一、SDCC(Small Device C Compiler)編譯環境搭建
SDCC是一個小型設備的C語言編譯器,該編譯器是標準C語言,可以編譯Intel MCS51架構的微處理器,也可以編譯STM8等常見MCU。我們要在linux上搭建STM8開發環境,首先要搭建SDCC編譯環境。
其主頁是:http://sdcc.sourceforge.net/ ,下面是SDCC的首頁簡介:
SDCC is a retargettable, optimizing Standard C (ANSI C89, ISO C99, ISO C11) compiler suite that targets the Intel MCS51 based microprocessors (8031, 8032, 8051, 8052, etc.), Maxim (formerly Dallas) DS80C390 variants, Freescale (formerly Motorola) HC08 based (hc08, s08), Zilog Z80 based MCUs (z80, z180, gbz80, Rabbit 2000/3000, Rabbit 3000A, TLCS-90) and STMicroelectronics STM8. Work is in progress on supporting the Microchip PIC16 and PIC18 targets. It can be retargeted for other microprocessors.
1.1、下載
有兩個可供下載的:
- 1) https://sourceforge.net/projects/sdcc/files/ <-- 需要自己編譯,有一定難度
- 2) http://sdcc.sourceforge.net/snap.php <-- 編譯好的,拿來即用
注: 對於選擇拿來即用的兄弟,可以直接跳過1.2節
1.2、編譯
如何編譯:
./config
可能會出現下面幾種錯誤(我也給出瞭解決辦法):
-
錯誤 1 、缺少bison :
configure: error: Cannot find required program bison.解決方法:
sudo apt-get install flex bison -
錯誤 2 、找不到adjacency_list.hpp
configure: error: boost library not found (boost/graph/adjacency_list.hpp).解決方法:
sudo apt-get install libboost-date-time-dev libboost-program-options-dev libboost-system-dev libboost-filesystem-dev libboost-iostreams-dev -
錯誤 3 、 沒有PIC14、PIC16設備
failed for device/lib/pic14解決方法:
./configure --disable-pic14-port --disable-pic16-port
1.3、測試
直接下載編譯好的需要將其按照說明放入系統bin等文件中,採用編譯的會自動將其放入系統bin中。而我比較喜歡不讓其和系統的各種東西糾纏在一起,單獨放在工程下的一個叫tool的文件裏,大不了用的時候輸全路徑!
如下,我在example目錄下建一個makefile和a.c文件,將直接編譯好的sdcc文件放在tool下面:
➜ SDCC_WS tree -L 2
.
├── example
│ ├── a.c
│ └── makefile
├── readme.md
└── tool
└── sdcc
其中a.c爲 stm8 閃燈程序:
#include "stm8l.h"
int main() {
int d;
// Configure pins
PB_DDR = 0x20;
PB_CR1 = 0x20;
// Loop
do {
PB_ODR ^= 0x20;
for(d = 0; d < 29000; d++) { }
} while(1);
}
makefile爲:
SDCC_PATH=../tool/sdcc
z_sdcc=${SDCC_PATH}/bin/sdcc
z_packihx=${SDCC_PATH}/bin/packihx
a.hex:a.c
${z_sdcc} -lstm8 -mstm8 --out-fmt-ihx a.c
${z_packihx} a.ihx > a.hex
clean:
rm -rf *.asm *.lst *.mem *.rst *.lnk *.rel *.sym *.ihx *.hex *.map *.lk *.bin
二、Hex2Bin+命令行燒寫工具配置使用
2.1、下載工具安裝配置
理論上hex也能燒寫,但是hex比bin要大一些,所以我們用這裏用bin燒寫。hex轉bin要用到一個Hex2Bin工具,將其下載下來解壓到tool目錄下;stm8單片機燒寫工具需要用一個github開源軟件stm8flash,也將其下載到tool目錄下:
➜ stm8_linux_tool git:(master) tree -L 2
.
├── app
│ ├── app_stm8_peri_blinky
│ └── app_stm8_peri_uart
├── bin
├── build
│ ├── makefile
│ └── tools.mk
├── readme.md
└── tool
├── Hex2bin-2.5
├── Hex2bin-2.5.zip
├── sdcc
├── sdcc.zip
└── stm8flash
9 directories, 5 files
將makefile改爲:
-include tools.mk
z_sdcc=${SDCC_PATH}/bin/sdcc
z_sdld=${SDCC_PATH}/bin/sdld
z_packihx=${SDCC_PATH}/bin/packihx
z_hex2bin=${HEX2BIN_PATH}/hex2bin
z_stm8flash=${STM8FLASH_PATH}/stm8flash
files_temp=*.asm *.lst *.rst *.rel *.sym *.ihx *.hex *.map *.lk *.bin *.cdb
build:
$(z_sdcc) -lstm8 -mstm8 --out-fmt-ihx $(CFLAGS) $(LDFLAGS) $(APP_PATH)/$(PROJECT)/*.c
${z_packihx} *.ihx > $(PROJECT).hex
${z_hex2bin} $(PROJECT).hex
mv -f $(files_temp) $(BIN_PATH)
clean:
rm -f $(BIN_PATH)/*
flash:
echo "00 00 ff 00 ff 00 ff 00 ff 00 ff" | xxd -r -p > factory_defaults.bin
$(z_stm8flash) -c stlinkv2 -p stm8s103?3 -s opt -w factory_defaults.bin
$(z_stm8flash) -c stlinkv2 -p stm8s103?3 -w $(BIN_PATH)/*.ihx
rm factory_defaults.bin
2.2、編譯+燒寫
進入 build 目錄運行 make build PROJECT=app_stm8_peri_blinky,自動編譯:
輸入make flash 進行燒寫:
注:有些芯片被鎖起來了,因此要在 flash 前多加一個解鎖的指令:
echo "00 00 ff 00 ff 00 ff 00 ff 00 ff" | xxd -r -p > factory_defaults.bin
$(z_stm8flash) -c stlinkv2 -p stm8s103?3 -s opt -w factory_defaults.bin
最終效果是下面一個 stm8 最小開發板上的紅色燈珠快速閃爍:
鏈接
- 本文 GITHUB 地址:https://github.com/nbtool/stm8_linux_tool
- stm8 PROGRAMMING USING SMALL DEVICE C COMPILER (SDCC):GO
- SDCC WiKi:https://sourceforge.net/p/sdcc/wiki/Home/
- 在Linux下搭建51單片機的開發燒寫環境:GO
- Getting started with STM8 Development Tools on GNU/LINUX GO
- How to Program STMicro STM8S $1 Board in Linux GO
- Разработка для STM8 под Linux GO
- Fun and games with the STM8 on Linux GO
- stm8af5288: Can't flash GO
: ** 我做了一系列全自動構建編譯環境的工程,目前可以覆蓋:51單片機、stm8、esp8266、esp32、nrf51822、nrf52832、android,歡迎到我的 nbtool github 下交流:https://github.com/nbtool **
