Ejemplo n.º 1
0
ErrorStatus fnSetAlarmClock(uint8_t h,uint8_t m,uint8_t setting)
{
	uint8_t t;
	
	if ((h>=24)||(m>=60))
		return ERROR;
	rt_kprintf("\n===Enter Alarm Clock Mode===\n");
	
	/* Set Alarm Time */
	t = IIC_Read(DS3231_ADDRESS,DS3231_CONTROL) & 0xFC;
	if (setting)
	{
		IIC_Write(DS3231_ADDRESS,DS3231_CONTROL,t | 0x01);
		IIC_Write(DS3231_ADDRESS,DS3231_A1_S,0x00);
		IIC_Write(DS3231_ADDRESS,DS3231_A1_M,(m%10)|((m/10)<<4));
		IIC_Write(DS3231_ADDRESS,DS3231_A1_H,(h%10)|((h/10)<<4));
		IIC_Write(DS3231_ADDRESS,DS3231_A1_D,0x80);
	}else{
		IIC_Write(DS3231_ADDRESS,DS3231_CONTROL,t | 0x02);
		IIC_Write(DS3231_ADDRESS,DS3231_A2_M,(m%10)|((m/10)<<4));
		IIC_Write(DS3231_ADDRESS,DS3231_A2_H,(h%10)|((h/10)<<4));
		IIC_Write(DS3231_ADDRESS,DS3231_A2_D,0x80);
	}
	
	/* Clear Alarm Flag */
	t = IIC_Read(DS3231_ADDRESS,DS3231_CON_STA);
	t &= 0xFC;
	IIC_Write(DS3231_ADDRESS,DS3231_CON_STA,t);
	
	rt_event_send(en_event,EVENT_TEMP_CLOCK);
	rt_thread_delay_hmsm(0,0,1,0);
	
	rt_event_send(reg_event,REG_ALARM_MSK);
	reg_output[REG_ALARM] = REG_Convert(REG_HexToReg(m%10),REG_HexToReg(m/10),REG_HexToReg(h%10),REG_HexToReg(h/10),1,0);
	rt_thread_delay_hmsm(0,0,1,0);
	
	reg_output[REG_ALARM] = 0xFFFFFFFF;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xFFFFFFFE;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xFFFFFEBF;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xFFFEBFF7;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xFEBFF7FF;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xBFF7FFFF;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xF7FFFFFF;
	rt_thread_delay_hmsm(0,0,0,62);
	reg_output[REG_ALARM] = 0xFFFFFFFF;
	rt_thread_delay_hmsm(0,0,0,62);
	
	StandBy();
	return SUCCESS;
}
Ejemplo n.º 2
0
/* netconn callback function */
void rx_callback(struct netconn *conn, enum netconn_evt evt, rt_uint16_t len)
{
    if (evt == NETCONN_EVT_RCVPLUS)
    {
        rt_event_send(telnet->nw_event, NW_RX);
    }
    
    if (conn->state == NETCONN_CLOSE)
    {
        rt_event_send(telnet->nw_event, NW_CLOSED);
    } 
}
Ejemplo n.º 3
0
void cc1101_isr()
{
	
    if(GPIO_ReadInputDataBit(GPIOC, GPIO_Pin_4) ==Bit_SET)
    {
        rt_event_send(&cc1101_event,GDO0_H);
		  //DEBUG("GDO0_H in int \r\n");
    }
    else
    {
        rt_event_send(&cc1101_event,GDO0_L);
		 // DEBUG("GDO0_L in int \r\n");
    }
}
Ejemplo n.º 4
0
static rt_err_t uart485_tl16_8_rx_ind(rt_device_t dev, rt_size_t size)
{
	rt_event_send(&em_protocol_data_event_set, EVENT_BIT_TL16_8_RECV_DATA);
	++rx_ind_cnt[7];

	return RT_EOK;
}
Ejemplo n.º 5
0
static rt_err_t uart485_3_rx_ind(rt_device_t dev, rt_size_t size)
{
//	rt_sem_release(&uart485_3_rx_byte_sem);
	rt_event_send(&em_protocol_data_event_set, EVENT_BIT_UART485_3_RECV_DATA);
	u485_ind_debug(("%s(), size:%d\n", __func__, size));
	return RT_EOK;
}
Ejemplo n.º 6
0
void fnAlarm(void)
{
	rt_uint32_t e;
	uint8_t buf,int_m,t=0;
	uint16_t delay1,delay2,strength;
	rt_thread_delay_hmsm(0,0,3,0);
	int_m = (clock_m+5)%60;
	rt_kprintf("It is %d:%d now\nAlarm Level %d\n",clock_h,clock_m,t);
	rt_event_send(reg_event,REG_ALARM_MSK);
	while (rt_mq_recv(key_mq,&buf,sizeof(uint8_t),0)!=RT_EOK)
	{
		if (clock_m==int_m)
		{
			t+=1;
			int_m = (int_m+5)%60;
			rt_kprintf("Alarm Level %d\n",t);
		}
		switch (t)
		{
			case 0: delay1 = 500; delay2 = 4500; strength = 400; break;
			case 1: delay1 = 1000; delay2 = 2000; strength = 600; break;
			case 2: delay1 = 500; delay2 = 500; strength = 800; break;
			default: delay1 = 500; delay2 = 250; strength = 1000; break;
		}
		SetAlarm(strength);
		rt_thread_delay_hmsm(0,0,0,delay1);
		SetAlarm(0);
		Animate(delay2);
	}
	rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);
	return;
}
void vMBPortSerialEnable(BOOL xRxEnable, BOOL xTxEnable)
{
    rt_uint32_t recved_event;
    if (xRxEnable)
    {
        /* enable RX interrupt */
        serial->ops->control(serial, RT_DEVICE_CTRL_SET_INT, (void *)RT_DEVICE_FLAG_INT_RX);
        /* switch 485 to receive mode */
        rt_pin_write(MODBUS_SLAVE_RT_CONTROL_PIN_INDEX, PIN_HIGH);//PIN_LOW);
    }
    else
    {
        /* switch 485 to transmit mode */
        rt_pin_write(MODBUS_SLAVE_RT_CONTROL_PIN_INDEX, PIN_LOW);//PIN_HIGH);
        /* disable RX interrupt */
        serial->ops->control(serial, RT_DEVICE_CTRL_CLR_INT, (void *)RT_DEVICE_FLAG_INT_RX);
    }
    if (xTxEnable)
    {
        /* start serial transmit */
        rt_event_send(&event_serial, EVENT_SERIAL_TRANS_START);
    }
    else
    {
        /* stop serial transmit */
        rt_event_recv(&event_serial, EVENT_SERIAL_TRANS_START,
                RT_EVENT_FLAG_OR | RT_EVENT_FLAG_CLEAR, 0,
                &recved_event);
    }
}
Ejemplo n.º 8
0
void sonar_thread_entry(void* parameter)
{
	rt_kprintf("start sonar\n");
	while(1)
	{
		GPIO_SetBits(GPIOE,GPIO_Pin_7);
		
		rt_thread_delay(RT_TICK_PER_SECOND*10/1000);
		
		GPIO_ResetBits(GPIOE,GPIO_Pin_7);
		
		rt_thread_delay(RT_TICK_PER_SECOND*50/1000);
		
		sonar_h=Moving_Median(PWM8_Time/58.0f*ahrs.g_z,sonar_avr,SAMPLE_COUNT);
		
		ahrs.height_v=HV_A*(ahrs.height_v+ahrs.height_acc*0.06f)+(1.0f-HV_A)*((sonar_h-ahrs.height)/0.06f);
		
		ahrs.height=sonar_h;
		h=(u16)sonar_h;
		sonar_state=sonar_h>3.0f&&sonar_h<150.0f;
		ahrs_state.sonar=!sonar_state;
		
		rt_event_send(&ahrs_event,AHRS_EVENT_SONAR);
	}
}
Ejemplo n.º 9
0
void
jffs2_stop_garbage_collect_thread(struct jffs2_sb_info *c)
{
     struct super_block *sb=OFNI_BS_2SFFJ(c);
     cyg_mtab_entry *mte;
	 rt_uint32_t  e;
	 
     //RT_ASSERT(sb->s_gc_thread_handle);

     D1(printk("jffs2_stop_garbage_collect_thread\n"));
     /* Stop the thread and wait for it if necessary */

     rt_event_send(&sb->s_gc_thread_flags,GC_THREAD_FLAG_STOP);

     D1(printk("jffs2_stop_garbage_collect_thread wait\n"));
	 
     rt_event_recv(&sb->s_gc_thread_flags,
                   GC_THREAD_FLAG_HAS_EXIT,
                   RT_EVENT_FLAG_OR | RT_EVENT_FLAG_CLEAR,
				   RT_WAITING_FOREVER,  &e);

     // Kill and free the resources ...  this is safe due to the flag
     // from the thread.
     rt_thread_detach(&sb->s_gc_thread);
     rt_sem_detach(&sb->s_lock);
     rt_event_detach(&sb->s_gc_thread_flags);
}
Ejemplo n.º 10
0
void jffs2_garbage_collect_trigger(struct jffs2_sb_info *c)
{
     struct super_block *sb=OFNI_BS_2SFFJ(c);

     /* Wake up the thread */
     D1(printk("jffs2_garbage_collect_trigger\n"));

     rt_event_send(&sb->s_gc_thread_flags,GC_THREAD_FLAG_TRIG);
}
Ejemplo n.º 11
0
/**
 * This is modbus master request process success callback function.
 * @note There functions will block modbus master poll while execute OS waiting.
 * So,for real-time of system.Do not execute too much waiting process.
 *
 */
void vMBMasterCBRequestScuuess( void ) {
    /**
     * @note This code is use OS's event mechanism for modbus master protocol stack.
     * If you don't use OS, you can change it.
     */
    rt_event_send(&xMasterOsEvent, EV_MASTER_PROCESS_SUCESS);

    /* You can add your code under here. */

}
Ejemplo n.º 12
0
/**
 * This is modbus master execute function error process callback function.
 * @note There functions will block modbus master poll while execute OS waiting.
 * So,for real-time of system.Do not execute too much waiting process.
 *
 * @param ucDestAddress destination salve address
 * @param pucPDUData PDU buffer data
 * @param ucPDULength PDU buffer length
 *
 */
void vMBMasterErrorCBExecuteFunction(UCHAR ucDestAddress, const UCHAR* pucPDUData,
        USHORT ucPDULength) {
    /**
     * @note This code is use OS's event mechanism for modbus master protocol stack.
     * If you don't use OS, you can change it.
     */
    rt_event_send(&xMasterOsEvent, EV_MASTER_ERROR_EXECUTE_FUNCTION);

    /* You can add your code under here. */

}
Ejemplo n.º 13
0
/**
 * This is modbus master receive data error process callback function.
 * @note There functions will block modbus master poll while execute OS waiting.
 * So,for real-time of system.Do not execute too much waiting process.
 *
 * @param ucDestAddress destination salve address
 * @param pucPDUData PDU buffer data
 * @param ucPDULength PDU buffer length
 *
 */
void vMBMasterErrorCBReceiveData(UCHAR ucDestAddress, const UCHAR* pucPDUData,
        USHORT ucPDULength) {
    /**
     * @note This code is use OS's event mechanism for modbus master protocol stack.
     * If you don't use OS, you can change it.
     */
    rt_event_send(&xMasterOsEvent, EV_MASTER_ERROR_RECEIVE_DATA);

    /* You can add your code under here. */

}
Ejemplo n.º 14
0
void EXTI1_IRQHandler(void)
{

	if(EXTI_GetITStatus(EXTI_Line1)!= RESET ) 
	{
			//ProcessInt0(); 
		EXTI_ClearFlag(EXTI_Line1);
		EXTI_ClearITPendingBit(EXTI_Line1);
		rt_event_send(&event,(1 << 0));
	}
}
Ejemplo n.º 15
0
/* send telnet option to remote */
static void telnet_send_option(struct telnet_session* telnet, rt_uint8_t option, rt_uint8_t value)
{
    rt_uint8_t optbuf[4];

    optbuf[0] = TELNET_IAC;
    optbuf[1] = option;
    optbuf[2] = value;
    optbuf[3] = 0;

    rt_sem_take(telnet->tx_ringbuffer_lock, RT_WAITING_FOREVER);
    rb_put(&telnet->tx_ringbuffer, optbuf, 3);
    rt_sem_release(telnet->tx_ringbuffer_lock);

    /* trigger a tx event */
    rt_event_send(telnet->nw_event, NW_TX);
}
Ejemplo n.º 16
0
void ENET_IRQHandler(void)
{
	rt_uint32_t status;

    /* enter interrupt */
    rt_interrupt_enter();

	status = LPC_EMAC->IntStatus;

	if (status & INT_RX_DONE)
	{
		/* Disable EMAC RxDone interrupts. */
		LPC_EMAC->IntEnable = INT_TX_DONE;

		/* a frame has been received */
		eth_device_ready(&(lpc17xx_emac_device.parent));
	}
	else if (status & INT_TX_DONE)
	{
		/* set event */
		rt_event_send(&tx_event, 0x01);
	}

	if (status & INT_RX_OVERRUN)
	{
		rt_kprintf("rx overrun\n");
	}

	if (status & INT_TX_UNDERRUN)
	{
		rt_kprintf("tx underrun\n");
	}

	if (status & INT_SOFT_INT){
	 	rt_kprintf("!!!!!!!!!!!!!!eth soft int\n");
	}

	if(status & INT_WAKEUP){
	 	rt_kprintf("!!!!!!!!!!!!!1eth wakeup\n");
	}

	/* Clear the interrupt. */
	LPC_EMAC->IntClear = status;

    /* leave interrupt */
    rt_interrupt_leave();
}
Ejemplo n.º 17
0
void DMA1_Stream0_IRQHandler(void) //I2C1 RX
{

	rt_interrupt_enter();

	if (DMA_GetITStatus(I2C1_DMA_CHANNEL_RX, DMA_IT_TCIF0))
    {
	   I2C_TRACE("RXTC\n");
	   /* clear DMA flag */
		DMA_ClearFlag(I2C1_DMA_CHANNEL_RX, DMA_FLAG_TCIF0 );
		DMA_ITConfig( I2C1_DMA_CHANNEL_RX, DMA_IT_TC, DISABLE);
		DMA_Cmd(I2C1_DMA_CHANNEL_RX, DISABLE);
		if( i2cStatus == S6 )
		{
			i2cStatus = S_STOP;
			I2C1->CR1 |= CR1_STOP_Set;
			rt_event_send(&i2c_event, I2C_COMPLETE);
		}
    }
	if (DMA_GetITStatus(I2C1_DMA_CHANNEL_RX, DMA_IT_HTIF0))
	{
		I2C_TRACE("RXHT\n");
		DMA_ClearFlag(I2C1_DMA_CHANNEL_RX, DMA_FLAG_HTIF0 );
	}
	if (DMA_GetITStatus(I2C1_DMA_CHANNEL_RX, DMA_IT_TEIF0))
	{
		I2C_TRACE("RXTE\n");
		DMA_ClearFlag(I2C1_DMA_CHANNEL_RX, DMA_FLAG_TEIF0 );
	}
	if (DMA_GetITStatus(I2C1_DMA_CHANNEL_RX, DMA_IT_FEIF0))
	{
		I2C_TRACE("RXFE\n");
		DMA_ClearFlag(I2C1_DMA_CHANNEL_RX, DMA_FLAG_FEIF0 );
	}
	if (DMA_GetITStatus(I2C1_DMA_CHANNEL_RX, DMA_IT_DMEIF0))
	{
		I2C_TRACE("RXDME\n");
		DMA_ClearFlag(I2C1_DMA_CHANNEL_RX, DMA_FLAG_DMEIF0 );
	}

	rt_interrupt_leave();	
}
Ejemplo n.º 18
0
u8 get_dmp()
{
	dmp_read_fifo(gyro, accel, quat, &sensor_timestamp, &sensors, &more);
	if (sensors & INV_WXYZ_QUAT)
	{
		q0 = (float)quat[0] / q30;
		q1 = (float)quat[1] / q30;
		q2 = (float)quat[2] / q30;
		q3 = (float)quat[3] / q30;

		mpu_gryo_pitch = MoveAve_WMA(gyro[0], MPU6050_GYR_FIFO[0], 8);
		mpu_gryo_roll = MoveAve_WMA(gyro[1], MPU6050_GYR_FIFO[1], 8);
		mpu_gryo_yaw = MoveAve_WMA(gyro[2], MPU6050_GYR_FIFO[2], 8);

		ahrs.gryo_pitch = -mpu_gryo_pitch 	* gyroscale / 32767.0f;
		ahrs.gryo_roll = -mpu_gryo_roll 	* gyroscale / 32767.0f;
		ahrs.gryo_yaw = -mpu_gryo_yaw 	* gyroscale / 32767.0f;

		ahrs.degree_roll = -asin(-2 * q1 * q3 + 2 * q0* q2)* 57.3f + settings.angle_diff_roll;   //+ Pitch_error; // pitch
		ahrs.degree_pitch = -atan2(2 * q2 * q3 + 2 * q0 * q1, -2 * q1 * q1 - 2 * q2* q2 + 1)* 57.3f + settings.angle_diff_pitch;  //+ Roll_error; // roll
		if (!has_hmc5883)
			ahrs.degree_yaw = atan2(2 * (q1*q2 + q0*q3), q0*q0 + q1*q1 - q2*q2 - q3*q3) * 57.3f;  //+ Yaw_error;

		ahrs.time_span = Timer4_GetSec();

		if (en_out_ahrs)
			rt_kprintf("%d,%d,%d		%d\n",
				(s32)(ahrs.degree_pitch),
				(s32)(ahrs.degree_roll),
				(s32)(ahrs.degree_yaw),
				(u32)(1.0f / ahrs.time_span));
		rt_event_send(&ahrs_event, AHRS_EVENT_Update);

		dmp_retry = 0;
		return 1;
	}
lost:
	dmp_retry++;
	return 0;
}
Ejemplo n.º 19
0
static void
jffs2_garbage_collect_thread(unsigned long data)
{
     struct jffs2_sb_info *c=(struct jffs2_sb_info *)data;
     struct super_block *sb=OFNI_BS_2SFFJ(c);
     cyg_mtab_entry *mte;
     rt_uint32_t flag = 0;
	 
     D1(printk("jffs2_garbage_collect_thread START\n"));

     while(1) {
          rt_event_recv(&sb->s_gc_thread_flags,
                        GC_THREAD_FLAG_TRIG | GC_THREAD_FLAG_STOP,
                        RT_EVENT_FLAG_OR | RT_EVENT_FLAG_CLEAR,
				        cyg_current_time() + CYGNUM_JFFS2_GS_THREAD_TICKS,  
						&flag);

          if (flag & GC_THREAD_FLAG_STOP)
               break;

          D1(printk("jffs2: GC THREAD GC BEGIN\n"));

          mte=(cyg_dir *) sb->s_root;
          RT_ASSERT(mte != NULL);
//          rt_mutex_take(&mte->fs->syncmode, RT_WAITING_FOREVER);

          if (jffs2_garbage_collect_pass(c) == -ENOSPC) {
               printf("No space for garbage collection. "
                      "Aborting JFFS2 GC thread\n");
               break;
          }
//          rt_mutex_release(&mte->fs->syncmode);
          D1(printk("jffs2: GC THREAD GC END\n"));
     }

     D1(printk("jffs2_garbage_collect_thread EXIT\n"));
     rt_event_send(&sb->s_gc_thread_flags,GC_THREAD_FLAG_HAS_EXIT);	 
}
Ejemplo n.º 20
0
static rt_size_t telnet_write (rt_device_t dev, rt_off_t pos, const void* buffer, rt_size_t size)
{
    const rt_uint8_t *ptr;

    ptr = (rt_uint8_t*)buffer;

    rt_sem_take(telnet->tx_ringbuffer_lock, RT_WAITING_FOREVER);
    while (size)
    {
        if (*ptr == '\n')
            rb_putchar(&telnet->tx_ringbuffer, '\r');

        if (rb_putchar(&telnet->tx_ringbuffer, *ptr) == 0)  /* overflow */
            break;
        ptr ++; size --;
    }
    rt_sem_release(telnet->tx_ringbuffer_lock);

    /* send to network side */
    rt_event_send(telnet->nw_event, NW_TX);

    return (rt_uint32_t)ptr - (rt_uint32_t)buffer;
}
Ejemplo n.º 21
0
/* 
	Only 1 byte READ using Interrupt or Polling otherwise using DMA
*/
void I2C1_EV_IRQHandler()
{
	__IO uint16_t regSR1, regSR2;
	__IO uint32_t regSR;
	int i=10;

	rt_interrupt_enter();
	//rt_hw_led_on(10);
	regSR1 = I2C1->SR1;
	regSR2 = I2C1->SR2;
	regSR =  (regSR2 << 16) | regSR1;
	//rt_kprintf("EV=> SR1: 0x%x\tSR2: 0x%x\tSR: 0x%x status: %d\n", regSR1, regSR2, regSR, i2cStatus);
 
	if( (regSR & I2C_EVENT_MASTER_MODE_SELECT) == I2C_EVENT_MASTER_MODE_SELECT)	//EV5
	{

		if( i2cStatus == S1 ) //Send TX Command
		{
			I2C1->DR = DevAddr & 0xFE;
			i2cStatus = S2;
		}
		else if( i2cStatus == S4 ) //Send RX Command
		{
			I2C1->DR = DevAddr | 0x01;
			i2cStatus = S5;
		}


		regSR1 = 0;
		regSR2 = 0;

	}
	if( (regSR & I2C_EVENT_MASTER_RECEIVER_MODE_SELECTED)== I2C_EVENT_MASTER_RECEIVER_MODE_SELECTED )			//EV6
	{
		switch( i2cStatus )
		{
			case S2: //Send 1st memory address phase
			{
				//I2C_DMACmd(I2C1, ENABLE);
				I2C1->DR = MemAddr[0];
				if( memtype == I2C_MEM_1Byte ) 
					i2cStatus = S2_2;
				else if( memtype == I2C_MEM_2Bytes )
					i2cStatus = S2_1;
			}
			break;
			case S5: //Set RX buffer phase
			{
				if( i2cFlag == I2C_READ_DMA )
				{
					I2C_DMAConfig(I2C1, i2c_buf, BufSize, I2C_DIRECTION_RX);
					I2C1->CR2 |= CR2_LAST_Set | CR2_DMAEN_Set;
					DMA_ITConfig( I2C1_DMA_CHANNEL_RX, DMA_IT_TC, ENABLE);
				}
				else if( i2cFlag == I2C_READ_INTERRUPT )
				{ 
					I2C1->CR2 |= I2C_IT_BUF;
					I2C1->CR1 &= CR1_ACK_Reset;
	                /* Program the STOP */
	                I2C1->CR1 |= CR1_STOP_Set;
				}
				i2cStatus = S6;
			}
			break;
		}
		
		regSR1 = 0;
		regSR2 = 0;
		//dump_i2c_register(I2C1);
	}
	if((regSR & I2C_EVENT_MASTER_BYTE_RECEIVED) == I2C_EVENT_MASTER_BYTE_RECEIVED) //EV7
	{
		//Interrupt RX complete phase
		if( i2cStatus == S6	&& i2cFlag == I2C_READ_INTERRUPT )
		{
			*i2c_buf = I2C1->DR;
			i2cStatus = S_STOP;
			rt_event_send(&i2c_event, I2C_COMPLETE);
		}
	} 
	if( (regSR & I2C_EVENT_MASTER_BYTE_TRANSMITTED) == I2C_EVENT_MASTER_BYTE_TRANSMITTED ) //EV8_2
	{
		//Start TX/RX phase
		if(i2cStatus == S3)
		{
			DMA_ClearFlag(I2C1_DMA_CHANNEL_TX, DMA_FLAG_TCIF6 );
			DMA_Cmd(I2C1_DMA_CHANNEL_TX, DISABLE);
			switch (i2cFlag)
			{
				case I2C_WRITE:
					i2cStatus = S_STOP;
					I2C1->CR1 |= CR1_STOP_Set;
					rt_event_send(&i2c_event, I2C_COMPLETE);					
				break;

				case I2C_READ_DMA:
					i2cStatus = S4;
					I2C1->CR1 |= CR1_START_Set;
				break;

				case I2C_READ_POLLING:
					i2cStatus = S_STOP;
					rt_event_send(&i2c_event, I2C_COMPLETE);
					I2C1->CR2 &= ~(CR2_LAST_Set | I2C_IT_EVT | CR2_DMAEN_Set);
					I2C1->CR1 |= CR1_START_Set;
				break;

				case I2C_READ_INTERRUPT:
					i2cStatus = S4;
					I2C1->CR1 |= CR1_START_Set;
				break;
			}
		}
		if( i2cStatus == S2_1 ) //Send 2nd memory address
		{
			if( memtype == I2C_MEM_2Bytes ) //memory address has 2 bytes
			{
				I2C1->DR = MemAddr[1];
				i2cStatus = S2_2;
			}
			if( i2cFlag == I2C_READ_POLLING || i2cFlag == I2C_READ_DMA || i2cFlag == I2C_READ_INTERRUPT)
			{
				i2cStatus = S3;
			}
		}
		if( i2cStatus == S2_2 ) //Set TX DAM phase
		{
			I2C_DMAConfig(I2C1, i2c_buf, BufSize, I2C_DIRECTION_TX);
			I2C1->CR2 |= CR2_DMAEN_Set;
			i2cStatus = S3;
		}			   
	} 

	rt_interrupt_leave();

}
Ejemplo n.º 22
0
static rt_err_t data_rx_callback(rt_device_t dev, rt_size_t size)
{
  rt_event_send(cmd.recv_event,0x01);
	return RT_EOK;
}
Ejemplo n.º 23
0
void SetLed(uint8_t x)
{
	extern rt_event_t f_led;
	rt_event_send(f_led,(1<<(x-1)));
}
Ejemplo n.º 24
0
/*数据到达回调函数,发送事件到gprs_send_data_package*/
rt_err_t uart_input(rt_device_t dev, rt_size_t size)
{
  rt_event_send(&rev_event, REV_DATA);
  return RT_EOK;
}
Ejemplo n.º 25
0
rt_inline void stm32_i2c_send_ev(struct stm32_i2c_bus *bus, rt_uint32_t ev)
{
      rt_event_send(&bus->ev, 0x01 << ev);
}
Ejemplo n.º 26
0
void rt_thread_alarm_entry (void *parameter)
{
	uint8_t buf;
	uint16_t t;
	rt_uint32_t e;
	
	AlarmerInit();
	SetAlarm(0);
	
	RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); 
	if (PWR_GetFlagStatus(PWR_FLAG_WU)==SET)
	{
		rt_kprintf("\n\nWaken up by DS3231\n");
		if ((IIC_Read(DS3231_ADDRESS, DS3231_CON_STA)) & 0x01) fnAlarm();
		IIC_Write(DS3231_ADDRESS, DS3231_CON_STA,0x80);
	}
	RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, DISABLE);

	while (rt_mq_recv(key_mq,&buf,sizeof(uint8_t),10)==RT_EOK);
	while (1)
	{
		do
		{
			rt_mq_recv(key_mq,&buf,sizeof(uint8_t),RT_WAITING_FOREVER);
		}while(buf!=0);
		t = 0;
		reg_output[REG_ALARM]=0xF777F7F7;
		rt_event_send(reg_event,REG_ALARM_MSK);
		
		rt_mq_recv(key_mq,&buf,sizeof(uint8_t),RT_WAITING_FOREVER);
		if (buf>9)
		{
			rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);
			continue;
		}
		t = buf;
		reg_output[REG_ALARM]=(0x01000000*REG_HexToReg(buf)) | (0x00FFFFFF & reg_output[REG_ALARM]) | 0x80000000;

		rt_mq_recv(key_mq,&buf,sizeof(uint8_t),RT_WAITING_FOREVER);	
		if (buf>9)
		{
			rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);
			continue;
		}
		t = t*10+buf;
		reg_output[REG_ALARM]=(0x00010000*REG_HexToReg(buf)) | (0xFF00FFFF & reg_output[REG_ALARM]);

		rt_mq_recv(key_mq,&buf,sizeof(uint8_t),RT_WAITING_FOREVER);		
		if (buf>9)
		{
			rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);
			continue;
		}
		t = t*10+buf;
		reg_output[REG_ALARM]=(0x00000100*REG_HexToReg(buf)) | (0xFFFF00FF & reg_output[REG_ALARM]);

		rt_mq_recv(key_mq,&buf,sizeof(uint8_t),RT_WAITING_FOREVER);		
		if (buf>9)
		{
			rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);
			continue;
		}
		t = t*10+buf;
		reg_output[REG_ALARM]=(0x00000001*REG_HexToReg(buf)) | (0xFFFFFF00 & reg_output[REG_ALARM]);

		rt_mq_recv(key_mq,&buf,sizeof(uint8_t),RT_WAITING_FOREVER);		
		if (buf<=9)
		{
			rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);
			continue;
		}else
		{
			if (fnSetAlarmClock(t/100,t%100,buf==0x0B)==ERROR)
				rt_event_recv(reg_event,REG_ALARM_MSK,RT_EVENT_FLAG_OR|RT_EVENT_FLAG_CLEAR,0,&e);

		}
	}
}
Ejemplo n.º 27
0
void stopwatch(void)
{
  rt_event_send(&rev_event, REV_STOPWATCH);
}
Ejemplo n.º 28
0
/** 
 *  @brief This function handles the command response
 *  
 *  @param priv    A pointer to wlan_private structure
 *  @return 	   WLAN_STATUS_SUCCESS or WLAN_STATUS_FAILURE
 */
int wlan_process_rx_command(WlanCard *cardinfo)
{
	WlanCard *card = cardinfo;
	u16 RespCmd;
	HostCmd_DS_COMMAND *resp;
	int ret = WLAN_STATUS_SUCCESS;

	u16 Result;

	if (!card->CurCmd)
	{
		resp = (HostCmd_DS_COMMAND *) card->CmdResBuf;
		WlanDebug(WlanErr, "CMD_RESP: NULL CurCmd, 0x%x\n", resp->Command);
		ret = WLAN_STATUS_FAILURE;
		goto done;
	}

	resp = (HostCmd_DS_COMMAND *) card->CmdResBuf;
	RespCmd = resp->Command;
	Result = resp->Result;

	WlanDebug(WlanCmd, "CMD_RESP: 0x%x, result %d, len %d, seqno %d\n",RespCmd, Result, resp->Size, resp->SeqNum);

	if (!(RespCmd & 0x8000))
	{
		WlanDebug(WlanErr,"CMD_RESP: Invalid response to command!");
		card->CurCmdRetCode = WLAN_STATUS_FAILURE;
		ret = WLAN_STATUS_FAILURE;
		rt_event_send(&(card->cmdwaitevent), CmdWaitQWoken);
		goto done;
	}

	/* Store the response code to CurCmdRetCode. */
	card->CurCmdRetCode = resp->Result;

	/* If the command is not successful, cleanup and return failure */
	if ((Result != HostCmd_RESULT_OK || !(RespCmd & 0x8000)))
	{
		WlanDebug(WlanErr,"CMD_RESP: cmd %#x error, result=%#x\n",resp->Command, resp->Result);
		/*
		 * Handling errors here
		 */
		switch (RespCmd)
		{
		case HostCmd_RET_HW_SPEC_INFO:
			WlanDebug(WlanMsg,"CMD_RESP: HW spec command Failed\n");
			break;
		}
		card->CurCmdRetCode = WLAN_STATUS_FAILURE;
		rt_event_send(&(card->cmdwaitevent), CmdWaitQWoken);
		return WLAN_STATUS_FAILURE;
	}

	switch (RespCmd)
	{
	case HostCmd_RET_MAC_REG_ACCESS:
	case HostCmd_RET_BBP_REG_ACCESS:
	case HostCmd_RET_RF_REG_ACCESS:
		// ret = wlan_ret_reg_access(priv, RespCmd, resp);
		break;

	case HostCmd_RET_HW_SPEC_INFO:
		ret = wlan_ret_get_hw_spec(card, resp);
		break;

	case HostCmd_RET_802_11_SCAN:
		if (card->ScanPurpose == ScanMultichs)
		{
			ret = WlanparserScanResult(card, resp);
		}
		else if (card->ScanPurpose == ScanFilter)
		{
			ret = WlanparserScanResult(card, resp);
			// ret = wlan_ret_802_11_scan(card, resp);
		}
		break;

	case HostCmd_RET_MAC_CONTROL:
		WlanDebug(WlanMsg,"HostCmd_RET_MAC_CONTROL\r\n");
		break;

	case HostCmd_RET_802_11_ASSOCIATE:
		ret = wlan_ret_802_11_associate(card, resp);
		break;

	case HostCmd_RET_802_11_DEAUTHENTICATE:
		// ret = wlan_ret_802_11_disassociate(priv, resp);
		break;

	case HostCmd_RET_802_11_SET_WEP:
		ret = wlan_ret_802_11_set_wep(card, resp);
		break;

	case HostCmd_RET_802_11_RESET:
		// ret = wlan_ret_802_11_reset(priv, resp);
		break;

	case HostCmd_RET_802_11_RF_TX_POWER:
		ret = wlan_ret_802_11_rf_tx_power(card, resp);
		break;

	case HostCmd_RET_802_11_RADIO_CONTROL:
		// ret = wlan_ret_802_11_radio_control(priv, resp);
		break;
	case HostCmd_RET_802_11_SNMP_MIB:
		ret = wlan_ret_802_11_snmp_mib(card, resp);
		break;

	case HostCmd_RET_802_11_RF_ANTENNA:
		// ret = wlan_ret_802_11_rf_antenna(priv, resp);
		break;

	case HostCmd_RET_MAC_MULTICAST_ADR:
		ret = wlan_ret_mac_multicast_adr(card, resp);
		break;

	case HostCmd_RET_802_11_RATE_ADAPT_RATESET:
		ret = wlan_ret_802_11_rate_adapt_rateset(card, resp);
		break;
	case HostCmd_RET_802_11_RF_CHANNEL:
		// ret = wlan_ret_802_11_rf_channel(priv, resp);
		break;

	case HostCmd_RET_802_11_RSSI:
		ret = wlan_ret_802_11_rssi(card, resp);
		break;

	case HostCmd_RET_802_11_GET_LOG:
		ret = wlan_ret_802_11_get_log(card, resp);
		break;

	case HostCmd_RET_802_11_MAC_ADDRESS:
		// ret = wlan_ret_802_11_mac_address(priv, resp);
		break;

	case HostCmd_RET_802_11_CAL_DATA_EXT:
		// ret = wlan_ret_802_11_cal_data_ext(priv, resp);
		break;

	case HostCmd_RET_802_11_KEY_MATERIAL:
		ret = wlan_ret_802_11_key_material(card, resp);
		break;

	case HostCmd_RET_CMD_GSPI_BUS_CONFIG:
		WlanDebug(WlanMsg,"HostCmd_RET_CMD_GSPI_BUS_CONFIG\r\n");
		break;

	case HostCmd_RET_802_11D_DOMAIN_INFO:
		// ret = wlan_ret_802_11d_domain_info(priv, resp);
		break;

	case HostCmd_RET_802_11_BCA_CONFIG_TIMESHARE:
		// ret = wlan_ret_802_11_bca_timeshare(priv, resp);
		break;

	case HostCmd_RET_802_11_INACTIVITY_TIMEOUT:
		// *((u16 *) Adapter->CurCmd->pdata_buf) =
		//     wlan_le16_to_cpu(resp->params.inactivity_timeout.Timeout);
		break;
	case HostCmd_RET_802_11_BG_SCAN_CONFIG:
		break;

	case HostCmd_RET_802_11_FW_WAKE_METHOD:
		ret = wlan_ret_fw_wakeup_method(card, resp);
		break;

	case HostCmd_RET_802_11_SLEEP_PERIOD:
		//ret = wlan_ret_802_11_sleep_period(priv, resp);
		break;
	case HostCmd_RET_WMM_GET_STATUS:
		//ret = wlan_cmdresp_wmm_get_status(priv, resp);
		break;
	case HostCmd_RET_WMM_ADDTS_REQ:
		// ret = wlan_cmdresp_wmm_addts_req(priv, resp);
		break;
	case HostCmd_RET_WMM_DELTS_REQ:
		// ret = wlan_cmdresp_wmm_delts_req(priv, resp);
		break;
	case HostCmd_RET_WMM_QUEUE_CONFIG:
		// ret = wlan_cmdresp_wmm_queue_config(priv, resp);
		break;
	case HostCmd_RET_WMM_QUEUE_STATS:
		// ret = wlan_cmdresp_wmm_queue_stats(priv, resp);
		break;
	case HostCmd_CMD_TX_PKT_STATS:
		//  memcpy(Adapter->CurCmd->pdata_buf,
		//         &resp->params.txPktStats, sizeof(HostCmd_DS_TX_PKT_STATS));
		//  ret = WLAN_STATUS_SUCCESS;
		break;
	case HostCmd_RET_802_11_TPC_CFG:
		//  memmove(Adapter->CurCmd->pdata_buf,
		//          &resp->params.tpccfg, sizeof(HostCmd_DS_802_11_TPC_CFG));
		break;
	case HostCmd_RET_802_11_LED_CONTROL:
	{
		break;
	}
	case HostCmd_RET_802_11_CRYPTO:
		//ret = wlan_ret_cmd_802_11_crypto(priv, resp);
		break;

	case HostCmd_RET_GET_TSF:
		/*resp->params.gettsf.TsfValue =
		 wlan_le64_to_cpu(resp->params.gettsf.TsfValue);
		 memcpy(priv->adapter->CurCmd->pdata_buf,
		 &resp->params.gettsf.TsfValue, sizeof(u64));*/
		break;
	case HostCmd_RTE_802_11_TX_RATE_QUERY:
		// priv->adapter->TxRate =
		//     wlan_le16_to_cpu(resp->params.txrate.TxRate);
		break;

	case HostCmd_RET_VERSION_EXT:
		/* memcpy(Adapter->CurCmd->pdata_buf,
		 &resp->params.verext, sizeof(HostCmd_DS_VERSION_EXT));*/
		break;

	case HostCmd_RET_802_11_PS_MODE:
		break;

	default:
		WlanDebug(WlanMsg,"CMD_RESP: Unknown command response %#x\n",resp->Command);
		break;
	}

	if (card->CurCmd)
	{
		/* Clean up and Put current command back to CmdFreeQ */
		rt_event_send(&(cardinfo->cmdwaitevent), CmdWaitQWoken);
	}

done: 
    return ret;
}
Ejemplo n.º 29
0
void hm_tdc_thread_entry(void* parameter)
{
    rt_device_t tdc = RT_NULL;
    rt_uint8_t tof_data_count = 0;
    rt_uint8_t temp_data_count = 0;
    rt_uint8_t loop_count = TOF_DATA_BUF_LEN/TEMP_DATA_BUF_LEN;


    tdc = rt_device_find(HM_BOARD_TDC_NAME);
    RT_ASSERT(tdc);
    rt_device_open(tdc, RT_DEVICE_OFLAG_RDWR);

#if (HM_BOARD_UART_6 == 1)
    tt_print_device = rt_device_find(TOF_TEMP_PRINT_DEVICE);
    RT_ASSERT(tt_print_device);
    rt_device_open(tt_print_device, RT_DEVICE_OFLAG_RDWR);
#endif

    tof_lock = rt_mutex_create("L_tof", RT_IPC_FLAG_FIFO);
    RT_ASSERT(tof_lock);
    temp_lock = rt_mutex_create("L_temp", RT_IPC_FLAG_FIFO);
    RT_ASSERT(temp_lock);

    while(1) {
        loop_count--;
        { /* TOF */
            if(rt_mutex_take(tof_lock, rt_tick_from_millisecond(LOCK_TACK_WAIT_TIME_MS)) != RT_EOK) {
                rt_kprintf("TOF take lock error\n");
                continue;
            }
            else {
                rt_device_control(tdc, SPI_TDC_GP21_CTRL_MEASURE_TOF2, &tof_data[tof_data_count].data);
                tof_data[tof_data_count].time = rt_tick_get();
                rt_mutex_release(tof_lock);
                tof_data_count++;
            }
        }

        if(loop_count == 0) { /* TEMP */
            loop_count = TOF_DATA_BUF_LEN/TEMP_DATA_BUF_LEN;
            if(rt_mutex_take(temp_lock, rt_tick_from_millisecond(LOCK_TACK_WAIT_TIME_MS)) != RT_EOK) {
                rt_kprintf("temprature take lock error\n");
                continue;
            }
            else {
                rt_device_control(tdc, SPI_TDC_GP21_CTRL_MEASURE_TEMP, &temp_data[temp_data_count].data);
                temp_data[temp_data_count].time = rt_tick_get();
                rt_mutex_release(temp_lock);
                temp_data_count++;
            }
        }

        if((temp_data_count==TEMP_DATA_BUF_LEN) || (tof_data_count==TOF_DATA_BUF_LEN)) { /* Send event */
            temp_data_count = 0;
            tof_data_count = 0;
            if(rt_event_send(cal_event, TDC_DATA_FULL_EVENT) != RT_EOK) {
                rt_kprintf("TDC send event error\n");
            }
        }

        rt_thread_delay(rt_tick_from_millisecond(TDC_SLEEP_TIME_MS));
    }
}
Ejemplo n.º 30
0
static rt_err_t  can2ind(rt_device_t dev, void *args, rt_int32_t hdr, rt_size_t size)
{
    rt_event_t pevent = (rt_event_t)args;
    rt_event_send(pevent, 1 << (hdr));
    return RT_EOK;
}