1 /* This file comes from GCC. If you are tempted to change it,
2 consider also changing the copy there. */
4 /* HP-UX libunwind.so doesn't provide _UA_END_OF_STACK */
6 /* { dg-options "-fexceptions" } */
7 /* { dg-skip-if "" { "ia64-*-hpux11.*" } { "*" } { "" } } */
8 /* Verify DW_OP_* handling in the unwinder. */
14 /* #define OP_addr(x) 0x06, ... */
15 #define OP_deref 0x06,
16 #define SLEB128(x) (x)&0x7f /* Assume here the value is -0x40 ... 0x3f. */
17 #define ULEB128(x) (x)&0x7f /* Assume here the value is 0 ... 0x7f. */
18 #define VAL1(x) (x)&0xff
19 #if defined (__BIG_ENDIAN__)
20 #define VAL2(x) ((x)>>8)&0xff,(x)&0xff
21 #define VAL4(x) ((x)>>24)&0xff,((x)>>16)&0xff,((x)>>8)&0xff,(x)&0xff
22 #define VAL8(x) ((x)>>56)&0xff,((x)>>48)&0xff,((x)>>40)&0xff,((x)>>32)&0xff,((x)>>24)&0xff,((x)>>16)&0xff,((x)>>8)&0xff,(x)&0xff
23 #elif defined(__LITTLE_ENDIAN__) || defined(__x86_64__) || defined(__i386__)
24 #define VAL2(x) (x)&0xff,((x)>>8)&0xff
25 #define VAL4(x) (x)&0xff,((x)>>8)&0xff,((x)>>16)&0xff,((x)>>24)&0xff
26 #define VAL8(x) (x)&0xff,((x)>>8)&0xff,((x)>>16)&0xff,((x)>>24)&0xff,((x)>>32)&0xff,((x)>>40)&0xff,((x)>>48)&0xff,((x)>>56)&0xff
28 #define OP_const1u(x) 0x08,VAL1(x),
29 #define OP_const1s(x) 0x09,VAL1(x),
30 #define OP_const2u(x) 0x0a,VAL2(x),
31 #define OP_const2s(x) 0x0b,VAL2(x),
32 #define OP_const4u(x) 0x0c,VAL4(x),
33 #define OP_const4s(x) 0x0d,VAL4(x),
34 #define OP_const8u(x) 0x0e,VAL8(x),
35 #define OP_const8s(x) 0x0f,VAL8(x),
36 #define OP_constu(x) 0x10,ULEB128(x),
37 #define OP_consts(x) 0x11,SLEB128(x),
41 #define OP_pick(x) 0x15,VAL1(x),
44 #define OP_xderef 0x18,
48 #define OP_minus 0x1c,
55 #define OP_plus_uconst(x) 0x23,ULEB128(x),
60 #define OP_bra(x) 0x28,VAL2(x),
67 #define OP_skip(x) 0x2f,VAL2(x),
78 #define OP_lit10 0x3a,
79 #define OP_lit11 0x3b,
80 #define OP_lit12 0x3c,
81 #define OP_lit13 0x3d,
82 #define OP_lit14 0x3e,
83 #define OP_lit15 0x3f,
84 #define OP_lit16 0x40,
85 #define OP_lit17 0x41,
86 #define OP_lit18 0x42,
87 #define OP_lit19 0x43,
88 #define OP_lit20 0x44,
89 #define OP_lit21 0x45,
90 #define OP_lit22 0x46,
91 #define OP_lit23 0x47,
92 #define OP_lit24 0x48,
93 #define OP_lit25 0x49,
94 #define OP_lit26 0x4a,
95 #define OP_lit27 0x4b,
96 #define OP_lit28 0x4c,
97 #define OP_lit29 0x4d,
98 #define OP_lit30 0x4e,
99 #define OP_lit31 0x4f,
100 #define OP_reg0 0x50,
101 #define OP_reg1 0x51,
102 #define OP_reg2 0x52,
103 #define OP_reg3 0x53,
104 #define OP_reg4 0x54,
105 #define OP_reg5 0x55,
106 #define OP_reg6 0x56,
107 #define OP_reg7 0x57,
108 #define OP_reg8 0x58,
109 #define OP_reg9 0x59,
110 #define OP_reg10 0x5a,
111 #define OP_reg11 0x5b,
112 #define OP_reg12 0x5c,
113 #define OP_reg13 0x5d,
114 #define OP_reg14 0x5e,
115 #define OP_reg15 0x5f,
116 #define OP_reg16 0x60,
117 #define OP_reg17 0x61,
118 #define OP_reg18 0x62,
119 #define OP_reg19 0x63,
120 #define OP_reg20 0x64,
121 #define OP_reg21 0x65,
122 #define OP_reg22 0x66,
123 #define OP_reg23 0x67,
124 #define OP_reg24 0x68,
125 #define OP_reg25 0x69,
126 #define OP_reg26 0x6a,
127 #define OP_reg27 0x6b,
128 #define OP_reg28 0x6c,
129 #define OP_reg29 0x6d,
130 #define OP_reg30 0x6e,
131 #define OP_reg31 0x6f,
132 #define OP_breg0(x) 0x70,SLEB128(x),
133 #define OP_breg1(x) 0x71,SLEB128(x),
134 #define OP_breg2(x) 0x72,SLEB128(x),
135 #define OP_breg3(x) 0x73,SLEB128(x),
136 #define OP_breg4(x) 0x74,SLEB128(x),
137 #define OP_breg5(x) 0x75,SLEB128(x),
138 #define OP_breg6(x) 0x76,SLEB128(x),
139 #define OP_breg7(x) 0x77,SLEB128(x),
140 #define OP_breg8(x) 0x78,SLEB128(x),
141 #define OP_breg9(x) 0x79,SLEB128(x),
142 #define OP_breg10(x) 0x7a,SLEB128(x),
143 #define OP_breg11(x) 0x7b,SLEB128(x),
144 #define OP_breg12(x) 0x7c,SLEB128(x),
145 #define OP_breg13(x) 0x7d,SLEB128(x),
146 #define OP_breg14(x) 0x7e,SLEB128(x),
147 #define OP_breg15(x) 0x7f,SLEB128(x),
148 #define OP_breg16(x) 0x80,SLEB128(x),
149 #define OP_breg17(x) 0x81,SLEB128(x),
150 #define OP_breg18(x) 0x82,SLEB128(x),
151 #define OP_breg19(x) 0x83,SLEB128(x),
152 #define OP_breg20(x) 0x84,SLEB128(x),
153 #define OP_breg21(x) 0x85,SLEB128(x),
154 #define OP_breg22(x) 0x86,SLEB128(x),
155 #define OP_breg23(x) 0x87,SLEB128(x),
156 #define OP_breg24(x) 0x88,SLEB128(x),
157 #define OP_breg25(x) 0x89,SLEB128(x),
158 #define OP_breg26(x) 0x8a,SLEB128(x),
159 #define OP_breg27(x) 0x8b,SLEB128(x),
160 #define OP_breg28(x) 0x8c,SLEB128(x),
161 #define OP_breg29(x) 0x8d,SLEB128(x),
162 #define OP_breg30(x) 0x8e,SLEB128(x),
163 #define OP_breg31(x) 0x8f,SLEB128(x),
164 #define OP_regx(x) 0x90,SLEB128(x),
165 #define OP_fbreg(x) 0x91,SLEB128(x),
166 #define OP_bregx(x,y) 0x92,ULEB128(x),SLEB128(y),
167 #define OP_piece(x) 0x93,ULEB128(x),
168 #define OP_deref_size(x) 0x94,VAL1(x),
169 #define OP_xderef_size(x) 0x95,VAL1(x),
171 #define OP_nop_termination 0x96
172 #define OP_push_object_address 0x97,
173 #define OP_call2(x) 0x98,VAL2(x),
174 #define OP_call4(x) 0x99,VAL4(x),
175 /* #define OP_call_ref(x) 0x9a,... */
176 #define OP_form_tls_address(x) 0x9b,
177 #define OP_call_frame_cfa 0x9c,
178 #define OP_bit_piece(x) 0x9d,ULEB128(x),
179 /* #define OP_implicit_value(x...) 0x9e,... */
180 #define OP_stack_value 0x9f,
181 #define OP_GNU_push_tls_address 0xe0,
182 /* #define OP_GNU_encoded_addr(x...) 0xf1, */
184 #define ASSERT_TOS_NON0 OP_bra(3) OP_skip(-3)
185 #define ASSERT_TOS_0 OP_lit0 OP_eq ASSERT_TOS_NON0
187 /* Initially there is CFA value on the stack, we want to
188 keep it there at the end. */
189 #define CFI_PROGRAM \
190 OP_lit0 OP_nop ASSERT_TOS_0 \
191 OP_lit1 ASSERT_TOS_NON0 \
192 OP_lit1 OP_const1u(1) OP_eq ASSERT_TOS_NON0 \
193 OP_lit16 OP_const2u(16) OP_eq ASSERT_TOS_NON0 \
194 OP_lit31 OP_const4u(31) OP_ne ASSERT_TOS_0 \
195 OP_lit1 OP_neg OP_const1s(-1) OP_eq ASSERT_TOS_NON0 \
196 OP_lit16 OP_neg OP_const2s(-16) OP_ne ASSERT_TOS_0 \
197 OP_lit31 OP_const4s(-31) OP_neg OP_ne ASSERT_TOS_0 \
198 OP_lit7 OP_dup OP_plus_uconst(2) OP_lit9 OP_eq ASSERT_TOS_NON0 \
199 OP_lit7 OP_eq ASSERT_TOS_NON0 \
200 OP_lit20 OP_lit1 OP_drop OP_lit20 OP_eq ASSERT_TOS_NON0 \
201 OP_lit17 OP_lit19 OP_over OP_lit17 OP_eq ASSERT_TOS_NON0 \
202 OP_lit19 OP_eq ASSERT_TOS_NON0 OP_lit17 OP_eq ASSERT_TOS_NON0 \
203 OP_lit1 OP_lit2 OP_lit3 OP_lit4 OP_pick(2) OP_lit2 OP_eq ASSERT_TOS_NON0\
204 OP_lit4 OP_eq ASSERT_TOS_NON0 OP_lit3 OP_eq ASSERT_TOS_NON0 \
205 OP_pick(0) OP_lit2 OP_eq ASSERT_TOS_NON0 \
206 OP_lit2 OP_eq ASSERT_TOS_NON0 OP_lit1 OP_eq ASSERT_TOS_NON0 \
207 OP_lit6 OP_lit12 OP_swap OP_lit6 OP_eq ASSERT_TOS_NON0 \
208 OP_lit12 OP_eq ASSERT_TOS_NON0 \
209 OP_lit7 OP_lit8 OP_lit9 OP_rot OP_lit8 OP_eq ASSERT_TOS_NON0 \
210 OP_lit7 OP_eq ASSERT_TOS_NON0 OP_lit9 OP_eq ASSERT_TOS_NON0 \
211 OP_lit7 OP_abs OP_lit7 OP_eq ASSERT_TOS_NON0 \
212 OP_const1s(-123) OP_abs OP_const1u(123) OP_eq ASSERT_TOS_NON0 \
213 OP_lit3 OP_lit6 OP_and OP_lit2 OP_eq ASSERT_TOS_NON0 \
214 OP_lit3 OP_lit6 OP_or OP_lit7 OP_eq ASSERT_TOS_NON0 \
215 OP_lit17 OP_lit2 OP_minus OP_lit15 OP_eq ASSERT_TOS_NON0 \
216 /* Divide is signed truncating toward zero. */ \
217 OP_const1s(-6) OP_const1s(-2) OP_div OP_lit3 OP_eq ASSERT_TOS_NON0 \
218 OP_const1s(-7) OP_const1s(3) OP_div OP_const1s(-2) \
219 OP_eq ASSERT_TOS_NON0 \
220 /* Modulo is unsigned. */ \
221 OP_const1s(-6) OP_const1s(-4) OP_mod OP_const1s(-6) \
222 OP_eq ASSERT_TOS_NON0 \
223 OP_const1s(-6) OP_lit4 OP_mod OP_lit2 OP_eq ASSERT_TOS_NON0 \
224 OP_lit6 OP_const1s(-4) OP_mod OP_lit6 OP_eq ASSERT_TOS_NON0 \
225 /* Signed modulo can be implemented using "over over div mul minus". */\
226 OP_const1s(-6) OP_const1s(-4) OP_over OP_over OP_div OP_mul OP_minus \
227 OP_const1s(-2) OP_eq ASSERT_TOS_NON0 \
228 OP_const1s(-7) OP_lit3 OP_over OP_over OP_div OP_mul OP_minus \
229 OP_const1s(-1) OP_eq ASSERT_TOS_NON0 \
230 OP_lit7 OP_const1s(-3) OP_over OP_over OP_div OP_mul OP_minus \
231 OP_lit1 OP_eq ASSERT_TOS_NON0 \
232 OP_lit16 OP_lit31 OP_plus_uconst(1) OP_mul OP_const2u(512) \
233 OP_eq ASSERT_TOS_NON0 \
234 OP_lit5 OP_not OP_lit31 OP_and OP_lit26 OP_eq ASSERT_TOS_NON0 \
235 OP_lit12 OP_lit31 OP_plus OP_const1u(43) OP_eq ASSERT_TOS_NON0 \
236 OP_const1s(-6) OP_lit2 OP_plus OP_const1s(-4) OP_eq ASSERT_TOS_NON0 \
237 OP_const1s(-6) OP_plus_uconst(3) OP_const1s(-3) OP_eq ASSERT_TOS_NON0 \
238 OP_lit16 OP_lit4 OP_shl OP_const2u(256) OP_eq ASSERT_TOS_NON0 \
239 OP_lit16 OP_lit3 OP_shr OP_lit2 OP_eq ASSERT_TOS_NON0 \
240 OP_const1s(-16) OP_lit3 OP_shra OP_const1s(-2) OP_eq ASSERT_TOS_NON0 \
241 OP_lit3 OP_lit6 OP_xor OP_lit5 OP_eq ASSERT_TOS_NON0 \
242 OP_lit3 OP_lit6 OP_le ASSERT_TOS_NON0 \
243 OP_lit3 OP_lit3 OP_le ASSERT_TOS_NON0 \
244 OP_lit6 OP_lit3 OP_le ASSERT_TOS_0 \
245 OP_lit3 OP_lit6 OP_lt ASSERT_TOS_NON0 \
246 OP_lit3 OP_lit3 OP_lt ASSERT_TOS_0 \
247 OP_lit6 OP_lit3 OP_lt ASSERT_TOS_0 \
248 OP_lit3 OP_lit6 OP_ge ASSERT_TOS_0 \
249 OP_lit3 OP_lit3 OP_ge ASSERT_TOS_NON0 \
250 OP_lit6 OP_lit3 OP_ge ASSERT_TOS_NON0 \
251 OP_lit3 OP_lit6 OP_gt ASSERT_TOS_0 \
252 OP_lit3 OP_lit3 OP_gt ASSERT_TOS_0 \
253 OP_lit6 OP_lit3 OP_gt ASSERT_TOS_NON0 \
254 OP_const1s(-6) OP_lit1 OP_shr OP_lit0 OP_gt ASSERT_TOS_NON0 \
255 OP_const1s(-6) OP_lit1 OP_shra OP_lit0 OP_lt ASSERT_TOS_NON0
257 #define CFI_ESCAPE_VAL_2(VALUES...) #VALUES
258 #define CFI_ESCAPE_VAL_1(VALUES...) CFI_ESCAPE_VAL_2(VALUES)
259 #define CFI_ESCAPE_VAL(VALUES...) CFI_ESCAPE_VAL_1(VALUES)
260 #define CFI_ESCAPE do { } while (0)
261 #define CFI_ARCH_PROGRAM OP_nop_termination
262 #ifdef __GCC_HAVE_DWARF2_CFI_ASM
263 #if defined (__x86_64__)
265 #undef CFI_ARCH_PROGRAM
266 #define CFI_ARCH_PROGRAM CFI_PROGRAM OP_lit8 OP_minus OP_nop_termination
267 unsigned char cfi_arch_program[] = { CFI_ARCH_PROGRAM };
268 extern char verify_it[sizeof (cfi_arch_program) - 0x80 < 0x3f80 ? 1 : -1];
269 /* DW_CFA_expression %rip, uleb128(l2-l1), l1: program DW_OP_lit8 DW_OP_minus DW_OP_nop l2: */
271 asm volatile (".cfi_escape 0x10, 0x10, (%P0&0x7f)+0x80, %P0>>7, " \
272 CFI_ESCAPE_VAL (CFI_ARCH_PROGRAM) \
273 : : "i" (sizeof (cfi_arch_program)))
274 #elif defined (__i386__)
276 #undef CFI_ARCH_PROGRAM
277 #define CFI_ARCH_PROGRAM CFI_PROGRAM OP_lit4 OP_minus OP_nop_termination
278 unsigned char cfi_arch_program[] = { CFI_ARCH_PROGRAM };
279 extern char verify_it[sizeof (cfi_arch_program) - 0x80 < 0x3f80 ? 1 : -1];
280 /* DW_CFA_expression %eip, uleb128(l2-l1), l1: program DW_OP_lit4 DW_OP_minus DW_OP_nop l2: */
282 asm volatile (".cfi_escape 0x10, 8, (%P0&0x7f)+0x80, %P0>>7, " \
283 CFI_ESCAPE_VAL (CFI_ARCH_PROGRAM) \
284 : : "i" (sizeof (cfi_arch_program)))
287 static _Unwind_Reason_Code
288 force_unwind_stop (int version, _Unwind_Action actions,
289 _Unwind_Exception_Class exc_class,
290 struct _Unwind_Exception *exc_obj,
291 struct _Unwind_Context *context,
292 void *stop_parameter)
294 if (actions & _UA_END_OF_STACK)
296 return _URC_NO_REASON;
299 static void force_unwind ()
301 struct _Unwind_Exception *exc = malloc (sizeof (*exc));
302 memset (&exc->exception_class, 0, sizeof (exc->exception_class));
303 exc->exception_cleanup = 0;
305 #ifndef __USING_SJLJ_EXCEPTIONS__
306 _Unwind_ForcedUnwind (exc, force_unwind_stop, 0);
308 _Unwind_SjLj_ForcedUnwind (exc, force_unwind_stop, 0);
314 static void handler (void *p __attribute__((unused)))
319 __attribute__((noinline)) static void callme ()
325 __attribute__((noinline)) static void doit ()
327 char dummy __attribute__((cleanup (handler)));