codegen: move gen_imm from arch-specific files to codegen.c
[ajla.git] / asm.c
blob06ed7bea35acac12cf50a6f30f363f9eeaa02c74
1 /*
2 * Copyright (C) 2024 Mikulas Patocka
4 * This file is part of Ajla.
6 * Ajla is free software: you can redistribute it and/or modify it under the
7 * terms of the GNU General Public License as published by the Free Software
8 * Foundation, either version 3 of the License, or (at your option) any later
9 * version.
11 * Ajla is distributed in the hope that it will be useful, but WITHOUT ANY
12 * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
13 * A PARTICULAR PURPOSE. See the GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License along with
16 * Ajla. If not, see <https://www.gnu.org/licenses/>.
19 #include "ajla.h"
21 #include "str.h"
22 #include "os_util.h"
23 #include "arithm-b.h"
24 #include "arithm-i.h"
25 #include "arithm-r.h"
27 #include "asm.h"
29 #ifdef DEBUG_CRASH_HANDLER
30 void *u_data_trap_lookup(void *ptr);
31 void *c_data_trap_lookup(void *ptr);
32 static void dump_registers(int sig, ucontext_t *uc)
34 int i;
35 #if defined(ARCH_IA64)
36 debug("%s at %lx", sig == SIGSEGV ? "sigsegv" : sig == SIGBUS ? "sigbus" : "sigill", uc->uc_mcontext.sc_ip);
37 for (i = 0; i < 32; i += 2) {
38 debug("gr_%02x = %016lx gr_%02x = %016lx", i, uc->uc_mcontext.sc_gr[i], i + 1, uc->uc_mcontext.sc_gr[i + 1]);
40 /*for (i = 0; i < 32; i += 2) {
41 debug("gr_%02x = %016lx gr_%02x = %016lx", 32 + i, ptr[i - 16], 32 + i + 1, ptr[i + 1 - 16]);
42 }*/
43 for (i = 0; i < 8; i += 2) {
44 debug("br_%02x = %016lx br_%02x = %016lx", i, uc->uc_mcontext.sc_br[i], i + 1, uc->uc_mcontext.sc_br[i + 1]);
46 #endif
47 #if defined(ARCH_MIPS)
48 debug("%s at %llx", sig == SIGSEGV ? "sigsegv" : sig == SIGBUS ? "sigbus" : "sigill", uc->uc_mcontext.pc);
49 for (i = 0; i < 32; i++)
50 debug("gpr_%d = %llx", i, uc->uc_mcontext.gregs[i]);
51 call(data_trap_lookup)(num_to_ptr(uc->uc_mcontext.pc));
52 #endif
53 #if defined(ARCH_POWER)
54 debug("%s at %lx", sig == SIGSEGV ? "sigsegv" : sig == SIGBUS ? "sigbus" : "sigill", uc->uc_mcontext.regs->nip);
55 for (i = 0; i < 32; i++)
56 debug("gpr_%d = %lx", i, uc->uc_mcontext.regs->gpr[i]);
57 #endif
58 #if defined(ARCH_S390)
59 debug("%s at %lx", sig == SIGSEGV ? "sigsegv" : sig == SIGBUS ? "sigbus" : "sigill", uc->uc_mcontext.psw.addr);
60 for (i = 0; i < 16; i++)
61 debug("gpr_%d = %lx", i, uc->uc_mcontext.gregs[i]);
62 #endif
63 #if defined(__SH4__)
64 debug("%s at %x", sig == SIGSEGV ? "sigsegv" : sig == SIGBUS ? "sigbus" : "sigill", uc->uc_mcontext.pc);
65 for (i = 0; i < 16; i++)
66 debug("gpr_%d = %x", i, uc->uc_mcontext.gregs[i]);
67 debug("pr = %x", uc->uc_mcontext.pr);
68 debug("sr = %x", uc->uc_mcontext.sr);
69 debug("gbr = %x", uc->uc_mcontext.gbr);
70 debug("mach = %x", uc->uc_mcontext.mach);
71 debug("macl = %x", uc->uc_mcontext.macl);
72 #endif
74 static void crash(int sig, siginfo_t attr_unused *siginfo, void *ucontext)
76 dump_registers(sig, ucontext);
77 _exit(127);
79 #endif
81 static const char * const cpu_feature_names[] = {
82 #define ASM_INC_NAMES
83 #include "asm.inc"
84 #undef ASM_INC_NAMES
85 NULL
88 cpu_feature_mask_t cpu_feature_flags = 0;
89 static bool detection_failed;
93 #ifdef ARCH_ALPHA
95 static uint32_t amask = 0;
96 static void alpha_read_amask(void)
98 char *c;
99 size_t cs;
100 uint64_t (*fn)(void);
101 uint64_t res;
102 str_init(&c, &cs);
103 str_add_hex(&c, &cs, "ffff1f20200ce0470180fa6b");
104 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
105 res = fn();
106 os_code_unmap(fn, cs);
107 amask = ~res;
110 #endif
114 #ifdef ARCH_ARM
116 #ifdef HAVE_SYS_AUXV_H
117 #include <sys/auxv.h>
118 #endif
120 static uint32_t elf_hwcap;
121 static unsigned arm_arch;
123 static char *proc_get_field(const char *data, const char *field)
125 again:
126 if (!strncmp(data, field, strlen(field))) {
127 const char *colon, *newline;
128 colon = strchr(data, ':');
129 newline = strchr(data, '\n');
130 if (!newline)
131 newline = strchr(data, 0);
132 if (!colon || colon > newline)
133 return NULL;
134 colon++;
135 while (*colon == ' ' || *colon == '\t')
136 colon++;
137 return str_dup(colon, newline - colon, NULL);
139 data = strchr(data, '\n');
140 if (!data)
141 return NULL;
142 data++;
143 goto again;
146 static void arm_read_caps(void)
148 ajla_error_t sink;
149 char *data;
150 char *arch;
151 size_t i, l;
152 unsigned long c = 0;
153 elf_hwcap = c;
154 arm_arch = ARM_VERSION;
155 #if defined(HAVE_GETAUXVAL) && defined(AT_PLATFORM) && !defined(UNUSUAL)
156 c = getauxval(AT_PLATFORM);
157 if (c) {
158 const char *p = (const char *)c;
159 if (!strcmp(p, "aarch64")) {
160 arm_arch = 8;
161 goto got_arch;
163 if (p[0] != 'v')
164 goto no_aux_platform;
165 if (p[1] < '1' || p[1] > '9')
166 goto no_aux_platform;
167 arm_arch = atoi(&p[1]);
168 goto got_arch;
170 no_aux_platform:
171 #endif
172 if (!os_read_file("/proc/cpuinfo", &data, &l, &sink))
173 array_init(char, &data, &l);
174 array_add(char, &data, &l, 0);
175 arch = proc_get_field(data, "CPU architecture");
176 if (arch) {
177 int a = atoi(arch);
178 if (a == 7) {
179 char *proc = proc_get_field(data, "Processor");
180 if (!proc) proc = proc_get_field(data, "model name");
181 if (proc) {
182 if (strstr(proc, "(v6l)"))
183 a = 6;
184 mem_free(proc);
187 mem_free(arch);
188 if (a > 0) {
189 arm_arch = a;
190 goto got_arch_free;
193 #ifdef ARM_VERSION_UNKNOWN
194 detection_failed = true;
195 #endif
196 got_arch_free:
197 mem_free(data);
198 goto got_arch; /* avoid warning */
199 got_arch:
200 #if defined(HAVE_GETAUXVAL) && defined(AT_HWCAP) && !defined(UNUSUAL)
201 c = getauxval(AT_HWCAP);
202 if (c) {
203 elf_hwcap = c;
204 goto got_hwcap;
206 #endif
207 if (!os_read_file("/proc/self/auxv", &data, &l, &sink))
208 array_init(char, &data, &l);
209 for (i = 0; i + sizeof(unsigned long) * 2 > i && i + sizeof(unsigned long) * 2 <= l; i += sizeof(unsigned long) * 2) {
210 unsigned long tag = *(unsigned long *)(data + i);
211 unsigned long value = *(unsigned long *)(data + i + sizeof(unsigned long));
212 if (tag == 16) {
213 elf_hwcap = value;
214 goto got_hwcap_free;
218 detection_failed = true;
219 got_hwcap_free:
220 mem_free(data);
221 goto got_hwcap; /* avoid warning */
222 got_hwcap:
224 /*debug("arm arch %u, caps %x", arm_arch, elf_hwcap);*/
227 #endif
230 #ifdef ARCH_IA64
232 static uint64_t cpuid_4 = 0;
233 static void ia64_read_cpuid(void)
235 void * volatile desc[2];
236 char *c;
237 size_t cs;
238 str_init(&c, &cs);
239 str_add_hex(&c, &cs, "0a4000401704000000020000000004001d000000010000000002008008008400");
240 desc[0] = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
241 desc[1] = NULL;
242 cpuid_4 = ((uint64_t (*)(uint64_t))desc)(4);
243 os_code_unmap(desc[0], cs);
246 #endif
249 #ifdef ARCH_LOONGARCH64
251 static uint32_t cpucfg_1 = 0;
252 static void loongarch_read_cpucfg(void)
254 char *c;
255 size_t cs;
256 uint64_t (*fn)(uint64_t);
257 str_init(&c, &cs);
258 str_add_hex(&c, &cs, "846c00002000004c");
259 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
260 cpucfg_1 = fn(1);
261 os_code_unmap(fn, cs);
264 #endif
268 #ifdef ARCH_PARISC32
270 #include <unistd.h>
271 static bool parisc_detect_20(void)
273 #if defined(__hpux) && defined(_SC_KERNEL_BITS)
274 return sysconf(_SC_KERNEL_BITS) == 64;
275 #else
276 os_utsname_t un;
277 os_get_uname(&un);
278 return !strcasecmp(un.machine, "parisc64");
279 #endif
282 #endif
286 #ifdef ARCH_POWER
288 static void sigill(int attr_unused sig, siginfo_t attr_unused *siginfo, void *ucontext)
290 ucontext_t *uc = ucontext;
291 uc->uc_mcontext.regs->nip += 4;
292 uc->uc_mcontext.regs->gpr[3] = 0;
295 static bool trap_insn(const char *hex)
297 char *c;
298 size_t cs;
299 size_t attr_unused i;
300 int (*fn)(void);
301 int ret;
302 if (unlikely(!OS_SUPPORTS_TRAPS)) {
303 detection_failed = true;
304 return false;
306 str_init(&c, &cs);
307 str_add_hex(&c, &cs, "38600001");
308 str_add_hex(&c, &cs, hex);
309 str_add_hex(&c, &cs, "4e800020");
310 #if defined(C_LITTLE_ENDIAN)
311 for (i = 0; i < cs; i += 4) {
312 char t;
313 t = c[i]; c[i] = c[i + 3]; c[i + 3] = t;
314 t = c[i + 1]; c[i + 1] = c[i + 2]; c[i + 2] = t;
316 #endif
317 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
318 #ifdef _CALL_AIXDESC
320 volatile uintptr_t desc[3];
321 desc[0] = ptr_to_num(fn);
322 desc[1] = 0;
323 desc[2] = 0;
324 ret = ((int (*)(void))desc)();
326 #else
327 ret = fn();
328 #endif
329 os_code_unmap(fn, cs);
330 /*debug("trap: %d", ret);*/
331 return ret;
334 #endif
338 #ifdef ARCH_RISCV64
340 static void sigill(int attr_unused sig, siginfo_t attr_unused *siginfo, void *ucontext)
342 ucontext_t *uc = ucontext;
343 uc->uc_mcontext.__gregs[REG_PC] += 4;
344 uc->uc_mcontext.__gregs[REG_A0] = 0;
347 static bool trap_insn(const char *hex)
349 char *c;
350 size_t cs;
351 int (*fn)(void);
352 int ret;
353 if (unlikely(!OS_SUPPORTS_TRAPS)) {
354 detection_failed = true;
355 return false;
357 str_init(&c, &cs);
358 str_add_hex(&c, &cs, "0545");
359 str_add_hex(&c, &cs, hex);
360 str_add_hex(&c, &cs, "8280");
361 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
362 ret = fn();
363 os_code_unmap(fn, cs);
364 /*debug("trap: %d", ret);*/
365 return ret;
368 #endif
372 #ifdef ARCH_S390
374 static uint64_t s390_facilities[4];
376 static void s390_sigill(int attr_unused sig, siginfo_t attr_unused *siginfo, void *ucontext)
378 ucontext_t *uc = ucontext;
379 uc->uc_mcontext.psw.addr += 4;
380 detection_failed = true;
383 static void s390_stfle(void)
385 char *c;
386 size_t cs;
387 void (*fn)(uint64_t *);
388 memset(&s390_facilities, 0, sizeof s390_facilities);
389 if (unlikely(!OS_SUPPORTS_TRAPS)) {
390 detection_failed = true;
391 return;
393 str_init(&c, &cs);
394 str_add_hex(&c, &cs, "a7090003b2b0200007fe");
395 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
396 os_signal_trap(SIGILL, s390_sigill);
397 fn(s390_facilities);
398 os_signal_untrap(SIGILL);
399 os_code_unmap(fn, cs);
400 #if 0
401 debug("facilities0: %016llx", (unsigned long long)s390_facilities[0]);
402 debug("facilities1: %016llx", (unsigned long long)s390_facilities[1]);
403 debug("facilities2: %016llx", (unsigned long long)s390_facilities[2]);
404 debug("facilities3: %016llx", (unsigned long long)s390_facilities[3]);
405 #endif
408 static bool test_facility(unsigned f)
410 return (s390_facilities[f >> 6] >> (~f & 63)) & 1;
413 #endif
416 #ifdef ARCH_RISCV64
418 static struct {
419 int64_t key;
420 uint64_t value;
421 } riscv_hwp[2];
423 static void riscv64_syscall(void)
425 int r;
426 memset(riscv_hwp, 0, sizeof riscv_hwp);
427 riscv_hwp[0].key = 4;
428 riscv_hwp[1].key = 5;
429 #ifdef HAVE_SYSCALL
430 EINTR_LOOP(r, syscall(258, riscv_hwp, n_array_elements(riscv_hwp), 0, NULL, 0));
431 #else
432 r = -1;
433 #endif
434 if (r == -1) {
435 riscv_hwp[0].key = -1;
436 riscv_hwp[1].key = -1;
440 #endif
443 #ifdef ARCH_SPARC32
445 static bool sparc_detect_9(void)
447 os_utsname_t un;
448 os_get_uname(&un);
449 return !strcasecmp(un.machine, "sparc64");
452 #endif
456 #ifdef ARCH_X86
458 #if !defined(ARCH_X86_32) || defined(__i686__) || defined(__athlon__) || defined(__SSE__)
459 #define test_eflags_bits() do { } while (0)
460 #define eflags_bits ((1U << 18) | (1U << 21))
461 #else
462 static uint32_t eflags_bits = 0;
463 static void test_eflags_bits(void)
465 char *c;
466 size_t cs;
467 uint32_t (*fn)(void);
468 sig_state_t set;
469 str_init(&c, &cs);
470 str_add_hex(&c, &cs, "b8000024009c330424509d9c583304249dc3");
471 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
472 os_block_signals(&set);
473 eflags_bits = fn();
474 os_unblock_signals(&set);
475 os_code_unmap(fn, cs);
477 #endif
479 static uint32_t cpuid_0[4];
480 static uint32_t cpuid_1[4];
481 static uint32_t cpuid_7[4];
482 static uint32_t cpuid_8_0[4];
483 static uint32_t cpuid_8_1[4];
485 static void do_cpuid(void)
487 char *c;
488 size_t cs;
489 void (*cpuid)(uint32_t level, uint32_t sublevel, uint32_t *result);
491 memset(cpuid_0, 0, sizeof cpuid_0);
492 memset(cpuid_1, 0, sizeof cpuid_1);
493 memset(cpuid_7, 0, sizeof cpuid_7);
494 memset(cpuid_8_0, 0, sizeof cpuid_8_0);
495 memset(cpuid_8_0, 1, sizeof cpuid_8_1);
496 if (unlikely(!(eflags_bits & (1U << 21))))
497 return;
499 str_init(&c, &cs);
500 #if defined(ARCH_X86_32)
501 str_add_hex(&c, &cs, "53568b44240c8b4c24100fa28b7424148906895e04894e0889560c5e5bc3");
502 #elif defined(ARCH_X86_64) && defined(ARCH_X86_WIN_ABI)
503 str_add_hex(&c, &cs, "5389c889d10fa241890041895804418948084189500c5bc3");
504 #elif defined(ARCH_X86_64)
505 str_add_hex(&c, &cs, "5389f889f14889d60fa28906895e04894e0889560c5bc3");
506 #elif defined(ARCH_X86_X32)
507 str_add_hex(&c, &cs, "5389f889f189d60fa28906895e04894e0889560c5bc3");
508 #else
509 unknown arch
510 #endif
511 cpuid = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
513 cpuid(0, 0, cpuid_0);
514 if (likely(cpuid_0[0] >= 1))
515 cpuid(1, 0, cpuid_1);
516 if (likely(cpuid_0[0] >= 7))
517 cpuid(7, 0, cpuid_7);
518 cpuid(0x80000000, 0, cpuid_8_0);
519 if (likely((cpuid_8_0[0] & 0xffff0000) == 0x80000000)) {
520 if (likely(cpuid_8_0[0] >= 0x80000001))
521 cpuid(0x80000001, 0, cpuid_8_1);
524 os_code_unmap(cpuid, cs);
527 static bool test_fxsave(void)
529 #if defined(ARCH_X86_32)
530 bool supported;
531 unsigned char space[1024 + 15] = ""; /* avoid warning */
532 unsigned char *mem = space + (-ptr_to_num(space) & 15);
534 char *c;
535 size_t cs;
536 void (*fn)(unsigned char *ptr);
538 mem[160] = 0;
539 mem[160 + 512] = 0;
541 str_init(&c, &cs);
542 str_add_hex(&c, &cs, "8b4424040fae00fe80a00000000fae080fae8000020000c3");
543 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
544 fn(mem);
545 os_code_unmap(fn, cs);
546 supported = mem[160] == mem[160 + 512];
547 return supported;
548 #else
549 return true;
550 #endif
553 static bool test_xcr0(unsigned mask)
555 char *c;
556 size_t cs;
557 uint32_t (*fn)(void);
558 uint32_t res;
559 str_init(&c, &cs);
560 str_add_hex(&c, &cs, "31c90f01d0c3");
561 fn = os_code_map(cast_ptr(uint8_t *, c), cs, NULL);
562 res = fn();
563 os_code_unmap(fn, cs);
564 return (res & mask) == mask;
567 #endif
571 attr_noinline void asm_setup_thread(void)
573 #if defined(INLINE_ASM_GCC_X86)
574 #if 0
576 unsigned short fpcw;
577 unsigned mxcsr;
578 __asm__ volatile("fstcw %0" : "=m"(fpcw));
579 __asm__ volatile("stmxcsr %0" : "=m"(mxcsr));
580 debug("fpcw: %x, mxcsr: %x", fpcw, mxcsr);
582 #endif
584 unsigned short fpcw = 0x37f;
585 __asm__ volatile("fldcw %0" : : "m"(fpcw));
587 #if defined(HAVE_X86_ASSEMBLER_SSE)
588 if (likely(cpu_test_feature(CPU_FEATURE_sse))) {
589 unsigned mxcsr = 0x1f80;
590 __asm__ volatile("ldmxcsr %0" : : "m"(mxcsr));
592 #endif
593 #endif
594 #if defined(INLINE_ASM_GCC_ARM)
595 __asm__ volatile (ARM_ASM_PREFIX "vmsr fpscr, %0" : : "r"(0));
596 #endif
597 #if defined(INLINE_ASM_GCC_ARM64)
598 __asm__ volatile (ARM_ASM_PREFIX "msr fpcr, %0" : : "r"(0UL));
599 #endif
603 static const struct {
604 code_t orig;
605 code_t alt;
606 cpu_feature_mask_t mask;
607 } code_alttable[] = {
608 #define EMIT_ALTTABLE(orig, alt, flags) { orig, alt, flags },
609 #include "ipret.inc"
610 { 0, 0, 0 }
612 #define code_alttable_n (n_array_elements(code_alttable) - 1)
614 code_t code_alt(code_t code)
616 code_t ret;
617 size_t s;
618 binary_search(size_t, code_alttable_n, s, false, code_alttable[s].orig < code, break);
619 ret = code;
620 for (; s < code_alttable_n + uzero && code_alttable[s].orig == code; s++) {
621 if ((cpu_feature_flags & code_alttable[s].mask) == code_alttable[s].mask)
622 ret = code_alttable[s].alt;
624 /*if (code != ret) debug("code alt: %x -> %x", code, ret);*/
625 return ret;
628 #ifdef DEBUG_BIST
629 static attr_noinline void verify_alttable(void)
631 int i;
632 /*debug("Alttable size: %x", (unsigned)code_alttable_n);*/
633 for (i = 0; i < (int)code_alttable_n - 1; i++) {
634 /*debug("Alttable: %x -> %x", code_alttable[i].orig, code_alttable[i].alt);*/
635 if (unlikely(code_alttable[i].orig > code_alttable[i + 1].orig))
636 internal(file_line, "verify_alttable: code_alttable is not sorted: 0x%x > 0x%x @ %d", (unsigned)code_alttable[i].orig, (unsigned)code_alttable[i + 1].orig, i);
637 /*code_alt(code_alttable[i].orig);*/
640 #else
641 #define verify_alttable() do { } while (0)
642 #endif
645 void asm_init(void)
647 bool trap_sigill = false;
648 uint32_t missing_features;
650 verify_alttable();
652 detection_failed = false;
653 #ifdef ARCH_ALPHA
654 alpha_read_amask();
655 #endif
656 #ifdef ARCH_ARM
657 arm_read_caps();
658 #endif
659 #ifdef ARCH_IA64
660 ia64_read_cpuid();
661 #endif
662 #ifdef ARCH_LOONGARCH64
663 loongarch_read_cpucfg();
664 #endif
665 #ifdef ARCH_POWER
666 trap_sigill = true;
667 #endif
668 #ifdef ARCH_S390
669 s390_stfle();
670 #endif
671 #ifdef ARCH_RISCV64
672 riscv64_syscall();
673 if (riscv_hwp[0].key < 0)
674 trap_sigill = true;
675 #endif
676 #ifdef ARCH_X86
677 test_eflags_bits();
678 do_cpuid();
679 #endif
680 if (trap_sigill) {
681 #if defined(ARCH_POWER) || defined(ARCH_RISCV64)
682 os_signal_trap(SIGILL, sigill);
683 #endif
685 #define ASM_INC_DYNAMIC
686 #include "asm.inc"
687 #undef ASM_INC_DYNAMIC
688 if (trap_sigill) {
689 #if defined(ARCH_POWER) || defined(ARCH_RISCV64)
690 os_signal_untrap(SIGILL);
691 #endif
693 if (unlikely(detection_failed))
694 cpu_feature_flags |= cpu_feature_static_flags;
695 missing_features = cpu_feature_static_flags & ~cpu_feature_flags;
696 if (unlikely(missing_features != 0)) {
697 int first;
698 int f;
699 char *error;
700 size_t error_l;
701 str_init(&error, &error_l);
702 str_add_string(&error, &error_l, "CPU doesn't have the following features: ");
703 for (first = 1, f = 0; missing_features; missing_features >>= 1, f++) {
704 if (missing_features & 1) {
705 if (!first)
706 str_add_string(&error, &error_l, ", ");
707 first = 0;
708 str_add_string(&error, &error_l, cpu_feature_names[f]);
711 str_finish(&error, &error_l);
712 fatal("%s", error);
714 #ifdef DEBUG_ENV
716 char *str = getenv("CPU_FLAGS");
717 if (str && *str) {
718 char *e;
719 cpu_feature_flags = strtoul(str, &e, 16);
720 if (unlikely(*e))
721 fatal("invalid CPU_FLAGS");
724 #endif
725 #ifdef DEBUG_ENV
726 if (getenv("PRINT_FLAGS")) {
727 debug("static flags: %x", cpu_feature_static_flags);
728 debug("dynamic flags: %x", cpu_feature_flags);
730 #endif
731 asm_setup_thread();
733 #ifdef DEBUG_CRASH_HANDLER
734 os_signal_trap(SIGSEGV, crash);
735 os_signal_trap(SIGBUS, crash);
736 os_signal_trap(SIGILL, crash);
737 #endif
740 void asm_done(void)
742 #ifdef DEBUG_CRASH_HANDLER
743 os_signal_untrap(SIGSEGV);
744 os_signal_untrap(SIGBUS);
745 os_signal_untrap(SIGILL);
746 #endif