rsta2 / circle

A C++ bare metal environment for Raspberry Pi with USB (32 and 64 bit)
https://circle-rpi.readthedocs.io
GNU General Public License v3.0
1.87k stars 249 forks source link
bare-metal c-plus-plus raspberry-pi tcp-ip usb

Circle

Overview

Circle is a C++ bare metal programming environment for the Raspberry Pi. It should be usable on all existing models (tested on model A+, B, B+, on Raspberry Pi 2, 3, 4, 400, 5 and on Raspberry Pi Zero), except on the Raspberry Pi Pico, which is not supported. Circle provides several ready-tested C++ classes and add-on libraries, which can be used to control different hardware features of the Raspberry Pi. Together with Circle there are delivered several sample programs, which demonstrate the use of its classes. Circle can be used to create 32-bit or 64-bit bare metal applications.

Circle includes bigger (optional) third-party C-libraries for specific purposes in addon/ now. This is the reason why GitHub rates the project as a C-language-project. The main Circle libraries are written in C++ using classes instead. That's why it is called a C++ programming environment.

The 48th Step

This release comes with USB mass-storage device gadget support. test/usb-msd-gadget shows, how this can be used to provide direct access to the SD card via USB. Furthermore this version supports HDMI sound for the Raspberry Pi 5. The sound samples and tests have been updated to use this. The Raspberry Pi 5 with BCM2712 stepping D0 is supported. The LVGL support has been updated to version 9.2.0.

The network library has been updated to support the receiving of ICMP packets in applications. This is used in test/ping-client to implement a ping client. Raspberry Pi models without an on-board Ethernet NIC can be used with RTL8152 and RTL8153 USB Ethernet adapters to access a network.

The platform DMA controller drivers support cyclic write transfers now. To implement this, it was necessary to extend the type TDMACompletionRoutine by a buffer index. If you directly use DMA transfers in your application, you have to update your DMA completion routine.

There is a complete rewrite of the Flashy serial bootloader tool in C, which is called cFlashy and which does not need a Node-JS environment any more. You can define USEFLASHY=0 in the file Config.mk to enable it. See doc/bootloader.txt for details.

More news:

Fixes:

The recommended firmware version has been updated and is required to use the Raspberry Pi 5 with BCM2712 stepping D0. Please note that the file bcm2712d0.dtbo has to be copied into the directory overlays/ on the SD card.

Features

Only the features with a "x" or other info are currently supported on the Raspberry Pi 5.

Circle supports the following features:

Group Features Raspberry Pi 5
C++ build environment AArch32 and AArch64 support AArch64 only
Basic library functions (e.g. new and delete) x
Enables all CPU caches using the MMU x
Interrupt support (IRQ and FIQ) IRQ only
Multi-core support (Raspberry Pi 2, 3 and 4) x
Cooperative non-preemtive scheduler x
CPU clock rate management x
Clang/LLVM support (experimental) x
Debug support Kernel logging to screen, UART and/or syslog server x
C-assertions with stack trace x
Hardware exception handler with stack trace x
GDB support using rpi_stub (Raspberry Pi 2 and 3)
Serial bootloader (by David Welch) included x
Software profiling support (single-core) x
QEMU support
SoC devices GPIO pins (with interrupt, Act LED) and clocks x
Frame buffer (screen driver with escape sequences) limited
UART(s) (Polling and interrupt driver) x
System timer (with kernel timers) x
Platform DMA controller DMA40 only
RP1 platform DMA controller (Raspberry Pi 5 only) x
EMMC SD card interface driver x
SDHOST SD card interface driver (Raspberry Pi 1-3)
PWM output (2 channels) 4 channels
PWM sound output (on headphone jack) with adapter
I2C master(s) and slave masters only
SPI0 master (Polling and DMA driver) x
SPI1 auxiliary master (Polling)
SPI3-6 masters of Raspberry Pi 4 (Polling) SPI1-3 and 5
SMI master
I2S sound output and input x
HDMI sound output (without VCHIQ) x
Hardware random number generator x
Watchdog device x
Official Raspberry Pi touch screen (v1 only)
VCHIQ interface and audio service drivers
BCM54213PE Gigabit Ethernet NIC of Raspberry Pi 4
MACB / GEM Gigabit Ethernet NIC of Raspberry Pi 5 x
Wireless LAN access x
USB Host controller interface (HCI) drivers x
Standard hub driver (USB 2.0 only) x
HID class device drivers (keyboard, mouse, gamepad) x
Driver for on-board Ethernet device (SMSC951x)
Driver for on-board Ethernet device (LAN7800)
Driver for CDC Ethernet devices (RTL815x, QEMU)
Driver for USB mass storage devices (bulk only) x
Driver for USB audio streaming devices (RPi 4 only) x
Drivers for different USB serial devices x
Audio class MIDI input support x
Touchscreen driver (digitizer mode) x
Printer driver x
MIDI gadget driver
Serial CDC gadget driver
Mass-storage device gadget driver
File systems Internal FAT driver (limited function) x
FatFs driver (full function, by ChaN) x
TCP/IP networking Protocols: ARP, IP, ICMP, UDP, TCP x
Clients: DHCP, DNS, NTP, HTTP, Syslog, MQTT, mDNS x
Servers: HTTP, TFTP x
BSD-like C++ socket API x
Graphics OpenGL ES 1.1 and 2.0, OpenVG 1.1, EGL 1.4
(not on Raspberry Pi 4)
uGUI (by Achim Doebler)
LVGL (by LVGL Kft) x
2D graphics class in base library
Not supported Bluetooth

Building

For building 64-bit applications (AArch64) see the next section.

Circle does not support 32-bit applications on the Raspberry Pi 5.

This describes building on PC Linux. See the file doc/windows-build.txt for information about building on Windows. If building for the Raspberry Pi 1 you need a toolchain for the ARM1176JZF core (with EABI support). For Raspberry Pi 2/3/4 you need a toolchain with Cortex-A7/-A53/-A72 support. A toolchain, which works for all of these, can be downloaded here. Circle has been tested with the version 13.2.Rel1 (arm-gnu-toolchain-13.2.rel1-x86_64-arm-none-eabi.tar.xz) from this website. This is the recommended toolchain for AArch32 builds.

First edit the file Rules.mk and set the Raspberry Pi version (RASPPI, 1, 2, 3 or 4) and the PREFIX of your toolchain commands. Alternatively you can create a Config.mk file (which is ignored by git) and set the Raspberry Pi version and the PREFIX variable to the prefix of your compiler like this (don't forget the dash at the end):

RASPPI = 1
PREFIX = arm-none-eabi-

The following table gives support for selecting the right RASPPI value:

RASPPI Target Models Optimized for
1 kernel.img A, B, A+, B+, Zero, (CM) ARM1176JZF-S
2 kernel7.img 2, 3, Zero 2, (CM3) Cortex-A7
3 kernel8-32.img 3, Zero 2, (CM3) Cortex-A53
4 kernel7l.img 4B, 400, CM4 Cortex-A72

For a binary distribution you should do one build with RASPPI = 1, one with RASPPI = 2 and one build with RASPPI = 4 and include the created files kernel.img, kernel7.img and kernel7l.img. Optionally you can do a build with RASPPI = 3 and add the created file kernel8-32.img to provide an optimized version for the Raspberry Pi 3.

The configuration file Config.mk can be created using the configure tool too. Please enter ./configure -h for help on using it!

There are a number of configurable system options in the file include/circle/sysconfig.h. Please have a look into this file to learn, how you can configure Circle for your purposes. Some hardware configurations may require modifications to these options (e.g. using USB on the CM4).

Then go to the build root of Circle and do:

./makeall clean
./makeall

By default only the Circle libraries are built. To build a sample program after makeall go to its subdirectory and do make.

You can also build Circle on the Raspberry Pi itself (set PREFIX = (empty)) on Raspbian but you need some method to put the kernel.img file onto the SD(HC) card. With an external USB card reader on model B+ or Raspberry Pi 2/3/4 model B (4 USB ports) this should be no problem.

AArch64

Circle supports building 64-bit applications, which can be run on the Raspberry Pi 3, 4 or 5. There are also Raspberry Pi 2 versions and the Raspberry Pi Zero 2, which are based on the BCM2837 SoC. These Raspberry Pi versions can be used too (with RASPPI = 3).

The recommended toolchain to build 64-bit applications with Circle can be downloaded here. Circle has been tested with the version 13.2.Rel1 (arm-gnu-toolchain-13.2.rel1-x86_64-aarch64-none-elf.tar.xz) from this website. This is the recommended toolchain for AArch64 builds.

There are distro-provided toolchains on certain Linux platforms (e.g. g++-aarch64-linux-gnu on Ubuntu or gcc-c++-aarch64-linux-gnu on Fedora), which may work with Circle and can be a quick way to use it, but you have to test this by yourself. If you encounter problems (e.g. no reaction at all, link failure with external library) using a distro-provided toolchain, please try the recommended toolchain (see above) first, before reporting an issue.

First edit the file Rules.mk and set the Raspberry Pi architecture (AARCH, 32 or 64) and the PREFIX64 of your toolchain commands. The RASPPI variable has to be set to 3, 4 or 5 for AARCH = 64. Alternatively you can create a Config.mk file (which is ignored by git) and set the Raspberry Pi architecture and the PREFIX64 variable to the prefix of your compiler like this (don't forget the dash at the end):

AARCH = 64
RASPPI = 3
PREFIX64 = aarch64-none-elf-

The configuration file Config.mk can be created using the configure tool too. Please enter ./configure -h for help on using it!

Then go to the build root of Circle and do:

./makeall clean
./makeall

By default only the Circle libraries are built. To build a sample program after makeall go to its subdirectory and do make.

Installation

Copy the Raspberry Pi firmware (from boot/ directory, do make there to get them) files along with the kernel*.img (from sample/ subdirectory) to a SD(HC) card with FAT file system.

It is now always recommended to copy the file config32.txt (for 32-bit mode) or config64.txt (for 64-bit mode) from the boot/ directory to the SD(HC) card and to rename it to config.txt there. These files are especially required to enable FIQ use on the Raspberry Pi 4. Furthermore the additional file armstub7-rpi4.bin (for 32-bit mode) or armstub8-rpi4.bin (for 64-bit mode) is required on the SD card then. Please see boot/README for information on how to build these files.

Finally put the SD(HC) card into the Raspberry Pi.

Directories

Classes

The following C++ classes were added to Circle:

USB gadget library

Net library

The available Circle classes are listed in the file doc/classes.txt. If you have Doxygen installed on your computer you can build a class documentation in doc/html/ using:

./makedoc

At the moment there are only a few classes described in detail for Doxygen.

Additional Topics

Trademarks

Raspberry Pi is a trademark of Raspberry Pi Ltd.

Linux is a trademark of Linus Torvalds.

PS3 and PS4 are registered trademarks of Sony Computer Entertainment Inc.

Windows, Xbox 360 and Xbox One are trademarks of the Microsoft group of companies.

Nintendo Switch is a trademark of Nintendo.

Khronos and OpenVG are trademarks of The Khronos Group Inc.

OpenGL ES is a trademark of Silicon Graphics Inc.

The micro:bit brand belongs to the Micro:bit Educational Foundation.

HDMI is a registered trademark of HDMI Licensing Administrator, Inc.