dcl_wdt.c 16.4 KB

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/*****************************************************************************
*  Copyright Statement:
*  --------------------
*  This software is protected by Copyright and the information contained
*  herein is confidential. The software may not be copied and the information
*  contained herein may not be used or disclosed except with the written
*  permission of MediaTek Inc. (C) 2005
*
*  BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
*  THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
*  RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
*  AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
*  EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
*  MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
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*  SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
*  SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
*  THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
*  NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
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*  THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
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*****************************************************************************/

/*****************************************************************************
 *
 * Filename:
 * ---------
 *    dcl_wdt.c
 *
 * Project:
 * --------
 *   Maui_Software
 *
 * Description:
 * ------------
 *   This Module defines DCL (Driver Common Layer) of the WDT driver.
 *
 * Author:
 * -------
 * -------
 *
 *============================================================================
 *             HISTORY
 * Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
 *------------------------------------------------------------------------------
 *
 * removed!
 *------------------------------------------------------------------------------
 * Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
 *============================================================================
 ****************************************************************************/

#include "drv_features.h"
#include "drv_comm.h"
#include "stack_common.h"
#include "syscomp_config.h"   /*MOD_BMT*/
#include "stack_msgs.h"
#include "app_ltlcom.h"       /* Task message communiction */
#include "stacklib.h"         /* Basic type for dll, evshed, stacktimer */
#include "stacklib.h"         /* Basic type for dll, evshed, stacktimer */
//#include "pwic.h"

#include "kal_general_types.h"
#include "kal_public_api.h"
#include "dcl.h"
#include "wdt_hw.h"
#include "wdt_sw.h"
#include "intrCtrl.h"
#include "drv_hisr.h"
//#ifdef DCL_WDT_INTERFACE

#if !defined(DRV_WDT_OFF)

//#include "drvtest.h"
//#ifdef DCL_WDT_INTERFACE

// This API is exported by  wdt.c
extern void WDT_init(void);
extern void DRV_RESET(void);
extern void DRV_ABN_RESET(void);
extern void WDT_EnableInterrupt(kal_bool enable);
extern void WDT_Restart2(void);


// Global variable for DCL WDT API usage
#define DCL_WDT_DEV_MAGIC_NUM		(0x80000000)
#define MAX_DCL_WDT_HANDLE			1

#define DCL_WDT_IS_HANDLE_MAGIC(handl_) ((handl_)& DCL_WDT_DEV_MAGIC_NUM)
#define DCL_WDT_GET_DEV(handle_) ((handle_) & (~DCL_WDT_DEV_MAGIC_NUM))


kal_uint32 dcl_wdt_handle_count = 0;

// The event is presented by 32-bit variable
kal_uint8 handle_assign[32];
#define MAX_DCL_WDT_EVENT_NUM		1
PFN_DCL_CALLBACK dcl_wdt_event_callback[MAX_DCL_WDT_EVENT_NUM];


/*************************************************************************
* Non-exported DCL internal functions
*************************************************************************/
kal_hisrid dcl_wdt_hisr_id = KAL_NILHISR_ID;

void dcl_wdt_hisr(){
	// Try to call rgistered callback function
	// Search mapping array and assign callback to specofic array entry
	{
		kal_uint32 i;
		kal_uint32 event_bit;
		//module_test_print("this is in WDT HISR \n\r");
		for (i=0;i<MAX_DCL_WDT_EVENT_NUM;i++){
			event_bit = 1 << i;
			if ((event_bit & EVENT_WDT_TIMEOUT) != 0){
				if (dcl_wdt_event_callback[i] != NULL){
					dcl_wdt_event_callback[i](EVENT_WDT_TIMEOUT);
				}
			}
		}
	}
}

void dcl_wdt_lisr(){
	IRQMask(IRQ_WDT_CODE);

	// Activate HISR
	//kal_activate_hisr(dcl_wdt_hisr_id);
	drv_active_hisr(DRV_WDT_HISR_ID);
	IRQClearInt(IRQ_WDT_CODE);
	IRQUnmask(IRQ_WDT_CODE);
}

kal_bool dcl_wdt_lisr_register_flag = KAL_FALSE;
void dcl_wdt_register_lisr(){
	if (dcl_wdt_lisr_register_flag){
		return;
	}

	IRQ_Register_LISR(IRQ_WDT_CODE, dcl_wdt_lisr,"DCL WDT LISR");
	IRQSensitivity(IRQ_WDT_CODE,EDGE_SENSITIVE);
	IRQUnmask(IRQ_WDT_CODE);
	dcl_wdt_lisr_register_flag=KAL_TRUE;
}

void dcl_wdt_register_hisr(){
	//dcl_wdt_hisr_id = kal_create_hisr("DCL_WDT_HISR", 1, 512, dcl_wdt_hisr, NULL);
	 DRV_Register_HISR(DRV_WDT_HISR_ID, dcl_wdt_hisr);
}

/*************************************************************************
* Non-exported DCL internal functions
*************************************************************************/


/*************************************************************************
* FUNCTION
*  DclWDT_Initialize
*
* DESCRIPTION
*  This function is to initialize WDT module
*
* PARAMETERS
*  None
*
* RETURNS
*  STATUS_OK
*
*************************************************************************/
DCL_STATUS DclWDT_Initialize(void){

	kal_uint8 count = 0;
	// If WDT_init() is called twice, it may cause WDT_RST flag being incorrect
	// Refer WDT_init() for detail
	WDT_init();
	for(count=0;count<31;count++)
		handle_assign[count]=0;

	dcl_wdt_handle_count = 0;

	return STATUS_OK;


}

/*************************************************************************
* FUNCTION
*  DclWDT_Open
*
* DESCRIPTION
*  This function is to open the WDT module and return a handle
*
* PARAMETERS
*  dev: only valid for DCL_WDT
*  flags: no sepcial flags is needed. Please use FLAGS_NONE
*
* RETURNS
*  DCL_HANDLE_INVALID: Open failed.
*  other value: a valid handle
*
*************************************************************************/
DCL_HANDLE DclWDT_Open(DCL_DEV dev, DCL_FLAGS flags)
{
	kal_uint32 handle;
	kal_uint32 savedMask = 0;
	kal_uint8 index=0;

	if (dev != DCL_WDT){
		return DCL_HANDLE_INVALID;		// Incorrecr device ID
	}
//Now we don't  restrict this.
/*
	if (dcl_wdt_handle_count >= MAX_DCL_WDT_HANDLE){
		return DCL_HANDLE_INVALID;		// Too many opened handles
	}
*/
	if(KAL_FALSE==kal_query_systemInit())
		 {savedMask = SaveAndSetIRQMask();}

	for(index=0;index<31;index++)
	{
		if(handle_assign[index]==0)
			break;
	}
	handle_assign[index]=1;

	dcl_wdt_handle_count++;
	handle = (DCL_WDT_DEV_MAGIC_NUM | index);

	if(KAL_FALSE==kal_query_systemInit())
	  {RestoreIRQMask(savedMask);}


	// Register DCL default lisr
	return handle;
}

/*************************************************************************
* FUNCTION
*  DclWDT_ReadData
*
* DESCRIPTION
*  This function is not supported for the WDT module now.
*
* PARAMETERS
*	N/A
*
* RETURNS
*	STATUS_UNSUPPORTED
*
*************************************************************************/
DCL_STATUS DclWDT_ReadData(DCL_HANDLE handle, DCL_BUFF *buff, DCL_BUFF_LEN buf_len, DCL_OPTIONS options)
{
	return STATUS_UNSUPPORTED;
}

/*************************************************************************
* FUNCTION
*  DclWDT_WriteData
*
* DESCRIPTION
*  This function is not supported for the WDT module now.
*
* PARAMETERS
*	N/A
*
* RETURNS
*	STATUS_UNSUPPORTED
*
*************************************************************************/
DCL_STATUS DclWDT_WriteData(DCL_HANDLE handle, DCL_BUFF *buff, DCL_BUFF_LEN buf_len, DCL_OPTIONS options)
{
	return STATUS_UNSUPPORTED;
}

/*************************************************************************
* FUNCTION
*  DclWDT_Configure
*
* DESCRIPTION
*  This function is not supported for the WDT module now.
*
* PARAMETERS
*	N/A
*
* RETURNS
*	STATUS_UNSUPPORTED
*
*************************************************************************/
DCL_STATUS DclWDT_Configure(DCL_HANDLE handle, DCL_CONFIGURE_T *configure)
{
	return STATUS_UNSUPPORTED;
}

/*************************************************************************
* FUNCTION
*  DclWDT_RegisterCallback
*
* DESCRIPTION
*  This function is to set callback function for the WDT module.
*
* PARAMETERS
*  handle: the returned handle value of DclWDT_Open
*  event: Supported events:
*         EVENT_WDT_TIMEOUT: Watch dog time out interrupt
*  callback: the callback function for registered events
*
* RETURNS
*  STATUS_OK: Successfully register the callback function.
*  STATUS_INVALID_DCL_HANDLE: It's a invalid handle.
*  STATUS_NOT_OPENED: The module has not been opened.
*  STATUS_INVALID_EVENT: The event parameter is invalid.
*
*************************************************************************/
DCL_STATUS DclWDT_RegisterCallback(DCL_HANDLE handle, DCL_EVENT event, PFN_DCL_CALLBACK callback)
{
	kal_uint32 i;
	// Check magic number
	if ((handle & DCL_WDT_DEV_MAGIC_NUM) != DCL_WDT_DEV_MAGIC_NUM){
		ASSERT(0);
		return STATUS_INVALID_DCL_HANDLE;
	}

	// Error check
	if (dcl_wdt_handle_count == 0){
		ASSERT(0);
		return STATUS_NOT_OPENED;
	}
	// Check if the passed-in event bitmap is supported or NOT
	if (((kal_uint32)event & (~(EVENT_WDT_TIMEOUT))) != 0){
		ASSERT(0);
		return STATUS_INVALID_EVENT;
	}

	// Search mapping array and assign callback to specofic array entry
	/*
	{
		kal_uint32 i;
		kal_uint32 event_bit;
		for (i=0;i<MAX_DCL_WDT_EVENT_NUM;i++){
			event_bit = 1 << i;
			if ((event_bit & event) != 0){
				// 1. Check if a callback has been registered for the event
				// Allow multimple registration for now
				//should there assert ?
				ASSERT(dcl_wdt_event_callback[i] == NULL);
				// 2. Register the callback
				dcl_wdt_event_callback[i] = callback;
			}
		}
	}
	*/
	i=DCL_WDT_GET_DEV(handle);
	dcl_wdt_event_callback[i%MAX_DCL_WDT_EVENT_NUM] = callback;

	if(KAL_NILHISR_ID == dcl_wdt_hisr_id)
	{
	   dcl_wdt_register_lisr();
	   dcl_wdt_register_hisr();/*register hisr*/
	}

	return STATUS_OK;
}


/*************************************************************************
* FUNCTION
*  DclWDT_Control
*
* DESCRIPTION
*  This function is to send command to control the WDT module.
*
* PARAMETERS
*  handle: The handle value returned from DclWDT_Open
*  cmd: a control command for WDT module
*          1. WDT_CMD_ENABLE: to enable/disable WDT
*          2. WDT_CMD_SET_EXT_POL: to set ploarity of external pin when WDT expired
*          3. WDT_CMD_SET_EXT_RESET: to generate an external watchdog reset signal when WDT expired
*          4. WDT_CMD_SET_VALUE: to set WDT count value
*          5  WDT_CMD_RESTART: to restart counter
*          6. WDT_CMD_DRV_RESET: to reset device
*          7. WDT_CMD_ABN_RESET: to reset device with abnormal flag set to indicate it is a abnormal reset
*          8. WDT_CMD_IRQ: to generate interrupt instead of reseting device
*  data: The data of the control command
*          1. WDT_CMD_ENABLE: pointer to a WDT_CTRL_ENABLE_T structure
*          2. WDT_CMD_SET_EXT_POL: pointer to a WDT_CTRL_SET_EXT_POL_T structure
*          3. WDT_CMD_SET_EXT_RESET: pointer to a WDT_CTRL_SET_EXT_RESET_T structure
*          4. WDT_CMD_SET_VALUE: pointer to a WDT_CTRL_SET_VALUE_T structure
*          5  WDT_CMD_RESTART: A null pointer
*          6. WDT_CMD_DRV_RESET: A null pointer
*          7. WDT_CMD_ABN_RESET: A null pointer
*          8. WDT_CMD_IRQ: pointer to a WDT_CTRL_IRQ_T structure
*
* RETURNS
*  STATUS_OK: command is executed successfully.
*  STATUS_FAIL: command is failed.
*  STATUS_INVALID_CMD: It's a invalid command.
*
*************************************************************************/
DCL_STATUS DclWDT_Control(DCL_HANDLE handle, DCL_CTRL_CMD cmd, DCL_CTRL_DATA_T *data)
{

	// Check magic number
	if ((handle & DCL_WDT_DEV_MAGIC_NUM) != DCL_WDT_DEV_MAGIC_NUM){
		ASSERT(0);
		return STATUS_INVALID_DCL_HANDLE;
	}

	// Error check
	if (dcl_wdt_handle_count == 0){
		ASSERT(0);
		return STATUS_NOT_OPENED;
	}


	switch (cmd)
	{
		case WDT_CMD_ENABLE:
		{
			WDT_CTRL_ENABLE_T  *prEnable;
			prEnable = &(data->rWDTEnable);
			WDT_Enable((kal_bool)prEnable->fgEnable);
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_SET_EXT_POL:
		{
			WDT_CTRL_SET_EXT_POL_T *prSetExtPol;
			prSetExtPol = &(data->rWDTSetExtPol);
			if (prSetExtPol->fgIOHigh){
				WDT_SetExtpol(io_high);
			}else{
				WDT_SetExtpol(io_low);
			}
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_SET_EXT_RESET:
		{
			WDT_CTRL_SET_EXT_RESET_T *prSetExtReset;
			prSetExtReset = &(data->rWDTSetExtReset);
			WDT_SetExten((kal_bool)prSetExtReset->fgEnable);
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_SET_VALUE:
		{
			WDT_CTRL_SET_VALUE_T *prSetValue;
			prSetValue = &(data->rWDTSetValue);
			WDT_SetValue(prSetValue->u2Value);
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_RESTART:
		{
			WDT_Restart2();
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_DRV_RESET:
		{
			DRV_RESET();
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_GET_RSTINTERVAL:
		{
			WDT_CTRL_GET_RSTINTERVAL_T *prst;
			prst =&(data->rRstValue);
			prst->rstInterval =DRV_WDT_Reg(WDT_RSTINTERVAL);
			//DRV_WDT_WriteReg(WDT_RSTINTERVAL,WDT_RSTINTERVAL_VALUE);
		}
		break;
		case WDT_CMD_ABN_RESET:
		{
			DRV_ABN_RESET();
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_IRQ:
		{
			WDT_CTRL_IRQ_T *prIRQ;
			prIRQ = &(data->rWDTIRQ);
			WDT_EnableInterrupt((kal_bool)prIRQ->fgEnable);
			//return STATUS_OK;
		}
		break;
		case WDT_CMD_ENABLE_DEBUG:
		{
			WDT_CTRL_DEBUG_T *prWDTDebug;
			prWDTDebug=&(data->rWDTDebug);
			WDT_Enable_Debug_Mode( (kal_bool)(prWDTDebug->fgEnable) );
			//return STATUS_OK;
		}
		break;
		default:
			return STATUS_INVALID_CMD;
	}
	return STATUS_OK;
}

/*************************************************************************
* FUNCTION
*  DclWDT_Close
*
* DESCRIPTION
*  This function is to close the WDT module.
*
* PARAMETERS
*  handle: the returned handle value of DclWDT_Open
*
* RETURNS
*  STATUS_OK
*
*************************************************************************/
DCL_STATUS DclWDT_Close(DCL_HANDLE handle)
{
	kal_uint32 savedMask = 0;
	kal_uint32 i;
	// Check magic number
	if ((handle & DCL_WDT_DEV_MAGIC_NUM) != DCL_WDT_DEV_MAGIC_NUM){
		ASSERT(0);
		return STATUS_INVALID_DCL_HANDLE;
	}

	// Error check
	if (dcl_wdt_handle_count == 0){
		ASSERT(0);
		return STATUS_NOT_OPENED;
	}
/*
	// Clear all registered event callbacks for the specific handle
	// Note: If we support multiple handles, we need to take care of the clear
	{
		kal_uint32 i;
		for (i=0;i<MAX_DCL_WDT_EVENT_NUM;i++){
			dcl_wdt_event_callback[i] = NULL;
		}
	}
*/
	i=(handle & ~DCL_WDT_DEV_MAGIC_NUM);
	dcl_wdt_event_callback[i%MAX_DCL_WDT_EVENT_NUM] = NULL;

	if(KAL_FALSE==kal_query_systemInit())
		{savedMask = SaveAndSetIRQMask();}
	handle_assign[i]=0;
	dcl_wdt_handle_count--;
	if(KAL_FALSE==kal_query_systemInit())
	  {RestoreIRQMask(savedMask);}

	return STATUS_OK;
}

#else
DCL_STATUS DclWDT_Initialize(void)
{
	return STATUS_UNSUPPORTED;
}

DCL_HANDLE DclWDT_Open(DCL_DEV dev, DCL_FLAGS flags)
{
	return STATUS_UNSUPPORTED;

}

DCL_STATUS DclWDT_ReadData(DCL_HANDLE handle, DCL_BUFF *buff, DCL_BUFF_LEN buf_len, DCL_OPTIONS options)
{
	return STATUS_UNSUPPORTED;

}

DCL_STATUS DclWDT_WriteData(DCL_HANDLE handle, DCL_BUFF *buff, DCL_BUFF_LEN buf_len, DCL_OPTIONS options)
{
	return STATUS_UNSUPPORTED;
}

DCL_STATUS DclWDT_Configure(DCL_HANDLE handle, DCL_CONFIGURE_T *configure)
{
	return STATUS_UNSUPPORTED;

}

DCL_STATUS DclWDT_RegisterCallback(DCL_HANDLE handle, DCL_EVENT event, PFN_DCL_CALLBACK callback)
{
	return STATUS_UNSUPPORTED;

}

DCL_STATUS DclWDT_Control(DCL_HANDLE handle, DCL_CTRL_CMD cmd, DCL_CTRL_DATA_T *data)
{
	return STATUS_UNSUPPORTED;

}

DCL_STATUS DclWDT_Close(DCL_HANDLE handle)
{
	return STATUS_UNSUPPORTED;

}

#endif  //!defined(DRV_WDT_OFF)

//#endif	//DCL_WDT_INTERFACE