*
* Desc: Handle a timer entry
*
-* Ret: RETVOID
+* Ret: void
*
* Notes:
*
#endif
{
/**/
- U32 expire;
- U32 entry;
+ uint32_t expire;
+ uint32_t entry;
S16 event;
PTR cb;
CmTimer *tmp1;
++tqCp->nxtEnt;
expire = tqCp->nxtEnt;
/* cm_bdy5_c_002.113 - Modification for SRegCfgTmr support */
- entry = (U32) (expire % (U32)(tqCp->tmrLen));
+ entry = (uint32_t) (expire % (uint32_t)(tqCp->tmrLen));
tmp2 = &tq[entry].first;
while ((tmp1 = *tmp2) != NULLP)
else
tmp2 = &tmp1->next;
}
- RETVOID;
+ return;
} /* end of cmPrcTmr */
#else /* not defined SS_FAP */
#endif
{
/**/
- U32 expire;
- U32 entry, entry1;
+ uint32_t expire;
+ uint32_t entry, entry1;
S16 event;
CmTqType *tqEnt, *tqEnt1;
PTR cb;
CmTimer *tmp1;
- VOLATILE U32 startTime = 0;
+ volatile uint32_t startTime = 0;
/*starting Task*/
++tqCp->nxtEnt;
expire = tqCp->nxtEnt;
tqCp->tmrLen = 1;
- entry = (U32) (expire % (U32)(tqCp->tmrLen));
+ entry = (uint32_t) (expire % (uint32_t)(tqCp->tmrLen));
tqCp->tmp = (tqEnt = &tq[entry])->first;
while ((tmp1 = tqCp->tmp) != NULLP)
}
else
{
- entry1 = (U32) (tmp1->tqExpire % (U32)(tqCp->tmrLen));
+ entry1 = (uint32_t) (tmp1->tqExpire % (uint32_t)(tqCp->tmrLen));
tqEnt1 = &tq[entry1];
CM_RMV_TQCP(tqEnt, tmp1);
tmp1->entIdx = entry1;
/*stoping Task*/
SStopTask(startTime, PID_CM_PRC_TMR);
- RETVOID;
+ return;
} /* end of cmPrcTmr */
#endif /* SS_FAP */
*
* Desc: initialize timers
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: Connection Oriented Control
*
Void cmInitTimers
(
CmTimer *timers, /* timer list */
-U8 max /* maximum tmrs */
+uint8_t max /* maximum tmrs */
)
#else
Void cmInitTimers(timers, max)
CmTimer *timers; /* timer list */
-U8 max; /* maximum tmrs */
+uint8_t max; /* maximum tmrs */
#endif
{
CmTimer *tPtr;
- REG1 U8 i;
+ REG1 uint8_t i;
for (i = 0, tPtr = timers; i < max; i++, tPtr++)
tPtr->prev = (struct cmTimer *)NULLP;
tPtr->ent2bUpd = FALSE;
}
- RETVOID;
+ return;
} /* end of cmInitTimers */
/*
*
* Desc: Places Control Block on Timing Queue
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: None
*
{
/*added FAP modifications*/
#ifdef SS_FAP
- REG1 U8 tmrNum;
+ REG1 uint8_t tmrNum;
/* cm_bdy5_c_001.main_20 - Modification for SRegCfgTmr support */
- U32 ent;
- U32 expire;
+ uint32_t ent;
+ uint32_t expire;
CmTimer **tmp;
expire = (arg->tqCp->nxtEnt + arg->wait);
/* cm_bdy5_c_002.113 - Modification for SRegCfgTmr support */
- ent = (U32)(expire % (U32)(arg->tqCp->tmrLen));
+ ent = (uint32_t)(expire % (uint32_t)(arg->tqCp->tmrLen));
for (tmrNum = 0; tmrNum < arg->max; tmrNum++)
{
tmp = &((*tmp)->next);
*tmp = &arg->timers[tmrNum];
- RETVOID;
+ return;
}
}
- RETVOID;
+ return;
#else
- REG1 U8 tmrNum;
- U32 ent;
+ REG1 uint8_t tmrNum;
+ uint32_t ent;
CmTqType *tq;
CmTimer *target;
- U32 expire;
+ uint32_t expire;
expire = (arg->tqCp->nxtEnt + arg->wait);
- ent = (U32)(expire % (U32)(arg->tqCp->tmrLen));
+ ent = (uint32_t)(expire % (uint32_t)(arg->tqCp->tmrLen));
for (tmrNum = 0; tmrNum < arg->max; tmrNum++)
{
/* Place the timer block in the timer list */
CM_PLC_TQCP(tq, target);
- RETVOID;
+ return;
}
}
- RETVOID;
+ return;
#endif
} /* end of cmPlcCbTq */
*
* Desc: Places Control Block on Timing Queue
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: None
*
arg->timers[arg->tNum].tqExpire = arg->tqCp->nxtEnt + arg->wait;
arg->timers[arg->tNum].ent2bUpd = TRUE;
- RETVOID;
+ return;
} /* end of cmRstCbTq */
/*
*
* Desc: Removes control block from Timing Queue
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: None
*
/*Added FAP modifications*/
#ifdef SS_FAP
/* cm_bdy5_c_002.113 - Modification for SRegCfgTmr support */
- U32 ent;
+ uint32_t ent;
CmTimer *target;
CmTimer *tmp1;
CmTimer **tmp2;
if (target->tmrEvnt != TMR_NONE)
{
/* cm_bdy5_c_002.113 - Modification for SRegCfgTmr support */
- ent = (U32) (target->tqExpire % (U32)(arg->tqCp->tmrLen));
+ ent = (uint32_t) (target->tqExpire % (uint32_t)(arg->tqCp->tmrLen));
tmp2 = &arg->tq[ent].first;
while ((tmp1 = *tmp2) != NULLP)
tmp2 = &tmp1->next;
}
}
- RETVOID;
+ return;
#else
- U32 ent;
+ uint32_t ent;
CmTimer *target;
CmTqType *tq;
target = &arg->timers[arg->tNum];
if (target->tmrEvnt != TMR_NONE)
{
- ent = (U32) (target->entIdx);
+ ent = (uint32_t) (target->entIdx);
tq = &arg->tq[ent];
/*
target->cb = NULLP;
}
- RETVOID;
+ return;
#endif
} /* end of cmRmvCbTq */