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/*  cpu_asm.s
 *
 *  This file contains the basic algorithms for all assembly code used
 *  in an specific CPU port of RTEMS.  These algorithms must be implemented
 *  in assembly language. 
 *
 *  COPYRIGHT (c) 1989-1998.
 *  On-Line Applications Research Corporation (OAR).
 *  Copyright assigned to U.S. Government, 1994.
 *
 *  The license and distribution terms for this file may be
 *  found in the file LICENSE in this distribution or at
 *  http://www.OARcorp.com/rtems/license.html.
 *
 *  Ported to ERC32 implementation of the SPARC by On-Line Applications
 *  Research Corporation (OAR) under contract to the European Space 
 *  Agency (ESA).
 *
 *  ERC32 modifications of respective RTEMS file: COPYRIGHT (c) 1995. 
 *  European Space Agency.
 *
 *  $Id$
 */

#include <asm.h>

#if (SPARC_HAS_FPU == 1)

/*
 *  void _CPU_Context_save_fp(
 *    void **fp_context_ptr
 *  )
 *
 *  This routine is responsible for saving the FP context
 *  at *fp_context_ptr.  If the point to load the FP context
 *  from is changed then the pointer is modified by this routine.
 *
 *  NOTE: See the README in this directory for information on the 
 *        management of the "EF" bit in the PSR.
 */

        .align 4
        PUBLIC(_CPU_Context_save_fp)
SYM(_CPU_Context_save_fp):
        save    %sp, -CPU_MINIMUM_STACK_FRAME_SIZE, %sp

        /*
         *  The following enables the floating point unit.
         */
   
        mov     %psr, %l0
        sethi   %hi(SPARC_PSR_EF_MASK), %l1
        or      %l1, %lo(SPARC_PSR_EF_MASK), %l1
        or      %l0, %l1, %l0
        mov     %l0, %psr                  ! **** ENABLE FLOAT ACCESS ****

        ld      [%i0], %l0
        std     %f0, [%l0 + FO_F1_OFFSET]
        std     %f2, [%l0 + F2_F3_OFFSET]
        std     %f4, [%l0 + F4_F5_OFFSET]
        std     %f6, [%l0 + F6_F7_OFFSET]
        std     %f8, [%l0 + F8_F9_OFFSET]
        std     %f10, [%l0 + F1O_F11_OFFSET]
        std     %f12, [%l0 + F12_F13_OFFSET]
        std     %f14, [%l0 + F14_F15_OFFSET]
        std     %f16, [%l0 + F16_F17_OFFSET]
        std     %f18, [%l0 + F18_F19_OFFSET]
        std     %f20, [%l0 + F2O_F21_OFFSET]
        std     %f22, [%l0 + F22_F23_OFFSET]
        std     %f24, [%l0 + F24_F25_OFFSET]
        std     %f26, [%l0 + F26_F27_OFFSET]
        std     %f28, [%l0 + F28_F29_OFFSET]
        std     %f30, [%l0 + F3O_F31_OFFSET]
        st      %fsr, [%l0 + FSR_OFFSET]
        ret
        restore

/*
 *  void _CPU_Context_restore_fp(
 *    void **fp_context_ptr
 *  )
 *
 *  This routine is responsible for restoring the FP context
 *  at *fp_context_ptr.  If the point to load the FP context
 *  from is changed then the pointer is modified by this routine.
 *
 *  NOTE: See the README in this directory for information on the 
 *        management of the "EF" bit in the PSR.
 */

        .align 4
        PUBLIC(_CPU_Context_restore_fp)
SYM(_CPU_Context_restore_fp):
        save    %sp, -CPU_MINIMUM_STACK_FRAME_SIZE , %sp

        /*
         *  The following enables the floating point unit.
         */
   
        mov     %psr, %l0
        sethi   %hi(SPARC_PSR_EF_MASK), %l1
        or      %l1, %lo(SPARC_PSR_EF_MASK), %l1
        or      %l0, %l1, %l0
        mov     %l0, %psr                  ! **** ENABLE FLOAT ACCESS ****

        ld      [%i0], %l0
        ldd     [%l0 + FO_F1_OFFSET], %f0
        ldd     [%l0 + F2_F3_OFFSET], %f2
        ldd     [%l0 + F4_F5_OFFSET], %f4
        ldd     [%l0 + F6_F7_OFFSET], %f6
        ldd     [%l0 + F8_F9_OFFSET], %f8
        ldd     [%l0 + F1O_F11_OFFSET], %f10
        ldd     [%l0 + F12_F13_OFFSET], %f12
        ldd     [%l0 + F14_F15_OFFSET], %f14
        ldd     [%l0 + F16_F17_OFFSET], %f16
        ldd     [%l0 + F18_F19_OFFSET], %f18
        ldd     [%l0 + F2O_F21_OFFSET], %f20
        ldd     [%l0 + F22_F23_OFFSET], %f22
        ldd     [%l0 + F24_F25_OFFSET], %f24
        ldd     [%l0 + F26_F27_OFFSET], %f26
        ldd     [%l0 + F28_F29_OFFSET], %f28
        ldd     [%l0 + F3O_F31_OFFSET], %f30
        ld      [%l0 + FSR_OFFSET], %fsr
        ret
        restore

#endif /* SPARC_HAS_FPU */

/*
 *  void _CPU_Context_switch(
 *    Context_Control  *run,
 *    Context_Control  *heir
 *  )
 *
 *  This routine performs a normal non-FP context switch.
 */

        .align 4
        PUBLIC(_CPU_Context_switch)
SYM(_CPU_Context_switch):
        ! skip g0
        st      %g1, [%o0 + G1_OFFSET]       ! save the global registers
        std     %g2, [%o0 + G2_OFFSET]
        std     %g4, [%o0 + G4_OFFSET]
        std     %g6, [%o0 + G6_OFFSET]

        std     %l0, [%o0 + L0_OFFSET]       ! save the local registers
        std     %l2, [%o0 + L2_OFFSET]
        std     %l4, [%o0 + L4_OFFSET]
        std     %l6, [%o0 + L6_OFFSET]

        std     %i0, [%o0 + I0_OFFSET]       ! save the input registers
        std     %i2, [%o0 + I2_OFFSET]
        std     %i4, [%o0 + I4_OFFSET]
        std     %i6, [%o0 + I6_FP_OFFSET]

        std     %o0, [%o0 + O0_OFFSET]       ! save the output registers
        std     %o2, [%o0 + O2_OFFSET]
        std     %o4, [%o0 + O4_OFFSET]
        std     %o6, [%o0 + O6_SP_OFFSET]

        rd      %psr, %o2
        st      %o2, [%o0 + PSR_OFFSET]      ! save status register

        /*
         *  This is entered from _CPU_Context_restore with:
         *    o1 = context to restore
         *    o2 = psr
         */

        PUBLIC(_CPU_Context_restore_heir)
SYM(_CPU_Context_restore_heir):
        /*
         *  Flush all windows with valid contents except the current one.
         *  In examining the set register windows, one may logically divide
         *  the windows into sets (some of which may be empty) based on their
         *  current status:  
         *
         *    + current (i.e. in use), 
         *    + used (i.e. a restore would not trap)
         *    + invalid (i.e. 1 in corresponding bit in WIM)
         *    + unused
         *
         *  Either the used or unused set of windows may be empty.
         *
         *  NOTE: We assume only one bit is set in the WIM at a time.
         *
         *  Given a CWP of 5 and a WIM of 0x1, the registers are divided
         *  into sets as follows:
         *
         *    + 0   - invalid
         *    + 1-4 - unused
         *    + 5   - current
         *    + 6-7 - used
         *
         *  In this case, we only would save the used windows -- 6 and 7.
         *
         *   Traps are disabled for the same logical period as in a 
         *     flush all windows trap handler.
         *   
         *    Register Usage while saving the windows:
         *      g1 = current PSR
         *      g2 = current wim
         *      g3 = CWP
         *      g4 = wim scratch
         *      g5 = scratch
         */

        ld      [%o1 + PSR_OFFSET], %g1       ! g1 = saved psr

        and     %o2, SPARC_PSR_CWP_MASK, %g3  ! g3 = CWP
                                              ! g1 = psr w/o cwp
        andn    %g1, SPARC_PSR_ET_MASK | SPARC_PSR_CWP_MASK, %g1
        or      %g1, %g3, %g1                 ! g1 = heirs psr
        mov     %g1, %psr                     ! restore status register and
                                              ! **** DISABLE TRAPS ****
        mov     %wim, %g2                     ! g2 = wim
        mov     1, %g4
        sll     %g4, %g3, %g4                 ! g4 = WIM mask for CW invalid

save_frame_loop:
        sll     %g4, 1, %g5                   ! rotate the "wim" left 1
        srl     %g4, SPARC_NUMBER_OF_REGISTER_WINDOWS - 1, %g4
        or      %g4, %g5, %g4                 ! g4 = wim if we do one restore

        /*
         *  If a restore would not underflow, then continue.
         */

        andcc   %g4, %g2, %g0                 ! Any windows to flush?
        bnz     done_flushing                 ! No, then continue
        nop

        restore                               ! back one window 

        /*
         *  Now save the window just as if we overflowed to it.
         */
 
        std     %l0, [%sp + CPU_STACK_FRAME_L0_OFFSET]
        std     %l2, [%sp + CPU_STACK_FRAME_L2_OFFSET]
        std     %l4, [%sp + CPU_STACK_FRAME_L4_OFFSET]
        std     %l6, [%sp + CPU_STACK_FRAME_L6_OFFSET]
 
        std     %i0, [%sp + CPU_STACK_FRAME_I0_OFFSET]
        std     %i2, [%sp + CPU_STACK_FRAME_I2_OFFSET]
        std     %i4, [%sp + CPU_STACK_FRAME_I4_OFFSET]
        std     %i6, [%sp + CPU_STACK_FRAME_I6_FP_OFFSET]

        ba      save_frame_loop
        nop

done_flushing:

        add     %g3, 1, %g3                   ! calculate desired WIM
        and     %g3, SPARC_NUMBER_OF_REGISTER_WINDOWS - 1, %g3
        mov     1, %g4
        sll     %g4, %g3, %g4                 ! g4 = new WIM 
        mov     %g4, %wim

        or      %g1, SPARC_PSR_ET_MASK, %g1
        mov     %g1, %psr                     ! **** ENABLE TRAPS ****
                                              !   and restore CWP
        nop
        nop
        nop

        ! skip g0
        ld      [%o1 + G1_OFFSET], %g1        ! restore the global registers
        ldd     [%o1 + G2_OFFSET], %g2
        ldd     [%o1 + G4_OFFSET], %g4
        ldd     [%o1 + G6_OFFSET], %g6

        ldd     [%o1 + L0_OFFSET], %l0        ! restore the local registers
        ldd     [%o1 + L2_OFFSET], %l2
        ldd     [%o1 + L4_OFFSET], %l4
        ldd     [%o1 + L6_OFFSET], %l6

        ldd     [%o1 + I0_OFFSET], %i0        ! restore the output registers
        ldd     [%o1 + I2_OFFSET], %i2
        ldd     [%o1 + I4_OFFSET], %i4
        ldd     [%o1 + I6_FP_OFFSET], %i6

        ldd     [%o1 + O2_OFFSET], %o2        ! restore the output registers
        ldd     [%o1 + O4_OFFSET], %o4
        ldd     [%o1 + O6_SP_OFFSET], %o6
        ! do o0/o1 last to avoid destroying heir context pointer
        ldd     [%o1 + O0_OFFSET], %o0        ! overwrite heir pointer

        jmp     %o7 + 8                       ! return
        nop                                   ! delay slot

/*
 *  void _CPU_Context_restore(
 *    Context_Control *new_context
 *  )
 *
 *  This routine is generally used only to perform restart self.
 *
 *  NOTE: It is unnecessary to reload some registers.
 */

        .align 4
        PUBLIC(_CPU_Context_restore)
SYM(_CPU_Context_restore):
        save    %sp, -CPU_MINIMUM_STACK_FRAME_SIZE, %sp
        rd      %psr, %o2
        ba      SYM(_CPU_Context_restore_heir)
        mov     %i0, %o1                      ! in the delay slot

/*
 *  void _ISR_Handler()
 *
 *  This routine provides the RTEMS interrupt management.
 *
 *  We enter this handler from the 4 instructions in the trap table with
 *  the following registers assumed to be set as shown:
 *
 *    l0 = PSR
 *    l1 = PC
 *    l2 = nPC
 *    l3 = trap type
 *
 *  NOTE: By an executive defined convention, trap type is between 0 and 255 if
 *        it is an asynchonous trap and 256 and 511 if it is synchronous.
 */

        .align 4
        PUBLIC(_ISR_Handler)
SYM(_ISR_Handler):
        /*
         *  Fix the return address for synchronous traps.
         */

        andcc   %l3, SPARC_SYNCHRONOUS_TRAP_BIT_MASK, %g0
                                      ! Is this a synchronous trap?
        be,a    win_ovflow            ! No, then skip the adjustment
        nop                           ! DELAY
        mov     %l1, %l6              ! save trapped pc for debug info
        mov     %l2, %l1              ! do not return to the instruction
        add     %l2, 4, %l2           ! indicated

win_ovflow:
        /*
         *  Save the globals this block uses.
         *
         *  These registers are not restored from the locals.  Their contents
         *  are saved directly from the locals into the ISF below.
         */

        mov     %g4, %l4                 ! save the globals this block uses
        mov     %g5, %l5

        /*
         *  When at a "window overflow" trap, (wim == (1 << cwp)).
         *  If we get here like that, then process a window overflow.
         */

        rd      %wim, %g4
        srl     %g4, %l0, %g5            ! g5 = win >> cwp ; shift count and CWP
                                         !   are LS 5 bits ; how convenient :)
        cmp     %g5, 1                   ! Is this an invalid window?
        bne     dont_do_the_window       ! No, then skip all this stuff
        ! we are using the delay slot

        /*
         *  The following is same as a 1 position right rotate of WIM
         */

        srl     %g4, 1, %g5              ! g5 = WIM >> 1
        sll     %g4, SPARC_NUMBER_OF_REGISTER_WINDOWS-1 , %g4
                                         ! g4 = WIM << (Number Windows - 1)
        or      %g4, %g5, %g4            ! g4 = (WIM >> 1) |
                                         !      (WIM << (Number Windows - 1))

        /*
         *  At this point:
         *
         *    g4 = the new WIM
         *    g5 is free
         */

        /*
         *  Since we are tinkering with the register windows, we need to
         *  make sure that all the required information is in global registers.
         */

        save                          ! Save into the window
        wr      %g4, 0, %wim          ! WIM = new WIM
        nop                           ! delay slots
        nop
        nop

        /*
         *  Now save the window just as if we overflowed to it.
         */

        std     %l0, [%sp + CPU_STACK_FRAME_L0_OFFSET]
        std     %l2, [%sp + CPU_STACK_FRAME_L2_OFFSET]
        std     %l4, [%sp + CPU_STACK_FRAME_L4_OFFSET]
        std     %l6, [%sp + CPU_STACK_FRAME_L6_OFFSET]

        std     %i0, [%sp + CPU_STACK_FRAME_I0_OFFSET]
        std     %i2, [%sp + CPU_STACK_FRAME_I2_OFFSET]
        std     %i4, [%sp + CPU_STACK_FRAME_I4_OFFSET]
        std     %i6, [%sp + CPU_STACK_FRAME_I6_FP_OFFSET]

        restore
        nop

dont_do_the_window:
        /*
         *  Global registers %g4 and %g5 are saved directly from %l4 and
         *  %l5 directly into the ISF below.
         */

save_isf:

        /*
         *  Save the state of the interrupted task -- especially the global
         *  registers -- in the Interrupt Stack Frame.  Note that the ISF
         *  includes a regular minimum stack frame which will be used if
         *  needed by register window overflow and underflow handlers.
         *
         *  REGISTERS SAME AS AT _ISR_Handler
         */

        sub     %fp, CONTEXT_CONTROL_INTERRUPT_FRAME_SIZE, %sp
                                               ! make space for ISF

        std     %l0, [%sp + ISF_PSR_OFFSET]    ! save psr, PC
        st      %l2, [%sp + ISF_NPC_OFFSET]    ! save nPC
        st      %g1, [%sp + ISF_G1_OFFSET]     ! save g1
        std     %g2, [%sp + ISF_G2_OFFSET]     ! save g2, g3
        std     %l4, [%sp + ISF_G4_OFFSET]     ! save g4, g5 -- see above
        std     %g6, [%sp + ISF_G6_OFFSET]     ! save g6, g7

        std     %i0, [%sp + ISF_I0_OFFSET]     ! save i0, i1
        std     %i2, [%sp + ISF_I2_OFFSET]     ! save i2, i3
        std     %i4, [%sp + ISF_I4_OFFSET]     ! save i4, i5
        std     %i6, [%sp + ISF_I6_FP_OFFSET]  ! save i6/fp, i7

        rd      %y, %g1
        st      %g1, [%sp + ISF_Y_OFFSET]      ! save y
        st      %l6, [%sp + ISF_TPC_OFFSET]    ! save real trapped pc

        mov     %sp, %o1                       ! 2nd arg to ISR Handler

        /*
         *  Increment ISR nest level and Thread dispatch disable level.
         *
         *  Register usage for this section:
         *
         *    l4 = _Thread_Dispatch_disable_level pointer
         *    l5 = _ISR_Nest_level pointer
         *    l6 = _Thread_Dispatch_disable_level value
         *    l7 = _ISR_Nest_level value
         *
         *  NOTE: It is assumed that l4 - l7 will be preserved until the ISR
         *        nest and thread dispatch disable levels are unnested.
         */

        sethi    %hi(SYM(_Thread_Dispatch_disable_level)), %l4
        ld       [%l4 + %lo(SYM(_Thread_Dispatch_disable_level))], %l6
        sethi    %hi(SYM(_ISR_Nest_level)), %l5
        ld       [%l5 + %lo(SYM(_ISR_Nest_level))], %l7

        add      %l6, 1, %l6
        st       %l6, [%l4 + %lo(SYM(_Thread_Dispatch_disable_level))]

        add      %l7, 1, %l7
        st       %l7, [%l5 + %lo(SYM(_ISR_Nest_level))]

        /*
         *  If ISR nest level was zero (now 1), then switch stack.
         */

        mov      %sp, %fp
        subcc    %l7, 1, %l7             ! outermost interrupt handler?
        bnz      dont_switch_stacks      ! No, then do not switch stacks

        sethi    %hi(SYM(_CPU_Interrupt_stack_high)), %g4
        ld       [%g4 + %lo(SYM(_CPU_Interrupt_stack_high))], %sp

dont_switch_stacks:
        /*
         *  Make sure we have a place on the stack for the window overflow
         *  trap handler to write into.  At this point it is safe to
         *  enable traps again.
         */

        sub      %sp, CPU_MINIMUM_STACK_FRAME_SIZE, %sp

        /*
         *  Check if we have an external interrupt (trap 0x11 - 0x1f). If so,
         *  set the PIL in the %psr to mask off interrupts with lower priority.
         *  The original %psr in %l0 is not modified since it will be restored
         *  when the interrupt handler returns.
         */

        mov      %l0, %g5
        subcc    %l3, 0x11, %g0
        bl       dont_fix_pil
        subcc    %l3, 0x1f, %g0
        bg       dont_fix_pil
        sll      %l3, 8, %g4
        and      %g4, SPARC_PSR_PIL_MASK, %g4
        andn     %l0, SPARC_PSR_PIL_MASK, %g5
        or       %g4, %g5, %g5
dont_fix_pil:
        wr       %g5, SPARC_PSR_ET_MASK, %psr ! **** ENABLE TRAPS ****

        /*
         *  Vector to user's handler.
         *
         *  NOTE: TBR may no longer have vector number in it since
         *        we just enabled traps.  It is definitely in l3.
         */

        sethi    %hi(SYM(_ISR_Vector_table)), %g4
        or       %g4, %lo(SYM(_ISR_Vector_table)), %g4
        and      %l3, 0xFF, %g5         ! remove synchronous trap indicator
        sll      %g5, 2, %g5            ! g5 = offset into table
        ld       [%g4 + %g5], %g4       ! g4 = _ISR_Vector_table[ vector ]


                                        ! o1 = 2nd arg = address of the ISF
                                        !   WAS LOADED WHEN ISF WAS SAVED!!!
        mov      %l3, %o0               ! o0 = 1st arg = vector number
        call     %g4, 0
        nop                             ! delay slot

        /*
         *  Redisable traps so we can finish up the interrupt processing.
         *  This is a VERY conservative place to do this.
         *
         *  NOTE: %l0 has the PSR which was in place when we took the trap.
         */

        mov      %l0, %psr             ! **** DISABLE TRAPS ****

        /*
         *  Decrement ISR nest level and Thread dispatch disable level.
         *
         *  Register usage for this section:
         *
         *    l4 = _Thread_Dispatch_disable_level pointer
         *    l5 = _ISR_Nest_level pointer
         *    l6 = _Thread_Dispatch_disable_level value
         *    l7 = _ISR_Nest_level value
         */

        sub      %l6, 1, %l6
        st       %l6, [%l4 + %lo(SYM(_Thread_Dispatch_disable_level))]

        st       %l7, [%l5 + %lo(SYM(_ISR_Nest_level))]

        /*
         *  If dispatching is disabled (includes nested interrupt case),
         *  then do a "simple" exit.
         */

        orcc     %l6, %g0, %g0   ! Is dispatching disabled?
        bnz      simple_return   ! Yes, then do a "simple" exit
        nop                      ! delay slot

        /*
         *  If a context switch is necessary, then do fudge stack to
         *  return to the interrupt dispatcher.
         */

        sethi    %hi(SYM(_Context_Switch_necessary)), %l4
        ld       [%l4 + %lo(SYM(_Context_Switch_necessary))], %l5

        orcc     %l5, %g0, %g0   ! Is thread switch necessary?
        bnz      SYM(_ISR_Dispatch) ! yes, then invoke the dispatcher
        nop                      ! delay slot

        /*
         *  Finally, check to see if signals were sent to the currently
         *  executing task.  If so, we need to invoke the interrupt dispatcher.
         */

        sethi    %hi(SYM(_ISR_Signals_to_thread_executing)), %l6
        ld       [%l6 + %lo(SYM(_ISR_Signals_to_thread_executing))], %l7

        orcc     %l7, %g0, %g0   ! Were signals sent to the currently
                                 !   executing thread?
        bz       simple_return   ! yes, then invoke the dispatcher
                                 ! use the delay slot to clear the signals
                                 !   to the currently executing task flag
        st       %g0, [%l6 + %lo(SYM(_ISR_Signals_to_thread_executing))]
                                 

        /*
         *  Invoke interrupt dispatcher.
         */

        PUBLIC(_ISR_Dispatch)
SYM(_ISR_Dispatch):

        /*
         *  The following subtract should get us back on the interrupted
         *  tasks stack and add enough room to invoke the dispatcher.
         *  When we enable traps, we are mostly back in the context
         *  of the task and subsequent interrupts can operate normally.
         */

        sub      %fp, CPU_MINIMUM_STACK_FRAME_SIZE, %sp

        or      %l0, SPARC_PSR_ET_MASK, %l7    ! l7 = PSR with ET=1 
        mov     %l7, %psr                      !  **** ENABLE TRAPS ****
        nop
        nop
        nop

        call    SYM(_Thread_Dispatch), 0
        nop

        /*
         *  The CWP in place at this point may be different from
         *  that which was in effect at the beginning of the ISR if we
         *  have been context switched between the beginning of this invocation
         *  of _ISR_Handler and this point.  Thus the CWP and WIM should
         *  not be changed back to their values at ISR entry time.  Any
         *  changes to the PSR must preserve the CWP.
         */

simple_return:
        ld      [%fp + ISF_Y_OFFSET], %l5      ! restore y
        wr      %l5, 0, %y

        ldd     [%fp + ISF_PSR_OFFSET], %l0    ! restore psr, PC
        ld      [%fp + ISF_NPC_OFFSET], %l2    ! restore nPC
        rd      %psr, %l3
        and     %l3, SPARC_PSR_CWP_MASK, %l3   ! want "current" CWP
        andn    %l0, SPARC_PSR_CWP_MASK, %l0   ! want rest from task
        or      %l3, %l0, %l0                  ! install it later...
        andn    %l0, SPARC_PSR_ET_MASK, %l0 

        /*
         *  Restore tasks global and out registers
         */

        mov    %fp, %g1

                                              ! g1 is restored later
        ldd     [%fp + ISF_G2_OFFSET], %g2    ! restore g2, g3
        ldd     [%fp + ISF_G4_OFFSET], %g4    ! restore g4, g5
        ldd     [%fp + ISF_G6_OFFSET], %g6    ! restore g6, g7

        ldd     [%fp + ISF_I0_OFFSET], %i0    ! restore i0, i1
        ldd     [%fp + ISF_I2_OFFSET], %i2    ! restore i2, i3
        ldd     [%fp + ISF_I4_OFFSET], %i4    ! restore i4, i5
        ldd     [%fp + ISF_I6_FP_OFFSET], %i6 ! restore i6/fp, i7

        /*
         *  Registers:
         *
         *   ALL global registers EXCEPT G1 and the input registers have
         *   already been restored and thuse off limits.
         *
         *   The following is the contents of the local registers:
         *
         *     l0 = original psr
         *     l1 = return address (i.e. PC)
         *     l2 = nPC
         *     l3 = CWP
         */

        /*
         *  if (CWP + 1) is an invalid window then we need to reload it.
         *
         *  WARNING: Traps should now be disabled
         */

        mov     %l0, %psr                  !  **** DISABLE TRAPS ****
        nop
        nop
        nop
        rd      %wim, %l4
        add     %l0, 1, %l6                ! l6 = cwp + 1
        and     %l6, SPARC_PSR_CWP_MASK, %l6 ! do the modulo on it
        srl     %l4, %l6, %l5              ! l5 = win >> cwp + 1 ; shift count
                                           !  and CWP are conveniently LS 5 bits
        cmp     %l5, 1                     ! Is tasks window invalid?
        bne     good_task_window

        /*
         *  The following code is the same as a 1 position left rotate of WIM.
         */

        sll     %l4, 1, %l5                ! l5 = WIM << 1
        srl     %l4, SPARC_NUMBER_OF_REGISTER_WINDOWS-1 , %l4
                                           ! l4 = WIM >> (Number Windows - 1)
        or      %l4, %l5, %l4              ! l4 = (WIM << 1) |
                                           !      (WIM >> (Number Windows - 1))

        /*
         *  Now restore the window just as if we underflowed to it.
         */

        wr      %l4, 0, %wim               ! WIM = new WIM
        nop                                ! must delay after writing WIM
        nop
        nop
        restore                            ! now into the tasks window

        ldd     [%g1 + CPU_STACK_FRAME_L0_OFFSET], %l0
        ldd     [%g1 + CPU_STACK_FRAME_L2_OFFSET], %l2
        ldd     [%g1 + CPU_STACK_FRAME_L4_OFFSET], %l4
        ldd     [%g1 + CPU_STACK_FRAME_L6_OFFSET], %l6
        ldd     [%g1 + CPU_STACK_FRAME_I0_OFFSET], %i0
        ldd     [%g1 + CPU_STACK_FRAME_I2_OFFSET], %i2
        ldd     [%g1 + CPU_STACK_FRAME_I4_OFFSET], %i4
        ldd     [%g1 + CPU_STACK_FRAME_I6_FP_OFFSET], %i6
                                           ! reload of sp clobbers ISF
        save                               ! Back to ISR dispatch window

good_task_window:

        mov     %l0, %psr                  !  **** DISABLE TRAPS ****
                                           !  and restore condition codes.
        ld      [%g1 + ISF_G1_OFFSET], %g1 ! restore g1
        jmp     %l1                        ! transfer control and
        rett    %l2                        ! go back to tasks window

/* end of file */