#include "asm/includes.h" //#include "asm/ldo.h" //#include "asm/cache.h" #include "system/task.h" #include "timer.h" #include "system/init.h" #include "app_config.h" #include "gpio.h" #include "board_config.h" //#include "power_manage.h" // #define LOG_TAG_CONST SETUP #define LOG_TAG "[SETUP]" #define LOG_ERROR_ENABLE #define LOG_DEBUG_ENABLE #define LOG_INFO_ENABLE /* #define LOG_DUMP_ENABLE */ #define LOG_CLI_ENABLE #include "debug.h" //extern void dv15_dac_early_init(u8 ldo_sel, u8 pwr_sel, u32 dly_msecs); // extern void sys_timer_init(void); extern void tick_timer_init(void); extern void vPortSysSleepInit(void); extern void reset_source_dump(void); extern void power_reset_source_dump(void); extern void exception_irq_handler(void); int __crc16_mutex_init(); extern int __crc16_mutex_init(); #define DEBUG_SINGAL_IDLE(x) //if (x) IO_DEBUG_1(A, 7) else IO_DEBUG_0(A, 7) #define DEBUG_SINGAL_1S(x) //if (x) IO_DEBUG_1(A, 6) else IO_DEBUG_0(A, 6) #if (defined CONFIG_DEBUG_ENABLE) || (defined CONFIG_DEBUG_LITE_ENABLE) void debug_uart_init(const struct uart_platform_data *data); #endif #if 0 ___interrupt void exception_irq_handler(void) { ___trig; exception_analyze(); log_flush(); while (1); } #endif /* * 此函数在cpu0上电后首先被调用,负责初始化cpu内部模块 * * 此函数返回后,操作系统才开始初始化并运行 * */ #if 0 static void early_putchar(char a) { if (a == '\n') { UT2_BUF = '\r'; __asm_csync(); while ((UT2_CON & BIT(15)) == 0); } UT2_BUF = a; __asm_csync(); while ((UT2_CON & BIT(15)) == 0); } void early_puts(char *s) { do { early_putchar(*s); } while (*(++s)); } #endif void cpu_assert_debug() { #ifdef CONFIG_DEBUG_ENABLE log_flush(); local_irq_disable(); while (1); #else cpu_reset(); #endif } void timer(void *p) { /* DEBUG_SINGAL_1S(1); */ sys_timer_dump_time(); /* DEBUG_SINGAL_1S(0);*/ } static void (*uart_db_irq_handler_callback)(u8 *packet, u32 size); extern void uart_dev_set_irq_handler_hook(void *uart_irq_hook); static void uart_db_irq_handler_hook(u8 *rbuf, u32 len) { if (len) { log_info("uart_rx_data %d:", len); put_buf(rbuf, len); } if (uart_db_irq_handler_callback) { uart_db_irq_handler_callback(rbuf, len); } } void uart_db_regiest_recieve_callback(void *rx_cb) { uart_db_irq_handler_callback = rx_cb; } void setup_arch() { wdt_init(WDT_4S); clk_init_osc_cap(0x0b, 0x0b); clk_voltage_init(TCFG_CLOCK_MODE, 1160); clk_early_init(TCFG_CLOCK_SYS_SRC, TCFG_CLOCK_OSC_HZ, TCFG_CLOCK_SYS_HZ); tick_timer_init(); #if (defined CONFIG_DEBUG_ENABLE) || (defined CONFIG_DEBUG_LITE_ENABLE) debug_uart_init(NULL); #if TCFG_UART0_RX_PORT != NO_CONFIG_PORT JL_UART0->CON0 &= ~BIT(2); //disable Tx pending Enable uart_dev_set_irq_handler_hook(uart_db_irq_handler_hook); #if TCFG_LOWPOWER_LOWPOWER_SEL /*需要关闭POWERDOWN,否则接收会丢数据*/ #error "need define TCFG_LOWPOWER_LOWPOWER_SEL 0 !!!!!!" #endif #endif /* void vmm_debug(); */ /* vmm_debug(); */ /*interrupt_init();*/ #ifdef CONFIG_DEBUG_ENABLE log_early_init(1024); #endif #endif log_i("\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"); log_i(" setup_arch %s %s", __DATE__, __TIME__); log_i("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n"); clock_dump(); /* log_info("resour est: %d", get_boot_flag()); */ //set_boot_flag(99); /* log_info("resour est: %d", get_boot_flag()); */ reset_source_dump(); power_reset_source_dump(); request_irq(1, 2, exception_irq_handler, 0); debug_init(); sys_timer_init(); /* sys_timer_add(NULL, timer, 10 * 1000); */ __crc16_mutex_init(); } /*-----------------------------------------------------------*/