vTimerSetTimerNumber (struct tmrTimerControl * xTimer, UBaseType_t uxTimerNumber)
{
<bb 2> :
MEM[(struct Timer_t *)xTimer_2(D)].uxTimerNumber = uxTimerNumber_3(D);
return;
}
uxTimerGetTimerNumber (struct tmrTimerControl * xTimer)
{
UBaseType_t D.6791;
UBaseType_t _3;
<bb 2> :
_3 = MEM[(struct Timer_t *)xTimer_2(D)].uxTimerNumber;
<bb 3> :
<L0>:
return _3;
}
xTimerPendFunctionCall (void (*PendedFunction_t) (void *, uint32_t) xFunctionToPend, void * pvParameter1, uint32_t ulParameter2, TickType_t xTicksToWait)
{
uint32_t ulNewBASEPRI;
BaseType_t xReturn;
struct DaemonTaskMessage_t xMessage;
BaseType_t D.6788;
struct QueueDefinition * xTimerQueue.26_1;
struct QueueDefinition * xTimerQueue.27_2;
BaseType_t _14;
<bb 2> :
xTimerQueue.26_1 = xTimerQueue;
if (xTimerQueue.26_1 == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_16 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
xMessage.xMessageID = -1;
xMessage.u.xCallbackParameters.pxCallbackFunction = xFunctionToPend_5(D);
xMessage.u.xCallbackParameters.pvParameter1 = pvParameter1_7(D);
xMessage.u.xCallbackParameters.ulParameter2 = ulParameter2_9(D);
xTimerQueue.27_2 = xTimerQueue;
xReturn_13 = xQueueGenericSend (xTimerQueue.27_2, &xMessage, xTicksToWait_11(D), 0);
_14 = xReturn_13;
xMessage ={v} {CLOBBER};
<bb 7> :
<L4>:
return _14;
}
xTimerPendFunctionCallFromISR (void (*PendedFunction_t) (void *, uint32_t) xFunctionToPend, void * pvParameter1, uint32_t ulParameter2, BaseType_t * pxHigherPriorityTaskWoken)
{
BaseType_t xReturn;
struct DaemonTaskMessage_t xMessage;
BaseType_t D.6783;
struct QueueDefinition * xTimerQueue.25_1;
BaseType_t _13;
<bb 2> :
xMessage.xMessageID = -2;
xMessage.u.xCallbackParameters.pxCallbackFunction = xFunctionToPend_4(D);
xMessage.u.xCallbackParameters.pvParameter1 = pvParameter1_6(D);
xMessage.u.xCallbackParameters.ulParameter2 = ulParameter2_8(D);
xTimerQueue.25_1 = xTimerQueue;
xReturn_12 = xQueueGenericSendFromISR (xTimerQueue.25_1, &xMessage, pxHigherPriorityTaskWoken_10(D), 0);
_13 = xReturn_12;
xMessage ={v} {CLOBBER};
<bb 3> :
<L1>:
return _13;
}
vTimerSetTimerID (struct tmrTimerControl * xTimer, void * pvNewID)
{
uint32_t ulNewBASEPRI;
struct Timer_t * const pxTimer;
<bb 2> :
pxTimer_2 = xTimer_1(D);
if (xTimer_1(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_8 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
vPortEnterCritical ();
pxTimer_2->pvTimerID = pvNewID_5(D);
vPortExitCritical ();
return;
}
pvTimerGetTimerID (struct tmrTimerControl * const xTimer)
{
uint32_t ulNewBASEPRI;
void * pvReturn;
struct Timer_t * const pxTimer;
void * D.6779;
void * _7;
<bb 2> :
pxTimer_2 = xTimer_1(D);
if (xTimer_1(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_8 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
vPortEnterCritical ();
pvReturn_5 = pxTimer_2->pvTimerID;
vPortExitCritical ();
_7 = pvReturn_5;
<bb 7> :
<L3>:
return _7;
}
xTimerIsTimerActive (struct tmrTimerControl * xTimer)
{
uint32_t ulNewBASEPRI;
struct Timer_t * pxTimer;
BaseType_t xReturn;
BaseType_t D.6775;
unsigned char _1;
int _2;
int _3;
BaseType_t _12;
<bb 2> :
pxTimer_6 = xTimer_5(D);
if (xTimer_5(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_13 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
vPortEnterCritical ();
_1 = pxTimer_6->ucStatus;
_2 = (int) _1;
_3 = _2 & 1;
if (_3 == 0)
goto <bb 7>; [INV]
else
goto <bb 8>; [INV]
<bb 7> :
xReturn_10 = 0;
goto <bb 9>; [INV]
<bb 8> :
xReturn_9 = 1;
<bb 9> :
# xReturn_4 = PHI <xReturn_10(7), xReturn_9(8)>
vPortExitCritical ();
_12 = xReturn_4;
<bb 10> :
<L6>:
return _12;
}
prvCheckForValidListAndQueue ()
{
struct QueueDefinition * xTimerQueue.22_1;
struct QueueDefinition * _2;
struct QueueDefinition * xTimerQueue.23_3;
struct QueueDefinition * xTimerQueue.24_4;
<bb 2> :
vPortEnterCritical ();
xTimerQueue.22_1 = xTimerQueue;
if (xTimerQueue.22_1 == 0B)
goto <bb 3>; [INV]
else
goto <bb 5>; [INV]
<bb 3> :
vListInitialise (&xActiveTimerList1);
vListInitialise (&xActiveTimerList2);
pxCurrentTimerList = &xActiveTimerList1;
pxOverflowTimerList = &xActiveTimerList2;
_2 = xQueueGenericCreate (10, 16, 0);
xTimerQueue = _2;
xTimerQueue.23_3 = xTimerQueue;
if (xTimerQueue.23_3 != 0B)
goto <bb 4>; [INV]
else
goto <bb 5>; [INV]
<bb 4> :
xTimerQueue.24_4 = xTimerQueue;
vQueueAddToRegistry (xTimerQueue.24_4, "TmrQ");
<bb 5> :
vPortExitCritical ();
return;
}
prvSwitchTimerLists ()
{
struct List_t * pxTemp;
TickType_t xNextExpireTime;
struct List_t * pxCurrentTimerList.19_1;
struct xLIST_ITEM * _2;
struct List_t * pxCurrentTimerList.20_3;
long unsigned int _4;
struct List_t * pxOverflowTimerList.21_5;
<bb 2> :
goto <bb 4>; [INV]
<bb 3> :
pxCurrentTimerList.19_1 = pxCurrentTimerList;
_2 = pxCurrentTimerList.19_1->xListEnd.pxNext;
xNextExpireTime_11 = _2->xItemValue;
prvProcessExpiredTimer (xNextExpireTime_11, 4294967295);
<bb 4> :
pxCurrentTimerList.20_3 = pxCurrentTimerList;
_4 ={v} pxCurrentTimerList.20_3->uxNumberOfItems;
if (_4 != 0)
goto <bb 3>; [INV]
else
goto <bb 5>; [INV]
<bb 5> :
pxTemp_8 = pxCurrentTimerList;
pxOverflowTimerList.21_5 = pxOverflowTimerList;
pxCurrentTimerList = pxOverflowTimerList.21_5;
pxOverflowTimerList = pxTemp_8;
return;
}
prvProcessReceivedCommands ()
{
uint32_t ulNewBASEPRI;
uint32_t ulNewBASEPRI;
const struct CallbackParameters_t * const pxCallback;
TickType_t xTimeNow;
BaseType_t xTimerListsWereSwitched;
struct Timer_t * pxTimer;
struct DaemonTaskMessage_t xMessage;
long int _1;
void (*<T68e>) (void *, uint32_t) _2;
void * _3;
long unsigned int _4;
long int _5;
struct xLIST * _6;
struct ListItem_t * _7;
long int _8;
unsigned char _9;
unsigned char _10;
long unsigned int _11;
long unsigned int _12;
long unsigned int _13;
long unsigned int _14;
long int _15;
unsigned char _16;
int _17;
int _18;
long unsigned int _19;
long unsigned int _20;
long unsigned int _21;
unsigned char _22;
unsigned char _23;
void (*<T689>) (struct tmrTimerControl *) _24;
unsigned char _25;
unsigned char _26;
unsigned char _27;
unsigned char _28;
long unsigned int _29;
long unsigned int _30;
long unsigned int _31;
long unsigned int _32;
unsigned char _33;
int _34;
int _35;
unsigned char _36;
unsigned char _37;
struct QueueDefinition * xTimerQueue.18_38;
long int _39;
<bb 2> :
goto <bb 30>; [INV]
<bb 3> :
_1 = xMessage.xMessageID;
if (_1 < 0)
goto <bb 4>; [INV]
else
goto <bb 9>; [INV]
<bb 4> :
pxCallback_50 = &xMessage.u.xCallbackParameters;
if (pxCallback_50 == 0B)
goto <bb 5>; [INV]
else
goto <bb 8>; [INV]
<bb 5> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_67 : "i" 16 : "memory");
<bb 6> :
<bb 7> :
goto <bb 7>; [INV]
<bb 8> :
_2 = pxCallback_50->pxCallbackFunction;
_3 = pxCallback_50->pvParameter1;
_4 = pxCallback_50->ulParameter2;
_2 (_3, _4);
<bb 9> :
_5 = xMessage.xMessageID;
if (_5 >= 0)
goto <bb 10>; [INV]
else
goto <bb 30>; [INV]
<bb 10> :
pxTimer_52 = xMessage.u.xTimerParameters.pxTimer;
_6 = pxTimer_52->xTimerListItem.pvContainer;
if (_6 != 0B)
goto <bb 11>; [INV]
else
goto <bb 12>; [INV]
<bb 11> :
_7 = &pxTimer_52->xTimerListItem;
uxListRemove (_7);
<bb 12> :
xTimeNow_55 = prvSampleTimeNow (&xTimerListsWereSwitched);
_8 = xMessage.xMessageID;
switch (_8) <default: <L32> [INV], case 1 ... 2: <L11> [INV], case 3: <L21> [INV], case 4: <L23> [INV], case 5: <L28> [INV], case 6 ... 7: <L11> [INV], case 8: <L21> [INV], case 9: <L23> [INV]>
<bb 13> :
<L11>:
_9 = pxTimer_52->ucStatus;
_10 = _9 | 1;
pxTimer_52->ucStatus = _10;
_11 = xMessage.u.xTimerParameters.xMessageValue;
_12 = pxTimer_52->xTimerPeriodInTicks;
_13 = _11 + _12;
_14 = xMessage.u.xTimerParameters.xMessageValue;
_15 = prvInsertTimerInActiveList (pxTimer_52, _13, xTimeNow_55, _14);
if (_15 != 0)
goto <bb 14>; [INV]
else
goto <bb 18>; [INV]
<bb 14> :
_16 = pxTimer_52->ucStatus;
_17 = (int) _16;
_18 = _17 & 4;
if (_18 != 0)
goto <bb 15>; [INV]
else
goto <bb 16>; [INV]
<bb 15> :
_19 = xMessage.u.xTimerParameters.xMessageValue;
_20 = pxTimer_52->xTimerPeriodInTicks;
_21 = _19 + _20;
prvReloadTimer (pxTimer_52, _21, xTimeNow_55);
goto <bb 17>; [INV]
<bb 16> :
_22 = pxTimer_52->ucStatus;
_23 = _22 & 254;
pxTimer_52->ucStatus = _23;
<bb 17> :
_24 = pxTimer_52->pxCallbackFunction;
_24 (pxTimer_52);
<bb 18> :
goto <bb 30>; [INV]
<bb 19> :
<L21>:
_25 = pxTimer_52->ucStatus;
_26 = _25 & 254;
pxTimer_52->ucStatus = _26;
goto <bb 30>; [INV]
<bb 20> :
<L23>:
_27 = pxTimer_52->ucStatus;
_28 = _27 | 1;
pxTimer_52->ucStatus = _28;
_29 = xMessage.u.xTimerParameters.xMessageValue;
pxTimer_52->xTimerPeriodInTicks = _29;
_30 = pxTimer_52->xTimerPeriodInTicks;
if (_30 == 0)
goto <bb 21>; [INV]
else
goto <bb 24>; [INV]
<bb 21> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_68 : "i" 16 : "memory");
<bb 22> :
<bb 23> :
goto <bb 23>; [INV]
<bb 24> :
_31 = pxTimer_52->xTimerPeriodInTicks;
_32 = xTimeNow_55 + _31;
prvInsertTimerInActiveList (pxTimer_52, _32, xTimeNow_55, xTimeNow_55);
goto <bb 30>; [INV]
<bb 25> :
<L28>:
_33 = pxTimer_52->ucStatus;
_34 = (int) _33;
_35 = _34 & 2;
if (_35 == 0)
goto <bb 26>; [INV]
else
goto <bb 27>; [INV]
<bb 26> :
vPortFree (pxTimer_52);
goto <bb 28>; [INV]
<bb 27> :
_36 = pxTimer_52->ucStatus;
_37 = _36 & 254;
pxTimer_52->ucStatus = _37;
<bb 28> :
goto <bb 30>; [INV]
<bb 29> :
<L32>:
<bb 30> :
xTimerQueue.18_38 = xTimerQueue;
_39 = xQueueReceive (xTimerQueue.18_38, &xMessage, 0);
if (_39 != 0)
goto <bb 3>; [INV]
else
goto <bb 31>; [INV]
<bb 31> :
xMessage ={v} {CLOBBER};
xTimerListsWereSwitched ={v} {CLOBBER};
return;
}
prvInsertTimerInActiveList (struct Timer_t * const pxTimer, const TickType_t xNextExpiryTime, const TickType_t xTimeNow, const TickType_t xCommandTime)
{
BaseType_t xProcessTimerNow;
BaseType_t D.6741;
long unsigned int _1;
long unsigned int _2;
struct List_t * pxOverflowTimerList.16_3;
struct ListItem_t * _4;
struct List_t * pxCurrentTimerList.17_5;
struct ListItem_t * _6;
BaseType_t _21;
<bb 2> :
xProcessTimerNow_9 = 0;
pxTimer_11(D)->xTimerListItem.xItemValue = xNextExpiryTime_12(D);
pxTimer_11(D)->xTimerListItem.pvOwner = pxTimer_11(D);
if (xNextExpiryTime_12(D) <= xTimeNow_15(D))
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
_1 = xTimeNow_15(D) - xCommandTime_16(D);
_2 = pxTimer_11(D)->xTimerPeriodInTicks;
if (_1 >= _2)
goto <bb 4>; [INV]
else
goto <bb 5>; [INV]
<bb 4> :
xProcessTimerNow_20 = 1;
goto <bb 10>; [INV]
<bb 5> :
pxOverflowTimerList.16_3 = pxOverflowTimerList;
_4 = &pxTimer_11(D)->xTimerListItem;
vListInsert (pxOverflowTimerList.16_3, _4);
goto <bb 10>; [INV]
<bb 6> :
if (xTimeNow_15(D) < xCommandTime_16(D))
goto <bb 7>; [INV]
else
goto <bb 9>; [INV]
<bb 7> :
if (xNextExpiryTime_12(D) >= xCommandTime_16(D))
goto <bb 8>; [INV]
else
goto <bb 9>; [INV]
<bb 8> :
xProcessTimerNow_17 = 1;
goto <bb 10>; [INV]
<bb 9> :
pxCurrentTimerList.17_5 = pxCurrentTimerList;
_6 = &pxTimer_11(D)->xTimerListItem;
vListInsert (pxCurrentTimerList.17_5, _6);
<bb 10> :
# xProcessTimerNow_7 = PHI <xProcessTimerNow_9(5), xProcessTimerNow_17(8), xProcessTimerNow_9(9), xProcessTimerNow_20(4)>
_21 = xProcessTimerNow_7;
<bb 11> :
<L10>:
return _21;
}
prvSampleTimeNow (BaseType_t * const pxTimerListsWereSwitched)
{
static TickType_t xLastTime = 0;
TickType_t xTimeNow;
TickType_t D.6729;
long unsigned int xLastTime.15_1;
TickType_t _11;
<bb 2> :
xTimeNow_5 = xTaskGetTickCount ();
xLastTime.15_1 = xLastTime;
if (xTimeNow_5 < xLastTime.15_1)
goto <bb 3>; [INV]
else
goto <bb 4>; [INV]
<bb 3> :
prvSwitchTimerLists ();
*pxTimerListsWereSwitched_6(D) = 1;
goto <bb 5>; [INV]
<bb 4> :
*pxTimerListsWereSwitched_6(D) = 0;
<bb 5> :
xLastTime = xTimeNow_5;
_11 = xTimeNow_5;
<bb 6> :
<L3>:
return _11;
}
prvGetNextExpireTime (BaseType_t * const pxListWasEmpty)
{
TickType_t xNextExpireTime;
TickType_t D.6724;
long int iftmp.12;
struct List_t * pxCurrentTimerList.13_1;
long unsigned int _2;
long int _3;
struct List_t * pxCurrentTimerList.14_4;
struct xLIST_ITEM * _5;
long int iftmp.12_7;
long int iftmp.12_9;
long int iftmp.12_10;
TickType_t _15;
<bb 2> :
pxCurrentTimerList.13_1 = pxCurrentTimerList;
_2 ={v} pxCurrentTimerList.13_1->uxNumberOfItems;
if (_2 == 0)
goto <bb 3>; [INV]
else
goto <bb 4>; [INV]
<bb 3> :
iftmp.12_10 = 1;
goto <bb 5>; [INV]
<bb 4> :
iftmp.12_9 = 0;
<bb 5> :
# iftmp.12_7 = PHI <iftmp.12_10(3), iftmp.12_9(4)>
*pxListWasEmpty_11(D) = iftmp.12_7;
_3 = *pxListWasEmpty_11(D);
if (_3 == 0)
goto <bb 6>; [INV]
else
goto <bb 7>; [INV]
<bb 6> :
pxCurrentTimerList.14_4 = pxCurrentTimerList;
_5 = pxCurrentTimerList.14_4->xListEnd.pxNext;
xNextExpireTime_14 = _5->xItemValue;
goto <bb 8>; [INV]
<bb 7> :
xNextExpireTime_13 = 0;
<bb 8> :
# xNextExpireTime_6 = PHI <xNextExpireTime_14(6), xNextExpireTime_13(7)>
_15 = xNextExpireTime_6;
<bb 9> :
<L6>:
return _15;
}
prvProcessTimerOrBlockTask (const TickType_t xNextExpireTime, BaseType_t xListWasEmpty)
{
BaseType_t xTimerListsWereSwitched;
TickType_t xTimeNow;
long int iftmp.9;
long int xTimerListsWereSwitched.8_1;
struct List_t * pxOverflowTimerList.10_2;
long unsigned int _3;
struct QueueDefinition * xTimerQueue.11_4;
long unsigned int _5;
long int _6;
volatile uint32_t * _7;
long int iftmp.9_9;
long int iftmp.9_21;
long int iftmp.9_22;
<bb 2> :
vTaskSuspendAll ();
xTimeNow_15 = prvSampleTimeNow (&xTimerListsWereSwitched);
xTimerListsWereSwitched.8_1 = xTimerListsWereSwitched;
if (xTimerListsWereSwitched.8_1 == 0)
goto <bb 3>; [INV]
else
goto <bb 14>; [INV]
<bb 3> :
if (xListWasEmpty_17(D) == 0)
goto <bb 4>; [INV]
else
goto <bb 6>; [INV]
<bb 4> :
if (xNextExpireTime_18(D) <= xTimeNow_15)
goto <bb 5>; [INV]
else
goto <bb 6>; [INV]
<bb 5> :
xTaskResumeAll ();
prvProcessExpiredTimer (xNextExpireTime_18(D), xTimeNow_15);
goto <bb 13>; [INV]
<bb 6> :
if (xListWasEmpty_17(D) != 0)
goto <bb 7>; [INV]
else
goto <bb 11>; [INV]
<bb 7> :
pxOverflowTimerList.10_2 = pxOverflowTimerList;
_3 ={v} pxOverflowTimerList.10_2->uxNumberOfItems;
if (_3 == 0)
goto <bb 8>; [INV]
else
goto <bb 9>; [INV]
<bb 8> :
iftmp.9_22 = 1;
goto <bb 10>; [INV]
<bb 9> :
iftmp.9_21 = 0;
<bb 10> :
# iftmp.9_9 = PHI <iftmp.9_22(8), iftmp.9_21(9)>
xListWasEmpty_23 = iftmp.9_9;
<bb 11> :
# xListWasEmpty_8 = PHI <xListWasEmpty_17(D)(6), xListWasEmpty_23(10)>
xTimerQueue.11_4 = xTimerQueue;
_5 = xNextExpireTime_18(D) - xTimeNow_15;
vQueueWaitForMessageRestricted (xTimerQueue.11_4, _5, xListWasEmpty_8);
_6 = xTaskResumeAll ();
if (_6 == 0)
goto <bb 12>; [INV]
else
goto <bb 13>; [INV]
<bb 12> :
_7 = 3758157060B;
*_7 ={v} 268435456;
__asm__ __volatile__("dsb" : : : "memory");
__asm__ __volatile__("isb");
<bb 13> :
goto <bb 15>; [INV]
<bb 14> :
xTaskResumeAll ();
<bb 15> :
xTimerListsWereSwitched ={v} {CLOBBER};
return;
}
prvTimerTask (void * pvParameters)
{
BaseType_t xListWasEmpty;
TickType_t xNextExpireTime;
long int xListWasEmpty.7_1;
<bb 2> :
xNextExpireTime_5 = prvGetNextExpireTime (&xListWasEmpty);
xListWasEmpty.7_1 = xListWasEmpty;
prvProcessTimerOrBlockTask (xNextExpireTime_5, xListWasEmpty.7_1);
prvProcessReceivedCommands ();
goto <bb 2>; [INV]
}
prvProcessExpiredTimer (const TickType_t xNextExpireTime, const TickType_t xTimeNow)
{
struct Timer_t * const pxTimer;
struct List_t * pxCurrentTimerList.6_1;
struct xLIST_ITEM * _2;
struct ListItem_t * _3;
unsigned char _4;
int _5;
int _6;
unsigned char _7;
unsigned char _8;
void (*<T689>) (struct tmrTimerControl *) _9;
<bb 2> :
pxCurrentTimerList.6_1 = pxCurrentTimerList;
_2 = pxCurrentTimerList.6_1->xListEnd.pxNext;
pxTimer_12 = _2->pvOwner;
_3 = &pxTimer_12->xTimerListItem;
uxListRemove (_3);
_4 = pxTimer_12->ucStatus;
_5 = (int) _4;
_6 = _5 & 4;
if (_6 != 0)
goto <bb 3>; [INV]
else
goto <bb 4>; [INV]
<bb 3> :
prvReloadTimer (pxTimer_12, xNextExpireTime_15(D), xTimeNow_16(D));
goto <bb 5>; [INV]
<bb 4> :
_7 = pxTimer_12->ucStatus;
_8 = _7 & 254;
pxTimer_12->ucStatus = _8;
<bb 5> :
_9 = pxTimer_12->pxCallbackFunction;
_9 (pxTimer_12);
return;
}
prvReloadTimer (struct Timer_t * const pxTimer, TickType_t xExpiredTime, const TickType_t xTimeNow)
{
long unsigned int _1;
void (*<T689>) (struct tmrTimerControl *) _2;
long unsigned int _3;
long unsigned int _4;
long int _5;
<bb 2> :
goto <bb 4>; [INV]
<bb 3> :
_1 = pxTimer_10(D)->xTimerPeriodInTicks;
xExpiredTime_13 = xExpiredTime_6 + _1;
_2 = pxTimer_10(D)->pxCallbackFunction;
_2 (pxTimer_10(D));
<bb 4> :
# xExpiredTime_6 = PHI <xExpiredTime_8(D)(2), xExpiredTime_13(3)>
_3 = pxTimer_10(D)->xTimerPeriodInTicks;
_4 = xExpiredTime_6 + _3;
_5 = prvInsertTimerInActiveList (pxTimer_10(D), _4, xTimeNow_11(D), xExpiredTime_6);
if (_5 != 0)
goto <bb 3>; [INV]
else
goto <bb 5>; [INV]
<bb 5> :
return;
}
pcTimerGetName (struct tmrTimerControl * xTimer)
{
uint32_t ulNewBASEPRI;
struct Timer_t * pxTimer;
const char * D.6696;
const char * _4;
<bb 2> :
pxTimer_2 = xTimer_1(D);
if (xTimer_1(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_5 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
_4 = pxTimer_2->pcTimerName;
<bb 7> :
<L3>:
return _4;
}
xTimerGetExpiryTime (struct tmrTimerControl * xTimer)
{
uint32_t ulNewBASEPRI;
TickType_t xReturn;
struct Timer_t * pxTimer;
TickType_t D.6692;
TickType_t _5;
<bb 2> :
pxTimer_2 = xTimer_1(D);
if (xTimer_1(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_6 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
xReturn_4 = pxTimer_2->xTimerListItem.xItemValue;
_5 = xReturn_4;
<bb 7> :
<L3>:
return _5;
}
uxTimerGetReloadMode (struct tmrTimerControl * xTimer)
{
uint32_t ulNewBASEPRI;
UBaseType_t uxReturn;
struct Timer_t * pxTimer;
UBaseType_t D.6688;
unsigned char _1;
int _2;
int _3;
UBaseType_t _12;
<bb 2> :
pxTimer_6 = xTimer_5(D);
if (xTimer_5(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_13 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
vPortEnterCritical ();
_1 = pxTimer_6->ucStatus;
_2 = (int) _1;
_3 = _2 & 4;
if (_3 == 0)
goto <bb 7>; [INV]
else
goto <bb 8>; [INV]
<bb 7> :
uxReturn_10 = 0;
goto <bb 9>; [INV]
<bb 8> :
uxReturn_9 = 1;
<bb 9> :
# uxReturn_4 = PHI <uxReturn_10(7), uxReturn_9(8)>
vPortExitCritical ();
_12 = uxReturn_4;
<bb 10> :
<L6>:
return _12;
}
vTimerSetReloadMode (struct tmrTimerControl * xTimer, const UBaseType_t uxAutoReload)
{
uint32_t ulNewBASEPRI;
struct Timer_t * pxTimer;
unsigned char _1;
unsigned char _2;
unsigned char _3;
unsigned char _4;
<bb 2> :
pxTimer_7 = xTimer_6(D);
if (xTimer_6(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_14 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
vPortEnterCritical ();
if (uxAutoReload_10(D) != 0)
goto <bb 7>; [INV]
else
goto <bb 8>; [INV]
<bb 7> :
_1 = pxTimer_7->ucStatus;
_2 = _1 | 4;
pxTimer_7->ucStatus = _2;
goto <bb 9>; [INV]
<bb 8> :
_3 = pxTimer_7->ucStatus;
_4 = _3 & 251;
pxTimer_7->ucStatus = _4;
<bb 9> :
vPortExitCritical ();
return;
}
xTimerGetPeriod (struct tmrTimerControl * xTimer)
{
uint32_t ulNewBASEPRI;
struct Timer_t * pxTimer;
TickType_t D.6676;
TickType_t _4;
<bb 2> :
pxTimer_2 = xTimer_1(D);
if (xTimer_1(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_5 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
_4 = pxTimer_2->xTimerPeriodInTicks;
<bb 7> :
<L3>:
return _4;
}
xTimerGetTimerDaemonTaskHandle ()
{
uint32_t ulNewBASEPRI;
struct tskTaskControlBlock * D.6672;
struct tskTaskControlBlock * xTimerTaskHandle.5_1;
struct tskTaskControlBlock * _3;
<bb 2> :
xTimerTaskHandle.5_1 = xTimerTaskHandle;
if (xTimerTaskHandle.5_1 == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_4 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
_3 = xTimerTaskHandle;
<bb 7> :
<L3>:
return _3;
}
xTimerGenericCommand (struct tmrTimerControl * xTimer, const BaseType_t xCommandID, const TickType_t xOptionalValue, BaseType_t * const pxHigherPriorityTaskWoken, const TickType_t xTicksToWait)
{
uint32_t ulNewBASEPRI;
struct DaemonTaskMessage_t xMessage;
BaseType_t xReturn;
BaseType_t D.6667;
struct QueueDefinition * xTimerQueue.1_1;
long int _2;
struct QueueDefinition * xTimerQueue.2_3;
struct QueueDefinition * xTimerQueue.3_4;
struct QueueDefinition * xTimerQueue.4_5;
BaseType_t _25;
<bb 2> :
xReturn_8 = 0;
if (xTimer_9(D) == 0B)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_27 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
xTimerQueue.1_1 = xTimerQueue;
if (xTimerQueue.1_1 != 0B)
goto <bb 7>; [INV]
else
goto <bb 12>; [INV]
<bb 7> :
xMessage.xMessageID = xCommandID_11(D);
xMessage.u.xTimerParameters.xMessageValue = xOptionalValue_13(D);
xMessage.u.xTimerParameters.pxTimer = xTimer_9(D);
if (xCommandID_11(D) <= 5)
goto <bb 8>; [INV]
else
goto <bb 11>; [INV]
<bb 8> :
_2 = xTaskGetSchedulerState ();
if (_2 == 2)
goto <bb 9>; [INV]
else
goto <bb 10>; [INV]
<bb 9> :
xTimerQueue.2_3 = xTimerQueue;
xReturn_24 = xQueueGenericSend (xTimerQueue.2_3, &xMessage, xTicksToWait_22(D), 0);
goto <bb 12>; [INV]
<bb 10> :
xTimerQueue.3_4 = xTimerQueue;
xReturn_21 = xQueueGenericSend (xTimerQueue.3_4, &xMessage, 0, 0);
goto <bb 12>; [INV]
<bb 11> :
xTimerQueue.4_5 = xTimerQueue;
xReturn_18 = xQueueGenericSendFromISR (xTimerQueue.4_5, &xMessage, pxHigherPriorityTaskWoken_16(D), 0);
<bb 12> :
# xReturn_6 = PHI <xReturn_8(6), xReturn_18(11), xReturn_21(10), xReturn_24(9)>
_25 = xReturn_6;
xMessage ={v} {CLOBBER};
<bb 13> :
<L13>:
return _25;
}
prvInitialiseNewTimer (const char * const pcTimerName, const TickType_t xTimerPeriodInTicks, const UBaseType_t uxAutoReload, void * const pvTimerID, void (*TimerCallbackFunction_t) (struct tmrTimerControl *) pxCallbackFunction, struct Timer_t * pxNewTimer)
{
uint32_t ulNewBASEPRI;
struct ListItem_t * _1;
unsigned char _2;
unsigned char _3;
<bb 2> :
if (xTimerPeriodInTicks_5(D) == 0)
goto <bb 3>; [INV]
else
goto <bb 6>; [INV]
<bb 3> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_19 : "i" 16 : "memory");
<bb 4> :
<bb 5> :
goto <bb 5>; [INV]
<bb 6> :
prvCheckForValidListAndQueue ();
pxNewTimer_8(D)->pcTimerName = pcTimerName_9(D);
pxNewTimer_8(D)->xTimerPeriodInTicks = xTimerPeriodInTicks_5(D);
pxNewTimer_8(D)->pvTimerID = pvTimerID_12(D);
pxNewTimer_8(D)->pxCallbackFunction = pxCallbackFunction_14(D);
_1 = &pxNewTimer_8(D)->xTimerListItem;
vListInitialiseItem (_1);
if (uxAutoReload_17(D) != 0)
goto <bb 7>; [INV]
else
goto <bb 8>; [INV]
<bb 7> :
_2 = pxNewTimer_8(D)->ucStatus;
_3 = _2 | 4;
pxNewTimer_8(D)->ucStatus = _3;
<bb 8> :
return;
}
xTimerCreate (const char * const pcTimerName, const TickType_t xTimerPeriodInTicks, const UBaseType_t uxAutoReload, void * const pvTimerID, void (*TimerCallbackFunction_t) (struct tmrTimerControl *) pxCallbackFunction)
{
struct Timer_t * pxNewTimer;
struct tmrTimerControl * D.6650;
struct tmrTimerControl * _12;
<bb 2> :
pxNewTimer_4 = pvPortMalloc (44);
if (pxNewTimer_4 != 0B)
goto <bb 3>; [INV]
else
goto <bb 4>; [INV]
<bb 3> :
pxNewTimer_4->ucStatus = 0;
prvInitialiseNewTimer (pcTimerName_6(D), xTimerPeriodInTicks_7(D), uxAutoReload_8(D), pvTimerID_9(D), pxCallbackFunction_10(D), pxNewTimer_4);
<bb 4> :
_12 = pxNewTimer_4;
<bb 5> :
<L2>:
return _12;
}
xTimerCreateTimerTask ()
{
uint32_t ulNewBASEPRI;
BaseType_t xReturn;
BaseType_t D.6646;
struct QueueDefinition * xTimerQueue.0_1;
BaseType_t _9;
<bb 2> :
xReturn_4 = 0;
prvCheckForValidListAndQueue ();
xTimerQueue.0_1 = xTimerQueue;
if (xTimerQueue.0_1 != 0B)
goto <bb 3>; [INV]
else
goto <bb 4>; [INV]
<bb 3> :
xReturn_8 = xTaskCreate (prvTimerTask, "Tmr Svc", 180, 0B, 2, &xTimerTaskHandle);
<bb 4> :
# xReturn_2 = PHI <xReturn_4(2), xReturn_8(3)>
if (xReturn_2 == 0)
goto <bb 5>; [INV]
else
goto <bb 8>; [INV]
<bb 5> :
__asm__ __volatile__(" mov %0, %1
msr basepri, %0
isb
dsb
" : "=r" ulNewBASEPRI_10 : "i" 16 : "memory");
<bb 6> :
<bb 7> :
goto <bb 7>; [INV]
<bb 8> :
_9 = xReturn_2;
<bb 9> :
<L6>:
return _9;
}