mac_backoff_timer.s51

来自「TI的基于ZIGBEE2006的协议栈」· S51 代码 · 共 1,453 行 · 第 1/5 页

S51
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//  291   return(backoffTimerTrigger);
        MOV	DPTR,#??backoffTimerTrigger
        MOV	R0,#?V0 + 0
        LCALL	?L_MOV_X
        MOV	R2,?V0 + 0
        MOV	R3,?V0 + 1
        MOV	R4,?V0 + 2
        MOV	R5,?V0 + 3
        LJMP	?Subroutine1 & 0xFFFF
        CFI EndBlock cfiBlock7
//  292 }
//  293 
//  294 
//  295 /**************************************************************************************************
//  296  * @fn          macBackoffTimerSetTrigger
//  297  *
//  298  * @brief       Sets the trigger count for the backoff counter.  A callback is exectuted when
//  299  *              the backoff count reaches the trigger
//  300  *
//  301  * @param       triggerBackoff - backoff count for new trigger
//  302  *
//  303  * @return      none
//  304  **************************************************************************************************
//  305  */

        RSEG BANKED_CODE:CODE:NOROOT(0)
//  306 void macBackoffTimerSetTrigger(uint32 triggerBackoff)
macBackoffTimerSetTrigger:
        CFI Block cfiBlock8 Using cfiCommon0
        CFI Function macBackoffTimerSetTrigger
//  307 {
        FUNCALL macBackoffTimerSetTrigger, halAssertHandler
        LOCFRAME XSTACK, 16, STACK
        ARGFRAME XSTACK, 16, STACK
        FUNCALL macBackoffTimerSetTrigger, macMcuOverflowCount
        LOCFRAME XSTACK, 16, STACK
        ARGFRAME XSTACK, 16, STACK
        FUNCALL macBackoffTimerSetTrigger, macMcuOverflowSetCompare
        LOCFRAME XSTACK, 16, STACK
        ARGFRAME XSTACK, 16, STACK
        FUNCALL macBackoffTimerSetTrigger, macMcuOverflowSetCompare
        LOCFRAME XSTACK, 16, STACK
        ARGFRAME XSTACK, 16, STACK
        MOV	A,#-0x10
        LCALL	?BANKED_ENTER_XDATA
        CFI DPH0 load(1, XDATA, add(CFA_XSP16, literal(-1)))
        CFI DPL0 load(1, XDATA, add(CFA_XSP16, literal(-2)))
        CFI ?BRET_EXT load(1, XDATA, add(CFA_XSP16, literal(-3)))
        CFI ?RET_HIGH load(1, XDATA, add(CFA_XSP16, literal(-4)))
        CFI ?RET_LOW load(1, XDATA, add(CFA_XSP16, literal(-5)))
        CFI R7 load(1, XDATA, add(CFA_XSP16, literal(-6)))
        CFI V7 load(1, XDATA, add(CFA_XSP16, literal(-7)))
        CFI V6 load(1, XDATA, add(CFA_XSP16, literal(-8)))
        CFI V5 load(1, XDATA, add(CFA_XSP16, literal(-9)))
        CFI V4 load(1, XDATA, add(CFA_XSP16, literal(-10)))
        CFI V3 load(1, XDATA, add(CFA_XSP16, literal(-11)))
        CFI V2 load(1, XDATA, add(CFA_XSP16, literal(-12)))
        CFI V1 load(1, XDATA, add(CFA_XSP16, literal(-13)))
        CFI V0 load(1, XDATA, add(CFA_XSP16, literal(-14)))
        CFI VB load(1, XDATA, add(CFA_XSP16, literal(-15)))
        CFI R6 load(1, XDATA, add(CFA_XSP16, literal(-16)))
        CFI CFA_SP SP+0
        CFI CFA_XSP16 add(XSP16, 16)
        ; Saved register size: 16
        ; Auto size: 0
        MOV	?V0 + 0,R2
        MOV	?V0 + 1,R3
        MOV	?V0 + 2,R4
        MOV	?V0 + 3,R5
//  308   halIntState_t  s;
//  309 
//  310   MAC_ASSERT(triggerBackoff < backoffTimerRollover); /* trigger backoff must be less than rollover backoff */
        MOV	DPTR,#??backoffTimerRollover
        MOV	R0,#?V0 + 4
        LCALL	?L_MOV_X
        MOV	R0,#?V0 + 4
        MOV	R1,#?V0 + 0
        LCALL	?UL_GT
        JC	??macBackoffTimerSetTrigger_0
        ; Setup parameters for call to function halAssertHandler
        MOV	DPTR,#(halAssertHandler & 0xffff)
        MOV	A,#((halAssertHandler >> 16) & 0xff)
        LCALL	?BCALL               ; Banked call to: DPTR()
//  311 
//  312   HAL_ENTER_CRITICAL_SECTION(s);
??macBackoffTimerSetTrigger_0:
        MOV	C,0xa8.7
        CLR	A
        MOV	0xE0 /* A   */.0,C
        MOV	R6,A
        CLR	0xa8.7
//  313   backoffTimerTrigger = triggerBackoff;
        MOV	DPTR,#??backoffTimerTrigger
        MOV	R0,#?V0 + 0
        LCALL	?L_MOV_TO_X
//  314   if (triggerBackoff > MAC_RADIO_BACKOFF_COUNT())
        ; Setup parameters for call to function macMcuOverflowCount
        MOV	DPTR,#(macMcuOverflowCount & 0xffff)
        MOV	A,#((macMcuOverflowCount >> 16) & 0xff)
        LCALL	?BCALL               ; Banked call to: DPTR()
        MOV	?V0 + 4,R2
        MOV	?V0 + 5,R3
        MOV	?V0 + 6,R4
        MOV	?V0 + 7,R5
        MOV	R0,#?V0 + 0
        MOV	R1,#?V0 + 4
        LCALL	?UL_GT
        JNC	??macBackoffTimerSetTrigger_1
//  315   {
//  316     compareState = COMPARE_STATE_TRIGGER;
        MOV	A,#0x2
        MOV	DPTR,#??compareState
        MOVX	@DPTR,A
//  317     MAC_RADIO_BACKOFF_SET_COMPARE(triggerBackoff);
        ; Setup parameters for call to function macMcuOverflowSetCompare
        SJMP	??macBackoffTimerSetTrigger_2
//  318   }
//  319   else
//  320   {
//  321     if (triggerBackoff == 0)
??macBackoffTimerSetTrigger_1:
        MOV	DPTR,#__Constant_0
        MOV	R0,#?V0 + 0
        LCALL	?L_EQ_X
        JNZ	??macBackoffTimerSetTrigger_3
//  322     {
//  323       compareState = COMPARE_STATE_ROLLOVER_AND_TRIGGER;
        MOV	A,#0x3
        SJMP	??macBackoffTimerSetTrigger_4
//  324     }
//  325     else
//  326     {
//  327       compareState = COMPARE_STATE_ROLLOVER_AND_ARM_TRIGGER;
??macBackoffTimerSetTrigger_3:
        MOV	A,#0x5
??macBackoffTimerSetTrigger_4:
        LCALL	??Subroutine0_0 & 0xFFFF
//  328     }
//  329     MAC_RADIO_BACKOFF_SET_COMPARE(backoffTimerRollover);
??CrossCallReturnLabel_2:
        LCALL	?L_MOV_X
??macBackoffTimerSetTrigger_2:
        LJMP	?Subroutine2 & 0xFFFF
        CFI EndBlock cfiBlock8
//  330   }
//  331   HAL_EXIT_CRITICAL_SECTION(s);
//  332 }
//  333 
//  334 
//  335 /**************************************************************************************************
//  336  * @fn          macBackoffTimerCancelTrigger
//  337  *
//  338  * @brief       Cancels the trigger for the backoff counter.
//  339  *
//  340  * @param       none
//  341  *
//  342  * @return      none
//  343  **************************************************************************************************
//  344  */

        RSEG BANKED_CODE:CODE:NOROOT(0)
//  345 void macBackoffTimerCancelTrigger(void)
macBackoffTimerCancelTrigger:
        CFI Block cfiBlock9 Using cfiCommon0
        CFI Function macBackoffTimerCancelTrigger
//  346 {
        FUNCALL macBackoffTimerCancelTrigger, macMcuOverflowSetCompare
        LOCFRAME XSTACK, 12, STACK
        ARGFRAME XSTACK, 12, STACK
        MOV	A,#-0xc
        LCALL	?BANKED_ENTER_XDATA
        CFI DPH0 load(1, XDATA, add(CFA_XSP16, literal(-1)))
        CFI DPL0 load(1, XDATA, add(CFA_XSP16, literal(-2)))
        CFI ?BRET_EXT load(1, XDATA, add(CFA_XSP16, literal(-3)))
        CFI ?RET_HIGH load(1, XDATA, add(CFA_XSP16, literal(-4)))
        CFI ?RET_LOW load(1, XDATA, add(CFA_XSP16, literal(-5)))
        CFI R7 load(1, XDATA, add(CFA_XSP16, literal(-6)))
        CFI V3 load(1, XDATA, add(CFA_XSP16, literal(-7)))
        CFI V2 load(1, XDATA, add(CFA_XSP16, literal(-8)))
        CFI V1 load(1, XDATA, add(CFA_XSP16, literal(-9)))
        CFI V0 load(1, XDATA, add(CFA_XSP16, literal(-10)))
        CFI VB load(1, XDATA, add(CFA_XSP16, literal(-11)))
        CFI R6 load(1, XDATA, add(CFA_XSP16, literal(-12)))
        CFI CFA_SP SP+0
        CFI CFA_XSP16 add(XSP16, 12)
        ; Saved register size: 12
        ; Auto size: 0
//  347   halIntState_t  s;
//  348 
//  349   HAL_ENTER_CRITICAL_SECTION(s);
        MOV	C,0xa8.7
        CLR	A
        MOV	0xE0 /* A   */.0,C
        MOV	R6,A
        CLR	0xa8.7
//  350   compareState = COMPARE_STATE_ROLLOVER;
        LCALL	?Subroutine0 & 0xFFFF
//  351   MAC_RADIO_BACKOFF_SET_COMPARE(backoffTimerRollover);
??CrossCallReturnLabel_0:
        LCALL	?L_MOV_X
        MOV	R2,?V0 + 0
        MOV	R3,?V0 + 1
        MOV	R4,?V0 + 2
        MOV	R5,?V0 + 3
        MOV	DPTR,#(macMcuOverflowSetCompare & 0xffff)
        MOV	A,#((macMcuOverflowSetCompare >> 16) & 0xff)
        LCALL	?BCALL               ; Banked call to: DPTR()
//  352   HAL_EXIT_CRITICAL_SECTION(s);
        MOV	A,R6
        MOV	C,0xE0 /* A   */.0
        MOV	0xa8.7,C
        CFI EndBlock cfiBlock9
//  353 }
        REQUIRE ?Subroutine1
        ; // Fall through to label ?Subroutine1

        RSEG BANKED_CODE:CODE:NOROOT(0)
?Subroutine1:
        CFI Block cfiBlock10 Using cfiCommon0
        CFI NoFunction
        CFI CFA_SP SP+0
        CFI CFA_XSP16 add(XSP16, 12)
        CFI VB load(1, XDATA, add(CFA_XSP16, literal(-11)))
        CFI DPL0 load(1, XDATA, add(CFA_XSP16, literal(-2)))
        CFI DPH0 load(1, XDATA, add(CFA_XSP16, literal(-1)))
        CFI R6 load(1, XDATA, add(CFA_XSP16, literal(-12)))
        CFI R7 load(1, XDATA, add(CFA_XSP16, literal(-6)))
        CFI V0 load(1, XDATA, add(CFA_XSP16, literal(-10)))
        CFI V1 load(1, XDATA, add(CFA_XSP16, literal(-9)))
        CFI V2 load(1, XDATA, add(CFA_XSP16, literal(-8)))
        CFI V3 load(1, XDATA, add(CFA_XSP16, literal(-7)))
        CFI ?BRET_EXT load(1, XDATA, add(CFA_XSP16, literal(-3)))
        CFI ?RET_HIGH load(1, XDATA, add(CFA_XSP16, literal(-4)))
        CFI ?RET_LOW load(1, XDATA, add(CFA_XSP16, literal(-5)))
        MOV	R7,#0x4
        LJMP	?BANKED_LEAVE_XDATA
        CFI EndBlock cfiBlock10

        RSEG BANKED_CODE:CODE:NOROOT(0)
?Subroutine0:
        CFI Block cfiCond11 Using cfiCommon0
        CFI NoFunction
        CFI Conditional ??CrossCallReturnLabel_1
        CFI R6 load(1, XDATA, add(CFA_XSP16, literal(-12)))
        CFI VB load(1, XDATA, add(CFA_XSP16, literal(-11)))
        CFI V0 load(1, XDATA, add(CFA_XSP16, literal(-10)))
        CFI V1 load(1, XDATA, add(CFA_XSP16, literal(-9)))
        CFI V2 load(1, XDATA, add(CFA_XSP16, literal(-8)))
        CFI V3 load(1, XDATA, add(CFA_XSP16, literal(-7)))
        CFI R7 load(1, XDATA, add(CFA_XSP16, literal(-6)))
        CFI ?RET_LOW load(1, XDATA, add(CFA_XSP16, literal(-5)))
        CFI ?RET_HIGH load(1, XDATA, add(CFA_XSP16, literal(-4)))
        CFI ?BRET_EXT load(1, XDATA, add(CFA_XSP16, literal(-3)))
        CFI DPL0 load(1, XDATA, add(CFA_XSP16, literal(-2)))
        CFI DPH0 load(1, XDATA, add(CFA_XSP16, literal(-1)))
        CFI CFA_SP SP+0
        CFI CFA_XSP16 add(XSP16, 12)
        CFI Block cfiCond12 Using cfiCommon0
        CFI (cfiCond12) NoFunction
        CFI (cfiCond12) Conditional ??CrossCallReturnLabel_0
        CFI (cfiCond12) R6 load(1, XDATA, add(CFA_XSP16, literal(-12)))
        CFI (cfiCond12) VB load(1, XDATA, add(CFA_XSP16, literal(-11)))
        CFI (cfiCond12) V0 load(1, XDATA, add(CFA_XSP16, literal(-10)))
        CFI (cfiCond12) V1 load(1, XDATA, add(CFA_XSP16, literal(-9)))
        CFI (cfiCond12) V2 load(1, XDATA, add(CFA_XSP16, literal(-8)))
        CFI (cfiCond12) V3 load(1, XDATA, add(CFA_XSP16, literal(-7)))
        CFI (cfiCond12) R7 load(1, XDATA, add(CFA_XSP16, literal(-6)))
        CFI (cfiCond12) ?RET_LOW load(1, XDATA, add(CFA_XSP16, literal(-5)))
        CFI (cfiCond12) ?RET_HIGH load(1, XDATA, add(CFA_XSP16, literal(-4)))
        CFI (cfiCond12) ?BRET_EXT load(1, XDATA, add(CFA_XSP16, literal(-3)))
        CFI (cfiCond12) DPL0 load(1, XDATA, add(CFA_XSP16, literal(-2)))
        CFI (cfiCond12) DPH0 load(1, XDATA, add(CFA_XSP16, literal(-1)))
        CFI (cfiCond12) CFA_SP SP+0
        CFI (cfiCond12) CFA_XSP16 add(XSP16, 12)
        CFI Block cfiPicker13 Using cfiCommon1
        CFI (cfiPicker13) NoFunction
        CFI (cfiPicker13) Picker
        MOV	A,#0x1
        CFI Block cfiCond14 Using cfiCommon0
        CFI (cfiCond14) NoFunction
        CFI (cfiCond14) Conditional ??CrossCallReturnLabel_2
        CFI (cfiCond14) R6 load(1, XDATA, add(CFA_XSP16, literal(-16)))
        CFI (cfiCond14) VB load(1, XDATA, add(CFA_XSP16, literal(-15)))
        CFI (cfiCond14) V0 load(1, XDATA, add(CFA_XSP16, literal(-14)))
        CFI (cfiCond14) V1 load(1, XDATA, add(CFA_XSP16, literal(-13)))
        CFI (cfiCond14) V2 load(1, XDATA, add(CFA_XSP16, literal(-12)))
        CFI (cfiCond14) V3 load(1, XDATA, add(CFA_XSP16, literal(-11)))
        CFI (cfiCond14) V4 load(1, XDATA, add(CFA_XSP16, literal(-10)))
        CFI (cfiCond14) V5 load(1, XDAT

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