| |
| .. section-numbering:: |
| :suffix: . |
| |
| .. contents:: |
| |
| Trusted Firmware-A - version 1.4 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - Enabled support for platforms with hardware assisted coherency. |
| |
| A new build option HW_ASSISTED_COHERENCY allows platforms to take advantage |
| of the following optimisations: |
| |
| - Skip performing cache maintenance during power-up and power-down. |
| |
| - Use spin-locks instead of bakery locks. |
| |
| - Enable data caches early on warm-booted CPUs. |
| |
| - Added support for Cortex-A75 and Cortex-A55 processors. |
| |
| Both Cortex-A75 and Cortex-A55 processors use the Arm DynamIQ Shared Unit |
| (DSU). The power-down and power-up sequences are therefore mostly managed in |
| hardware, reducing complexity of the software operations. |
| |
| - Introduced Arm GIC-600 driver. |
| |
| Arm GIC-600 IP complies with Arm GICv3 architecture. For FVP platforms, the |
| GIC-600 driver is chosen when FVP_USE_GIC_DRIVER is set to FVP_GIC600. |
| |
| - Updated GICv3 support: |
| |
| - Introduced power management APIs for GICv3 Redistributor. These APIs |
| allow platforms to power down the Redistributor during CPU power on/off. |
| Requires the GICv3 implementations to have power management operations. |
| |
| Implemented the power management APIs for FVP. |
| |
| - GIC driver data is flushed by the primary CPU so that secondary CPU do |
| not read stale GIC data. |
| |
| - Added support for Arm System Control and Management Interface v1.0 (SCMI). |
| |
| The SCMI driver implements the power domain management and system power |
| management protocol of the SCMI specification (Arm DEN 0056ASCMI) for |
| communicating with any compliant power controller. |
| |
| Support is added for the Juno platform. The driver can be found in the |
| plat/arm/css/drivers folder. |
| |
| - Added support to enable pre-integration of TBB with the Arm TrustZone |
| CryptoCell product, to take advantage of its hardware Root of Trust and |
| crypto acceleration services. |
| |
| - Enabled Statistical Profiling Extensions for lower ELs. |
| |
| The firmware support is limited to the use of SPE in the Non-secure state |
| and accesses to the SPE specific registers from S-EL1 will trap to EL3. |
| |
| The SPE are architecturally specified for AArch64 only. |
| |
| - Code hygiene changes aligned with MISRA guidelines: |
| |
| - Fixed signed / unsigned comparison warnings in the translation table |
| library. |
| |
| - Added U(_x) macro and together with the existing ULL(_x) macro fixed |
| some of the signed-ness defects flagged by the MISRA scanner. |
| |
| - Enhancements to Firmware Update feature: |
| |
| - The FWU logic now checks for overlapping images to prevent execution of |
| unauthenticated arbitary code. |
| |
| - Introduced new FWU_SMC_IMAGE_RESET SMC that changes the image loading |
| state machine to go from COPYING, COPIED or AUTHENTICATED states to |
| RESET state. Previously, this was only possible when the authentication |
| of an image failed or when the execution of the image finished. |
| |
| - Fixed integer overflow which addressed TFV-1: Malformed Firmware Update |
| SMC can result in copy of unexpectedly large data into secure memory. |
| |
| - Introduced support for Arm Compiler 6 and LLVM (clang). |
| |
| TF-A can now also be built with the Arm Compiler 6 or the clang compilers. |
| The assembler and linker must be provided by the GNU toolchain. |
| |
| Tested with Arm CC 6.7 and clang 3.9.x and 4.0.x. |
| |
| - Memory footprint improvements: |
| |
| - Introduced `tf_snprintf`, a reduced version of `snprintf` which has |
| support for a limited set of formats. |
| |
| The mbedtls driver is updated to optionally use `tf_snprintf` instead of |
| `snprintf`. |
| |
| - The `assert()` is updated to no longer print the function name, and |
| additional logging options are supported via an optional platform define |
| `PLAT_LOG_LEVEL_ASSERT`, which controls how verbose the assert output is. |
| |
| - Enhancements to TF-A support when running in AArch32 execution state: |
| |
| - Support booting SP_MIN and BL33 in AArch32 execution mode on Juno. Due to |
| hardware limitations, BL1 and BL2 boot in AArch64 state and there is |
| additional trampoline code to warm reset into SP_MIN in AArch32 execution |
| state. |
| |
| - Added support for Arm Cortex-A53/57/72 MPCore processors including the |
| errata workarounds that are already implemented for AArch64 execution |
| state. |
| |
| - For FVP platforms, added AArch32 Trusted Board Boot support, including the |
| Firmware Update feature. |
| |
| - Introduced Arm SiP service for use by Arm standard platforms. |
| |
| - Added new Arm SiP Service SMCs to enable the Non-secure world to read PMF |
| timestamps. |
| |
| Added PMF instrumentation points in TF-A in order to quantify the |
| overall time spent in the PSCI software implementation. |
| |
| - Added new Arm SiP service SMC to switch execution state. |
| |
| This allows the lower exception level to change its execution state from |
| AArch64 to AArch32, or vice verse, via a request to EL3. |
| |
| - Migrated to use SPDX[0] license identifiers to make software license |
| auditing simpler. |
| |
| *NOTE:* Files that have been imported by FreeBSD have not been modified. |
| |
| [0]: https://spdx.org/ |
| |
| - Enhancements to the translation table library: |
| |
| - Added version 2 of translation table library that allows different |
| translation tables to be modified by using different 'contexts'. Version 1 |
| of the transalation table library only allows the current EL's translation |
| tables to be modified. |
| |
| Version 2 of the translation table also added support for dynamic |
| regions; regions that can be added and removed dynamically whilst the |
| MMU is enabled. Static regions can only be added or removed before the |
| MMU is enabled. |
| |
| The dynamic mapping functionality is enabled or disabled when compiling |
| by setting the build option PLAT_XLAT_TABLES_DYNAMIC to 1 or 0. This can |
| be done per-image. |
| |
| - Added support for translation regimes with two virtual address spaces |
| such as the one shared by EL1 and EL0. |
| |
| The library does not support initializing translation tables for EL0 |
| software. |
| |
| - Added support to mark the translation tables as non-cacheable using an |
| additional build option `XLAT_TABLE_NC`. |
| |
| - Added support for GCC stack protection. A new build option |
| ENABLE_STACK_PROTECTOR was introduced that enables compilation of all BL |
| images with one of the GCC -fstack-protector-* options. |
| |
| A new platform function plat_get_stack_protector_canary() was introduced |
| that returns a value used to initialize the canary for stack corruption |
| detection. For increased effectiveness of protection platforms must provide |
| an implementation that returns a random value. |
| |
| - Enhanced support for Arm platforms: |
| |
| - Added support for multi-threading CPUs, indicated by `MT` field in MPDIR. |
| A new build flag `ARM_PLAT_MT` is added, and when enabled, the functions |
| accessing MPIDR assume that the `MT` bit is set for the platform and |
| access the bit fields accordingly. |
| |
| Also, a new API `plat_arm_get_cpu_pe_count` is added when `ARM_PLAT_MT` is |
| enabled, returning the Processing Element count within the physical CPU |
| corresponding to `mpidr`. |
| |
| - The Arm platforms migrated to use version 2 of the translation tables. |
| |
| - Introduced a new Arm platform layer API `plat_arm_psci_override_pm_ops` |
| which allows Arm platforms to modify `plat_arm_psci_pm_ops` and therefore |
| dynamically define PSCI capability. |
| |
| - The Arm platforms migrated to use IMAGE_LOAD_V2 by default. |
| |
| - Enhanced reporting of errata workaround status with the following policy: |
| |
| - If an errata workaround is enabled: |
| |
| - If it applies (i.e. the CPU is affected by the errata), an INFO message |
| is printed, confirming that the errata workaround has been applied. |
| |
| - If it does not apply, a VERBOSE message is printed, confirming that the |
| errata workaround has been skipped. |
| |
| - If an errata workaround is not enabled, but would have applied had it |
| been, a WARN message is printed, alerting that errata workaround is |
| missing. |
| |
| - Added build options ARM_ARCH_MAJOR and ARM_ARM_MINOR to choose the |
| architecture version to target TF-A. |
| |
| - Updated the spin lock implementation to use the more efficient CAS (Compare |
| And Swap) instruction when available. This instruction was introduced in |
| Armv8.1-A. |
| |
| - Applied errata workaround for Arm Cortex-A53: 855873. |
| |
| - Applied errata workaround for Arm-Cortex-A57: 813419. |
| |
| - Enabled all A53 and A57 errata workarounds for Juno, both in AArch64 and |
| AArch32 execution states. |
| |
| - Added support for Socionext UniPhier SoC platform. |
| |
| - Added support for Hikey960 and Hikey platforms. |
| |
| - Added support for Rockchip RK3328 platform. |
| |
| - Added support for NVidia Tegra T186 platform. |
| |
| - Added support for Designware emmc driver. |
| |
| - Imported libfdt v1.4.2 that addresses buffer overflow in fdt_offset_ptr(). |
| |
| - Enhanced the CPU operations framework to allow power handlers to be |
| registered on per-level basis. This enables support for future CPUs that |
| have multiple threads which might need powering down individually. |
| |
| - Updated register initialisation to prevent unexpected behaviour: |
| |
| - Debug registers MDCR-EL3/SDCR and MDCR_EL2/HDCR are initialised to avoid |
| unexpected traps into the higher exception levels and disable secure |
| self-hosted debug. Additionally, secure privileged external debug on |
| Juno is disabled by programming the appropriate Juno SoC registers. |
| |
| - EL2 and EL3 configurable controls are initialised to avoid unexpected |
| traps in the higher exception levels. |
| |
| - Essential control registers are fully initialised on EL3 start-up, when |
| initialising the non-secure and secure context structures and when |
| preparing to leave EL3 for a lower EL. This gives better alignement with |
| the Arm ARM which states that software must initialise RES0 and RES1 |
| fields with 0 / 1. |
| |
| - Enhanced PSCI support: |
| |
| - Introduced new platform interfaces that decouple PSCI stat residency |
| calculation from PMF, enabling platforms to use alternative methods of |
| capturing timestamps. |
| |
| - PSCI stat accounting performed for retention/standby states when |
| requested at multiple power levels. |
| |
| - Simplified fiptool to have a single linked list of image descriptors. |
| |
| - For the TSP, resolved corruption of pre-empted secure context by aborting any |
| pre-empted SMC during PSCI power management requests. |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - TF-A can be built with the latest mbed TLS version (v2.4.2). The earlier |
| version 2.3.0 cannot be used due to build warnings that the TF-A build |
| system interprets as errors. |
| |
| - TBBR, including the Firmware Update feature is now supported on FVP |
| platforms when running TF-A in AArch32 state. |
| |
| - The version of the AEMv8 Base FVP used in this release has resolved the issue |
| of the model executing a reset instead of terminating in response to a |
| shutdown request using the PSCI SYSTEM_OFF API. |
| |
| Known Issues |
| ------------ |
| |
| - Building TF-A with compiler optimisations disabled (-O0) fails. |
| |
| - Trusted Board Boot currently does not work on Juno when running Trusted |
| Firmware in AArch32 execution state due to error when loading the sp_min to |
| memory becasue of lack of free space available. See `tf-issue#501`_ for more |
| details. |
| |
| - The errata workaround for A53 errata 843419 is only available from binutils |
| 2.26 and is not present in GCC4.9. If this errata is applicable to the |
| platform, please use GCC compiler version of at least 5.0. See `PR#1002`_ for |
| more details. |
| |
| Trusted Firmware-A - version 1.3 |
| ================================ |
| |
| |
| New features |
| ------------ |
| |
| - Added support for running TF-A in AArch32 execution state. |
| |
| The PSCI library has been refactored to allow integration with **EL3 Runtime |
| Software**. This is software that is executing at the highest secure |
| privilege which is EL3 in AArch64 or Secure SVC/Monitor mode in AArch32. See |
| `PSCI Integration Guide`_. |
| |
| Included is a minimal AArch32 Secure Payload, **SP-MIN**, that illustrates |
| the usage and integration of the PSCI library with EL3 Runtime Software |
| running in AArch32 state. |
| |
| Booting to the BL1/BL2 images as well as booting straight to the Secure |
| Payload is supported. |
| |
| - Improvements to the initialization framework for the PSCI service and Arm |
| Standard Services in general. |
| |
| The PSCI service is now initialized as part of Arm Standard Service |
| initialization. This consolidates the initializations of any Arm Standard |
| Service that may be added in the future. |
| |
| A new function ``get_arm_std_svc_args()`` is introduced to get arguments |
| corresponding to each standard service and must be implemented by the EL3 |
| Runtime Software. |
| |
| For PSCI, a new versioned structure ``psci_lib_args_t`` is introduced to |
| initialize the PSCI Library. **Note** this is a compatibility break due to |
| the change in the prototype of ``psci_setup()``. |
| |
| - To support AArch32 builds of BL1 and BL2, implemented a new, alternative |
| firmware image loading mechanism that adds flexibility. |
| |
| The current mechanism has a hard-coded set of images and execution order |
| (BL31, BL32, etc). The new mechanism is data-driven by a list of image |
| descriptors provided by the platform code. |
| |
| Arm platforms have been updated to support the new loading mechanism. |
| |
| The new mechanism is enabled by a build flag (``LOAD_IMAGE_V2``) which is |
| currently off by default for the AArch64 build. |
| |
| **Note** ``TRUSTED_BOARD_BOOT`` is currently not supported when |
| ``LOAD_IMAGE_V2`` is enabled. |
| |
| - Updated requirements for making contributions to TF-A. |
| |
| Commits now must have a 'Signed-off-by:' field to certify that the |
| contribution has been made under the terms of the |
| `Developer Certificate of Origin`_. |
| |
| A signed CLA is no longer required. |
| |
| The `Contribution Guide`_ has been updated to reflect this change. |
| |
| - Introduced Performance Measurement Framework (PMF) which provides support |
| for capturing, storing, dumping and retrieving time-stamps to measure the |
| execution time of critical paths in the firmware. This relies on defining |
| fixed sample points at key places in the code. |
| |
| - To support the QEMU platform port, imported libfdt v1.4.1 from |
| https://git.kernel.org/cgit/utils/dtc/dtc.git |
| |
| - Updated PSCI support: |
| |
| - Added support for PSCI NODE\_HW\_STATE API for Arm platforms. |
| |
| - New optional platform hook, ``pwr_domain_pwr_down_wfi()``, in |
| ``plat_psci_ops`` to enable platforms to perform platform-specific actions |
| needed to enter powerdown, including the 'wfi' invocation. |
| |
| - PSCI STAT residency and count functions have been added on Arm platforms |
| by using PMF. |
| |
| - Enhancements to the translation table library: |
| |
| - Limited memory mapping support for region overlaps to only allow regions |
| to overlap that are identity mapped or have the same virtual to physical |
| address offset, and overlap completely but must not cover the same area. |
| |
| This limitation will enable future enhancements without having to |
| support complex edge cases that may not be necessary. |
| |
| - The initial translation lookup level is now inferred from the virtual |
| address space size. Previously, it was hard-coded. |
| |
| - Added support for mapping Normal, Inner Non-cacheable, Outer |
| Non-cacheable memory in the translation table library. |
| |
| This can be useful to map a non-cacheable memory region, such as a DMA |
| buffer. |
| |
| - Introduced the MT\_EXECUTE/MT\_EXECUTE\_NEVER memory mapping attributes to |
| specify the access permissions for instruction execution of a memory |
| region. |
| |
| - Enabled support to isolate code and read-only data on separate memory pages, |
| allowing independent access control to be applied to each. |
| |
| - Enabled SCR\_EL3.SIF (Secure Instruction Fetch) bit in BL1 and BL31 common |
| architectural setup code, preventing fetching instructions from non-secure |
| memory when in secure state. |
| |
| - Enhancements to FIP support: |
| |
| - Replaced ``fip_create`` with ``fiptool`` which provides a more consistent |
| and intuitive interface as well as additional support to remove an image |
| from a FIP file. |
| |
| - Enabled printing the SHA256 digest with info command, allowing quick |
| verification of an image within a FIP without having to extract the |
| image and running sha256sum on it. |
| |
| - Added support for unpacking the contents of an existing FIP file into |
| the working directory. |
| |
| - Aligned command line options for specifying images to use same naming |
| convention as specified by TBBR and already used in cert\_create tool. |
| |
| - Refactored the TZC-400 driver to also support memory controllers that |
| integrate TZC functionality, for example Arm CoreLink DMC-500. Also added |
| DMC-500 specific support. |
| |
| - Implemented generic delay timer based on the system generic counter and |
| migrated all platforms to use it. |
| |
| - Enhanced support for Arm platforms: |
| |
| - Updated image loading support to make SCP images (SCP\_BL2 and SCP\_BL2U) |
| optional. |
| |
| - Enhanced topology description support to allow multi-cluster topology |
| definitions. |
| |
| - Added interconnect abstraction layer to help platform ports select the |
| right interconnect driver, CCI or CCN, for the platform. |
| |
| - Added support to allow loading BL31 in the TZC-secured DRAM instead of |
| the default secure SRAM. |
| |
| - Added support to use a System Security Control (SSC) Registers Unit |
| enabling TF-A to be compiled to support multiple Arm platforms and |
| then select one at runtime. |
| |
| - Restricted mapping of Trusted ROM in BL1 to what is actually needed by |
| BL1 rather than entire Trusted ROM region. |
| |
| - Flash is now mapped as execute-never by default. This increases security |
| by restricting the executable region to what is strictly needed. |
| |
| - Applied following erratum workarounds for Cortex-A57: 833471, 826977, |
| 829520, 828024 and 826974. |
| |
| - Added support for Mediatek MT6795 platform. |
| |
| - Added support for QEMU virtualization Armv8-A target. |
| |
| - Added support for Rockchip RK3368 and RK3399 platforms. |
| |
| - Added support for Xilinx Zynq UltraScale+ MPSoC platform. |
| |
| - Added support for Arm Cortex-A73 MPCore Processor. |
| |
| - Added support for Arm Cortex-A72 processor. |
| |
| - Added support for Arm Cortex-A35 processor. |
| |
| - Added support for Arm Cortex-A32 MPCore Processor. |
| |
| - Enabled preloaded BL33 alternative boot flow, in which BL2 does not load |
| BL33 from non-volatile storage and BL31 hands execution over to a preloaded |
| BL33. The User Guide has been updated with an example of how to use this |
| option with a bootwrapped kernel. |
| |
| - Added support to build TF-A on a Windows-based host machine. |
| |
| - Updated Trusted Board Boot prototype implementation: |
| |
| - Enabled the ability for a production ROM with TBBR enabled to boot test |
| software before a real ROTPK is deployed (e.g. manufacturing mode). |
| Added support to use ROTPK in certificate without verifying against the |
| platform value when ``ROTPK_NOT_DEPLOYED`` bit is set. |
| |
| - Added support for non-volatile counter authentication to the |
| Authentication Module to protect against roll-back. |
| |
| - Updated GICv3 support: |
| |
| - Enabled processor power-down and automatic power-on using GICv3. |
| |
| - Enabled G1S or G0 interrupts to be configured independently. |
| |
| - Changed FVP default interrupt driver to be the GICv3-only driver. |
| **Note** the default build of TF-A will not be able to boot |
| Linux kernel with GICv2 FDT blob. |
| |
| - Enabled wake-up from CPU\_SUSPEND to stand-by by temporarily re-routing |
| interrupts and then restoring after resume. |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| Known issues |
| ------------ |
| |
| - The version of the AEMv8 Base FVP used in this release resets the model |
| instead of terminating its execution in response to a shutdown request using |
| the PSCI ``SYSTEM_OFF`` API. This issue will be fixed in a future version of |
| the model. |
| |
| - Building TF-A with compiler optimisations disabled (``-O0``) fails. |
| |
| - TF-A cannot be built with mbed TLS version v2.3.0 due to build warnings |
| that the TF-A build system interprets as errors. |
| |
| - TBBR is not currently supported when running TF-A in AArch32 state. |
| |
| Trusted Firmware-A - version 1.2 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - The Trusted Board Boot implementation on Arm platforms now conforms to the |
| mandatory requirements of the TBBR specification. |
| |
| In particular, the boot process is now guarded by a Trusted Watchdog, which |
| will reset the system in case of an authentication or loading error. On Arm |
| platforms, a secure instance of Arm SP805 is used as the Trusted Watchdog. |
| |
| Also, a firmware update process has been implemented. It enables |
| authenticated firmware to update firmware images from external interfaces to |
| SoC Non-Volatile memories. This feature functions even when the current |
| firmware in the system is corrupt or missing; it therefore may be used as |
| a recovery mode. |
| |
| - Improvements have been made to the Certificate Generation Tool |
| (``cert_create``) as follows. |
| |
| - Added support for the Firmware Update process by extending the Chain |
| of Trust definition in the tool to include the Firmware Update |
| certificate and the required extensions. |
| |
| - Introduced a new API that allows one to specify command line options in |
| the Chain of Trust description. This makes the declaration of the tool's |
| arguments more flexible and easier to extend. |
| |
| - The tool has been reworked to follow a data driven approach, which |
| makes it easier to maintain and extend. |
| |
| - Extended the FIP tool (``fip_create``) to support the new set of images |
| involved in the Firmware Update process. |
| |
| - Various memory footprint improvements. In particular: |
| |
| - The bakery lock structure for coherent memory has been optimised. |
| |
| - The mbed TLS SHA1 functions are not needed, as SHA256 is used to |
| generate the certificate signature. Therefore, they have been compiled |
| out, reducing the memory footprint of BL1 and BL2 by approximately |
| 6 KB. |
| |
| - On Arm development platforms, each BL stage now individually defines |
| the number of regions that it needs to map in the MMU. |
| |
| - Added the following new design documents: |
| |
| - `Authentication framework`_ |
| - `Firmware Update`_ |
| - `TF-A Reset Design`_ |
| - `Power Domain Topology Design`_ |
| |
| - Applied the new image terminology to the code base and documentation, as |
| described on the `TF-A wiki on GitHub`_. |
| |
| - The build system has been reworked to improve readability and facilitate |
| adding future extensions. |
| |
| - On Arm standard platforms, BL31 uses the boot console during cold boot |
| but switches to the runtime console for any later logs at runtime. The TSP |
| uses the runtime console for all output. |
| |
| - Implemented a basic NOR flash driver for Arm platforms. It programs the |
| device using CFI (Common Flash Interface) standard commands. |
| |
| - Implemented support for booting EL3 payloads on Arm platforms, which |
| reduces the complexity of developing EL3 baremetal code by doing essential |
| baremetal initialization. |
| |
| - Provided separate drivers for GICv3 and GICv2. These expect the entire |
| software stack to use either GICv2 or GICv3; hybrid GIC software systems |
| are no longer supported and the legacy Arm GIC driver has been deprecated. |
| |
| - Added support for Juno r1 and r2. A single set of Juno TF-A binaries can run |
| on Juno r0, r1 and r2 boards. Note that this TF-A version depends on a Linaro |
| release that does *not* contain Juno r2 support. |
| |
| - Added support for MediaTek mt8173 platform. |
| |
| - Implemented a generic driver for Arm CCN IP. |
| |
| - Major rework of the PSCI implementation. |
| |
| - Added framework to handle composite power states. |
| |
| - Decoupled the notions of affinity instances (which describes the |
| hierarchical arrangement of cores) and of power domain topology, instead |
| of assuming a one-to-one mapping. |
| |
| - Better alignment with version 1.0 of the PSCI specification. |
| |
| - Added support for the SYSTEM\_SUSPEND PSCI API on Arm platforms. When invoked |
| on the last running core on a supported platform, this puts the system |
| into a low power mode with memory retention. |
| |
| - Unified the reset handling code as much as possible across BL stages. |
| Also introduced some build options to enable optimization of the reset path |
| on platforms that support it. |
| |
| - Added a simple delay timer API, as well as an SP804 timer driver, which is |
| enabled on FVP. |
| |
| - Added support for NVidia Tegra T210 and T132 SoCs. |
| |
| - Reorganised Arm platforms ports to greatly improve code shareability and |
| facilitate the reuse of some of this code by other platforms. |
| |
| - Added support for Arm Cortex-A72 processor in the CPU specific framework. |
| |
| - Provided better error handling. Platform ports can now define their own |
| error handling, for example to perform platform specific bookkeeping or |
| post-error actions. |
| |
| - Implemented a unified driver for Arm Cache Coherent Interconnects used for |
| both CCI-400 & CCI-500 IPs. Arm platforms ports have been migrated to this |
| common driver. The standalone CCI-400 driver has been deprecated. |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - The Trusted Board Boot implementation has been redesigned to provide greater |
| modularity and scalability. See the `Authentication Framework`_ document. |
| All missing mandatory features are now implemented. |
| |
| - The FVP and Juno ports may now use the hash of the ROTPK stored in the |
| Trusted Key Storage registers to verify the ROTPK. Alternatively, a |
| development public key hash embedded in the BL1 and BL2 binaries might be |
| used instead. The location of the ROTPK is chosen at build-time using the |
| ``ARM_ROTPK_LOCATION`` build option. |
| |
| - GICv3 is now fully supported and stable. |
| |
| Known issues |
| ------------ |
| |
| - The version of the AEMv8 Base FVP used in this release resets the model |
| instead of terminating its execution in response to a shutdown request using |
| the PSCI ``SYSTEM_OFF`` API. This issue will be fixed in a future version of |
| the model. |
| |
| - While this version has low on-chip RAM requirements, there are further |
| RAM usage enhancements that could be made. |
| |
| - The upstream documentation could be improved for structural consistency, |
| clarity and completeness. In particular, the design documentation is |
| incomplete for PSCI, the TSP(D) and the Juno platform. |
| |
| - Building TF-A with compiler optimisations disabled (``-O0``) fails. |
| |
| Trusted Firmware-A - version 1.1 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - A prototype implementation of Trusted Board Boot has been added. Boot |
| loader images are verified by BL1 and BL2 during the cold boot path. BL1 and |
| BL2 use the PolarSSL SSL library to verify certificates and images. The |
| OpenSSL library is used to create the X.509 certificates. Support has been |
| added to ``fip_create`` tool to package the certificates in a FIP. |
| |
| - Support for calling CPU and platform specific reset handlers upon entry into |
| BL3-1 during the cold and warm boot paths has been added. This happens after |
| another Boot ROM ``reset_handler()`` has already run. This enables a developer |
| to perform additional actions or undo actions already performed during the |
| first call of the reset handlers e.g. apply additional errata workarounds. |
| |
| - Support has been added to demonstrate routing of IRQs to EL3 instead of |
| S-EL1 when execution is in secure world. |
| |
| - The PSCI implementation now conforms to version 1.0 of the PSCI |
| specification. All the mandatory APIs and selected optional APIs are |
| supported. In particular, support for the ``PSCI_FEATURES`` API has been |
| added. A capability variable is constructed during initialization by |
| examining the ``plat_pm_ops`` and ``spd_pm_ops`` exported by the platform and |
| the Secure Payload Dispatcher. This is used by the PSCI FEATURES function |
| to determine which PSCI APIs are supported by the platform. |
| |
| - Improvements have been made to the PSCI code as follows. |
| |
| - The code has been refactored to remove redundant parameters from |
| internal functions. |
| |
| - Changes have been made to the code for PSCI ``CPU_SUSPEND``, ``CPU_ON`` and |
| ``CPU_OFF`` calls to facilitate an early return to the caller in case a |
| failure condition is detected. For example, a PSCI ``CPU_SUSPEND`` call |
| returns ``SUCCESS`` to the caller if a pending interrupt is detected early |
| in the code path. |
| |
| - Optional platform APIs have been added to validate the ``power_state`` and |
| ``entrypoint`` parameters early in PSCI ``CPU_ON`` and ``CPU_SUSPEND`` code |
| paths. |
| |
| - PSCI migrate APIs have been reworked to invoke the SPD hook to determine |
| the type of Trusted OS and the CPU it is resident on (if |
| applicable). Also, during a PSCI ``MIGRATE`` call, the SPD hook to migrate |
| the Trusted OS is invoked. |
| |
| - It is now possible to build TF-A without marking at least an extra page of |
| memory as coherent. The build flag ``USE_COHERENT_MEM`` can be used to |
| choose between the two implementations. This has been made possible through |
| these changes. |
| |
| - An implementation of Bakery locks, where the locks are not allocated in |
| coherent memory has been added. |
| |
| - Memory which was previously marked as coherent is now kept coherent |
| through the use of software cache maintenance operations. |
| |
| Approximately, 4K worth of memory is saved for each boot loader stage when |
| ``USE_COHERENT_MEM=0``. Enabling this option increases the latencies |
| associated with acquire and release of locks. It also requires changes to |
| the platform ports. |
| |
| - It is now possible to specify the name of the FIP at build time by defining |
| the ``FIP_NAME`` variable. |
| |
| - Issues with depedencies on the 'fiptool' makefile target have been |
| rectified. The ``fip_create`` tool is now rebuilt whenever its source files |
| change. |
| |
| - The BL3-1 runtime console is now also used as the crash console. The crash |
| console is changed to SoC UART0 (UART2) from the previous FPGA UART0 (UART0) |
| on Juno. In FVP, it is changed from UART0 to UART1. |
| |
| - CPU errata workarounds are applied only when the revision and part number |
| match. This behaviour has been made consistent across the debug and release |
| builds. The debug build additionally prints a warning if a mismatch is |
| detected. |
| |
| - It is now possible to issue cache maintenance operations by set/way for a |
| particular level of data cache. Levels 1-3 are currently supported. |
| |
| - The following improvements have been made to the FVP port. |
| |
| - The build option ``FVP_SHARED_DATA_LOCATION`` which allowed relocation of |
| shared data into the Trusted DRAM has been deprecated. Shared data is |
| now always located at the base of Trusted SRAM. |
| |
| - BL2 Translation tables have been updated to map only the region of |
| DRAM which is accessible to normal world. This is the region of the 2GB |
| DDR-DRAM memory at 0x80000000 excluding the top 16MB. The top 16MB is |
| accessible to only the secure world. |
| |
| - BL3-2 can now reside in the top 16MB of DRAM which is accessible only to |
| the secure world. This can be done by setting the build flag |
| ``FVP_TSP_RAM_LOCATION`` to the value ``dram``. |
| |
| - Separate transation tables are created for each boot loader image. The |
| ``IMAGE_BLx`` build options are used to do this. This allows each stage to |
| create mappings only for areas in the memory map that it needs. |
| |
| - A Secure Payload Dispatcher (OPTEED) for the OP-TEE Trusted OS has been |
| added. Details of using it with TF-A can be found in `OP-TEE Dispatcher`_ |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - The Juno port has been aligned with the FVP port as follows. |
| |
| - Support for reclaiming all BL1 RW memory and BL2 memory by overlaying |
| the BL3-1/BL3-2 NOBITS sections on top of them has been added to the |
| Juno port. |
| |
| - The top 16MB of the 2GB DDR-DRAM memory at 0x80000000 is configured |
| using the TZC-400 controller to be accessible only to the secure world. |
| |
| - The Arm GIC driver is used to configure the GIC-400 instead of using a |
| GIC driver private to the Juno port. |
| |
| - PSCI ``CPU_SUSPEND`` calls that target a standby state are now supported. |
| |
| - The TZC-400 driver is used to configure the controller instead of direct |
| accesses to the registers. |
| |
| - The Linux kernel version referred to in the user guide has DVFS and HMP |
| support enabled. |
| |
| - DS-5 v5.19 did not detect Version 5.8 of the Cortex-A57-A53 Base FVPs in |
| CADI server mode. This issue is not seen with DS-5 v5.20 and Version 6.2 of |
| the Cortex-A57-A53 Base FVPs. |
| |
| Known issues |
| ------------ |
| |
| - The Trusted Board Boot implementation is a prototype. There are issues with |
| the modularity and scalability of the design. Support for a Trusted |
| Watchdog, firmware update mechanism, recovery images and Trusted debug is |
| absent. These issues will be addressed in future releases. |
| |
| - The FVP and Juno ports do not use the hash of the ROTPK stored in the |
| Trusted Key Storage registers to verify the ROTPK in the |
| ``plat_match_rotpk()`` function. This prevents the correct establishment of |
| the Chain of Trust at the first step in the Trusted Board Boot process. |
| |
| - The version of the AEMv8 Base FVP used in this release resets the model |
| instead of terminating its execution in response to a shutdown request using |
| the PSCI ``SYSTEM_OFF`` API. This issue will be fixed in a future version of |
| the model. |
| |
| - GICv3 support is experimental. There are known issues with GICv3 |
| initialization in the TF-A. |
| |
| - While this version greatly reduces the on-chip RAM requirements, there are |
| further RAM usage enhancements that could be made. |
| |
| - The firmware design documentation for the Test Secure-EL1 Payload (TSP) and |
| its dispatcher (TSPD) is incomplete. Similarly for the PSCI section. |
| |
| - The Juno-specific firmware design documentation is incomplete. |
| |
| Trusted Firmware-A - version 1.0 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - It is now possible to map higher physical addresses using non-flat virtual |
| to physical address mappings in the MMU setup. |
| |
| - Wider use is now made of the per-CPU data cache in BL3-1 to store: |
| |
| - Pointers to the non-secure and secure security state contexts. |
| |
| - A pointer to the CPU-specific operations. |
| |
| - A pointer to PSCI specific information (for example the current power |
| state). |
| |
| - A crash reporting buffer. |
| |
| - The following RAM usage improvements result in a BL3-1 RAM usage reduction |
| from 96KB to 56KB (for FVP with TSPD), and a total RAM usage reduction |
| across all images from 208KB to 88KB, compared to the previous release. |
| |
| - Removed the separate ``early_exception`` vectors from BL3-1 (2KB code size |
| saving). |
| |
| - Removed NSRAM from the FVP memory map, allowing the removal of one |
| (4KB) translation table. |
| |
| - Eliminated the internal ``psci_suspend_context`` array, saving 2KB. |
| |
| - Correctly dimensioned the PSCI ``aff_map_node`` array, saving 1.5KB in the |
| FVP port. |
| |
| - Removed calling CPU mpidr from the bakery lock API, saving 160 bytes. |
| |
| - Removed current CPU mpidr from PSCI common code, saving 160 bytes. |
| |
| - Inlined the mmio accessor functions, saving 360 bytes. |
| |
| - Fully reclaimed all BL1 RW memory and BL2 memory on the FVP port by |
| overlaying the BL3-1/BL3-2 NOBITS sections on top of these at runtime. |
| |
| - Made storing the FP register context optional, saving 0.5KB per context |
| (8KB on the FVP port, with TSPD enabled and running on 8 CPUs). |
| |
| - Implemented a leaner ``tf_printf()`` function, allowing the stack to be |
| greatly reduced. |
| |
| - Removed coherent stacks from the codebase. Stacks allocated in normal |
| memory are now used before and after the MMU is enabled. This saves 768 |
| bytes per CPU in BL3-1. |
| |
| - Reworked the crash reporting in BL3-1 to use less stack. |
| |
| - Optimized the EL3 register state stored in the ``cpu_context`` structure |
| so that registers that do not change during normal execution are |
| re-initialized each time during cold/warm boot, rather than restored |
| from memory. This saves about 1.2KB. |
| |
| - As a result of some of the above, reduced the runtime stack size in all |
| BL images. For BL3-1, this saves 1KB per CPU. |
| |
| - PSCI SMC handler improvements to correctly handle calls from secure states |
| and from AArch32. |
| |
| - CPU contexts are now initialized from the ``entry_point_info``. BL3-1 fully |
| determines the exception level to use for the non-trusted firmware (BL3-3) |
| based on the SPSR value provided by the BL2 platform code (or otherwise |
| provided to BL3-1). This allows platform code to directly run non-trusted |
| firmware payloads at either EL2 or EL1 without requiring an EL2 stub or OS |
| loader. |
| |
| - Code refactoring improvements: |
| |
| - Refactored ``fvp_config`` into a common platform header. |
| |
| - Refactored the fvp gic code to be a generic driver that no longer has an |
| explicit dependency on platform code. |
| |
| - Refactored the CCI-400 driver to not have dependency on platform code. |
| |
| - Simplified the IO driver so it's no longer necessary to call ``io_init()`` |
| and moved all the IO storage framework code to one place. |
| |
| - Simplified the interface the the TZC-400 driver. |
| |
| - Clarified the platform porting interface to the TSP. |
| |
| - Reworked the TSPD setup code to support the alternate BL3-2 |
| intialization flow where BL3-1 generic code hands control to BL3-2, |
| rather than expecting the TSPD to hand control directly to BL3-2. |
| |
| - Considerable rework to PSCI generic code to support CPU specific |
| operations. |
| |
| - Improved console log output, by: |
| |
| - Adding the concept of debug log levels. |
| |
| - Rationalizing the existing debug messages and adding new ones. |
| |
| - Printing out the version of each BL stage at runtime. |
| |
| - Adding support for printing console output from assembler code, |
| including when a crash occurs before the C runtime is initialized. |
| |
| - Moved up to the latest versions of the FVPs, toolchain, EDK2, kernel, Linaro |
| file system and DS-5. |
| |
| - On the FVP port, made the use of the Trusted DRAM region optional at build |
| time (off by default). Normal platforms will not have such a "ready-to-use" |
| DRAM area so it is not a good example to use it. |
| |
| - Added support for PSCI ``SYSTEM_OFF`` and ``SYSTEM_RESET`` APIs. |
| |
| - Added 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. |
| |
| - Merged the Juno port into the master branch. Added support for CPU hotplug |
| and CPU idle. Updated the user guide to describe how to build and run on the |
| Juno platform. |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - Removed the concept of top/bottom image loading. The image loader now |
| automatically detects the position of the image inside the current memory |
| layout and updates the layout to minimize fragementation. This resolves the |
| image loader limitations of previously releases. There are currently no |
| plans to support dynamic image loading. |
| |
| - CPU idle now works on the publicized version of the Foundation FVP. |
| |
| - All known issues relating to the compiler version used have now been |
| resolved. This TF-A version uses Linaro toolchain 14.07 (based on GCC 4.9). |
| |
| Known issues |
| ------------ |
| |
| - GICv3 support is experimental. The Linux kernel patches to support this are |
| not widely available. There are known issues with GICv3 initialization in |
| the TF-A. |
| |
| - While this version greatly reduces the on-chip RAM requirements, there are |
| further RAM usage enhancements that could be made. |
| |
| - The firmware design documentation for the Test Secure-EL1 Payload (TSP) and |
| its dispatcher (TSPD) is incomplete. Similarly for the PSCI section. |
| |
| - The Juno-specific firmware design documentation is incomplete. |
| |
| - Some recent enhancements to the FVP port have not yet been translated into |
| the Juno port. These will be tracked via the tf-issues project. |
| |
| - The Linux kernel version referred to in the user guide has DVFS and HMP |
| support disabled due to some known instabilities at the time of this |
| release. A future kernel version will re-enable these features. |
| |
| - DS-5 v5.19 does not detect Version 5.8 of the Cortex-A57-A53 Base FVPs in |
| CADI server mode. This is because the ``<SimName>`` reported by the FVP in |
| this version has changed. For example, for the Cortex-A57x4-A53x4 Base FVP, |
| the ``<SimName>`` reported by the FVP is ``FVP_Base_Cortex_A57x4_A53x4``, while |
| DS-5 expects it to be ``FVP_Base_A57x4_A53x4``. |
| |
| The temporary fix to this problem is to change the name of the FVP in |
| ``sw/debugger/configdb/Boards/ARM FVP/Base_A57x4_A53x4/cadi_config.xml``. |
| Change the following line: |
| |
| :: |
| |
| <SimName>System Generator:FVP_Base_A57x4_A53x4</SimName> |
| |
| to |
| System Generator:FVP\_Base\_Cortex-A57x4\_A53x4 |
| |
| A similar change can be made to the other Cortex-A57-A53 Base FVP variants. |
| |
| Trusted Firmware-A - version 0.4 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - Makefile improvements: |
| |
| - Improved dependency checking when building. |
| |
| - Removed ``dump`` target (build now always produces dump files). |
| |
| - Enabled platform ports to optionally make use of parts of the Trusted |
| Firmware (e.g. BL3-1 only), rather than being forced to use all parts. |
| Also made the ``fip`` target optional. |
| |
| - Specified the full path to source files and removed use of the ``vpath`` |
| keyword. |
| |
| - Provided translation table library code for potential re-use by platforms |
| other than the FVPs. |
| |
| - Moved architectural timer setup to platform-specific code. |
| |
| - Added standby state support to PSCI cpu\_suspend implementation. |
| |
| - SRAM usage improvements: |
| |
| - Started using the ``-ffunction-sections``, ``-fdata-sections`` and |
| ``--gc-sections`` compiler/linker options to remove unused code and data |
| from the images. Previously, all common functions were being built into |
| all binary images, whether or not they were actually used. |
| |
| - Placed all assembler functions in their own section to allow more unused |
| functions to be removed from images. |
| |
| - Updated BL1 and BL2 to use a single coherent stack each, rather than one |
| per CPU. |
| |
| - Changed variables that were unnecessarily declared and initialized as |
| non-const (i.e. in the .data section) so they are either uninitialized |
| (zero init) or const. |
| |
| - Moved the Test Secure-EL1 Payload (BL3-2) to execute in Trusted SRAM by |
| default. The option for it to run in Trusted DRAM remains. |
| |
| - Implemented a TrustZone Address Space Controller (TZC-400) driver. A |
| default configuration is provided for the Base FVPs. This means the model |
| parameter ``-C bp.secure_memory=1`` is now supported. |
| |
| - Started saving the PSCI cpu\_suspend 'power\_state' parameter prior to |
| suspending a CPU. This allows platforms that implement multiple power-down |
| states at the same affinity level to identify a specific state. |
| |
| - Refactored the entire codebase to reduce the amount of nesting in header |
| files and to make the use of system/user includes more consistent. Also |
| split platform.h to separate out the platform porting declarations from the |
| required platform porting definitions and the definitions/declarations |
| specific to the platform port. |
| |
| - Optimized the data cache clean/invalidate operations. |
| |
| - Improved the BL3-1 unhandled exception handling and reporting. Unhandled |
| exceptions now result in a dump of registers to the console. |
| |
| - Major rework to the handover interface between BL stages, in particular the |
| interface to BL3-1. The interface now conforms to a specification and is |
| more future proof. |
| |
| - Added support for optionally making the BL3-1 entrypoint a reset handler |
| (instead of BL1). This allows platforms with an alternative image loading |
| architecture to re-use BL3-1 with fewer modifications to generic code. |
| |
| - Reserved some DDR DRAM for secure use on FVP platforms to avoid future |
| compatibility problems with non-secure software. |
| |
| - Added support for secure interrupts targeting the Secure-EL1 Payload (SP) |
| (using GICv2 routing only). Demonstrated this working by adding an interrupt |
| target and supporting test code to the TSP. Also demonstrated non-secure |
| interrupt handling during TSP processing. |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - Now support use of the model parameter ``-C bp.secure_memory=1`` in the Base |
| FVPs (see **New features**). |
| |
| - Support for secure world interrupt handling now available (see **New |
| features**). |
| |
| - Made enough SRAM savings (see **New features**) to enable the Test Secure-EL1 |
| Payload (BL3-2) to execute in Trusted SRAM by default. |
| |
| - The tested filesystem used for this release (Linaro AArch64 OpenEmbedded |
| 14.04) now correctly reports progress in the console. |
| |
| - Improved the Makefile structure to make it easier to separate out parts of |
| the TF-A for re-use in platform ports. Also, improved target dependency |
| checking. |
| |
| Known issues |
| ------------ |
| |
| - GICv3 support is experimental. The Linux kernel patches to support this are |
| not widely available. There are known issues with GICv3 initialization in |
| the TF-A. |
| |
| - Dynamic image loading is not available yet. The current image loader |
| implementation (used to load BL2 and all subsequent images) has some |
| limitations. Changing BL2 or BL3-1 load addresses in certain ways can lead |
| to loading errors, even if the images should theoretically fit in memory. |
| |
| - TF-A still uses too much on-chip Trusted SRAM. A number of RAM usage |
| enhancements have been identified to rectify this situation. |
| |
| - CPU idle does not work on the advertised version of the Foundation FVP. |
| Some FVP fixes are required that are not available externally at the time |
| of writing. This can be worked around by disabling CPU idle in the Linux |
| kernel. |
| |
| - Various bugs in TF-A, UEFI and the Linux kernel have been observed when |
| using Linaro toolchain versions later than 13.11. Although most of these |
| have been fixed, some remain at the time of writing. These mainly seem to |
| relate to a subtle change in the way the compiler converts between 64-bit |
| and 32-bit values (e.g. during casting operations), which reveals |
| previously hidden bugs in client code. |
| |
| - The firmware design documentation for the Test Secure-EL1 Payload (TSP) and |
| its dispatcher (TSPD) is incomplete. Similarly for the PSCI section. |
| |
| Trusted Firmware-A - version 0.3 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - Support for Foundation FVP Version 2.0 added. |
| The documented UEFI configuration disables some devices that are unavailable |
| in the Foundation FVP, including MMC and CLCD. The resultant UEFI binary can |
| be used on the AEMv8 and Cortex-A57-A53 Base FVPs, as well as the Foundation |
| FVP. |
| |
| NOTE: The software will not work on Version 1.0 of the Foundation FVP. |
| |
| - Enabled third party contributions. Added a new contributing.md containing |
| instructions for how to contribute and updated copyright text in all files |
| to acknowledge contributors. |
| |
| - The PSCI CPU\_SUSPEND API has been stabilised to the extent where it can be |
| used for entry into power down states with the following restrictions: |
| |
| - Entry into standby states is not supported. |
| - The API is only supported on the AEMv8 and Cortex-A57-A53 Base FVPs. |
| |
| - The PSCI AFFINITY\_INFO api has undergone limited testing on the Base FVPs to |
| allow experimental use. |
| |
| - Required C library and runtime header files are now included locally in |
| TF-A instead of depending on the toolchain standard include paths. The |
| local implementation has been cleaned up and reduced in scope. |
| |
| - Added I/O abstraction framework, primarily to allow generic code to load |
| images in a platform-independent way. The existing image loading code has |
| been reworked to use the new framework. Semi-hosting and NOR flash I/O |
| drivers are provided. |
| |
| - Introduced Firmware Image Package (FIP) handling code and tools. A FIP |
| combines multiple firmware images with a Table of Contents (ToC) into a |
| single binary image. The new FIP driver is another type of I/O driver. The |
| Makefile builds a FIP by default and the FVP platform code expect to load a |
| FIP from NOR flash, although some support for image loading using semi- |
| hosting is retained. |
| |
| NOTE: Building a FIP by default is a non-backwards-compatible change. |
| |
| NOTE: Generic BL2 code now loads a BL3-3 (non-trusted firmware) image into |
| DRAM instead of expecting this to be pre-loaded at known location. This is |
| also a non-backwards-compatible change. |
| |
| NOTE: Some non-trusted firmware (e.g. UEFI) will need to be rebuilt so that |
| it knows the new location to execute from and no longer needs to copy |
| particular code modules to DRAM itself. |
| |
| - Reworked BL2 to BL3-1 handover interface. A new composite structure |
| (bl31\_args) holds the superset of information that needs to be passed from |
| BL2 to BL3-1, including information on how handover execution control to |
| BL3-2 (if present) and BL3-3 (non-trusted firmware). |
| |
| - Added library support for CPU context management, allowing the saving and |
| restoring of |
| |
| - Shared system registers between Secure-EL1 and EL1. |
| - VFP registers. |
| - Essential EL3 system registers. |
| |
| - Added a framework for implementing EL3 runtime services. Reworked the PSCI |
| implementation to be one such runtime service. |
| |
| - Reworked the exception handling logic, making use of both SP\_EL0 and SP\_EL3 |
| stack pointers for determining the type of exception, managing general |
| purpose and system register context on exception entry/exit, and handling |
| SMCs. SMCs are directed to the correct EL3 runtime service. |
| |
| - Added support for a Test Secure-EL1 Payload (TSP) and a corresponding |
| Dispatcher (TSPD), which is loaded as an EL3 runtime service. The TSPD |
| implements Secure Monitor functionality such as world switching and |
| EL1 context management, and is responsible for communication with the TSP. |
| NOTE: The TSPD does not yet contain support for secure world interrupts. |
| NOTE: The TSP/TSPD is not built by default. |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - Support has been added for switching context between secure and normal |
| worlds in EL3. |
| |
| - PSCI API calls ``AFFINITY_INFO`` & ``PSCI_VERSION`` have now been tested (to |
| a limited extent). |
| |
| - The TF-A build artifacts are now placed in the ``./build`` directory and |
| sub-directories instead of being placed in the root of the project. |
| |
| - TF-A is now free from build warnings. Build warnings are now treated as |
| errors. |
| |
| - TF-A now provides C library support locally within the project to maintain |
| compatibility between toolchains/systems. |
| |
| - The PSCI locking code has been reworked so it no longer takes locks in an |
| incorrect sequence. |
| |
| - The RAM-disk method of loading a Linux file-system has been confirmed to |
| work with the TF-A and Linux kernel version (based on version 3.13) used |
| in this release, for both Foundation and Base FVPs. |
| |
| Known issues |
| ------------ |
| |
| The following is a list of issues which are expected to be fixed in the future |
| releases of TF-A. |
| |
| - The TrustZone Address Space Controller (TZC-400) is not being programmed |
| yet. Use of model parameter ``-C bp.secure_memory=1`` is not supported. |
| |
| - No support yet for secure world interrupt handling. |
| |
| - GICv3 support is experimental. The Linux kernel patches to support this are |
| not widely available. There are known issues with GICv3 initialization in |
| TF-A. |
| |
| - Dynamic image loading is not available yet. The current image loader |
| implementation (used to load BL2 and all subsequent images) has some |
| limitations. Changing BL2 or BL3-1 load addresses in certain ways can lead |
| to loading errors, even if the images should theoretically fit in memory. |
| |
| - TF-A uses too much on-chip Trusted SRAM. Currently the Test Secure-EL1 |
| Payload (BL3-2) executes in Trusted DRAM since there is not enough SRAM. |
| A number of RAM usage enhancements have been identified to rectify this |
| situation. |
| |
| - CPU idle does not work on the advertised version of the Foundation FVP. |
| Some FVP fixes are required that are not available externally at the time |
| of writing. |
| |
| - Various bugs in TF-A, UEFI and the Linux kernel have been observed when |
| using Linaro toolchain versions later than 13.11. Although most of these |
| have been fixed, some remain at the time of writing. These mainly seem to |
| relate to a subtle change in the way the compiler converts between 64-bit |
| and 32-bit values (e.g. during casting operations), which reveals |
| previously hidden bugs in client code. |
| |
| - The tested filesystem used for this release (Linaro AArch64 OpenEmbedded |
| 14.01) does not report progress correctly in the console. It only seems to |
| produce error output, not standard output. It otherwise appears to function |
| correctly. Other filesystem versions on the same software stack do not |
| exhibit the problem. |
| |
| - The Makefile structure doesn't make it easy to separate out parts of the |
| TF-A for re-use in platform ports, for example if only BL3-1 is required in |
| a platform port. Also, dependency checking in the Makefile is flawed. |
| |
| - The firmware design documentation for the Test Secure-EL1 Payload (TSP) and |
| its dispatcher (TSPD) is incomplete. Similarly for the PSCI section. |
| |
| Trusted Firmware-A - version 0.2 |
| ================================ |
| |
| New features |
| ------------ |
| |
| - First source release. |
| |
| - Code for the PSCI suspend feature is supplied, although this is not enabled |
| by default since there are known issues (see below). |
| |
| Issues resolved since last release |
| ---------------------------------- |
| |
| - The "psci" nodes in the FDTs provided in this release now fully comply |
| with the recommendations made in the PSCI specification. |
| |
| Known issues |
| ------------ |
| |
| The following is a list of issues which are expected to be fixed in the future |
| releases of TF-A. |
| |
| - The TrustZone Address Space Controller (TZC-400) is not being programmed |
| yet. Use of model parameter ``-C bp.secure_memory=1`` is not supported. |
| |
| - No support yet for secure world interrupt handling or for switching context |
| between secure and normal worlds in EL3. |
| |
| - GICv3 support is experimental. The Linux kernel patches to support this are |
| not widely available. There are known issues with GICv3 initialization in |
| TF-A. |
| |
| - Dynamic image loading is not available yet. The current image loader |
| implementation (used to load BL2 and all subsequent images) has some |
| limitations. Changing BL2 or BL3-1 load addresses in certain ways can lead |
| to loading errors, even if the images should theoretically fit in memory. |
| |
| - Although support for PSCI ``CPU_SUSPEND`` is present, it is not yet stable |
| and ready for use. |
| |
| - PSCI API calls ``AFFINITY_INFO`` & ``PSCI_VERSION`` are implemented but have |
| not been tested. |
| |
| - The TF-A make files result in all build artifacts being placed in the root |
| of the project. These should be placed in appropriate sub-directories. |
| |
| - The compilation of TF-A is not free from compilation warnings. Some of these |
| warnings have not been investigated yet so they could mask real bugs. |
| |
| - TF-A currently uses toolchain/system include files like stdio.h. It should |
| provide versions of these within the project to maintain compatibility |
| between toolchains/systems. |
| |
| - The PSCI code takes some locks in an incorrect sequence. This may cause |
| problems with suspend and hotplug in certain conditions. |
| |
| - The Linux kernel used in this release is based on version 3.12-rc4. Using |
| this kernel with the TF-A fails to start the file-system as a RAM-disk. It |
| fails to execute user-space ``init`` from the RAM-disk. As an alternative, |
| the VirtioBlock mechanism can be used to provide a file-system to the |
| kernel. |
| |
| -------------- |
| |
| *Copyright (c) 2013-2018, Arm Limited and Contributors. All rights reserved.* |
| |
| .. _PSCI Integration Guide: psci-lib-integration-guide.rst |
| .. _Developer Certificate of Origin: ../dco.txt |
| .. _Contribution Guide: ../contributing.rst |
| .. _Authentication framework: auth-framework.rst |
| .. _Firmware Update: firmware-update.rst |
| .. _TF-A Reset Design: reset-design.rst |
| .. _Power Domain Topology Design: psci-pd-tree.rst |
| .. _TF-A wiki on GitHub: https://github.com/ARM-software/arm-trusted-firmware/wiki/ARM-Trusted-Firmware-Image-Terminology |
| .. _Authentication Framework: auth-framework.rst |
| .. _OP-TEE Dispatcher: optee-dispatcher.rst |
| .. _tf-issue#501: https://github.com/ARM-software/tf-issues/issues/501 |
| .. _PR#1002: https://github.com/ARM-software/arm-trusted-firmware/pull/1002#issuecomment-312650193 |