Tegra194: mce: fix cg_cstate encoding format
Vignesh Radhakrishnan authored
This patch does the following:
- cstate_info variable is used to pass on requested cstate to mce
- Currently, cg_cstate is encoded using 2 bits(bits 8, 9) in cstate_info
- cg_cstate values can range from 0 to 7, with 7 representing cg7
- Thus, cg_cstate is to be encoded using 3 bits (val: 0-7)
- Fix this, as per ISS and ensure bits 8, 9, 10 are used

Change-Id: Idff207e2a88b2f4654e4a956c27054bf5e8f69bb
Signed-off-by: default avatarVignesh Radhakrishnan <vigneshr@nvidia.com>
4b412b50
Name Last commit Last update
bl1 TF-A: Add support for ARMv8.3-PAuth in BL1 SMC calls and BL2U
bl2 Refactor ARMv8.3 Pointer Authentication support code
bl2u TF-A: Add support for ARMv8.3-PAuth in BL1 SMC calls and BL2U
bl31 Neoverse N1 Errata Workaround 1542419
bl32 AArch32: Disable Secure Cycle Counter
common Refactor load_auth_image_internal().
docs Merge changes from topic "lm/improve_memory_layout" into integration
drivers GIC-600: Fix include ordering according to the coding style
fdts Add multithreaded DynamIQ dts file
include Merge "plat/arm: Re-enable PIE when RESET_TO_BL31=1" into integration
lib Merge "Coding guideline suggest not to use unsigned long" into integration
make_helpers Fix the CAS spinlock implementation
plat Tegra194: mce: fix cg_cstate encoding format
services Merge changes from topic "jc/coverity-fixes" into integration
tools Remove RSA PKCS#1 v1.5 support from cert_tool
.checkpatch.conf Re-apply GIT_COMMIT_ID check for checkpatch
.editorconfig doc: Final, pre-release fixes and updates
.gitignore meson: Rename platform directory to amlogic
Makefile Update TF-A version to 2.2
dco.txt Drop requirement for CLA in contribution.md
license.rst doc: De-duplicate readme and license files
readme.rst doc: Formatting fixes for readme.rst

Trusted Firmware-A

Trusted Firmware-A (TF-A) is a reference implementation of secure world software for Arm A-Profile architectures (Armv8-A and Armv7-A), including an Exception Level 3 (EL3) Secure Monitor. It provides a suitable starting point for productization of secure world boot and runtime firmware, in either the AArch32 or AArch64 execution states.

TF-A implements Arm interface standards, including:

The code is designed to be portable and reusable across hardware platforms and software models that are based on the Armv8-A and Armv7-A architectures.

In collaboration with interested parties, we will continue to enhance TF-A with reference implementations of Arm standards to benefit developers working with Armv7-A and Armv8-A TrustZone technology.

Users are encouraged to do their own security validation, including penetration testing, on any secure world code derived from TF-A.

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To find out more about Trusted Firmware-A, please view the full documentation that is available through trustedfirmware.org.


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