PS100/Source/drv_can.c

#include "common.h"
#include "drv_can.h"
#include "drv_io.h"

extern uint8_t work_normal;
//********************************************************CAN-START**********************************************************
static uint8_t can_tx_buf[CAN_TX_BUF_MAX];
static uint8_t can_rx_ctr_self_buf[CAN_RX_BUF_MAX];
static uint8_t can_rx_ctr_bro_buf[CAN_RX_CTR_BRO_BUF_MAX];
static uint8_t can_rx_test_bro_buf[CAN_RX_TEST_BRO_BUF_MAX];

can_parameter_struct can_parameter;
can_filter_parameter_struct can_filter;

#define CAN_BAUDRATE  250
uint32_t filter_ctr_self_id = (CTR_ID << 10)|(SELF_ID << 3)|CAN_FF_EXTENDED|CAN_FT_DATA;
uint32_t filter_ctr_bro_id = (CTR_ID << 10)|(BROCAST_ID << 3)|CAN_FF_EXTENDED|CAN_FT_DATA;

#ifdef CONFIG_CAN_IAP
uint32_t filter_test_bro_id = (PRINTF_TER_ID << 10)|(SELF_ID << 3)|CAN_FF_EXTENDED|CAN_FT_DATA;
#else
uint32_t filter_test_bro_id = (PRINTF_TER_ID << 10)|(BROCAST_ID << 3)|CAN_FF_EXTENDED|CAN_FT_DATA;
#endif

CAN_FRAME can_ctr_self;
CAN_FRAME can_ctr_bro;
CAN_FRAME can_test_bro;
static CAN_FRAME can_tx_frame;

static uint8_t can_busy = 0;

void Can_Stop_Send(void)
{
	can_busy = 0;
}
void Check_Can_Poll(void)
{
	if(work_normal)
	{
		if(can_error_get(CAN0) != CAN_ERROR_NONE)
		{
			Can_Power_Enable(0);
			can_deinit(CAN0);
			CAN_Config_HW();
			Can_Power_Enable(1);
			can_busy = 0;
		}
	}
}
static void Reset_Can_Rx_Buffer(CAN_FRAME*can_frame)
{
	if(can_frame == NULL)
        return;
    memset(&can_frame->head,0x00,sizeof(can_frame->head));
	can_frame->len = 0;
}

uint16_t Get_Data_Can(CAN_FRAME*app_can_frame)
{
	CAN_FRAME* cf_temp = NULL;
	
    if(app_can_frame == NULL)
        return 0;

	if(get_index_total_value(can_ctr_self.head.index) != 0 && can_ctr_self.head.index == can_ctr_self.head.total&&can_ctr_self.len)
		cf_temp = &can_ctr_self;
	else if(get_index_total_value(can_ctr_bro.head.index) != 0 && can_ctr_bro.head.index == can_ctr_bro.head.total&&can_ctr_bro.len)
		cf_temp = &can_ctr_bro;
	else if(get_index_total_value(can_test_bro.head.index) != 0 && can_test_bro.head.index == can_test_bro.head.total&&can_test_bro.len)
		cf_temp = &can_test_bro;

	if(cf_temp == NULL)
		return 0;
	
    memcpy(&app_can_frame->head,&cf_temp->head,sizeof(cf_temp->head));
	memcpy(app_can_frame->data,cf_temp->data,cf_temp->len);
	app_can_frame->len = cf_temp->len;

    Reset_Can_Rx_Buffer(cf_temp);

    return app_can_frame->len;
    
}



int8_t Send_Data_Can(CAN_FRAME*app_can_frame,uint8_t from)
{
	can_trasnmit_message_struct can_tr_m;
	uint32_t exid = 0;
	


	if(app_can_frame == NULL || can_busy || work_normal == 0)
	    return 0;
	
	//Silent_Enable(0);
	//delay_1us(100);
	
	memcpy(&can_tx_frame.head,&app_can_frame->head,sizeof(can_tx_frame.head));
	can_tx_frame.len = app_can_frame->len;
	memcpy(can_tx_frame.data,app_can_frame->data,can_tx_frame.len);


	
	memset(&can_tr_m,0x00,sizeof(can_tr_m));
	memcpy(&exid,&can_tx_frame.head,sizeof(exid));
	can_tr_m.tx_efid = (exid>>3);
	can_tr_m.tx_ff = CAN_FF_EXTENDED;
	can_tr_m.tx_ft = CAN_FT_DATA;

	if(can_tx_frame.len > 8)
		can_tr_m.tx_dlen = 8;
	else
		can_tr_m.tx_dlen = can_tx_frame.len;

	memcpy(can_tr_m.tx_data,can_tx_frame.data,can_tr_m.tx_dlen);

	if(can_message_transmit(CAN0,&can_tr_m) == CAN_NOMAILBOX)
		return 0;

	if(can_tx_frame.head.total != 1)
	{
		can_busy = 1;
		can_interrupt_enable(CAN0, CAN_INT_TME);
	}
	
    return 1;
    
}
static void Can_NVIC_Config(void)
{
	nvic_irq_enable(USBD_HP_CAN0_TX_IRQn,3,0);
	
	nvic_irq_enable(USBD_LP_CAN0_RX0_IRQn,3,0);
}




/**
  * @brief  Configures the CAN.
  * @param  None
  * @retval None
  */
void CAN_Config_HW(void)
{   


	/* enable CAN clock */
    rcu_periph_clock_enable(RCU_CAN0);
    rcu_periph_clock_enable(RCU_GPIOB);
    rcu_periph_clock_enable(RCU_AF);
    
    /* configure CAN0 GPIO */
    gpio_init(GPIOB,GPIO_MODE_IPU,GPIO_OSPEED_50MHZ,GPIO_PIN_8);
    gpio_init(GPIOB,GPIO_MODE_AF_PP,GPIO_OSPEED_50MHZ,GPIO_PIN_9);
    gpio_pin_remap_config(GPIO_CAN_PARTIAL_REMAP,ENABLE);

	rcu_periph_clock_enable(RCU_GPIOA);
	gpio_init(GPIOA,GPIO_MODE_OUT_PP,GPIO_OSPEED_50MHZ,GPIO_PIN_7);
	Silent_Enable(0);


    can_struct_para_init(CAN_INIT_STRUCT, &can_parameter);
    can_struct_para_init(CAN_INIT_STRUCT, &can_filter);
    /* initialize CAN register */
    can_deinit(CAN0);

    /* initialize CAN parameters */
    can_parameter.time_triggered = DISABLE;
    can_parameter.auto_bus_off_recovery = DISABLE;
    can_parameter.auto_wake_up = DISABLE;
    can_parameter.auto_retrans = DISABLE;
    can_parameter.rec_fifo_overwrite = DISABLE;
    can_parameter.trans_fifo_order = DISABLE;
    can_parameter.working_mode = CAN_NORMAL_MODE;
    can_parameter.resync_jump_width = CAN_BT_SJW_1TQ;
    can_parameter.time_segment_1 = CAN_BT_BS1_5TQ;
    can_parameter.time_segment_2 = CAN_BT_BS2_3TQ;
    
    /* 1MBps */
#if CAN_BAUDRATE == 1000
    can_parameter.prescaler = 6;
    /* 500KBps */
#elif CAN_BAUDRATE == 500
    can_parameter.prescaler = 12;
    /* 250KBps */
#elif CAN_BAUDRATE == 250
    can_parameter.prescaler = 24;
    /* 125KBps */
#elif CAN_BAUDRATE == 125
    can_parameter.prescaler = 48;
    /* 100KBps */
#elif  CAN_BAUDRATE == 100
    can_parameter.prescaler = 60;
    /* 50KBps */
#elif  CAN_BAUDRATE == 50
    can_parameter.prescaler = 120;
    /* 20KBps */
#elif  CAN_BAUDRATE == 20
    can_parameter.prescaler = 300;
#else
    #error "please select list can baudrate in private defines in drv_can.c "
#endif  
    /* initialize CAN */
    can_init(CAN0, &can_parameter);

    
    /* initialize filter */ 
    can_filter.filter_number=0;
    can_filter.filter_mode = CAN_FILTERMODE_MASK;
    can_filter.filter_bits = CAN_FILTERBITS_32BIT;
#if 1	
    can_filter.filter_list_high = (uint16_t)(filter_ctr_self_id >> 16);
    can_filter.filter_list_low = (uint16_t)(filter_ctr_self_id >> 0);
    can_filter.filter_mask_high = 0x0001;
    can_filter.filter_mask_low = 0xFFFF;
#else
	can_filter.filter_list_high = 0x0000;
    can_filter.filter_list_low = 0x0000;
    can_filter.filter_mask_high = 0x0000;
    can_filter.filter_mask_low = 0x0000;
#endif
    can_filter.filter_fifo_number = CAN_FIFO0;
    can_filter.filter_enable = ENABLE;
    can_filter_init(&can_filter);
    
    /* CAN1 filter number */
#if 1
    can_filter.filter_number = 1;
	can_filter.filter_list_high = (uint16_t)(filter_ctr_bro_id >> 16);
    can_filter.filter_list_low = (uint16_t)(filter_ctr_bro_id >> 0);
    can_filter_init(&can_filter);

	can_filter.filter_number = 2;
	can_filter.filter_list_high = (uint16_t)(filter_test_bro_id >> 16);
    can_filter.filter_list_low = (uint16_t)(filter_test_bro_id >> 0);
    can_filter_init(&can_filter);
#endif

    Can_NVIC_Config();

   	can_interrupt_enable(CAN0, CAN_INT_RFNE0);
    
    
}

/**
  * @brief  Configures the CAN.
  * @param  None
  * @retval None
  */
void CAN_Config(void)
{   

	memcpy(&can_ctr_self.head,&filter_ctr_self_id,sizeof(filter_ctr_self_id));
	memcpy(&can_ctr_bro.head,&filter_ctr_bro_id,sizeof(filter_ctr_bro_id));
	memcpy(&can_test_bro.head,&filter_test_bro_id,sizeof(filter_test_bro_id));
	can_ctr_self.data = can_rx_ctr_self_buf;
	can_ctr_bro.data = can_rx_ctr_bro_buf;
	can_test_bro.data = can_rx_test_bro_buf;

	memset(&can_tx_frame,0x00,sizeof(can_tx_frame));
	memset(can_tx_buf,0x00,sizeof(can_tx_buf));
	can_tx_frame.data = can_tx_buf;
	
	
	/* enable CAN clock */
    rcu_periph_clock_enable(RCU_CAN0);
    rcu_periph_clock_enable(RCU_GPIOB);
    rcu_periph_clock_enable(RCU_AF);
    
    /* configure CAN0 GPIO */
    gpio_init(GPIOB,GPIO_MODE_IPU,GPIO_OSPEED_50MHZ,GPIO_PIN_8);
    gpio_init(GPIOB,GPIO_MODE_AF_PP,GPIO_OSPEED_50MHZ,GPIO_PIN_9);
    gpio_pin_remap_config(GPIO_CAN_PARTIAL_REMAP,ENABLE);

	rcu_periph_clock_enable(RCU_GPIOA);
	gpio_init(GPIOA,GPIO_MODE_OUT_PP,GPIO_OSPEED_50MHZ,GPIO_PIN_7);
	//Silent_Enable(1);
	Silent_Enable(0);

    can_struct_para_init(CAN_INIT_STRUCT, &can_parameter);
    can_struct_para_init(CAN_INIT_STRUCT, &can_filter);
    /* initialize CAN register */
    can_deinit(CAN0);

    /* initialize CAN parameters */
    can_parameter.time_triggered = DISABLE;
    can_parameter.auto_bus_off_recovery = DISABLE;
    can_parameter.auto_wake_up = DISABLE;
    can_parameter.auto_retrans = DISABLE;
    can_parameter.rec_fifo_overwrite = DISABLE;
    can_parameter.trans_fifo_order = DISABLE;
    can_parameter.working_mode = CAN_NORMAL_MODE;
    can_parameter.resync_jump_width = CAN_BT_SJW_1TQ;
    can_parameter.time_segment_1 = CAN_BT_BS1_5TQ;
    can_parameter.time_segment_2 = CAN_BT_BS2_3TQ;
    
    /* 1MBps */
#if CAN_BAUDRATE == 1000
    can_parameter.prescaler = 6;
    /* 500KBps */
#elif CAN_BAUDRATE == 500
    can_parameter.prescaler = 12;
    /* 250KBps */
#elif CAN_BAUDRATE == 250
    can_parameter.prescaler = 24;
    /* 125KBps */
#elif CAN_BAUDRATE == 125
    can_parameter.prescaler = 48;
    /* 100KBps */
#elif  CAN_BAUDRATE == 100
    can_parameter.prescaler = 60;
    /* 50KBps */
#elif  CAN_BAUDRATE == 50
    can_parameter.prescaler = 120;
    /* 20KBps */
#elif  CAN_BAUDRATE == 20
    can_parameter.prescaler = 300;
#else
    #error "please select list can baudrate in private defines in drv_can.c "
#endif  
    /* initialize CAN */
    can_init(CAN0, &can_parameter);

    
    /* initialize filter */ 
    can_filter.filter_number=0;
    can_filter.filter_mode = CAN_FILTERMODE_MASK;
    can_filter.filter_bits = CAN_FILTERBITS_32BIT;
#if 1	
    can_filter.filter_list_high = (uint16_t)(filter_ctr_self_id >> 16);
    can_filter.filter_list_low = (uint16_t)(filter_ctr_self_id >> 0);
    can_filter.filter_mask_high = 0x0001;
    can_filter.filter_mask_low = 0xFFFF;
#else
	can_filter.filter_list_high = 0x0000;
    can_filter.filter_list_low = 0x0000;
    can_filter.filter_mask_high = 0x0000;
    can_filter.filter_mask_low = 0x0000;
#endif
    can_filter.filter_fifo_number = CAN_FIFO0;
    can_filter.filter_enable = ENABLE;
    can_filter_init(&can_filter);
    
    /* CAN1 filter number */
#if 1
    can_filter.filter_number = 1;
	can_filter.filter_list_high = (uint16_t)(filter_ctr_bro_id >> 16);
    can_filter.filter_list_low = (uint16_t)(filter_ctr_bro_id >> 0);
    can_filter_init(&can_filter);

	can_filter.filter_number = 2;
	can_filter.filter_list_high = (uint16_t)(filter_test_bro_id >> 16);
    can_filter.filter_list_low = (uint16_t)(filter_test_bro_id >> 0);
    can_filter_init(&can_filter);
#endif

    Can_NVIC_Config();

   	can_interrupt_enable(CAN0, CAN_INT_RFNE0);
    
    
}


void USBD_HP_CAN0_TX_IRQHandler(void)
{
	can_trasnmit_message_struct can_tr_m;
	uint32_t exid = 0;
	
	if(can_tx_frame.head.index != can_tx_frame.head.total)
	{
		can_tx_frame.head.index++;
		
		memset(&can_tr_m,0x00,sizeof(can_tr_m));
		memcpy(&exid,&can_tx_frame.head,sizeof(exid));
		can_tr_m.tx_efid = (exid>>3);
		can_tr_m.tx_ff = CAN_FF_EXTENDED;
		can_tr_m.tx_ft = CAN_FT_DATA;
		exid = get_index_total_value(can_tx_frame.head.index) -1;
		exid <<= 3;
		
		if(can_tx_frame.head.index != can_tx_frame.head.total)
			can_tr_m.tx_dlen = 8;
		else
			can_tr_m.tx_dlen = can_tx_frame.len - exid;

		memcpy(can_tr_m.tx_data,&can_tx_frame.data[exid],can_tr_m.tx_dlen);

		can_message_transmit(CAN0,&can_tr_m);
	}
	else
	{
		can_busy = 0;
		can_interrupt_disable(CAN0, CAN_INT_TME);
		//Silent_Enable(1);
	}
	
}

void USBD_LP_CAN0_RX0_IRQHandler(void)
{
	can_receive_message_struct Rxmessage;
	CAN_FRAME* cf_temp;
	uint32_t head,buf_max;
	
	can_message_receive(CAN0, CAN_FIFO0, &Rxmessage);

	switch(Rxmessage.rx_fi)
	{
		case 0:
			cf_temp = &can_ctr_self;
			buf_max = sizeof(can_rx_ctr_self_buf);
			break;
		case 1:
			cf_temp = &can_ctr_bro;
			buf_max = sizeof(can_rx_ctr_bro_buf);
			break;
		case 2:
			cf_temp = &can_test_bro;
			buf_max = sizeof(can_rx_test_bro_buf);	
			break;
		default:return;
	}
	head = (Rxmessage.rx_efid << 3)|(Rxmessage.rx_ff)|(Rxmessage.rx_ft);
	memcpy(&cf_temp->head,&head,sizeof(head));


	if(get_index_total_value(cf_temp->head.index) > get_index_total_value(cf_temp->head.total))
		return;
	
	head = get_index_total_value(cf_temp->head.total)*8UL;
	if(head > buf_max)
		return;

	head = get_index_total_value(cf_temp->head.index) - 1;

	memcpy(&cf_temp->data[head<<3],Rxmessage.rx_data,Rxmessage.rx_dlen);
	if(get_index_total_value(cf_temp->head.index) == get_index_total_value(cf_temp->head.total))
	{
		cf_temp->len = (head << 3) + Rxmessage.rx_dlen;
		//g_event |= EVENT_CAN_RECEIVE_FINISH;
	}

	
}



#if 1

// 
//ÓÃÓÚϵͳµ÷ÓÃprintf
//
#ifdef __GNUC__
  /* With GCC/RAISONANCE, small printf (option LD Linker->Libraries->Small printf
     set to 'Yes') calls __io_putchar() */
#define PUTCHAR_PROTOTYPE int __io_putchar(int ch)
#else
#define PUTCHAR_PROTOTYPE int fputc(int ch, FILE *f)
#endif /* __GNUC__ */

PUTCHAR_PROTOTYPE
{
	if(work_normal)
	{
		can_trasnmit_message_struct can_tr_m;

		memset(&can_tr_m,0x00,sizeof(can_tr_m));

		can_tr_m.tx_efid = (SELF_ID << 7)|(PRINTF_TER_ID << 0);
		can_tr_m.tx_ff = CAN_FF_EXTENDED;
		can_tr_m.tx_ft = CAN_FT_DATA;
		can_tr_m.tx_dlen = 1;
		can_tr_m.tx_data[0] = (uint8_t)ch;

		can_message_transmit(CAN0,&can_tr_m);

		delay_1us(500);
	}
	
	return ch;
}

#endif
//********************************************************CAN-END**********************************************************