Exemple #1
0
/*
*
* This function initializes a XRtcPsu instance/driver.
*
* The initialization entails:
* - Initialize all members of the XRtcPsu structure.
*
* @param	InstancePtr is a pointer to the XRtcPsu instance.
* @param	ConfigPtr points to the XRtcPsu device configuration structure.
* @param	EffectiveAddr is the device base address in the virtual memory
*		address space. If the address translation is not used then the
*		physical address is passed.
*		Unexpected errors may occur if the address mapping is changed
*		after this function is invoked.
*
* @return	XST_SUCCESS always.
*
* @note		None.
*
******************************************************************************/
s32 XRtcPsu_CfgInitialize(XRtcPsu *InstancePtr, XRtcPsu_Config *ConfigPtr,
                          u32 EffectiveAddr)
{
    s32 Status;
    Xil_AssertNonvoid(InstancePtr != NULL);
    Xil_AssertNonvoid(ConfigPtr != NULL);

    /*
     * Set some default values for instance data, don't indicate the device
     * is ready to use until everything has been initialized successfully.
     */
    InstancePtr->IsReady = 0U;
    InstancePtr->RtcConfig.BaseAddr = EffectiveAddr;
    InstancePtr->RtcConfig.DeviceId = ConfigPtr->DeviceId;

    if(InstancePtr->OscillatorFreq == 0U) {
        InstancePtr->CalibrationValue = XRTC_CALIBRATION_VALUE;
        InstancePtr->OscillatorFreq = XRTC_TYPICAL_OSC_FREQ;
    }

    /* Set all handlers to stub values, let user configure this data later. */
    InstancePtr->Handler = XRtcPsu_StubHandler;

    InstancePtr->IsPeriodicAlarm = 0U;

    /* Set the calibration value in calibration register. */
    XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr + XRTC_CALIB_WR_OFFSET,
                     InstancePtr->CalibrationValue);

    /* Set the Oscillator crystal enable in control register. */
    XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr + XRTC_CTL_OFFSET,
                     XRTCPSU_CRYSTAL_OSC_EN);

    /* Clear the Interrupt Status and Disable the interrupts. */
    XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr + XRTC_INT_STS_OFFSET,
                     ((u32)XRTC_INT_STS_ALRM_MASK | (u32)XRTC_INT_STS_SECS_MASK));
    XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr + XRTC_INT_DIS_OFFSET,
                     ((u32)XRTC_INT_DIS_ALRM_MASK | (u32)XRTC_INT_DIS_SECS_MASK));

    /* Indicate the component is now ready to use. */
    InstancePtr->IsReady = XIL_COMPONENT_IS_READY;

    Status = XST_SUCCESS;
    return Status;
}
Exemple #2
0
/**
*
* This function sets the interrupt mask.
*
* @param	InstancePtr is a pointer to the XRtcPsu instance
* @param	Mask contains the interrupts to be enabled.
*		A '1' enables an interupt, and a '0' disables.
*
* @return	None.
*
* @note		None.
*
*****************************************************************************/
void XRtcPsu_SetInterruptMask(XRtcPsu *InstancePtr, u32 Mask)
{
	/*
	 * Clear the Status register to be sure of no pending interrupts.
	 * Writing mask values to interrupt bits as it is a WTC register.
	 */
	XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr + XRTC_INT_STS_OFFSET,
			((u32)XRTC_INT_STS_ALRM_MASK | (u32)XRTC_INT_STS_SECS_MASK));

	/*
	 * XRTC_INT_MSK_RSTVAL contains the valid interrupts
	 * for the RTC device. The AND operation on Mask makes sure one
	 * of the valid bits are only set.
	 */

	/* Write the mask to the IER Register */
	XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr+XRTC_INT_EN_OFFSET,
					(Mask & (u32)XRTC_INT_MSK_RSTVAL));

}
Exemple #3
0
/**
*
* This function clears the interrupt mask.
*
* @param	InstancePtr is a pointer to the XRtcPsu instance
* @param	Mask contains the interrupts to be disabled.
*		A '1' enables an interrupt, and a '0' disables.
*
* @return	None.
*
* @note		None.
*
*****************************************************************************/
void XRtcPsu_ClearInterruptMask(XRtcPsu *InstancePtr, u32 Mask)
{
	/*
	 * XRTC_INT_MSK_RSTVAL contains the valid interrupts
	 * for the RTC device. The AND operation on mask makes sure one
	 * of the valid bits are only cleared.
	 */

	/* Write the Mask to the IDR register */
	XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr+XRTC_INT_DIS_OFFSET,
					(Mask & (u32)XRTC_INT_MSK_RSTVAL));
}
Exemple #4
0
/**
*
* This function sets the alarm value of RTC device.
*
* @param	InstancePtr is a pointer to the XRtcPsu instance
* @param	Alarm is the desired alarm time for RTC.
* @param	Periodic says whether the alarm need to set at periodic
* 			Intervals or a one-time alarm.
*
* @return	None.
*
* @note		None.
*
*****************************************************************************/
void XRtcPsu_SetAlarm(XRtcPsu *InstancePtr, u32 Alarm, u32 Periodic)
{
    Xil_AssertVoid(InstancePtr != NULL);
    Xil_AssertVoid(Alarm != 0U);
    Xil_AssertVoid(InstancePtr->IsReady == XIL_COMPONENT_IS_READY);
    Xil_AssertVoid((Alarm - XRtcPsu_GetCurrentTime(InstancePtr)) > (u32)0);

    XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr+XRTC_ALRM_OFFSET, Alarm);
    if(Periodic != 0U) {
        InstancePtr->IsPeriodicAlarm = 1U;
        InstancePtr->PeriodicAlarmTime =
            Alarm - XRtcPsu_GetCurrentTime(InstancePtr);
    }
}
Exemple #5
0
/**
*
* This function returns the alarm event status by reading
* interrupt status register.
*
* @param	InstancePtr is a pointer to the XRtcPsu instance.
*
* @return	Returns 1 if the alarm event is generated.Else 0.
*
* @note		This API is used in polled mode operation of RTC.
* 			This also clears interrupt status alarm bit.
*
*****************************************************************************/
u32 XRtcPsu_IsAlarmEventGenerated(XRtcPsu *InstancePtr)
{
    u32 Status;

    /* Loop the interrupt status register for Alarm Event */
    if ((XRtcPsu_ReadReg(InstancePtr->RtcConfig.BaseAddr +
                         XRTC_INT_STS_OFFSET) & (XRTC_INT_STS_ALRM_MASK)) == 0U) {
        Status = 0U;
    } else {
        /* Clear the interrupt status register */
        XRtcPsu_WriteReg((InstancePtr)->RtcConfig.BaseAddr +
                         XRTC_INT_STS_OFFSET, XRTC_INT_STS_ALRM_MASK);
        Status = 1U;
    }
    return Status;
}
Exemple #6
0
/**
*
* This function is the interrupt handler for the driver.
* It must be connected to an interrupt system by the application such that it
* can be called when an interrupt occurs.
*
* @param	InstancePtr contains a pointer to the driver instance
*
* @return	None.
*
* @note		None.
*
******************************************************************************/
void XRtcPsu_InterruptHandler(XRtcPsu *InstancePtr)
{
	u32 IsrStatus;

	Xil_AssertVoid(InstancePtr != NULL);
	Xil_AssertVoid(InstancePtr->IsReady == XIL_COMPONENT_IS_READY);

	/*
	 * Read the interrupt ID register to determine which
	 * interrupt is active.
	 */
	IsrStatus = ~(XRtcPsu_ReadReg(InstancePtr->RtcConfig.BaseAddr +
			XRTC_INT_MSK_OFFSET));

	IsrStatus &= XRtcPsu_ReadReg(InstancePtr->RtcConfig.BaseAddr +
			XRTC_INT_STS_OFFSET);

	/*
	 * Clear the interrupt status to allow future
	 * interrupts before this generated interrupt is serviced.
	 */
	XRtcPsu_WriteReg(InstancePtr->RtcConfig.BaseAddr +
			XRTC_INT_STS_OFFSET, IsrStatus);

	/* Handle the generated interrupts appropriately. */

	/* Alarm interrupt */
	if((IsrStatus & XRTC_INT_STS_ALRM_MASK) != (u32)0) {

		if(InstancePtr->IsPeriodicAlarm != 0U) {
			XRtcPsu_SetAlarm(InstancePtr,
					(XRtcPsu_GetCurrentTime(InstancePtr)+InstancePtr->PeriodicAlarmTime),1U);
		}

		/*
		 * Call the application handler to indicate that there is an
		 * alarm interrupt. If the application cares about this alarm,
		 * it will act accordingly through its own handler.
		 */
		InstancePtr->Handler(InstancePtr->CallBackRef,
					XRTCPSU_EVENT_ALARM_GEN);
	}

	/* Seconds interrupt */
	if((IsrStatus & XRTC_INT_STS_SECS_MASK) != (u32)0) {
		/* Set the CurrTimeUpdated flag to 1 */
		InstancePtr->CurrTimeUpdated = 1;

		if(InstancePtr->TimeUpdated == (u32)1) {
			/* Clear the TimeUpdated */
			InstancePtr->TimeUpdated = (u32)0;
		}

		/*
		 * Call the application handler to indicate that there is an
		 * seconds interrupt. If the application cares about this seconds
		 * interrupt, it will act accordingly through its own handler.
		 */
		InstancePtr->Handler(InstancePtr->CallBackRef,
					XRTCPSU_EVENT_SECS_GEN);
	}

}