This
information can be passed by the Boot ROM or be internal to the
BL2 image.
#. Since BL2 executes at EL3, BL2 jumps directly to the next image,
instead of invoking the RUN_IMAGE SMC call.
We assume 3 different types of BootROM support on the platform:
#. The Boot ROM always jumps to the same address, for both cold
and warm boot. In this case, we will need to keep a resident part
of BL2 whose memory cannot be reclaimed by any other image. The
linker script defines the symbols __TEXT_RESIDENT_START__ and
__TEXT_RESIDENT_END__ that allows the platform to configure
correctly the memory map.
#. The platform has some mechanism to indicate the jump address to the
Boot ROM. Platform code can then program the jump address with
psci_warmboot_entrypoint during cold boot.
#. The platform has some mechanism to program the reset address using
the PROGRAMMABLE_RESET_ADDRESS feature. Platform code can then
program the reset address with psci_warmboot_entrypoint during
cold boot, bypassing the boot ROM for warm boot.
In the last 2 cases, no part of BL2 needs to remain resident at
runtime. In the first 2 cases, we expect the Boot ROM to be able to
differentiate between warm and cold boot, to avoid loading BL2 again
during warm boot.
This functionality can be tested with FVP loading the image directly
in memory and changing the address where the system jumps at reset.
For example:
-C cluster0.cpu0.RVBAR=0x4014000
--data cluster0.cpu0=bl2.bin@0x4014000
With this configuration, FVP is like a platform of the first case,
where the Boot ROM jumps always to the same address. For simplification,
BL32 is loaded in DRAM in this case, to avoid other images reclaiming
BL2 memory.
AArch64 BL31 AArch64 BL31
~~~~~~~~~~~~ ~~~~~~~~~~~~
......
...@@ -1624,6 +1624,70 @@ element in the boot sequence. If there are no more boot sources then it ...@@ -1624,6 +1624,70 @@ element in the boot sequence. If there are no more boot sources then it
must return 0, otherwise it must return 1. The default implementation must return 0, otherwise it must return 1. The default implementation
of this always returns 0. of this always returns 0.
Boot Loader Stage 2 (BL2) at EL3
--------------------------------
When the platform has a non-TF Boot ROM it is desirable to jump
directly to BL2 instead of TF BL1. In this case BL2 is expected to
execute at EL3 instead of executing at EL1. Refer to the `Firmware
Design`_ for more information.
All mandatory functions of BL2 must be implemented, except the functions
bl2\_early\_platform\_setup and bl2\_el3\_plat\_arch\_setup, because
their work is done now by bl2\_el3\_early\_platform\_setup and
bl2\_el3\_plat\_arch\_setup. These functions should generally implement
the bl1\_plat\_xxx() and bl2\_plat\_xxx() functionality combined.
Function : bl2\_el3\_early\_platform\_setup() [mandatory]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
::
Argument : u_register_t, u_register_t, u_register_t, u_register_t
Return : void
This function executes with the MMU and data caches disabled. It is only called
by the primary CPU. This function receives four parameters which can be used
by the platform to pass any needed information from the Boot ROM to BL2.
On ARM standard platforms, this function does the following:
- Initializes a UART (PL011 console), which enables access to the ``printf``
family of functions in BL2.
- Initializes the storage abstraction layer used to load further bootloader
images. It is necessary to do this early on platforms with a SCP\_BL2 image,
since the later ``bl2_platform_setup`` must be done after SCP\_BL2 is loaded.
- Initializes the private variables that define the memory layout used.
Function : bl2\_el3\_plat\_arch\_setup() [mandatory]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
::
Argument : void
Return : void
This function executes with the MMU and data caches disabled. It is only called
by the primary CPU.
The purpose of this function is to perform any architectural initialization
that varies across platforms.
On ARM standard platforms, this function enables the MMU.
Function : bl2\_el3\_plat\_prepare\_exit() [optional]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
::
Argument : void
Return : void
This function is called prior to exiting BL2 and run the next image.
It should be used to perform platform specific clean up or bookkeeping
operations before transferring control to the next image. This function
runs with MMU disabled.
FWU Boot Loader Stage 2 (BL2U) FWU Boot Loader Stage 2 (BL2U)
------------------------------ ------------------------------
......
...@@ -245,6 +245,9 @@ Common build options ...@@ -245,6 +245,9 @@ Common build options
BL2U image. In this case, the BL2U in the ARM Trusted Firmware will not BL2U image. In this case, the BL2U in the ARM Trusted Firmware will not
be built. be built.
- ``BL2_AT_EL3``: This is an optional build option that enables the use of
BL2 at EL3 execution level.
- ``BL31``: This is an optional build option which specifies the path to - ``BL31``: This is an optional build option which specifies the path to
BL31 image for the ``fip`` target. In this case, the BL31 in the ARM BL31 image for the ``fip`` target. In this case, the BL31 in the ARM
Trusted Firmware will not be built. Trusted Firmware will not be built.
......
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