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/*
* eventMbox.c
*
* Copyright(c) 1998 - 2009 Texas Instruments. All rights reserved.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name Texas Instruments nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/** \file eventMbox.c
* \brief Handle any event interrupt from the FW
*
* \see
*/
#define __FILE_ID__ FILE_ID_102
#include "eventMbox_api.h"
#include "TwIf.h"
#include "osApi.h"
#include "report.h"
#include "CmdBld.h"
#include "FwEvent_api.h"
#include "TWDriver.h"
#include "BusDrv.h"
#define EVENT_MBOX_BUFFERS 2
typedef enum
{
EVENT_MBOX_STATE_IDLE,
EVENT_MBOX_STATE_READING
} EEventMboxState;
typedef struct {
void* fCb; /* Event Callback function */
TI_HANDLE hCb; /* Evant handle */
TI_UINT8* pDataOffset; /* Event Data Offset */
#ifdef TI_DBG
TI_UINT32 uCount;
#endif
}TRegisteredEventCb;
typedef struct
{
TI_UINT32 bitMask;/* Event bit mask */
char* str; /* Event trace string */
TI_UINT8 dataLen;/* Event data length */
} TEventEntry;
typedef struct
{
TTxnStruct tTxnReg;
TI_UINT32 iRegBuffer;
} tTxnGenReg;
typedef struct
{
TTxnStruct tEventMbox;
EventMailBox_t iEventMboxBuf;
} tTxnEventMbox;
typedef struct
{
TI_UINT32 EventMboxAddr[EVENT_MBOX_BUFFERS]; /* the Event Mbox addresses in the device */
TI_UINT8 ActiveMbox; /* The current active Mbox */
EEventMboxState CurrentState;
TRegisteredEventCb CbTable[TWD_OWN_EVENT_MAX]; /* Callback table */
/* Handles */
TI_HANDLE hTwif;
TI_HANDLE hOs;
TI_HANDLE hReport;
TI_HANDLE hCmdBld;
/* HW params */
/* use a struct to read or write register (4 byte size) from the bus */
tTxnGenReg iTxnGenRegSize;
tTxnEventMbox iTxnEventMbox;
#ifdef TI_DBG
TI_UINT32 uCompounEvCount; /* Count the compound event */
TI_UINT32 uTotalEvCount; /* Count total number of event sending in the compound */
#endif /* TI_DBG */
fnotify_t fCb;
TI_HANDLE hCb;
}TEventMbox;
/********************************************************************************/
/* Internal functions prototypes. */
/********************************************************************************/
static void eventMbox_ConfigCbTable(TI_HANDLE hEventMbox);
static void eventMbox_ReadAddrCb(TI_HANDLE hEventMbox, TI_HANDLE hTxn);
static void eventMbox_DummyCb(TI_HANDLE hEventMbox);
static void eventMbox_ReadCompleteCB(TI_HANDLE hEventMbox, TTxnStruct *pTxnStruct);
static const TEventEntry eventTable [TWD_OWN_EVENT_MAX] =
{
/*==================================================================================
*
* EVENT TABLE
*
* Note that changes here should be reflected also in ETwdOwnEventId in TWDriver.h !!!
*
===================================================================================
| Id | Event Mask Bit | Event String | Length |
===================================================================================*/
/* 0*/{ RSSI_SNR_TRIGGER_0_EVENT_ID, "RSSI SNR TRIGGER 0 " , 1},
/* 1*/{ RSSI_SNR_TRIGGER_1_EVENT_ID, "RSSI SNR TRIGGER 1 " , 1},
/* 2*/{ RSSI_SNR_TRIGGER_2_EVENT_ID, "RSSI SNR TRIGGER 2 " , 1},
/* 3*/{ RSSI_SNR_TRIGGER_3_EVENT_ID, "RSSI SNR TRIGGER 3 " , 1},
/* 4*/{ RSSI_SNR_TRIGGER_4_EVENT_ID, "RSSI SNR TRIGGER 4 " , 1},
/* 5*/{ RSSI_SNR_TRIGGER_5_EVENT_ID, "RSSI SNR TRIGGER 5 " , 1},
/* 6*/{ RSSI_SNR_TRIGGER_6_EVENT_ID, "RSSI SNR TRIGGER 6 " , 1},
/* 7*/{ RSSI_SNR_TRIGGER_7_EVENT_ID, "RSSI SNR TRIGGER 7 " , 1},
/* 8*/{ MEASUREMENT_START_EVENT_ID, "MEASUREMENT START " , 0},
/* 9*/{ MEASUREMENT_COMPLETE_EVENT_ID, "BSS LOSE " , 0},
/*10*/{ SCAN_COMPLETE_EVENT_ID , "SCAN CMPLT " , 8},
/*11*/{ SCHEDULED_SCAN_COMPLETE_EVENT_ID, "SPS SCAN CMPLT " , 3},
/*12*/{ AP_DISCOVERY_COMPLETE_EVENT_ID, "MAX TX RETRY " , 0},
/*13*/{ PS_REPORT_EVENT_ID, "PS_REPORT " , 1},
/*14*/{ PSPOLL_DELIVERY_FAILURE_EVENT_ID, "PS-POLL DELIVERY FAILURE" , 0},
/*15*/{ DISCONNECT_EVENT_COMPLETE_ID, "DISCONNECT COMPLETE " , 0},
/*16*/{ JOIN_EVENT_COMPLETE_ID, "JOIN CMPLT " , 0},
/*17*/{ CHANNEL_SWITCH_COMPLETE_EVENT_ID, "SWITCH CHANNEL CMPLT " , 0},
/*18*/{ BSS_LOSE_EVENT_ID, "BSS LOST " , 0},
/*19*/{ REGAINED_BSS_EVENT_ID, "REGAINED BSS " , 0},
/*20*/{ ROAMING_TRIGGER_MAX_TX_RETRY_EVENT_ID, "MAX TX RETRY " , 0},
/*21*/{ BIT_21, "RESERVED" , 0},
/*22*/{ SOFT_GEMINI_SENSE_EVENT_ID, "SOFT GEMINI SENSE " , 1},
/*23*/{ SOFT_GEMINI_PREDICTION_EVENT_ID, "SOFT GEMINI PREDICTION " , 1},
/*24*/{ SOFT_GEMINI_AVALANCHE_EVENT_ID, "SOFT GEMINI AVALANCHE " , 0},
/*25*/{ PLT_RX_CALIBRATION_COMPLETE_EVENT_ID, "PLT RX CALIBR. COMPLETE " , 0},
/*26*/{ DBG_EVENT_ID, "DBG_EVENT_ID " , 16},
/*27*/{ HEALTH_CHECK_REPLY_EVENT_ID, "HEALTH_CHECK_REPLY_EVENT_ID" , 0},
/*28*/{ PERIODIC_SCAN_COMPLETE_EVENT_ID, "PERIODIC SCAN COMPLETE " , 8},
/*29*/{ PERIODIC_SCAN_REPORT_EVENT_ID, "PERIODIC SCAN REPORT " , 8},
/*30*/{ BA_SESSION_TEAR_DOWN_EVENT_ID, "BA_SESSION_TEAR_DOWN_EVENT_ID" , 0},
/*31*/{ EVENT_MBOX_ALL_EVENT_ID, "ALL EVENTS " , 0}
};
/*
* \brief Create the Bus Access mailbox object
*
* \param hOs - OS Handle
* \returnThe Created object
*
* \sa
*/
TI_HANDLE eventMbox_Create(TI_HANDLE hOs)
{
TEventMbox *pEventMbox;
pEventMbox = (TEventMbox*)os_memoryAlloc(hOs,sizeof(TEventMbox));
if (pEventMbox == NULL)
{
WLAN_OS_REPORT (("eventMbox_Create: Error creating EventMbox object\n"));
return NULL;
}
os_memoryZero (hOs, pEventMbox, sizeof(TEventMbox));
pEventMbox->hOs = hOs;
pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsMask = EVENT_MBOX_ALL_EVENT_ID;
return (TI_HANDLE)pEventMbox;
}
/*
* \brief Release all memory resource of EventMbox
*
* \param hEventMbox - Handle to EventMbox
* \return none
*
* \par Description
* This function should called after all interrupts was disabled.
*
* \sa
*/
void eventMbox_Destroy(TI_HANDLE hEventMbox)
{
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
if (pEventMbox)
{
os_memoryFree (pEventMbox->hOs, pEventMbox, sizeof(TEventMbox));
}
}
/*
* \brief Stop the EventMbox clear state and event vector
*
* \param hEventMbox - Handle to EventMbox
* \return none
*
* \par Description
* This function should called to stop the EventMb.
* Do Not clear the mask Event could use us again when restart/recovery!!!!
* \sa
*/
void eventMbox_Stop(TI_HANDLE hEventMbox)
{
TEventMbox* pEventMbox = (TEventMbox*)hEventMbox;
pEventMbox->ActiveMbox = 0;
pEventMbox->CurrentState = EVENT_MBOX_STATE_IDLE;
pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsVector = 0;
}
/*
* \brief Configure the object
*
* \param hEventMbox - Handle to EventMbox
* \param hTwif - Handle to TWIF
* \param hReport - Handle to Report module
* \param hFwEvent - Handle to FW Event module
* \param hCmdBld - Handle to Command Build module
* \return none
*
* \par Description
* This function should called to configure the module.
* \sa
*/
void eventMbox_Config(TI_HANDLE hEventMbox,
TI_HANDLE hTwif,
TI_HANDLE hReport,
TI_HANDLE hFwEvent,
TI_HANDLE hCmdBld)
{
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
pEventMbox->hTwif = hTwif;
pEventMbox->hReport = hReport;
pEventMbox->hCmdBld = hCmdBld;
pEventMbox->ActiveMbox = 0;
pEventMbox->CurrentState = EVENT_MBOX_STATE_IDLE;
#ifdef TI_DBG
pEventMbox->uCompounEvCount = 0;
pEventMbox->uTotalEvCount = 0;
#endif
eventMbox_ConfigCbTable(pEventMbox);
}
/*
* \brief Initialization of callback table
*
* \param hEventMbox - Handle to EventMbox
* \return none
*
* \par Description
* This function is called to configure the CB table initialize the
* CB functions and handle and set the Data offset.
*
* \sa
*/
static void eventMbox_ConfigCbTable(TI_HANDLE hEventMbox)
{
TEventMbox* pEventMbox;
TI_UINT8 EvID;
pEventMbox = (TEventMbox*)hEventMbox;
/* for all events set a dummy func and data offset */
for (EvID = 0; EvID < TWD_OWN_EVENT_MAX;EvID++)
{
pEventMbox->CbTable[EvID].pDataOffset = (TI_UINT8*)&pEventMbox->iTxnEventMbox.iEventMboxBuf;
pEventMbox->CbTable[EvID].fCb = (void*)eventMbox_DummyCb;
pEventMbox->CbTable[EvID].hCb = pEventMbox;
}
/* set the data offset for Events with data only */
for (EvID = 0;EvID < NUM_OF_RSSI_SNR_TRIGGERS;EvID++)
{
pEventMbox->CbTable[EvID].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t, RSSISNRTriggerMetric[EvID]);
}
pEventMbox->CbTable[TWD_DBG_EVENT ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t, dbgEventRep);
pEventMbox->CbTable[TWD_OWN_EVENT_SCAN_CMPLT ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t,scanCompleteResults);
pEventMbox->CbTable[TWD_OWN_EVENT_SPS_SCAN_CMPLT ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t,scheduledScanAttendedChannels);
pEventMbox->CbTable[TWD_OWN_EVENT_PERIODIC_SCAN_COMPLETE].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t, scanCompleteResults);
pEventMbox->CbTable[TWD_OWN_EVENT_PERIODIC_SCAN_REPORT ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t, scanCompleteResults);
pEventMbox->CbTable[TWD_OWN_EVENT_SOFT_GEMINI_SENSE ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t,softGeminiSenseInfo);
pEventMbox->CbTable[TWD_OWN_EVENT_SOFT_GEMINI_PREDIC ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t,softGeminiProtectiveInfo);
pEventMbox->CbTable[TWD_OWN_EVENT_SWITCH_CHANNEL_CMPLT ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t,channelSwitchStatus);
pEventMbox->CbTable[TWD_OWN_EVENT_PS_REPORT ].pDataOffset += TI_FIELD_OFFSET (EventMailBox_t,psStatus);
}
static void eventMbox_DummyCb(TI_HANDLE hEventMbox)
{
TEventMbox* pEventMbox = (TEventMbox*)hEventMbox;
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_DummyCb : Called for unregistered event");
}
/*
* \brief Read mailbox address
*
* \param hEventMbox - Handle to EventMbox
* \param fCb - CB function to return in Async mode
* \param hCb - CB Habdle
* \return TXN_STATUS_COMPLETE, TXN_STATUS_PENDING, TXN_STATUS_ERROR
*
* \par Description
* This function is called for initialize the Event MBOX addresses.
* It issues a read transaction from the Twif with a CB.
*
* \sa
*/
TI_STATUS eventMbox_InitMboxAddr(TI_HANDLE hEventMbox, fnotify_t fCb, TI_HANDLE hCb)
{
TTxnStruct *pTxn;
TEventMbox* pEventMbox;
ETxnStatus rc;
pEventMbox = (TEventMbox*)hEventMbox;
pTxn = &pEventMbox->iTxnGenRegSize.tTxnReg;
/* Store the Callabck address of the modules that called us in case of Asynchronuous transaction that will complete later */
pEventMbox->fCb = fCb;
pEventMbox->hCb = hCb;
/* Build the command TxnStruct */
TXN_PARAM_SET(pTxn, TXN_LOW_PRIORITY, TXN_FUNC_ID_WLAN, TXN_DIRECTION_READ, TXN_INC_ADDR)
/* Applying a CB in case of an async read */
BUILD_TTxnStruct(pTxn, REG_EVENT_MAILBOX_PTR, &pEventMbox->iTxnGenRegSize.iRegBuffer, REGISTER_SIZE, eventMbox_ReadAddrCb, hEventMbox)
rc = twIf_Transact(pEventMbox->hTwif,pTxn);
if (rc == TXN_STATUS_COMPLETE)
{
pEventMbox->EventMboxAddr[0] = pEventMbox->iTxnGenRegSize.iRegBuffer;
pEventMbox->EventMboxAddr[1] = pEventMbox->EventMboxAddr[0] + sizeof(EventMailBox_t);
TRACE3(pEventMbox->hReport, REPORT_SEVERITY_INIT , "eventMbox_ConfigHw: event A Address=0x%x, event B Address=0x%x, sizeof=%d\n", pEventMbox->EventMboxAddr[0], pEventMbox->EventMboxAddr[1], sizeof(EventMailBox_t));
}
return rc;
}
/*
* \brief Save the Event MBOX addresses
*
* \param hEventMbox - Handle to EventMbox
* \param hTxn - Handle to TTxnStruct
* \return none
*
* \par Description
* This function is called upon completion of thr read Event MBOX address register.
* It save the addresses in EventMbox.
*
* \sa
*/
static void eventMbox_ReadAddrCb(TI_HANDLE hEventMbox, TI_HANDLE hTxn)
{
TEventMbox* pEventMbox;
pEventMbox = (TEventMbox*)hEventMbox;
pEventMbox->EventMboxAddr[0] = pEventMbox->iTxnGenRegSize.iRegBuffer;
pEventMbox->EventMboxAddr[1] = pEventMbox->EventMboxAddr[0] + sizeof(EventMailBox_t);
TRACE3(pEventMbox->hReport, REPORT_SEVERITY_INIT , "eventMbox_ConfigHw: event A Address=0x%x, event B Address=0x%x, sizeof=%d\n", pEventMbox->EventMboxAddr[0], pEventMbox->EventMboxAddr[1], sizeof(EventMailBox_t));
/* call back the module that called us before to read our self-address */
pEventMbox->fCb(pEventMbox->hCb,TI_OK);
}
/*
* \brief confige the Mask vector in FW
*
* \param hEventMbox - Handle to EventMbox
* \return none
*
* \par Description
* This function is called upon exit from init it will set the mask vector.
* this function is mostly use for recovery
* Note that at Init stage the FW is already configured to have all events masked but at Recovery stage
* The driver whishes to just set back previous event mask configuration
*
* \sa
*/
void eventMbox_InitComplete(TI_HANDLE hEventMbox)
{
TEventMbox* pEventMbox;
pEventMbox = (TEventMbox*)hEventMbox;
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, "eventMbox_InitComplete: mask = 0x%x\n", pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsMask);
cmdBld_CfgEventMask(pEventMbox->hCmdBld,pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsMask,NULL,NULL);
}
/*
* \brief Register an event
*
* \param hEventMbox - Handle to EventMbox
* \param EvID - the event ID to register
* \param fCb - CB function of the registered event
* \param hCb - CB handle of the registered event
* \return TI_OK,TI_NOK
*
* \par Description
* This function is called from the user upon request to register for event.
* an Event can only be register to one user.
* This function doesn't change the mask vector in FW!!!
*
* \sa
*/
TI_STATUS eventMbox_RegisterEvent(TI_HANDLE hEventMbox,TI_UINT32 EvID,void* fCb,TI_HANDLE hCb)
{
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
if (fCb == NULL || hCb == NULL)
{
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_RegisterEvent : NULL parameters\n");
return TI_NOK;
}
if (EvID >= TWD_OWN_EVENT_ALL)
{
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_RegisterEvent : Event ID invalid\n");
return TI_NOK;
}
pEventMbox->CbTable[EvID].fCb = fCb;
pEventMbox->CbTable[EvID].hCb = hCb;
return TI_OK;
}
/*
* \brief Replace event callback
*
* \param hEventMbox - Handle to EventMbox
* \param EvID - the event ID to register
* \param fNewCb - the new CB function of the registered event
* \param hNewCb - the new CB handle of the registered event
* \param pPrevCb - the old CB to save
* \param pPrevHndl - the old handle to save
* \return TI_OK,TI_NOK
*
* \par Description
* Replace event callback function by another one.
* Provide the previous CB to the caller.
*
* \sa
*/
TI_STATUS eventMbox_ReplaceEvent (TI_HANDLE hEventMbox,
TI_UINT32 EvID,
void *fNewCb,
TI_HANDLE hNewCb,
void **pPrevCb,
TI_HANDLE *pPrevHndl)
{
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
if (fNewCb == NULL || hNewCb == NULL)
{
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR , "eventMbox_ReplaceEvent: NULL parameters\n");
return TI_NOK;
}
if (EvID >= TWD_OWN_EVENT_ALL)
{
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_ReplaceEvent: invalid ID. ID is %d\n", EvID);
return TI_NOK;
}
/* Save the old CBs */
*pPrevCb = pEventMbox->CbTable[EvID].fCb;
*pPrevHndl = pEventMbox->CbTable[EvID].hCb;
/* store the new CBs */
pEventMbox->CbTable[EvID].fCb = fNewCb;
pEventMbox->CbTable[EvID].hCb = hNewCb;
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, "eventMbox_ReplaceEvent: EVENT has registered\n");
return TI_OK;
}
/*
* \brief Un mask an event
*
* \param hEventMbox - Handle to EventMbox
* \param EvID - the event ID to un mask
* \param fCb - CB function
* \param hCb - CB handle
* \return TI_COMPLETE,TI_PENDING,TI_ERROR
*
* \par Description
* This function is called from the user upon request to un mask an event.
* This function change the mask vector in FW but doesn't register for it in the driver and
* doesn't set Cb function and Cb Handle in case of un mask event without registered for it an
* error will be handling!!!
*
* \sa
*/
TI_STATUS eventMbox_UnMaskEvent(TI_HANDLE hEventMbox,TI_UINT32 EvID,void* fCb,TI_HANDLE hCb)
{
TI_UINT32* pEventMask;
TI_STATUS aStatus;
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
pEventMask = (TI_UINT32*)&pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsMask;
if (EvID >= TWD_OWN_EVENT_ALL)
{
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_UnMaskEvent : Un mask an Invalid event = 0x%x\n",EvID);
return TXN_STATUS_ERROR;
}
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, "eventMbox_UnMaskEvent : EVENT is unmasked\n");
*pEventMask &= ~eventTable[EvID].bitMask;
aStatus = cmdBld_CfgEventMask (pEventMbox->hCmdBld, *pEventMask, fCb, hCb);
return aStatus;
}
/*
* \brief mask an event
*
* \param hEventMbox - Handle to EventMbox
* \param EvID - the event ID to un mask
* \param fCb - CB function
* \param hCb - CB handle
* \return TI_COMPLETE,TI_PENDING,TI_ERROR
*
* \par Description
* This function is called from the user upon request to mask an event.
* This function change the mask vector in FW but doesn't unregister it in the driver.
* \sa
*/
TI_STATUS eventMbox_MaskEvent(TI_HANDLE hEventMbox,TI_UINT32 EvID,void* fCb,TI_HANDLE hCb)
{
TI_UINT32* pEventMask;
TI_STATUS aStatus;
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
pEventMask = (TI_UINT32*)&pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsMask;
if (EvID >= TWD_OWN_EVENT_ALL)
{
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_MaskEvent : Mask an Invalid event = 0x%x\n",EvID);
return TXN_STATUS_ERROR;
}
*pEventMask |= eventTable[EvID].bitMask;
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION , "eventMbox_MaskEvent : EVENT is masked\n");
aStatus = cmdBld_CfgEventMask(pEventMbox->hCmdBld,*pEventMask,fCb,hCb);
return aStatus;
}
/*
* \brief Handle the incoming event read the Mbox data
*
* \param hEventMbox - Handle to EventMbox
* \param TFwStatus - FW status
* \return none
*
* \par Description
* This function is called from the FW Event upon receiving MBOX event.
* \sa
*/
ETxnStatus eventMbox_Handle(TI_HANDLE hEventMbox,FwStatus_t* pFwStatus)
{
ETxnStatus rc;
TTxnStruct *pTxn;
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
pTxn = &pEventMbox->iTxnEventMbox.tEventMbox;
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, "eventMbox_Handle : Reading from MBOX -- %d",pEventMbox->ActiveMbox);
#ifdef TI_DBG
/* Check if missmatch MBOX */
if (pEventMbox->ActiveMbox == 0)
{
if (pFwStatus->intrStatus & ACX_INTR_EVENT_B)
{
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_Handle : incorrect MBOX SW MBOX -- A FW MBOX -- B");
}
}
else if (pEventMbox->ActiveMbox == 1)
{
if (pFwStatus->intrStatus & ACX_INTR_EVENT_A)
{
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_Handle : incorrect MBOX SW MBOX -- B FW MBOX -- A");
}
}
#endif /* TI_DBG */
if (pEventMbox->CurrentState != EVENT_MBOX_STATE_IDLE)
{
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_ERROR, "eventMbox_Handle : Receiving event not in Idle state");
}
pEventMbox->CurrentState = EVENT_MBOX_STATE_READING;
/* Build the command TxnStruct */
TXN_PARAM_SET(pTxn, TXN_LOW_PRIORITY, TXN_FUNC_ID_WLAN, TXN_DIRECTION_READ, TXN_INC_ADDR)
/* Applying a CB in case of an async read */
BUILD_TTxnStruct(pTxn, pEventMbox->EventMboxAddr[pEventMbox->ActiveMbox], &pEventMbox->iTxnEventMbox.iEventMboxBuf, sizeof(EventMailBox_t),(TTxnDoneCb)eventMbox_ReadCompleteCB, pEventMbox)
rc = twIf_Transact(pEventMbox->hTwif,pTxn);
pEventMbox->ActiveMbox = 1 - pEventMbox->ActiveMbox;
if (rc == TXN_STATUS_COMPLETE)
{
eventMbox_ReadCompleteCB(pEventMbox,pTxn);
}
return TXN_STATUS_COMPLETE;
}
/*
* \brief Process the event
*
* \param hEventMbox - Handle to EventMbox
* \param pTxnStruct - the Txn data
* \return none
*
* \par Description
* This function is called from the upon reading completion of the event MBOX
* it will call all registered event according to the pending bits in event MBOX vector.
* \sa
*/
static void eventMbox_ReadCompleteCB(TI_HANDLE hEventMbox, TTxnStruct *pTxnStruct)
{
TI_UINT32 EvID;
TTxnStruct* pTxn;
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
pTxn = &pEventMbox->iTxnGenRegSize.tTxnReg;
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, "eventMbox_ReadCompleteCB : event vector -- 0x%x\n",pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsVector);
pEventMbox->iTxnGenRegSize.iRegBuffer = INTR_TRIG_EVENT_ACK;
for (EvID = 0; EvID < TWD_OWN_EVENT_ALL; EvID++)
{
if (pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsVector & eventTable[EvID].bitMask)
{
if (eventTable[EvID].dataLen)
{
((TEventMboxDataCb)pEventMbox->CbTable[EvID].fCb)(pEventMbox->CbTable[EvID].hCb,(TI_CHAR*)pEventMbox->CbTable[EvID].pDataOffset,eventTable[EvID].dataLen);
}
else
{
((TEventMboxEvCb)pEventMbox->CbTable[EvID].fCb)(pEventMbox->CbTable[EvID].hCb);
}
}
}
/* Check if the state is changed in the context of the event callbacks */
if (pEventMbox->CurrentState == EVENT_MBOX_STATE_IDLE)
{
/*
* When eventMbox_stop is called state is changed to IDLE
* This is done in the context of the above events callbacks
* Don't send the EVENT ACK transaction because the driver stop process includes power off
*/
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_WARNING, "eventMbox_ReadCompleteCB : State is IDLE ! don't send the EVENT ACK");
return;
}
pEventMbox->CurrentState = EVENT_MBOX_STATE_IDLE;
/* Build the command TxnStruct */
TXN_PARAM_SET(pTxn, TXN_LOW_PRIORITY, TXN_FUNC_ID_WLAN, TXN_DIRECTION_WRITE, TXN_INC_ADDR)
/* Applying a CB in case of an async read */
BUILD_TTxnStruct(pTxn, ACX_REG_INTERRUPT_TRIG, &pEventMbox->iTxnGenRegSize.iRegBuffer, sizeof(pEventMbox->iTxnGenRegSize.iRegBuffer), NULL, NULL)
twIf_Transact(pEventMbox->hTwif,pTxn);
}
#ifdef TI_DBG
/*
* eventMbox_Print: print the Event Mailbox statistic :Number 890
*/
TI_STATUS eventMbox_Print (TI_HANDLE hEventMbox)
{
TEventMbox *pEventMbox = (TEventMbox *)hEventMbox;
TI_UINT32 i;
TI_UINT32 EvMask = pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsMask;
TI_UINT32 EvVector = pEventMbox->iTxnEventMbox.iEventMboxBuf.eventsVector;
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_CONSOLE, "------------------------- EventMbox Print ----------------------------\n");
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, " eventMbox_HandleEvent: Event Vector = 0x%x\n", EvVector);
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_INFORMATION, " eventMbox_HandleEvent: Event Mask = 0x%x\n", EvMask);
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_CONSOLE, " Total Number Of Compound Event = %d: \n", pEventMbox->uCompounEvCount);
TRACE1(pEventMbox->hReport, REPORT_SEVERITY_CONSOLE, " Total Number Of Events = %d: \n", pEventMbox->uTotalEvCount);
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_CONSOLE, "\t\t\t\t *** Event Counters *** :\n");
for (i = 0; i < TWD_OWN_EVENT_ALL; i++)
{
TRACE2(pEventMbox->hReport, REPORT_SEVERITY_CONSOLE, " %d) Event Name = EVENT , Number of Event = %d\n", i, pEventMbox->CbTable[i].uCount);
}
TRACE0(pEventMbox->hReport, REPORT_SEVERITY_CONSOLE, "------------------------- EventMbox Print End ----------------------------\n");
return TI_OK;
}
#endif /* TI_DBG */