setjmp.S revision c124baaf29a948fd8b93e7f1fefc20b659271026 
1/*      $OpenBSD: setjmp.S,v 1.5 2005/08/07 16:40:15 espie Exp $ */
2
3/*
4 * Copyright (c) 2001-2002 Opsycon AB  (www.opsycon.se / www.opsycon.com)
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions
8 * are met:
9 * 1. Redistributions of source code must retain the above copyright
10 *    notice, this list of conditions and the following disclaimer.
11 * 2. Redistributions in binary form must reproduce the above copyright
12 *    notice, this list of conditions and the following disclaimer in the
13 *    documentation and/or other materials provided with the distribution.
14 * 3. Neither the name of Opsycon AB nor the names of its contributors
15 *    may be used to endorse or promote products derived from this software
16 *    without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
19 * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
20 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
21 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
22 * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
23 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
24 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
25 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
26 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
27 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
28 * SUCH DAMAGE.
29 *
30 */
31
32#include <machine/asm.h>
33#include <machine/regnum.h>
34#include <machine/setjmp.h>
35
36/*
37 * setjmp, longjmp implementation for libc. this code depends
38 * on the layout of the struct sigcontext in machine/signal.h.
39 *
40 */
41
42FRAMESZ= MKFSIZ(2,6)
43A1OFF= FRAMESZ-4*REGSZ
44A0OFF= FRAMESZ-3*REGSZ
45GPOFF= FRAMESZ-2*REGSZ
46RAOFF= FRAMESZ-1*REGSZ
47
48#define FPREG64_S(FPR, OFF, BASE)       \
49        swc1    FPR, OFF(BASE)  ;       \
50        mfhc1   t0, FPR         ;       \
51        sw      t0, OFF+4(BASE) ;
52
53#define FPREG64_L(FPR, OFF, BASE)       \
54        lw      t0, OFF+4(BASE) ;       \
55        lw      t1, OFF(BASE)   ;       \
56        mtc1    t1, FPR         ;       \
57        mthc1   t0, FPR         ;       \
58
59NON_LEAF(setjmp, FRAMESZ, ra)
60	.mask	0x80000000, RAOFF
61	PTR_SUBU sp, FRAMESZ			# allocate stack frame
62	SETUP_GP64(GPOFF, setjmp)
63	SAVE_GP(GPOFF)
64	.set	reorder
65	REG_S	ra, RAOFF(sp)			# save state
66	REG_S	a0, A0OFF(sp)
67
68	move	a0, zero			# get current signal mask
69	jal	sigblock
70
71	REG_L	v1, A0OFF(sp)			# v1 = jmpbuf
72	REG_S	v0, SC_MASK(v1)			# save sc_mask = sigblock(0)
73
74	REG_L	a0, A0OFF(sp)			# restore jmpbuf
75	REG_L	ra, RAOFF(sp)
76	REG_S	ra, SC_PC(a0)			# sc_pc = return address
77#if defined(__mips64)
78	dli	v0, 0xACEDBADE			# sigcontext magic number
79#else
80	li	v0, 0xACEDBADE			# sigcontext magic number
81#endif
82	REG_S	v0, SC_REGS+ZERO*REGSZ(a0)
83	REG_S	s0, SC_REGS+S0*REGSZ(a0)
84	REG_S	s1, SC_REGS+S1*REGSZ(a0)
85	REG_S	s2, SC_REGS+S2*REGSZ(a0)
86	REG_S	s3, SC_REGS+S3*REGSZ(a0)
87	REG_S	s4, SC_REGS+S4*REGSZ(a0)
88	REG_S	s5, SC_REGS+S5*REGSZ(a0)
89	REG_S	s6, SC_REGS+S6*REGSZ(a0)
90	REG_S	s7, SC_REGS+S7*REGSZ(a0)
91	REG_S	s8, SC_REGS+S8*REGSZ(a0)
92	REG_L	v0, GPOFF(sp)
93	REG_S	v0, SC_REGS+GP*REGSZ(a0)
94	PTR_ADDU v0, sp, FRAMESZ
95	REG_S	v0, SC_REGS+SP*REGSZ(a0)
96
97#if !defined(SOFTFLOAT)
98	li	v0, 1				# be nice if we could tell
99	REG_S	v0, SC_FPUSED(a0)		# sc_fpused = 1
100	cfc1	v0, $31
101#if _MIPS_FPSET == 32
102        FPREG64_S($f20, SC_FPREGS+((F20-F0)*REGSZ_FP), a0)
103        FPREG64_S($f21, SC_FPREGS+((F21-F0)*REGSZ_FP), a0)
104        FPREG64_S($f22, SC_FPREGS+((F22-F0)*REGSZ_FP), a0)
105        FPREG64_S($f23, SC_FPREGS+((F23-F0)*REGSZ_FP), a0)
106        FPREG64_S($f24, SC_FPREGS+((F24-F0)*REGSZ_FP), a0)
107        FPREG64_S($f25, SC_FPREGS+((F25-F0)*REGSZ_FP), a0)
108        FPREG64_S($f26, SC_FPREGS+((F26-F0)*REGSZ_FP), a0)
109        FPREG64_S($f27, SC_FPREGS+((F27-F0)*REGSZ_FP), a0)
110        FPREG64_S($f28, SC_FPREGS+((F28-F0)*REGSZ_FP), a0)
111        FPREG64_S($f29, SC_FPREGS+((F29-F0)*REGSZ_FP), a0)
112        FPREG64_S($f30, SC_FPREGS+((F30-F0)*REGSZ_FP), a0)
113        FPREG64_S($f31, SC_FPREGS+((F31-F0)*REGSZ_FP), a0)
114#else
115        swc1    $f20, SC_FPREGS+((F20-F0)*REGSZ_FP)(a0)
116        swc1    $f21, SC_FPREGS+((F21-F0)*REGSZ_FP)(a0)
117        swc1    $f22, SC_FPREGS+((F22-F0)*REGSZ_FP)(a0)
118        swc1    $f23, SC_FPREGS+((F23-F0)*REGSZ_FP)(a0)
119        swc1    $f24, SC_FPREGS+((F24-F0)*REGSZ_FP)(a0)
120        swc1    $f25, SC_FPREGS+((F25-F0)*REGSZ_FP)(a0)
121        swc1    $f26, SC_FPREGS+((F26-F0)*REGSZ_FP)(a0)
122        swc1    $f27, SC_FPREGS+((F27-F0)*REGSZ_FP)(a0)
123        swc1    $f28, SC_FPREGS+((F28-F0)*REGSZ_FP)(a0)
124        swc1    $f29, SC_FPREGS+((F29-F0)*REGSZ_FP)(a0)
125        swc1    $f30, SC_FPREGS+((F30-F0)*REGSZ_FP)(a0)
126        swc1    $f31, SC_FPREGS+((F31-F0)*REGSZ_FP)(a0)
127#endif
128	REG_S	v0, SC_FPREGS+((FSR-F0)*REGSZ)(a0)
129#endif /* !SOFTFLOAT */
130	move	v0, zero
131	RESTORE_GP64
132	PTR_ADDU sp, FRAMESZ
133	j	ra
134
135botch:
136	jal	longjmperror
137	jal	abort
138	RESTORE_GP64
139	PTR_ADDU sp, FRAMESZ
140END(setjmp)
141
142
143LEAF(longjmp, FRAMESZ)
144	PTR_SUBU sp, FRAMESZ
145	SETUP_GP64(GPOFF, longjmp)
146	SAVE_GP(GPOFF)
147	.set	reorder
148	sw	a1, A1OFF(sp)
149	sw	a0, A0OFF(sp)
150
151	lw	a0, SC_MASK(a0)
152	jal	sigsetmask
153
154	lw	a0, A0OFF(sp)
155	lw	a1, A1OFF(sp)
156
157	.set	noreorder
158	REG_L	v0, SC_REGS+ZERO*REGSZ(a0)
159	bne	v0, 0xACEDBADE, botch		# jump if error
160	REG_L	ra, SC_PC(a0)
161	REG_L	s0, SC_REGS+S0*REGSZ(a0)
162	REG_L	s1, SC_REGS+S1*REGSZ(a0)
163	REG_L	s2, SC_REGS+S2*REGSZ(a0)
164	REG_L	s3, SC_REGS+S3*REGSZ(a0)
165	REG_L	s4, SC_REGS+S4*REGSZ(a0)
166	REG_L	s5, SC_REGS+S5*REGSZ(a0)
167	REG_L	s6, SC_REGS+S6*REGSZ(a0)
168	REG_L	s7, SC_REGS+S7*REGSZ(a0)
169	REG_L	s8, SC_REGS+S8*REGSZ(a0)
170	REG_L	gp, SC_REGS+GP*REGSZ(a0)
171	REG_L	sp, SC_REGS+SP*REGSZ(a0)
172
173#if !defined(SOFTFLOAT)
174	REG_L	v0, SC_FPREGS+((FSR-F0)*REGSZ)(a0)
175	ctc1	v0, $31
176#if _MIPS_FPSET == 32
177        FPREG64_L($f20, SC_FPREGS+((F20-F0)*REGSZ_FP), a0)
178        FPREG64_L($f21, SC_FPREGS+((F21-F0)*REGSZ_FP), a0)
179        FPREG64_L($f22, SC_FPREGS+((F22-F0)*REGSZ_FP), a0)
180        FPREG64_L($f23, SC_FPREGS+((F23-F0)*REGSZ_FP), a0)
181        FPREG64_L($f24, SC_FPREGS+((F24-F0)*REGSZ_FP), a0)
182        FPREG64_L($f25, SC_FPREGS+((F25-F0)*REGSZ_FP), a0)
183        FPREG64_L($f26, SC_FPREGS+((F26-F0)*REGSZ_FP), a0)
184        FPREG64_L($f27, SC_FPREGS+((F27-F0)*REGSZ_FP), a0)
185        FPREG64_L($f28, SC_FPREGS+((F28-F0)*REGSZ_FP), a0)
186        FPREG64_L($f29, SC_FPREGS+((F29-F0)*REGSZ_FP), a0)
187        FPREG64_L($f30, SC_FPREGS+((F30-F0)*REGSZ_FP), a0)
188        FPREG64_L($f31, SC_FPREGS+((F31-F0)*REGSZ_FP), a0)
189#else
190        lwc1    $f20, SC_FPREGS+((F20-F0)*REGSZ_FP)(a0)
191        lwc1    $f21, SC_FPREGS+((F21-F0)*REGSZ_FP)(a0)
192        lwc1    $f22, SC_FPREGS+((F22-F0)*REGSZ_FP)(a0)
193        lwc1    $f23, SC_FPREGS+((F23-F0)*REGSZ_FP)(a0)
194        lwc1    $f24, SC_FPREGS+((F24-F0)*REGSZ_FP)(a0)
195        lwc1    $f25, SC_FPREGS+((F25-F0)*REGSZ_FP)(a0)
196        lwc1    $f26, SC_FPREGS+((F26-F0)*REGSZ_FP)(a0)
197        lwc1    $f27, SC_FPREGS+((F27-F0)*REGSZ_FP)(a0)
198        lwc1    $f28, SC_FPREGS+((F28-F0)*REGSZ_FP)(a0)
199        lwc1    $f29, SC_FPREGS+((F29-F0)*REGSZ_FP)(a0)
200        lwc1    $f30, SC_FPREGS+((F30-F0)*REGSZ_FP)(a0)
201        lwc1    $f31, SC_FPREGS+((F31-F0)*REGSZ_FP)(a0)
202#endif
203#endif /* !SOFTFLOAT */
204	bne	a1, zero, 1f
205	 nop
206	li	a1, 1			# never return 0!
2071:
208	j	ra
209	 move	v0, a1
210
211END(longjmp)
212