Upstream fork of ATF with a couple of rk3399 patches to remove HDCP blob and increase BAUD_RATE.

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Juan Castillo ccbf890e5e TBB: add ECDSA support to the certificate generation tool This patch extends the 'cert_create' tool to support ECDSA keys to sign the certificates. The '--key-alg' command line option can be used to specify the key algorithm when invoking the tool. Available options are: * 'rsa': create RSA-2048 keys (default option) * 'ecdsa': create ECDSA-SECP256R1 keys The TF Makefile has been updated to allow the platform to specify the key algorithm by declaring the 'KEY_ALG' variable in the platform makefile. The behaviour regarding key management has changed. After applying this patch, the tool will try first to open the keys from disk. If one key does not exist or no key is specified, and the command line option to create keys has been specified, new keys will be created. Otherwise an error will be generated and the tool will exit. This way, the user may specify certain keys while the tool will create the remaining ones. This feature is useful for testing purposes and CI infrastructures. The OpenSSL directory may be specified using the build option 'OPENSSL_DIR' when building the certificate generation tool. Default is '/usr'. Change-Id: I98bcc2bfab28dd7179f17f1177ea7a65698df4e7		2015-06-25 08:53:27 +01:00
bl1	TBB: add authentication framework	2015-06-25 08:53:26 +01:00
bl2	TBB: add authentication framework	2015-06-25 08:53:26 +01:00
bl31	Merge pull request #310 from sandrine-bailleux/sb/tf-issue-304-phase1	2015-06-24 11:23:33 +01:00
bl32/tsp	Add linker symbol declarations to bl_common.h	2015-04-28 19:50:56 +01:00
common	Use numbers to identify images instead of names	2015-06-25 08:53:26 +01:00
docs	TBB: add platform API to read the ROTPK information	2015-06-25 08:53:26 +01:00
drivers	TBB: add TBBR Chain of Trust	2015-06-25 08:53:27 +01:00
fdts	FVP: update device tree idle state entries	2015-04-29 14:57:12 +01:00
include	TBB: add TBBR Chain of Trust	2015-06-25 08:53:27 +01:00
lib	Fix recursive crash prints on FVP AEM model	2015-04-13 17:21:26 +01:00
plat	TBB: add TBBR Chain of Trust	2015-06-25 08:53:27 +01:00
services	Merge pull request #310 from sandrine-bailleux/sb/tf-issue-304-phase1	2015-06-24 11:23:33 +01:00
tools	TBB: add ECDSA support to the certificate generation tool	2015-06-25 08:53:27 +01:00
.gitignore	TBB: add tool to generate certificates	2015-01-28 18:26:59 +00:00
Makefile	TBB: add ECDSA support to the certificate generation tool	2015-06-25 08:53:27 +01:00
acknowledgements.md	TLK-D documentation and add NVIDIA to the Acknowledgements file	2015-03-31 10:11:47 +05:30
contributing.md	Update contributing.md with new integration process	2014-04-01 11:22:43 +01:00
license.md	Update year in copyright text to 2014	2014-01-17 10:27:53 +00:00
readme.md	Documentation for version 1.1	2015-02-03 11:43:43 +00:00

readme.md

ARM Trusted Firmware - version 1.1

ARM Trusted Firmware provides a reference implementation of secure world software for ARMv8-A, including Exception Level 3 (EL3) software. This release provides complete support for version 0.2 of the PSCI specification, initial support for the new version 1.0 of that specification, and prototype support for the Trusted Board Boot Requirements specification.

The intent is to provide a reference implementation of various ARM interface standards, such as the Power State Coordination Interface (PSCI), Trusted Board Boot Requirements (TBBR) and [Secure Monitor] TEE-SMC code. As far as possible the code is designed for reuse or porting to other ARMv8-A model and hardware platforms.

ARM will continue development in collaboration with interested parties to provide a full reference implementation of PSCI, TBBR and Secure Monitor code to the benefit of all developers working with ARMv8-A TrustZone technology.

License

The software is provided under a BSD 3-Clause license. Certain source files are derived from FreeBSD code: the original license is included in these source files.

This Release

This release is a limited functionality implementation of the Trusted Firmware. It provides a suitable starting point for productization. Future versions will contain new features, optimizations and quality improvements.

Functionality

Prototype implementation of a subset of the Trusted Board Boot Requirements Platform Design Document (PDD). This includes packaging the various firmware images into a Firmware Image Package (FIP) to be loaded from non-volatile storage, and a prototype of authenticated boot using key certificates stored in the FIP.
Initializes the secure world (for example, exception vectors, control registers, GIC and interrupts for the platform), before transitioning into the normal world.
Supports both GICv2 and GICv3 initialization for use by normal world software.
Starts the normal world at the Exception Level and Register Width specified by the platform port. Typically this is AArch64 EL2 if available.
Handles SMCs (Secure Monitor Calls) conforming to the [SMC Calling Convention PDD] SMCCC using an EL3 runtime services framework.
Handles SMCs relating to the [Power State Coordination Interface PDD] PSCI for the Secondary CPU Boot, CPU Hotplug, CPU Idle and System Shutdown/Reset use-cases.
A Test Secure-EL1 Payload and Dispatcher to demonstrate Secure Monitor functionality such as world switching, EL1 context management and interrupt routing. This also demonstrates Secure-EL1 interaction with PSCI. Some of this functionality is provided in library form for re-use by other Secure-EL1 Payload Dispatchers.
Support for alternative Trusted Boot Firmware. Some platforms have their own Trusted Boot implementation and only require the Secure Monitor functionality provided by ARM Trusted Firmware.
Isolation of memory accessible by the secure world from the normal world through programming of a TrustZone controller.
Support for CPU specific reset sequences, power down sequences and register dumping during crash reporting. The CPU specific reset sequences include support for errata workarounds.

For a full description of functionality and implementation details, please see the Firmware Design and supporting documentation. The Change Log provides details of changes made since the last release.

Platforms

This release of the Trusted Firmware has been tested on Revision B of the [Juno ARM Development Platform] Juno with Version r0p0-00rel7 of the [ARM SCP Firmware] SCP download.

The Trusted Firmware has also been tested on the 64-bit Linux versions of the following ARM FVPs:

Foundation_Platform (Version 9.1, Build 9.1.33)
FVP_Base_AEMv8A-AEMv8A (Version 6.2, Build 0.8.6202)
FVP_Base_Cortex-A57x4-A53x4 (Version 6.2, Build 0.8.6202)
FVP_Base_Cortex-A57x1-A53x1 (Version 6.2, Build 0.8.6202)
FVP_Base_Cortex-A57x2-A53x4 (Version 6.2, Build 0.8.6202)

The Foundation FVP can be downloaded free of charge. The Base FVPs can be licensed from ARM: see [www.arm.com/fvp] FVP.

Still to Come

Complete and more flexible Trusted Board Boot implementation.
Complete implementation of the PSCI v1.0 specification.
Support for alternative types of Secure-EL1 Payloads.
Extending the GICv3 support to the secure world.
Support for new System IP devices.

For a full list of detailed issues in the current code, please see the Change Log and the GitHub issue tracker.

Getting Started

Get the Trusted Firmware source code from GitHub.

See the User Guide for instructions on how to install, build and use the Trusted Firmware with the ARM FVPs.

See the Firmware Design for information on how the ARM Trusted Firmware works.

See the Porting Guide as well for information about how to use this software on another ARMv8-A platform.

See the Contributing Guidelines for information on how to contribute to this project and the Acknowledgments file for a list of contributors to the project.

Feedback and support

ARM welcomes any feedback on the Trusted Firmware. Please send feedback using the GitHub issue tracker.

ARM licensees may contact ARM directly via their partner managers.