8e10983c9b | ||
---|---|---|
.. | ||
applications | ||
driver | ||
.config | ||
.gitignore | ||
Kconfig | ||
README.md | ||
README_cn.md | ||
SConscript | ||
SConstruct | ||
link.lds | ||
link_smart.lds | ||
link_stacksize.lds | ||
qemu-dbg.sh | ||
qemu-dumpdtb.sh | ||
qemu-nographic.bat | ||
qemu-nographic.sh | ||
qemu-rv64ilp32-nographic.sh | ||
qemu-v-dbg.sh | ||
qemu-v-nographic.sh | ||
rtconfig.h | ||
rtconfig.py | ||
smart-env.bat |
README.md
QEMU/RISCV64 VIRT Board Support Package User Guide
English | 中文
1. Introduction
RISC-V is an open and free instruction set architecture (ISA). This project is a port on the RISCV64 VIRT version of QEMU.
This project supports the world's first rv64ilp32 product-level open source toolchain jointly launched by the Xuantie team and the Institute of Software of the Chinese Academy of Sciences.
2. Building
Working system: take Ubuntu 22.04 as an example:
$ lsb_release -a
No LSB modules are available.
Distributor ID: Ubuntu
Description: Ubuntu 22.04.2 LTS
Release: 22.04
Codename: jammy
2.1. Installing the toolchain
The specific toolchain used is consistent with the official RT-Thread. For the specific toolchain version, please refer to the file https://github.com/RT-Thread/rt-thread/blob/master/.github/workflows/action_utest.yml in the RT-Thread repository.
- name: Install RISC-V ToolChains
if: ${{ matrix.legs.QEMU_ARCH == 'riscv64' && matrix.legs.UTEST != 'rtsmart/riscv64' && success() }}
run: |
wget -q https://github.com/RT-Thread/toolchains-ci/releases/download/v1.4/riscv64-unknown-elf-toolchain-10.2.0-2020.12.8-x86_64-linux-ubuntu14.tar.gz
sudo tar zxvf riscv64-unknown-elf-toolchain-10.2.0-2020.12.8-x86_64-linux-ubuntu14.tar.gz -C /opt
/opt/riscv64-unknown-elf-toolchain-10.2.0-2020.12.8-x86_64-linux-ubuntu14/bin/riscv64-unknown-elf-gcc --version
echo "RTT_EXEC_PATH=/opt/riscv64-unknown-elf-toolchain-10.2.0-2020.12.8-x86_64-linux-ubuntu14/bin" >> $GITHUB_ENV
- name: Install RISC-V Musl ToolChains
if: ${{ matrix.legs.QEMU_ARCH == 'riscv64' && matrix.legs.UTEST == 'rtsmart/riscv64' && success() }}
shell: bash
run: |
wget -q https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2
sudo tar xjf riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2 -C /opt
/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin/riscv64-unknown-linux-musl-gcc --version
echo "RTT_EXEC_PATH=/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin" >> $GITHUB_ENV
echo "RTT_CC_PREFIX=riscv64-unknown-linux-musl-" >> $GITHUB_ENV
Among them, riscv64-unknown-elf-gcc
is used to build the RT-Thread Standard version, and riscv64-unknown-linux-musl-gcc
is used to build the RT-Thread Smart version. Download them to your local computer according to the links shown above and decompress them.
2.2. Setting RT-Thread toolchain environment variables
There are three environment variables related to the RT-Thread toolchain
RTT_CC
is the toolchain name, which is"gcc"
hereRTT_CC_PREFIX
: is the toolchain prefix, which is"riscv64-unknown-elf-"
for the Standard version and"riscv64-unknown-linux-musl-"
for the Smart version.RTT_EXEC_PATH
: the path where the bin folder of the toolchain is located, such as"$HOME/tools/riscv64-unknown-elf-toolchain-10.2.0-2020.12.8-x86_64-linux-ubuntu14/bin"
. This is set according to the actual path after personal download and decompression. Note that the toolchains of the RT-Thread standard version and the Smart version are two different versions, and the path name ofRTT_EXEC_PATH
must be set tobin
.
If you use them all the time, it is recommended to export these three environment variables in the .bashrc
file.
2.3. Downloading the kernel
Assume that the working path is $WORKSPACE
.
$ cd $WORKSPACE
$ git clone git@github.com:RT-Thread/rt-thread.git
Note: This document is based on the kernel version git commit ID: ebe2926cd6
.
Enter the BSP directory where qemu-virt64-riscv is located. The following operations will not be introduced separately. By default, it is in this directory.
$ cd $WORKSPACE/rt-thread/bsp/qemu-virt64-riscv
2.4. Configuring the kernel
Refresh the configuration file before compiling for the first time.
$ scons --menuconfig
The default configuration is the RT-Thread standard version, so if you don't have any special requirements, don't change anything, just save and exit.
If you want to use the RT-Thread Smart version, at least turn on the RT_USING_SMART
option after entering the configuration menu (see the figure below), and the rest depends on your needs.
(Top) → RT-Thread Kernel
RT-Thread Project Configuration
(24) The maximal size of kernel object name
[ ] Use the data types defined in ARCH_CPU
[*] Enable RT-Thread Smart (microkernel on kernel/userland)
[ ] Enable RT-Thread Nano
...
Save and exit after modification.
2.5. Compiling the kernel
If you have compiled before, you can clean it up:
$ scons --clean
Or compile directly:
$ scons -j$(nproc)
The kernel binary file rtthread.bin
will be generated in the $WORKSPACE/rt-thread/bsp/qemu-virt64-riscv
.
3. Running
3.1. Installing QEMU
$ sudo apt update
$ sudo apt install qemu-system-misc
After the installation is complete, you can check the version.
$ qemu-system-riscv64 --version
QEMU emulator version 6.2.0 (Debian 1:6.2+dfsg-2ubuntu6.24)
Copyright (c) 2003-2021 Fabrice Bellard and the QEMU Project developers
3.2. Running QEMU
The repository has provided a ready-made execution script, which can be executed directly:
$ ./qemu-nographic.sh
The running results of the RT-Thread Standard version are as follows:
$ ./qemu-nographic.sh
OpenSBI v0.9
____ _____ ____ _____
/ __ \ / ____| _ \_ _|
| | | |_ __ ___ _ __ | (___ | |_) || |
| | | | '_ \ / _ \ '_ \ \___ \| _ < | |
| |__| | |_) | __/ | | |____) | |_) || |_
\____/| .__/ \___|_| |_|_____/|____/_____|
| |
|_|
Platform Name : riscv-virtio,qemu
Platform Features : timer,mfdeleg
Platform HART Count : 1
Firmware Base : 0x80000000
Firmware Size : 100 KB
Runtime SBI Version : 0.2
Domain0 Name : root
Domain0 Boot HART : 0
Domain0 HARTs : 0*
Domain0 Region00 : 0x0000000080000000-0x000000008001ffff ()
Domain0 Region01 : 0x0000000000000000-0xffffffffffffffff (R,W,X)
Domain0 Next Address : 0x0000000080200000
Domain0 Next Arg1 : 0x000000008f000000
Domain0 Next Mode : S-mode
Domain0 SysReset : yes
Boot HART ID : 0
Boot HART Domain : root
Boot HART ISA : rv64imafdcsu
Boot HART Features : scounteren,mcounteren,time
Boot HART PMP Count : 16
Boot HART PMP Granularity : 4
Boot HART PMP Address Bits: 54
Boot HART MHPM Count : 0
Boot HART MHPM Count : 0
Boot HART MIDELEG : 0x0000000000000222
Boot HART MEDELEG : 0x000000000000b109
heap: [0x8028d8a8 - 0x8428d8a8]
\ | /
- RT - Thread Operating System
/ | \ 5.2.0 build Nov 14 2024 15:41:57
2006 - 2024 Copyright by RT-Thread team
lwIP-2.0.3 initialized!
[I/sal.skt] Socket Abstraction Layer initialize success.
[I/utest] utest is initialize success.
[I/utest] total utest testcase num: (0)
file system initialization done!
Hello RISC-V
msh />
The running results of RT-Thread Smart version are as follows:
$ ./qemu-nographic.sh
OpenSBI v0.9
____ _____ ____ _____
/ __ \ / ____| _ \_ _|
| | | |_ __ ___ _ __ | (___ | |_) || |
| | | | '_ \ / _ \ '_ \ \___ \| _ < | |
| |__| | |_) | __/ | | |____) | |_) || |_
\____/| .__/ \___|_| |_|_____/|____/_____|
| |
|_|
Platform Name : riscv-virtio,qemu
Platform Features : timer,mfdeleg
Platform HART Count : 1
Firmware Base : 0x80000000
Firmware Size : 100 KB
Runtime SBI Version : 0.2
Domain0 Name : root
Domain0 Boot HART : 0
Domain0 HARTs : 0*
Domain0 Region00 : 0x0000000080000000-0x000000008001ffff ()
Domain0 Region01 : 0x0000000000000000-0xffffffffffffffff (R,W,X)
Domain0 Next Address : 0x0000000080200000
Domain0 Next Arg1 : 0x000000008f000000
Domain0 Next Mode : S-mode
Domain0 SysReset : yes
Boot HART ID : 0
Boot HART Domain : root
Boot HART ISA : rv64imafdcsu
Boot HART Features : scounteren,mcounteren,time
Boot HART PMP Count : 16
Boot HART PMP Granularity : 4
Boot HART PMP Address Bits: 54
Boot HART MHPM Count : 0
Boot HART MHPM Count : 0
Boot HART MIDELEG : 0x0000000000000222
Boot HART MEDELEG : 0x000000000000b109
heap: [0x002ef030 - 0x042ef030]
\ | /
- RT - Thread Smart Operating System
/ | \ 5.2.0 build Nov 14 2024 15:48:43
2006 - 2024 Copyright by RT-Thread team
lwIP-2.0.3 initialized!
[I/sal.skt] Socket Abstraction Layer initialize success.
[I/utest] utest is initialize success.
[I/utest] total utest testcase num: (0)
[I/drivers.serial] Using /dev/ttyS0 as default console
file system initialization done!
Hello RISC-V
msh />
4. How to use rv64ilp32 toolchain
-
Toolchain address: https://github.com/ruyisdk/riscv-gnu-toolchain-rv64ilp32/tags
-
Usage:
-
Configure toolchain path
-
Modify ABI parameter to:
-mabi=ilp32d
-
Then perform regular compilation
-
Use script to start QEMU (INFO: QEMU binary is also in the toolchain directory)
-
-
Compare the firmware size of the same project compiled using the traditional 64-bit toolchain and the new 32-bit toolchain:
Traditional 64-bit toolchain firmware size:
Memory region Used Size Region Size %age Used SRAM: 225856 B 16 MB 1.35% riscv64-unknown-elf-objcopy -O binary rtthread.elf rtthread.bin riscv64-unknown-elf-size rtthread.elf text data bss dec hex filename 150907 3664 71268 225839 3722f rtthread.elf
New 32-bit toolchain firmware size:
Memory region Used Size Region Size %age Used SRAM: 209376 B 16 MB 1.25% riscv64-unknown-elf-objcopy -O binary rtthread.elf rtthread.bin riscv64-unknown-elf-size rtthread.elf text data bss dec hex filename 138739 1356 69276 209371 331db rtthread.elf
5. Contact information
Maintainer: bernard