[PATCH v1 2/2] Add AArch64 documentation
Kinsey Moore
kinsey.moore at oarcorp.com
Fri Sep 25 15:28:43 UTC 2020
---
cpu-supplement/aarch64.rst | 129 +++++++++++++++++++++++++++++++++++++
user/bsps/aarch64/a53.rst | 26 ++++++++
user/bsps/bsps-aarch64.rst | 2 +-
3 files changed, 156 insertions(+), 1 deletion(-)
create mode 100644 cpu-supplement/aarch64.rst
create mode 100644 user/bsps/aarch64/a53.rst
diff --git a/cpu-supplement/aarch64.rst b/cpu-supplement/aarch64.rst
new file mode 100644
index 0000000..b23f7dc
--- /dev/null
+++ b/cpu-supplement/aarch64.rst
@@ -0,0 +1,129 @@
+.. SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. Copyright (C) 1988, 2020 On-Line Applications Research Corporation (OAR)
+
+AArch64 Specific Information
+************************
+
+This chapter discusses the dependencies of the
+*ARM AArch64 architecture*
+(https://en.wikipedia.org/wiki/ARM_architecture#AArch64_features) in this port
+of RTEMS. The ARMv8-A versions are supported by RTEMS. Processors with a MMU
+use a static configuration which is set up during system start. SMP is not
+supported.
+
+**Architecture Documents**
+
+For information on the ARM AArch64 architecture refer to the *ARM Infocenter*
+(http://infocenter.arm.com/).
+
+CPU Model Dependent Features
+============================
+
+This section presents the set of features which vary across ARM AArch64
+implementations and are of importance to RTEMS. The set of CPU model feature
+macros are defined in the file :file:`cpukit/score/cpu/aarch64/rtems/score/aarch64.h`
+based upon the particular CPU model flags specified on the compilation command
+line.
+
+CPU Model Name
+--------------
+
+The macro ``CPU_MODEL_NAME`` is a string which designates the architectural
+level of this CPU model. See in :file:`cpukit/score/cpu/aarch64/rtems/score/aarch64.h`
+for the values.
+
+Floating Point Unit and SIMD
+----------------------------
+
+The Advanced SIMD (NEON) and Floating-point instruction set extension is
+supported and expected to be present since all ARMv8-A CPUs are expected to
+support it as per the *ARMv8-A Programmer's Guide Chapter 7 introduction*
+(https://developer.arm.com/docs/den0024/a/aarch64-floating-point-and-neon). As
+such, ``CPU_HARDWARE_FP`` will always be set to ``TRUE``.
+
+Multilibs
+=========
+
+The following multilib variants are available:
+
+#. ``ILP32``: AArch64 instruction set and registers using 32bit long int and pointers
+
+#. ``LP64``: AArch64 instruction set and registers using 64bit long int and pointers
+
+Use for example the following GCC options:
+
+.. code-block:: shell
+
+ -mcpu=cortex-a53 -mabi=ilp32
+
+to build an application or BSP for the ARMv8-A architecture and tune the code
+for a Cortex-A53 processor. It is important to select the correct ABI.
+
+Calling Conventions
+===================
+
+Please refer to the *Procedure Call Standard for the ARM 64-bit Architecture*
+(https://github.com/ARM-software/abi-aa/releases/download/2019Q4/aapcs64.pdf).
+
+Memory Model
+============
+
+A flat 64-bit or 32-bit memory model is supported depending on the selected multilib
+variant. All AArch64 CPU variants support a built-in MMU for which basic initialization
+for a flat memory model is handled.
+
+Interrupt Processing
+====================
+
+The Reset Vector is determined using RVBAR and is Read-Only. RVBAR is set using
+configuration signals only sampled at reset. The ARMv8 architecture has four
+exception types:
+
+- Synchronous Exception
+
+- Interrupt (IRQ)
+
+- Fast Interrupt (FIQ)
+
+- System Error Exception
+
+Of these types only the synchronous and IRQ exceptions have explicit operating
+system support. It is intentional that the FIQ is not supported by the operating
+system. Without operating system support for the FIQ it is not necessary to
+disable them during critical sections of the system.
+
+Interrupt Levels
+----------------
+
+There are exactly two interrupt levels on ARMv8 with respect to RTEMS. Level
+zero corresponds to interrupts enabled. Level one corresponds to interrupts
+disabled.
+
+Interrupt Stack
+---------------
+
+The board support package must initialize the interrupt stack. The memory for
+the stacks is usually reserved in the linker script.
+
+Default Fatal Error Processing
+==============================
+
+The default fatal error handler for this architecture performs the following
+actions:
+
+- disables operating system supported interrupts (IRQ),
+
+- places the error code in ``x0``, and
+
+- executes an infinite loop to simulate a halt processor instruction.
+
+Symmetric Multiprocessing
+=========================
+
+SMP is not currently supported on ARMv8-A.
+
+Thread-Local Storage
+====================
+
+Thread-local storage is supported.
diff --git a/user/bsps/aarch64/a53.rst b/user/bsps/aarch64/a53.rst
new file mode 100644
index 0000000..0052773
--- /dev/null
+++ b/user/bsps/aarch64/a53.rst
@@ -0,0 +1,26 @@
+.. SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. Copyright (C) 2020 Kinsey Moore, On-Line Applications Research Corporation (OAR)
+
+.. _BSP_aarch64_qemu_a53_ilp32:
+.. _BSP_aarch64_qemu_a53_lp64:
+
+Qemu A53
+========
+
+This BSP supports two variants, `qemu_a53_ilp32` and `qemu-a53_lp64`. The basic
+hardware initialization is performed by the BSP.
+
+Boot via ELF
+------------
+The executable image is booted by Qemu in ELF format.
+
+Clock Driver
+------------
+
+The clock driver uses the `ARM Generic Timer`.
+
+Console Driver
+--------------
+
+The console driver supports the default Qemu emulated ARM PL011 PrimeCell UART.
diff --git a/user/bsps/bsps-aarch64.rst b/user/bsps/bsps-aarch64.rst
index 4b2e749..319310e 100644
--- a/user/bsps/bsps-aarch64.rst
+++ b/user/bsps/bsps-aarch64.rst
@@ -5,4 +5,4 @@
aarch64 (AArch64)
*****************
-There are no AArch64 BSPs yet.
+.. include:: aarch64/a53.rst
--
2.20.1
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