Compiling BL31 for the Allwinner platform now produces a message about
the deprecation of gic_common.c.
Follow the advice and use include gicv2.mk instead.
Collect all includes at the beginning of the file on the way.
Change-Id: Iee46e21a630bfa831d28059f09aa7b049eb554bb
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
If an SCP firmware is present and able to communicate via SCPI, then use
that to implement CPU and system power state transitions, including CPU
hotplug and system suspend. Otherwise, fall back to the existing CPU
power control implementation.
The last 16 KiB of SRAM A2 are reserved for the SCP firmware, and the
SCPI shared memory is at the very end of this region (and therefore the
end of SRAM A2). BL31 continues to start at the beginning of SRAM A2
(not counting the ARISC exception vector area) and fills up to the
beginning of the SCP firmware.
Because the SCP firmware is not loaded adjacent to the ARISC exception
vector area, the jump instructions used for exception handling cannot be
included in the SCP firmware image, and must be initialized here before
turning on the SCP.
Signed-off-by: Samuel Holland <samuel@sholland.org>
Change-Id: I37b9b9636f94d4125230423726f3ac5e9cdb551c
The function names follow the naming convention used by the existing
ARM SCPI client.
Signed-off-by: Samuel Holland <samuel@sholland.org>
Change-Id: I543bae7d46e206eb405dbedfcf7aeba88a12ca48
Now that there is plenty of space (32 KiB) available for NOBITS
sections, we can afford using an entire page for coherent memory. In
fact, because it simplifies the code, this is a beneficial change for
loaded image (.text) size, where we are still close to the size limit.
Signed-off-by: Samuel Holland <samuel@sholland.org>
Change-Id: I0b899dabcb162015c63b0e4aed0869569c889ed9
This frees up space in SRAM A2 that will be used by the SCP firmware and
SCPI shared memory.
Signed-off-by: Samuel Holland <samuel@sholland.org>
Change-Id: I8ce035257451e2d142666fe0cd045e59d4d57b35
Chip ID checking and poweroff work just like they did before.
Regulators are now enabled just like on A64/H5.
This changes the signatures of the low-level register read/write
functions to match the interface expected by the common driver.
Signed-off-by: Samuel Holland <samuel@sholland.org>
Change-Id: I14d63d171a094fa1375904928270fa3e21761646
As all Allwinner platforms are single-cluster A53 chips, we can disable
support for newer, unsupported architecture extensions. We can also
avoid some cache maintenance code, since no platform-specific setup is
required to enable coherency.
These changes reduce the size of .text on a default build with GCC 9.1
enough that .vectors again fits in the second half of a page, instead
of requiring its own page.
This commit was boot-tested on the Pinebook.
Signed-off-by: Samuel Holland <samuel@sholland.org>
Change-Id: Ib90454ef0c798d5e714b7780c585be0b1ed49c6d
This patch makes the build system link the console framework code by
default, like it already does with other common libraries (e.g. cache
helpers). This should not make a difference in practice since TF is
linked with --gc-sections, so the linker will garbage collect all
functions and data that are not referenced by any other code. Thus, if a
platform doesn't want to include console code for size reasons and
doesn't make any references to console functions, the code will not be
included in the final binary.
To avoid compatibility issues with older platform ports, only make this
change for the MULTI_CONSOLE_API.
Change-Id: I153a9dbe680d57aadb860d1c829759ba701130d3
Signed-off-by: Julius Werner <jwerner@chromium.org>
The initial PMIC setup for the Allwinner platform is quite board
specific, and used to be guarded by reading the .dtb stub *name* from the
SPL image in the legacy ATF port. This doesn't scale particularly well,
and requires constant maintainance.
Instead having the actual .dtb available would be much better, as the PMIC
setup requirements could be read from there directly.
The only available BL33 for Allwinner platforms so far is U-Boot, and
fortunately U-Boot comes with the full featured .dtb, appended to the
end of the U-Boot image.
Introduce some code that scans the beginning of the BL33 image to look
for the load address, which is followed by the image size. Adding those
two values together gives us the end of the image and thus the .dtb
address. Verify that this heuristic is valid by sanitising some values
and checking the DTB magic.
Print out the DTB address and the model name, if specified in the root
node.
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
According to the documentation, platforms may choose to trade memory
footprint for performance (and elegancy) by not providing a separately
mapped coherent page.
Since a debug build is getting close to the SRAM size limit already, this
allows us to save about 3.5KB of BSS and have some room for future
enhancements.
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
For the two different platforms we support in the Allwinner port we
mostly rely on header files covering the differences. This leads to the
platform.mk files in the respective directories to be almost identical.
To avoid further divergence and make sure that one platform doesn't
break accidentally, let's create a shared allwinner-common.mk file and
include that from the platform directory.
Signed-off-by: Andre Przywara <andre.przywara@arm.com>