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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/netgraph/bpf/@/sparc64/sparc64/support.S |
/*- * Copyright (c) 2001 Jake Burkholder. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <machine/asm.h> __FBSDID("$FreeBSD: release/9.1.0/sys/sparc64/sparc64/support.S 230892 2012-02-01 21:24:03Z marius $"); #include <sys/errno.h> #include <machine/asi.h> #include <machine/asmacros.h> #include <machine/fsr.h> #include <machine/intr_machdep.h> #include <machine/ktr.h> #include <machine/pcb.h> #include <machine/pstate.h> #include <machine/wstate.h> #include "assym.s" .register %g2, #ignore .register %g3, #ignore .register %g6, #ignore /* * Common code for copy routines. * * We use large macros to generate functions for each of the copy routines. * This allows the load and store instructions to be generated for the right * operation, asi or not. It is possible to write an asi independent function * but this would require 2 expensive wrs in the main loop to switch %asi. * It would also screw up profiling (if we ever get it), but may save some I$. * We assume that either one of dasi and sasi is empty, or that they are both * the same (empty or non-empty). It is up to the caller to set %asi. */ /* * ASI independent implementation of copystr(9). * Used to implement copyinstr() and copystr(). * * Return value is in %g1. */ #define _COPYSTR(src, dst, len, done, sa, sasi, da, dasi) \ brz len, 4f ; \ mov src, %g2 ; \ 1: deccc 1, len ; \ bl,a,pn %xcc, 3f ; \ nop ; \ LD(ub, sa) [src] sasi, %g1 ; \ ST(b, da) %g1, [dst] dasi ; \ brz,pn %g1, 3f ; \ inc src ; \ ba %xcc, 1b ; \ inc dst ; \ 2: mov ENAMETOOLONG, %g1 ; \ 3: sub src, %g2, %g2 ; \ brnz,a done, 4f ; \ stx %g2, [done] ; \ 4: /* * ASI independent implementation of memset(3). * Used to implement bzero(), memset() and aszero(). * * If the pattern is non-zero, duplicate it to fill 64 bits. * Store bytes until dst is 8-byte aligned, then store 8 bytes. * It has yet to be determined how much unrolling is beneficial. * Could also read and compare before writing to minimize snoop traffic. * * XXX bzero() should be implemented as * #define bzero(dst, len) (void)memset((dst), 0, (len)) * if at all. */ #define _MEMSET(dst, pat, len, da, dasi) \ brlez,pn len, 5f ; \ and pat, 0xff, pat ; \ brz,pt pat, 1f ; \ sllx pat, 8, %g1 ; \ or pat, %g1, pat ; \ sllx pat, 16, %g1 ; \ or pat, %g1, pat ; \ sllx pat, 32, %g1 ; \ or pat, %g1, pat ; \ .align 16 ; \ 1: deccc 1, len ; \ bl,pn %xcc, 5f ; \ btst 7, dst ; \ bz,a,pt %xcc, 2f ; \ inc 1, len ; \ ST(b, da) pat, [dst] dasi ; \ ba %xcc, 1b ; \ inc dst ; \ .align 16 ; \ 2: deccc 32, len ; \ bl,a,pn %xcc, 3f ; \ inc 32, len ; \ ST(x, da) pat, [dst] dasi ; \ ST(x, da) pat, [dst + 8] dasi ; \ ST(x, da) pat, [dst + 16] dasi ; \ ST(x, da) pat, [dst + 24] dasi ; \ ba %xcc, 2b ; \ inc 32, dst ; \ .align 16 ; \ 3: deccc 8, len ; \ bl,a,pn %xcc, 4f ; \ inc 8, len ; \ ST(x, da) pat, [dst] dasi ; \ ba %xcc, 3b ; \ inc 8, dst ; \ .align 16 ; \ 4: deccc 1, len ; \ bl,a,pn %xcc, 5f ; \ nop ; \ ST(b, da) pat, [dst] dasi ; \ ba %xcc, 4b ; \ inc 1, dst ; \ 5: /* * ASI independent implementation of memcpy(3). * Used to implement bcopy(), copyin(), copyout(), memcpy(), ascopy(), * ascopyfrom() and ascopyto(). * * Transfer bytes until dst is 8-byte aligned. If src is then also 8 byte * aligned, transfer 8 bytes, otherwise finish with bytes. The unaligned * case could be optimized, but it is expected that this is the uncommon * case and of questionable value. The code to do so is also rather large * and ugly. It has yet to be determined how much unrolling is beneficial. * * XXX bcopy() must also check for overlap. This is stupid. * XXX bcopy() should be implemented as * #define bcopy(src, dst, len) (void)memcpy((dst), (src), (len)) * if at all. */ #define _MEMCPY(dst, src, len, da, dasi, sa, sasi) \ 1: deccc 1, len ; \ bl,pn %xcc, 6f ; \ btst 7, dst ; \ bz,a,pt %xcc, 2f ; \ inc 1, len ; \ LD(ub, sa) [src] sasi, %g1 ; \ ST(b, da) %g1, [dst] dasi ; \ inc 1, src ; \ ba %xcc, 1b ; \ inc 1, dst ; \ .align 16 ; \ 2: btst 7, src ; \ bz,a,pt %xcc, 3f ; \ nop ; \ ba,a %xcc, 5f ; \ .align 16 ; \ 3: deccc 32, len ; \ bl,a,pn %xcc, 4f ; \ inc 32, len ; \ LD(x, sa) [src] sasi, %g1 ; \ LD(x, sa) [src + 8] sasi, %g2 ; \ LD(x, sa) [src + 16] sasi, %g3 ; \ LD(x, sa) [src + 24] sasi, %g4 ; \ ST(x, da) %g1, [dst] dasi ; \ ST(x, da) %g2, [dst + 8] dasi ; \ ST(x, da) %g3, [dst + 16] dasi ; \ ST(x, da) %g4, [dst + 24] dasi ; \ inc 32, src ; \ ba %xcc, 3b ; \ inc 32, dst ; \ .align 16 ; \ 4: deccc 8, len ; \ bl,a,pn %xcc, 5f ; \ inc 8, len ; \ LD(x, sa) [src] sasi, %g1 ; \ ST(x, da) %g1, [dst] dasi ; \ inc 8, src ; \ ba %xcc, 4b ; \ inc 8, dst ; \ .align 16 ; \ 5: deccc 1, len ; \ bl,a,pn %xcc, 6f ; \ nop ; \ LD(ub, sa) [src] sasi, %g1 ; \ ST(b, da) %g1, [dst] dasi ; \ inc src ; \ ba %xcc, 5b ; \ inc dst ; \ 6: /* * void ascopy(u_long asi, vm_offset_t src, vm_offset_t dst, size_t len) */ ENTRY(ascopy) wr %o0, 0, %asi _MEMCPY(%o2, %o1, %o3, a, %asi, a, %asi) retl nop END(ascopy) /* * void ascopyfrom(u_long sasi, vm_offset_t src, caddr_t dst, size_t len) */ ENTRY(ascopyfrom) wr %o0, 0, %asi _MEMCPY(%o2, %o1, %o3, EMPTY, EMPTY, a, %asi) retl nop END(ascopyfrom) /* * void ascopyto(caddr_t src, u_long dasi, vm_offset_t dst, size_t len) */ ENTRY(ascopyto) wr %o1, 0, %asi _MEMCPY(%o2, %o0, %o3, a, %asi, EMPTY, EMPTY) retl nop END(ascopyto) /* * void aszero(u_long asi, vm_offset_t pa, size_t len) */ ENTRY(aszero) wr %o0, 0, %asi _MEMSET(%o1, %g0, %o2, a, %asi) retl nop END(aszero) /* * int bcmp(const void *b1, const void *b2, size_t len) */ ENTRY(bcmp) brz,pn %o2, 2f clr %o3 1: ldub [%o0 + %o3], %o4 ldub [%o1 + %o3], %o5 cmp %o4, %o5 bne,pn %xcc, 2f inc %o3 deccc %o2 bne,pt %xcc, 1b nop 2: retl mov %o2, %o0 END(bcmp) /* * void bcopy(const void *src, void *dst, size_t len) */ ENTRY(bcopy) /* * Check for overlap, and copy backwards if so. */ sub %o1, %o0, %g1 cmp %g1, %o2 bgeu,a,pt %xcc, 3f nop /* * Copy backwards. */ add %o0, %o2, %o0 add %o1, %o2, %o1 1: deccc 1, %o2 bl,a,pn %xcc, 2f nop dec 1, %o0 ldub [%o0], %g1 dec 1, %o1 ba %xcc, 1b stb %g1, [%o1] 2: retl nop /* * Do the fast version. */ 3: _MEMCPY(%o1, %o0, %o2, EMPTY, EMPTY, EMPTY, EMPTY) retl nop END(bcopy) /* * void bzero(void *b, size_t len) */ ENTRY(bzero) _MEMSET(%o0, %g0, %o1, EMPTY, EMPTY) retl nop END(bzero) /* * int copystr(const void *src, void *dst, size_t len, size_t *done) */ ENTRY(copystr) _COPYSTR(%o0, %o1, %o2, %o3, EMPTY, EMPTY, EMPTY, EMPTY) retl mov %g1, %o0 END(copystr) /* * void *memcpy(void *dst, const void *src, size_t len) */ ENTRY(memcpy) mov %o0, %o3 _MEMCPY(%o3, %o1, %o2, EMPTY, EMPTY, EMPTY, EMPTY) retl nop END(memcpy) /* * void *memset(void *b, int c, size_t len) */ ENTRY(memset) mov %o0, %o3 _MEMSET(%o3, %o1, %o2, EMPTY, EMPTY) retl nop END(memset) .globl copy_nofault_begin copy_nofault_begin: nop /* * int copyin(const void *uaddr, void *kaddr, size_t len) */ ENTRY(copyin) wr %g0, ASI_AIUP, %asi _MEMCPY(%o1, %o0, %o2, EMPTY, EMPTY, a, %asi) retl clr %o0 END(copyin) /* * int copyinstr(const void *uaddr, void *kaddr, size_t len, size_t *done) */ ENTRY(copyinstr) wr %g0, ASI_AIUP, %asi _COPYSTR(%o0, %o1, %o2, %o3, a, %asi, EMPTY, EMPTY) retl mov %g1, %o0 END(copyinstr) /* * int copyout(const void *kaddr, void *uaddr, size_t len) */ ENTRY(copyout) wr %g0, ASI_AIUP, %asi _MEMCPY(%o1, %o0, %o2, a, %asi, EMPTY, EMPTY) retl clr %o0 END(copyout) .globl copy_nofault_end copy_nofault_end: nop ENTRY(copy_fault) retl mov EFAULT, %o0 END(copy_fault) .globl fs_nofault_begin fs_nofault_begin: nop /* * Chatty aliases for fetch, store functions. */ .globl fubyte, fusword, fuword, subyte, susword, suword .set fubyte, fuword8 .set fusword, fuword16 .set fuword, fuword64 .set subyte, suword8 .set susword, suword16 .set suword, suword64 .globl casuword32, casuword, fuptr, suptr .set casuword, casuword64 .set fuptr, fuword64 .set suptr, suword64 /* * int32_t casuword32(volatile int32_t *p, int32_t e, int32_t s) */ ENTRY(casuword32) casa [%o0] ASI_AIUP, %o1, %o2 retl mov %o2, %o0 END(casuword32) /* * int64_t casuword64(volatile int64_t *p, int64_t e, int64_t s) */ ENTRY(casuword64) casxa [%o0] ASI_AIUP, %o1, %o2 retl mov %o2, %o0 END(casuword64) /* * int fuword8(const void *base) */ ENTRY(fuword8) retl lduba [%o0] ASI_AIUP, %o0 END(fuword8) /* * int fuword16(const void *base) */ ENTRY(fuword16) retl lduha [%o0] ASI_AIUP, %o0 END(fuword16) /* * int32_t fuword32(const void *base) */ ENTRY(fuword32) retl lduwa [%o0] ASI_AIUP, %o0 END(fuword32) /* * int64_t fuword64(const void *base) */ ENTRY(fuword64) retl ldxa [%o0] ASI_AIUP, %o0 END(fuword64) /* * int suword8(const void *base, int word) */ ENTRY(suword8) stba %o1, [%o0] ASI_AIUP retl clr %o0 END(suword8) /* * int suword16(const void *base, int word) */ ENTRY(suword16) stha %o1, [%o0] ASI_AIUP retl clr %o0 END(suword16) /* * int suword32(const void *base, int32_t word) */ ENTRY(suword32) stwa %o1, [%o0] ASI_AIUP retl clr %o0 END(suword32) /* * int suword64(const void *base, int64_t word) */ ENTRY(suword64) stxa %o1, [%o0] ASI_AIUP retl clr %o0 END(suword64) .globl fs_nofault_intr_begin fs_nofault_intr_begin: nop /* * int fuswintr(const void *base) */ ENTRY(fuswintr) retl lduha [%o0] ASI_AIUP, %o0 END(fuswintr) /* * int suswintr(const void *base, int word) */ ENTRY(suswintr) stha %o1, [%o0] ASI_AIUP retl clr %o0 END(suswintr) .globl fs_nofault_intr_end fs_nofault_intr_end: nop .globl fs_nofault_end fs_nofault_end: nop ENTRY(fs_fault) retl mov -1, %o0 END(fsfault) .globl fas_nofault_begin fas_nofault_begin: /* * int fasword8(u_long asi, uint64_t addr, uint8_t *val) */ ENTRY(fasword8) wr %o0, 0, %asi membar #Sync lduba [%o1] %asi, %o3 membar #Sync stb %o3, [%o2] retl clr %o0 END(fasword8) /* * int fasword16(u_long asi, uint64_t addr, uint16_t *val) */ ENTRY(fasword16) wr %o0, 0, %asi membar #Sync lduha [%o1] %asi, %o3 membar #Sync sth %o3, [%o2] retl clr %o0 END(fasword16) /* * int fasword32(u_long asi, uint64_t addr, uint32_t *val) */ ENTRY(fasword32) wr %o0, 0, %asi membar #Sync lduwa [%o1] %asi, %o3 membar #Sync stw %o3, [%o2] retl clr %o0 END(fasword32) .globl fas_nofault_end fas_nofault_end: nop .globl fas_fault ENTRY(fas_fault) retl mov -1, %o0 END(fas_fault) .globl fpu_fault_begin fpu_fault_begin: nop /* * void spitfire_block_copy(void *src, void *dst, size_t len) */ ENTRY(spitfire_block_copy) rdpr %pstate, %o3 wrpr %g0, PSTATE_NORMAL, %pstate wr %g0, ASI_BLK_S, %asi wr %g0, FPRS_FEF, %fprs sub PCB_REG, TF_SIZEOF, %o4 ldx [%o4 + TF_FPRS], %o5 andcc %o5, FPRS_FEF, %g0 bz,a,pt %xcc, 1f nop stda %f0, [PCB_REG + PCB_UFP + (0 * 64)] %asi stda %f16, [PCB_REG + PCB_UFP + (1 * 64)] %asi stda %f32, [PCB_REG + PCB_UFP + (2 * 64)] %asi stda %f48, [PCB_REG + PCB_UFP + (3 * 64)] %asi membar #Sync andn %o5, FPRS_FEF, %o5 stx %o5, [%o4 + TF_FPRS] ldx [PCB_REG + PCB_FLAGS], %o4 or %o4, PCB_FEF, %o4 stx %o4, [PCB_REG + PCB_FLAGS] 1: wrpr %o3, 0, %pstate ldda [%o0] %asi, %f0 add %o0, 64, %o0 sub %o2, 64, %o2 2: ldda [%o0] %asi, %f16 fsrc1 %f0, %f32 fsrc1 %f2, %f34 fsrc1 %f4, %f36 fsrc1 %f6, %f38 fsrc1 %f8, %f40 fsrc1 %f10, %f42 fsrc1 %f12, %f44 fsrc1 %f14, %f46 stda %f32, [%o1] %asi add %o0, 64, %o0 subcc %o2, 64, %o2 bz,pn %xcc, 3f add %o1, 64, %o1 ldda [%o0] %asi, %f0 fsrc1 %f16, %f32 fsrc1 %f18, %f34 fsrc1 %f20, %f36 fsrc1 %f22, %f38 fsrc1 %f24, %f40 fsrc1 %f26, %f42 fsrc1 %f28, %f44 fsrc1 %f30, %f46 stda %f32, [%o1] %asi add %o0, 64, %o0 sub %o2, 64, %o2 ba,pt %xcc, 2b add %o1, 64, %o1 3: membar #Sync stda %f16, [%o1] %asi membar #Sync retl wr %g0, 0, %fprs END(spitfire_block_copy) /* * void zeus_block_copy(void *src, void *dst, size_t len) */ ENTRY(zeus_block_copy) prefetch [%o0 + (0 * 64)], 0 rdpr %pstate, %o3 wrpr %g0, PSTATE_NORMAL, %pstate wr %g0, ASI_BLK_S, %asi wr %g0, FPRS_FEF, %fprs sub PCB_REG, TF_SIZEOF, %o4 ldx [%o4 + TF_FPRS], %o5 andcc %o5, FPRS_FEF, %g0 bz,a,pt %xcc, 1f nop stda %f0, [PCB_REG + PCB_UFP + (0 * 64)] %asi stda %f16, [PCB_REG + PCB_UFP + (1 * 64)] %asi stda %f32, [PCB_REG + PCB_UFP + (2 * 64)] %asi stda %f48, [PCB_REG + PCB_UFP + (3 * 64)] %asi membar #Sync andn %o5, FPRS_FEF, %o5 stx %o5, [%o4 + TF_FPRS] ldx [PCB_REG + PCB_FLAGS], %o4 or %o4, PCB_FEF, %o4 stx %o4, [PCB_REG + PCB_FLAGS] 1: wrpr %o3, 0, %pstate ldd [%o0 + (0 * 8)], %f0 prefetch [%o0 + (1 * 64)], 0 ldd [%o0 + (1 * 8)], %f2 prefetch [%o0 + (2 * 64)], 0 fmovd %f0, %f32 ldd [%o0 + (2 * 8)], %f4 prefetch [%o0 + (3 * 64)], 0 fmovd %f2, %f34 ldd [%o0 + (3 * 8)], %f6 prefetch [%o0 + (4 * 64)], 1 fmovd %f4, %f36 ldd [%o0 + (4 * 8)], %f8 prefetch [%o0 + (8 * 64)], 1 fmovd %f6, %f38 ldd [%o0 + (5 * 8)], %f10 prefetch [%o0 + (12 * 64)], 1 fmovd %f8, %f40 ldd [%o0 + (6 * 8)], %f12 prefetch [%o0 + (16 * 64)], 1 fmovd %f10, %f42 ldd [%o0 + (7 * 8)], %f14 ldd [%o0 + (8 * 8)], %f0 sub %o2, 64, %o2 add %o0, 64, %o0 prefetch [%o0 + (19 * 64)], 1 ba,pt %xcc, 2f prefetch [%o0 + (23 * 64)], 1 .align 32 2: ldd [%o0 + (1 * 8)], %f2 fmovd %f12, %f44 ldd [%o0 + (2 * 8)], %f4 fmovd %f14, %f46 stda %f32, [%o1] %asi ldd [%o0 + (3 * 8)], %f6 fmovd %f0, %f32 ldd [%o0 + (4 * 8)], %f8 fmovd %f2, %f34 ldd [%o0 + (5 * 8)], %f10 fmovd %f4, %f36 ldd [%o0 + (6 * 8)], %f12 fmovd %f6, %f38 ldd [%o0 + (7 * 8)], %f14 fmovd %f8, %f40 ldd [%o0 + (8 * 8)], %f0 fmovd %f10, %f42 sub %o2, 64, %o2 prefetch [%o0 + (3 * 64)], 0 add %o1, 64, %o1 prefetch [%o0 + (24 * 64)], 1 add %o0, 64, %o0 cmp %o2, 64 + 8 bgu,pt %xcc, 2b prefetch [%o0 + (12 * 64)], 1 ldd [%o0 + (1 * 8)], %f2 fsrc1 %f12, %f44 ldd [%o0 + (2 * 8)], %f4 fsrc1 %f14, %f46 stda %f32, [%o1] %asi ldd [%o0 + (3 * 8)], %f6 fsrc1 %f0, %f32 ldd [%o0 + (4 * 8)], %f8 fsrc1 %f2, %f34 ldd [%o0 + (5 * 8)], %f10 fsrc1 %f4, %f36 ldd [%o0 + (6 * 8)], %f12 fsrc1 %f6, %f38 ldd [%o0 + (7 * 8)], %f14 fsrc1 %f8, %f40 add %o1, 64, %o1 fsrc1 %f10, %f42 fsrc1 %f12, %f44 fsrc1 %f14, %f46 stda %f32, [%o1] %asi membar #Sync retl wr %g0, 0, %fprs END(zeus_block_copy) /* * void spitfire_block_zero(void *dst, size_t len) * void zeus_block_zero(void *dst, size_t len) */ ALTENTRY(zeus_block_zero) ENTRY(spitfire_block_zero) rdpr %pstate, %o3 wrpr %g0, PSTATE_NORMAL, %pstate wr %g0, ASI_BLK_S, %asi wr %g0, FPRS_FEF, %fprs sub PCB_REG, TF_SIZEOF, %o4 ldx [%o4 + TF_FPRS], %o5 andcc %o5, FPRS_FEF, %g0 bz,a,pt %xcc, 1f nop stda %f0, [PCB_REG + PCB_UFP + (0 * 64)] %asi stda %f16, [PCB_REG + PCB_UFP + (1 * 64)] %asi stda %f32, [PCB_REG + PCB_UFP + (2 * 64)] %asi stda %f48, [PCB_REG + PCB_UFP + (3 * 64)] %asi membar #Sync andn %o5, FPRS_FEF, %o5 stx %o5, [%o4 + TF_FPRS] ldx [PCB_REG + PCB_FLAGS], %o4 or %o4, PCB_FEF, %o4 stx %o4, [PCB_REG + PCB_FLAGS] 1: wrpr %o3, 0, %pstate fzero %f0 fzero %f2 fzero %f4 fzero %f6 fzero %f8 fzero %f10 fzero %f12 fzero %f14 1: stda %f0, [%o0] %asi stda %f0, [%o0 + 64] %asi stda %f0, [%o0 + 128] %asi stda %f0, [%o0 + 192] %asi sub %o1, 256, %o1 brnz,pt %o1, 1b add %o0, 256, %o0 membar #Sync retl wr %g0, 0, %fprs END(spitfire_block_zero) .globl fpu_fault_end fpu_fault_end: nop .globl fpu_fault_size .set fpu_fault_size, fpu_fault_end - fpu_fault_begin ENTRY(longjmp) set 1, %g3 movrz %o1, %o1, %g3 mov %o0, %g1 ldx [%g1 + _JB_FP], %g2 1: cmp %fp, %g2 bl,a,pt %xcc, 1b restore bne,pn %xcc, 2f ldx [%g1 + _JB_SP], %o2 cmp %o2, %sp blt,pn %xcc, 2f movge %xcc, %o2, %sp ldx [%g1 + _JB_PC], %o7 retl mov %g3, %o0 2: PANIC("longjmp botch", %l1) END(longjmp) ENTRY(setjmp) stx %sp, [%o0 + _JB_SP] stx %o7, [%o0 + _JB_PC] stx %fp, [%o0 + _JB_FP] retl clr %o0 END(setjmp) /* * void ofw_entry(cell_t args[]) */ ENTRY(ofw_entry) save %sp, -CCFSZ, %sp SET(ofw_vec, %l7, %l6) ldx [%l6], %l6 rdpr %pstate, %l7 andn %l7, PSTATE_AM | PSTATE_IE, %l5 wrpr %l5, 0, %pstate SET(tba_taken_over, %l5, %l4) brz,pn %l4, 1f rdpr %wstate, %l5 andn %l5, WSTATE_PROM_MASK, %l3 wrpr %l3, WSTATE_PROM_KMIX, %wstate 1: call %l6 mov %i0, %o0 brz,pn %l4, 1f nop wrpr %g0, %l5, %wstate 1: wrpr %l7, 0, %pstate ret restore %o0, %g0, %o0 END(ofw_entry) /* * void ofw_exit(cell_t args[]) */ ENTRY(ofw_exit) save %sp, -CCFSZ, %sp flushw SET(ofw_tba, %l7, %l5) ldx [%l5], %l5 rdpr %pstate, %l7 andn %l7, PSTATE_AM | PSTATE_IE, %l7 wrpr %l7, 0, %pstate rdpr %wstate, %l7 andn %l7, WSTATE_PROM_MASK, %l7 wrpr %l7, WSTATE_PROM_KMIX, %wstate wrpr %l5, 0, %tba ! restore the OFW trap table SET(ofw_vec, %l7, %l6) ldx [%l6], %l6 SET(kstack0 + KSTACK_PAGES * PAGE_SIZE - PCB_SIZEOF, %l7, %l0) sub %l0, SPOFF, %fp ! setup a stack in a locked page sub %l0, SPOFF + CCFSZ, %sp mov AA_DMMU_PCXR, %l3 ! force primary DMMU context 0 sethi %hi(KERNBASE), %l5 stxa %g0, [%l3] ASI_DMMU flush %l5 wrpr %g0, 0, %tl ! force trap level 0 call %l6 mov %i0, %o0 ! never to return END(ofw_exit) #ifdef GPROF ENTRY(user) nop ENTRY(btrap) nop ENTRY(etrap) nop ENTRY(bintr) nop ENTRY(eintr) nop /* * XXX including sys/gmon.h in genassym.c is not possible due to uintfptr_t * badness. */ #define GM_STATE 0x0 #define GMON_PROF_OFF 3 #define GMON_PROF_HIRES 4 .globl _mcount .set _mcount, __cyg_profile_func_enter ENTRY(__cyg_profile_func_enter) SET(_gmonparam, %o3, %o2) lduw [%o2 + GM_STATE], %o3 cmp %o3, GMON_PROF_OFF be,a,pn %icc, 1f nop SET(mcount, %o3, %o2) jmpl %o2, %g0 nop 1: retl nop END(__cyg_profile_func_enter) #ifdef GUPROF ENTRY(__cyg_profile_func_exit) SET(_gmonparam, %o3, %o2) lduw [%o2 + GM_STATE], %o3 cmp %o3, GMON_PROF_HIRES be,a,pn %icc, 1f nop SET(mexitcount, %o3, %o2) jmpl %o2, %g0 nop 1: retl nop END(__cyg_profile_func_exit) #endif /* GUPROF */ #endif /* GPROF */