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add bl808-d0 spi && i2c

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flyingcys 2023-06-30 06:50:24 +08:00 committed by guo
parent a901828541
commit 2d087c04a4
19 changed files with 954 additions and 49 deletions
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bsp/bouffalo_lab/README.md
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[English](README_en.md) | **中文**
# bouffalo_lab bsp
## 1. 简介
@ -149,7 +150,7 @@ Windows下推荐使用[env工具][1]在console下进入bsp/bouffalo_lab/bl61x
4. 点击"Download"开始下载
![Flash Download](figures/bouffalo_flash_cube.jpg)
![Flash Download](figures/bouffalo_flash_cube.png)
@ -170,7 +171,7 @@ Windows下推荐使用[env工具][1]在console下进入bsp/bouffalo_lab/bl61x
如果编译 & 烧写无误当复位设备后会在串口上看到RT-Thread的启动logo信息
![terminal](figures/rt-thread.jpg)
![terminal](figures/rt-thread.png)
@ -199,6 +200,7 @@ Windows下推荐使用[env工具][1]在console下进入bsp/bouffalo_lab/bl61x
| WDT | 支持 | |
| HWTIMER | 支持 | |
| FLASH | 支持 | |
| SDCARD | 支持 | |

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**English** | [中文](README.md)
# bouffalo_lab bsp
## 1. Introduction
bouffalo_lab bsp is a board support package for bouffalo_lab's series of AIoT chips. It adopts the latest **LHAL** driver library from bouffalo_lab, which is synchronized with the [bouffalo_sdk](https://github.com/bouffalolab/bouffalo_sdk) (formerly known as bl_mcu_sdk) code at commit id: `e6e8da79a50aeb4fcb67ac380c3bd8885cd56faf`.
Currently, the following chips are supported:
| | Chip Model | Kernel |
| ---- | :----------------------- | ---------------------------------------- |
| 1 | bl60x(bl602/bl604) | RISC-V SiFive E24 |
| 2 | bl70x(bl702/bl704/bl706) | RISC-V SiFive E24 |
| 3 | bl61x(bl616/bl618) | RISC-V T-Head E907 |
| 4 | bl808 | RISC-V T-Head E902(lp)+E907(m0)+C906(d0) |
**LHAL** is a driver library designed by bouffalo_lab for unified general peripheral interfaces. The code is concise and supports all series of bouffalo_lab chips.
| Peripheral | BL602/BL604 | BL702/BL704/BL706 | BL616/BL618 | BL808 |
| :------: | :---------: | :---------------: | :---------: | :---: |
| ADC | ○ | √ | √ | ○ |
| CAM | - | × | × | × |
| CKS | ○ | √ | √ | ○ |
| DAC | ○ | √ | √ | ○ |
| DMA | ○ | √ | √ | √ |
| EFUSE | × | √ | √ | √ |
| EMAC | - | √ | √ | √ |
| FLASH | √ | √ | √ | √ |
| GPIO | ○ | √ | √ | √ |
| I2C | ○ | √ | √ | ○ |
| I2S | ○ | ○ | √ | ○ |
| IR | ○ | √ | √ | ○ |
| MJPEG | × | × | √ | √ |
| PWM_v1 | ○ | √ | - | - |
| PWM_v2 | - | - | √ | √ |
| RTC | ○ | √ | √ | √ |
| SEC_AES | ○ | √ | √ | √ |
| SEC_SHA | ○ | √ | √ | √ |
| SEC_TRNG | ○ | √ | √ | √ |
| SEC_PKA | ○ | √ | √ | √ |
| SPI | ○ | √ | √ | √ |
| TIMER | ○ | √ | √ | √ |
| UART | √ | √ | √ | √ |
| USB_v1 | - | √ | - | - |
| USB_v2 | - | - | √ | √ |
| WDG | ○ | √ | √ | ○ |
Note: **√** means supported; **×** means unsupported; **○** means supported but not tested; **-** means the peripheral is not available.
## 2. Environment Setup and Compilation
bl60x/bl70x/bl61x can be directly compiled for the corresponding chips. bl808 is a multi-core heterogeneous architecture, divided into m0, lp, and d0. Each core needs to be compiled separately and burned to the corresponding location. Please refer to [bl808 triple-core user guide](./bl808/README_en.md) for detailed usage.
The following operations are based on the single-core bl61x chip, and the operations for other chips are the same.
### 2.1. Download
Please download the toolchain for the corresponding chip using the download links below.
| Chip Model | Download Link |
| ----------- | ------------------------------------------------------------ |
| bl60x/bl70x | [Linux](https://gitee.com/bouffalolab/toolchain_gcc_sifive_linux)/[windows](https://gitee.com/bouffalolab/toolchain_gcc_sifive_windows) |
| bl61x/bl808 | [T-Head Website](https://occ.t-head.cn/community/download?id=4073475960903634944) or [Linux](https://gitee.com/bouffalolab/linuxtoolchain_gcc_t-head)/[windows](https://gitee.com/bouffalolab/toolchain_gcc_t-head_windows) |
### 2.2. Setup
For Windows, please use the [env tool][1] and extract the cross-compiler with the command `tar -xvf Xuantie-900-gcc-elf-newlib-mingw-V2.6.1-20220906.tar.gz`. Extracting the cross-compiler directly with Windows tools may cause compilation errors on Windows.
Add the path of the RISC-V toolchain to `EXEC_PATH` in `rtconfig.py` or specify the path using the `RTT_EXEC_PATH` environment variable.
Windows:
```
set RTT_EXEC_PATH=C:\Users\xxxx\Downloads\Xuantie-900-gcc-elf-newlib-x86_64-V2.6.1\bin
```
Linux:
```
export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.6.1/bin
```
### 2.3. Compilation
For Windows, it is recommended to use the [env tool][1]. Open the console and navigate to the bsp/bouffalo_lab/bl61x directory, then run:
cd bsp/bouffalo_lab/bl61x
menuconfig
pkgs --update
If you are using Linux, you can execute:
scons --menuconfig
It will automatically download the env-related scripts to the ~/.env directory, then execute:
source ~/.env/env.sh
cd bsp/bouffalo_lab/bl61x
pkgs --update
After updating the software packages, use the command `scons -j10` or `scons -j10 --verbose` to compile the board support package. Alternatively, you can use the `scons --exec-path="GCC toolchain path"` command to specify the toolchain path and compile at the same time.
If the compilation is successful, the rtthread.elf and rtthread.bin files will be generated. After the compilation, the script will automatically call `libraries/bl_mcu_sdk/tools/bflb_tools/bflb_fw_post_proc` to package the rtthread.bin for subsequent burning using the `bouffalo_flash_cube` tool.
The script will automatically download `bflb_fw_post_proc` using the curl command line method. If the automatic download fails, you can manually download the corresponding file for your operating system and save it to the `libraries/bl_mcu_sdk/tools/bflb_tools/bflb_fw_post_proc` directory.
| Download Link 1 | [windows](https://raw.githubusercontent.com/bouffalolab/bl_mcu_sdk/master/tools/bflb_tools/bflb_fw_post_proc/bflb_fw_post_proc.exe)/[Linux](https://raw.githubusercontent.com/bouffalolab/bl_mcu_sdk/master/tools/bflb_tools/bflb_fw_post_proc/bflb_fw_post_proc-ubuntu)/[macos](https://raw.githubusercontent.com/bouffalolab/bl_mcu_sdk/master/tools/bflb_tools/bflb_fw_post_proc/bflb_fw_post_proc-macos) |
| -------------- | ------------------------------------------------------------ |
| Download Link 2 | [bflb_fw_post_proc-win.tar.gz](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bflb_fw_post_proc-win.tar.gz)/[bflb_fw_post_proc-linux.tar.gz](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bflb_fw_post_proc-linux.tar.gz)/[bflb_fw_post_proc-macos.tar.gz](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bflb_fw_post_proc-macos.tar.gz) |
| Download Link 3 | [bflb_fw_post_proc-win.tar.gz](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bflb_fw_post_proc-win.tar.gz)/[bflb_fw_post_proc-linux.tar.gz](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bflb_fw_post_proc-linux.tar.gz)/[bflb_fw_post_proc-macos.tar.gz](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bflb_fw_post_proc-macos.tar.gz) |
## 3. Download and Flashing
### 3.1. Download the Flashing Tool
The current bsp must use the `bouffalo_flash_cube-1.0.4` tool for flashing, other tools may not work correctly.
- Download Link 1: [Baidu Pan](https://pan.baidu.com/s/1eG9pkxf3riAqQAu9aXiOjw?pwd=miv1)
- Download Link 2: [bouffalo_flash_cube-win.zip](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-win.zip)/[bouffalo_flash_cube-win.tar.gz](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-win.tar.gz), [bouffalo_flash_cube-linux.zip](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-linux.zip)/[bouffalo_flash_cube-linux.tar.gz](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-linux.tar.gz), [bouffalo_flash_cube-macos.zip](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-macos.zip)/[bouffalo_flash_cube-macos.tar.gz](https://gitee.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-macos.tar.gz)
- Download Link 3: [bouffalo_flash_cube-win.zip](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-win.zip)/[bouffalo_flash_cube-win.tar.gz](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-win.tar.gz), [bouffalo_flash_cube-linux.zip](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-linux.zip)/[bouffalo_flash_cube-linux.tar.gz](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-linux.tar.gz), [bouffalo_flash_cube-macos.zip](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-macos.zip)/[bouffalo_flash_cube-macos.tar.gz](https://github.com/flyingcys/bflb_tools/releases/download/v1.0.4/bouffalo_flash_cube-macos.tar.gz)
### 3.2. Flashing via GUI
1. Connect the serial port and select the corresponding port on the tool.
2. Open the flash_prog_cfg.ini file in the corresponding chip folder.
3. Hold down the boot button on the development board, then power on the board to enter flashing mode.
4. Click "Download" to start the flashing process.
![Flash Download](figures/bouffalo_flash_cube.png)
### 3.2. Flashing via Command Line
You can use the `bouffalo_flash_cube.sh` script in the `bsp/bouffalo_lab` directory to flash the chip via command line. Enter `./bouffalo_flash_cube.sh bl616 /dev/ttyUSB1` and the script will automatically download `bouffalo_flash_cube` using the curl command line method.
If the automatic download fails, you can manually download the corresponding file for your operating system and save it to the `libraries/bl_mcu_sdk/tools/bflb_tools/bouffalo_flash_cube` directory.
- bl616: chip name (bl808: simultaneous flashing of three cores; or enter: bl808-m0/bl808-lp/bl808-d0 to flash the corresponding core individually, but m0 must be flashed for normal operation)
- /dev/ttyUSB1: download serial port number (in Linux it is /dev/ttyUSBx or /dev/ttyACMx, in Windows it is COMx)
### 4. Running
If the compilation and flashing are successful, when you reset the device, you will see the RT-Thread startup logo information on the serial port:
![terminal](figures/rt-thread.png)
## 5. Supported Development Boards
| | Board Model |
| ----- | ---------------------- |
| bl602 | BL602-IoT-3S/BL-HWC-G1 |
| bl702 | Maix Zero Sense |
| bl616/bl618 | M0S Dock/M0P Dock |
| bl808 | M1s Dock |
## 6. Driver Support List
| Driver | Support Status | Remarks |
| :----- | :------------- | :--------------------- |
| UART | Supported | Default baud rate 2000000 |
| GPIO | Supported | |
| I2C | Supported | |
| SPI | Supported | Supports DMA |
| PWM | Supported | |
| ADC | Supported | |
| RTC | Supported | |
| WDT | Supported | |
| HWTIMER | Supported | |
| FLASH | Supported | |
| SDCARD | Supported | |
## 7. Contact Information
Maintainer: [flyingcys](https://github.com/flyingcys)
## 8. References
* Chip [datasheet][2]
[1]: https://www.rt-thread.org/download.html#download-rt-thread-env-tool
[2]: https://github.com/bouffalolab/bl_docs

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[English](README_en.md) | **中文**
# 博流智能 BL808板级支持包说明
## 1. 简介
@ -127,7 +128,7 @@ bl808-d0运行在S态下支持RT-Smart采用的交叉编译器为`riscv64-
其中内核虚拟地址开始地址为`0x50000000`
![kernel_start](./figures/kernel_start.png)
![kernel_start](figures/kernel_start.png)
bl808-d0编译完成后通过`merge_rtsmart.py`脚本,将`hw.dtb.5M`,`spl_bl808_d0.bin``opensbi_v0.6.bin`与`rtthread_d0.bin`,合成最终烧录文件`whole_img_d0.bin`,烧录地址为`0x100000`,否则无法启动。
@ -135,7 +136,7 @@ bl808-d0编译完成后通过`merge_rtsmart.py`脚本,将`hw.dtb.5M`,`spl_bl80
d0单独烧录文件为`bsp/bouffalo_lab/bl808/d0/flash_prog_cfg.ini`
![d0](./figures/d0.png)
![d0](figures/d0.png)
@ -144,7 +145,7 @@ d0单独烧录文件为`bsp/bouffalo_lab/bl808/d0/flash_prog_cfg.ini`
- 可运行`bsp/bouffalo_lab/bl808/build_bl808_all.sh`依次编译m0、lp、d0核
- 可通过`bsp/bouffalo_lab/bl808/flash_prog_cfg.ini`烧录配置文件同时烧录m0、lp、d0核。
![bl808](./figures/bl808.png)
![bl808](figures/bl808.png)

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**English** | [中文](README.md)
# BL808 Board Support Package Documentation
## 1. Introduction
BL808 is a highly integrated AIoT chip with wireless connectivity units such as Wi-Fi/BT/BLE/Zigbee, multiple CPUs, audio and video codec, and AI hardware accelerator. It is suitable for various high-performance and low-power applications.
The BL808 chip consists of two subsystems: wireless and multimedia.
The wireless subsystem includes a RISC-V 32-bit high-performance CPU (m0) and integrated Wi-Fi/BT/Zigbee wireless subsystem, which enables various wireless connections and data transmission for diverse connectivity and user experiences.
The multimedia subsystem includes a RISC-V 64-bit ultra-high-performance CPU (d0) and integrated DVP/CSI/H264/NPU video processing modules, which can be widely used in video surveillance, smart speakers, and other AI applications.
The components of the multimedia subsystem include:
- NPU HW NN co-processor (BLAI-100) for AI applications
- Camera interface
- Audio codec
- Video codec
- Sensors
- Display interface
The power management unit controls the low-power mode. It also supports various security features.
Peripheral interfaces include USB2.0, Ethernet, SD/MMC, SPI, UART, I2C, I2S, PWM, GPDAC/GPADC, ACOMP, PIR, Touch, IR remote, Display, and GPIO.
It supports flexible GPIO configuration, with a maximum of 40 GPIO pins.
The chip specifications are as follows:
| Hardware | Description |
| -------- | ------------------------------------- |
| Chip Model | bl808 |
| CPU | Three-core heterogeneous RISC-V CPUs: <br />RV64GCV 480MHz<br />RV32GCP 320MHz<br />RV32EMC 160MHz |
| RAM | 768KB SRAM + 64MB UHS PSRAM |
| Peripherals | Built-in AES and SHA256 algorithm accelerators |
| AI NN general hardware accelerator | BLAI-100 for video/audio detection/recognition, 100GOPS computational power |
| Camera Interface | DVP and MIPI-CSI |
| Display Interface | SPI, DBI, DPI (RGB) |
| Wireless | Supports Wi-Fi 802.11 b/g/n<br />Supports Bluetooth 5.x Dual-mode (BT+BLE)<br />Supports Wi-Fi/Bluetooth coexistence |
## 2. RT-Thread Versions
BL808 is a three-core heterogeneous architecture, including m0, lp, and d0 cores. The current BSP supports all three cores running simultaneously and uses different RT-Thread versions for each core.
| Name | Core | RT-Thread Version |
| ----------- | ----- | ---------------- |
| M0 | E907 | RT-Thread Standard Edition |
| LP | E902 | RT-Thread Nano |
| D0 | C906 | RT-SMART |
## 3. Compilation Instructions
BL808 is a three-core heterogeneous architecture, including m0, lp, and d0 cores. Each core needs to be compiled separately and burned to the corresponding location.
Flashing addresses:
| Name | Core | Flash Address | Description |
| ---- | ----- | ------------- | ------------------------------------------------------------ |
| M0 | E907 | 0x00000 | |
| LP | E902 | 0xC0000 | Modify the lp flash address in `bsp/bouffalo_lab/bl808/lp/board/linker_scripts/bl808_flash_lp.ld` and `bsp/bouffalo_lab/bl808/m0/board/board.h` `CONFIG_LP_FLASH_ADDR` address |
| D0 | C906 | 0x100000 | Set in the SPL file. To adjust the d0 flash address, the SPL file and the packaged file `bsp/bouffalo_lab/bl808/d0/merge_rtsmart.py` need to be recompiled |
### 3.1. m0/lp
- #### Toolchain Download
Download the RISC-V toolchain from [Download Link 1](https://occ.t-head.cn/community/download?id=4073475960903634944) or [Download Link 2](https://dl.sipeed.com/shareURL/others/toolchain).
For Windows, use the [env tool][1] and extract the cross-compiler with the command `tar -xvf Xuantie-900-gcc-elf-newlib-mingw-V2.6.1-20220906.tar.gz`. Extracting the cross-compiler directly with Windows tools may cause compilation errors on Windows.
Add the path of the RISC-V toolchain to `EXEC_PATH` in `rtconfig.py` or specify the path using the `RTT_EXEC_PATH` environment variable.
Windows:
```
set RTT_EXEC_PATH=C:\Users\xxxx\Downloads\Xuantie-900-gcc-elf-newlib-x86_64-V2.6.1\bin
```
Linux:
```
export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.6.1/bin
```
- ### Compilation
For Windows, it is recommended to use the [env tool][1]. Open the console and navigate to the bsp/bl808 directory, then select the core, m0 or lp, and run:
cd bsp/bl808/m0
menuconfig
pkgs --update
If you are using Linux, you can execute:
scons --menuconfig
It will automatically download the env-related scripts to the ~/.env directory, then execute:
source ~/.env/env.sh
cd bsp/bl808/m0
pkgs --update
After updating the software packages, use the command `scons -j10` or `scons -j10 --verbose` to compile the board support package. Alternatively, you can use the `scons --exec-path="GCC toolchain path"` command to specify the toolchain path and compile at the same time.
If the compilation is successful, the rtthread.elf and rtthread_m0.bin files will be generated. The rtthread_m0.bin file needs to be burned into the device for execution.
- #### Note
Since BL808 is a three-core heterogeneous architecture, the lp and d0 cores are started through the m0 core. It is necessary to burn the m0 core correctly to enable all three cores to run properly.
Configuration file for m0 flashing: `bsp/bouffalo_lab/bl808/m0/flash_prog_cfg.ini`
### 3.2. d0
bl808-d0 runs in S-mode and supports RT-Smart. The cross-compiler used is `riscv64-unknown-linux-musl-gcc`. Please refer to the [Build Kernel Image](https://www.rt-thread.org/document/site/#/rt-thread-version/rt-thread-smart/quick-start/qemu-linux/quickstart?id=%e6%9e%84%e5%bb%ba%e5%86%85%e6%a0%b8%e9%95%9c%e5%83%8f) for compilation instructions.
The starting address of the kernel virtual address is `0x50000000`.
![kernel_start](figures/kernel_start.png)
After the bl808-d0 is compiled, use the `merge_rtsmart.py` script to merge `hw.dtb.5M`, `spl_bl808_d0.bin`, `opensbi_v0.6.bin`, and `rtthread_d0.bin` into the final flash file `whole_img_d0.bin`, which should be burned at address `0x100000`. Otherwise, the board will not be able to start.
The pre-compiled bin files are located in the `bsp/bouffalo_lab/bl808/d0/pre_build_bin` folder. If there are any modification requirements, you can download the [Low-Starup-BL808](https://github.com/flyingcys/Low-Starup-BL808) repository and modify it.
The separate flashing file for d0 is `bsp/bouffalo_lab/bl808/d0/flash_prog_cfg.ini`.
![d0](figures/d0.png)
### 3.3. Compilation and Flashing of Three Cores Simultaneously
- You can run `bsp/bouffalo_lab/bl808/build_bl808_all.sh` to compile m0, lp, d0 cores one by one.
- You can use the `bsp/bouffalo_lab/bl808/flash_prog_cfg.ini` flashing configuration file to flash m0, lp, and d0 cores simultaneously.
![bl808](figures/bl808.png)
## 4. FAQ
- In a Windows environment, when connecting the development board to the computer via the UART interface, only two USB converter devices are recognized, but the corresponding serial port device is not recognized.
- Go to Device Manager, right-click on the corresponding USB converter device, go to Properties, and in the Advanced Settings, check the vcp option. After refreshing, you will see the corresponding serial port device.
- Alternatively, you can install the following driver to solve the problem: https://dl.sipeed.com/shareURL/MAIX/tools/ftdi_vcp_driver
- When connecting the computer to the board's UART port using a TypeC data cable, two serial ports will appear on the computer (if the mouse cannot move, unplug the USB and check [Updating the board's bl702 firmware](https://wiki.sipeed.com/hardware/zh/maix/m1s/other/start.html) for a solution).

126
bsp/bouffalo_lab/bl808/d0/.config
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@ -9,6 +9,7 @@
CONFIG_RT_NAME_MAX=20
# CONFIG_RT_USING_ARCH_DATA_TYPE is not set
CONFIG_RT_USING_SMART=y
# CONFIG_RT_USING_AMP is not set
# CONFIG_RT_USING_SMP is not set
CONFIG_RT_ALIGN_SIZE=8
# CONFIG_RT_THREAD_PRIORITY_8 is not set
@ -56,6 +57,7 @@ CONFIG_RT_USING_MUTEX=y
CONFIG_RT_USING_EVENT=y
CONFIG_RT_USING_MAILBOX=y
CONFIG_RT_USING_MESSAGEQUEUE=y
# CONFIG_RT_USING_MESSAGEQUEUE_PRIORITY is not set
# CONFIG_RT_USING_SIGNALS is not set
#
@ -166,9 +168,12 @@ CONFIG_RT_USING_TTY=y
# CONFIG_RT_USING_CAN is not set
# CONFIG_RT_USING_HWTIMER is not set
# CONFIG_RT_USING_CPUTIME is not set
# CONFIG_RT_USING_I2C is not set
CONFIG_RT_USING_I2C=y
# CONFIG_RT_I2C_DEBUG is not set
CONFIG_RT_USING_I2C_BITOPS=y
# CONFIG_RT_I2C_BITOPS_DEBUG is not set
# CONFIG_RT_USING_PHY is not set
# CONFIG_RT_USING_PIN is not set
CONFIG_RT_USING_PIN=y
# CONFIG_RT_USING_ADC is not set
# CONFIG_RT_USING_DAC is not set
CONFIG_RT_USING_NULL=y
@ -183,7 +188,13 @@ CONFIG_RT_USING_RTC=y
# CONFIG_RT_USING_ALARM is not set
# CONFIG_RT_USING_SOFT_RTC is not set
# CONFIG_RT_USING_SDIO is not set
# CONFIG_RT_USING_SPI is not set
CONFIG_RT_USING_SPI=y
# CONFIG_RT_USING_SPI_BITOPS is not set
# CONFIG_RT_USING_QSPI is not set
# CONFIG_RT_USING_SPI_MSD is not set
# CONFIG_RT_USING_SFUD is not set
# CONFIG_RT_USING_ENC28J60 is not set
# CONFIG_RT_USING_SPI_WIFI is not set
# CONFIG_RT_USING_WDT is not set
# CONFIG_RT_USING_AUDIO is not set
# CONFIG_RT_USING_SENSOR is not set
@ -255,6 +266,7 @@ CONFIG_RT_USING_POSIX_PIPE_SIZE=512
# CONFIG_RT_USING_UTEST is not set
# CONFIG_RT_USING_VAR_EXPORT is not set
CONFIG_RT_USING_ADT=y
CONFIG_RT_USING_RESOURCE_ID=y
# CONFIG_RT_USING_RT_LINK is not set
# CONFIG_RT_USING_VBUS is not set
@ -552,6 +564,7 @@ CONFIG_RT_USING_ADT=y
# CONFIG_PKG_USING_QPC is not set
# CONFIG_PKG_USING_AGILE_UPGRADE is not set
# CONFIG_PKG_USING_FLASH_BLOB is not set
# CONFIG_PKG_USING_MLIBC is not set
#
# peripheral libraries and drivers
@ -636,6 +649,7 @@ CONFIG_RT_USING_ADT=y
# CONFIG_PKG_USING_FT5426 is not set
# CONFIG_PKG_USING_FT6236 is not set
# CONFIG_PKG_USING_XPT2046_TOUCH is not set
# CONFIG_PKG_USING_CST816X is not set
# CONFIG_PKG_USING_REALTEK_AMEBA is not set
# CONFIG_PKG_USING_STM32_SDIO is not set
# CONFIG_PKG_USING_ESP_IDF is not set
@ -712,7 +726,9 @@ CONFIG_RT_USING_ADT=y
# CONFIG_PKG_USING_IO_INPUT_FILTER is not set
# CONFIG_PKG_USING_RASPBERRYPI_PICO_SDK is not set
# CONFIG_PKG_USING_LRF_NV7LIDAR is not set
# CONFIG_PKG_USING_AIP650 is not set
# CONFIG_PKG_USING_FINGERPRINT is not set
# CONFIG_PKG_USING_SPI_TOOLS is not set
#
# AI packages
@ -731,7 +747,10 @@ CONFIG_RT_USING_ADT=y
# Signal Processing and Control Algorithm Packages
#
# CONFIG_PKG_USING_FIRE_PID_CURVE is not set
# CONFIG_PKG_USING_QPID is not set
# CONFIG_PKG_USING_UKAL is not set
# CONFIG_PKG_USING_DIGITALCTRL is not set
# CONFIG_PKG_USING_KISSFFT is not set
#
# miscellaneous packages
@ -778,7 +797,6 @@ CONFIG_RT_USING_ADT=y
# CONFIG_PKG_USING_DSTR is not set
# CONFIG_PKG_USING_TINYFRAME is not set
# CONFIG_PKG_USING_KENDRYTE_DEMO is not set
# CONFIG_PKG_USING_DIGITALCTRL is not set
# CONFIG_PKG_USING_UPACKER is not set
# CONFIG_PKG_USING_UPARAM is not set
# CONFIG_PKG_USING_HELLO is not set
@ -805,6 +823,7 @@ CONFIG_RT_USING_ADT=y
#
# Projects
#
# CONFIG_PKG_USING_ARDUINO_MSGQ_C_CPP_DEMO is not set
# CONFIG_PKG_USING_ARDUINO_ULTRASOUND_RADAR is not set
# CONFIG_PKG_USING_ARDUINO_SENSOR_KIT is not set
# CONFIG_PKG_USING_ARDUINO_MATLAB_SUPPORT is not set
@ -951,14 +970,20 @@ CONFIG_RT_USING_ADT=y
#
# Display
#
# CONFIG_PKG_USING_ARDUINO_TFT_ESPI is not set
# CONFIG_PKG_USING_ARDUINO_ADAFRUIT_GFX_LIBRARY is not set
# CONFIG_PKG_USING_ARDUINO_U8G2 is not set
# CONFIG_PKG_USING_ARDUINO_U8GLIB_ARDUINO is not set
# CONFIG_PKG_USING_ARDUINO_ADAFRUIT_ST7735 is not set
# CONFIG_PKG_USING_ARDUINO_ADAFRUIT_SSD1306 is not set
# CONFIG_PKG_USING_SEEED_TM1637 is not set
#
# Timing
#
# CONFIG_PKG_USING_ARDUINO_MSTIMER2 is not set
# CONFIG_PKG_USING_ARDUINO_TICKER is not set
# CONFIG_PKG_USING_ARDUINO_TASKSCHEDULER is not set
#
# Data Processing
@ -1043,4 +1068,97 @@ CONFIG_UART3_RX_USING_GPIO17=y
# CONFIG_UART3_RX_USING_GPIO37 is not set
# CONFIG_UART3_RX_USING_GPIO41 is not set
# CONFIG_UART3_RX_USING_GPIO45 is not set
# CONFIG_BSP_USING_I2C is not set
# CONFIG_I2C2_SCL_USING_GPIO0 is not set
# CONFIG_I2C2_SCL_USING_GPIO2 is not set
# CONFIG_I2C2_SCL_USING_GPIO4 is not set
# CONFIG_I2C2_SCL_USING_GPIO6 is not set
# CONFIG_I2C2_SCL_USING_GPIO8 is not set
# CONFIG_I2C2_SCL_USING_GPIO10 is not set
# CONFIG_I2C2_SCL_USING_GPIO12 is not set
# CONFIG_I2C2_SCL_USING_GPIO14 is not set
# CONFIG_I2C2_SCL_USING_GPIO16 is not set
# CONFIG_I2C2_SCL_USING_GPIO18 is not set
# CONFIG_I2C2_SCL_USING_GPIO20 is not set
# CONFIG_I2C2_SCL_USING_GPIO22 is not set
# CONFIG_I2C2_SCL_USING_GPIO24 is not set
# CONFIG_I2C2_SCL_USING_GPIO26 is not set
# CONFIG_I2C2_SCL_USING_GPIO28 is not set
# CONFIG_I2C2_SCL_USING_GPIO30 is not set
# CONFIG_I2C2_SCL_USING_GPIO32 is not set
# CONFIG_I2C2_SCL_USING_GPIO34 is not set
# CONFIG_I2C2_SDA_USING_GPIO36 is not set
# CONFIG_I2C2_SDA_USING_GPIO38 is not set
# CONFIG_I2C2_SDA_USING_GPIO40 is not set
# CONFIG_I2C3_SDA_USING_GPIO42 is not set
# CONFIG_I2C2_SDA_USING_GPIO44 is not set
# CONFIG_I2C2_SDA_USING_GPIO1 is not set
# CONFIG_I2C2_SDA_USING_GPIO3 is not set
# CONFIG_I2C2_SDA_USING_GPIO5 is not set
# CONFIG_I2C2_SDA_USING_GPIO7 is not set
# CONFIG_I2C2_SDA_USING_GPIO9 is not set
# CONFIG_I2C2_SDA_USING_GPIO11 is not set
# CONFIG_I2C2_SDA_USING_GPIO13 is not set
# CONFIG_I2C2_SDA_USING_GPIO15 is not set
# CONFIG_I2C2_SDA_USING_GPIO17 is not set
# CONFIG_I2C2_SDA_USING_GPIO19 is not set
# CONFIG_I2C2_SDA_USING_GPIO21 is not set
# CONFIG_I2C2_SDA_USING_GPIO23 is not set
# CONFIG_I2C2_SDA_USING_GPIO25 is not set
# CONFIG_I2C2_SDA_USING_GPIO27 is not set
# CONFIG_I2C2_SDA_USING_GPIO29 is not set
# CONFIG_I2C2_SDA_USING_GPIO31 is not set
# CONFIG_I2C2_SDA_USING_GPIO33 is not set
# CONFIG_I2C2_SDA_USING_GPIO35 is not set
# CONFIG_I2C2_SDA_USING_GPIO37 is not set
# CONFIG_I2C2_SDA_USING_GPIO39 is not set
# CONFIG_I2C2_SDA_USING_GPIO41 is not set
# CONFIG_I2C2_SDA_USING_GPIO43 is not set
# CONFIG_I2C2_SDA_USING_GPIO45 is not set
# CONFIG_I2C3_SCL_USING_GPIO0 is not set
# CONFIG_I2C3_SCL_USING_GPIO2 is not set
# CONFIG_I2C3_SCL_USING_GPIO4 is not set
# CONFIG_I2C3_SCL_USING_GPIO6 is not set
# CONFIG_I2C3_SCL_USING_GPIO8 is not set
# CONFIG_I2C3_SCL_USING_GPIO10 is not set
# CONFIG_I2C3_SCL_USING_GPIO12 is not set
# CONFIG_I2C3_SCL_USING_GPIO14 is not set
# CONFIG_I2C3_SCL_USING_GPIO16 is not set
# CONFIG_I2C3_SCL_USING_GPIO18 is not set
# CONFIG_I2C3_SCL_USING_GPIO20 is not set
# CONFIG_I2C3_SCL_USING_GPIO22 is not set
# CONFIG_I2C3_SCL_USING_GPIO24 is not set
# CONFIG_I2C3_SCL_USING_GPIO26 is not set
# CONFIG_I2C3_SCL_USING_GPIO28 is not set
# CONFIG_I2C3_SCL_USING_GPIO30 is not set
# CONFIG_I2C3_SCL_USING_GPIO32 is not set
# CONFIG_I2C3_SCL_USING_GPIO34 is not set
# CONFIG_I2C3_SDA_USING_GPIO36 is not set
# CONFIG_I2C3_SDA_USING_GPIO38 is not set
# CONFIG_I2C3_SDA_USING_GPIO40 is not set
# CONFIG_I2C3_SDA_USING_GPIO44 is not set
# CONFIG_I2C3_SDA_USING_GPIO1 is not set
# CONFIG_I2C3_SDA_USING_GPIO3 is not set
# CONFIG_I2C3_SDA_USING_GPIO5 is not set
# CONFIG_I2C3_SDA_USING_GPIO7 is not set
# CONFIG_I2C3_SDA_USING_GPIO9 is not set
# CONFIG_I2C3_SDA_USING_GPIO11 is not set
# CONFIG_I2C3_SDA_USING_GPIO13 is not set
# CONFIG_I2C3_SDA_USING_GPIO15 is not set
# CONFIG_I2C3_SDA_USING_GPIO17 is not set
# CONFIG_I2C3_SDA_USING_GPIO19 is not set
# CONFIG_I2C3_SDA_USING_GPIO21 is not set
# CONFIG_I2C3_SDA_USING_GPIO23 is not set
# CONFIG_I2C3_SDA_USING_GPIO25 is not set
# CONFIG_I2C3_SDA_USING_GPIO27 is not set
# CONFIG_I2C3_SDA_USING_GPIO29 is not set
# CONFIG_I2C3_SDA_USING_GPIO31 is not set
# CONFIG_I2C3_SDA_USING_GPIO33 is not set
# CONFIG_I2C3_SDA_USING_GPIO35 is not set
# CONFIG_I2C3_SDA_USING_GPIO37 is not set
# CONFIG_I2C3_SDA_USING_GPIO39 is not set
# CONFIG_I2C3_SDA_USING_GPIO41 is not set
# CONFIG_I2C3_SDA_USING_GPIO43 is not set
# CONFIG_I2C3_SDA_USING_GPIO45 is not set
# CONFIG_BSP_USING_SPI is not set
CONFIG___STACKSIZE__=16384

371
bsp/bouffalo_lab/bl808/d0/board/Kconfig
View File

@ -89,4 +89,375 @@ menu "General Drivers Configuration"
bool "GPIO_45"
endchoice
endif
menuconfig BSP_USING_I2C
bool "Enable I2C BUS"
default n
select RT_USING_I2C
if BSP_USING_I2C
config BSP_USING_HW_I2C
bool "Enable Hardware I2C BUS"
default n
if BSP_USING_HW_I2C
menuconfig BSP_USING_I2C2
bool "Enable I2C2 (hardware)"
default n
if BSP_USING_I2C2
choice
prompt "I2C2 SCL"
default I2C2_SCL_USING_GPIO14
config I2C2_SCL_USING_GPIO0
bool "GPIO_0"
config I2C2_SCL_USING_GPIO2
bool "GPIO_2"
config I2C2_SCL_USING_GPIO4
bool "GPIO_4"
config I2C2_SCL_USING_GPIO6
bool "GPIO_6"
config I2C2_SCL_USING_GPIO8
bool "GPIO_8"
config I2C2_SCL_USING_GPIO10
bool "GPIO_10"
config I2C2_SCL_USING_GPIO12
bool "GPIO_12"
config I2C2_SCL_USING_GPIO14
bool "GPIO_14"
config I2C2_SCL_USING_GPIO16
bool "GPIO_16"
config I2C2_SCL_USING_GPIO18
bool "GPIO_18"
config I2C2_SCL_USING_GPIO20
bool "GPIO_20"
config I2C2_SCL_USING_GPIO22
bool "GPIO_22"
config I2C2_SCL_USING_GPIO24
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_8"
config I2C2_SCL_USING_GPIO26
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_26"
config I2C2_SCL_USING_GPIO28
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_28"
config I2C2_SCL_USING_GPIO30
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_30"
config I2C2_SCL_USING_GPIO32
depends on BSP_USING_BL61X || BSP_USING_BL808
bool "GPIO_32"
config I2C2_SCL_USING_GPIO34
depends on BSP_USING_BL61X || BSP_USING_BL808
bool "GPIO_34"
config I2C2_SDA_USING_GPIO36
depends on BSP_USING_BL808
bool "GPIO_36"
config I2C2_SDA_USING_GPIO38
depends on BSP_USING_BL808
bool "GPIO_38"
config I2C2_SDA_USING_GPIO40
depends on BSP_USING_BL808
bool "GPIO_40"
config I2C3_SDA_USING_GPIO42
depends on BSP_USING_BL808
bool "GPIO_42"
config I2C2_SDA_USING_GPIO44
depends on BSP_USING_BL808
bool "GPIO_44"
endchoice
choice
prompt "I2C2 SDA"
default I2C2_SDA_USING_GPIO15
config I2C2_SDA_USING_GPIO1
bool "GPIO_1"
config I2C2_SDA_USING_GPIO3
bool "GPIO_3"
config I2C2_SDA_USING_GPIO5
bool "GPIO_5"
config I2C2_SDA_USING_GPIO7
bool "GPIO_7"
config I2C2_SDA_USING_GPIO9
bool "GPIO_9"
config I2C2_SDA_USING_GPIO11
bool "GPIO_11"
config I2C2_SDA_USING_GPIO13
bool "GPIO_13"
config I2C2_SDA_USING_GPIO15
bool "GPIO_15"
config I2C2_SDA_USING_GPIO17
bool "GPIO_17"
config I2C2_SDA_USING_GPIO19
bool "GPIO_19"
config I2C2_SDA_USING_GPIO21
bool "GPIO_21"
config I2C2_SDA_USING_GPIO23
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_23"
config I2C2_SDA_USING_GPIO25
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_25"
config I2C2_SDA_USING_GPIO27
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_27"
config I2C2_SDA_USING_GPIO29
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_29"
config I2C2_SDA_USING_GPIO31
depends on BSP_USING_BL61X || BSP_USING_BL70X || BSP_USING_BL808
bool "GPIO_31"
config I2C2_SDA_USING_GPIO33
depends on BSP_USING_BL61X || BSP_USING_BL808
bool "GPIO_33"
config I2C2_SDA_USING_GPIO35
depends on BSP_USING_BL808
bool "GPIO_35"
config I2C2_SDA_USING_GPIO37
depends on BSP_USING_BL808
bool "GPIO_37"
config I2C2_SDA_USING_GPIO39
depends on BSP_USING_BL808
bool "GPIO_39"
config I2C2_SDA_USING_GPIO41
depends on BSP_USING_BL808
bool "GPIO_41"
config I2C2_SDA_USING_GPIO43
depends on BSP_USING_BL808
bool "GPIO_43"
config I2C2_SDA_USING_GPIO45
depends on BSP_USING_BL808
bool "GPIO_45"
endchoice
config I2C2_FREQUENCY
int "I2C2 Frequency"
default 400000
endif
menuconfig BSP_USING_I2C3
depends on BSP_USING_BL61X || BSP_USING_BL808
bool "Enable I2C3 (hardware)"
default n
if BSP_USING_I2C3
choice
prompt "I2C3 SCL"
default I2C3_SCL_USING_GPIO0
config I2C3_SCL_USING_GPIO0
bool "GPIO_0"
config I2C3_SCL_USING_GPIO2
bool "GPIO_2"
config I2C3_SCL_USING_GPIO4
bool "GPIO_4"
config I2C3_SCL_USING_GPIO6
bool "GPIO_6"
config I2C3_SCL_USING_GPIO8
bool "GPIO_8"
config I2C3_SCL_USING_GPIO10
bool "GPIO_10"
config I2C3_SCL_USING_GPIO12
bool "GPIO_12"
config I2C3_SCL_USING_GPIO14
bool "GPIO_14"
config I2C3_SCL_USING_GPIO16
bool "GPIO_16"
config I2C3_SCL_USING_GPIO18
bool "GPIO_18"
config I2C3_SCL_USING_GPIO20
bool "GPIO_20"
config I2C3_SCL_USING_GPIO22
bool "GPIO_22"
config I2C3_SCL_USING_GPIO24
bool "GPIO_24"
config I2C3_SCL_USING_GPIO26
bool "GPIO_26"
config I2C3_SCL_USING_GPIO28
bool "GPIO_28"
config I2C3_SCL_USING_GPIO30
bool "GPIO_30"
config I2C3_SCL_USING_GPIO32
bool "GPIO_32"
config I2C3_SCL_USING_GPIO34
bool "GPIO_34"
config I2C3_SDA_USING_GPIO36
depends on BSP_USING_BL808
bool "GPIO_36"
config I2C3_SDA_USING_GPIO38
depends on BSP_USING_BL808
bool "GPIO_38"
config I2C3_SDA_USING_GPIO40
depends on BSP_USING_BL808
bool "GPIO_40"
config I2C3_SDA_USING_GPIO42
depends on BSP_USING_BL808
bool "GPIO_42"
config I2C3_SDA_USING_GPIO44
depends on BSP_USING_BL808
bool "GPIO_44"
endchoice
choice
prompt "I2C3 SDA"
default I2C3_SDA_USING_GPIO1
config I2C3_SDA_USING_GPIO1
bool "GPIO_1"
config I2C3_SDA_USING_GPIO3
bool "GPIO_3"
config I2C3_SDA_USING_GPIO5
bool "GPIO_5"
config I2C3_SDA_USING_GPIO7
bool "GPIO_7"
config I2C3_SDA_USING_GPIO9
bool "GPIO_9"
config I2C3_SDA_USING_GPIO11
bool "GPIO_11"
config I2C3_SDA_USING_GPIO13
bool "GPIO_13"
config I2C3_SDA_USING_GPIO15
bool "GPIO_15"
config I2C3_SDA_USING_GPIO17
bool "GPIO_17"
config I2C3_SDA_USING_GPIO19
bool "GPIO_19"
config I2C3_SDA_USING_GPIO21
bool "GPIO_21"
config I2C3_SDA_USING_GPIO23
bool "GPIO_23"
config I2C3_SDA_USING_GPIO25
bool "GPIO_25"
config I2C3_SDA_USING_GPIO27
bool "GPIO_27"
config I2C3_SDA_USING_GPIO29
bool "GPIO_29"
config I2C3_SDA_USING_GPIO31
bool "GPIO_31"
config I2C3_SDA_USING_GPIO33
bool "GPIO_33"
config I2C3_SDA_USING_GPIO35
depends on BSP_USING_BL808
bool "GPIO_35"
config I2C3_SDA_USING_GPIO37
depends on BSP_USING_BL808
bool "GPIO_37"
config I2C3_SDA_USING_GPIO39
depends on BSP_USING_BL808
bool "GPIO_39"
config I2C3_SDA_USING_GPIO41
depends on BSP_USING_BL808
bool "GPIO_41"
config I2C3_SDA_USING_GPIO43
depends on BSP_USING_BL808
bool "GPIO_43"
config I2C3_SDA_USING_GPIO45
depends on BSP_USING_BL808
bool "GPIO_45"
endchoice
config I2C3_FREQUENCY
int "I2C3 Frequency"
default 400000
endif
endif
endif
menuconfig BSP_USING_SPI
bool "Enable SPI"
select RT_USING_SPI
select RT_USING_PIN
default n
if BSP_USING_SPI
choice
prompt "SPI SCK PIN"
default SPI_SCK_USING_GPIO19
config SPI_SCK_USING_GPIO3
bool "GPIO_3"
config SPI_SCK_USING_GPIO7
bool "GPIO_7"
config SPI_SCK_USING_GPIO11
bool "GPIO_11"
config SPI_SCK_USING_GPIO15
bool "GPIO_15"
config SPI_SCK_USING_GPIO19
bool "GPIO_19"
config SPI_SCK_USING_GPIO23
bool "GPIO_23"
config SPI_SCK_USING_GPIO27
bool "GPIO_27"
config SPI_SCK_USING_GPIO31
bool "GPIO_31"
config SPI_SCK_USING_GPIO35
bool "GPIO_35"
config SPI_SCK_USING_GPIO39
bool "GPIO_39"
config SPI_SCK_USING_GPIO43
bool "GPIO_43"
endchoice
choice
prompt "SPI MISO PIN"
default SPI_MISO_USING_GPIO22
config SPI_MISO_USING_GPIO2
bool "GPIO_2"
config SPI_MISO_USING_GPIO6
bool "GPIO_6"
config SPI_MISO_USING_GPIO10
bool "GPIO_10"
config SPI_MISO_USING_GPIO14
bool "GPIO_14"
config SPI_MISO_USING_GPIO18
bool "GPIO_18"
config SPI_MISO_USING_GPIO22
bool "GPIO_22"
config SPI_MISO_USING_GPIO26
bool "GPIO_26"
config SPI_MISO_USING_GPIO30
bool "GPIO_30"
config SPI_MISO_USING_GPIO34
bool "GPIO_34"
config SPI_MISO_USING_GPIO38
depends on BSP_USING_BL808
bool "GPIO_38"
config SPI_MISO_USING_GPIO42
depends on BSP_USING_BL808
bool "GPIO_42"
endchoice
choice
prompt "SPI MOSI PIN"
default SPI_MOSI_USING_GPIO21
config SPI_MOSI_USING_GPIO1
bool "GPIO_1"
config SPI_MOSI_USING_GPIO5
bool "GPIO_5"
config SPI_MOSI_USING_GPIO9
bool "GPIO_9"
config SPI_MOSI_USING_GPIO13
bool "GPIO_13"
config SPI_MOSI_USING_GPIO17
bool "GPIO_17"
config SPI_MOSI_USING_GPIO21
bool "GPIO_21"
config SPI_MOSI_USING_GPIO25
bool "GPIO_25"
config SPI_MOSI_USING_GPIO29
bool "GPIO_29"
config SPI_MOSI_USING_GPIO33
bool "GPIO_33"
config SPI_MOSI_USING_GPIO37
bool "GPIO_37"
config SPI_MOSI_USING_GPIO41
bool "GPIO_41"
config SPI_MOSI_USING_GPIO45
bool "GPIO_45"
endchoice
endif
endmenu

5
bsp/bouffalo_lab/bl808/d0/rtconfig.h
View File

@ -107,10 +107,14 @@
#define RT_SERIAL_USING_DMA
#define RT_SERIAL_RB_BUFSZ 64
#define RT_USING_TTY
#define RT_USING_I2C
#define RT_USING_I2C_BITOPS
#define RT_USING_PIN
#define RT_USING_NULL
#define RT_USING_ZERO
#define RT_USING_RANDOM
#define RT_USING_RTC
#define RT_USING_SPI
/* Using USB */
@ -145,6 +149,7 @@
/* Utilities */
#define RT_USING_ADT
#define RT_USING_RESOURCE_ID
/* RT-Thread Utestcases */

BIN
bsp/bouffalo_lab/figures/bouffalo_flash_cube.jpg
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2
bsp/bouffalo_lab/libraries/bl_mcu_sdk/drivers/lhal/SConscript
View File

@ -15,6 +15,8 @@ if GetDepend('BL808_CORE_D0'):
src = Split("""
src/bflb_gpio.c
src/bflb_uart.c
src/bflb_spi.c
src/bflb_i2c.c
""")
else:
src = Split("""

43
bsp/bouffalo_lab/libraries/bl_mcu_sdk/drivers/lhal/config/bl808/device_table.c
View File

@ -88,6 +88,16 @@ struct bflb_device_s bl808_device_table[] = {
.irq_num = BL808_IRQ_SPI0,
#else
.irq_num = 0xff,
#endif
.idx = 0,
.dev_type = BFLB_DEVICE_TYPE_SPI,
.user_data = NULL },
{ .name = "spi1",
.reg_base = SPI1_BASE,
#if defined(CPU_D0)
.irq_num = BL808_IRQ_SPI1,
#else
.irq_num = 0xff,
#endif
.idx = 0,
.dev_type = BFLB_DEVICE_TYPE_SPI,
@ -202,6 +212,39 @@ struct bflb_device_s bl808_device_table[] = {
.sub_idx = 0,
.dev_type = BFLB_DEVICE_TYPE_I2C,
.user_data = NULL },
{ .name = "i2c1",
.reg_base = I2C1_BASE,
#if defined(CPU_M0) || defined(CPU_LP)
.irq_num = BL808_IRQ_I2C1,
#else
.irq_num = 0xff,
#endif
.idx = 1,
.sub_idx = 0,
.dev_type = BFLB_DEVICE_TYPE_I2C,
.user_data = NULL },
{ .name = "i2c2",
.reg_base = I2C2_BASE,
#if defined(CPU_D0)
.irq_num = BL808_IRQ_I2C2,
#else
.irq_num = 0xff,
#endif
.idx = 2,
.sub_idx = 0,
.dev_type = BFLB_DEVICE_TYPE_I2C,
.user_data = NULL },
{ .name = "i2c3",
.reg_base = I2C3_BASE,
#if defined(CPU_D0)
.irq_num = BL808_IRQ_I2C3,
#else
.irq_num = 0xff,
#endif
.idx = 3,
.sub_idx = 0,
.dev_type = BFLB_DEVICE_TYPE_I2C,
.user_data = NULL },
{ .name = "timer0",
.reg_base = TIMER0_BASE,
#if defined(CPU_M0) || defined(CPU_LP)

76
bsp/bouffalo_lab/libraries/bl_mcu_sdk/drivers/lhal/src/bflb_i2c.c
View File

@ -206,7 +206,7 @@ static int bflb_i2c_write_bytes(struct bflb_device_s *dev, uint8_t *data, uint32
uint32_t reg_base;
uint32_t temp = 0;
uint8_t *tmp_buf;
uint64_t start_time;
// uint64_t start_time;
reg_base = dev->reg_base;
tmp_buf = data;
@ -216,12 +216,12 @@ static int bflb_i2c_write_bytes(struct bflb_device_s *dev, uint8_t *data, uint32
}
tmp_buf += 4;
len -= 4;
start_time = bflb_mtimer_get_time_ms();
while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_TX_FIFO_CNT_MASK) == 0) {
if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
return -ETIMEDOUT;
}
}
// start_time = bflb_mtimer_get_time_ms();
// while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_TX_FIFO_CNT_MASK) == 0) {
// if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
// return -ETIMEDOUT;
// }
// }
putreg32(temp, reg_base + I2C_FIFO_WDATA_OFFSET);
if (!bflb_i2c_isenable(dev)) {
bflb_i2c_enable(dev);
@ -233,24 +233,24 @@ static int bflb_i2c_write_bytes(struct bflb_device_s *dev, uint8_t *data, uint32
for (uint8_t i = 0; i < len; i++) {
temp += (tmp_buf[i] << ((i % 4) * 8));
}
start_time = bflb_mtimer_get_time_ms();
while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_TX_FIFO_CNT_MASK) == 0) {
if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
return -ETIMEDOUT;
}
}
// start_time = bflb_mtimer_get_time_ms();
// while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_TX_FIFO_CNT_MASK) == 0) {
// if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
// return -ETIMEDOUT;
// }
// }
putreg32(temp, reg_base + I2C_FIFO_WDATA_OFFSET);
if (!bflb_i2c_isenable(dev)) {
bflb_i2c_enable(dev);
}
}
start_time = bflb_mtimer_get_time_ms();
while (bflb_i2c_isbusy(dev) || !bflb_i2c_isend(dev) || bflb_i2c_isnak(dev)) {
if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
return -ETIMEDOUT;
}
}
// start_time = bflb_mtimer_get_time_ms();
// while (bflb_i2c_isbusy(dev) || !bflb_i2c_isend(dev) || bflb_i2c_isnak(dev)) {
// if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
// return -ETIMEDOUT;
// }
// }
bflb_i2c_disable(dev);
return 0;
@ -261,7 +261,7 @@ static int bflb_i2c_read_bytes(struct bflb_device_s *dev, uint8_t *data, uint32_
uint32_t reg_base;
uint32_t temp = 0;
uint8_t *tmp_buf;
uint64_t start_time;
// uint64_t start_time;
reg_base = dev->reg_base;
tmp_buf = data;
@ -269,12 +269,12 @@ static int bflb_i2c_read_bytes(struct bflb_device_s *dev, uint8_t *data, uint32_
bflb_i2c_enable(dev);
while (len >= 4) {
start_time = bflb_mtimer_get_time_ms();
while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_RX_FIFO_CNT_MASK) == 0) {
if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
return -ETIMEDOUT;
}
}
// start_time = bflb_mtimer_get_time_ms();
// while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_RX_FIFO_CNT_MASK) == 0) {
// if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
// return -ETIMEDOUT;
// }
// }
temp = getreg32(reg_base + I2C_FIFO_RDATA_OFFSET);
PUT_UINT32_LE(tmp_buf, temp);
tmp_buf += 4;
@ -282,12 +282,12 @@ static int bflb_i2c_read_bytes(struct bflb_device_s *dev, uint8_t *data, uint32_
}
if (len > 0) {
start_time = bflb_mtimer_get_time_ms();
while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_RX_FIFO_CNT_MASK) == 0) {
if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
return -ETIMEDOUT;
}
}
// start_time = bflb_mtimer_get_time_ms();
// while ((getreg32(reg_base + I2C_FIFO_CONFIG_1_OFFSET) & I2C_RX_FIFO_CNT_MASK) == 0) {
// if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
// return -ETIMEDOUT;
// }
// }
temp = getreg32(reg_base + I2C_FIFO_RDATA_OFFSET);
for (uint8_t i = 0; i < len; i++) {
@ -295,12 +295,12 @@ static int bflb_i2c_read_bytes(struct bflb_device_s *dev, uint8_t *data, uint32_
}
}
start_time = bflb_mtimer_get_time_ms();
while (bflb_i2c_isbusy(dev) || !bflb_i2c_isend(dev)) {
if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
return -ETIMEDOUT;
}
}
// start_time = bflb_mtimer_get_time_ms();
// while (bflb_i2c_isbusy(dev) || !bflb_i2c_isend(dev)) {
// if ((bflb_mtimer_get_time_ms() - start_time) > 100) {
// return -ETIMEDOUT;
// }
// }
bflb_i2c_disable(dev);
return 0;

1
bsp/bouffalo_lab/libraries/rt_drivers/Kconfig
View File

@ -1111,6 +1111,7 @@ menu "General Drivers Configuration"
menuconfig BSP_USING_SPI
bool "Enable SPI"
select RT_USING_SPI
select RT_USING_PIN
default n
if BSP_USING_SPI

2
bsp/bouffalo_lab/libraries/rt_drivers/SConscript
View File

@ -43,7 +43,7 @@ if GetDepend('BSP_USING_ON_CHIP_FLASH'):
if GetDepend('BSP_USING_SDH'):
src += ['drv_sdh.c']
if GetDepend('RT_USING_DFS'):
if GetDepend('BSP_USING_SDH'):
src += ['port/mnt.c']
group = DefineGroup('rt_drivers', src, depend = [''], CPPPATH = CPPPATH)

2
bsp/bouffalo_lab/libraries/rt_drivers/drv_i2c.h
View File

@ -358,7 +358,7 @@
#define I2C3_GPIO_SCL GPIO_PIN_44
#endif
#ifdef I2C3_SDA_USING_GPIO26
#ifdef I2C3_SDA_USING_GPIO1
#define I2C3_GPIO_SDA GPIO_PIN_1
#elif defined(I2C3_SDA_USING_GPIO3)
#define I2C3_GPIO_SDA GPIO_PIN_3

6
bsp/bouffalo_lab/libraries/rt_drivers/drv_spi.c
View File

@ -554,6 +554,12 @@ int rt_hw_spi_init(void)
dev_spi.dma_rx = bflb_device_get_by_name(BSP_SPI_RX_DMA_CHANNEL);
#endif
#else
bflb_gpio_init(gpio, SPI_SCK_PIN, GPIO_FUNC_SPI1 | GPIO_ALTERNATE | GPIO_PULLUP | GPIO_SMT_EN | GPIO_DRV_1);
bflb_gpio_init(gpio, SPI_MISO_PIN, GPIO_FUNC_SPI1 | GPIO_ALTERNATE | GPIO_PULLUP | GPIO_SMT_EN | GPIO_DRV_1);
bflb_gpio_init(gpio, SPI_MOSI_PIN, GPIO_FUNC_SPI1 | GPIO_ALTERNATE | GPIO_PULLUP | GPIO_SMT_EN | GPIO_DRV_1);
dev_spi.spi = bflb_device_get_by_name("spi1");
#endif /* BL808_CORE_D0 */
dev_spi.spi_bus.parent.user_data = (void *)&dev_spi;

1
bsp/bouffalo_lab/libraries/rt_drivers/drv_spi.h
View File

@ -13,6 +13,7 @@
#include <rthw.h>
#include "bflb_spi.h"
#include "bflb_dma.h"
#include "bflb_gpio.h"
#ifndef __DRV_SPI_H_
#define __DRV_SPI_H_