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[bsp/cvitek]update cv18xx series README.md 

update cv18xx series README.md
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flyingcys 2024-04-08 00:35:53 +08:00 committed by GitHub
parent 4ffcbfef2a
commit b1a6508929
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7 changed files with 110 additions and 153 deletions
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5
bsp/cvitek/README.md
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@ -8,13 +8,14 @@
| 芯片名称 | 芯片架构 | 内存大小 | 默认日志串口 | 备注 |
| ------- | ------- |------- | -------- | -------- |
| cv180x | RISC-V C906 | 64MByte | uart0 | 默认开启 MMU运行 RT-SMART 模式 |
| cv180x | RISC-V C906 | 64MByte | uart0 | 支持 MMU 支持 RT-Thread 标准版 和 RT-SMART 模式,默认运行 RT-Thread 标准版本 |
| cv181x | RISC-V C906 或 Cortex A53 通过硬件 IO 二选一 | 64MByte | uart0 | 支持 MMU 支持 RT-Thread 标准版 和 RT-SMART 版,默认运行 RT-Thread 标准版本 |
- 小核
| 目录 | 内存大小 | 默认日志串口 | 备注 |
| ---- | ------- | -------- | --- |
| c906-little | 与大核共享 | uart1 | 无 MMU运行 RT-Thread 标准 |
| c906-little | 与大核共享 | uart1 | 无 MMU运行 RT-Thread 标准 |
> 注:异构芯片需单独编译每个核的 OS

48
bsp/cvitek/cv18xx_risc-v/.config
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@ -8,7 +8,7 @@
#
CONFIG_RT_NAME_MAX=8
# CONFIG_RT_USING_ARCH_DATA_TYPE is not set
CONFIG_RT_USING_SMART=y
# CONFIG_RT_USING_SMART is not set
# CONFIG_RT_USING_NANO is not set
# CONFIG_RT_USING_AMP is not set
# CONFIG_RT_USING_SMP is not set
@ -25,10 +25,10 @@ CONFIG_RT_HOOK_USING_FUNC_PTR=y
# CONFIG_RT_USING_HOOKLIST is not set
CONFIG_RT_USING_IDLE_HOOK=y
CONFIG_RT_IDLE_HOOK_LIST_SIZE=4
CONFIG_IDLE_THREAD_STACK_SIZE=1024
CONFIG_IDLE_THREAD_STACK_SIZE=8192
CONFIG_RT_USING_TIMER_SOFT=y
CONFIG_RT_TIMER_THREAD_PRIO=4
CONFIG_RT_TIMER_THREAD_STACK_SIZE=2048
CONFIG_RT_TIMER_THREAD_STACK_SIZE=8192
#
# kservice optimization
@ -89,7 +89,6 @@ CONFIG_RT_USING_CACHE=y
# CONFIG_ARCH_CPU_STACK_GROWS_UPWARD is not set
# CONFIG_RT_USING_CPU_FFS is not set
CONFIG_ARCH_MM_MMU=y
CONFIG_KERNEL_VADDR_START=0x80000000
CONFIG_ARCH_RISCV=y
CONFIG_ARCH_RISCV64=y
@ -98,7 +97,7 @@ CONFIG_ARCH_RISCV64=y
#
CONFIG_RT_USING_COMPONENTS_INIT=y
CONFIG_RT_USING_USER_MAIN=y
CONFIG_RT_MAIN_THREAD_STACK_SIZE=6144
CONFIG_RT_MAIN_THREAD_STACK_SIZE=8192
CONFIG_RT_MAIN_THREAD_PRIORITY=10
# CONFIG_RT_USING_LEGACY is not set
CONFIG_RT_USING_MSH=y
@ -125,25 +124,14 @@ CONFIG_RT_USING_DFS=y
CONFIG_DFS_USING_POSIX=y
CONFIG_DFS_USING_WORKDIR=y
CONFIG_DFS_FD_MAX=16
# CONFIG_RT_USING_DFS_V1 is not set
CONFIG_RT_USING_DFS_V2=y
# CONFIG_RT_USING_DFS_ELMFAT is not set
CONFIG_RT_USING_DFS_DEVFS=y
# CONFIG_RT_USING_DFS_ROMFS is not set
CONFIG_RT_USING_DFS_PTYFS=y
# CONFIG_RT_USING_DFS_CROMFS is not set
# CONFIG_RT_USING_DFS_TMPFS is not set
# CONFIG_RT_USING_DFS_MQUEUE is not set
CONFIG_RT_USING_PAGECACHE=y
#
# page cache config
#
CONFIG_RT_PAGECACHE_COUNT=4096
CONFIG_RT_PAGECACHE_ASPACE_COUNT=1024
CONFIG_RT_PAGECACHE_PRELOAD=4
CONFIG_RT_PAGECACHE_HASH_NR=1024
CONFIG_RT_PAGECACHE_GC_WORK_LEVEL=90
CONFIG_RT_PAGECACHE_GC_STOP_LEVEL=70
# CONFIG_RT_USING_FAL is not set
#
@ -153,7 +141,7 @@ CONFIG_RT_PAGECACHE_GC_STOP_LEVEL=70
CONFIG_RT_USING_DEVICE_IPC=y
CONFIG_RT_UNAMED_PIPE_NUMBER=64
CONFIG_RT_USING_SYSTEM_WORKQUEUE=y
CONFIG_RT_SYSTEM_WORKQUEUE_STACKSIZE=2048
CONFIG_RT_SYSTEM_WORKQUEUE_STACKSIZE=8192
CONFIG_RT_SYSTEM_WORKQUEUE_PRIORITY=23
CONFIG_RT_USING_SERIAL=y
CONFIG_RT_USING_SERIAL_V1=y
@ -223,11 +211,9 @@ CONFIG_RT_LIBC_TZ_DEFAULT_SEC=0
CONFIG_RT_USING_POSIX_FS=y
CONFIG_RT_USING_POSIX_DEVIO=y
CONFIG_RT_USING_POSIX_STDIO=y
# CONFIG_RT_USING_POSIX_POLL is not set
CONFIG_RT_USING_POSIX_POLL=y
# CONFIG_RT_USING_POSIX_SELECT is not set
# CONFIG_RT_USING_POSIX_EVENTFD is not set
# CONFIG_RT_USING_POSIX_EPOLL is not set
# CONFIG_RT_USING_POSIX_SIGNALFD is not set
# CONFIG_RT_USING_POSIX_TIMERFD is not set
# CONFIG_RT_USING_POSIX_SOCKET is not set
CONFIG_RT_USING_POSIX_TERMIOS=y
@ -280,24 +266,6 @@ CONFIG_RT_USING_ADT_HASHMAP=y
CONFIG_RT_USING_ADT_REF=y
# CONFIG_RT_USING_RT_LINK is not set
# CONFIG_RT_USING_VBUS is not set
CONFIG_RT_USING_LWP=y
# CONFIG_LWP_DEBUG is not set
CONFIG_RT_LWP_MAX_NR=30
CONFIG_LWP_TASK_STACK_SIZE=16384
CONFIG_RT_CH_MSG_MAX_NR=1024
CONFIG_LWP_CONSOLE_INPUT_BUFFER_SIZE=1024
CONFIG_LWP_TID_MAX_NR=64
CONFIG_RT_LWP_SHM_MAX_NR=64
CONFIG_RT_USING_LDSO=y
# CONFIG_ELF_DEBUG_ENABLE is not set
# CONFIG_ELF_LOAD_RANDOMIZE is not set
CONFIG_LWP_USING_TERMINAL=y
CONFIG_LWP_PTY_MAX_PARIS_LIMIT=64
#
# Memory management
#
# CONFIG_RT_USING_MEMBLOCK is not set
#
# RT-Thread Utestcases
@ -1114,6 +1082,6 @@ CONFIG_BSP_USING_CV18XX=y
CONFIG_C906_PLIC_PHY_ADDR=0x70000000
CONFIG_IRQ_MAX_NR=64
CONFIG_TIMER_CLK_FREQ=25000000
CONFIG___STACKSIZE__=4096
CONFIG___STACKSIZE__=8192
# CONFIG_BOARD_TYPE_MILKV_DUO is not set
CONFIG_BOARD_TYPE_MILKV_DUO256M=y

55
bsp/cvitek/cv18xx_risc-v/README.md
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@ -1,7 +1,7 @@
**中文** | [English](README_en.md)
## 概述
CV180ZB/CV1800B/CV1801B 是面向民用消费监控 IP 摄像机、居家智能等多项产品领域而推出的高性能、低功耗芯片,集成了 H.264/H.265 视频压缩编码器和 ISP支持数字寛动态、 3D 降噪、除雾、镜头畸变校正等多种图像增强和矫正算法,为客户提供专业级的视频图像质量。
CV18xx 系列芯片面向民用消费监控 IP 摄像机、居家智能等多项产品领域而推出的高性能、低功耗芯片,集成了 H.264/H.265 视频压缩编码器和 ISP支持数字寛动态、 3D 降噪、除雾、镜头畸变校正等多种图像增强和矫正算法,为客户提供专业级的视频图像质量。
1. 处理器内核
@ -34,30 +34,48 @@ CV180ZB/CV1800B/CV1801B 是面向民用消费监控 IP 摄像机、居家智能
- 一个 USB Host / device 接口
## Toolchain 下载
下载 `riscv64-unknown-linux-musl-gcc` 的工具链: [https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2](https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2)
1. RT-Thread 标准版工具链:`riscv64-unknown-elf-gcc` 下载地址 [https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz](https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz)
2. RT-Smart 版工具链: `riscv64-unknown-linux-musl-gcc` 下载地址 [https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2](https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2)
> 注:
当前 bsp 只支持 Linux 编译
当前 bsp 只支持 Linux 编译,推荐 ubuntu 22.04
正确解压后,在`rtconfig.py`中将 `riscv64-unknown-linux-musl-gcc` 工具链的本地路径加入 `EXEC_PATH` 或通过 `RTT_EXEC_PATH` 环境变量指定路径。
正确解压后,在`rtconfig.py`中将 `riscv64-unknown-elf-gcc` 或 `riscv64-unknown-linux-musl-gcc` 工具链的本地路径加入 `EXEC_PATH` 或通过 `RTT_EXEC_PATH` 环境变量指定路径。
```shell
# RT-Thread 标准版按照以下配置:
$ export RTT_CC_PREFIX=riscv64-unknown-elf-
$ export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin
# RT-Samrt 版按照以下配置:
$ export RTT_CC_PREFIX=riscv64-unknown-linux-musl-
$ export RTT_EXEC_PATH=/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin
```
## 编译
1. 依赖安装
### 依赖安装
```shell
$ sudo apt install -y scons libncurses5-dev device-tree-compiler
```
2. Linux平台下可以先执行
## 修改当前工程配置
Linux平台下执行
```shell
$ scons --menuconfig
```
选择当前需要编译的目标开发板类型:
1. 默认编译为 RT-Thread 标准版,如果需要编译为 RT-Smart 版,请按照如下方式修改:
```shell
RT-Thread Kernel --->
[*] Enable RT-Thread Smart (microkernel on kernel/userland)
(0x80000000) The virtural address of kernel start
```
2. 选择当前需要编译的目标开发板类型:
```shell
Board Type (milkv-duo) --->
( ) milkv-duo
@ -69,7 +87,7 @@ Board Type (milkv-duo) --->
$ source ~/.env/env.sh
$ pkgs --update
```
更新完软件包后,执行 `scons -j10``scons -j10 --verbose` 来编译这个板级支持包。或者通过 `scons --exec-path="GCC工具链路径"` 命令在指定工具链位置的同时直接编译。编译正确无误,会产生 rtthread.elf 文件。
更新完软件包后,执行 `scons -j10``scons -j10 --verbose` 来编译这个板级支持包,编译正确无误,会产生 rtthread.elf 文件。
编译完成后脚本自动调用 `./mksdimg.sh` 脚本进行打包,并生成 `boot.sd`, 该文件即为 SD 卡启动的 kernel 文件。
@ -118,22 +136,9 @@ Starting kernel ...
heap: [0x802766b0 - 0x812766b0]
\ | /
- RT - Thread Smart Operating System
/ | \ 5.0.1 build Jun 28 2023 23:44:36
2006 - 2022 Copyright by RT-Thread team
Hello RT-Smart!
- RT - Thread Operating System
/ | \ 5.1.0 build Apr 7 2024 23:33:20
2006 - 2024 Copyright by RT-Thread team
Hello RISC-V!
msh />
```
## 驱动支持列表
| 驱动 | 支持情况 | 备注 |
| :--- | :------- | :---------------- |
| UART | 支持 | 默认波特率115200 |
## 支持开发板
- milk-v duo: [https://milkv.io/duo](https://milkv.io/duo)
## 联系人信息
维护人:[flyingcys](https://github.com/flyingcys)

109
bsp/cvitek/cv18xx_risc-v/README_en.md
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@ -1,26 +1,26 @@
[中文](README.md) | **English**
## Overview
CV180ZB/CV1800B/CV1801B are high-performance, low-power chips designed for consumer surveillance IP cameras, smart home devices, and other product areas. They integrate H.264/H.265 video compression encoders and ISPs, and support various image enhancement and correction algorithms such as digital wide dynamic range, 3D noise reduction, defogging, and lens distortion correction, providing professional-grade video image quality to customers.
The CV18xx series of chips are high-performance, low-power chips launched for various products in the field of civilian consumer surveillance IP cameras, smart homes, and more. These chips integrate H.264/H.265 video compression encoders, as well as ISP; they support various image enhancement and correction algorithms such as digital wide dynamic range, 3D noise reduction, defogging, and lens distortion correction, providing customers with professional-level video image quality.
1. Processor Core
- Main processor: RISCV C906 @ 1.0Ghz
- Main Processor: RISC-V C906 @ 1.0Ghz
- 32KB I-cache, 64KB D-Cache
- Integrated vector and floating-point units (FPU).
- Coprocessor: RISCV C906 @ 700Mhz
- Integrated floating-point unit (FPU).
- Integrated Vector and Floating-Point Unit (FPU).
- Co-processor: RISC-V C906 @ 700Mhz
- Integrated Floating-Point Unit (FPU)
2. Memory Interface
- Built-in DRAM: DDR2 16bitx1, with a maximum speed of 1333Mbps, capacity of 512Mbit (64MB).
2. Storage Interface
- Built-in DRAM: DDR2 16bitx1, with a maximum speed of 1333Mbps, and a capacity of 512Mbit (64MB)
- Support for SPI NOR flash interface (1.8V / 3.0V)
- Support for 1, 2, 4-wire modes
- Maximum support of 256MBytes
- Supports 1, 2, 4 line modes
- Maximum support of 256MByte
- Support for SPI Nand flash interface (1.8V / 3.0V)
- Support for 1KB/2KB/4KB page (corresponding to a maximum capacity of 16GB/32GB/64GB)
- Use the built-in ECC module of the device itself
- Supports 1KB/2KB/4KB page (corresponding to maximum capacity of 16GB/32GB/64GB)
- Utilizes the device's built-in ECC module
3. Peripherals
- Up to 26 GPIO pins on the MilkV-Duo 40-pin header provide access to internal peripherals such as SDIO, I2C, PWM, SPI, J-TAG, and UART.
- Up to 26 GPIO pins on the MilkV-Duo 40-pin header provide access to internal peripherals such as SDIO, I2C, PWM, SPI, J-TAG, and UART
- Up to 3x I2C
- Up to 5x UART
- Up to 1x SDIO1
@ -29,58 +29,75 @@ CV180ZB/CV1800B/CV1801B are high-performance, low-power chips designed for consu
- Up to 7x PWM
- Up to 1x RUN
- Up to 1x JTAG
- Integrated MAC PHY supporting 10/100Mbps full-duplex or half-duplex mode
- One USB Host / device interface
- Integrated MAC PHY supports 10/100Mbps full or half duplex mode
- One USB host/device interface
## Toolchain Download
Download the `riscv64-unknown-linux-musl-gcc` toolchain from: [https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2](https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2)
1. RT-Thread Standard Edition Toolchain: `riscv64-unknown-elf-gcc` Download Link [https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz](https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz)
2. RT-Smart Edition Toolchain: `riscv64-unknown-linux-musl-gcc` Download Link [https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2](https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2)
> Note:
The current BSP only supports Linux compilation.
The current bsp only supports Linux compilation, and it is recommended to use Ubuntu 22.04
After correct extraction, add the local path of the `riscv64-unknown-linux-musl-gcc` toolchain to `EXEC_PATH` in `rtconfig.py`, or specify the path through the `RTT_EXEC_PATH` environment variable.
After correctly extracting, add the local path of the `riscv64-unknown-elf-gcc` or `riscv64-unknown-linux-musl-gcc` toolchain to `EXEC_PATH` in `rtconfig.py` or specify the path through the `RTT_EXEC_PATH` environment variable.
```shell
# For RT-Thread Standard Edition, use the following configuration:
$ export RTT_CC_PREFIX=riscv64-unknown-elf-
$ export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin
# For RT-Smart Edition, use the following configuration:
$ export RTT_CC_PREFIX=riscv64-unknown-linux-musl-
$ export RTT_EXEC_PATH=/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin
```
## Compilation
1. Installing Dependencies
```shell
$ sudo apt install -y device-tree-compiler
```
On the Linux platform, you can execute:
### Dependency Installation
```shell
$ sudo apt install -y scons libncurses5-dev device-tree-compiler
```
## Modify Current Project Configuration
For the Linux platform, execute:
```shell
$ scons --menuconfig
```
Select the type of target board that you want to compile:
1. By default, compile as RT-Thread Standard Edition. If you need to compile as RT-Smart Edition, modify as follows:
```shell
RT-Thread Kernel --->
[*] Enable RT-Thread Smart (microkernel on kernel/userland)
(0x80000000) The virtual address of kernel start
```
2. Select the current target development board type:
```shell
Board Type (milkv-duo) --->
( ) milkv-duo
(X) milkv-duo256m
```
It will automatically download environment-related scripts to the ~/.env directory, and then execute
It will automatically download relevant scripts to the ~/.env directory, then execute:
```shell
$ source ~/.env/env.sh
$ pkgs --update
```
After updating the software package, execute `scons -j10` or `scons -j10 --verbose` to compile this board support package. If the compilation is successful, an rtthread.elf file will be generated.
After updating the software packages, use `scons -j10` or `scons -j10 --verbose` to compile this board support package. Alternatively, you can use the command `scons --exec-path="GCC_toolchain_path"` to specify the toolchain location for compilation. If the compilation is successful, an rtthread.elf file will be generated.
After the compilation is completed, the script automatically calls the `./mksdimg.sh` script to package and generate the `boot.sd` file, which is the kernel file for SD card boot.
After the compilation is complete, the script automatically calls the `./mksdimg.sh` script to package and generate `boot.sd`, which is the kernel file for SD card startup.
## Running
1. Divide the SD card into 2 partitions, with the first partition used to store bin files and the second partition used as a data storage partition. The partition format is FAT32.
2. Copy the `fip.bin` and `boot.sd` files from the root directory to the first partition of the SD card. For subsequent firmware updates, you only need to copy the `boot.sd` file.
1. Divide the SD card into 2 partitions, with the first partition used to store bin files, and the second partition used as a data storage partition, with `FAT32` format.
2. Copy the `fip.bin` and `boot.sd` files from the root directory to the first partition of the SD card. Subsequent firmware updates only require copying the `boot.sd` file.
Where:
- fip.bin: the bin file after fsbl、opensbi and U-Boot are packaged
- boot.sd: the bin file after the kernel is packaged
- fip.bin: fsbl, opensbi, and uboot packaged bin file
- boot.sd: kernel packaged bin file
After updating `boot.sd`, power on again and you will see the serial output information:
After updating `boot.sd`, restart to see the serial port output:
```shell
U-Boot 2021.10 (Jun 26 2023 - 14:09:06 +0800)cvitek_cv180x
@ -92,10 +109,10 @@ Loading Environment from <NULL>... OK
In: serial
Out: serial
Err: serial
Net:
Net:
Warning: ethernet@4070000 (eth0) using random MAC address - 62:80:19:6c:d4:64
eth0: ethernet@4070000
Hit any key to stop autoboot: 0
Hit any key to stop autoboot: 0
Boot from SD ...
switch to partitions #0, OK
mmc0 is current device
@ -118,21 +135,9 @@ Starting kernel ...
heap: [0x802766b0 - 0x812766b0]
\ | /
- RT - Thread Smart Operating System
/ | \ 5.0.1 build Jun 28 2023 23:44:36
2006 - 2022 Copyright by RT-Thread team
Hello RT-Smart!
- RT - Thread Operating System
/ | \ 5.1.0 build Apr 7 2024 23:33:20
2006 - 2024 Copyright by RT-Thread team
Hello RISC-V!
msh />
```
## Driver Support List
| Driver | Support Status | Remarks |
| :----- | :------------- | :--------------------- |
| UART | Supported | Default baud rate 115200 |
## Supported Development Boards
- milk-v duo: [https://milkv.io/duo](https://milkv.io/duo)
## Contact information
Maintenance person[flyingcys](https://github.com/flyingcys)
```

5
bsp/cvitek/cv18xx_risc-v/applications/main.c
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@ -13,7 +13,10 @@
int main(void)
{
#ifdef RT_USING_SMART
rt_kprintf("Hello RT-Smart!\n");
#else
rt_kprintf("Hello RISC-V!\n");
#endif
return 0;
}

37
bsp/cvitek/cv18xx_risc-v/rtconfig.h
View File

@ -7,7 +7,6 @@
/* RT-Thread Kernel */
#define RT_NAME_MAX 8
#define RT_USING_SMART
#define RT_CPUS_NR 1
#define RT_ALIGN_SIZE 8
#define RT_THREAD_PRIORITY_32
@ -18,10 +17,10 @@
#define RT_HOOK_USING_FUNC_PTR
#define RT_USING_IDLE_HOOK
#define RT_IDLE_HOOK_LIST_SIZE 4
#define IDLE_THREAD_STACK_SIZE 1024
#define IDLE_THREAD_STACK_SIZE 8192
#define RT_USING_TIMER_SOFT
#define RT_TIMER_THREAD_PRIO 4
#define RT_TIMER_THREAD_STACK_SIZE 2048
#define RT_TIMER_THREAD_STACK_SIZE 8192
/* kservice optimization */
@ -57,7 +56,6 @@
#define ARCH_CPU_64BIT
#define RT_USING_CACHE
#define ARCH_MM_MMU
#define KERNEL_VADDR_START 0x80000000
#define ARCH_RISCV
#define ARCH_RISCV64
@ -65,7 +63,7 @@
#define RT_USING_COMPONENTS_INIT
#define RT_USING_USER_MAIN
#define RT_MAIN_THREAD_STACK_SIZE 6144
#define RT_MAIN_THREAD_STACK_SIZE 8192
#define RT_MAIN_THREAD_PRIORITY 10
#define RT_USING_MSH
#define RT_USING_FINSH
@ -90,24 +88,13 @@
#define DFS_FD_MAX 16
#define RT_USING_DFS_V2
#define RT_USING_DFS_DEVFS
#define RT_USING_DFS_PTYFS
#define RT_USING_PAGECACHE
/* page cache config */
#define RT_PAGECACHE_COUNT 4096
#define RT_PAGECACHE_ASPACE_COUNT 1024
#define RT_PAGECACHE_PRELOAD 4
#define RT_PAGECACHE_HASH_NR 1024
#define RT_PAGECACHE_GC_WORK_LEVEL 90
#define RT_PAGECACHE_GC_STOP_LEVEL 70
/* Device Drivers */
#define RT_USING_DEVICE_IPC
#define RT_UNAMED_PIPE_NUMBER 64
#define RT_USING_SYSTEM_WORKQUEUE
#define RT_SYSTEM_WORKQUEUE_STACKSIZE 2048
#define RT_SYSTEM_WORKQUEUE_STACKSIZE 8192
#define RT_SYSTEM_WORKQUEUE_PRIORITY 23
#define RT_USING_SERIAL
#define RT_USING_SERIAL_V1
@ -139,6 +126,7 @@
#define RT_USING_POSIX_FS
#define RT_USING_POSIX_DEVIO
#define RT_USING_POSIX_STDIO
#define RT_USING_POSIX_POLL
#define RT_USING_POSIX_TERMIOS
#define RT_USING_POSIX_DELAY
#define RT_USING_POSIX_CLOCK
@ -164,19 +152,6 @@
#define RT_USING_ADT_BITMAP
#define RT_USING_ADT_HASHMAP
#define RT_USING_ADT_REF
#define RT_USING_LWP
#define RT_LWP_MAX_NR 30
#define LWP_TASK_STACK_SIZE 16384
#define RT_CH_MSG_MAX_NR 1024
#define LWP_CONSOLE_INPUT_BUFFER_SIZE 1024
#define LWP_TID_MAX_NR 64
#define RT_LWP_SHM_MAX_NR 64
#define RT_USING_LDSO
#define LWP_USING_TERMINAL
#define LWP_PTY_MAX_PARIS_LIMIT 64
/* Memory management */
/* RT-Thread Utestcases */
@ -312,7 +287,7 @@
#define C906_PLIC_PHY_ADDR 0x70000000
#define IRQ_MAX_NR 64
#define TIMER_CLK_FREQ 25000000
#define __STACKSIZE__ 4096
#define __STACKSIZE__ 8192
#define BOARD_TYPE_MILKV_DUO256M
#endif

4
bsp/cvitek/cv18xx_risc-v/rtconfig.py
View File

@ -16,7 +16,7 @@ if os.getenv('RTT_CC'):
if CROSS_TOOL == 'gcc':
PLATFORM = 'gcc'
EXEC_PATH = r'/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin'
EXEC_PATH = r'/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin'
else:
print('Please make sure your toolchains is GNU GCC!')
exit(0)
@ -30,7 +30,7 @@ CHIP_TYPE = 'cv180x'
if PLATFORM == 'gcc':
# toolchains
#PREFIX = 'riscv64-unknown-elf-'
PREFIX = os.getenv('RTT_CC_PREFIX') or 'riscv64-unknown-linux-musl-'
PREFIX = os.getenv('RTT_CC_PREFIX') or 'riscv64-unknown-elf-'
CC = PREFIX + 'gcc'
CXX = PREFIX + 'g++'
AS = PREFIX + 'gcc'