From 347609510e30f5cc3f33beaad3cf085e8296b883 Mon Sep 17 00:00:00 2001 From: Paul Beesley Date: Fri, 12 Apr 2019 14:19:42 +0100 Subject: [PATCH] doc: Convert internal links to RST format Currently links between documents are using the format: .rst This was required for services like GitHub because they render each document in isolation - linking to another document is like linking to any other file, just provide the full path. However, with the new approach, the .rst files are only the raw source for the documents. Once the documents have been rendered the output is now in another format (HTML in our case) and so, when linking to another document, the link must point to the rendered version and not the .rst file. The RST spec provides a few methods for linking between content. The parent of this patch enabled the automatic creation of anchors for document titles - we will use these anchors as the targets for our links. Additional anchors can be added by hand if needed, on section and sub-section titles, for example. An example of this new format, for a document with the title "Firmware Design" is :ref:`Firmware Design`. One big advantage of this is that anchors are not dependent on paths. We can then move documents around, even between directories, without breaking any links between documents. Links will need to be updated only if the title of a document changes. Change-Id: I9e2340a61dd424cbd8fd1ecc2dc166f460d81703 Signed-off-by: Paul Beesley --- docs/change-log.rst | 37 ++-- docs/components/arm-sip-service.rst | 8 +- docs/components/exception-handling.rst | 14 +- docs/components/firmware-update.rst | 18 +- .../platform-interrupt-controller-API.rst | 9 +- docs/components/ras.rst | 7 +- docs/components/sdei.rst | 44 ++--- docs/components/xlat-tables-lib-v2-design.rst | 50 +++--- docs/contents.rst | 165 ------------------ docs/design/auth-framework.rst | 6 +- docs/design/cpu-specific-build-macros.rst | 8 +- docs/design/firmware-design.rst | 121 ++++++------- docs/design/interrupt-framework-design.rst | 11 +- docs/design/reset-design.rst | 18 +- docs/design/trusted-board-boot.rst | 21 ++- docs/getting_started/porting-guide.rst | 100 +++++------ .../psci-lib-integration-guide.rst | 20 +-- docs/getting_started/rt-svc-writers-guide.rst | 22 +-- docs/getting_started/user-guide.rst | 64 +++---- docs/index.rst | 38 ++-- docs/license.rst | 4 +- docs/plat/socionext-uniphier.rst | 16 +- docs/process/contributing.rst | 46 ++--- docs/process/faq.rst | 13 +- .../process/platform-compatibility-policy.rst | 6 +- docs/process/release-information.rst | 12 +- docs/process/security-hardening.rst | 6 +- docs/process/security.rst | 47 ++--- 28 files changed, 352 insertions(+), 579 deletions(-) delete mode 100644 docs/contents.rst diff --git a/docs/change-log.rst b/docs/change-log.rst index 70aafc06..0a89aa6f 100644 --- a/docs/change-log.rst +++ b/docs/change-log.rst @@ -22,8 +22,8 @@ New Features and ``CTX_INCLUDE_PAUTH_REGS`` build flags, pointer authentication can be enabled in EL3 and S-EL1/0. - See the `Firmware Design`_ document for additional details on the use of - pointer authentication. + See the :ref:`Firmware Design` document for additional details on the use + of pointer authentication. - Enable Data Independent Timing (DIT) in EL3, where supported @@ -1359,7 +1359,7 @@ New features 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`_. + :ref:`PSCI Library Integration guide for Armv8-A AArch32 systems`. Included is a minimal AArch32 Secure Payload, **SP-MIN**, that illustrates the usage and integration of the PSCI library with EL3 Runtime Software @@ -1402,11 +1402,11 @@ New features 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`_. + :download:`Developer Certificate of Origin <../dco.txt>`. A signed CLA is no longer required. - The `Contribution Guide`_ has been updated to reflect this change. + The :ref:`Contributor's 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 @@ -1620,13 +1620,13 @@ New features - Added the following new design documents: - - `Authentication framework`_ - - `Firmware Update`_ - - `TF-A Reset Design`_ - - `Power Domain Topology Design`_ + - :ref:`Authentication Framework & Chain of Trust` + - :ref:`Firmware Update (FWU)` + - :ref:`CPU Reset` + - :ref:`PSCI Power Domain Tree Structure` - Applied the new image terminology to the code base and documentation, as - described in the `image terminology document`_. + described in the :ref:`Image Terminology` document. - The build system has been reworked to improve readability and facilitate adding future extensions. @@ -1694,7 +1694,8 @@ Issues resolved since last release ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - The Trusted Board Boot implementation has been redesigned to provide greater - modularity and scalability. See the `Authentication Framework`_ document. + modularity and scalability. See the + :ref:`Authentication Framework & Chain of Trust` document. All missing mandatory features are now implemented. - The FVP and Juno ports may now use the hash of the ROTPK stored in the @@ -1826,7 +1827,7 @@ New features 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`_ + added. Details of using it with TF-A can be found in :ref:`OP-TEE Dispatcher` Issues resolved since last release ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ @@ -2423,16 +2424,6 @@ releases of TF-A. *Copyright (c) 2013-2019, Arm Limited and Contributors. All rights reserved.* .. _SDEI Specification: http://infocenter.arm.com/help/topic/com.arm.doc.den0054a/ARM_DEN0054A_Software_Delegated_Exception_Interface.pdf -.. _PSCI Integration Guide: ./getting_started/psci-lib-integration-guide.rst -.. _Developer Certificate of Origin: ../dco.txt -.. _Contribution Guide: ./process/contributing.rst -.. _Authentication framework: ./design/auth-framework.rst -.. _Firmware Update: ./design/firmware-update.rst -.. _Firmware Design: ./design/firmware-design.rst -.. _TF-A Reset Design: ./design/reset-design.rst -.. _Power Domain Topology Design: ./design/psci-pd-tree.rst -.. _image terminology document: ./getting_started/image-terminology.rst -.. _Authentication Framework: ./design/auth-framework.rst -.. _OP-TEE Dispatcher: ./spd/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 +.. _mbed TLS releases: https://tls.mbed.org/tech-updates/releases diff --git a/docs/components/arm-sip-service.rst b/docs/components/arm-sip-service.rst index e450d375..2d58586b 100644 --- a/docs/components/arm-sip-service.rst +++ b/docs/components/arm-sip-service.rst @@ -24,9 +24,9 @@ file. Performance Measurement Framework (PMF) --------------------------------------- -The `Performance Measurement Framework`_ +The :ref:`Performance Measurement Framework ` allows callers to retrieve timestamps captured at various paths in TF-A -execution. It's described in detail in `Firmware Design document`_. +execution. Execution State Switching service --------------------------------- @@ -89,8 +89,6 @@ respectively. -------------- -*Copyright (c) 2017-2018, Arm Limited and Contributors. All rights reserved.* +*Copyright (c) 2017-2019, Arm Limited and Contributors. All rights reserved.* .. _SMC Calling Convention: http://infocenter.arm.com/help/topic/com.arm.doc.den0028a/index.html -.. _Performance Measurement Framework: ../design/firmware-design.rst#user-content-performance-measurement-framework -.. _Firmware Design document: ../design/firmware-design.rst diff --git a/docs/components/exception-handling.rst b/docs/components/exception-handling.rst index 0d017331..3f386854 100644 --- a/docs/components/exception-handling.rst +++ b/docs/components/exception-handling.rst @@ -26,8 +26,8 @@ Introduction Through various control bits in the ``SCR_EL3`` register, the Arm architecture allows for asynchronous exceptions to be routed to EL3. As described in the -`Interrupt Framework Design`_ document, depending on the chosen interrupt -routing model, TF-A appropriately sets the ``FIQ`` and ``IRQ`` bits of +:ref:`Interrupt Management Framework` document, depending on the chosen +interrupt routing model, TF-A appropriately sets the ``FIQ`` and ``IRQ`` bits of ``SCR_EL3`` register to effect this routing. For most use cases, other than for the purpose of facilitating context switch between Normal and Secure worlds, FIQs and IRQs routed to EL3 are not required to be handled in EL3. @@ -143,8 +143,9 @@ Interrupt handling ------------------ The |EHF| is a client of *Interrupt Management Framework*, and registers the -top-level handler for interrupts that target EL3, as described in the `Interrupt -Framework Design`_ document. This has the following implications. +top-level handler for interrupts that target EL3, as described in the +:ref:`Interrupt Management Framework` document. This has the following +implications: - On GICv3 systems, when executing in S-EL1, pending Non-secure interrupts of sufficient priority are signalled as FIQs, and therefore will be routed to @@ -618,9 +619,8 @@ The |EHF| has the following limitations: exception descriptor and the programmed priority of interrupts handled by the dispatcher match. The |EHF| cannot verify that this has been followed. ----- +-------------- -*Copyright (c) 2018, Arm Limited and Contributors. All rights reserved.* +*Copyright (c) 2018-2019, Arm Limited and Contributors. All rights reserved.* -.. _Interrupt Framework Design: ../design/interrupt-framework-design.rst .. _SDEI specification: http://infocenter.arm.com/help/topic/com.arm.doc.den0054a/ARM_DEN0054A_Software_Delegated_Exception_Interface.pdf diff --git a/docs/components/firmware-update.rst b/docs/components/firmware-update.rst index 30bdc24b..2bff00f5 100644 --- a/docs/components/firmware-update.rst +++ b/docs/components/firmware-update.rst @@ -14,8 +14,8 @@ be complemented by other, higher level firmware update software. FWU implements a specific part of the Trusted Board Boot Requirements (TBBR) specification, Arm DEN0006C-1. It should be used in conjunction with the -`Trusted Board Boot`_ design document, which describes the image authentication -parts of the Trusted Firmware-A (TF-A) TBBR implementation. +:ref:`Trusted Board Boot` design document, which describes the image +authentication parts of the Trusted Firmware-A (TF-A) TBBR implementation. Scope ~~~~~ @@ -53,10 +53,11 @@ The primary requirements of the FWU feature are: at other Exception Levels. #. Export a platform interface to provide FWU common code with the information it needs, and to enable platform specific FWU functionality. See the - `Porting Guide`_ for details of this interface. + :ref:`Porting Guide` for details of this interface. TF-A uses abbreviated image terminology for FWU images like for other TF-A -images. An overview of this terminology can be found `here`_. +images. See the :ref:`Image Terminology` document for an explanation of these +terms. The following diagram shows the FWU boot flow for Arm development platforms. Arm CSS platforms like Juno have a System Control Processor (SCP), and these @@ -70,8 +71,8 @@ Image Identification Each FWU image and certificate is identified by a unique ID, defined by the platform, which BL1 uses to fetch an image descriptor (``image_desc_t``) via a call to ``bl1_plat_get_image_desc()``. The same ID is also used to prepare the -Chain of Trust (Refer to the `Authentication Framework Design`_ -for more information). +Chain of Trust (Refer to the :ref:`Authentication Framework & Chain of Trust` +document for more information). The image descriptor includes the following information: @@ -394,11 +395,6 @@ This is only allowed if the image is not being executed. *Copyright (c) 2015-2019, Arm Limited and Contributors. All rights reserved.* -.. _Trusted Board Boot: ../design/trusted-board-boot.rst -.. _Porting Guide: ../getting_started/porting-guide.rst -.. _here: ../getting_started/image-terminology.rst -.. _Authentication Framework Design: ../design/auth-framework.rst .. _Universally Unique Identifier: https://tools.ietf.org/rfc/rfc4122.txt - .. |Flow Diagram| image:: ../resources/diagrams/fwu_flow.png .. |FWU state machine| image:: ../resources/diagrams/fwu_states.png diff --git a/docs/components/platform-interrupt-controller-API.rst b/docs/components/platform-interrupt-controller-API.rst index 7890cd38..9d02f45c 100644 --- a/docs/components/platform-interrupt-controller-API.rst +++ b/docs/components/platform-interrupt-controller-API.rst @@ -3,9 +3,8 @@ Platform Interrupt Controller API This document lists the optional platform interrupt controller API that abstracts the runtime configuration and control of interrupt controller from the -generic code. The mandatory APIs are described in the `porting guide`__. - -.. __: ../getting_started/porting-guide.rst#interrupt-management-framework-in-bl31 +generic code. The mandatory APIs are described in the +:ref:`Porting Guide `. Function: unsigned int plat_ic_get_running_priority(void); [optional] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -303,6 +302,6 @@ should return ``INTR_ID_UNAVAILABLE``. In case of Arm standard platforms using GIC, the implementation of the API masks out the interrupt ID field from the acknowledged value from GIC. ----- +-------------- -*Copyright (c) 2017-2018, Arm Limited and Contributors. All rights reserved.* +*Copyright (c) 2017-2019, Arm Limited and Contributors. All rights reserved.* diff --git a/docs/components/ras.rst b/docs/components/ras.rst index 137c0c30..3d81f17e 100644 --- a/docs/components/ras.rst +++ b/docs/components/ras.rst @@ -1,9 +1,6 @@ Reliability, Availability, and Serviceability (RAS) Extensions ============================================================== -.. |EHF| replace:: Exception Handling Framework -.. |TF-A| replace:: Trusted Firmware-A - This document describes |TF-A| support for Arm Reliability, Availability, and Serviceability (RAS) extensions. RAS is a mandatory extension for Armv8.2 and later CPUs, and also an optional extension to the base Armv8.0 architecture. @@ -247,6 +244,6 @@ explicit using `EHF APIs`__. .. __: exception-handling.rst#non-interrupt-flow .. __: exception-handling.rst#activating-and-deactivating-priorities ----- +-------------- -*Copyright (c) 2018, Arm Limited and Contributors. All rights reserved.* +*Copyright (c) 2018-2019, Arm Limited and Contributors. All rights reserved.* diff --git a/docs/components/sdei.rst b/docs/components/sdei.rst index 2a777b38..c5275a0b 100644 --- a/docs/components/sdei.rst +++ b/docs/components/sdei.rst @@ -7,7 +7,7 @@ Trusted Firmware-A (TF-A). Introduction ------------ -`Software Delegated Exception Interface`_ (SDEI) is an Arm specification for +Software Delegated Exception Interface (|SDEI|) is an Arm specification for Non-secure world to register handlers with firmware to receive notifications about system events. Firmware will first receive the system events by way of asynchronous exceptions and, in response, arranges for the registered handler to @@ -50,9 +50,6 @@ The remainder of this document only discusses the design and implementation of SDEI dispatcher in TF-A, and assumes that the reader is familiar with the SDEI specification, the interfaces, and their requirements. -.. [#std-event] Except event 0, which is defined by the SDEI specification as a - standard event. - Defining events --------------- @@ -78,12 +75,10 @@ event descriptors. Both macros take 3 arguments: To define event 0, the macro ``SDEI_DEFINE_EVENT_0()`` should be used. This macro takes only one parameter: an SGI number to signal other PEs. -To define an event that's meant to be `explicitly dispatched`__ (i.e., not as a +To define an event that's meant to be explicitly dispatched (i.e., not as a result of receiving an SDEI interrupt), the macro ``SDEI_EXPLICIT_EVENT()`` should be used. It accepts two parameters: -.. __: `Explicit dispatch of events`_ - - The event number (as above); - Event priority: ``SDEI_MAPF_CRITICAL`` or ``SDEI_MAPF_NORMAL``, as described @@ -110,9 +105,7 @@ Regarding event descriptors: - Statically bound shared and private interrupts must be bound to shared and private interrupts on the platform, respectively. See the section on - `interrupt configuration`__. - - .. __: `Configuration within Exception Handling Framework`_ + `Configuration within Exception Handling Framework`_. - Both arrays should be one-dimensional. The ``REGISTER_SDEI_MAP()`` macro takes care of replicating private events for each PE on the platform. @@ -130,9 +123,8 @@ Event flags ~~~~~~~~~~~ Event flags describe the properties of the event. They are bit maps that can be -``OR``\ ed to form parameters to macros that `define events`__. - -.. __: `Defining events`_ +``OR``\ ed to form parameters to macros that define events (see +`Defining events`_). - ``SDEI_MAPF_DYNAMIC``: Marks the event as dynamic. Dynamic events can be bound to (or released from) any Non-secure interrupt at runtime via the @@ -196,7 +188,7 @@ interrupts for the platform: be configured as *Group 0*. Additionally, on GICv2 systems, the build option ``GICV2_G0_FOR_EL3`` must be set to ``1``. -See also `SDEI porting requirements`_. +See also :ref:`porting_guide_sdei_requirements`. Determining client EL --------------------- @@ -250,10 +242,6 @@ rest of the sequence is similar to that in the `general SDEI dispatch`_: the requested event is dispatched to the client (assuming all the conditions are met), and when the handler completes, the preempted execution resumes. -.. [#critical-event] Examples of critical event are *SError*, *Synchronous - External Abort*, *Fault Handling interrupt*, or *Error - Recovery interrupt* from one of RAS nodes in the system. - Conditions for event dispatch ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -307,10 +295,8 @@ dispatcher: Porting requirements -------------------- -The porting requirements of the SDEI dispatcher are outlined in the `porting -guide`__. - -.. __: `SDEI porting requirements`_ +The porting requirements of the SDEI dispatcher are outlined in the +:ref:`Porting Guide `. Note on writing SDEI event handlers ----------------------------------- @@ -364,10 +350,18 @@ implemented in assembly, following a similar pattern as below: smc #0 b . ----- +-------------- + +*Copyright (c) 2017-2019, Arm Limited and Contributors. All rights reserved.* -*Copyright (c) 2017-2018, Arm Limited and Contributors. All rights reserved.* +.. rubric:: Footnotes + +.. [#std-event] Except event 0, which is defined by the SDEI specification as a + standard event. + +.. [#critical-event] Examples of critical events are *SError*, *Synchronous + External Abort*, *Fault Handling interrupt* or *Error + Recovery interrupt* from one of RAS nodes in the system. .. _SDEI specification: http://infocenter.arm.com/help/topic/com.arm.doc.den0054a/ARM_DEN0054A_Software_Delegated_Exception_Interface.pdf -.. _SDEI porting requirements: ../getting_started/porting-guide.rst#sdei-porting-requirements .. _Software Delegated Exception Interface: `SDEI specification`_ diff --git a/docs/components/xlat-tables-lib-v2-design.rst b/docs/components/xlat-tables-lib-v2-design.rst index 786dd3bc..af5151f7 100644 --- a/docs/components/xlat-tables-lib-v2-design.rst +++ b/docs/components/xlat-tables-lib-v2-design.rst @@ -30,8 +30,8 @@ About version 1 and version 2 ----------------------------- This document focuses on version 2 of the library, whose sources are available -in the `lib/xlat_tables_v2`_ directory. Version 1 of the library can still be -found in `lib/xlat_tables`_ directory but it is less flexible and doesn't +in the ``lib/xlat_tables_v2`` directory. Version 1 of the library can still be +found in ``lib/xlat_tables`` directory but it is less flexible and doesn't support dynamic mapping. Although potential bug fixes will be applied to both versions, future features enhancements will focus on version 2 and might not be back-ported to version 1. Therefore, it is recommended to use version 2, @@ -62,7 +62,7 @@ map. It is one of the key interfaces to the library. It is identified by: - its attributes; - its mapping granularity (optional). -See the ``struct mmap_region`` type in `xlat_tables_v2.h`_. +See the ``struct mmap_region`` type in ``xlat_tables_v2.h``. The user usually provides a list of such mmap regions to map and lets the library transpose that in a set of translation tables. As a result, the library @@ -73,7 +73,7 @@ normal memory) as well as the memory access permissions (read-only or read-write, executable or not, secure or non-secure, and so on). In the case of the EL1&0 translation regime, the attributes also specify whether the region is a User region (EL0) or Privileged region (EL1). See the ``MT_xxx`` definitions -in `xlat_tables_v2.h`_. Note that for the EL1&0 translation regime the Execute +in ``xlat_tables_v2.h``. Note that for the EL1&0 translation regime the Execute Never attribute is set simultaneously for both EL1 and EL0. The granularity controls the translation table level to go down to when mapping @@ -162,7 +162,7 @@ coming (for the most part) from platform-specific defines: - size of the virtual address space: ``PLAT_VIRT_ADDR_SPACE_SIZE``; - size of the physical address space: ``PLAT_PHY_ADDR_SPACE_SIZE``. -Please refer to the `Porting Guide`_ for more details about these macros. +Please refer to the :ref:`Porting Guide` for more details about these macros. Static and dynamic memory regions @@ -201,7 +201,7 @@ Library APIs ------------ The external APIs exposed by this library are declared and documented in the -`xlat_tables_v2.h`_ header file. This should be the reference point for +``xlat_tables_v2.h`` header file. This should be the reference point for getting information about the usage of the different APIs this library provides. This section just provides some extra details and clarifications. @@ -284,7 +284,7 @@ The library is divided into 4 modules: provides functions such as ``mmap_add_region_ctx`` that let the caller specify the translation tables context affected by them. - See `xlat_tables_core.c`_. + See ``xlat_tables_core.c``. - **Active context module** @@ -293,14 +293,14 @@ The library is divided into 4 modules: This module provides functions such as ``mmap_add_region``, that directly affect the BL image using them. - See `xlat_tables_context.c`_. + See ``xlat_tables_context.c``. - **Utilities module** Provides additional functionality like debug print of the current state of the translation tables and helpers to query memory attributes and to modify them. - See `xlat_tables_utils.c`_. + See ``xlat_tables_utils.c``. - **Architectural module** @@ -309,7 +309,7 @@ The library is divided into 4 modules: MMU, or calculate the Physical Address Space size. They do not need a translation context to work on. - See `aarch32/xlat_tables_arch.c`_ and `aarch64/xlat_tables_arch.c`_. + See ``aarch32/xlat_tables_arch.c`` and ``aarch64/xlat_tables_arch.c``. From mmap regions to translation tables ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -343,7 +343,7 @@ The mapping function is implemented as a recursive algorithm. It is however bound by the level of depth of the translation tables (the Armv8-A architecture allows up to 4 lookup levels). -By default [#granularity-ref]_, the algorithm will attempt to minimize the +By default [#granularity]_, the algorithm will attempt to minimize the number of translation tables created to satisfy the user's request. It will favour mapping a region using the biggest possible blocks, only creating a sub-table if it is strictly necessary. This is to reduce the memory footprint of @@ -374,9 +374,6 @@ entries in the translation tables are checked to ensure consistency. Please refer to the comments in the source code of the core module for more details about the sorting algorithm in use. -.. [#granularity-ref] That is, when mmap regions do not enforce their mapping - granularity. - TLB maintenance operations ~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -402,20 +399,19 @@ descriptor. Given that the TLBs are not architecturally permitted to hold any invalid translation table entry [#tlb-no-invalid-entry]_, this means that this mapping cannot be cached in the TLBs. -.. [#tlb-reset-ref] See section D4.9 `Translation Lookaside Buffers (TLBs)`, subsection `TLB behavior at reset` in Armv8-A, rev C.a. -.. [#tlb-no-invalid-entry] See section D4.10.1 `General TLB maintenance requirements` in Armv8-A, rev C.a. +.. rubric:: Footnotes + +.. [#granularity] That is, when mmap regions do not enforce their mapping + granularity. + +.. [#tlb-reset-ref] See section D4.9 ``Translation Lookaside Buffers (TLBs)``, + subsection ``TLB behavior at reset`` in Armv8-A, rev C.a. + +.. [#tlb-no-invalid-entry] See section D4.10.1 ``General TLB maintenance + requirements`` in Armv8-A, rev C.a. -------------- -*Copyright (c) 2017-2018, Arm Limited and Contributors. All rights reserved.* - -.. _lib/xlat_tables_v2: ../../lib/xlat_tables_v2 -.. _lib/xlat_tables: ../../lib/xlat_tables -.. _xlat_tables_v2.h: ../../include/lib/xlat_tables/xlat_tables_v2.h -.. _xlat_tables_context.c: ../../lib/xlat_tables_v2/xlat_tables_context.c -.. _xlat_tables_core.c: ../../lib/xlat_tables_v2/xlat_tables_core.c -.. _xlat_tables_utils.c: ../../lib/xlat_tables_v2/xlat_tables_utils.c -.. _aarch32/xlat_tables_arch.c: ../../lib/xlat_tables_v2/aarch32/xlat_tables_arch.c -.. _aarch64/xlat_tables_arch.c: ../../lib/xlat_tables_v2/aarch64/xlat_tables_arch.c -.. _Porting Guide: ../getting_started/porting-guide.rst +*Copyright (c) 2017-2019, Arm Limited and Contributors. All rights reserved.* + .. |Alignment Example| image:: ../resources/diagrams/xlat_align.png diff --git a/docs/contents.rst b/docs/contents.rst deleted file mode 100644 index 4909dabe..00000000 --- a/docs/contents.rst +++ /dev/null @@ -1,165 +0,0 @@ -Trusted Firmware-A Documentation Contents -========================================= - -This document serves as a list of the documentation that is included with the -Trusted Firmware-A source. - -Introduction ------------- - -`About Trusted Firmware-A`_ - -Getting Started ---------------- - -`Frequently-Asked Questions (FAQ)`_ - -`Image Terminology`_ - -`Porting Guide`_ - -`User Guide`_ - -Contributing ------------- - -`Coding Style and Guidelines`_ - -`Contributor Acknowledgements`_ - -`Contributor's Guide`_ - -`License`_ - -`Maintainers`_ - -Processes and Policies ----------------------- - -`Platform Compatibility Policy`_ - -`Release Processes`_ - -Secure Payload Dispatch ------------------------ - -`OP-TEE Dispatcher`_ - -`Trusted Little Kernel (TLK) Dispatcher`_ - -`Trusty Dispatcher`_ - -System Design and Components ----------------------------- - -`Arm CPU Specific Build Macros`_ - -`Arm SiP Services`_ - -`Authentication Framework & Chain of Trust`_ - -`CPU Reset`_ - -`EL3 Runtime Service Writer’s Guide`_ - -`Exception Handling Framework`_ - -`Firmware Design Overview`_ - -`Firmware Update (FWU)`_ - -`Interrupt Management Framework`_ - -`Library at ROM`_ - -`Platform Interrupt Controller API`_ - -`PSCI Library Integration Guide for Armv8-A AArch32 systems`_ - -`PSCI Power Domain Tree design`_ - -`Reliability, Availability, and Serviceability (RAS) Extensions`_ - -`Secure Partition Manager`_ - -`Software Delegated Exception Interface`_ - -`Translation (XLAT) Tables Library`_ - -`Trusted Board Boot Design Guide`_ - -Performance and Testing ------------------------ - -`PSCI Performance Measurements on Arm Juno Development Platform`_ - -Security and Advisories ------------------------ - -`Security Processes`_ - -`TFV-1`_ - -`TFV-2`_ - -`TFV-3`_ - -`TFV-4`_ - -`TFV-5`_ - -`TFV-6`_ - -`TFV-7`_ - -`TFV-8`_ - -Other Documents ---------------- - -`Change Log`_ - -.. _About Trusted Firmware-A: ../readme.rst -.. _Frequently-Asked Questions (FAQ): ./process/faq.rst -.. _Image Terminology: ./getting_started/image-terminology.rst -.. _Porting Guide: ./getting_started/porting-guide.rst -.. _User Guide: ./getting_started/user-guide.rst -.. _Coding Style and Guidelines: ./process/coding-guidelines.rst -.. _Contributor Acknowledgements: ./acknowledgements.rst -.. _`Contributor's Guide`: ./process/contributing.rst -.. _License: ../license.rst -.. _Maintainers: ./maintainers.rst -.. _Platform Compatibility Policy: ./process/platform-compatibility-policy.rst -.. _Release Processes: ./process/release-information.rst -.. _Arm SiP Services: ./components/arm-sip-service.rst -.. _Exception Handling Framework: ./components/exception-handling.rst -.. _Firmware Update (FWU): ./components/firmware-update.rst -.. _Interrupt Management Framework: ./design/interrupt-framework-design.rst -.. _Library at ROM: ./components/romlib-design.rst -.. _Platform Interrupt Controller API: ./components/platform-interrupt-controller-API.rst -.. _`Reliability, Availability, and Serviceability (RAS) Extensions`: ./components/ras.rst -.. _Secure Partition Manager: ./components/secure-partition-manager-design.rst -.. _Software Delegated Exception Interface: ./components/sdei.rst -.. _Translation (XLAT) Tables Library: ./components/xlat-tables-lib-v2-design.rst -.. _OP-TEE Dispatcher: ./components/spd/optee-dispatcher.rst -.. _Trusted Little Kernel (TLK) Dispatcher: ./components/spd/tlk-dispatcher.rst -.. _Trusty Dispatcher: ./components/spd/trusty-dispatcher.rst -.. _Arm CPU Specific Build Macros: ./design/cpu-specific-build-macros.rst -.. _`Authentication Framework & Chain of Trust`: ./design/auth-framework.rst -.. _CPU Reset: ./design/reset-design.rst -.. _`EL3 Runtime Service Writer’s Guide`: ./getting_started/rt-svc-writers-guide.rst -.. _Firmware Design Overview: ./design/firmware-design.rst -.. _PSCI Library Integration Guide for Armv8-A AArch32 systems: ./getting_started/psci-lib-integration-guide.rst -.. _PSCI Power Domain Tree design: ./design/psci-pd-tree.rst -.. _Trusted Board Boot Design Guide: ./design/trusted-board-boot.rst -.. _PSCI Performance Measurements on Arm Juno Development Platform: ./perf/psci-performance-juno.rst -.. _Security Processes: ./process/security.rst -.. _Change Log: ./change-log.rst -.. _TFV-1: ./security_advisories/security-advisory-tfv-1.rst -.. _TFV-2: ./security_advisories/security-advisory-tfv-2.rst -.. _TFV-3: ./security_advisories/security-advisory-tfv-3.rst -.. _TFV-4: ./security_advisories/security-advisory-tfv-4.rst -.. _TFV-5: ./security_advisories/security-advisory-tfv-5.rst -.. _TFV-6: ./security_advisories/security-advisory-tfv-6.rst -.. _TFV-7: ./security_advisories/security-advisory-tfv-7.rst -.. _TFV-8: ./security_advisories/security-advisory-tfv-8.rst diff --git a/docs/design/auth-framework.rst b/docs/design/auth-framework.rst index 7de8ee1e..93f691b7 100644 --- a/docs/design/auth-framework.rst +++ b/docs/design/auth-framework.rst @@ -637,9 +637,9 @@ all CoTs must present: The TBBR specifies the additional certificates that must accompany these images for a proper authentication. Details about the TBBR CoT may be found in the -`Trusted Board Boot`_ document. +:ref:`Trusted Board Boot` document. -Following the `Platform Porting Guide`_, a platform must provide unique +Following the :ref:`Porting Guide`, a platform must provide unique identifiers for all the images and certificates that will be loaded during the boot process. If a platform is using the TBBR as a reference for trusted boot, these identifiers can be obtained from ``include/common/tbbr/tbbr_img_def.h``. @@ -967,6 +967,4 @@ The mbedTLS library algorithm support is configured by both the *Copyright (c) 2017-2019, Arm Limited and Contributors. All rights reserved.* -.. _Trusted Board Boot: ./trusted-board-boot.rst -.. _Platform Porting Guide: ../getting_started/porting-guide.rst .. _TBBR-Client specification: https://developer.arm.com/docs/den0006/latest/trusted-board-boot-requirements-client-tbbr-client-armv8-a diff --git a/docs/design/cpu-specific-build-macros.rst b/docs/design/cpu-specific-build-macros.rst index a392eea2..891703bf 100644 --- a/docs/design/cpu-specific-build-macros.rst +++ b/docs/design/cpu-specific-build-macros.rst @@ -29,6 +29,8 @@ vulnerability workarounds should be applied at runtime. platform contains at least 1 CPU that requires dynamic mitigation. Defaults to 0. +.. _arm_cpu_macros_errata_workarounds: + CPU Errata Workarounds ---------------------- @@ -47,9 +49,8 @@ errata notice document. The format of the define used to enable/disable the errata workaround is ``ERRATA__``, where the ``Processor name`` is for example ``A57`` for the ``Cortex_A57`` CPU. -Refer to the section *CPU errata status reporting* in -`Firmware Design guide`_ for information on how to write errata workaround -functions. +Refer to :ref:`firmware_design_cpu_errata_reporting` for information on how to +write errata workaround functions. All workarounds are disabled by default. The platform is responsible for enabling these workarounds according to its requirement by defining the @@ -326,6 +327,5 @@ architecture that can be enabled by the platform as desired. .. _Cortex-A53 MPCore Software Developers Errata Notice: http://infocenter.arm.com/help/topic/com.arm.doc.epm048406/index.html .. _Cortex-A57 MPCore Software Developers Errata Notice: http://infocenter.arm.com/help/topic/com.arm.doc.epm049219/index.html .. _Cortex-A72 MPCore Software Developers Errata Notice: http://infocenter.arm.com/help/topic/com.arm.doc.epm012079/index.html -.. _Firmware Design guide: firmware-design.rst .. _Cortex-A57 Software Optimization Guide: http://infocenter.arm.com/help/topic/com.arm.doc.uan0015b/Cortex_A57_Software_Optimization_Guide_external.pdf .. _Arm DSU Software Developers Errata Notice: http://infocenter.arm.com/help/topic/com.arm.doc.epm138168/index.html diff --git a/docs/design/firmware-design.rst b/docs/design/firmware-design.rst index 2cbd9c94..1deacb7f 100644 --- a/docs/design/firmware-design.rst +++ b/docs/design/firmware-design.rst @@ -2,24 +2,27 @@ Firmware Design =============== Trusted Firmware-A (TF-A) implements a subset of the Trusted Board Boot -Requirements (TBBR) Platform Design Document (PDD) [1]_ for Arm reference -platforms. The TBB sequence starts when the platform is powered on and runs up +Requirements (TBBR) Platform Design Document (PDD) for Arm reference +platforms. + +The TBB sequence starts when the platform is powered on and runs up to the stage where it hands-off control to firmware running in the normal world in DRAM. This is the cold boot path. -TF-A also implements the Power State Coordination Interface PDD [2]_ as a +TF-A also implements the `Power State Coordination Interface PDD`_ as a runtime service. PSCI is the interface from normal world software to firmware implementing power management use-cases (for example, secondary CPU boot, hotplug and idle). Normal world software can access TF-A runtime services via the Arm SMC (Secure Monitor Call) instruction. The SMC instruction must be -used as mandated by the SMC Calling Convention [3]_. +used as mandated by the SMC Calling Convention (`SMCCC`_). TF-A implements a framework for configuring and managing interrupts generated in either security state. The details of the interrupt management framework -and its design can be found in TF-A Interrupt Management Design guide [4]_. +and its design can be found in :ref:`Interrupt Management Framework`. TF-A also implements a library for setting up and managing the translation -tables. The details of this library can be found in `Translation tables design`_. +tables. The details of this library can be found in +:ref:`Translation (XLAT) Tables Library`. TF-A can be built to support either AArch64 or AArch32 execution state. @@ -34,7 +37,7 @@ executed by the primary CPU, other than essential CPU initialization executed by all CPUs. The secondary CPUs are kept in a safe platform-specific state until the primary CPU has performed enough initialization to boot them. -Refer to the `Reset Design`_ for more information on the effect of the +Refer to the :ref:`CPU Reset` for more information on the effect of the ``COLD_BOOT_SINGLE_CPU`` platform build option. The cold boot path in this implementation of TF-A depends on the execution @@ -136,15 +139,15 @@ Determination of boot path Whenever a CPU is released from reset, BL1 needs to distinguish between a warm boot and a cold boot. This is done using platform-specific mechanisms (see the -``plat_get_my_entrypoint()`` function in the `Porting Guide`_). In the case of a -warm boot, a CPU is expected to continue execution from a separate +``plat_get_my_entrypoint()`` function in the :ref:`Porting Guide`). In the case +of a warm boot, a CPU is expected to continue execution from a separate entrypoint. In the case of a cold boot, the secondary CPUs are placed in a safe platform-specific state (see the ``plat_secondary_cold_boot_setup()`` function in -the `Porting Guide`_) while the primary CPU executes the remaining cold boot path -as described in the following sections. +the :ref:`Porting Guide`) while the primary CPU executes the remaining cold boot +path as described in the following sections. This step only applies when ``PROGRAMMABLE_RESET_ADDRESS=0``. Refer to the -`Reset Design`_ for more information on the effect of the +:ref:`CPU Reset` for more information on the effect of the ``PROGRAMMABLE_RESET_ADDRESS`` platform build option. Architectural initialization @@ -157,8 +160,8 @@ BL1 performs minimal architectural initialization as follows. BL1 sets up simple exception vectors for both synchronous and asynchronous exceptions. The default behavior upon receiving an exception is to populate a status code in the general purpose register ``X0/R0`` and call the - ``plat_report_exception()`` function (see the `Porting Guide`_). The status - code is one of: + ``plat_report_exception()`` function (see the :ref:`Porting Guide`). The + status code is one of: For AArch64: @@ -217,7 +220,7 @@ BL1 performs minimal architectural initialization as follows. - ``BL1_SMC_RUN_IMAGE``: This SMC is raised by BL2 to make BL1 pass control to EL3 Runtime Software. - - All SMCs listed in section "BL1 SMC Interface" in the `Firmware Update`_ + - All SMCs listed in section "BL1 SMC Interface" in the :ref:`Firmware Update (FWU)` Design Guide are supported for AArch64 only. These SMCs are currently not supported when BL1 is built for AArch32. @@ -307,14 +310,15 @@ Firmware Update detection and execution ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ After performing platform setup, BL1 common code calls -``bl1_plat_get_next_image_id()`` to determine if `Firmware Update`_ is required or -to proceed with the normal boot process. If the platform code returns -``BL2_IMAGE_ID`` then the normal boot sequence is executed as described in the -next section, else BL1 assumes that `Firmware Update`_ is required and execution -passes to the first image in the `Firmware Update`_ process. In either case, BL1 -retrieves a descriptor of the next image by calling ``bl1_plat_get_image_desc()``. -The image descriptor contains an ``entry_point_info_t`` structure, which BL1 -uses to initialize the execution state of the next image. +``bl1_plat_get_next_image_id()`` to determine if :ref:`Firmware Update (FWU)` is +required or to proceed with the normal boot process. If the platform code +returns ``BL2_IMAGE_ID`` then the normal boot sequence is executed as described +in the next section, else BL1 assumes that :ref:`Firmware Update (FWU)` is +required and execution passes to the first image in the +:ref:`Firmware Update (FWU)` process. In either case, BL1 retrieves a descriptor +of the next image by calling ``bl1_plat_get_image_desc()``. The image descriptor +contains an ``entry_point_info_t`` structure, which BL1 uses to initialize the +execution state of the next image. BL2 image load and execution ^^^^^^^^^^^^^^^^^^^^^^^^^^^^ @@ -440,7 +444,8 @@ initialization is complete. Hence, BL2 populates a platform-specific area of memory with the entrypoint and Saved Program Status Register (``SPSR``) of the normal world software image. The entrypoint is the load address of the BL33 image. The ``SPSR`` is determined as specified in Section 5.13 of the -`PSCI PDD`_. This information is passed to the EL3 Runtime Software. +`Power State Coordination Interface PDD`_. This information is passed to the +EL3 Runtime Software. AArch64 BL31 (EL3 Runtime Software) execution ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ @@ -539,7 +544,7 @@ It then replaces the exception vectors populated by BL1 with its own. BL31 exception vectors implement more elaborate support for handling SMCs since this is the only mechanism to access the runtime services implemented by BL31 (PSCI for example). BL31 checks each SMC for validity as specified by the -`SMC calling convention PDD`_ before passing control to the required SMC +`SMC Calling Convention PDD`_ before passing control to the required SMC handler routine. BL31 programs the ``CNTFRQ_EL0`` register with the clock frequency of the system @@ -812,7 +817,8 @@ data access and all interrupt sources masked: The warm boot entrypoint may be implemented by using TF-A ``psci_warmboot_entrypoint()`` function. In that case, the platform must fulfil -the pre-requisites mentioned in the `PSCI Library integration guide`_. +the pre-requisites mentioned in the +:ref:`PSCI Library Integration guide for Armv8-A AArch32 systems`. EL3 runtime services framework ------------------------------ @@ -1051,7 +1057,9 @@ hooks to be registered with the generic PSCI code to be supported. The PSCI implementation in TF-A is a library which can be integrated with AArch64 or AArch32 EL3 Runtime Software for Armv8-A systems. A guide to integrating PSCI library with AArch32 EL3 Runtime Software can be found -`here`_. +at :ref:`PSCI Library Integration guide for Armv8-A AArch32 systems`. + +.. _firmware_design_sel1_spd: Secure-EL1 Payloads and Dispatchers ----------------------------------- @@ -1258,7 +1266,7 @@ handling functions. Details for implementing a CPU specific reset handler can be found in Section 8. Details for implementing a platform specific reset handler can be -found in the `Porting Guide`_ (see the ``plat_reset_handler()`` function). +found in the :ref:`Porting Guide` (see the ``plat_reset_handler()`` function). When adding functionality to a reset handler, keep in mind that if a different reset handling behavior is required between the first and the subsequent @@ -1292,6 +1300,8 @@ by the macro ``INTR_PROP_DESC()``. The macro takes the following arguments: - Interrupt configuration (either ``GIC_INTR_CFG_LEVEL`` or ``GIC_INTR_CFG_EDGE``). +.. _firmware_design_cpu_ops_fwk: + CPU specific operations framework --------------------------------- @@ -1333,7 +1343,7 @@ different CPUs during power down and reset handling. The platform can specify any CPU optimization it wants to enable for each CPU. It can also specify the CPU errata workarounds to be applied for each CPU type during reset handling by defining CPU errata compile time macros. Details on these macros -can be found in `CPU specific build macros`_. +can be found in the :ref:`Arm CPU Specific Build Macros` document. The CPU specific operations framework depends on the ``cpu_ops`` structure which needs to be exported for each type of CPU in the platform. It is defined in @@ -1399,6 +1409,8 @@ reporting framework calls ``do_cpu_reg_dump`` which retrieves the matching be reported and a pointer to the ASCII list of register names in a format expected by the crash reporting framework. +.. _firmware_design_cpu_errata_reporting: + CPU errata status reporting ~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -1408,8 +1420,8 @@ build options. Some errata workarounds have potential run-time implications; therefore some are enabled by default, others not. Platform ports shall override build options to enable or disable errata as appropriate. The CPU drivers take care of applying errata workarounds that are enabled and applicable -to a given CPU. Refer to the section titled *CPU Errata Workarounds* in `CPUBM`_ -for more information. +to a given CPU. Refer to :ref:`arm_cpu_macros_errata_workarounds` for more +information. Functions in CPU drivers that apply errata workaround must follow the conventions listed below. @@ -1866,7 +1878,7 @@ BL image during boot. Library at ROM --------------- -Please refer to the `ROMLIB Design`_ document. +Please refer to the :ref:`Library at ROM` document. Firmware Image Package (FIP) ---------------------------- @@ -1978,11 +1990,11 @@ is the smallest possible size of the coherent memory region. By default, all data structures which are susceptible to accesses with mismatched attributes from various CPUs are allocated in a coherent memory -region (refer to section 2.1 of `Porting Guide`_). The coherent memory region -accesses are Outer Shareable, non-cacheable and they can be accessed -with the Device nGnRE attributes when the MMU is turned on. Hence, at the -expense of at least an extra page of memory, TF-A is able to work around -coherency issues due to mismatched memory attributes. +region (refer to section 2.1 of :ref:`Porting Guide`). The coherent memory +region accesses are Outer Shareable, non-cacheable and they can be accessed with +the Device nGnRE attributes when the MMU is turned on. Hence, at the expense of +at least an extra page of memory, TF-A is able to work around coherency issues +due to mismatched memory attributes. The alternative to the above approach is to allocate the susceptible data structures in Normal WriteBack WriteAllocate Inner shareable memory. This @@ -2188,7 +2200,7 @@ As mentioned earlier, almost a page of memory can be saved by disabling whether coherent memory should be used. If a platform disables ``USE_COHERENT_MEM`` and needs to use bakery locks in the porting layer, it can optionally define macro ``PLAT_PERCPU_BAKERY_LOCK_SIZE`` (see the -`Porting Guide`_). Refer to the reference platform code for examples. +:ref:`Porting Guide`). Refer to the reference platform code for examples. Isolating code and read-only data on separate memory pages ---------------------------------------------------------- @@ -2381,6 +2393,8 @@ are changed within the ``bl31_plat_runtime_setup`` platform hook. The init section section can be reclaimed for any data which is accessed after cold boot initialization and it is upto the platform to make the decision. +.. _firmware_design_pmf: + Performance Measurement Framework --------------------------------- @@ -2529,7 +2543,7 @@ Architecture Extension-specific code is included in the build. Otherwise, TF-A targets the base Armv8.0-A architecture; i.e. as if ``ARM_ARCH_MAJOR`` == 8 and ``ARM_ARCH_MINOR`` == 0, which are also their respective default values. -See also the *Summary of build options* in `User Guide`_. +See also the *Summary of build options* in :ref:`User Guide`. For details on the Architecture Extension and available features, please refer to the respective Architecture Extension Supplement. @@ -2668,37 +2682,26 @@ linker scripts which have the extension ``.ld``. FDTs provide a description of the hardware platform and are used by the Linux kernel at boot time. These can be found in the ``fdts`` directory. -References ----------- +.. rubric:: References -.. [#] `Trusted Board Boot Requirements CLIENT (TBBR-CLIENT) Armv8-A (ARM DEN0006D)`_ -.. [#] `Power State Coordination Interface PDD`_ -.. [#] `SMC Calling Convention PDD`_ -.. [#] `TF-A Interrupt Management Design guide`_. +- `Trusted Board Boot Requirements CLIENT (TBBR-CLIENT) Armv8-A (ARM DEN0006D)`_ + +- `Power State Coordination Interface PDD`_ + +- `SMC Calling Convention PDD`_ + +- :ref:`Interrupt Management Framework` -------------- *Copyright (c) 2013-2019, Arm Limited and Contributors. All rights reserved.* -.. _Reset Design: ./reset-design.rst -.. _Porting Guide: ../getting_started/porting-guide.rst -.. _Firmware Update: ../components/firmware-update.rst -.. _PSCI PDD: http://infocenter.arm.com/help/topic/com.arm.doc.den0022d/Power_State_Coordination_Interface_PDD_v1_1_DEN0022D.pdf -.. _SMC calling convention PDD: http://infocenter.arm.com/help/topic/com.arm.doc.den0028b/ARM_DEN0028B_SMC_Calling_Convention.pdf -.. _PSCI Library integration guide: ../getting_started/psci-lib-integration-guide.rst +.. _Power State Coordination Interface PDD: http://infocenter.arm.com/help/topic/com.arm.doc.den0022d/Power_State_Coordination_Interface_PDD_v1_1_DEN0022D.pdf .. _SMCCC: http://infocenter.arm.com/help/topic/com.arm.doc.den0028b/ARM_DEN0028B_SMC_Calling_Convention.pdf .. _PSCI: http://infocenter.arm.com/help/topic/com.arm.doc.den0022d/Power_State_Coordination_Interface_PDD_v1_1_DEN0022D.pdf .. _Power State Coordination Interface PDD: http://infocenter.arm.com/help/topic/com.arm.doc.den0022d/Power_State_Coordination_Interface_PDD_v1_1_DEN0022D.pdf -.. _here: ../getting_started/psci-lib-integration-guide.rst -.. _CPU specific build macros: ./cpu-specific-build-macros.rst -.. _CPUBM: ./cpu-specific-build-macros.rst .. _Arm ARM: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0487a.e/index.html -.. _User Guide: ../getting_started/user-guide.rst .. _SMC Calling Convention PDD: http://infocenter.arm.com/help/topic/com.arm.doc.den0028b/ARM_DEN0028B_SMC_Calling_Convention.pdf -.. _TF-A Interrupt Management Design guide: ./interrupt-framework-design.rst -.. _Translation tables design: ../components/xlat-tables-lib-v2-design.rst -.. _Exception Handling Framework: ../components/exception-handling.rst -.. _ROMLIB Design: ../components/romlib-design.rst .. _Trusted Board Boot Requirements CLIENT (TBBR-CLIENT) Armv8-A (ARM DEN0006D): https://developer.arm.com/docs/den0006/latest/trusted-board-boot-requirements-client-tbbr-client-armv8-a .. |Image 1| image:: ../resources/diagrams/rt-svc-descs-layout.png diff --git a/docs/design/interrupt-framework-design.rst b/docs/design/interrupt-framework-design.rst index 4a864f9c..d155cb35 100644 --- a/docs/design/interrupt-framework-design.rst +++ b/docs/design/interrupt-framework-design.rst @@ -177,10 +177,10 @@ uses this information to determine whether the IRQ or the FIQ bit should be programmed in ``SCR_EL3`` while applying the routing model for a type of interrupt. The platform provides this information through the ``plat_interrupt_type_to_line()`` API (described in the -`Porting Guide`_). For example, on the FVP port when the platform uses an Arm GICv2 -interrupt controller, Secure-EL1 interrupts are signaled through the FIQ signal -while Non-secure interrupts are signaled through the IRQ signal. This applies -when execution is in either security state. +:ref:`Porting Guide`). For example, on the FVP port when the platform uses an +Arm GICv2 interrupt controller, Secure-EL1 interrupts are signaled through the +FIQ signal while Non-secure interrupts are signaled through the IRQ signal. +This applies when execution is in either security state. Effect of mapping of several interrupt types to one signal ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ @@ -255,7 +255,7 @@ is expected to be aware of the secure devices present in the system and their associated interrupt numbers. It should configure the interrupt controller to enable the secure interrupts, ensure that their priority is always higher than the non-secure interrupts and target them to the primary CPU. It should also -export the interface described in the `Porting Guide`_ to enable +export the interface described in the :ref:`Porting Guide` to enable handling of interrupts. In the remainder of this document, for the sake of simplicity a Arm GICv2 system @@ -1013,7 +1013,6 @@ TSP by returning ``SMC_UNK`` error. *Copyright (c) 2014-2019, Arm Limited and Contributors. All rights reserved.* -.. _Porting Guide: ../getting_started/porting-guide.rst .. _SMC calling convention: http://infocenter.arm.com/help/topic/com.arm.doc.den0028a/index.html .. |Image 1| image:: ../resources/diagrams/sec-int-handling.png diff --git a/docs/design/reset-design.rst b/docs/design/reset-design.rst index ccd717a0..a92ceeba 100644 --- a/docs/design/reset-design.rst +++ b/docs/design/reset-design.rst @@ -6,9 +6,9 @@ resets in Trusted Firmware-A (TF-A). It also describes how the platform integrator can tailor this code to the system configuration to some extent, resulting in a simplified and more optimised boot flow. -This document should be used in conjunction with the `Firmware Design`_, which -provides greater implementation details around the reset code, specifically -for the cold boot path. +This document should be used in conjunction with the :ref:`Firmware Design` +document which provides greater implementation details around the reset code, +specifically for the cold boot path. General reset code flow ----------------------- @@ -109,11 +109,14 @@ images might be done by the Trusted Boot Firmware or by platform code in BL31. Although the Arm FVP platform does not support programming the reset base address dynamically at run-time, it is possible to set the initial value of the -``RVBAR_EL3`` register at start-up. This feature is provided on the Base FVP only. +``RVBAR_EL3`` register at start-up. This feature is provided on the Base FVP +only. + It allows the Arm FVP port to support the ``RESET_TO_BL31`` configuration, in which case the ``bl31.bin`` image must be loaded to its run address in Trusted SRAM and all CPU reset vectors be changed from the default ``0x0`` to this run -address. See the `User Guide`_ for details of running the FVP models in this way. +address. See the :ref:`User Guide` for details of running the FVP models in this +way. Although technically it would be possible to program the reset base address with the right support in the SCP firmware, this is currently not implemented so the @@ -150,10 +153,7 @@ This might be done by the Trusted Boot Firmware or by platform code in BL31. -------------- -*Copyright (c) 2015-2018, Arm Limited and Contributors. All rights reserved.* - -.. _Firmware Design: firmware-design.rst -.. _User Guide: ../getting_started/user-guide.rst +*Copyright (c) 2015-2019, Arm Limited and Contributors. All rights reserved.* .. |Default reset code flow| image:: ../resources/diagrams/default_reset_code.png .. |Reset code flow with programmable reset address| image:: ../resources/diagrams/reset_code_no_boot_type_check.png diff --git a/docs/design/trusted-board-boot.rst b/docs/design/trusted-board-boot.rst index 82be272b..f3b1c364 100644 --- a/docs/design/trusted-board-boot.rst +++ b/docs/design/trusted-board-boot.rst @@ -8,8 +8,9 @@ Public-Key-Cryptography Standards (PKCS). This document describes the design of Trusted Firmware-A (TF-A) TBB, which is an implementation of the `Trusted Board Boot Requirements (TBBR)`_ specification, -Arm DEN0006D. It should be used in conjunction with the `Firmware Update`_ -design document, which implements a specific aspect of the TBBR. +Arm DEN0006D. It should be used in conjunction with the +:ref:`Firmware Update (FWU)` design document, which implements a specific aspect +of the TBBR. Chain of Trust -------------- @@ -186,7 +187,8 @@ The next step is executed for all the boot loader images. The Trusted Board Boot implementation spans both generic and platform-specific BL1 and BL2 code, and in tool code on the host build machine. The feature is -enabled through use of specific build flags as described in the `User Guide`_. +enabled through use of specific build flags as described in the +:ref:`User Guide`. On the host machine, a tool generates the certificates, which are included in the FIP along with the boot loader images. These certificates are loaded in @@ -201,10 +203,11 @@ Authentication Framework The authentication framework included in TF-A provides support to implement the desired trusted boot sequence. Arm platforms use this framework to -implement the boot requirements specified in the `TBBR-client`_ document. +implement the boot requirements specified in the +`Trusted Board Boot Requirements (TBBR)`_ document. More information about the authentication framework can be found in the -`Auth Framework`_ document. +:ref:`Authentication Framework & Chain of Trust` document. Certificate Generation Tool --------------------------- @@ -221,15 +224,11 @@ directory. The tool resides in the ``tools/cert_create`` directory. It uses OpenSSL SSL library version 1.0.1 or later to generate the X.509 certificates. Instructions -for building and using the tool can be found in the `User Guide`_. +for building and using the tool can be found in the :ref:`User Guide`. -------------- *Copyright (c) 2015-2019, Arm Limited and Contributors. All rights reserved.* -.. _Firmware Update: ../components/firmware-update.rst .. _X.509 v3: https://tools.ietf.org/rfc/rfc5280.txt -.. _User Guide: ../getting_started/user-guide.rst -.. _Auth Framework: auth-framework.rst -.. _TBBR-client: https://developer.arm.com/docs/den0006/latest/trusted-board-boot-requirements-client-tbbr-client-armv8-a -.. _Trusted Board Boot Requirements (TBBR): `TBBR-client`_ +.. _Trusted Board Boot Requirements (TBBR): https://developer.arm.com/docs/den0006/latest/trusted-board-boot-requirements-client-tbbr-client-armv8-a diff --git a/docs/getting_started/porting-guide.rst b/docs/getting_started/porting-guide.rst index 9eb7c17e..d7157690 100644 --- a/docs/getting_started/porting-guide.rst +++ b/docs/getting_started/porting-guide.rst @@ -13,20 +13,20 @@ Modifications consist of: - Defining certain constants (for example #defines). The platform-specific functions and variables are declared in -`include/plat/common/platform.h`_. The firmware provides a default implementation -of variables and functions to fulfill the optional requirements. These -implementations are all weakly defined; they are provided to ease the porting -effort. Each platform port can override them with its own implementation if the -default implementation is inadequate. +``include/plat/common/platform.h``. The firmware provides a default +implementation of variables and functions to fulfill the optional requirements. +These implementations are all weakly defined; they are provided to ease the +porting effort. Each platform port can override them with its own implementation +if the default implementation is inadequate. Some modifications are common to all Boot Loader (BL) stages. Section 2 discusses these in detail. The subsequent sections discuss the remaining modifications for each BL stage in detail. -This document should be read in conjunction with the TF-A `User Guide`_. +This document should be read in conjunction with the TF-A :ref:`User Guide`. -Please refer to the `Platform compatibility policy`_ for the policy regarding -compatibility and deprecation of these porting interfaces. +Please refer to the :ref:`Platform Compatibility Policy` for the policy +regarding compatibility and deprecation of these porting interfaces. Only Arm development platforms (such as FVP and Juno) may use the functions/definitions in ``include/plat/arm/common/`` and the corresponding @@ -98,7 +98,7 @@ Each platform must ensure that a header file of this name is in the system include path with the following constants defined. This will require updating the list of ``PLAT_INCLUDES`` in the ``platform.mk`` file. -Platform ports may optionally use the file `include/plat/common/common_def.h`_, +Platform ports may optionally use the file ``include/plat/common/common_def.h``, which provides typical values for some of the constants below. These values are likely to be suitable for all platform ports. @@ -115,8 +115,8 @@ likely to be suitable for all platform ports. - **#define : PLATFORM_STACK_SIZE** Defines the normal stack memory available to each CPU. This constant is used - by `plat/common/aarch64/platform_mp_stack.S`_ and - `plat/common/aarch64/platform_up_stack.S`_. + by ``plat/common/aarch64/platform_mp_stack.S`` and + ``plat/common/aarch64/platform_up_stack.S``. - **define : CACHE_WRITEBACK_GRANULE** @@ -542,7 +542,7 @@ optionally be defined: Maximum number of partition entries required by the platform. This allows control how much memory is allocated for partition entries. The default value is 128. - `For example, define the build flag in platform.mk`_: + For example, define the build flag in ``platform.mk``: PLAT_PARTITION_MAX_ENTRIES := 12 $(eval $(call add_define,PLAT_PARTITION_MAX_ENTRIES)) @@ -828,7 +828,8 @@ runtime environment. This function can clobber x0 - x8 and must preserve x9 - x29. This function plays a crucial role in the power domain topology framework in -PSCI and details of this can be found in `Power Domain Topology Design`_. +PSCI and details of this can be found in +:ref:`PSCI Power Domain Tree Structure`. Function : plat_core_pos_by_mpidr() ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -844,7 +845,7 @@ case the ``MPIDR`` is invalid, this function returns -1. This function will only be invoked by BL31 after the power domain topology is initialized and can utilize the C runtime environment. For further details about how TF-A represents the power domain topology and how this relates to the linear CPU -index, please refer `Power Domain Topology Design`_. +index, please refer :ref:`PSCI Power Domain Tree Structure`. Function : plat_get_mbedtls_heap() [when TRUSTED_BOARD_BOOT == 1] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -895,8 +896,8 @@ of the stack allocated to each CPU is specified by the platform defined constant ``PLATFORM_STACK_SIZE``. Common implementations of this function for the UP and MP BL images are -provided in `plat/common/aarch64/platform_up_stack.S`_ and -`plat/common/aarch64/platform_mp_stack.S`_ +provided in ``plat/common/aarch64/platform_up_stack.S`` and +``plat/common/aarch64/platform_mp_stack.S`` Function : plat_get_my_stack() ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -913,8 +914,8 @@ of the stack allocated to each CPU is specified by the platform defined constant ``PLATFORM_STACK_SIZE``. Common implementations of this function for the UP and MP BL images are -provided in `plat/common/aarch64/platform_up_stack.S`_ and -`plat/common/aarch64/platform_mp_stack.S`_ +provided in ``plat/common/aarch64/platform_up_stack.S`` and +``plat/common/aarch64/platform_mp_stack.S`` Function : plat_report_exception() ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -937,12 +938,12 @@ about the way the platform displays its status information. For AArch64, this function receives the exception type as its argument. Possible values for exceptions types are listed in the -`include/common/bl_common.h`_ header file. Note that these constants are not +``include/common/bl_common.h`` header file. Note that these constants are not related to any architectural exception code; they are just a TF-A convention. For AArch32, this function receives the exception mode as its argument. Possible values for exception modes are listed in the -`include/lib/aarch32/arch.h`_ header file. +``include/lib/aarch32/arch.h`` header file. Function : plat_reset_handler() ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -958,7 +959,7 @@ specific errata workarounds could also be implemented here. The API should preserve the values of callee saved registers x19 to x29. The default implementation doesn't do anything. If a platform needs to override -the default implementation, refer to the `Firmware Design`_ for general +the default implementation, refer to the :ref:`Firmware Design` for general guidelines. Function : plat_disable_acp() @@ -1475,8 +1476,8 @@ Boot Loader Stage 2 (BL2) at EL3 When the platform has a non-TF-A Boot ROM it is desirable to jump directly to BL2 instead of TF-A BL1. In this case BL2 is expected to -execute at EL3 instead of executing at EL1. Refer to the `Firmware -Design`_ for more information. +execute at EL3 instead of executing at EL1. Refer to the :ref:`Firmware Design` +document for more information. All mandatory functions of BL2 must be implemented, except the functions bl2_early_platform_setup and bl2_el3_plat_arch_setup, because @@ -1852,6 +1853,8 @@ calculated by the linker then a link time assertion is raised. A compile time assertion is raised if the value of the constant is not aligned to the cache line boundary. +.. _porting_guide_sdei_requirements: + SDEI porting requirements ~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -1936,7 +1939,7 @@ example, a CPU) is at level 0. If the *power domain* node above a CPU is a logical grouping of CPUs that share some state, then level 1 is that group of CPUs (for example, a cluster), and level 2 is a group of clusters (for example, the system). More details on the power domain topology and its -organization can be found in `Power Domain Topology Design`_. +organization can be found in :ref:`PSCI Power Domain Tree Structure`. BL31's platform initialization code exports a pointer to the platform-specific power management operations required for the PSCI implementation to function @@ -2048,13 +2051,13 @@ Function : plat_get_power_domain_tree_desc() [mandatory] This function returns a pointer to the byte array containing the power domain topology tree description. The format and method to construct this array are -described in `Power Domain Topology Design`_. The BL31 PSCI initialization code -requires this array to be described by the platform, either statically or -dynamically, to initialize the power domain topology tree. In case the array -is populated dynamically, then plat_core_pos_by_mpidr() and -plat_my_core_pos() should also be implemented suitably so that the topology -tree description matches the CPU indices returned by these APIs. These APIs -together form the platform interface for the PSCI topology framework. +described in :ref:`PSCI Power Domain Tree Structure`. The BL31 PSCI +initialization code requires this array to be described by the platform, either +statically or dynamically, to initialize the power domain topology tree. In case +the array is populated dynamically, then plat_core_pos_by_mpidr() and +plat_my_core_pos() should also be implemented suitably so that the topology tree +description matches the CPU indices returned by these APIs. These APIs together +form the platform interface for the PSCI topology framework. Function : plat_setup_psci_ops() [mandatory] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @@ -2076,10 +2079,10 @@ pointer with a pointer to BL31's private ``plat_psci_ops`` structure. A description of each member of this structure is given below. Please refer to the Arm FVP specific implementation of these handlers in -`plat/arm/board/fvp/fvp_pm.c`_ as an example. For each PSCI function that the +``plat/arm/board/fvp/fvp_pm.c`` as an example. For each PSCI function that the platform wants to support, the associated operation or operations in this structure must be provided and implemented (Refer section 4 of -`Firmware Design`_ for the PSCI API supported in TF-A). To disable a PSCI +:ref:`Firmware Design` for the PSCI API supported in TF-A). To disable a PSCI function in a platform port, the operation should be removed from this structure instead of providing an empty implementation. @@ -2367,13 +2370,15 @@ region defined by a base address ``base`` and with a size of ``length`` bytes is protected by ``MEM_PROTECT``. If the region is protected then it must return 0, otherwise it must return a negative number. +.. _porting_guide_imf_in_bl31: + Interrupt Management framework (in BL31) ---------------------------------------- BL31 implements an Interrupt Management Framework (IMF) to manage interrupts generated in either security state and targeted to EL1 or EL2 in the non-secure state or EL3/S-EL1 in the secure state. The design of this framework is -described in the `IMF Design Guide`_ +described in the :ref:`Interrupt Management Framework` A platform should export the following APIs to support the IMF. The following text briefly describes each API and its implementation in Arm standard @@ -2383,7 +2388,7 @@ present in the platform. Arm standard platform layer supports both and `3.0 (GICv3)`_. Juno builds the Arm platform layer to use GICv2 and the FVP can be configured to use either GICv2 or GICv3 depending on the build flag ``FVP_USE_GIC_DRIVER`` (See FVP platform specific build options in -`User Guide`_ for more details). +:ref:`User Guide` for more details). See also: `Interrupt Controller Abstraction APIs`__. @@ -2405,10 +2410,10 @@ the platform IC uses to signal each type of interrupt supported by the framework from a given security state. This API must be invoked at EL3. The first parameter will be one of the ``INTR_TYPE_*`` values (see -`IMF Design Guide`_) indicating the target type of the interrupt, the second parameter is the -security state of the originating execution context. The return result is the -bit position in the ``SCR_EL3`` register of the respective interrupt trap: IRQ=1, -FIQ=2. +:ref:`Interrupt Management Framework`) indicating the target type of the +interrupt, the second parameter is the security state of the originating +execution context. The return result is the bit position in the ``SCR_EL3`` +register of the respective interrupt trap: IRQ=1, FIQ=2. In the case of Arm standard platforms using GICv2, S-EL1 interrupts are configured as FIQs and Non-secure interrupts as IRQs from either security @@ -2792,7 +2797,7 @@ storage access is only required by BL1 and BL2 phases and performed inside the It is mandatory to implement at least one storage driver. For the Arm development platforms the Firmware Image Package (FIP) driver is provided as the default means to load data from storage (see the "Firmware Image Package" -section in the `User Guide`_). The storage layer is described in the header file +section in the :ref:`User Guide`). The storage layer is described in the header file ``include/drivers/io/io_storage.h``. The implementation of the common library is in ``drivers/io/io_storage.c`` and the driver files are located in ``drivers/io/``. @@ -2843,22 +2848,7 @@ amount of open resources per driver. *Copyright (c) 2013-2019, Arm Limited and Contributors. All rights reserved.* -.. _include/plat/common/platform.h: ../include/plat/common/platform.h -.. _include/plat/arm/common/plat_arm.h: ../include/plat/arm/common/plat_arm.h%5D -.. _User Guide: user-guide.rst -.. _include/plat/common/common_def.h: ../include/plat/common/common_def.h -.. _include/plat/arm/common/arm_def.h: ../include/plat/arm/common/arm_def.h -.. _plat/common/aarch64/platform_mp_stack.S: ../plat/common/aarch64/platform_mp_stack.S -.. _plat/common/aarch64/platform_up_stack.S: ../plat/common/aarch64/platform_up_stack.S -.. _For example, define the build flag in platform.mk: PLAT_PL061_MAX_GPIOS%20:=%20160 -.. _Power Domain Topology Design: ../design/psci-pd-tree.rst -.. _include/common/bl_common.h: ../include/common/bl_common.h -.. _include/lib/aarch32/arch.h: ../include/lib/aarch32/arch.h -.. _Firmware Design: ../design/firmware-design.rst .. _PSCI: http://infocenter.arm.com/help/topic/com.arm.doc.den0022c/DEN0022C_Power_State_Coordination_Interface.pdf -.. _plat/arm/board/fvp/fvp_pm.c: ../plat/arm/board/fvp/fvp_pm.c -.. _Platform compatibility policy: ../process/platform-compatibility-policy.rst -.. _IMF Design Guide: ../design/interrupt-framework-design.rst .. _Arm Generic Interrupt Controller version 2.0 (GICv2): http://infocenter.arm.com/help/topic/com.arm.doc.ihi0048b/index.html .. _3.0 (GICv3): http://infocenter.arm.com/help/topic/com.arm.doc.ihi0069b/index.html .. _FreeBSD: https://www.freebsd.org diff --git a/docs/getting_started/psci-lib-integration-guide.rst b/docs/getting_started/psci-lib-integration-guide.rst index 25936d90..1351fff0 100644 --- a/docs/getting_started/psci-lib-integration-guide.rst +++ b/docs/getting_started/psci-lib-integration-guide.rst @@ -437,13 +437,13 @@ The mandatory platform macros are: - PLAT_MAX_PWR_LVL_STATES (optional) - PLAT_PCPU_DATA_SIZE (optional) -The details of these APIs/macros can be found in `Porting Guide`_. +The details of these APIs/macros can be found in the :ref:`Porting Guide`. All platform specific operations for power management are done via ``plat_psci_ops_t`` callbacks registered by the platform when ``plat_setup_psci_ops()`` API is called. The description of each of the callbacks in ``plat_psci_ops_t`` can be found in PSCI section of the -`Porting Guide`_. If any these callbacks are not registered, then the +:ref:`Porting Guide`. If any these callbacks are not registered, then the PSCI API associated with that callback will not be supported by PSCI library. @@ -524,12 +524,12 @@ CPU operations ~~~~~~~~~~~~~~ The CPU operations (cpu_ops) framework implement power down sequence specific -to the CPU and the details of which can be found in the -``CPU specific operations framework`` section of `Firmware Design`_. The TF-A -tree implements the ``cpu_ops`` for various supported CPUs and the EL3 Runtime -Software needs to include the required ``cpu_ops`` in its build. The start and -end of the ``cpu_ops`` descriptors must be exported by the EL3 Runtime Software -via the ``__CPU_OPS_START__`` and ``__CPU_OPS_END__`` linker symbols. +to the CPU and the details of which can be found at +:ref:`firmware_design_cpu_ops_fwk`. The TF-A tree implements the ``cpu_ops`` +for various supported CPUs and the EL3 Runtime Software needs to include the +required ``cpu_ops`` in its build. The start and end of the ``cpu_ops`` +descriptors must be exported by the EL3 Runtime Software via the +``__CPU_OPS_START__`` and ``__CPU_OPS_END__`` linker symbols. The ``cpu_ops`` descriptors also include reset sequences and may include errata workarounds for the CPU. The EL3 Runtime Software can choose to call this @@ -538,11 +538,9 @@ workarounds. -------------- -*Copyright (c) 2016-2018, Arm Limited and Contributors. All rights reserved.* +*Copyright (c) 2016-2019, Arm Limited and Contributors. All rights reserved.* .. _PSCI spec: http://infocenter.arm.com/help/topic/com.arm.doc.den0022c/DEN0022C_Power_State_Coordination_Interface.pdf .. _SMCCC: https://silver.arm.com/download/ARM_and_AMBA_Architecture/AR570-DA-80002-r0p0-00rel0/ARM_DEN0028A_SMC_Calling_Convention.pdf .. _PSCI specification: http://infocenter.arm.com/help/topic/com.arm.doc.den0022c/DEN0022C_Power_State_Coordination_Interface.pdf .. _PSCI Specification: http://infocenter.arm.com/help/topic/com.arm.doc.den0022c/DEN0022C_Power_State_Coordination_Interface.pdf -.. _Porting Guide: ./porting-guide.rst -.. _Firmware Design: ../design/firmware-design.rst diff --git a/docs/getting_started/rt-svc-writers-guide.rst b/docs/getting_started/rt-svc-writers-guide.rst index 6c17a1fb..6a06025e 100644 --- a/docs/getting_started/rt-svc-writers-guide.rst +++ b/docs/getting_started/rt-svc-writers-guide.rst @@ -21,8 +21,8 @@ independent implementation of services for each group, which are then compiled into the BL31 image. This simplifies the integration of common software from Arm to support `PSCI`_, Secure Monitor for a Trusted OS and SoC specific software. The common runtime services framework ensures that SMC Functions are -dispatched to their respective service implementation - the `Firmware Design`_ -provides details of how this is achieved. +dispatched to their respective service implementation - the +:ref:`Firmware Design` document provides details of how this is achieved. The interface and operation of the runtime services depends heavily on the concepts and definitions described in the `SMCCC`_, in particular SMC Function @@ -79,11 +79,11 @@ handler will be responsible for all SMC Functions within a given service type. Getting started --------------- -TF-A has a `services`_ directory in the source tree under which +TF-A has a ``services`` directory in the source tree under which each owning entity can place the implementation of its runtime service. The -`PSCI`_ implementation is located here in the `lib/psci`_ directory. +`PSCI`_ implementation is located here in the ``lib/psci`` directory. -Runtime service sources will need to include the `runtime_svc.h`_ header file. +Runtime service sources will need to include the ``runtime_svc.h`` header file. Registering a runtime service ----------------------------- @@ -100,7 +100,7 @@ initialization and call handler functions. is also used for diagnostic purposes - ``_start`` and ``_end`` values must be based on the ``OEN_*`` values defined in - `smccc.h`_ + ``smccc.h`` - ``_type`` must be one of ``SMC_TYPE_FAST`` or ``SMC_TYPE_YIELD`` @@ -132,7 +132,7 @@ to ensure that the following conditions are met: #. The ``_type`` is one of ``SMC_TYPE_FAST`` or ``SMC_TYPE_YIELD`` #. ``_setup`` and ``_smch`` routines have been specified -`std_svc_setup.c`_ provides an example of registering a runtime service: +``std_svc_setup.c`` provides an example of registering a runtime service: .. code:: c @@ -296,13 +296,7 @@ provide this information.... -------------- -*Copyright (c) 2014-2018, Arm Limited and Contributors. All rights reserved.* +*Copyright (c) 2014-2019, Arm Limited and Contributors. All rights reserved.* .. _SMCCC: http://infocenter.arm.com/help/topic/com.arm.doc.den0028a/index.html .. _PSCI: http://infocenter.arm.com/help/topic/com.arm.doc.den0022c/DEN0022C_Power_State_Coordination_Interface.pdf -.. _Firmware Design: ../design/firmware-design.rst -.. _services: ../../services -.. _lib/psci: ../../lib/psci -.. _runtime_svc.h: ../../include/common/runtime_svc.h -.. _smccc.h: ../../include/lib/smccc.h -.. _std_svc_setup.c: ../../services/std_svc/std_svc_setup.c diff --git a/docs/getting_started/user-guide.rst b/docs/getting_started/user-guide.rst index e540fd06..c7359ada 100644 --- a/docs/getting_started/user-guide.rst +++ b/docs/getting_started/user-guide.rst @@ -22,7 +22,7 @@ the different software components required to boot a Linux system: This document also assumes that the user is familiar with the `FVP models`_ and the different command line options available to launch the model. -This document should be used in conjunction with the `Firmware Design`_. +This document should be used in conjunction with the :ref:`Firmware Design`. Host machine requirements ------------------------- @@ -86,8 +86,8 @@ Trusted Firmware follows the `Linux Coding Style`_ . When making changes to the source, for submission to the project, the source must be in compliance with this style guide. -Additional, project-specific guidelines are defined in the `Trusted Firmware-A -Coding Guidelines`_ document. +Additional, project-specific guidelines are defined in the +:ref:`Coding Style & Guidelines` document. To assist with coding style compliance, the project Makefile contains two targets which both utilise the `checkpatch.pl` script that ships with the Linux @@ -196,7 +196,7 @@ Building TF-A an AArch32 EL3 Runtime Software. Some AArch32 EL3 Runtime Software may include other runtime services, for example Trusted OS services. A guide to integrate PSCI library with AArch32 EL3 Runtime Software can be found - `here`_. + at :ref:`PSCI Library Integration guide for Armv8-A AArch32 systems`. - (AArch64 only) The TSP (Test Secure Payload), corresponding to the BL32 image, is not compiled in by default. Refer to the @@ -262,11 +262,11 @@ Common build options - ``ARM_ARCH_MAJOR``: The major version of Arm Architecture to target when compiling TF-A. Its value must be numeric, and defaults to 8 . See also, *Armv8 Architecture Extensions* and *Armv7 Architecture Extensions* in - `Firmware Design`_. + :ref:`Firmware Design`. - ``ARM_ARCH_MINOR``: The minor version of Arm Architecture to target when compiling TF-A. Its value must be a numeric, and defaults to 0. See also, - *Armv8 Architecture Extensions* in `Firmware Design`_. + *Armv8 Architecture Extensions* in :ref:`Firmware Design`. - ``BL2``: This is an optional build option which specifies the path to BL2 image for the ``fip`` target. In this case, the BL2 in the TF-A will not be @@ -479,7 +479,7 @@ Common build options is AArch32. - ``ENABLE_SPM`` : Boolean option to enable the Secure Partition Manager (SPM). - Refer to the `Secure Partition Manager Design guide`_ for more details about + Refer to :ref:`Secure Partition Manager` for more details about this feature. Default is 0. - ``ENABLE_SVE_FOR_NS``: Boolean option to enable Scalable Vector Extension @@ -527,7 +527,7 @@ Common build options - ``GENERATE_COT``: Boolean flag used to build and execute the ``cert_create`` tool to create certificates as per the Chain of Trust described in - `Trusted Board Boot`_. The build system then calls ``fiptool`` to + :ref:`Trusted Board Boot`. The build system then calls ``fiptool`` to include the certificates in the FIP and FWU_FIP. Default value is '0'. Specify both ``TRUSTED_BOARD_BOOT=1`` and ``GENERATE_COT=1`` to include support @@ -745,8 +745,8 @@ Common build options - ``SEPARATE_CODE_AND_RODATA``: Whether code and read-only data should be isolated on separate memory pages. This is a trade-off between security and memory usage. See "Isolating code and read-only data on separate memory - pages" section in `Firmware Design`_. This flag is disabled by default and - affects all BL images. + pages" section in :ref:`Firmware Design`. This flag is disabled by default + and affects all BL images. - ``SPD``: Choose a Secure Payload Dispatcher component to be built into TF-A. This build option is only valid if ``ARCH=aarch64``. The value should be @@ -784,7 +784,7 @@ Common build options - ``TSP_INIT_ASYNC``: Choose BL32 initialization method as asynchronous or synchronous, (see "Initializing a BL32 Image" section in - `Firmware Design`_). It can take the value 0 (BL32 is initialized using + :ref:`Firmware Design`). It can take the value 0 (BL32 is initialized using synchronous method) or 1 (BL32 is initialized using asynchronous method). Default is 0. @@ -808,14 +808,14 @@ Common build options - ``USE_COHERENT_MEM``: This flag determines whether to include the coherent memory region in the BL memory map or not (see "Use of Coherent memory in - TF-A" section in `Firmware Design`_). It can take the value 1 + TF-A" section in :ref:`Firmware Design`). It can take the value 1 (Coherent memory region is included) or 0 (Coherent memory region is excluded). Default is 1. - ``USE_ROMLIB``: This flag determines whether library at ROM will be used. This feature creates a library of functions to be placed in ROM and thus - reduces SRAM usage. Refer to `Library at ROM`_ for further details. Default - is 0. + reduces SRAM usage. Refer to :ref:`Library at ROM` for further details. + Default is 0. - ``USE_SPINLOCK_CAS``: Setting this build flag to 1 selects the spinlock implementation variant using the ARMv8.1-LSE compare-and-swap instruction. @@ -924,7 +924,7 @@ Arm development platform specific build options SBROM library must be specified via ``CCSBROM_LIB_PATH`` flag. For a better understanding of these options, the Arm development platform memory -map is explained in the `Firmware Design`_. +map is explained in the :ref:`Firmware Design`. Arm CSS platform specific build options ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ @@ -978,14 +978,14 @@ Arm FVP platform specific build options The default value is 0. - ``FVP_HW_CONFIG_DTS`` : Specify the path to the DTS file to be compiled - to DTB and packaged in FIP as the HW_CONFIG. See `Firmware Design`_ for + to DTB and packaged in FIP as the HW_CONFIG. See :ref:`Firmware Design` for details on HW_CONFIG. By default, this is initialized to a sensible DTS file in ``fdts/`` folder depending on other build options. But some cases, like shifted affinity format for MPIDR, cannot be detected at build time and this option is needed to specify the appropriate DTS file. - ``FVP_HW_CONFIG`` : Specify the path to the HW_CONFIG blob to be packaged in - FIP. See `Firmware Design`_ for details on HW_CONFIG. This option is + FIP. See :ref:`Firmware Design` for details on HW_CONFIG. This option is similar to the ``FVP_HW_CONFIG_DTS`` option, but it directly specifies the HW_CONFIG blob instead of the DTS file. This option is useful to override the default HW_CONFIG selected by the build system. @@ -1017,7 +1017,7 @@ optimizations by using ``-O0``. .. warning:: Using ``-O0`` could cause output images to be larger and base addresses might need to be recalculated (see the **Memory layout on Arm development - platforms** section in the `Firmware Design`_). + platforms** section in the :ref:`Firmware Design`). Extra debug options can be passed to the build system by setting ``CFLAGS`` or ``LDFLAGS``: @@ -1058,7 +1058,8 @@ Building the Test Secure Payload The TSP is coupled with a companion runtime service in the BL31 firmware, called the TSPD. Therefore, if you intend to use the TSP, the BL31 image must be recompiled as well. For more information on SPs and SPDs, see the -`Secure-EL1 Payloads and Dispatchers`_ section in the `Firmware Design`_. +:ref:`Secure-EL1 Payloads and Dispatchers ` section +in the :ref:`Firmware Design` document. First clean the TF-A build directory to get rid of any previous BL31 binary. Then to build the TSP image use: @@ -1176,15 +1177,15 @@ remove operations will automatically overwrite it. The unpack operation will fail if the images already exist at the destination. In that case, use -f or --force to continue. -More information about FIP can be found in the `Firmware Design`_ document. +More information about FIP can be found in the :ref:`Firmware Design` document. Building FIP images with support for Trusted Board Boot ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Trusted Board Boot primarily consists of the following two features: -- Image Authentication, described in `Trusted Board Boot`_, and -- Firmware Update, described in `Firmware Update`_ +- Image Authentication, described in :ref:`Trusted Board Boot`, and +- Firmware Update, described in :ref:`Firmware Update (FWU)` The following steps should be followed to build FIP and (optionally) FWU_FIP images with support for these features: @@ -1250,9 +1251,9 @@ images with support for these features: in the output build directory. #. The optional FWU_FIP contains any additional images to be loaded from - Non-Volatile storage during the `Firmware Update`_ process. To build the - FWU_FIP, any FWU images required by the platform must be specified on the - command line. On Arm development platforms like Juno, these are: + Non-Volatile storage during the :ref:`Firmware Update (FWU)` process. To + build the FWU_FIP, any FWU images required by the platform must be specified + on the command line. On Arm development platforms like Juno, these are: - NS_BL2U. The AP non-secure Firmware Updater image. - SCP_BL2U. The SCP Firmware Update Configuration image. @@ -1731,6 +1732,8 @@ The Trusted Firmware must be compiled in a similar way as for FVP explained above. The process to load binaries to memory is the one explained in `Booting an EL3 payload on Juno`_. +.. _user_guide_run_fvp: + Running the software on FVP --------------------------- @@ -1903,7 +1906,7 @@ Notes: - BL1 is loaded at the start of the Trusted ROM. - The Firmware Image Package is loaded at the start of NOR FLASH0. - The firmware loads the FDT packaged in FIP to the DRAM. The FDT load address - is specified via the ``hw_config_addr`` property in `TB_FW_CONFIG for FVP`_. + is specified via the ``hw_config_addr`` property in ``TB_FW_CONFIG`` for FVP. - The default use-case for the Foundation FVP is to use the ``--gicv3`` option and enable the GICv3 device in the model. Note that without this option, the Foundation FVP defaults to legacy (Versatile Express) memory map which @@ -2204,18 +2207,9 @@ wakeup interrupt from RTC. .. _`Linux Coding Style`: https://www.kernel.org/doc/html/latest/process/coding-style.html .. _Linux master tree: https://github.com/torvalds/linux/tree/master/ .. _Dia: https://wiki.gnome.org/Apps/Dia/Download -.. _here: psci-lib-integration-guide.rst -.. _Trusted Board Boot: ../design/trusted-board-boot.rst -.. _TB_FW_CONFIG for FVP: ../../plat/arm/board/fvp/fdts/fvp_tb_fw_config.dts -.. _Secure-EL1 Payloads and Dispatchers: ../design/firmware-design.rst#user-content-secure-el1-payloads-and-dispatchers -.. _Firmware Update: ../components/firmware-update.rst -.. _Firmware Design: ../design/firmware-design.rst .. _mbed TLS Repository: https://github.com/ARMmbed/mbedtls.git .. _mbed TLS Security Center: https://tls.mbed.org/security .. _Arm's website: `FVP models`_ .. _FVP models: https://developer.arm.com/products/system-design/fixed-virtual-platforms .. _Juno Getting Started Guide: http://infocenter.arm.com/help/topic/com.arm.doc.dui0928e/DUI0928E_juno_arm_development_platform_gsg.pdf .. _PSCI: http://infocenter.arm.com/help/topic/com.arm.doc.den0022d/Power_State_Coordination_Interface_PDD_v1_1_DEN0022D.pdf -.. _Secure Partition Manager Design guide: ../components/secure-partition-manager-design.rst -.. _`Trusted Firmware-A Coding Guidelines`: ../process/coding-guidelines.rst -.. _Library at ROM: ../components/romlib-design.rst diff --git a/docs/index.rst b/docs/index.rst index 2023ceb1..268ac472 100644 --- a/docs/index.rst +++ b/docs/index.rst @@ -140,8 +140,9 @@ Functionality further support to be added in a future release. 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. +see :ref:`Firmware Design` and supporting documentation. The +:ref:`Change Log & Release Notes` provides details of changes made since the +last release. Platforms --------- @@ -242,31 +243,32 @@ Still to come - Ongoing security hardening, optimization and quality improvements. -For a full list of detailed issues in the current code, please see the `Change -Log`_ and the `issue tracker`_. +For a full list of detailed issues in the current code, please see the +:ref:`Change Log & Release Notes` and the `issue tracker`_. Getting started --------------- -See the `User Guide`_ for instructions on how to download, install, build and -use TF-A with the Arm `FVP`_\ s. +See the :ref:`User Guide` for instructions on how to download, install, build +and use TF-A with the Arm `FVP`_\ s. -See the `Firmware Design`_ for information on how TF-A works. +See the :ref:`Firmware Design` for information on how TF-A works. -See the `Porting Guide`_ as well for information about how to use this +See the :ref:`Porting Guide` as well for information about how to use this software on another Armv7-A or 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. +See the :ref:`Contributor's Guide` for information on how to contribute to this +project and the :ref:`Contributor Acknowledgements` file for a list of +contributors to the project. -Contact us +Contact Us ~~~~~~~~~~ We welcome any feedback on TF-A. If you think you have found a security vulnerability, please report this using the process defined in the TF-A -`Security Center`_. For all other feedback, you can use either the -`issue tracker`_ or our `mailing list`_. +:ref:`Security Handling` document. + +For all other feedback, please use the `issue tracker`_ or our `mailing list`_. Arm licensees may contact Arm directly via their partner managers. @@ -294,11 +296,3 @@ Arm licensees may contact Arm directly via their partner managers. .. _trustedfirmware.org: https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git .. _issue tracker: https://issues.trustedfirmware.org .. _mailing list: https://lists.trustedfirmware.org/mailman/listinfo/tf-a -.. _Security Center: ./process/security.rst -.. _license: ./license.rst -.. _Contributing Guidelines: ./process/contributing.rst -.. _Acknowledgments: ./acknowledgements.rst -.. _Firmware Design: ./design/firmware-design.rst -.. _Change Log: ./change-log.rst -.. _User Guide: ./getting_started/user-guide.rst -.. _Porting Guide: ./getting_started/porting-guide.rst diff --git a/docs/license.rst b/docs/license.rst index b62286fa..2f970433 100644 --- a/docs/license.rst +++ b/docs/license.rst @@ -3,7 +3,7 @@ License The software is provided under a BSD-3-Clause license (below). Contributions to this project are accepted under the same license with developer sign-off as -described in the :ref:`contributor_guide`. +described in the :ref:`Contributor's Guide`. :: @@ -77,4 +77,4 @@ license text is included in those source files. terms of both licenses. .. _FreeBSD: http://www.freebsd.org -.. _SCC: http://www.simple-cc.org/ \ No newline at end of file +.. _SCC: http://www.simple-cc.org/ diff --git a/docs/plat/socionext-uniphier.rst b/docs/plat/socionext-uniphier.rst index 82b9b503..964dd1db 100644 --- a/docs/plat/socionext-uniphier.rst +++ b/docs/plat/socionext-uniphier.rst @@ -8,10 +8,11 @@ UniPhier SoC family implements its internal boot ROM, which loads 64KB [1]_ image from a non-volatile storage to the on-chip SRAM, and jumps over to it. TF-A provides a special mode, BL2-AT-EL3, which enables BL2 to execute at EL3. It is useful for platforms with non-TF-A boot ROM, like UniPhier. Here, a -problem is BL2 does not fit in the 64KB limit if `Trusted Board Boot`_ (TBB) -is enabled. To solve this issue, Socionext provides a first stage loader -called `UniPhier BL`_. This loader runs in the on-chip SRAM, initializes the -DRAM, expands BL2 there, and hands the control over to it. Therefore, all images +problem is BL2 does not fit in the 64KB limit if +:ref:`Trusted Board Boot (TBB) ` is enabled. +To solve this issue, Socionext provides a first stage loader called +`UniPhier BL`_. This loader runs in the on-chip SRAM, initializes the DRAM, +expands BL2 there, and hands the control over to it. Therefore, all images of TF-A run in DRAM. The UniPhier platform works with/without TBB. See below for the build process @@ -50,7 +51,7 @@ Boot Flow 4. BL31, BL32, and BL33 - They all run in the DRAM. See `Firmware Design`_ for details. + They all run in the DRAM. See :ref:`Firmware Design` for details. Basic Build @@ -79,7 +80,7 @@ Optional features - Trusted Board Boot `mbed TLS`_ is needed as the cryptographic and image parser modules. - Refer to the `User Guide`_ for the appropriate version of mbed TLS. + Refer to the :ref:`User Guide` for the appropriate version of mbed TLS. To enable TBB, add the following options to the build command:: @@ -109,9 +110,6 @@ Optional features .. [1] Some SoCs can load 80KB, but the software implementation must be aligned to the lowest common denominator. -.. _Trusted Board Boot: ../trusted-board-boot.rst .. _UniPhier BL: https://github.com/uniphier/uniphier-bl -.. _Firmware Design: ../firmware-design.rst .. _U-Boot: https://www.denx.de/wiki/U-Boot .. _mbed TLS: https://tls.mbed.org/ -.. _User Guide: ../user-guide.rst diff --git a/docs/process/contributing.rst b/docs/process/contributing.rst index 66b282c9..fdb702ff 100644 --- a/docs/process/contributing.rst +++ b/docs/process/contributing.rst @@ -13,8 +13,8 @@ Getting Started raise a separate `issue`_ for this and ensure that the changes that include Third Party IP are made on a separate topic branch. -- Clone `Trusted Firmware-A`_ on your own machine as suggested on the - `User Guide`_. +- Clone `Trusted Firmware-A`_ on your own machine as suggested in the + :ref:`User Guide`. - Create a local topic branch based on the `Trusted Firmware-A`_ ``master`` branch. @@ -23,11 +23,11 @@ Making Changes - Make commits of logical units. See these general `Git guidelines`_ for contributing to a project. -- Follow the `Coding Guidelines`_. +- Follow the :ref:`Coding Style & Guidelines`. - Use the checkpatch.pl script provided with the Linux source tree. A Makefile target is provided for convenience (see the "Checking source code - style" section in the `User Guide`_). + style" section in the :ref:`User Guide`). - Keep the commits on topic. If you need to fix another bug or make another enhancement, please create a separate `issue`_ and address it on a separate @@ -38,12 +38,12 @@ Making Changes an `issue`_, include a reference. - Where appropriate, please update the documentation. - - Consider whether the `User Guide`_, `Porting Guide`_, `Firmware Design`_ - or other in-source documentation needs updating. + - Consider whether the :ref:`User Guide`, :ref:`Porting Guide`, + :ref:`Firmware Design` or other in-source documentation needs updating. - Ensure that each changed file has the correct copyright and license information. Files that entirely consist of contributions to this project should have a copyright notice and BSD-3-Clause SPDX license - identifier of the form as shown in `license.rst`_. Files that contain + identifier of the form as shown in :ref:`license`. Files that contain changes to imported Third Party IP files should retain their original copyright and license notices. For significant contributions you may add your own copyright notice in following format: @@ -57,13 +57,13 @@ Making Changes your company name. - If you are submitting new files that you intend to be the technical sub-maintainer for (for example, a new platform port), then also update - the `Maintainers`_ file. + the :ref:`maintainers` file. - For topics with multiple commits, you should make all documentation changes (and nothing else) in the last commit of the series. Otherwise, include the documentation changes within the single commit. - Please test your changes. As a minimum, ensure that Linux boots on the - Foundation FVP. See `Running the software on FVP`_ for more information. For + Foundation FVP. See :ref:`user_guide_run_fvp` for more information. For more extensive testing, consider running the `TF-A Tests`_ against your patches. @@ -75,13 +75,14 @@ Submitting Changes ``Signed-off-by:`` and ``Author:`` lines must match. If anyone else contributes to the commit, they must also add their own ``Signed-off-by:`` line. By adding this line the contributor certifies the contribution is made - under the terms of the `Developer Certificate of Origin (DCO)`_. + under the terms of the + :download:`Developer Certificate of Origin <../../dco.txt>`. More details may be found in the `Gerrit Signed-off-by Lines guidelines`_. - Ensure that each commit also has a unique ``Change-Id:`` line. If you have cloned the repository with the "`Clone with commit-msg hook`" clone method - (as advised on the `User Guide`_), this should already be the case. + (as advised on the :ref:`User Guide`), this should already be the case. More details may be found in the `Gerrit Change-Ids documentation`_. @@ -89,22 +90,22 @@ Submitting Changes targeting the ``integration`` branch. - The changes will then undergo further review and testing by the - `Maintainers`_. Any review comments will be made directly on your patch. - This may require you to do some rework. + :ref:`maintainers`. Any review comments will be made directly on your + patch. This may require you to do some rework. Refer to the `Gerrit Uploading Changes documentation`_ for more details. -- When the changes are accepted, the `Maintainers`_ will integrate them. +- When the changes are accepted, the :ref:`maintainers` will integrate them. - - Typically, the `Maintainers`_ will merge the changes into the + - Typically, the :ref:`maintainers` will merge the changes into the ``integration`` branch. - If the changes are not based on a sufficiently-recent commit, or if they - cannot be automatically rebased, then the `Maintainers`_ may rebase it on - the ``master`` branch or ask you to do so. + cannot be automatically rebased, then the :ref:`maintainers` may rebase it + on the ``master`` branch or ask you to do so. - After final integration testing, the changes will make their way into the ``master`` branch. If a problem is found during integration, the merge commit will be removed from the ``integration`` branch and the - `Maintainers`_ will ask you to create a new patch set to resolve the + :ref:`maintainers` will ask you to create a new patch set to resolve the problem. Binary Components @@ -132,15 +133,6 @@ Binary Components .. _issue: https://developer.trustedfirmware.org/project/board/1/ .. _Trusted Firmware-A: https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git .. _Git guidelines: http://git-scm.com/book/ch5-2.html -.. _Coding Guidelines: ./coding-guidelines.rst -.. _User Guide: ../getting_started/user-guide.rst -.. _Porting Guide: ../getting_started/porting-guide.rst -.. _Firmware Design: ../design/firmware-design.rst -.. _license.rst: ../license.rst -.. _Acknowledgements: ../acknowledgements.rst -.. _Maintainers: ../maintainers.rst -.. _Running the software on FVP: ../getting_started/user-guide.rst#user-content-running-the-software-on-fvp -.. _Developer Certificate of Origin (DCO): ../../dco.txt .. _Gerrit Uploading Changes documentation: https://review.trustedfirmware.org/Documentation/user-upload.html .. _Gerrit Signed-off-by Lines guidelines: https://review.trustedfirmware.org/Documentation/user-signedoffby.html .. _Gerrit Change-Ids documentation: https://review.trustedfirmware.org/Documentation/user-changeid.html diff --git a/docs/process/faq.rst b/docs/process/faq.rst index 6aa04f0a..2c365848 100644 --- a/docs/process/faq.rst +++ b/docs/process/faq.rst @@ -37,7 +37,7 @@ This can vary a lot, depending on: conflict between the topics. * If there is a code freeze in place in preparation for the release. Please - refer the `release information`_ for more details. + refer the :ref:`Release Processes` document for more details. * The workload of the TF maintainers. @@ -55,9 +55,9 @@ receiving patches that will not be merged into the release. In this case, the patches will be merged onto ``integration``, which will temporarily diverge from the release branch. The ``integration`` branch will be rebased onto ``master`` after the release, and then ``master`` will be fast-forwarded to ``integration`` -1-2 days later. This whole process could take up 4 weeks. Please refer the -`release information`_ for code freeze dates. The TF maintainers will inform the -patch owner if this is going to happen. +1-2 days later. This whole process could take up 4 weeks. Please refer to the +:ref:`Release Processes` document for code freeze dates. The TF maintainers +will inform the patch owner if this is going to happen. It is OK to create a patch based on commits that are only available in ``integration`` or another patch set, rather than ``master``. There is a risk @@ -73,7 +73,10 @@ but would be after the CI has been transitioned to `trustedfirmware.org`_. Please refer to https://github.com/ARM-software/tf-issues/issues/681 for more details on the timelines. -.. _release information: release-information.rst +-------------- + +*Copyright (c) 2019, Arm Limited. All rights reserved.* + .. _Gerrit Upload Patch Set documentation: https://review.trustedfirmware.org/Documentation/intro-user.html#upload-patch-set .. _Gerrit Replace Changes documentation: https://review.trustedfirmware.org/Documentation/user-upload.html#push_replace .. _trustedfirmware.org: https://www.trustedfirmware.org/ diff --git a/docs/process/platform-compatibility-policy.rst b/docs/process/platform-compatibility-policy.rst index a11ba386..be1f9bac 100644 --- a/docs/process/platform-compatibility-policy.rst +++ b/docs/process/platform-compatibility-policy.rst @@ -11,7 +11,7 @@ Platform compatibility policy ----------------------------- Platform compatibility is mainly affected by changes to Platform APIs (as -documented in the `Porting Guide`_), driver APIs (like the GICv3 drivers) or +documented in the :ref:`Porting Guide`), driver APIs (like the GICv3 drivers) or library interfaces (like xlat_table library). The project will try to maintain compatibility for upstream platforms. Due to evolving requirements and enhancements, there might be changes affecting platform compatibility which @@ -20,7 +20,7 @@ introduced to replace it. In case the migration to the new interface is trivial, the contributor of the change is expected to make good effort to migrate the upstream platforms to the new interface. -The deprecated interfaces are listed inside `Release information`_ as well as +The deprecated interfaces are listed inside :ref:`Release Processes` as well as the release after which each one will be removed. When an interface is deprecated, the page must be updated to indicate the release after which the interface will be removed. This must be at least 1 full release cycle in future. @@ -33,6 +33,4 @@ the deprecated interface. *Copyright (c) 2018-2019, Arm Limited and Contributors. All rights reserved.* -.. _Porting Guide: ../getting_started/porting-guide.rst -.. _Release information: ./release-information.rst#removal-of-deprecated-interfaces .. _TF-A public mailing list: https://lists.trustedfirmware.org/mailman/listinfo/tf-a diff --git a/docs/process/release-information.rst b/docs/process/release-information.rst index b81d42d5..e264e51a 100644 --- a/docs/process/release-information.rst +++ b/docs/process/release-information.rst @@ -42,9 +42,9 @@ depending on project requirement and partner feedback. Removal of Deprecated Interfaces -------------------------------- -As mentioned in the `Platform compatibility policy`_, this is a live document -cataloging all the deprecated interfaces in TF-A project and the Release version -after which it will be removed. +As mentioned in the :ref:`Platform Compatibility Policy`, this is a live +document cataloging all the deprecated interfaces in TF-A project and the +Release version after which it will be removed. +--------------------------------+-------------+---------+---------------------------------------------------------+ | Interface | Deprecation | Removed | Comments | @@ -54,7 +54,7 @@ after which it will be removed. | Legacy Console API | Jan '18 | v2.1 | Deprecated in favour of ``MULTI_CONSOLE_API`` | +--------------------------------+-------------+---------+---------------------------------------------------------+ | Weak default | Oct '18 | v2.1 | The default implementations are defined in | -| ``plat_crash_console_*`` | | | `crash_console_helpers.S`_. The platforms have to | +| ``plat_crash_console_*`` | | | ``crash_console_helpers.S``. The platforms have to | | APIs | | | define ``plat_crash_console_*``. | +--------------------------------+-------------+---------+---------------------------------------------------------+ | ``finish_console_register`` | Oct '18 | v2.1 | The old version of the macro is deprecated. See commit | @@ -74,9 +74,9 @@ after which it will be removed. | Makefile in ``INCLUDES``. | | | header files. More information in commit 09d40e0e0828_. | +--------------------------------+-------------+---------+---------------------------------------------------------+ +-------------- + *Copyright (c) 2018-2019, Arm Limited and Contributors. All rights reserved.* -.. _Platform compatibility policy: platform-compatibility-policy.rst -.. _crash_console_helpers.S: https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git/tree/plat/common/aarch64/crash_console_helpers.S .. _cc5859c: https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git/commit/?id=cc5859ca19ff546c35eb0331000dae090b6eabcf .. _09d40e0e0828: https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git/commit/?id=09d40e0e08283a249e7dce0e106c07c5141f9b7e diff --git a/docs/process/security-hardening.rst b/docs/process/security-hardening.rst index e2c68b8f..1a5524fd 100644 --- a/docs/process/security-hardening.rst +++ b/docs/process/security-hardening.rst @@ -9,7 +9,7 @@ Build options ------------- Several build options can be used to check for security issues. Refer to the -`user guide`_ for detailed information on the specific build options. +:ref:`User Guide` for detailed information on the specific build options. - The ``BRANCH_PROTECTION`` build flag can be used to enable Pointer Authentication and Branch Target Identification. @@ -53,6 +53,6 @@ Several build options can be used to check for security issues. Refer to the NB: The ``Werror`` flag is enabled by default in TF-A and can be disabled by setting the ``E`` build flag to 0. -*Copyright (c) 2019, Arm Limited. All rights reserved.* +-------------- -.. _user guide: ../getting_started/user-guide.rst +*Copyright (c) 2019, Arm Limited. All rights reserved.* diff --git a/docs/process/security.rst b/docs/process/security.rst index 94eb9c3b..c3935daa 100644 --- a/docs/process/security.rst +++ b/docs/process/security.rst @@ -38,9 +38,11 @@ Please include: - Any additional software or tools required -We recommend using `this PGP/GPG key`_ for encrypting the information. This key -is also available at http://keyserver.pgp.com and LDAP port 389 of the same -server. The fingerprint for this key is: +We recommend using :download:`this PGP/GPG key <./security-reporting.asc>` for +encrypting the information. This key is also available at +http://keyserver.pgp.com and LDAP port 389 of the same server. + +The fingerprint for this key is: :: @@ -59,7 +61,7 @@ code. Attribution ----------- -We will name and thank you in the ``change-log.rst`` distributed with the source +We will name and thank you in the :ref:`Change Log & Release Notes` distributed with the source code and in any published security advisory. Security Advisories @@ -68,38 +70,43 @@ Security Advisories +-----------+------------------------------------------------------------------+ | ID | Title | +===========+==================================================================+ -| `TFV-1`_ | Malformed Firmware Update SMC can result in copy of unexpectedly | +| |TFV-1| | Malformed Firmware Update SMC can result in copy of unexpectedly | | | large data into secure memory | +-----------+------------------------------------------------------------------+ -| `TFV-2`_ | Enabled secure self-hosted invasive debug interface can allow | +| |TFV-2| | Enabled secure self-hosted invasive debug interface can allow | | | normal world to panic secure world | +-----------+------------------------------------------------------------------+ -| `TFV-3`_ | RO memory is always executable at AArch64 Secure EL1 | +| |TFV-3| | RO memory is always executable at AArch64 Secure EL1 | +-----------+------------------------------------------------------------------+ -| `TFV-4`_ | Malformed Firmware Update SMC can result in copy or | +| |TFV-4| | Malformed Firmware Update SMC can result in copy or | | | authentication of unexpected data in secure memory in AArch32 | | | state | +-----------+------------------------------------------------------------------+ -| `TFV-5`_ | Not initializing or saving/restoring PMCR_EL0 can leak secure | +| |TFV-5| | Not initializing or saving/restoring PMCR_EL0 can leak secure | | | world timing information | +-----------+------------------------------------------------------------------+ -| `TFV-6`_ | Trusted Firmware-A exposure to speculative processor | +| |TFV-6| | Trusted Firmware-A exposure to speculative processor | | | vulnerabilities using cache timing side-channels | +-----------+------------------------------------------------------------------+ -| `TFV-7`_ | Trusted Firmware-A exposure to cache speculation vulnerability | +| |TFV-7| | Trusted Firmware-A exposure to cache speculation vulnerability | | | Variant 4 | +-----------+------------------------------------------------------------------+ -| `TFV-8`_ | Not saving x0 to x3 registers can leak information from one | +| |TFV-8| | Not saving x0 to x3 registers can leak information from one | | | Normal World SMC client to another | +-----------+------------------------------------------------------------------+ .. _issue tracker: https://developer.trustedfirmware.org/project/board/1/ .. _this PGP/GPG key: security-reporting.asc -.. _TFV-1: ../security_advisories/security-advisory-tfv-1.rst -.. _TFV-2: ../security_advisories/security-advisory-tfv-2.rst -.. _TFV-3: ../security_advisories/security-advisory-tfv-3.rst -.. _TFV-4: ../security_advisories/security-advisory-tfv-4.rst -.. _TFV-5: ../security_advisories/security-advisory-tfv-5.rst -.. _TFV-6: ../security_advisories/security-advisory-tfv-6.rst -.. _TFV-7: ../security_advisories/security-advisory-tfv-7.rst -.. _TFV-8: ../security_advisories/security-advisory-tfv-8.rst + +.. |TFV-1| replace:: :ref:`Advisory TFV-1 (CVE-2016-10319)` +.. |TFV-2| replace:: :ref:`Advisory TFV-2 (CVE-2017-7564)` +.. |TFV-3| replace:: :ref:`Advisory TFV-3 (CVE-2017-7563)` +.. |TFV-4| replace:: :ref:`Advisory TFV-4 (CVE-2017-9607)` +.. |TFV-5| replace:: :ref:`Advisory TFV-5 (CVE-2017-15031)` +.. |TFV-6| replace:: :ref:`Advisory TFV-6 (CVE-2017-5753, CVE-2017-5715, CVE-2017-5754)` +.. |TFV-7| replace:: :ref:`Advisory TFV-7 (CVE-2018-3639)` +.. |TFV-8| replace:: :ref:`Advisory TFV-8 (CVE-2018-19440)` + +-------------- + +*Copyright (c) 2019, Arm Limited. All rights reserved.* -- 2.30.2