Change the GCC toolchain configuration to make use of the Cortex-R82
target. When Cortex-R82 was added as a GCC toolchain option, the GCC
version of the Zephyr SDK did not support Cortex-R82 tuning. Zephyr was
therefore compiled compiled for the Armv8.4-A architecture. Since Zephyr
SDK 0.15.0 (which updated GCC from 10.3.0 to 12.1.0) coupled with Zephyr
3.2, the Cortex-R82 target is supported.
The Armv8-R AArch64 architecture does not support the EL3 exception level.
EL3 support is therefore made conditional on Armv8-R vs Armv8-A.
Signed-off-by: Debbie Martin <Debbie.Martin@arm.com>
HCR_EL2 is configured to certain value by some
loaders such as Uboot on some arm64 boards(such as roc_rk3568_pc),
When HCR_EL2.TGE, HCR_EL2.AMO and HCR_EL2.IMO bits are
set to 1, some unpredictable behaviors may occur during
zephyr boot. So we clear these bits to avoid it.
Signed-off-by: Charlie Xiong <1981639884@qq.com>
For secure EL2 to be entered the EEL2 bit in SCR_EL3 must be set. This
should only be set if Zephyr has not been configured for NS mode only,
if the device is currently in secure EL3, and if secure EL2 is supported
via the SEL2 bit in AA64PFRO_EL1. Added logic to enable EEL2 if all
conditions are met.
Signed-off-by: Chad Karaginides <quic_chadk@quicinc.com>
VMPIDR_EL2 is assigned the value returned by EL2 reads of MPIDR_EL1
MPIDR_EL1 is the register holding the Multiprocessor ID which is to
identify different cores. Because of the virtualization requirements
for AArch64, MPIDR_EL1 should be virtualized (the different virtualized
cores can run on the same physical core). Thus the value of MPIDR_EL1
should be switched when the VM is switched. Setting the VMPIDR_EL2 is
the way to change the value returned by EL1 reads of MPIDR_EL1. Even
without virtualization, we still need to set VMPIDR_EL2 during booting
at EL2 or EL3. Otherwise, all cores' IDs are zero at the EL1 stage
which will break the SMP system.
Signed-off-by: Huifeng Zhang <Huifeng.Zhang@arm.com>
Fix writing of ICC_SRE_EL3 to or-in bits to align
with original intent to read-modify-write this
register.
Also disable FIQ and IRQ bypass so interrupt delivery
occurs through GIC. Platforms may choose to override
this behavior in z_arm64_el3_plat_init implementations.
Remove ICC_SRE_EL3 config from viper and qemu since
this is now handled in the arm64 arch core.
Signed-off-by: Eugene Cohen <quic_egmc@quicinc.com>
In the Armv8R AArch64 profile[1], the Armv8R AArch64 is always in secure
mode. But the FVP_BaseR_AEMv8R before version 11.16.16 doesn't strictly
follow this rule. It still has some non-secure registers
(e.g. CNTHP_CTL_EL2).
Since version 11.16.16, the FVP_BaseR_AEMv8R has fixed this issue. The
CNTHP_XXX_EL2 registers have been changed to CNTHPS_XXX_EL2. So the
FVP_BaseR_AEMv8R (version >= 11.16.16) cannot boot Zephyr. This patch
will fix it.
[1] https://developer.arm.com/documentation/ddi0600/latest/
Signed-off-by: Jaxson Han <jaxson.han@arm.com>
Change-Id: If986f34dc080ae7a8b226bba589b6fe616a4260b
This adds FPU sharing support with a lazy context switching algorithm.
Every thread is allowed to use FPU/SIMD registers. In fact, the compiler
may insert FPU reg accesses in anycontext to optimize even non-FP code
unless the -mgeneral-regs-only compiler flag is used, but Zephyr
currently doesn't support such a build.
It is therefore possible to do FP access in IRS as well with this patch
although IRQs are then disabled to prevent nested IRQs in such cases.
Because the thread object grows in size, some tests have to be adjusted.
Signed-off-by: Nicolas Pitre <npitre@baylibre.com>
The SMP boot code depends on physical CPU #0 to be first to boot and
subsequent CPUs to follow suit in a linear fashion. Let's decouple
physical and logical numbering so that any physical CPU can be the
boot CPU. This is based on a prior code proposal from
Jiafei Pan <Jiafei.Pan@nxp.com>.
This, however, was about to turn the boot code into some hairy mess.
So let's clean things up and simplify the code as well while at it.
Both the extension and the clean up aren't separate commits because
they actually depend on each other.
The BOOT_PARAM_*_OFFSET defines are locally hardcoded as there is no
point exposing the related structure widely. Build time assertions
ensure they don't go out of sync with the struct definition. And
vector_table.h is repurposed into boot.h to gather boot related
definitions.
Signed-off-by: Nicolas Pitre <npitre@baylibre.com>
Signed-off-by: Jiafei Pan <Jiafei.Pan@nxp.com>
Thi GICv3 driver is configuring the controller accessing the system
registers ICC_*. To be able to do that without trapping we have to
explicitly set at boot in EL3 the value of the ICC_SRE_EL3 register that
is architecturally set to UNKNOWN value on warm reset.
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
Split ARM and ARM64 architectures.
Details:
- CONFIG_ARM64 is decoupled from CONFIG_ARM (not a subset anymore)
- Arch and include AArch64 files are in a dedicated directory
(arch/arm64 and include/arch/arm64)
- AArch64 boards and SoC are moved to soc/arm64 and boards/arm64
- AArch64-specific DTS files are moved to dts/arm64
- The A72 support for the bcm_vk/viper board is moved in the
boards/bcm_vk/viper directory
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
