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/*

 * Copyright (c) 1995, 1996, 1998 Cygnus Support

 *

 * The authors hereby grant permission to use, copy, modify, distribute,

 * and license this software and its documentation for any purpose, provided

 * that existing copyright notices are retained in all copies and that this

 * notice is included verbatim in any distributions. No written agreement,

 * license, or royalty fee is required for any of the authorized uses.

 * Modifications to this software may be copyrighted by their authors

 * and need not follow the licensing terms described here, provided that

 * the new terms are clearly indicated on the first page of each file where

 * they apply.

 */

#include "asm.h"

#include "slite.h"

        .text

        .align 4

/*

 *  The trap table has to be the first code in a boot PROM.  But because

 *  the Memory Configuration comes up thinking we only have 4K of PROM, we

 *  cannot have a full trap table and still have room left over to

 *  reprogram the Memory Configuration register correctly.  This file

 *  uses an abbreviated trap which has every entry which might be used

 *  before RTEMS installs its own trap table.

 */

        .globl  _trap_table

_trap_table:

  TRAP(SYM(ercinit));                           ! 00 reset trap

  BAD_TRAP;                                     ! 01 instruction access exception

  TRAP(SYM(no_fpu));                            ! 02 illegal instruction

  BAD_TRAP;                                     ! 03 privileged instruction

  BAD_TRAP;                                     ! 04 fp disabled

  TRAP(SYM(win_overflow));                      ! 05 window overflow

  TRAP(SYM(win_underflow));                     ! 06 window underflow

  BAD_TRAP;                                     ! 07 memory address not aligned

  BAD_TRAP;                                     ! 08 fp exception

  BAD_TRAP;                                     ! 09 data access exception

  BAD_TRAP;                                     ! 0A tag overflow

  /* Trap levels from 0B to 0x10 are not defined (used for MEC init) */

SYM(ercinit):

  sethi         %hi(_ERC32_MEC), %g1            ! 0B

  sethi         %hi(0x001C1000), %g2

  or            %g1,%lo(0x001C1000),%g1

  st            %g2, [%g1 + 0x10]

  st            %g0, [%g1 + 0x18]                       ! 0C

  nop

  nop

  nop

  TRAP(SYM(hard_reset));                        ! 0D undefined

  BAD_TRAP;                                     ! 0E undefined

  BAD_TRAP;                                     ! 0F undefined

  BAD_TRAP;                                     ! 10 undefined

  /*

   *  ERC32 defined traps

   */

  BAD_TRAP;                                     ! 11 masked errors

  BAD_TRAP;                                     ! 12 external 1

  BAD_TRAP;                                     ! 13 external 2

  BAD_TRAP;                                     ! 14 UART A RX/TX

  BAD_TRAP;                                     ! 15 UART B RX/TX

  BAD_TRAP;                                     ! 16 correctable memory error

  BAD_TRAP;                                     ! 17 UART error

  BAD_TRAP;                                     ! 18 DMA access error

  BAD_TRAP;                                     ! 19 DMA timeout

  BAD_TRAP;                                     ! 1A external 3

  BAD_TRAP;                                     ! 1B external 4

  BAD_TRAP;                                     ! 1C general purpose timer

  BAD_TRAP;                                     ! 1D real time clock

  BAD_TRAP;                                     ! 1E external 5

  BAD_TRAP;                                     ! 1F watchdog timeout

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 20 - 23 undefined

  BAD_TRAP;                                     ! 24 cp_disabled

            BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 25 - 27 undefined

  BAD_TRAP;                                     ! 28 cp_exception

            BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 29 - 2B undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 2C - 2F undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 30 - 33 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 34 - 37 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 38 - 3B undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 3C - 3F undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 40 - 43 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 44 - 47 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 48 - 4B undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 4C - 4F undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 50 - 53 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 54 - 57 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 58 - 5B undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 5C - 5F undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 60 - 63 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 64 - 67 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 68 - 6B undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 6C - 6F undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 70 - 73 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 74 - 77 undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 78 - 7B undefined

  BAD_TRAP; BAD_TRAP; BAD_TRAP; BAD_TRAP;       ! 7C - 7F undefined

  /*

   *  Software traps

   *

   *  NOTE: At the risk of being redundant... this is not a full

   *        table.  The setjmp on the SPARC requires a window flush trap

   *        handler and RTEMS will preserve the entries that were

   *        installed before.

   */

  SOFT_TRAP;                                    ! 80

#if 0

  SOFT_TRAP;                                    ! 81

#else

  TRAP(SYM(trap_low))                           ! 81

#endif

  SOFT_TRAP;                                    ! 82

  TRAP(SYM(win_flush));                         ! 83 flush windows SW trap

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 84 - 87

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 88 - 8B

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 8C - 8F

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 90 - 93

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 94 - 97

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 98 - 9B

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! 9C - 9F

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! A0 - A3

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! A4 - A7

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! A8 - AB

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! AC - AF

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! B0 - B3

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! B4 - B7

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! B8 - BB

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! BC - BF

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! C0 - C3

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! C4 - C7

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! C8 - CB

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! CC - CF

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! D0 - D3

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! D4 - D7

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! D8 - DB

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! DC - DF

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! E0 - E3

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! E4 - E7

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! E8 - EB

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! EC - EF

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! F0 - F3

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! F4 - F7

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! F8 - FB

  SOFT_TRAP; SOFT_TRAP; SOFT_TRAP; SOFT_TRAP;   ! FC - FF

/*

 * Startup code for standalone system. Wash IU and FPU (if present)

 * registers. The registers have to be written to initiate the parity

 * bits.

 */

        .globl  SYM(hard_reset)

SYM(hard_reset):

        sethi   %hi(0x01FE0),%o0

        or      %o0,%lo(0x01FE0),%o0

        mov     %o0, %psr               ! Set valid PSR

        nop

        mov     %g0, %wim               ! Set window invalid mask register

        mov     %g0, %y                 ! Init Y-register

        nop

        sethi   %hi(SYM(hard_reset)), %g1

        mov     %g1, %tbr               ! Set TBR

        sethi   %hi(SP_INIT),%sp

        or      %g0, 1, %o0

        ld      [%g0], %f0              ! Check if FPU is present

        tst     %o0

        bz      fixiu

        nop

        ba      fixfpu

! FPU disabled trap address

        clr     %i0

        jmpl    %l2, %g0

        rett    %l2 + 4

        nop

! Wash register files (fix for 90C601E & 90C602E)

fixfpu:

        ld      [%g0], %f0

        ld      [%g0], %f1

        ld      [%g0], %f2

        ld      [%g0], %f3

        ld      [%g0], %f4

        ld      [%g0], %f5

        ld      [%g0], %f6

        ld      [%g0], %f7

        ld      [%g0], %f8

        ld      [%g0], %f9

        ld      [%g0], %f10

        ld      [%g0], %f11

        ld      [%g0], %f12

        ld      [%g0], %f13

        ld      [%g0], %f14

        ld      [%g0], %f15

        ld      [%g0], %f16

        ld      [%g0], %f17

        ld      [%g0], %f18

        ld      [%g0], %f19

        ld      [%g0], %f20

        ld      [%g0], %f21

        ld      [%g0], %f22

        ld      [%g0], %f23

        ld      [%g0], %f24

        ld      [%g0], %f25

        ld      [%g0], %f26

        ld      [%g0], %f27

        ld      [%g0], %f28

        ld      [%g0], %f29

        ld      [%g0], %f30

        ld      [%g0], %f31

fixiu:

        clr     %g1

        clr     %g2

        clr     %g3

        clr     %g4

        clr     %g5

        clr     %g6

        clr     %g7

        set     8,%g1

wl0:

        clr     %i0

        clr     %i1

        clr     %i2

        clr     %i3

        clr     %i4

        clr     %i5

        clr     %i6

        clr     %i7

        clr     %l0

        clr     %l1

        clr     %l2

        clr     %l3

        clr     %l4

        clr     %l5

        clr     %l6

        clr     %l7

        save

        subcc   %g1, 1, %g1

        bne     wl0

        nop

!

! Start the real-time clock with a tick of 150 clocks

!

rtc:

        set     0x1f80000, %l0          ! MEC register base

        set     149, %l1

        st      %l1, [%l0 + 0x84]       ! RTC scaler = 149

        set     0x0d00, %l1

        st      %l1, [%l0 + 0x98]       ! Start RTC

        st      %g0, [%l0 + 0x64]       ! Disable watchdog for now

        ld      [%l0], %g1

        or      %g1, 1, %g1

        st      %g1, [%l0]              ! Enable power-down mode

_init:

        set     PSR_INIT, %g1           ! Initialize psr

        mov     %g1, %psr

        set     WIM_INIT, %g1           ! Initialize WIM

        mov     %g1, %wim

        set     _trap_table, %g1        ! Initialize TBR

        mov     %g1, %tbr

        nop;nop;nop

        set     PSR_INIT, %g1

        wr      %g1, 0x20, %psr         ! enable traps

        nop; nop; nop;

        call    SYM(start)

        nop

/*

 * Register window overflow handler.  Come here when save would move us

 * into the invalid window.  This routine runs with traps disabled, and

 * must be careful not to touch the condition codes, as PSR is never

 * restored.

 *

 * We are called with %l0 = wim, %l1 = pc, %l2 = npc

 */

        .globl SYM(win_overflow)

SYM(win_overflow):

        mov     %g1, %l3                ! Save g1, we use it to hold the wim

        srl     %l0, 1, %g1             ! Rotate wim right

        sll     %l0, NUMBER_OF_REGISTER_WINDOWS - 1, %l0

        or      %l0, %g1, %g1

        save    %g0, %g0, %g0           ! Slip into next window

        mov     %g1, %wim               ! Install the new wim

        nop

        nop

        nop

        std     %l0, [%sp + 0 * 4]      ! save L & I registers

        std     %l2, [%sp + 2 * 4]

        std     %l4, [%sp + 4 * 4]

        std     %l6, [%sp + 6 * 4]

        std     %i0, [%sp + 8 * 4]

        std     %i2, [%sp + 10 * 4]

        std     %i4, [%sp + 12 * 4]

        std     %i6, [%sp + 14 * 4]

        restore                         ! Go back to trap window.

        mov     %l3, %g1                ! Restore %g1

        jmpl    %l1, %g0

        rett    %l2

/*

 * Register window underflow handler.  Come here when restore would move us

 * into the invalid window.  This routine runs with traps disabled, and

 * must be careful not to touch the condition codes, as PSR is never

 * restored.

 *

 * We are called with %l0 = wim, %l1 = pc, %l2 = npc

 */

        .globl SYM(win_underflow)

SYM(win_underflow):

        sll     %l0, 1, %l3             ! Rotate wim left

        srl     %l0, NUMBER_OF_REGISTER_WINDOWS - 1, %l0

        or      %l0, %l3, %l0

        mov     %l0, %wim               ! Install the new wim

        restore                         ! Users window

        restore                         ! His callers window

        ldd     [%sp + 0 * 4], %l0      ! restore L & I registers

        ldd     [%sp + 2 * 4], %l2

        ldd     [%sp + 4 * 4], %l4

        ldd     [%sp + 6 * 4], %l6

        ldd     [%sp + 8 * 4], %i0

        ldd     [%sp + 10 * 4], %i2

        ldd     [%sp + 12 * 4], %i4

        ldd     [%sp + 14 * 4], %i6

        save    %g0, %g0, %g0           ! Back to trap window

        save    %g0, %g0, %g0

        jmpl    %l1, %g0

        rett    %l2

/*

 * Register window flush handler, triggered by a "ta 3" instruction.

 * We are called with %l0 = wim, %l1 = pc, %l2 = npc

 */

        .globl  SYM(win_flush)

SYM(win_flush):

        mov     %psr, %l0

        or      %l0,0xf00,%l3           ! Disable interrupts

        mov     %l3,%psr

        nop

        nop

        nop

        mov     %wim, %l3

        srl     %l3, %l0, %l4           ! wim >> cwp

        cmp     %l4, 1

        bne     flush_window_fine       ! Branch if not in the invalid window

        nop

/* Handle window overflow. We can't trap here. */

        mov     %g1, %l4                ! Save g1, we use it to hold the wim

        srl     %l3, 1, %g1             ! Rotate wim right

        sll     %l3, NUMBER_OF_REGISTER_WINDOWS - 1, %l3

        or      %l3, %g1, %g1

        mov     %g0, %wim               ! Clear wim so that subsequent save

        nop                             !  wont trap

        nop

        nop

        save    %g0, %g0, %g0           ! Slip into next window

        mov     %g1, %wim               ! Install the new wim

        std     %l0, [%sp + 0 * 4]      ! save L & I registers

        std     %l2, [%sp + 2 * 4]

        std     %l4, [%sp + 4 * 4]

        std     %l6, [%sp + 6 * 4]

        std     %i0, [%sp + 8 * 4]

        std     %i2, [%sp + 10 * 4]

        std     %i4, [%sp + 12 * 4]

        std     %i6, [%sp + 14 * 4]

        restore                         ! Go back to trap window.

        mov     %l4, %g1                ! Restore %g1

flush_window_fine:

        mov     %psr,%l5                ! enable traps

        or      %l5,0x20,%l5

        mov     %l5, %psr

        nop

        nop

        nop

        set     save_buf,%l5

        st      %l2,[%l5]

        ! The stack pointer currently contains a bogus value [when a trap

        ! occurs CWP is decremented and points to an unused window].

        ! Give it something useful before we flush every window.

        ! This does what a "save %sp,-64,$sp" would, except that CWP has

        ! already been decremented.

        add     %fp, -64, %sp

        save %sp, -64, %sp              ! Flush user register window to stack

        save %sp, -64, %sp

        save %sp, -64, %sp

        save %sp, -64, %sp

        save %sp, -64, %sp

        save %sp, -64, %sp

        save %sp, -64, %sp

        save %sp, -64, %sp

        restore

        restore

        restore

        restore

        restore

        restore

        restore

        restore

        restore                         ! Make sure we have a valid window

        save %g0, %g0, %g0

        set     save_buf, %l2           ! Get our return address back

        ld      [%l2],%l2

        mov     %psr,%l5                ! disable traps for rett

        andn    %l5,0x20,%l5

        mov     %l5,%psr

        nop

        nop

        nop

        jmpl    %l2, %g0

        rett    %l2+4

/*

 * Read the TBR.

 */

       .globl SYM(rdtbr)

SYM(rdtbr):

        mov     %tbr, %o0

        nop

        retl

        nop

/*

 * Read the psr

 */

        .globl  SYM(read_psr)

SYM(read_psr):

        mov     %psr, %o0

        nop

        retl

        nop

/*

 * Write the PSR.

 */

        .globl  SYM(write_psr)

SYM(write_psr):

        mov %i0, %psr

        nop

        nop

        nop

        retl

        nop

/*

 * Come here when no fpu exists.  This just skips the offending

 * instruction.

 */

        .globl  SYM(no_fpu)

SYM(no_fpu):

        jmpl %l2, %g0

        rett %l2+4

        .globl SYM(fltr_proto)

        .align 4

SYM(fltr_proto):                    ! First level trap routine prototype

        sethi 0, %l0

        jmpl 0+%l0, %g0

        nop

        nop

/*

 * Trap handler for memory errors.  This just sets mem_err to be

 * non-zero.  It assumes that l1 is non-zero.  This should be safe,

 * as it is doubtful that 0 would ever contain code that could mem

 * fault.  This routine will skip past the faulting instruction after

 * setting mem_err.

 */

        .globl  SYM(fltr_set_mem_err)

SYM(fltr_set_mem_err):

        sethi   %hi(SYM(mem_err)), %l0

        st      %l1, [%l0 + %lo(SYM(mem_err))]

        jmpl    %l2, %g0

        rett    %l2+4

        .data

        .align  4

        .ascii  "DaTa"

        .long   SYM(sdata)

in_trap_handler:

        .word   0

save_buf:

        .word   0        /* place to save %g1 */

        .word   0        /* place to save %g2 */

        .text

        .align 4

/*

 * This function is called when any SPARC trap (except window overflow

 * or underflow) occurs.  It makes sure that the invalid register

 * window is still available before jumping into C code.  It will also

 * restore the world if you return from handle_exception.

 */

        .globl SYM(trap_low)

SYM(trap_low):

        mov     %psr, %l0

        mov     %wim, %l3

        srl     %l3, %l0, %l4           ! wim >> cwp

        cmp     %l4, 1

        bne     window_fine             ! Branch if not in the invalid window

        nop

        mov     %g1, %l4                ! Save g1, we use it to hold the wim

        srl     %l3, 1, %g1             ! Rotate wim right

        sll     %l3, 8-1, %l5

        or      %l5, %g1, %g1

        save    %g0, %g0, %g0           ! Slip into next window

        mov     %g1, %wim               ! Install the new wim

        std     %l0, [%sp + 0 * 4]      ! save L & I registers

        std     %l2, [%sp + 2 * 4]

        std     %l4, [%sp + 4 * 4]

        std     %l6, [%sp + 6 * 4]

        std     %i0, [%sp + 8 * 4]

        std     %i2, [%sp + 10 * 4]

        std     %i4, [%sp + 12 * 4]

        std     %i6, [%sp + 14 * 4]

        restore                         ! Go back to trap window.

        mov     %l4, %g1                ! Restore g1

window_fine:

        sethi   %hi(in_trap_handler), %l4

        ld      [%lo(in_trap_handler) + %l4], %l5

        tst     %l5

        bg      recursive_trap

        inc     %l5

        /* use the stack we set in the linker script */

        sethi   %hi(__trap_stack), %l6

        or      %l6,%lo(__trap_stack),%l6

        mov     %l6, %sp                ! set the stack pointer

recursive_trap:

        st      %l5, [%lo(in_trap_handler) + %l4]

        sub     %sp,(16+1+6+1+72)*4,%sp ! Make room for input & locals

                                        ! + hidden arg + arg spill

                                        ! + doubleword alignment

                                        ! + registers[72] local var

        std     %g0, [%sp + (24 + 0) * 4] ! registers[Gx]

        std     %g2, [%sp + (24 + 2) * 4]

        std     %g4, [%sp + (24 + 4) * 4]

        std     %g6, [%sp + (24 + 6) * 4]

        std     %i0, [%sp + (24 + 8) * 4] ! registers[Ox]

        std     %i2, [%sp + (24 + 10) * 4]

        std     %i4, [%sp + (24 + 12) * 4]

        std     %i6, [%sp + (24 + 14) * 4]

                                         ! F0->F31 not implemented

        mov     %y, %l4

        mov     %tbr, %l5

        st      %l4, [%sp + (24 + 64) * 4] ! Y

        st      %l0, [%sp + (24 + 65) * 4] ! PSR

        st      %l3, [%sp + (24 + 66) * 4] ! WIM

        st      %l5, [%sp + (24 + 67) * 4] ! TBR

        st      %l1, [%sp + (24 + 68) * 4] ! PC

        st      %l2, [%sp + (24 + 69) * 4] ! NPC

                                         ! CPSR and FPSR not implemented

        or      %l0, 0xf20, %l4

        mov     %l4, %psr               ! Turn on traps, disable interrupts

        call    SYM(handle_exception)

        add     %sp, 24 * 4, %o0        ! Pass address of registers

/* Reload all of the registers that aren't on the stack */

        ld      [%sp + (24 + 1) * 4], %g1  ! registers[Gx]

        ldd     [%sp + (24 + 2) * 4], %g2

        ldd     [%sp + (24 + 4) * 4], %g4

        ldd     [%sp + (24 + 6) * 4], %g6

        ldd     [%sp + (24 + 8) * 4], %i0  ! registers[Ox]

        ldd     [%sp + (24 + 10) * 4], %i2

        ldd     [%sp + (24 + 12) * 4], %i4

        ldd     [%sp + (24 + 14) * 4], %i6

        ldd     [%sp + (24 + 64) * 4], %l0 ! Y & PSR

        ldd     [%sp + (24 + 68) * 4], %l2 ! PC & NPC

        restore                         ! Ensure that previous window is valid

        save    %g0, %g0, %g0           !  by causing a window_underflow trap

        mov     %l0, %y

        mov     %l1, %psr               ! Make sure that traps are disabled

                                        ! for rett

        sethi   %hi(in_trap_handler), %l4

        ld      [%lo(in_trap_handler) + %l4], %l5

        dec     %l5

        st      %l5, [%lo(in_trap_handler) + %l4]

        jmpl    %l2, %g0                ! Restore old PC

        rett    %l3                     ! Restore old nPC