/* * GenSM.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 GenSM.c * \brief Generic state machine implementation * * \see GenSM.h */ #define __FILE_ID__ FILE_ID_128 #include "tidef.h" #include "osApi.h" #include "report.h" #include "GenSM.h" /** * \fn genSM_Create * \brief Cerates a generic state machine object * * Cerates a generic state machine object. Allocates system resources. * * \note event/action matrix and debug descriptions are used by reference, and are not copied! * \param hOS - handle to the OS object * \return Handle to the generic state machine object * \sa GenSM_Unload, GenSM_Init, genSM_SetDefaults */ TI_HANDLE genSM_Create (TI_HANDLE hOS) { TGenSM *pGenSM = NULL; /* Allocate object storage */ pGenSM = os_memoryAlloc (hOS, sizeof(TGenSM)); if (NULL != pGenSM) { /* Store OS handle */ pGenSM->hOS = hOS; } return (TI_HANDLE)pGenSM; } /** * \fn genSM_Unload * \brief Unloads a generic state machine object * * Unloads a generic state machine object. Frees system resources consumed by the object. * * \param hGenSM - hanlde to the generic state machine object * \return None * \sa GenSM_Create */ void genSM_Unload (TI_HANDLE hGenSM) { TGenSM *pGenSM = (TGenSM*)hGenSM; /* free the generic state machine object storage */ os_memoryFree (pGenSM->hOS, hGenSM, sizeof (TGenSM)); } /** * \fn genSM_Init * \brief Initializes the generic state machine object * * Initializes the generic state machine object. Store handles to other modules. * * \param hGenSM - hanlde to the generic state machine object * \param hReport - handle to the report module * \return None * \sa GenSM_Create, genSM_SetDefaults */ void genSM_Init (TI_HANDLE hGenSM, TI_HANDLE hReport) { TGenSM *pGenSM = (TGenSM*)hGenSM; /* store report handle */ pGenSM->hReport = hReport; } /** * \fn genSM_SetDefaults * \brief Set default values to the generic state machine * * Set default values to the generic state machine * * \note event/action matrix and debug descriptions are used by reference, and are not copied! * \param hGenSM - hanlde to the generic state machine object * \param uStateNum - number of states * \param uEventNum - number of events * \param pMatrix - pointer to the event/actions matrix * \param uInitialState - the initial state * \param pGenSMName - a string describing the state machine, for debug prints * \param pStateDesc - strings describing the state machine states, for debug prints * \param pEventDesc - strings describing the state machine events, for debug prints * \param uModuleLogIndex - Log index used by the module using the state machine * \return None * \sa genSM_Create, genSM_Init */ void genSM_SetDefaults (TI_HANDLE hGenSM, TI_UINT32 uStateNum, TI_UINT32 uEventNum, TGenSM_matrix pMatrix, TI_UINT32 uInitialState, TI_INT8 *pGenSMName, TI_INT8 **pStateDesc, TI_INT8 **pEventDesc, TI_UINT32 uModuleLogIndex) { TGenSM *pGenSM = (TGenSM*)hGenSM; /* set values */ pGenSM->uStateNum = uStateNum; pGenSM->uEventNum = uEventNum; pGenSM->tMatrix = pMatrix; pGenSM->uCurrentState = uInitialState; pGenSM->pGenSMName = pGenSMName; pGenSM->pStateDesc = pStateDesc; pGenSM->pEventDesc = pEventDesc; pGenSM->uModuleLogIndex = uModuleLogIndex; pGenSM->bEventPending = TI_FALSE; pGenSM->bInAction = TI_FALSE; } void genSM_Event (TI_HANDLE hGenSM, TI_UINT32 uEvent, void *pData) { TGenSM *pGenSM = (TGenSM*)hGenSM; TI_UINT32 uCurrentState; TGenSM_actionCell *pCell; #ifdef TI_DBG /* sanity check */ if (uEvent >= pGenSM->uEventNum) { TRACE3(pGenSM->hReport, REPORT_SEVERITY_ERROR , ": module: %d received event %d, which is out of events boundry %d\n", pGenSM->uModuleLogIndex, uEvent, pGenSM->uEventNum); } if (TI_TRUE == pGenSM->bEventPending) { TRACE3(pGenSM->hReport, REPORT_SEVERITY_ERROR , ": module: %d received event %d, when event %d is pending execution!\n", pGenSM->uModuleLogIndex, uEvent, pGenSM->uEvent); } #endif /* mark that an event is pending */ pGenSM->bEventPending = TI_TRUE; /* save event and data */ pGenSM->uEvent = uEvent; pGenSM->pData = pData; /* if an event is currently executing, return (new event will be handled when current event is done) */ if (TI_TRUE == pGenSM->bInAction) { TRACE1(pGenSM->hReport, REPORT_SEVERITY_INFORMATION , ": module: %d delaying execution of event \n", pGenSM->uModuleLogIndex); return; } /* execute events, until none is pending */ while (TI_TRUE == pGenSM->bEventPending) { /* get the cell pointer for the current state and event */ pCell = &(pGenSM->tMatrix[ (pGenSM->uCurrentState * pGenSM->uEventNum) + pGenSM->uEvent ]); /* print state transition information */ TRACE4(pGenSM->hReport, REPORT_SEVERITY_INFORMATION, "genSM_Event: module %d --> nextState = %d\n", pGenSM->uModuleLogIndex, pGenSM->uCurrentState, uEvent, pCell->uNextState); /* mark that event execution is in place */ pGenSM->bInAction = TI_TRUE; /* mark that pending event is being handled */ pGenSM->bEventPending = TI_FALSE; /* keep current state */ uCurrentState = pGenSM->uCurrentState; /* update current state */ pGenSM->uCurrentState = pCell->uNextState; /* run transition function */ (*(pCell->fAction)) (pGenSM->pData); /* mark that event execution is complete */ pGenSM->bInAction = TI_FALSE; } } /** * \fn genSM_GetCurrentState * \brief retrieves the state machine current state * * retrieves the state machine current state * * \param hGenSM - hanlde to the generic state machine object * \return state machine current state */ TI_UINT32 genSM_GetCurrentState (TI_HANDLE hGenSM) { TGenSM *pGenSM = (TGenSM*)hGenSM; return pGenSM->uCurrentState; }