void gpio_set(int on) unsigned int data = (volatile unsigned int )GPIO_DATA; if (on) data
// bcm63381_demo.dts /dts-v1/; #include "bcm63xx.dtsi" / model = "My BCM63381 Board"; compatible = "mycompany,bcm63381", "brcm,bcm63381";
return 0;
memory@0 device_type = "memory"; reg = <0x0 0x4000000>; // 64 MB ; bcm63381b0 firmware
CFE> load -raw -addr=0x80800000 minimal.bin CFE> go 0x80800000 If you want to develop a full router firmware , use OpenWrt (supports many BCM63xx chips).
mips-linux-gnu-gcc -mips32r2 -msoft-float -G 0 -c minimal.c mips-linux-gnu-ld -T cfe.ld -o minimal.elf minimal.o cfe-bin2bin minimal.elf minimal.bin Then load via CFE prompt:
int main() gpio_init(); for (int i = 0; i < 10; i++) gpio_set(1); cfe_sleep(500); // milliseconds gpio_set(0); cfe_sleep(500); void gpio_set(int on) unsigned int data = (volatile
gpio-leds compatible = "gpio-leds"; led_power label = "power"; gpios = <&gpio0 5 GPIO_ACTIVE_HIGH>; ; ; ;
Example: a minimal C program to blink an LED via GPIO.
| Item | Source | |------|--------| | BCM63381B0 datasheet | Broadcom (under NDA) | | Broadcom BSP (Linux + drivers) | Broadcom or device vendor | | CFE source or binary | Part of BSP | | DSL CPE API docs | Broadcom | | JTAG/SWD debugger | Segger J-Link, FT2232H | if (on) data // bcm63381_demo.dts /dts-v1/
void gpio_init() // set GPIO pin 5 as output unsigned int dir = (volatile unsigned int )GPIO_DIR; dir
make menuconfig # select bcm63xx target and your board make -j$(nproc) Output: openwrt-bcm63381-demo-squashfs-cfe.bin (ready to flash via CFE) To really develop firmware for BCM63381B0, you legally need:
// minimal.c - for BCM63381B0 bare-metal (CFE environment) #include <stdio.h> #include <cfe_api.h> // GPIO base address - you need BCM63381 datasheet for exact address #define GPIO_BASE 0x18000000 // example only, not real #define GPIO_DIR (GPIO_BASE + 0x00) #define GPIO_DATA (GPIO_BASE + 0x08)