xref: /titanic_52/usr/src/lib/libm/common/m9x/fex_handler.h (revision 799823bbed51a695d01e13511bbb1369980bb714)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2011 Nexenta Systems, Inc.  All rights reserved.
24  */
25 /*
26  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
27  * Use is subject to license terms.
28  */
29 
30 #ifndef	_M9X_FEX_HANDLER_H
31 #define	_M9X_FEX_HANDLER_H
32 
33 /* the following enums must match the bit positions in fenv.h */
34 enum fex_exception {
35 	fex_inexact		= 0,
36 	fex_division	= 1,
37 	fex_underflow	= 2,
38 	fex_overflow	= 3,
39 	fex_inv_zdz		= 4,
40 	fex_inv_idi		= 5,
41 	fex_inv_isi		= 6,
42 	fex_inv_zmi		= 7,
43 	fex_inv_sqrt	= 8,
44 	fex_inv_snan	= 9,
45 	fex_inv_int		= 10,
46 	fex_inv_cmp		= 11
47 };
48 
49 
50 /* auxiliary functions in __fex_hdlr.c */
51 extern struct fex_handler_data *__fex_get_thr_handlers(void);
52 extern void __fex_update_te(void);
53 
54 /* auxiliary functions in __fex_sym.c */
55 extern void __fex_sym_init(void);
56 extern char *__fex_sym(char *, char **);
57 
58 /* auxiliary functions in fex_log.c */
59 extern void __fex_mklog(ucontext_t *, char *, int, enum fex_exception,
60 	int, void *);
61 
62 /* system-dependent auxiliary functions */
63 extern enum fex_exception __fex_get_invalid_type(siginfo_t *, ucontext_t *);
64 extern void __fex_get_op(siginfo_t *, ucontext_t *, fex_info_t *);
65 extern void __fex_st_result(siginfo_t *, ucontext_t *, fex_info_t *);
66 
67 /* inline templates and macros for accessing fp state */
68 extern void __fenv_getfsr(unsigned long *);
69 extern void __fenv_setfsr(const unsigned long *);
70 
71 #if defined(__sparc)
72 
73 #define __fenv_get_rd(X)	((X>>30)&0x3)
74 #define __fenv_set_rd(X,Y)	X=(X&~0xc0000000ul)|((Y)<<30)
75 
76 #define __fenv_get_te(X)	((X>>23)&0x1f)
77 #define __fenv_set_te(X,Y)	X=(X&~0x0f800000ul)|((Y)<<23)
78 
79 #define __fenv_get_ex(X)	((X>>5)&0x1f)
80 #define __fenv_set_ex(X,Y)	X=(X&~0x000003e0ul)|((Y)<<5)
81 
82 #elif defined(__x86)
83 
84 extern void __fenv_getcwsw(unsigned int *);
85 extern void __fenv_setcwsw(const unsigned int *);
86 
87 extern void __fenv_getmxcsr(unsigned int *);
88 extern void __fenv_setmxcsr(const unsigned int *);
89 
90 #define __fenv_get_rd(X)	((X>>26)&3)
91 #define __fenv_set_rd(X,Y)	X=(X&~0x0c000000)|((Y)<<26)
92 
93 #define __fenv_get_rp(X)	((X>>24)&3)
94 #define __fenv_set_rp(X,Y)	X=(X&~0x03000000)|((Y)<<24)
95 
96 #define __fenv_get_te(X)	((X>>16)&0x3d)
97 #define __fenv_set_te(X,Y)	X=(X&~0x003d0000)|((Y)<<16)
98 
99 #define __fenv_get_ex(X)	(X&0x3d)
100 #define __fenv_set_ex(X,Y)	X=(X&~0x0000003d)|(Y)
101 
102 /*
103  * These macros define some useful distinctions between various
104  * SSE instructions.  In some cases, distinctions are made for
105  * the purpose of simplifying the decoding of instructions, while
106  * in other cases, they are made for the purpose of simplying the
107  * emulation.  Note that these values serve as bit flags within
108  * the enum values in sseinst_t.
109  */
110 #define DOUBLE		0x100
111 #define SIMD		0x080
112 #define INTREG		0x040
113 
114 typedef union {
115 	double		d[2];
116 	long long	l[2];
117 	float		f[4];
118 	int		i[4];
119 } sseoperand_t;
120 
121 /* structure to hold a decoded SSE instruction */
122 typedef struct {
123 	enum {
124 		/* single precision scalar instructions */
125 		cmpss		= 0,
126 		minss		= 1,
127 		maxss		= 2,
128 		addss		= 3,
129 		subss		= 4,
130 		mulss		= 5,
131 		divss		= 6,
132 		sqrtss		= 7,
133 		ucomiss		= 16,
134 		comiss		= 17,
135 		cvtss2sd	= 32,
136 		cvtsi2ss	= INTREG + 0,
137 		cvttss2si	= INTREG + 1,
138 		cvtss2si	= INTREG + 2,
139 		cvtsi2ssq	= INTREG + 8,
140 		cvttss2siq	= INTREG + 9,
141 		cvtss2siq	= INTREG + 10,
142 
143 		/* single precision SIMD instructions */
144 		cmpps		= SIMD + 0,
145 		minps		= SIMD + 1,
146 		maxps		= SIMD + 2,
147 		addps		= SIMD + 3,
148 		subps		= SIMD + 4,
149 		mulps		= SIMD + 5,
150 		divps		= SIMD + 6,
151 		sqrtps		= SIMD + 7,
152 		cvtps2pd	= SIMD + 32,
153 		cvtdq2ps	= SIMD + 34,
154 		cvttps2dq	= SIMD + 35,
155 		cvtps2dq	= SIMD + 36,
156 		cvtpi2ps	= SIMD + INTREG + 0,
157 		cvttps2pi	= SIMD + INTREG + 1,
158 		cvtps2pi	= SIMD + INTREG + 2,
159 
160 		/* double precision scalar instructions */
161 		cmpsd		= DOUBLE + 0,
162 		minsd		= DOUBLE + 1,
163 		maxsd		= DOUBLE + 2,
164 		addsd		= DOUBLE + 3,
165 		subsd		= DOUBLE + 4,
166 		mulsd		= DOUBLE + 5,
167 		divsd		= DOUBLE + 6,
168 		sqrtsd		= DOUBLE + 7,
169 		ucomisd		= DOUBLE + 16,
170 		comisd		= DOUBLE + 17,
171 		cvtsd2ss	= DOUBLE + 32,
172 		cvtsi2sd	= DOUBLE + INTREG + 0,
173 		cvttsd2si	= DOUBLE + INTREG + 1,
174 		cvtsd2si	= DOUBLE + INTREG + 2,
175 		cvtsi2sdq	= DOUBLE + INTREG + 8,
176 		cvttsd2siq	= DOUBLE + INTREG + 9,
177 		cvtsd2siq	= DOUBLE + INTREG + 10,
178 
179 		/* double precision SIMD instructions */
180 		cmppd		= DOUBLE + SIMD + 0,
181 		minpd		= DOUBLE + SIMD + 1,
182 		maxpd		= DOUBLE + SIMD + 2,
183 		addpd		= DOUBLE + SIMD + 3,
184 		subpd		= DOUBLE + SIMD + 4,
185 		mulpd		= DOUBLE + SIMD + 5,
186 		divpd		= DOUBLE + SIMD + 6,
187 		sqrtpd		= DOUBLE + SIMD + 7,
188 		cvtpd2ps	= DOUBLE + SIMD + 32,
189 		cvtdq2pd	= DOUBLE + SIMD + 34,
190 		cvttpd2dq	= DOUBLE + SIMD + 35,
191 		cvtpd2dq	= DOUBLE + SIMD + 36,
192 		cvtpi2pd	= DOUBLE + SIMD + INTREG + 0,
193 		cvttpd2pi	= DOUBLE + SIMD + INTREG + 1,
194 		cvtpd2pi	= DOUBLE + SIMD + INTREG + 2,
195 	} op;
196 	int		imm;
197 	sseoperand_t	*op1, *op2;
198 } sseinst_t;
199 
200 /* x86-specific auxiliary functions */
201 extern int *__fex_accrued(void);
202 extern void __fex_get_x86_exc(siginfo_t *, ucontext_t *);
203 extern int __fex_parse_sse(ucontext_t *, sseinst_t *);
204 extern enum fex_exception __fex_get_sse_op(ucontext_t *, sseinst_t *,
205 	fex_info_t *);
206 extern void __fex_get_simd_op(ucontext_t *, sseinst_t *,
207 	enum fex_exception *, fex_info_t *);
208 extern void __fex_st_sse_result(ucontext_t *, sseinst_t *,
209 	enum fex_exception, fex_info_t *);
210 extern void __fex_st_simd_result(ucontext_t *, sseinst_t *,
211 	enum fex_exception *, fex_info_t *);
212 
213 #else
214 #error Unknown architecture
215 #endif
216 
217 #endif	/* _M9X_FEX_HANDLER_H */
218