xref: /openbmc/qemu/target/alpha/translate.c (revision d2dfe0b5)
1 /*
2  *  Alpha emulation cpu translation for qemu.
3  *
4  *  Copyright (c) 2007 Jocelyn Mayer
5  *
6  * This library is free software; you can redistribute it and/or
7  * modify it under the terms of the GNU Lesser General Public
8  * License as published by the Free Software Foundation; either
9  * version 2.1 of the License, or (at your option) any later version.
10  *
11  * This library is distributed in the hope that it will be useful,
12  * but WITHOUT ANY WARRANTY; without even the implied warranty of
13  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
14  * Lesser General Public License for more details.
15  *
16  * You should have received a copy of the GNU Lesser General Public
17  * License along with this library; if not, see <http://www.gnu.org/licenses/>.
18  */
19 
20 #include "qemu/osdep.h"
21 #include "cpu.h"
22 #include "sysemu/cpus.h"
23 #include "disas/disas.h"
24 #include "qemu/host-utils.h"
25 #include "exec/exec-all.h"
26 #include "tcg/tcg-op.h"
27 #include "exec/cpu_ldst.h"
28 #include "exec/helper-proto.h"
29 #include "exec/helper-gen.h"
30 #include "exec/translator.h"
31 #include "exec/log.h"
32 
33 #define HELPER_H "helper.h"
34 #include "exec/helper-info.c.inc"
35 #undef  HELPER_H
36 
37 #undef ALPHA_DEBUG_DISAS
38 #define CONFIG_SOFTFLOAT_INLINE
39 
40 #ifdef ALPHA_DEBUG_DISAS
41 #  define LOG_DISAS(...) qemu_log_mask(CPU_LOG_TB_IN_ASM, ## __VA_ARGS__)
42 #else
43 #  define LOG_DISAS(...) do { } while (0)
44 #endif
45 
46 typedef struct DisasContext DisasContext;
47 struct DisasContext {
48     DisasContextBase base;
49 
50 #ifdef CONFIG_USER_ONLY
51     MemOp unalign;
52 #else
53     uint64_t palbr;
54 #endif
55     uint32_t tbflags;
56     int mem_idx;
57 
58     /* implver and amask values for this CPU.  */
59     int implver;
60     int amask;
61 
62     /* Current rounding mode for this TB.  */
63     int tb_rm;
64     /* Current flush-to-zero setting for this TB.  */
65     int tb_ftz;
66 
67     /* The set of registers active in the current context.  */
68     TCGv *ir;
69 
70     /* Temporaries for $31 and $f31 as source and destination.  */
71     TCGv zero;
72     TCGv sink;
73 };
74 
75 #ifdef CONFIG_USER_ONLY
76 #define UNALIGN(C)  (C)->unalign
77 #else
78 #define UNALIGN(C)  MO_ALIGN
79 #endif
80 
81 /* Target-specific return values from translate_one, indicating the
82    state of the TB.  Note that DISAS_NEXT indicates that we are not
83    exiting the TB.  */
84 #define DISAS_PC_UPDATED_NOCHAIN  DISAS_TARGET_0
85 #define DISAS_PC_UPDATED          DISAS_TARGET_1
86 #define DISAS_PC_STALE            DISAS_TARGET_2
87 
88 /* global register indexes */
89 static TCGv cpu_std_ir[31];
90 static TCGv cpu_fir[31];
91 static TCGv cpu_pc;
92 static TCGv cpu_lock_addr;
93 static TCGv cpu_lock_value;
94 
95 #ifndef CONFIG_USER_ONLY
96 static TCGv cpu_pal_ir[31];
97 #endif
98 
99 void alpha_translate_init(void)
100 {
101 #define DEF_VAR(V)  { &cpu_##V, #V, offsetof(CPUAlphaState, V) }
102 
103     typedef struct { TCGv *var; const char *name; int ofs; } GlobalVar;
104     static const GlobalVar vars[] = {
105         DEF_VAR(pc),
106         DEF_VAR(lock_addr),
107         DEF_VAR(lock_value),
108     };
109 
110 #undef DEF_VAR
111 
112     /* Use the symbolic register names that match the disassembler.  */
113     static const char greg_names[31][4] = {
114         "v0", "t0", "t1", "t2", "t3", "t4", "t5", "t6",
115         "t7", "s0", "s1", "s2", "s3", "s4", "s5", "fp",
116         "a0", "a1", "a2", "a3", "a4", "a5", "t8", "t9",
117         "t10", "t11", "ra", "t12", "at", "gp", "sp"
118     };
119     static const char freg_names[31][4] = {
120         "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7",
121         "f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15",
122         "f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",
123         "f24", "f25", "f26", "f27", "f28", "f29", "f30"
124     };
125 #ifndef CONFIG_USER_ONLY
126     static const char shadow_names[8][8] = {
127         "pal_t7", "pal_s0", "pal_s1", "pal_s2",
128         "pal_s3", "pal_s4", "pal_s5", "pal_t11"
129     };
130 #endif
131 
132     int i;
133 
134     for (i = 0; i < 31; i++) {
135         cpu_std_ir[i] = tcg_global_mem_new_i64(cpu_env,
136                                                offsetof(CPUAlphaState, ir[i]),
137                                                greg_names[i]);
138     }
139 
140     for (i = 0; i < 31; i++) {
141         cpu_fir[i] = tcg_global_mem_new_i64(cpu_env,
142                                             offsetof(CPUAlphaState, fir[i]),
143                                             freg_names[i]);
144     }
145 
146 #ifndef CONFIG_USER_ONLY
147     memcpy(cpu_pal_ir, cpu_std_ir, sizeof(cpu_pal_ir));
148     for (i = 0; i < 8; i++) {
149         int r = (i == 7 ? 25 : i + 8);
150         cpu_pal_ir[r] = tcg_global_mem_new_i64(cpu_env,
151                                                offsetof(CPUAlphaState,
152                                                         shadow[i]),
153                                                shadow_names[i]);
154     }
155 #endif
156 
157     for (i = 0; i < ARRAY_SIZE(vars); ++i) {
158         const GlobalVar *v = &vars[i];
159         *v->var = tcg_global_mem_new_i64(cpu_env, v->ofs, v->name);
160     }
161 }
162 
163 static TCGv load_zero(DisasContext *ctx)
164 {
165     if (!ctx->zero) {
166         ctx->zero = tcg_constant_i64(0);
167     }
168     return ctx->zero;
169 }
170 
171 static TCGv dest_sink(DisasContext *ctx)
172 {
173     if (!ctx->sink) {
174         ctx->sink = tcg_temp_new();
175     }
176     return ctx->sink;
177 }
178 
179 static void free_context_temps(DisasContext *ctx)
180 {
181     if (ctx->sink) {
182         tcg_gen_discard_i64(ctx->sink);
183         ctx->sink = NULL;
184     }
185 }
186 
187 static TCGv load_gpr(DisasContext *ctx, unsigned reg)
188 {
189     if (likely(reg < 31)) {
190         return ctx->ir[reg];
191     } else {
192         return load_zero(ctx);
193     }
194 }
195 
196 static TCGv load_gpr_lit(DisasContext *ctx, unsigned reg,
197                          uint8_t lit, bool islit)
198 {
199     if (islit) {
200         return tcg_constant_i64(lit);
201     } else if (likely(reg < 31)) {
202         return ctx->ir[reg];
203     } else {
204         return load_zero(ctx);
205     }
206 }
207 
208 static TCGv dest_gpr(DisasContext *ctx, unsigned reg)
209 {
210     if (likely(reg < 31)) {
211         return ctx->ir[reg];
212     } else {
213         return dest_sink(ctx);
214     }
215 }
216 
217 static TCGv load_fpr(DisasContext *ctx, unsigned reg)
218 {
219     if (likely(reg < 31)) {
220         return cpu_fir[reg];
221     } else {
222         return load_zero(ctx);
223     }
224 }
225 
226 static TCGv dest_fpr(DisasContext *ctx, unsigned reg)
227 {
228     if (likely(reg < 31)) {
229         return cpu_fir[reg];
230     } else {
231         return dest_sink(ctx);
232     }
233 }
234 
235 static int get_flag_ofs(unsigned shift)
236 {
237     int ofs = offsetof(CPUAlphaState, flags);
238 #if HOST_BIG_ENDIAN
239     ofs += 3 - (shift / 8);
240 #else
241     ofs += shift / 8;
242 #endif
243     return ofs;
244 }
245 
246 static void ld_flag_byte(TCGv val, unsigned shift)
247 {
248     tcg_gen_ld8u_i64(val, cpu_env, get_flag_ofs(shift));
249 }
250 
251 static void st_flag_byte(TCGv val, unsigned shift)
252 {
253     tcg_gen_st8_i64(val, cpu_env, get_flag_ofs(shift));
254 }
255 
256 static void gen_excp_1(int exception, int error_code)
257 {
258     TCGv_i32 tmp1, tmp2;
259 
260     tmp1 = tcg_constant_i32(exception);
261     tmp2 = tcg_constant_i32(error_code);
262     gen_helper_excp(cpu_env, tmp1, tmp2);
263 }
264 
265 static DisasJumpType gen_excp(DisasContext *ctx, int exception, int error_code)
266 {
267     tcg_gen_movi_i64(cpu_pc, ctx->base.pc_next);
268     gen_excp_1(exception, error_code);
269     return DISAS_NORETURN;
270 }
271 
272 static inline DisasJumpType gen_invalid(DisasContext *ctx)
273 {
274     return gen_excp(ctx, EXCP_OPCDEC, 0);
275 }
276 
277 static void gen_ldf(DisasContext *ctx, TCGv dest, TCGv addr)
278 {
279     TCGv_i32 tmp32 = tcg_temp_new_i32();
280     tcg_gen_qemu_ld_i32(tmp32, addr, ctx->mem_idx, MO_LEUL | UNALIGN(ctx));
281     gen_helper_memory_to_f(dest, tmp32);
282 }
283 
284 static void gen_ldg(DisasContext *ctx, TCGv dest, TCGv addr)
285 {
286     TCGv tmp = tcg_temp_new();
287     tcg_gen_qemu_ld_i64(tmp, addr, ctx->mem_idx, MO_LEUQ | UNALIGN(ctx));
288     gen_helper_memory_to_g(dest, tmp);
289 }
290 
291 static void gen_lds(DisasContext *ctx, TCGv dest, TCGv addr)
292 {
293     TCGv_i32 tmp32 = tcg_temp_new_i32();
294     tcg_gen_qemu_ld_i32(tmp32, addr, ctx->mem_idx, MO_LEUL | UNALIGN(ctx));
295     gen_helper_memory_to_s(dest, tmp32);
296 }
297 
298 static void gen_ldt(DisasContext *ctx, TCGv dest, TCGv addr)
299 {
300     tcg_gen_qemu_ld_i64(dest, addr, ctx->mem_idx, MO_LEUQ | UNALIGN(ctx));
301 }
302 
303 static void gen_load_fp(DisasContext *ctx, int ra, int rb, int32_t disp16,
304                         void (*func)(DisasContext *, TCGv, TCGv))
305 {
306     /* Loads to $f31 are prefetches, which we can treat as nops. */
307     if (likely(ra != 31)) {
308         TCGv addr = tcg_temp_new();
309         tcg_gen_addi_i64(addr, load_gpr(ctx, rb), disp16);
310         func(ctx, cpu_fir[ra], addr);
311     }
312 }
313 
314 static void gen_load_int(DisasContext *ctx, int ra, int rb, int32_t disp16,
315                          MemOp op, bool clear, bool locked)
316 {
317     TCGv addr, dest;
318 
319     /* LDQ_U with ra $31 is UNOP.  Other various loads are forms of
320        prefetches, which we can treat as nops.  No worries about
321        missed exceptions here.  */
322     if (unlikely(ra == 31)) {
323         return;
324     }
325 
326     addr = tcg_temp_new();
327     tcg_gen_addi_i64(addr, load_gpr(ctx, rb), disp16);
328     if (clear) {
329         tcg_gen_andi_i64(addr, addr, ~0x7);
330     } else if (!locked) {
331         op |= UNALIGN(ctx);
332     }
333 
334     dest = ctx->ir[ra];
335     tcg_gen_qemu_ld_i64(dest, addr, ctx->mem_idx, op);
336 
337     if (locked) {
338         tcg_gen_mov_i64(cpu_lock_addr, addr);
339         tcg_gen_mov_i64(cpu_lock_value, dest);
340     }
341 }
342 
343 static void gen_stf(DisasContext *ctx, TCGv src, TCGv addr)
344 {
345     TCGv_i32 tmp32 = tcg_temp_new_i32();
346     gen_helper_f_to_memory(tmp32, addr);
347     tcg_gen_qemu_st_i32(tmp32, addr, ctx->mem_idx, MO_LEUL | UNALIGN(ctx));
348 }
349 
350 static void gen_stg(DisasContext *ctx, TCGv src, TCGv addr)
351 {
352     TCGv tmp = tcg_temp_new();
353     gen_helper_g_to_memory(tmp, src);
354     tcg_gen_qemu_st_i64(tmp, addr, ctx->mem_idx, MO_LEUQ | UNALIGN(ctx));
355 }
356 
357 static void gen_sts(DisasContext *ctx, TCGv src, TCGv addr)
358 {
359     TCGv_i32 tmp32 = tcg_temp_new_i32();
360     gen_helper_s_to_memory(tmp32, src);
361     tcg_gen_qemu_st_i32(tmp32, addr, ctx->mem_idx, MO_LEUL | UNALIGN(ctx));
362 }
363 
364 static void gen_stt(DisasContext *ctx, TCGv src, TCGv addr)
365 {
366     tcg_gen_qemu_st_i64(src, addr, ctx->mem_idx, MO_LEUQ | UNALIGN(ctx));
367 }
368 
369 static void gen_store_fp(DisasContext *ctx, int ra, int rb, int32_t disp16,
370                          void (*func)(DisasContext *, TCGv, TCGv))
371 {
372     TCGv addr = tcg_temp_new();
373     tcg_gen_addi_i64(addr, load_gpr(ctx, rb), disp16);
374     func(ctx, load_fpr(ctx, ra), addr);
375 }
376 
377 static void gen_store_int(DisasContext *ctx, int ra, int rb, int32_t disp16,
378                           MemOp op, bool clear)
379 {
380     TCGv addr, src;
381 
382     addr = tcg_temp_new();
383     tcg_gen_addi_i64(addr, load_gpr(ctx, rb), disp16);
384     if (clear) {
385         tcg_gen_andi_i64(addr, addr, ~0x7);
386     } else {
387         op |= UNALIGN(ctx);
388     }
389 
390     src = load_gpr(ctx, ra);
391     tcg_gen_qemu_st_i64(src, addr, ctx->mem_idx, op);
392 }
393 
394 static DisasJumpType gen_store_conditional(DisasContext *ctx, int ra, int rb,
395                                            int32_t disp16, int mem_idx,
396                                            MemOp op)
397 {
398     TCGLabel *lab_fail, *lab_done;
399     TCGv addr, val;
400 
401     addr = tcg_temp_new_i64();
402     tcg_gen_addi_i64(addr, load_gpr(ctx, rb), disp16);
403     free_context_temps(ctx);
404 
405     lab_fail = gen_new_label();
406     lab_done = gen_new_label();
407     tcg_gen_brcond_i64(TCG_COND_NE, addr, cpu_lock_addr, lab_fail);
408 
409     val = tcg_temp_new_i64();
410     tcg_gen_atomic_cmpxchg_i64(val, cpu_lock_addr, cpu_lock_value,
411                                load_gpr(ctx, ra), mem_idx, op);
412     free_context_temps(ctx);
413 
414     if (ra != 31) {
415         tcg_gen_setcond_i64(TCG_COND_EQ, ctx->ir[ra], val, cpu_lock_value);
416     }
417     tcg_gen_br(lab_done);
418 
419     gen_set_label(lab_fail);
420     if (ra != 31) {
421         tcg_gen_movi_i64(ctx->ir[ra], 0);
422     }
423 
424     gen_set_label(lab_done);
425     tcg_gen_movi_i64(cpu_lock_addr, -1);
426     return DISAS_NEXT;
427 }
428 
429 static bool use_goto_tb(DisasContext *ctx, uint64_t dest)
430 {
431     return translator_use_goto_tb(&ctx->base, dest);
432 }
433 
434 static DisasJumpType gen_bdirect(DisasContext *ctx, int ra, int32_t disp)
435 {
436     uint64_t dest = ctx->base.pc_next + (disp << 2);
437 
438     if (ra != 31) {
439         tcg_gen_movi_i64(ctx->ir[ra], ctx->base.pc_next);
440     }
441 
442     /* Notice branch-to-next; used to initialize RA with the PC.  */
443     if (disp == 0) {
444         return 0;
445     } else if (use_goto_tb(ctx, dest)) {
446         tcg_gen_goto_tb(0);
447         tcg_gen_movi_i64(cpu_pc, dest);
448         tcg_gen_exit_tb(ctx->base.tb, 0);
449         return DISAS_NORETURN;
450     } else {
451         tcg_gen_movi_i64(cpu_pc, dest);
452         return DISAS_PC_UPDATED;
453     }
454 }
455 
456 static DisasJumpType gen_bcond_internal(DisasContext *ctx, TCGCond cond,
457                                         TCGv cmp, int32_t disp)
458 {
459     uint64_t dest = ctx->base.pc_next + (disp << 2);
460     TCGLabel *lab_true = gen_new_label();
461 
462     if (use_goto_tb(ctx, dest)) {
463         tcg_gen_brcondi_i64(cond, cmp, 0, lab_true);
464 
465         tcg_gen_goto_tb(0);
466         tcg_gen_movi_i64(cpu_pc, ctx->base.pc_next);
467         tcg_gen_exit_tb(ctx->base.tb, 0);
468 
469         gen_set_label(lab_true);
470         tcg_gen_goto_tb(1);
471         tcg_gen_movi_i64(cpu_pc, dest);
472         tcg_gen_exit_tb(ctx->base.tb, 1);
473 
474         return DISAS_NORETURN;
475     } else {
476         TCGv_i64 z = load_zero(ctx);
477         TCGv_i64 d = tcg_constant_i64(dest);
478         TCGv_i64 p = tcg_constant_i64(ctx->base.pc_next);
479 
480         tcg_gen_movcond_i64(cond, cpu_pc, cmp, z, d, p);
481         return DISAS_PC_UPDATED;
482     }
483 }
484 
485 static DisasJumpType gen_bcond(DisasContext *ctx, TCGCond cond, int ra,
486                                int32_t disp, int mask)
487 {
488     if (mask) {
489         TCGv tmp = tcg_temp_new();
490         DisasJumpType ret;
491 
492         tcg_gen_andi_i64(tmp, load_gpr(ctx, ra), 1);
493         ret = gen_bcond_internal(ctx, cond, tmp, disp);
494         return ret;
495     }
496     return gen_bcond_internal(ctx, cond, load_gpr(ctx, ra), disp);
497 }
498 
499 /* Fold -0.0 for comparison with COND.  */
500 
501 static void gen_fold_mzero(TCGCond cond, TCGv dest, TCGv src)
502 {
503     uint64_t mzero = 1ull << 63;
504 
505     switch (cond) {
506     case TCG_COND_LE:
507     case TCG_COND_GT:
508         /* For <= or >, the -0.0 value directly compares the way we want.  */
509         tcg_gen_mov_i64(dest, src);
510         break;
511 
512     case TCG_COND_EQ:
513     case TCG_COND_NE:
514         /* For == or !=, we can simply mask off the sign bit and compare.  */
515         tcg_gen_andi_i64(dest, src, mzero - 1);
516         break;
517 
518     case TCG_COND_GE:
519     case TCG_COND_LT:
520         /* For >= or <, map -0.0 to +0.0 via comparison and mask.  */
521         tcg_gen_setcondi_i64(TCG_COND_NE, dest, src, mzero);
522         tcg_gen_neg_i64(dest, dest);
523         tcg_gen_and_i64(dest, dest, src);
524         break;
525 
526     default:
527         abort();
528     }
529 }
530 
531 static DisasJumpType gen_fbcond(DisasContext *ctx, TCGCond cond, int ra,
532                                 int32_t disp)
533 {
534     TCGv cmp_tmp = tcg_temp_new();
535     DisasJumpType ret;
536 
537     gen_fold_mzero(cond, cmp_tmp, load_fpr(ctx, ra));
538     ret = gen_bcond_internal(ctx, cond, cmp_tmp, disp);
539     return ret;
540 }
541 
542 static void gen_fcmov(DisasContext *ctx, TCGCond cond, int ra, int rb, int rc)
543 {
544     TCGv_i64 va, vb, z;
545 
546     z = load_zero(ctx);
547     vb = load_fpr(ctx, rb);
548     va = tcg_temp_new();
549     gen_fold_mzero(cond, va, load_fpr(ctx, ra));
550 
551     tcg_gen_movcond_i64(cond, dest_fpr(ctx, rc), va, z, vb, load_fpr(ctx, rc));
552 }
553 
554 #define QUAL_RM_N       0x080   /* Round mode nearest even */
555 #define QUAL_RM_C       0x000   /* Round mode chopped */
556 #define QUAL_RM_M       0x040   /* Round mode minus infinity */
557 #define QUAL_RM_D       0x0c0   /* Round mode dynamic */
558 #define QUAL_RM_MASK    0x0c0
559 
560 #define QUAL_U          0x100   /* Underflow enable (fp output) */
561 #define QUAL_V          0x100   /* Overflow enable (int output) */
562 #define QUAL_S          0x400   /* Software completion enable */
563 #define QUAL_I          0x200   /* Inexact detection enable */
564 
565 static void gen_qual_roundmode(DisasContext *ctx, int fn11)
566 {
567     TCGv_i32 tmp;
568 
569     fn11 &= QUAL_RM_MASK;
570     if (fn11 == ctx->tb_rm) {
571         return;
572     }
573     ctx->tb_rm = fn11;
574 
575     tmp = tcg_temp_new_i32();
576     switch (fn11) {
577     case QUAL_RM_N:
578         tcg_gen_movi_i32(tmp, float_round_nearest_even);
579         break;
580     case QUAL_RM_C:
581         tcg_gen_movi_i32(tmp, float_round_to_zero);
582         break;
583     case QUAL_RM_M:
584         tcg_gen_movi_i32(tmp, float_round_down);
585         break;
586     case QUAL_RM_D:
587         tcg_gen_ld8u_i32(tmp, cpu_env,
588                          offsetof(CPUAlphaState, fpcr_dyn_round));
589         break;
590     }
591 
592 #if defined(CONFIG_SOFTFLOAT_INLINE)
593     /* ??? The "fpu/softfloat.h" interface is to call set_float_rounding_mode.
594        With CONFIG_SOFTFLOAT that expands to an out-of-line call that just
595        sets the one field.  */
596     tcg_gen_st8_i32(tmp, cpu_env,
597                     offsetof(CPUAlphaState, fp_status.float_rounding_mode));
598 #else
599     gen_helper_setroundmode(tmp);
600 #endif
601 }
602 
603 static void gen_qual_flushzero(DisasContext *ctx, int fn11)
604 {
605     TCGv_i32 tmp;
606 
607     fn11 &= QUAL_U;
608     if (fn11 == ctx->tb_ftz) {
609         return;
610     }
611     ctx->tb_ftz = fn11;
612 
613     tmp = tcg_temp_new_i32();
614     if (fn11) {
615         /* Underflow is enabled, use the FPCR setting.  */
616         tcg_gen_ld8u_i32(tmp, cpu_env,
617                          offsetof(CPUAlphaState, fpcr_flush_to_zero));
618     } else {
619         /* Underflow is disabled, force flush-to-zero.  */
620         tcg_gen_movi_i32(tmp, 1);
621     }
622 
623 #if defined(CONFIG_SOFTFLOAT_INLINE)
624     tcg_gen_st8_i32(tmp, cpu_env,
625                     offsetof(CPUAlphaState, fp_status.flush_to_zero));
626 #else
627     gen_helper_setflushzero(tmp);
628 #endif
629 }
630 
631 static TCGv gen_ieee_input(DisasContext *ctx, int reg, int fn11, int is_cmp)
632 {
633     TCGv val;
634 
635     if (unlikely(reg == 31)) {
636         val = load_zero(ctx);
637     } else {
638         val = cpu_fir[reg];
639         if ((fn11 & QUAL_S) == 0) {
640             if (is_cmp) {
641                 gen_helper_ieee_input_cmp(cpu_env, val);
642             } else {
643                 gen_helper_ieee_input(cpu_env, val);
644             }
645         } else {
646 #ifndef CONFIG_USER_ONLY
647             /* In system mode, raise exceptions for denormals like real
648                hardware.  In user mode, proceed as if the OS completion
649                handler is handling the denormal as per spec.  */
650             gen_helper_ieee_input_s(cpu_env, val);
651 #endif
652         }
653     }
654     return val;
655 }
656 
657 static void gen_fp_exc_raise(int rc, int fn11)
658 {
659     /* ??? We ought to be able to do something with imprecise exceptions.
660        E.g. notice we're still in the trap shadow of something within the
661        TB and do not generate the code to signal the exception; end the TB
662        when an exception is forced to arrive, either by consumption of a
663        register value or TRAPB or EXCB.  */
664     TCGv_i32 reg, ign;
665     uint32_t ignore = 0;
666 
667     if (!(fn11 & QUAL_U)) {
668         /* Note that QUAL_U == QUAL_V, so ignore either.  */
669         ignore |= FPCR_UNF | FPCR_IOV;
670     }
671     if (!(fn11 & QUAL_I)) {
672         ignore |= FPCR_INE;
673     }
674     ign = tcg_constant_i32(ignore);
675 
676     /* ??? Pass in the regno of the destination so that the helper can
677        set EXC_MASK, which contains a bitmask of destination registers
678        that have caused arithmetic traps.  A simple userspace emulation
679        does not require this.  We do need it for a guest kernel's entArith,
680        or if we were to do something clever with imprecise exceptions.  */
681     reg = tcg_constant_i32(rc + 32);
682     if (fn11 & QUAL_S) {
683         gen_helper_fp_exc_raise_s(cpu_env, ign, reg);
684     } else {
685         gen_helper_fp_exc_raise(cpu_env, ign, reg);
686     }
687 }
688 
689 static void gen_cvtlq(TCGv vc, TCGv vb)
690 {
691     TCGv tmp = tcg_temp_new();
692 
693     /* The arithmetic right shift here, plus the sign-extended mask below
694        yields a sign-extended result without an explicit ext32s_i64.  */
695     tcg_gen_shri_i64(tmp, vb, 29);
696     tcg_gen_sari_i64(vc, vb, 32);
697     tcg_gen_deposit_i64(vc, vc, tmp, 0, 30);
698 }
699 
700 static void gen_ieee_arith2(DisasContext *ctx,
701                             void (*helper)(TCGv, TCGv_ptr, TCGv),
702                             int rb, int rc, int fn11)
703 {
704     TCGv vb;
705 
706     gen_qual_roundmode(ctx, fn11);
707     gen_qual_flushzero(ctx, fn11);
708 
709     vb = gen_ieee_input(ctx, rb, fn11, 0);
710     helper(dest_fpr(ctx, rc), cpu_env, vb);
711 
712     gen_fp_exc_raise(rc, fn11);
713 }
714 
715 #define IEEE_ARITH2(name)                                       \
716 static inline void glue(gen_, name)(DisasContext *ctx,          \
717                                     int rb, int rc, int fn11)   \
718 {                                                               \
719     gen_ieee_arith2(ctx, gen_helper_##name, rb, rc, fn11);      \
720 }
721 IEEE_ARITH2(sqrts)
722 IEEE_ARITH2(sqrtt)
723 IEEE_ARITH2(cvtst)
724 IEEE_ARITH2(cvtts)
725 
726 static void gen_cvttq(DisasContext *ctx, int rb, int rc, int fn11)
727 {
728     TCGv vb, vc;
729 
730     /* No need to set flushzero, since we have an integer output.  */
731     vb = gen_ieee_input(ctx, rb, fn11, 0);
732     vc = dest_fpr(ctx, rc);
733 
734     /* Almost all integer conversions use cropped rounding;
735        special case that.  */
736     if ((fn11 & QUAL_RM_MASK) == QUAL_RM_C) {
737         gen_helper_cvttq_c(vc, cpu_env, vb);
738     } else {
739         gen_qual_roundmode(ctx, fn11);
740         gen_helper_cvttq(vc, cpu_env, vb);
741     }
742     gen_fp_exc_raise(rc, fn11);
743 }
744 
745 static void gen_ieee_intcvt(DisasContext *ctx,
746                             void (*helper)(TCGv, TCGv_ptr, TCGv),
747                             int rb, int rc, int fn11)
748 {
749     TCGv vb, vc;
750 
751     gen_qual_roundmode(ctx, fn11);
752     vb = load_fpr(ctx, rb);
753     vc = dest_fpr(ctx, rc);
754 
755     /* The only exception that can be raised by integer conversion
756        is inexact.  Thus we only need to worry about exceptions when
757        inexact handling is requested.  */
758     if (fn11 & QUAL_I) {
759         helper(vc, cpu_env, vb);
760         gen_fp_exc_raise(rc, fn11);
761     } else {
762         helper(vc, cpu_env, vb);
763     }
764 }
765 
766 #define IEEE_INTCVT(name)                                       \
767 static inline void glue(gen_, name)(DisasContext *ctx,          \
768                                     int rb, int rc, int fn11)   \
769 {                                                               \
770     gen_ieee_intcvt(ctx, gen_helper_##name, rb, rc, fn11);      \
771 }
772 IEEE_INTCVT(cvtqs)
773 IEEE_INTCVT(cvtqt)
774 
775 static void gen_cpy_mask(TCGv vc, TCGv va, TCGv vb, bool inv_a, uint64_t mask)
776 {
777     TCGv vmask = tcg_constant_i64(mask);
778     TCGv tmp = tcg_temp_new_i64();
779 
780     if (inv_a) {
781         tcg_gen_andc_i64(tmp, vmask, va);
782     } else {
783         tcg_gen_and_i64(tmp, va, vmask);
784     }
785 
786     tcg_gen_andc_i64(vc, vb, vmask);
787     tcg_gen_or_i64(vc, vc, tmp);
788 }
789 
790 static void gen_ieee_arith3(DisasContext *ctx,
791                             void (*helper)(TCGv, TCGv_ptr, TCGv, TCGv),
792                             int ra, int rb, int rc, int fn11)
793 {
794     TCGv va, vb, vc;
795 
796     gen_qual_roundmode(ctx, fn11);
797     gen_qual_flushzero(ctx, fn11);
798 
799     va = gen_ieee_input(ctx, ra, fn11, 0);
800     vb = gen_ieee_input(ctx, rb, fn11, 0);
801     vc = dest_fpr(ctx, rc);
802     helper(vc, cpu_env, va, vb);
803 
804     gen_fp_exc_raise(rc, fn11);
805 }
806 
807 #define IEEE_ARITH3(name)                                               \
808 static inline void glue(gen_, name)(DisasContext *ctx,                  \
809                                     int ra, int rb, int rc, int fn11)   \
810 {                                                                       \
811     gen_ieee_arith3(ctx, gen_helper_##name, ra, rb, rc, fn11);          \
812 }
813 IEEE_ARITH3(adds)
814 IEEE_ARITH3(subs)
815 IEEE_ARITH3(muls)
816 IEEE_ARITH3(divs)
817 IEEE_ARITH3(addt)
818 IEEE_ARITH3(subt)
819 IEEE_ARITH3(mult)
820 IEEE_ARITH3(divt)
821 
822 static void gen_ieee_compare(DisasContext *ctx,
823                              void (*helper)(TCGv, TCGv_ptr, TCGv, TCGv),
824                              int ra, int rb, int rc, int fn11)
825 {
826     TCGv va, vb, vc;
827 
828     va = gen_ieee_input(ctx, ra, fn11, 1);
829     vb = gen_ieee_input(ctx, rb, fn11, 1);
830     vc = dest_fpr(ctx, rc);
831     helper(vc, cpu_env, va, vb);
832 
833     gen_fp_exc_raise(rc, fn11);
834 }
835 
836 #define IEEE_CMP3(name)                                                 \
837 static inline void glue(gen_, name)(DisasContext *ctx,                  \
838                                     int ra, int rb, int rc, int fn11)   \
839 {                                                                       \
840     gen_ieee_compare(ctx, gen_helper_##name, ra, rb, rc, fn11);         \
841 }
842 IEEE_CMP3(cmptun)
843 IEEE_CMP3(cmpteq)
844 IEEE_CMP3(cmptlt)
845 IEEE_CMP3(cmptle)
846 
847 static inline uint64_t zapnot_mask(uint8_t lit)
848 {
849     uint64_t mask = 0;
850     int i;
851 
852     for (i = 0; i < 8; ++i) {
853         if ((lit >> i) & 1) {
854             mask |= 0xffull << (i * 8);
855         }
856     }
857     return mask;
858 }
859 
860 /* Implement zapnot with an immediate operand, which expands to some
861    form of immediate AND.  This is a basic building block in the
862    definition of many of the other byte manipulation instructions.  */
863 static void gen_zapnoti(TCGv dest, TCGv src, uint8_t lit)
864 {
865     switch (lit) {
866     case 0x00:
867         tcg_gen_movi_i64(dest, 0);
868         break;
869     case 0x01:
870         tcg_gen_ext8u_i64(dest, src);
871         break;
872     case 0x03:
873         tcg_gen_ext16u_i64(dest, src);
874         break;
875     case 0x0f:
876         tcg_gen_ext32u_i64(dest, src);
877         break;
878     case 0xff:
879         tcg_gen_mov_i64(dest, src);
880         break;
881     default:
882         tcg_gen_andi_i64(dest, src, zapnot_mask(lit));
883         break;
884     }
885 }
886 
887 /* EXTWH, EXTLH, EXTQH */
888 static void gen_ext_h(DisasContext *ctx, TCGv vc, TCGv va, int rb, bool islit,
889                       uint8_t lit, uint8_t byte_mask)
890 {
891     if (islit) {
892         int pos = (64 - lit * 8) & 0x3f;
893         int len = cto32(byte_mask) * 8;
894         if (pos < len) {
895             tcg_gen_deposit_z_i64(vc, va, pos, len - pos);
896         } else {
897             tcg_gen_movi_i64(vc, 0);
898         }
899     } else {
900         TCGv tmp = tcg_temp_new();
901         tcg_gen_shli_i64(tmp, load_gpr(ctx, rb), 3);
902         tcg_gen_neg_i64(tmp, tmp);
903         tcg_gen_andi_i64(tmp, tmp, 0x3f);
904         tcg_gen_shl_i64(vc, va, tmp);
905     }
906     gen_zapnoti(vc, vc, byte_mask);
907 }
908 
909 /* EXTBL, EXTWL, EXTLL, EXTQL */
910 static void gen_ext_l(DisasContext *ctx, TCGv vc, TCGv va, int rb, bool islit,
911                       uint8_t lit, uint8_t byte_mask)
912 {
913     if (islit) {
914         int pos = (lit & 7) * 8;
915         int len = cto32(byte_mask) * 8;
916         if (pos + len >= 64) {
917             len = 64 - pos;
918         }
919         tcg_gen_extract_i64(vc, va, pos, len);
920     } else {
921         TCGv tmp = tcg_temp_new();
922         tcg_gen_andi_i64(tmp, load_gpr(ctx, rb), 7);
923         tcg_gen_shli_i64(tmp, tmp, 3);
924         tcg_gen_shr_i64(vc, va, tmp);
925         gen_zapnoti(vc, vc, byte_mask);
926     }
927 }
928 
929 /* INSWH, INSLH, INSQH */
930 static void gen_ins_h(DisasContext *ctx, TCGv vc, TCGv va, int rb, bool islit,
931                       uint8_t lit, uint8_t byte_mask)
932 {
933     if (islit) {
934         int pos = 64 - (lit & 7) * 8;
935         int len = cto32(byte_mask) * 8;
936         if (pos < len) {
937             tcg_gen_extract_i64(vc, va, pos, len - pos);
938         } else {
939             tcg_gen_movi_i64(vc, 0);
940         }
941     } else {
942         TCGv tmp = tcg_temp_new();
943         TCGv shift = tcg_temp_new();
944 
945         /* The instruction description has us left-shift the byte mask
946            and extract bits <15:8> and apply that zap at the end.  This
947            is equivalent to simply performing the zap first and shifting
948            afterward.  */
949         gen_zapnoti(tmp, va, byte_mask);
950 
951         /* If (B & 7) == 0, we need to shift by 64 and leave a zero.  Do this
952            portably by splitting the shift into two parts: shift_count-1 and 1.
953            Arrange for the -1 by using ones-complement instead of
954            twos-complement in the negation: ~(B * 8) & 63.  */
955 
956         tcg_gen_shli_i64(shift, load_gpr(ctx, rb), 3);
957         tcg_gen_not_i64(shift, shift);
958         tcg_gen_andi_i64(shift, shift, 0x3f);
959 
960         tcg_gen_shr_i64(vc, tmp, shift);
961         tcg_gen_shri_i64(vc, vc, 1);
962     }
963 }
964 
965 /* INSBL, INSWL, INSLL, INSQL */
966 static void gen_ins_l(DisasContext *ctx, TCGv vc, TCGv va, int rb, bool islit,
967                       uint8_t lit, uint8_t byte_mask)
968 {
969     if (islit) {
970         int pos = (lit & 7) * 8;
971         int len = cto32(byte_mask) * 8;
972         if (pos + len > 64) {
973             len = 64 - pos;
974         }
975         tcg_gen_deposit_z_i64(vc, va, pos, len);
976     } else {
977         TCGv tmp = tcg_temp_new();
978         TCGv shift = tcg_temp_new();
979 
980         /* The instruction description has us left-shift the byte mask
981            and extract bits <15:8> and apply that zap at the end.  This
982            is equivalent to simply performing the zap first and shifting
983            afterward.  */
984         gen_zapnoti(tmp, va, byte_mask);
985 
986         tcg_gen_andi_i64(shift, load_gpr(ctx, rb), 7);
987         tcg_gen_shli_i64(shift, shift, 3);
988         tcg_gen_shl_i64(vc, tmp, shift);
989     }
990 }
991 
992 /* MSKWH, MSKLH, MSKQH */
993 static void gen_msk_h(DisasContext *ctx, TCGv vc, TCGv va, int rb, bool islit,
994                       uint8_t lit, uint8_t byte_mask)
995 {
996     if (islit) {
997         gen_zapnoti(vc, va, ~((byte_mask << (lit & 7)) >> 8));
998     } else {
999         TCGv shift = tcg_temp_new();
1000         TCGv mask = tcg_temp_new();
1001 
1002         /* The instruction description is as above, where the byte_mask
1003            is shifted left, and then we extract bits <15:8>.  This can be
1004            emulated with a right-shift on the expanded byte mask.  This
1005            requires extra care because for an input <2:0> == 0 we need a
1006            shift of 64 bits in order to generate a zero.  This is done by
1007            splitting the shift into two parts, the variable shift - 1
1008            followed by a constant 1 shift.  The code we expand below is
1009            equivalent to ~(B * 8) & 63.  */
1010 
1011         tcg_gen_shli_i64(shift, load_gpr(ctx, rb), 3);
1012         tcg_gen_not_i64(shift, shift);
1013         tcg_gen_andi_i64(shift, shift, 0x3f);
1014         tcg_gen_movi_i64(mask, zapnot_mask (byte_mask));
1015         tcg_gen_shr_i64(mask, mask, shift);
1016         tcg_gen_shri_i64(mask, mask, 1);
1017 
1018         tcg_gen_andc_i64(vc, va, mask);
1019     }
1020 }
1021 
1022 /* MSKBL, MSKWL, MSKLL, MSKQL */
1023 static void gen_msk_l(DisasContext *ctx, TCGv vc, TCGv va, int rb, bool islit,
1024                       uint8_t lit, uint8_t byte_mask)
1025 {
1026     if (islit) {
1027         gen_zapnoti(vc, va, ~(byte_mask << (lit & 7)));
1028     } else {
1029         TCGv shift = tcg_temp_new();
1030         TCGv mask = tcg_temp_new();
1031 
1032         tcg_gen_andi_i64(shift, load_gpr(ctx, rb), 7);
1033         tcg_gen_shli_i64(shift, shift, 3);
1034         tcg_gen_movi_i64(mask, zapnot_mask(byte_mask));
1035         tcg_gen_shl_i64(mask, mask, shift);
1036 
1037         tcg_gen_andc_i64(vc, va, mask);
1038     }
1039 }
1040 
1041 static void gen_rx(DisasContext *ctx, int ra, int set)
1042 {
1043     if (ra != 31) {
1044         ld_flag_byte(ctx->ir[ra], ENV_FLAG_RX_SHIFT);
1045     }
1046 
1047     st_flag_byte(tcg_constant_i64(set), ENV_FLAG_RX_SHIFT);
1048 }
1049 
1050 static DisasJumpType gen_call_pal(DisasContext *ctx, int palcode)
1051 {
1052     /* We're emulating OSF/1 PALcode.  Many of these are trivial access
1053        to internal cpu registers.  */
1054 
1055     /* Unprivileged PAL call */
1056     if (palcode >= 0x80 && palcode < 0xC0) {
1057         switch (palcode) {
1058         case 0x86:
1059             /* IMB */
1060             /* No-op inside QEMU.  */
1061             break;
1062         case 0x9E:
1063             /* RDUNIQUE */
1064             tcg_gen_ld_i64(ctx->ir[IR_V0], cpu_env,
1065                            offsetof(CPUAlphaState, unique));
1066             break;
1067         case 0x9F:
1068             /* WRUNIQUE */
1069             tcg_gen_st_i64(ctx->ir[IR_A0], cpu_env,
1070                            offsetof(CPUAlphaState, unique));
1071             break;
1072         default:
1073             palcode &= 0xbf;
1074             goto do_call_pal;
1075         }
1076         return DISAS_NEXT;
1077     }
1078 
1079 #ifndef CONFIG_USER_ONLY
1080     /* Privileged PAL code */
1081     if (palcode < 0x40 && (ctx->tbflags & ENV_FLAG_PS_USER) == 0) {
1082         switch (palcode) {
1083         case 0x01:
1084             /* CFLUSH */
1085             /* No-op inside QEMU.  */
1086             break;
1087         case 0x02:
1088             /* DRAINA */
1089             /* No-op inside QEMU.  */
1090             break;
1091         case 0x2D:
1092             /* WRVPTPTR */
1093             tcg_gen_st_i64(ctx->ir[IR_A0], cpu_env,
1094                            offsetof(CPUAlphaState, vptptr));
1095             break;
1096         case 0x31:
1097             /* WRVAL */
1098             tcg_gen_st_i64(ctx->ir[IR_A0], cpu_env,
1099                            offsetof(CPUAlphaState, sysval));
1100             break;
1101         case 0x32:
1102             /* RDVAL */
1103             tcg_gen_ld_i64(ctx->ir[IR_V0], cpu_env,
1104                            offsetof(CPUAlphaState, sysval));
1105             break;
1106 
1107         case 0x35:
1108             /* SWPIPL */
1109             /* Note that we already know we're in kernel mode, so we know
1110                that PS only contains the 3 IPL bits.  */
1111             ld_flag_byte(ctx->ir[IR_V0], ENV_FLAG_PS_SHIFT);
1112 
1113             /* But make sure and store only the 3 IPL bits from the user.  */
1114             {
1115                 TCGv tmp = tcg_temp_new();
1116                 tcg_gen_andi_i64(tmp, ctx->ir[IR_A0], PS_INT_MASK);
1117                 st_flag_byte(tmp, ENV_FLAG_PS_SHIFT);
1118             }
1119 
1120             /* Allow interrupts to be recognized right away.  */
1121             tcg_gen_movi_i64(cpu_pc, ctx->base.pc_next);
1122             return DISAS_PC_UPDATED_NOCHAIN;
1123 
1124         case 0x36:
1125             /* RDPS */
1126             ld_flag_byte(ctx->ir[IR_V0], ENV_FLAG_PS_SHIFT);
1127             break;
1128 
1129         case 0x38:
1130             /* WRUSP */
1131             tcg_gen_st_i64(ctx->ir[IR_A0], cpu_env,
1132                            offsetof(CPUAlphaState, usp));
1133             break;
1134         case 0x3A:
1135             /* RDUSP */
1136             tcg_gen_ld_i64(ctx->ir[IR_V0], cpu_env,
1137                            offsetof(CPUAlphaState, usp));
1138             break;
1139         case 0x3C:
1140             /* WHAMI */
1141             tcg_gen_ld32s_i64(ctx->ir[IR_V0], cpu_env,
1142                 -offsetof(AlphaCPU, env) + offsetof(CPUState, cpu_index));
1143             break;
1144 
1145         case 0x3E:
1146             /* WTINT */
1147             tcg_gen_st_i32(tcg_constant_i32(1), cpu_env,
1148                            -offsetof(AlphaCPU, env) +
1149                            offsetof(CPUState, halted));
1150             tcg_gen_movi_i64(ctx->ir[IR_V0], 0);
1151             return gen_excp(ctx, EXCP_HALTED, 0);
1152 
1153         default:
1154             palcode &= 0x3f;
1155             goto do_call_pal;
1156         }
1157         return DISAS_NEXT;
1158     }
1159 #endif
1160     return gen_invalid(ctx);
1161 
1162  do_call_pal:
1163 #ifdef CONFIG_USER_ONLY
1164     return gen_excp(ctx, EXCP_CALL_PAL, palcode);
1165 #else
1166     {
1167         TCGv tmp = tcg_temp_new();
1168         uint64_t exc_addr = ctx->base.pc_next;
1169         uint64_t entry = ctx->palbr;
1170 
1171         if (ctx->tbflags & ENV_FLAG_PAL_MODE) {
1172             exc_addr |= 1;
1173         } else {
1174             tcg_gen_movi_i64(tmp, 1);
1175             st_flag_byte(tmp, ENV_FLAG_PAL_SHIFT);
1176         }
1177 
1178         tcg_gen_movi_i64(tmp, exc_addr);
1179         tcg_gen_st_i64(tmp, cpu_env, offsetof(CPUAlphaState, exc_addr));
1180 
1181         entry += (palcode & 0x80
1182                   ? 0x2000 + (palcode - 0x80) * 64
1183                   : 0x1000 + palcode * 64);
1184 
1185         tcg_gen_movi_i64(cpu_pc, entry);
1186         return DISAS_PC_UPDATED;
1187     }
1188 #endif
1189 }
1190 
1191 #ifndef CONFIG_USER_ONLY
1192 
1193 #define PR_LONG         0x200000
1194 
1195 static int cpu_pr_data(int pr)
1196 {
1197     switch (pr) {
1198     case  2: return offsetof(CPUAlphaState, pcc_ofs) | PR_LONG;
1199     case  3: return offsetof(CPUAlphaState, trap_arg0);
1200     case  4: return offsetof(CPUAlphaState, trap_arg1);
1201     case  5: return offsetof(CPUAlphaState, trap_arg2);
1202     case  6: return offsetof(CPUAlphaState, exc_addr);
1203     case  7: return offsetof(CPUAlphaState, palbr);
1204     case  8: return offsetof(CPUAlphaState, ptbr);
1205     case  9: return offsetof(CPUAlphaState, vptptr);
1206     case 10: return offsetof(CPUAlphaState, unique);
1207     case 11: return offsetof(CPUAlphaState, sysval);
1208     case 12: return offsetof(CPUAlphaState, usp);
1209 
1210     case 40 ... 63:
1211         return offsetof(CPUAlphaState, scratch[pr - 40]);
1212 
1213     case 251:
1214         return offsetof(CPUAlphaState, alarm_expire);
1215     }
1216     return 0;
1217 }
1218 
1219 static DisasJumpType gen_mfpr(DisasContext *ctx, TCGv va, int regno)
1220 {
1221     void (*helper)(TCGv);
1222     int data;
1223 
1224     switch (regno) {
1225     case 32 ... 39:
1226         /* Accessing the "non-shadow" general registers.  */
1227         regno = regno == 39 ? 25 : regno - 32 + 8;
1228         tcg_gen_mov_i64(va, cpu_std_ir[regno]);
1229         break;
1230 
1231     case 250: /* WALLTIME */
1232         helper = gen_helper_get_walltime;
1233         goto do_helper;
1234     case 249: /* VMTIME */
1235         helper = gen_helper_get_vmtime;
1236     do_helper:
1237         if (translator_io_start(&ctx->base)) {
1238             helper(va);
1239             return DISAS_PC_STALE;
1240         } else {
1241             helper(va);
1242         }
1243         break;
1244 
1245     case 0: /* PS */
1246         ld_flag_byte(va, ENV_FLAG_PS_SHIFT);
1247         break;
1248     case 1: /* FEN */
1249         ld_flag_byte(va, ENV_FLAG_FEN_SHIFT);
1250         break;
1251 
1252     default:
1253         /* The basic registers are data only, and unknown registers
1254            are read-zero, write-ignore.  */
1255         data = cpu_pr_data(regno);
1256         if (data == 0) {
1257             tcg_gen_movi_i64(va, 0);
1258         } else if (data & PR_LONG) {
1259             tcg_gen_ld32s_i64(va, cpu_env, data & ~PR_LONG);
1260         } else {
1261             tcg_gen_ld_i64(va, cpu_env, data);
1262         }
1263         break;
1264     }
1265 
1266     return DISAS_NEXT;
1267 }
1268 
1269 static DisasJumpType gen_mtpr(DisasContext *ctx, TCGv vb, int regno)
1270 {
1271     int data;
1272     DisasJumpType ret = DISAS_NEXT;
1273 
1274     switch (regno) {
1275     case 255:
1276         /* TBIA */
1277         gen_helper_tbia(cpu_env);
1278         break;
1279 
1280     case 254:
1281         /* TBIS */
1282         gen_helper_tbis(cpu_env, vb);
1283         break;
1284 
1285     case 253:
1286         /* WAIT */
1287         tcg_gen_st_i32(tcg_constant_i32(1), cpu_env,
1288                        -offsetof(AlphaCPU, env) + offsetof(CPUState, halted));
1289         return gen_excp(ctx, EXCP_HALTED, 0);
1290 
1291     case 252:
1292         /* HALT */
1293         gen_helper_halt(vb);
1294         return DISAS_PC_STALE;
1295 
1296     case 251:
1297         /* ALARM */
1298         if (translator_io_start(&ctx->base)) {
1299             ret = DISAS_PC_STALE;
1300         }
1301         gen_helper_set_alarm(cpu_env, vb);
1302         break;
1303 
1304     case 7:
1305         /* PALBR */
1306         tcg_gen_st_i64(vb, cpu_env, offsetof(CPUAlphaState, palbr));
1307         /* Changing the PAL base register implies un-chaining all of the TBs
1308            that ended with a CALL_PAL.  Since the base register usually only
1309            changes during boot, flushing everything works well.  */
1310         gen_helper_tb_flush(cpu_env);
1311         return DISAS_PC_STALE;
1312 
1313     case 32 ... 39:
1314         /* Accessing the "non-shadow" general registers.  */
1315         regno = regno == 39 ? 25 : regno - 32 + 8;
1316         tcg_gen_mov_i64(cpu_std_ir[regno], vb);
1317         break;
1318 
1319     case 0: /* PS */
1320         st_flag_byte(vb, ENV_FLAG_PS_SHIFT);
1321         break;
1322     case 1: /* FEN */
1323         st_flag_byte(vb, ENV_FLAG_FEN_SHIFT);
1324         break;
1325 
1326     default:
1327         /* The basic registers are data only, and unknown registers
1328            are read-zero, write-ignore.  */
1329         data = cpu_pr_data(regno);
1330         if (data != 0) {
1331             if (data & PR_LONG) {
1332                 tcg_gen_st32_i64(vb, cpu_env, data & ~PR_LONG);
1333             } else {
1334                 tcg_gen_st_i64(vb, cpu_env, data);
1335             }
1336         }
1337         break;
1338     }
1339 
1340     return ret;
1341 }
1342 #endif /* !USER_ONLY*/
1343 
1344 #define REQUIRE_NO_LIT                          \
1345     do {                                        \
1346         if (real_islit) {                       \
1347             goto invalid_opc;                   \
1348         }                                       \
1349     } while (0)
1350 
1351 #define REQUIRE_AMASK(FLAG)                     \
1352     do {                                        \
1353         if ((ctx->amask & AMASK_##FLAG) == 0) { \
1354             goto invalid_opc;                   \
1355         }                                       \
1356     } while (0)
1357 
1358 #define REQUIRE_TB_FLAG(FLAG)                   \
1359     do {                                        \
1360         if ((ctx->tbflags & (FLAG)) == 0) {     \
1361             goto invalid_opc;                   \
1362         }                                       \
1363     } while (0)
1364 
1365 #define REQUIRE_REG_31(WHICH)                   \
1366     do {                                        \
1367         if (WHICH != 31) {                      \
1368             goto invalid_opc;                   \
1369         }                                       \
1370     } while (0)
1371 
1372 #define REQUIRE_FEN                             \
1373     do {                                        \
1374         if (!(ctx->tbflags & ENV_FLAG_FEN)) {   \
1375             goto raise_fen;                     \
1376         }                                       \
1377     } while (0)
1378 
1379 static DisasJumpType translate_one(DisasContext *ctx, uint32_t insn)
1380 {
1381     int32_t disp21, disp16, disp12 __attribute__((unused));
1382     uint16_t fn11;
1383     uint8_t opc, ra, rb, rc, fpfn, fn7, lit;
1384     bool islit, real_islit;
1385     TCGv va, vb, vc, tmp, tmp2;
1386     TCGv_i32 t32;
1387     DisasJumpType ret;
1388 
1389     /* Decode all instruction fields */
1390     opc = extract32(insn, 26, 6);
1391     ra = extract32(insn, 21, 5);
1392     rb = extract32(insn, 16, 5);
1393     rc = extract32(insn, 0, 5);
1394     real_islit = islit = extract32(insn, 12, 1);
1395     lit = extract32(insn, 13, 8);
1396 
1397     disp21 = sextract32(insn, 0, 21);
1398     disp16 = sextract32(insn, 0, 16);
1399     disp12 = sextract32(insn, 0, 12);
1400 
1401     fn11 = extract32(insn, 5, 11);
1402     fpfn = extract32(insn, 5, 6);
1403     fn7 = extract32(insn, 5, 7);
1404 
1405     if (rb == 31 && !islit) {
1406         islit = true;
1407         lit = 0;
1408     }
1409 
1410     ret = DISAS_NEXT;
1411     switch (opc) {
1412     case 0x00:
1413         /* CALL_PAL */
1414         ret = gen_call_pal(ctx, insn & 0x03ffffff);
1415         break;
1416     case 0x01:
1417         /* OPC01 */
1418         goto invalid_opc;
1419     case 0x02:
1420         /* OPC02 */
1421         goto invalid_opc;
1422     case 0x03:
1423         /* OPC03 */
1424         goto invalid_opc;
1425     case 0x04:
1426         /* OPC04 */
1427         goto invalid_opc;
1428     case 0x05:
1429         /* OPC05 */
1430         goto invalid_opc;
1431     case 0x06:
1432         /* OPC06 */
1433         goto invalid_opc;
1434     case 0x07:
1435         /* OPC07 */
1436         goto invalid_opc;
1437 
1438     case 0x09:
1439         /* LDAH */
1440         disp16 = (uint32_t)disp16 << 16;
1441         /* fall through */
1442     case 0x08:
1443         /* LDA */
1444         va = dest_gpr(ctx, ra);
1445         /* It's worth special-casing immediate loads.  */
1446         if (rb == 31) {
1447             tcg_gen_movi_i64(va, disp16);
1448         } else {
1449             tcg_gen_addi_i64(va, load_gpr(ctx, rb), disp16);
1450         }
1451         break;
1452 
1453     case 0x0A:
1454         /* LDBU */
1455         REQUIRE_AMASK(BWX);
1456         gen_load_int(ctx, ra, rb, disp16, MO_UB, 0, 0);
1457         break;
1458     case 0x0B:
1459         /* LDQ_U */
1460         gen_load_int(ctx, ra, rb, disp16, MO_LEUQ, 1, 0);
1461         break;
1462     case 0x0C:
1463         /* LDWU */
1464         REQUIRE_AMASK(BWX);
1465         gen_load_int(ctx, ra, rb, disp16, MO_LEUW, 0, 0);
1466         break;
1467     case 0x0D:
1468         /* STW */
1469         REQUIRE_AMASK(BWX);
1470         gen_store_int(ctx, ra, rb, disp16, MO_LEUW, 0);
1471         break;
1472     case 0x0E:
1473         /* STB */
1474         REQUIRE_AMASK(BWX);
1475         gen_store_int(ctx, ra, rb, disp16, MO_UB, 0);
1476         break;
1477     case 0x0F:
1478         /* STQ_U */
1479         gen_store_int(ctx, ra, rb, disp16, MO_LEUQ, 1);
1480         break;
1481 
1482     case 0x10:
1483         vc = dest_gpr(ctx, rc);
1484         vb = load_gpr_lit(ctx, rb, lit, islit);
1485 
1486         if (ra == 31) {
1487             if (fn7 == 0x00) {
1488                 /* Special case ADDL as SEXTL.  */
1489                 tcg_gen_ext32s_i64(vc, vb);
1490                 break;
1491             }
1492             if (fn7 == 0x29) {
1493                 /* Special case SUBQ as NEGQ.  */
1494                 tcg_gen_neg_i64(vc, vb);
1495                 break;
1496             }
1497         }
1498 
1499         va = load_gpr(ctx, ra);
1500         switch (fn7) {
1501         case 0x00:
1502             /* ADDL */
1503             tcg_gen_add_i64(vc, va, vb);
1504             tcg_gen_ext32s_i64(vc, vc);
1505             break;
1506         case 0x02:
1507             /* S4ADDL */
1508             tmp = tcg_temp_new();
1509             tcg_gen_shli_i64(tmp, va, 2);
1510             tcg_gen_add_i64(tmp, tmp, vb);
1511             tcg_gen_ext32s_i64(vc, tmp);
1512             break;
1513         case 0x09:
1514             /* SUBL */
1515             tcg_gen_sub_i64(vc, va, vb);
1516             tcg_gen_ext32s_i64(vc, vc);
1517             break;
1518         case 0x0B:
1519             /* S4SUBL */
1520             tmp = tcg_temp_new();
1521             tcg_gen_shli_i64(tmp, va, 2);
1522             tcg_gen_sub_i64(tmp, tmp, vb);
1523             tcg_gen_ext32s_i64(vc, tmp);
1524             break;
1525         case 0x0F:
1526             /* CMPBGE */
1527             if (ra == 31) {
1528                 /* Special case 0 >= X as X == 0.  */
1529                 gen_helper_cmpbe0(vc, vb);
1530             } else {
1531                 gen_helper_cmpbge(vc, va, vb);
1532             }
1533             break;
1534         case 0x12:
1535             /* S8ADDL */
1536             tmp = tcg_temp_new();
1537             tcg_gen_shli_i64(tmp, va, 3);
1538             tcg_gen_add_i64(tmp, tmp, vb);
1539             tcg_gen_ext32s_i64(vc, tmp);
1540             break;
1541         case 0x1B:
1542             /* S8SUBL */
1543             tmp = tcg_temp_new();
1544             tcg_gen_shli_i64(tmp, va, 3);
1545             tcg_gen_sub_i64(tmp, tmp, vb);
1546             tcg_gen_ext32s_i64(vc, tmp);
1547             break;
1548         case 0x1D:
1549             /* CMPULT */
1550             tcg_gen_setcond_i64(TCG_COND_LTU, vc, va, vb);
1551             break;
1552         case 0x20:
1553             /* ADDQ */
1554             tcg_gen_add_i64(vc, va, vb);
1555             break;
1556         case 0x22:
1557             /* S4ADDQ */
1558             tmp = tcg_temp_new();
1559             tcg_gen_shli_i64(tmp, va, 2);
1560             tcg_gen_add_i64(vc, tmp, vb);
1561             break;
1562         case 0x29:
1563             /* SUBQ */
1564             tcg_gen_sub_i64(vc, va, vb);
1565             break;
1566         case 0x2B:
1567             /* S4SUBQ */
1568             tmp = tcg_temp_new();
1569             tcg_gen_shli_i64(tmp, va, 2);
1570             tcg_gen_sub_i64(vc, tmp, vb);
1571             break;
1572         case 0x2D:
1573             /* CMPEQ */
1574             tcg_gen_setcond_i64(TCG_COND_EQ, vc, va, vb);
1575             break;
1576         case 0x32:
1577             /* S8ADDQ */
1578             tmp = tcg_temp_new();
1579             tcg_gen_shli_i64(tmp, va, 3);
1580             tcg_gen_add_i64(vc, tmp, vb);
1581             break;
1582         case 0x3B:
1583             /* S8SUBQ */
1584             tmp = tcg_temp_new();
1585             tcg_gen_shli_i64(tmp, va, 3);
1586             tcg_gen_sub_i64(vc, tmp, vb);
1587             break;
1588         case 0x3D:
1589             /* CMPULE */
1590             tcg_gen_setcond_i64(TCG_COND_LEU, vc, va, vb);
1591             break;
1592         case 0x40:
1593             /* ADDL/V */
1594             tmp = tcg_temp_new();
1595             tcg_gen_ext32s_i64(tmp, va);
1596             tcg_gen_ext32s_i64(vc, vb);
1597             tcg_gen_add_i64(tmp, tmp, vc);
1598             tcg_gen_ext32s_i64(vc, tmp);
1599             gen_helper_check_overflow(cpu_env, vc, tmp);
1600             break;
1601         case 0x49:
1602             /* SUBL/V */
1603             tmp = tcg_temp_new();
1604             tcg_gen_ext32s_i64(tmp, va);
1605             tcg_gen_ext32s_i64(vc, vb);
1606             tcg_gen_sub_i64(tmp, tmp, vc);
1607             tcg_gen_ext32s_i64(vc, tmp);
1608             gen_helper_check_overflow(cpu_env, vc, tmp);
1609             break;
1610         case 0x4D:
1611             /* CMPLT */
1612             tcg_gen_setcond_i64(TCG_COND_LT, vc, va, vb);
1613             break;
1614         case 0x60:
1615             /* ADDQ/V */
1616             tmp = tcg_temp_new();
1617             tmp2 = tcg_temp_new();
1618             tcg_gen_eqv_i64(tmp, va, vb);
1619             tcg_gen_mov_i64(tmp2, va);
1620             tcg_gen_add_i64(vc, va, vb);
1621             tcg_gen_xor_i64(tmp2, tmp2, vc);
1622             tcg_gen_and_i64(tmp, tmp, tmp2);
1623             tcg_gen_shri_i64(tmp, tmp, 63);
1624             tcg_gen_movi_i64(tmp2, 0);
1625             gen_helper_check_overflow(cpu_env, tmp, tmp2);
1626             break;
1627         case 0x69:
1628             /* SUBQ/V */
1629             tmp = tcg_temp_new();
1630             tmp2 = tcg_temp_new();
1631             tcg_gen_xor_i64(tmp, va, vb);
1632             tcg_gen_mov_i64(tmp2, va);
1633             tcg_gen_sub_i64(vc, va, vb);
1634             tcg_gen_xor_i64(tmp2, tmp2, vc);
1635             tcg_gen_and_i64(tmp, tmp, tmp2);
1636             tcg_gen_shri_i64(tmp, tmp, 63);
1637             tcg_gen_movi_i64(tmp2, 0);
1638             gen_helper_check_overflow(cpu_env, tmp, tmp2);
1639             break;
1640         case 0x6D:
1641             /* CMPLE */
1642             tcg_gen_setcond_i64(TCG_COND_LE, vc, va, vb);
1643             break;
1644         default:
1645             goto invalid_opc;
1646         }
1647         break;
1648 
1649     case 0x11:
1650         if (fn7 == 0x20) {
1651             if (rc == 31) {
1652                 /* Special case BIS as NOP.  */
1653                 break;
1654             }
1655             if (ra == 31) {
1656                 /* Special case BIS as MOV.  */
1657                 vc = dest_gpr(ctx, rc);
1658                 if (islit) {
1659                     tcg_gen_movi_i64(vc, lit);
1660                 } else {
1661                     tcg_gen_mov_i64(vc, load_gpr(ctx, rb));
1662                 }
1663                 break;
1664             }
1665         }
1666 
1667         vc = dest_gpr(ctx, rc);
1668         vb = load_gpr_lit(ctx, rb, lit, islit);
1669 
1670         if (fn7 == 0x28 && ra == 31) {
1671             /* Special case ORNOT as NOT.  */
1672             tcg_gen_not_i64(vc, vb);
1673             break;
1674         }
1675 
1676         va = load_gpr(ctx, ra);
1677         switch (fn7) {
1678         case 0x00:
1679             /* AND */
1680             tcg_gen_and_i64(vc, va, vb);
1681             break;
1682         case 0x08:
1683             /* BIC */
1684             tcg_gen_andc_i64(vc, va, vb);
1685             break;
1686         case 0x14:
1687             /* CMOVLBS */
1688             tmp = tcg_temp_new();
1689             tcg_gen_andi_i64(tmp, va, 1);
1690             tcg_gen_movcond_i64(TCG_COND_NE, vc, tmp, load_zero(ctx),
1691                                 vb, load_gpr(ctx, rc));
1692             break;
1693         case 0x16:
1694             /* CMOVLBC */
1695             tmp = tcg_temp_new();
1696             tcg_gen_andi_i64(tmp, va, 1);
1697             tcg_gen_movcond_i64(TCG_COND_EQ, vc, tmp, load_zero(ctx),
1698                                 vb, load_gpr(ctx, rc));
1699             break;
1700         case 0x20:
1701             /* BIS */
1702             tcg_gen_or_i64(vc, va, vb);
1703             break;
1704         case 0x24:
1705             /* CMOVEQ */
1706             tcg_gen_movcond_i64(TCG_COND_EQ, vc, va, load_zero(ctx),
1707                                 vb, load_gpr(ctx, rc));
1708             break;
1709         case 0x26:
1710             /* CMOVNE */
1711             tcg_gen_movcond_i64(TCG_COND_NE, vc, va, load_zero(ctx),
1712                                 vb, load_gpr(ctx, rc));
1713             break;
1714         case 0x28:
1715             /* ORNOT */
1716             tcg_gen_orc_i64(vc, va, vb);
1717             break;
1718         case 0x40:
1719             /* XOR */
1720             tcg_gen_xor_i64(vc, va, vb);
1721             break;
1722         case 0x44:
1723             /* CMOVLT */
1724             tcg_gen_movcond_i64(TCG_COND_LT, vc, va, load_zero(ctx),
1725                                 vb, load_gpr(ctx, rc));
1726             break;
1727         case 0x46:
1728             /* CMOVGE */
1729             tcg_gen_movcond_i64(TCG_COND_GE, vc, va, load_zero(ctx),
1730                                 vb, load_gpr(ctx, rc));
1731             break;
1732         case 0x48:
1733             /* EQV */
1734             tcg_gen_eqv_i64(vc, va, vb);
1735             break;
1736         case 0x61:
1737             /* AMASK */
1738             REQUIRE_REG_31(ra);
1739             tcg_gen_andi_i64(vc, vb, ~ctx->amask);
1740             break;
1741         case 0x64:
1742             /* CMOVLE */
1743             tcg_gen_movcond_i64(TCG_COND_LE, vc, va, load_zero(ctx),
1744                                 vb, load_gpr(ctx, rc));
1745             break;
1746         case 0x66:
1747             /* CMOVGT */
1748             tcg_gen_movcond_i64(TCG_COND_GT, vc, va, load_zero(ctx),
1749                                 vb, load_gpr(ctx, rc));
1750             break;
1751         case 0x6C:
1752             /* IMPLVER */
1753             REQUIRE_REG_31(ra);
1754             tcg_gen_movi_i64(vc, ctx->implver);
1755             break;
1756         default:
1757             goto invalid_opc;
1758         }
1759         break;
1760 
1761     case 0x12:
1762         vc = dest_gpr(ctx, rc);
1763         va = load_gpr(ctx, ra);
1764         switch (fn7) {
1765         case 0x02:
1766             /* MSKBL */
1767             gen_msk_l(ctx, vc, va, rb, islit, lit, 0x01);
1768             break;
1769         case 0x06:
1770             /* EXTBL */
1771             gen_ext_l(ctx, vc, va, rb, islit, lit, 0x01);
1772             break;
1773         case 0x0B:
1774             /* INSBL */
1775             gen_ins_l(ctx, vc, va, rb, islit, lit, 0x01);
1776             break;
1777         case 0x12:
1778             /* MSKWL */
1779             gen_msk_l(ctx, vc, va, rb, islit, lit, 0x03);
1780             break;
1781         case 0x16:
1782             /* EXTWL */
1783             gen_ext_l(ctx, vc, va, rb, islit, lit, 0x03);
1784             break;
1785         case 0x1B:
1786             /* INSWL */
1787             gen_ins_l(ctx, vc, va, rb, islit, lit, 0x03);
1788             break;
1789         case 0x22:
1790             /* MSKLL */
1791             gen_msk_l(ctx, vc, va, rb, islit, lit, 0x0f);
1792             break;
1793         case 0x26:
1794             /* EXTLL */
1795             gen_ext_l(ctx, vc, va, rb, islit, lit, 0x0f);
1796             break;
1797         case 0x2B:
1798             /* INSLL */
1799             gen_ins_l(ctx, vc, va, rb, islit, lit, 0x0f);
1800             break;
1801         case 0x30:
1802             /* ZAP */
1803             if (islit) {
1804                 gen_zapnoti(vc, va, ~lit);
1805             } else {
1806                 gen_helper_zap(vc, va, load_gpr(ctx, rb));
1807             }
1808             break;
1809         case 0x31:
1810             /* ZAPNOT */
1811             if (islit) {
1812                 gen_zapnoti(vc, va, lit);
1813             } else {
1814                 gen_helper_zapnot(vc, va, load_gpr(ctx, rb));
1815             }
1816             break;
1817         case 0x32:
1818             /* MSKQL */
1819             gen_msk_l(ctx, vc, va, rb, islit, lit, 0xff);
1820             break;
1821         case 0x34:
1822             /* SRL */
1823             if (islit) {
1824                 tcg_gen_shri_i64(vc, va, lit & 0x3f);
1825             } else {
1826                 tmp = tcg_temp_new();
1827                 vb = load_gpr(ctx, rb);
1828                 tcg_gen_andi_i64(tmp, vb, 0x3f);
1829                 tcg_gen_shr_i64(vc, va, tmp);
1830             }
1831             break;
1832         case 0x36:
1833             /* EXTQL */
1834             gen_ext_l(ctx, vc, va, rb, islit, lit, 0xff);
1835             break;
1836         case 0x39:
1837             /* SLL */
1838             if (islit) {
1839                 tcg_gen_shli_i64(vc, va, lit & 0x3f);
1840             } else {
1841                 tmp = tcg_temp_new();
1842                 vb = load_gpr(ctx, rb);
1843                 tcg_gen_andi_i64(tmp, vb, 0x3f);
1844                 tcg_gen_shl_i64(vc, va, tmp);
1845             }
1846             break;
1847         case 0x3B:
1848             /* INSQL */
1849             gen_ins_l(ctx, vc, va, rb, islit, lit, 0xff);
1850             break;
1851         case 0x3C:
1852             /* SRA */
1853             if (islit) {
1854                 tcg_gen_sari_i64(vc, va, lit & 0x3f);
1855             } else {
1856                 tmp = tcg_temp_new();
1857                 vb = load_gpr(ctx, rb);
1858                 tcg_gen_andi_i64(tmp, vb, 0x3f);
1859                 tcg_gen_sar_i64(vc, va, tmp);
1860             }
1861             break;
1862         case 0x52:
1863             /* MSKWH */
1864             gen_msk_h(ctx, vc, va, rb, islit, lit, 0x03);
1865             break;
1866         case 0x57:
1867             /* INSWH */
1868             gen_ins_h(ctx, vc, va, rb, islit, lit, 0x03);
1869             break;
1870         case 0x5A:
1871             /* EXTWH */
1872             gen_ext_h(ctx, vc, va, rb, islit, lit, 0x03);
1873             break;
1874         case 0x62:
1875             /* MSKLH */
1876             gen_msk_h(ctx, vc, va, rb, islit, lit, 0x0f);
1877             break;
1878         case 0x67:
1879             /* INSLH */
1880             gen_ins_h(ctx, vc, va, rb, islit, lit, 0x0f);
1881             break;
1882         case 0x6A:
1883             /* EXTLH */
1884             gen_ext_h(ctx, vc, va, rb, islit, lit, 0x0f);
1885             break;
1886         case 0x72:
1887             /* MSKQH */
1888             gen_msk_h(ctx, vc, va, rb, islit, lit, 0xff);
1889             break;
1890         case 0x77:
1891             /* INSQH */
1892             gen_ins_h(ctx, vc, va, rb, islit, lit, 0xff);
1893             break;
1894         case 0x7A:
1895             /* EXTQH */
1896             gen_ext_h(ctx, vc, va, rb, islit, lit, 0xff);
1897             break;
1898         default:
1899             goto invalid_opc;
1900         }
1901         break;
1902 
1903     case 0x13:
1904         vc = dest_gpr(ctx, rc);
1905         vb = load_gpr_lit(ctx, rb, lit, islit);
1906         va = load_gpr(ctx, ra);
1907         switch (fn7) {
1908         case 0x00:
1909             /* MULL */
1910             tcg_gen_mul_i64(vc, va, vb);
1911             tcg_gen_ext32s_i64(vc, vc);
1912             break;
1913         case 0x20:
1914             /* MULQ */
1915             tcg_gen_mul_i64(vc, va, vb);
1916             break;
1917         case 0x30:
1918             /* UMULH */
1919             tmp = tcg_temp_new();
1920             tcg_gen_mulu2_i64(tmp, vc, va, vb);
1921             break;
1922         case 0x40:
1923             /* MULL/V */
1924             tmp = tcg_temp_new();
1925             tcg_gen_ext32s_i64(tmp, va);
1926             tcg_gen_ext32s_i64(vc, vb);
1927             tcg_gen_mul_i64(tmp, tmp, vc);
1928             tcg_gen_ext32s_i64(vc, tmp);
1929             gen_helper_check_overflow(cpu_env, vc, tmp);
1930             break;
1931         case 0x60:
1932             /* MULQ/V */
1933             tmp = tcg_temp_new();
1934             tmp2 = tcg_temp_new();
1935             tcg_gen_muls2_i64(vc, tmp, va, vb);
1936             tcg_gen_sari_i64(tmp2, vc, 63);
1937             gen_helper_check_overflow(cpu_env, tmp, tmp2);
1938             break;
1939         default:
1940             goto invalid_opc;
1941         }
1942         break;
1943 
1944     case 0x14:
1945         REQUIRE_AMASK(FIX);
1946         vc = dest_fpr(ctx, rc);
1947         switch (fpfn) { /* fn11 & 0x3F */
1948         case 0x04:
1949             /* ITOFS */
1950             REQUIRE_REG_31(rb);
1951             REQUIRE_FEN;
1952             t32 = tcg_temp_new_i32();
1953             va = load_gpr(ctx, ra);
1954             tcg_gen_extrl_i64_i32(t32, va);
1955             gen_helper_memory_to_s(vc, t32);
1956             break;
1957         case 0x0A:
1958             /* SQRTF */
1959             REQUIRE_REG_31(ra);
1960             REQUIRE_FEN;
1961             vb = load_fpr(ctx, rb);
1962             gen_helper_sqrtf(vc, cpu_env, vb);
1963             break;
1964         case 0x0B:
1965             /* SQRTS */
1966             REQUIRE_REG_31(ra);
1967             REQUIRE_FEN;
1968             gen_sqrts(ctx, rb, rc, fn11);
1969             break;
1970         case 0x14:
1971             /* ITOFF */
1972             REQUIRE_REG_31(rb);
1973             REQUIRE_FEN;
1974             t32 = tcg_temp_new_i32();
1975             va = load_gpr(ctx, ra);
1976             tcg_gen_extrl_i64_i32(t32, va);
1977             gen_helper_memory_to_f(vc, t32);
1978             break;
1979         case 0x24:
1980             /* ITOFT */
1981             REQUIRE_REG_31(rb);
1982             REQUIRE_FEN;
1983             va = load_gpr(ctx, ra);
1984             tcg_gen_mov_i64(vc, va);
1985             break;
1986         case 0x2A:
1987             /* SQRTG */
1988             REQUIRE_REG_31(ra);
1989             REQUIRE_FEN;
1990             vb = load_fpr(ctx, rb);
1991             gen_helper_sqrtg(vc, cpu_env, vb);
1992             break;
1993         case 0x02B:
1994             /* SQRTT */
1995             REQUIRE_REG_31(ra);
1996             REQUIRE_FEN;
1997             gen_sqrtt(ctx, rb, rc, fn11);
1998             break;
1999         default:
2000             goto invalid_opc;
2001         }
2002         break;
2003 
2004     case 0x15:
2005         /* VAX floating point */
2006         /* XXX: rounding mode and trap are ignored (!) */
2007         vc = dest_fpr(ctx, rc);
2008         vb = load_fpr(ctx, rb);
2009         va = load_fpr(ctx, ra);
2010         switch (fpfn) { /* fn11 & 0x3F */
2011         case 0x00:
2012             /* ADDF */
2013             REQUIRE_FEN;
2014             gen_helper_addf(vc, cpu_env, va, vb);
2015             break;
2016         case 0x01:
2017             /* SUBF */
2018             REQUIRE_FEN;
2019             gen_helper_subf(vc, cpu_env, va, vb);
2020             break;
2021         case 0x02:
2022             /* MULF */
2023             REQUIRE_FEN;
2024             gen_helper_mulf(vc, cpu_env, va, vb);
2025             break;
2026         case 0x03:
2027             /* DIVF */
2028             REQUIRE_FEN;
2029             gen_helper_divf(vc, cpu_env, va, vb);
2030             break;
2031         case 0x1E:
2032             /* CVTDG -- TODO */
2033             REQUIRE_REG_31(ra);
2034             goto invalid_opc;
2035         case 0x20:
2036             /* ADDG */
2037             REQUIRE_FEN;
2038             gen_helper_addg(vc, cpu_env, va, vb);
2039             break;
2040         case 0x21:
2041             /* SUBG */
2042             REQUIRE_FEN;
2043             gen_helper_subg(vc, cpu_env, va, vb);
2044             break;
2045         case 0x22:
2046             /* MULG */
2047             REQUIRE_FEN;
2048             gen_helper_mulg(vc, cpu_env, va, vb);
2049             break;
2050         case 0x23:
2051             /* DIVG */
2052             REQUIRE_FEN;
2053             gen_helper_divg(vc, cpu_env, va, vb);
2054             break;
2055         case 0x25:
2056             /* CMPGEQ */
2057             REQUIRE_FEN;
2058             gen_helper_cmpgeq(vc, cpu_env, va, vb);
2059             break;
2060         case 0x26:
2061             /* CMPGLT */
2062             REQUIRE_FEN;
2063             gen_helper_cmpglt(vc, cpu_env, va, vb);
2064             break;
2065         case 0x27:
2066             /* CMPGLE */
2067             REQUIRE_FEN;
2068             gen_helper_cmpgle(vc, cpu_env, va, vb);
2069             break;
2070         case 0x2C:
2071             /* CVTGF */
2072             REQUIRE_REG_31(ra);
2073             REQUIRE_FEN;
2074             gen_helper_cvtgf(vc, cpu_env, vb);
2075             break;
2076         case 0x2D:
2077             /* CVTGD -- TODO */
2078             REQUIRE_REG_31(ra);
2079             goto invalid_opc;
2080         case 0x2F:
2081             /* CVTGQ */
2082             REQUIRE_REG_31(ra);
2083             REQUIRE_FEN;
2084             gen_helper_cvtgq(vc, cpu_env, vb);
2085             break;
2086         case 0x3C:
2087             /* CVTQF */
2088             REQUIRE_REG_31(ra);
2089             REQUIRE_FEN;
2090             gen_helper_cvtqf(vc, cpu_env, vb);
2091             break;
2092         case 0x3E:
2093             /* CVTQG */
2094             REQUIRE_REG_31(ra);
2095             REQUIRE_FEN;
2096             gen_helper_cvtqg(vc, cpu_env, vb);
2097             break;
2098         default:
2099             goto invalid_opc;
2100         }
2101         break;
2102 
2103     case 0x16:
2104         /* IEEE floating-point */
2105         switch (fpfn) { /* fn11 & 0x3F */
2106         case 0x00:
2107             /* ADDS */
2108             REQUIRE_FEN;
2109             gen_adds(ctx, ra, rb, rc, fn11);
2110             break;
2111         case 0x01:
2112             /* SUBS */
2113             REQUIRE_FEN;
2114             gen_subs(ctx, ra, rb, rc, fn11);
2115             break;
2116         case 0x02:
2117             /* MULS */
2118             REQUIRE_FEN;
2119             gen_muls(ctx, ra, rb, rc, fn11);
2120             break;
2121         case 0x03:
2122             /* DIVS */
2123             REQUIRE_FEN;
2124             gen_divs(ctx, ra, rb, rc, fn11);
2125             break;
2126         case 0x20:
2127             /* ADDT */
2128             REQUIRE_FEN;
2129             gen_addt(ctx, ra, rb, rc, fn11);
2130             break;
2131         case 0x21:
2132             /* SUBT */
2133             REQUIRE_FEN;
2134             gen_subt(ctx, ra, rb, rc, fn11);
2135             break;
2136         case 0x22:
2137             /* MULT */
2138             REQUIRE_FEN;
2139             gen_mult(ctx, ra, rb, rc, fn11);
2140             break;
2141         case 0x23:
2142             /* DIVT */
2143             REQUIRE_FEN;
2144             gen_divt(ctx, ra, rb, rc, fn11);
2145             break;
2146         case 0x24:
2147             /* CMPTUN */
2148             REQUIRE_FEN;
2149             gen_cmptun(ctx, ra, rb, rc, fn11);
2150             break;
2151         case 0x25:
2152             /* CMPTEQ */
2153             REQUIRE_FEN;
2154             gen_cmpteq(ctx, ra, rb, rc, fn11);
2155             break;
2156         case 0x26:
2157             /* CMPTLT */
2158             REQUIRE_FEN;
2159             gen_cmptlt(ctx, ra, rb, rc, fn11);
2160             break;
2161         case 0x27:
2162             /* CMPTLE */
2163             REQUIRE_FEN;
2164             gen_cmptle(ctx, ra, rb, rc, fn11);
2165             break;
2166         case 0x2C:
2167             REQUIRE_REG_31(ra);
2168             REQUIRE_FEN;
2169             if (fn11 == 0x2AC || fn11 == 0x6AC) {
2170                 /* CVTST */
2171                 gen_cvtst(ctx, rb, rc, fn11);
2172             } else {
2173                 /* CVTTS */
2174                 gen_cvtts(ctx, rb, rc, fn11);
2175             }
2176             break;
2177         case 0x2F:
2178             /* CVTTQ */
2179             REQUIRE_REG_31(ra);
2180             REQUIRE_FEN;
2181             gen_cvttq(ctx, rb, rc, fn11);
2182             break;
2183         case 0x3C:
2184             /* CVTQS */
2185             REQUIRE_REG_31(ra);
2186             REQUIRE_FEN;
2187             gen_cvtqs(ctx, rb, rc, fn11);
2188             break;
2189         case 0x3E:
2190             /* CVTQT */
2191             REQUIRE_REG_31(ra);
2192             REQUIRE_FEN;
2193             gen_cvtqt(ctx, rb, rc, fn11);
2194             break;
2195         default:
2196             goto invalid_opc;
2197         }
2198         break;
2199 
2200     case 0x17:
2201         switch (fn11) {
2202         case 0x010:
2203             /* CVTLQ */
2204             REQUIRE_REG_31(ra);
2205             REQUIRE_FEN;
2206             vc = dest_fpr(ctx, rc);
2207             vb = load_fpr(ctx, rb);
2208             gen_cvtlq(vc, vb);
2209             break;
2210         case 0x020:
2211             /* CPYS */
2212             REQUIRE_FEN;
2213             if (rc == 31) {
2214                 /* Special case CPYS as FNOP.  */
2215             } else {
2216                 vc = dest_fpr(ctx, rc);
2217                 va = load_fpr(ctx, ra);
2218                 if (ra == rb) {
2219                     /* Special case CPYS as FMOV.  */
2220                     tcg_gen_mov_i64(vc, va);
2221                 } else {
2222                     vb = load_fpr(ctx, rb);
2223                     gen_cpy_mask(vc, va, vb, 0, 0x8000000000000000ULL);
2224                 }
2225             }
2226             break;
2227         case 0x021:
2228             /* CPYSN */
2229             REQUIRE_FEN;
2230             vc = dest_fpr(ctx, rc);
2231             vb = load_fpr(ctx, rb);
2232             va = load_fpr(ctx, ra);
2233             gen_cpy_mask(vc, va, vb, 1, 0x8000000000000000ULL);
2234             break;
2235         case 0x022:
2236             /* CPYSE */
2237             REQUIRE_FEN;
2238             vc = dest_fpr(ctx, rc);
2239             vb = load_fpr(ctx, rb);
2240             va = load_fpr(ctx, ra);
2241             gen_cpy_mask(vc, va, vb, 0, 0xFFF0000000000000ULL);
2242             break;
2243         case 0x024:
2244             /* MT_FPCR */
2245             REQUIRE_FEN;
2246             va = load_fpr(ctx, ra);
2247             gen_helper_store_fpcr(cpu_env, va);
2248             if (ctx->tb_rm == QUAL_RM_D) {
2249                 /* Re-do the copy of the rounding mode to fp_status
2250                    the next time we use dynamic rounding.  */
2251                 ctx->tb_rm = -1;
2252             }
2253             break;
2254         case 0x025:
2255             /* MF_FPCR */
2256             REQUIRE_FEN;
2257             va = dest_fpr(ctx, ra);
2258             gen_helper_load_fpcr(va, cpu_env);
2259             break;
2260         case 0x02A:
2261             /* FCMOVEQ */
2262             REQUIRE_FEN;
2263             gen_fcmov(ctx, TCG_COND_EQ, ra, rb, rc);
2264             break;
2265         case 0x02B:
2266             /* FCMOVNE */
2267             REQUIRE_FEN;
2268             gen_fcmov(ctx, TCG_COND_NE, ra, rb, rc);
2269             break;
2270         case 0x02C:
2271             /* FCMOVLT */
2272             REQUIRE_FEN;
2273             gen_fcmov(ctx, TCG_COND_LT, ra, rb, rc);
2274             break;
2275         case 0x02D:
2276             /* FCMOVGE */
2277             REQUIRE_FEN;
2278             gen_fcmov(ctx, TCG_COND_GE, ra, rb, rc);
2279             break;
2280         case 0x02E:
2281             /* FCMOVLE */
2282             REQUIRE_FEN;
2283             gen_fcmov(ctx, TCG_COND_LE, ra, rb, rc);
2284             break;
2285         case 0x02F:
2286             /* FCMOVGT */
2287             REQUIRE_FEN;
2288             gen_fcmov(ctx, TCG_COND_GT, ra, rb, rc);
2289             break;
2290         case 0x030: /* CVTQL */
2291         case 0x130: /* CVTQL/V */
2292         case 0x530: /* CVTQL/SV */
2293             REQUIRE_REG_31(ra);
2294             REQUIRE_FEN;
2295             vc = dest_fpr(ctx, rc);
2296             vb = load_fpr(ctx, rb);
2297             gen_helper_cvtql(vc, cpu_env, vb);
2298             gen_fp_exc_raise(rc, fn11);
2299             break;
2300         default:
2301             goto invalid_opc;
2302         }
2303         break;
2304 
2305     case 0x18:
2306         switch ((uint16_t)disp16) {
2307         case 0x0000:
2308             /* TRAPB */
2309             /* No-op.  */
2310             break;
2311         case 0x0400:
2312             /* EXCB */
2313             /* No-op.  */
2314             break;
2315         case 0x4000:
2316             /* MB */
2317             tcg_gen_mb(TCG_MO_ALL | TCG_BAR_SC);
2318             break;
2319         case 0x4400:
2320             /* WMB */
2321             tcg_gen_mb(TCG_MO_ST_ST | TCG_BAR_SC);
2322             break;
2323         case 0x8000:
2324             /* FETCH */
2325             /* No-op */
2326             break;
2327         case 0xA000:
2328             /* FETCH_M */
2329             /* No-op */
2330             break;
2331         case 0xC000:
2332             /* RPCC */
2333             va = dest_gpr(ctx, ra);
2334             if (translator_io_start(&ctx->base)) {
2335                 ret = DISAS_PC_STALE;
2336             }
2337             gen_helper_load_pcc(va, cpu_env);
2338             break;
2339         case 0xE000:
2340             /* RC */
2341             gen_rx(ctx, ra, 0);
2342             break;
2343         case 0xE800:
2344             /* ECB */
2345             break;
2346         case 0xF000:
2347             /* RS */
2348             gen_rx(ctx, ra, 1);
2349             break;
2350         case 0xF800:
2351             /* WH64 */
2352             /* No-op */
2353             break;
2354         case 0xFC00:
2355             /* WH64EN */
2356             /* No-op */
2357             break;
2358         default:
2359             goto invalid_opc;
2360         }
2361         break;
2362 
2363     case 0x19:
2364         /* HW_MFPR (PALcode) */
2365 #ifndef CONFIG_USER_ONLY
2366         REQUIRE_TB_FLAG(ENV_FLAG_PAL_MODE);
2367         va = dest_gpr(ctx, ra);
2368         ret = gen_mfpr(ctx, va, insn & 0xffff);
2369         break;
2370 #else
2371         goto invalid_opc;
2372 #endif
2373 
2374     case 0x1A:
2375         /* JMP, JSR, RET, JSR_COROUTINE.  These only differ by the branch
2376            prediction stack action, which of course we don't implement.  */
2377         vb = load_gpr(ctx, rb);
2378         tcg_gen_andi_i64(cpu_pc, vb, ~3);
2379         if (ra != 31) {
2380             tcg_gen_movi_i64(ctx->ir[ra], ctx->base.pc_next);
2381         }
2382         ret = DISAS_PC_UPDATED;
2383         break;
2384 
2385     case 0x1B:
2386         /* HW_LD (PALcode) */
2387 #ifndef CONFIG_USER_ONLY
2388         REQUIRE_TB_FLAG(ENV_FLAG_PAL_MODE);
2389         {
2390             TCGv addr = tcg_temp_new();
2391             vb = load_gpr(ctx, rb);
2392             va = dest_gpr(ctx, ra);
2393 
2394             tcg_gen_addi_i64(addr, vb, disp12);
2395             switch ((insn >> 12) & 0xF) {
2396             case 0x0:
2397                 /* Longword physical access (hw_ldl/p) */
2398                 tcg_gen_qemu_ld_i64(va, addr, MMU_PHYS_IDX, MO_LESL | MO_ALIGN);
2399                 break;
2400             case 0x1:
2401                 /* Quadword physical access (hw_ldq/p) */
2402                 tcg_gen_qemu_ld_i64(va, addr, MMU_PHYS_IDX, MO_LEUQ | MO_ALIGN);
2403                 break;
2404             case 0x2:
2405                 /* Longword physical access with lock (hw_ldl_l/p) */
2406                 tcg_gen_qemu_ld_i64(va, addr, MMU_PHYS_IDX, MO_LESL | MO_ALIGN);
2407                 tcg_gen_mov_i64(cpu_lock_addr, addr);
2408                 tcg_gen_mov_i64(cpu_lock_value, va);
2409                 break;
2410             case 0x3:
2411                 /* Quadword physical access with lock (hw_ldq_l/p) */
2412                 tcg_gen_qemu_ld_i64(va, addr, MMU_PHYS_IDX, MO_LEUQ | MO_ALIGN);
2413                 tcg_gen_mov_i64(cpu_lock_addr, addr);
2414                 tcg_gen_mov_i64(cpu_lock_value, va);
2415                 break;
2416             case 0x4:
2417                 /* Longword virtual PTE fetch (hw_ldl/v) */
2418                 goto invalid_opc;
2419             case 0x5:
2420                 /* Quadword virtual PTE fetch (hw_ldq/v) */
2421                 goto invalid_opc;
2422                 break;
2423             case 0x6:
2424                 /* Invalid */
2425                 goto invalid_opc;
2426             case 0x7:
2427                 /* Invaliid */
2428                 goto invalid_opc;
2429             case 0x8:
2430                 /* Longword virtual access (hw_ldl) */
2431                 goto invalid_opc;
2432             case 0x9:
2433                 /* Quadword virtual access (hw_ldq) */
2434                 goto invalid_opc;
2435             case 0xA:
2436                 /* Longword virtual access with protection check (hw_ldl/w) */
2437                 tcg_gen_qemu_ld_i64(va, addr, MMU_KERNEL_IDX,
2438                                     MO_LESL | MO_ALIGN);
2439                 break;
2440             case 0xB:
2441                 /* Quadword virtual access with protection check (hw_ldq/w) */
2442                 tcg_gen_qemu_ld_i64(va, addr, MMU_KERNEL_IDX,
2443                                     MO_LEUQ | MO_ALIGN);
2444                 break;
2445             case 0xC:
2446                 /* Longword virtual access with alt access mode (hw_ldl/a)*/
2447                 goto invalid_opc;
2448             case 0xD:
2449                 /* Quadword virtual access with alt access mode (hw_ldq/a) */
2450                 goto invalid_opc;
2451             case 0xE:
2452                 /* Longword virtual access with alternate access mode and
2453                    protection checks (hw_ldl/wa) */
2454                 tcg_gen_qemu_ld_i64(va, addr, MMU_USER_IDX,
2455                                     MO_LESL | MO_ALIGN);
2456                 break;
2457             case 0xF:
2458                 /* Quadword virtual access with alternate access mode and
2459                    protection checks (hw_ldq/wa) */
2460                 tcg_gen_qemu_ld_i64(va, addr, MMU_USER_IDX,
2461                                     MO_LEUQ | MO_ALIGN);
2462                 break;
2463             }
2464             break;
2465         }
2466 #else
2467         goto invalid_opc;
2468 #endif
2469 
2470     case 0x1C:
2471         vc = dest_gpr(ctx, rc);
2472         if (fn7 == 0x70) {
2473             /* FTOIT */
2474             REQUIRE_AMASK(FIX);
2475             REQUIRE_REG_31(rb);
2476             va = load_fpr(ctx, ra);
2477             tcg_gen_mov_i64(vc, va);
2478             break;
2479         } else if (fn7 == 0x78) {
2480             /* FTOIS */
2481             REQUIRE_AMASK(FIX);
2482             REQUIRE_REG_31(rb);
2483             t32 = tcg_temp_new_i32();
2484             va = load_fpr(ctx, ra);
2485             gen_helper_s_to_memory(t32, va);
2486             tcg_gen_ext_i32_i64(vc, t32);
2487             break;
2488         }
2489 
2490         vb = load_gpr_lit(ctx, rb, lit, islit);
2491         switch (fn7) {
2492         case 0x00:
2493             /* SEXTB */
2494             REQUIRE_AMASK(BWX);
2495             REQUIRE_REG_31(ra);
2496             tcg_gen_ext8s_i64(vc, vb);
2497             break;
2498         case 0x01:
2499             /* SEXTW */
2500             REQUIRE_AMASK(BWX);
2501             REQUIRE_REG_31(ra);
2502             tcg_gen_ext16s_i64(vc, vb);
2503             break;
2504         case 0x30:
2505             /* CTPOP */
2506             REQUIRE_AMASK(CIX);
2507             REQUIRE_REG_31(ra);
2508             REQUIRE_NO_LIT;
2509             tcg_gen_ctpop_i64(vc, vb);
2510             break;
2511         case 0x31:
2512             /* PERR */
2513             REQUIRE_AMASK(MVI);
2514             REQUIRE_NO_LIT;
2515             va = load_gpr(ctx, ra);
2516             gen_helper_perr(vc, va, vb);
2517             break;
2518         case 0x32:
2519             /* CTLZ */
2520             REQUIRE_AMASK(CIX);
2521             REQUIRE_REG_31(ra);
2522             REQUIRE_NO_LIT;
2523             tcg_gen_clzi_i64(vc, vb, 64);
2524             break;
2525         case 0x33:
2526             /* CTTZ */
2527             REQUIRE_AMASK(CIX);
2528             REQUIRE_REG_31(ra);
2529             REQUIRE_NO_LIT;
2530             tcg_gen_ctzi_i64(vc, vb, 64);
2531             break;
2532         case 0x34:
2533             /* UNPKBW */
2534             REQUIRE_AMASK(MVI);
2535             REQUIRE_REG_31(ra);
2536             REQUIRE_NO_LIT;
2537             gen_helper_unpkbw(vc, vb);
2538             break;
2539         case 0x35:
2540             /* UNPKBL */
2541             REQUIRE_AMASK(MVI);
2542             REQUIRE_REG_31(ra);
2543             REQUIRE_NO_LIT;
2544             gen_helper_unpkbl(vc, vb);
2545             break;
2546         case 0x36:
2547             /* PKWB */
2548             REQUIRE_AMASK(MVI);
2549             REQUIRE_REG_31(ra);
2550             REQUIRE_NO_LIT;
2551             gen_helper_pkwb(vc, vb);
2552             break;
2553         case 0x37:
2554             /* PKLB */
2555             REQUIRE_AMASK(MVI);
2556             REQUIRE_REG_31(ra);
2557             REQUIRE_NO_LIT;
2558             gen_helper_pklb(vc, vb);
2559             break;
2560         case 0x38:
2561             /* MINSB8 */
2562             REQUIRE_AMASK(MVI);
2563             va = load_gpr(ctx, ra);
2564             gen_helper_minsb8(vc, va, vb);
2565             break;
2566         case 0x39:
2567             /* MINSW4 */
2568             REQUIRE_AMASK(MVI);
2569             va = load_gpr(ctx, ra);
2570             gen_helper_minsw4(vc, va, vb);
2571             break;
2572         case 0x3A:
2573             /* MINUB8 */
2574             REQUIRE_AMASK(MVI);
2575             va = load_gpr(ctx, ra);
2576             gen_helper_minub8(vc, va, vb);
2577             break;
2578         case 0x3B:
2579             /* MINUW4 */
2580             REQUIRE_AMASK(MVI);
2581             va = load_gpr(ctx, ra);
2582             gen_helper_minuw4(vc, va, vb);
2583             break;
2584         case 0x3C:
2585             /* MAXUB8 */
2586             REQUIRE_AMASK(MVI);
2587             va = load_gpr(ctx, ra);
2588             gen_helper_maxub8(vc, va, vb);
2589             break;
2590         case 0x3D:
2591             /* MAXUW4 */
2592             REQUIRE_AMASK(MVI);
2593             va = load_gpr(ctx, ra);
2594             gen_helper_maxuw4(vc, va, vb);
2595             break;
2596         case 0x3E:
2597             /* MAXSB8 */
2598             REQUIRE_AMASK(MVI);
2599             va = load_gpr(ctx, ra);
2600             gen_helper_maxsb8(vc, va, vb);
2601             break;
2602         case 0x3F:
2603             /* MAXSW4 */
2604             REQUIRE_AMASK(MVI);
2605             va = load_gpr(ctx, ra);
2606             gen_helper_maxsw4(vc, va, vb);
2607             break;
2608         default:
2609             goto invalid_opc;
2610         }
2611         break;
2612 
2613     case 0x1D:
2614         /* HW_MTPR (PALcode) */
2615 #ifndef CONFIG_USER_ONLY
2616         REQUIRE_TB_FLAG(ENV_FLAG_PAL_MODE);
2617         vb = load_gpr(ctx, rb);
2618         ret = gen_mtpr(ctx, vb, insn & 0xffff);
2619         break;
2620 #else
2621         goto invalid_opc;
2622 #endif
2623 
2624     case 0x1E:
2625         /* HW_RET (PALcode) */
2626 #ifndef CONFIG_USER_ONLY
2627         REQUIRE_TB_FLAG(ENV_FLAG_PAL_MODE);
2628         if (rb == 31) {
2629             /* Pre-EV6 CPUs interpreted this as HW_REI, loading the return
2630                address from EXC_ADDR.  This turns out to be useful for our
2631                emulation PALcode, so continue to accept it.  */
2632             vb = dest_sink(ctx);
2633             tcg_gen_ld_i64(vb, cpu_env, offsetof(CPUAlphaState, exc_addr));
2634         } else {
2635             vb = load_gpr(ctx, rb);
2636         }
2637         tcg_gen_movi_i64(cpu_lock_addr, -1);
2638         st_flag_byte(load_zero(ctx), ENV_FLAG_RX_SHIFT);
2639         tmp = tcg_temp_new();
2640         tcg_gen_andi_i64(tmp, vb, 1);
2641         st_flag_byte(tmp, ENV_FLAG_PAL_SHIFT);
2642         tcg_gen_andi_i64(cpu_pc, vb, ~3);
2643         /* Allow interrupts to be recognized right away.  */
2644         ret = DISAS_PC_UPDATED_NOCHAIN;
2645         break;
2646 #else
2647         goto invalid_opc;
2648 #endif
2649 
2650     case 0x1F:
2651         /* HW_ST (PALcode) */
2652 #ifndef CONFIG_USER_ONLY
2653         REQUIRE_TB_FLAG(ENV_FLAG_PAL_MODE);
2654         {
2655             switch ((insn >> 12) & 0xF) {
2656             case 0x0:
2657                 /* Longword physical access */
2658                 va = load_gpr(ctx, ra);
2659                 vb = load_gpr(ctx, rb);
2660                 tmp = tcg_temp_new();
2661                 tcg_gen_addi_i64(tmp, vb, disp12);
2662                 tcg_gen_qemu_st_i64(va, tmp, MMU_PHYS_IDX, MO_LESL | MO_ALIGN);
2663                 break;
2664             case 0x1:
2665                 /* Quadword physical access */
2666                 va = load_gpr(ctx, ra);
2667                 vb = load_gpr(ctx, rb);
2668                 tmp = tcg_temp_new();
2669                 tcg_gen_addi_i64(tmp, vb, disp12);
2670                 tcg_gen_qemu_st_i64(va, tmp, MMU_PHYS_IDX, MO_LEUQ | MO_ALIGN);
2671                 break;
2672             case 0x2:
2673                 /* Longword physical access with lock */
2674                 ret = gen_store_conditional(ctx, ra, rb, disp12,
2675                                             MMU_PHYS_IDX, MO_LESL | MO_ALIGN);
2676                 break;
2677             case 0x3:
2678                 /* Quadword physical access with lock */
2679                 ret = gen_store_conditional(ctx, ra, rb, disp12,
2680                                             MMU_PHYS_IDX, MO_LEUQ | MO_ALIGN);
2681                 break;
2682             case 0x4:
2683                 /* Longword virtual access */
2684                 goto invalid_opc;
2685             case 0x5:
2686                 /* Quadword virtual access */
2687                 goto invalid_opc;
2688             case 0x6:
2689                 /* Invalid */
2690                 goto invalid_opc;
2691             case 0x7:
2692                 /* Invalid */
2693                 goto invalid_opc;
2694             case 0x8:
2695                 /* Invalid */
2696                 goto invalid_opc;
2697             case 0x9:
2698                 /* Invalid */
2699                 goto invalid_opc;
2700             case 0xA:
2701                 /* Invalid */
2702                 goto invalid_opc;
2703             case 0xB:
2704                 /* Invalid */
2705                 goto invalid_opc;
2706             case 0xC:
2707                 /* Longword virtual access with alternate access mode */
2708                 goto invalid_opc;
2709             case 0xD:
2710                 /* Quadword virtual access with alternate access mode */
2711                 goto invalid_opc;
2712             case 0xE:
2713                 /* Invalid */
2714                 goto invalid_opc;
2715             case 0xF:
2716                 /* Invalid */
2717                 goto invalid_opc;
2718             }
2719             break;
2720         }
2721 #else
2722         goto invalid_opc;
2723 #endif
2724     case 0x20:
2725         /* LDF */
2726         REQUIRE_FEN;
2727         gen_load_fp(ctx, ra, rb, disp16, gen_ldf);
2728         break;
2729     case 0x21:
2730         /* LDG */
2731         REQUIRE_FEN;
2732         gen_load_fp(ctx, ra, rb, disp16, gen_ldg);
2733         break;
2734     case 0x22:
2735         /* LDS */
2736         REQUIRE_FEN;
2737         gen_load_fp(ctx, ra, rb, disp16, gen_lds);
2738         break;
2739     case 0x23:
2740         /* LDT */
2741         REQUIRE_FEN;
2742         gen_load_fp(ctx, ra, rb, disp16, gen_ldt);
2743         break;
2744     case 0x24:
2745         /* STF */
2746         REQUIRE_FEN;
2747         gen_store_fp(ctx, ra, rb, disp16, gen_stf);
2748         break;
2749     case 0x25:
2750         /* STG */
2751         REQUIRE_FEN;
2752         gen_store_fp(ctx, ra, rb, disp16, gen_stg);
2753         break;
2754     case 0x26:
2755         /* STS */
2756         REQUIRE_FEN;
2757         gen_store_fp(ctx, ra, rb, disp16, gen_sts);
2758         break;
2759     case 0x27:
2760         /* STT */
2761         REQUIRE_FEN;
2762         gen_store_fp(ctx, ra, rb, disp16, gen_stt);
2763         break;
2764     case 0x28:
2765         /* LDL */
2766         gen_load_int(ctx, ra, rb, disp16, MO_LESL, 0, 0);
2767         break;
2768     case 0x29:
2769         /* LDQ */
2770         gen_load_int(ctx, ra, rb, disp16, MO_LEUQ, 0, 0);
2771         break;
2772     case 0x2A:
2773         /* LDL_L */
2774         gen_load_int(ctx, ra, rb, disp16, MO_LESL | MO_ALIGN, 0, 1);
2775         break;
2776     case 0x2B:
2777         /* LDQ_L */
2778         gen_load_int(ctx, ra, rb, disp16, MO_LEUQ | MO_ALIGN, 0, 1);
2779         break;
2780     case 0x2C:
2781         /* STL */
2782         gen_store_int(ctx, ra, rb, disp16, MO_LEUL, 0);
2783         break;
2784     case 0x2D:
2785         /* STQ */
2786         gen_store_int(ctx, ra, rb, disp16, MO_LEUQ, 0);
2787         break;
2788     case 0x2E:
2789         /* STL_C */
2790         ret = gen_store_conditional(ctx, ra, rb, disp16,
2791                                     ctx->mem_idx, MO_LESL | MO_ALIGN);
2792         break;
2793     case 0x2F:
2794         /* STQ_C */
2795         ret = gen_store_conditional(ctx, ra, rb, disp16,
2796                                     ctx->mem_idx, MO_LEUQ | MO_ALIGN);
2797         break;
2798     case 0x30:
2799         /* BR */
2800         ret = gen_bdirect(ctx, ra, disp21);
2801         break;
2802     case 0x31: /* FBEQ */
2803         REQUIRE_FEN;
2804         ret = gen_fbcond(ctx, TCG_COND_EQ, ra, disp21);
2805         break;
2806     case 0x32: /* FBLT */
2807         REQUIRE_FEN;
2808         ret = gen_fbcond(ctx, TCG_COND_LT, ra, disp21);
2809         break;
2810     case 0x33: /* FBLE */
2811         REQUIRE_FEN;
2812         ret = gen_fbcond(ctx, TCG_COND_LE, ra, disp21);
2813         break;
2814     case 0x34:
2815         /* BSR */
2816         ret = gen_bdirect(ctx, ra, disp21);
2817         break;
2818     case 0x35: /* FBNE */
2819         REQUIRE_FEN;
2820         ret = gen_fbcond(ctx, TCG_COND_NE, ra, disp21);
2821         break;
2822     case 0x36: /* FBGE */
2823         REQUIRE_FEN;
2824         ret = gen_fbcond(ctx, TCG_COND_GE, ra, disp21);
2825         break;
2826     case 0x37: /* FBGT */
2827         REQUIRE_FEN;
2828         ret = gen_fbcond(ctx, TCG_COND_GT, ra, disp21);
2829         break;
2830     case 0x38:
2831         /* BLBC */
2832         ret = gen_bcond(ctx, TCG_COND_EQ, ra, disp21, 1);
2833         break;
2834     case 0x39:
2835         /* BEQ */
2836         ret = gen_bcond(ctx, TCG_COND_EQ, ra, disp21, 0);
2837         break;
2838     case 0x3A:
2839         /* BLT */
2840         ret = gen_bcond(ctx, TCG_COND_LT, ra, disp21, 0);
2841         break;
2842     case 0x3B:
2843         /* BLE */
2844         ret = gen_bcond(ctx, TCG_COND_LE, ra, disp21, 0);
2845         break;
2846     case 0x3C:
2847         /* BLBS */
2848         ret = gen_bcond(ctx, TCG_COND_NE, ra, disp21, 1);
2849         break;
2850     case 0x3D:
2851         /* BNE */
2852         ret = gen_bcond(ctx, TCG_COND_NE, ra, disp21, 0);
2853         break;
2854     case 0x3E:
2855         /* BGE */
2856         ret = gen_bcond(ctx, TCG_COND_GE, ra, disp21, 0);
2857         break;
2858     case 0x3F:
2859         /* BGT */
2860         ret = gen_bcond(ctx, TCG_COND_GT, ra, disp21, 0);
2861         break;
2862     invalid_opc:
2863         ret = gen_invalid(ctx);
2864         break;
2865     raise_fen:
2866         ret = gen_excp(ctx, EXCP_FEN, 0);
2867         break;
2868     }
2869 
2870     return ret;
2871 }
2872 
2873 static void alpha_tr_init_disas_context(DisasContextBase *dcbase, CPUState *cpu)
2874 {
2875     DisasContext *ctx = container_of(dcbase, DisasContext, base);
2876     CPUAlphaState *env = cpu->env_ptr;
2877     int64_t bound;
2878 
2879     ctx->tbflags = ctx->base.tb->flags;
2880     ctx->mem_idx = cpu_mmu_index(env, false);
2881     ctx->implver = env->implver;
2882     ctx->amask = env->amask;
2883 
2884 #ifdef CONFIG_USER_ONLY
2885     ctx->ir = cpu_std_ir;
2886     ctx->unalign = (ctx->tbflags & TB_FLAG_UNALIGN ? MO_UNALN : MO_ALIGN);
2887 #else
2888     ctx->palbr = env->palbr;
2889     ctx->ir = (ctx->tbflags & ENV_FLAG_PAL_MODE ? cpu_pal_ir : cpu_std_ir);
2890 #endif
2891 
2892     /* ??? Every TB begins with unset rounding mode, to be initialized on
2893        the first fp insn of the TB.  Alternately we could define a proper
2894        default for every TB (e.g. QUAL_RM_N or QUAL_RM_D) and make sure
2895        to reset the FP_STATUS to that default at the end of any TB that
2896        changes the default.  We could even (gasp) dynamiclly figure out
2897        what default would be most efficient given the running program.  */
2898     ctx->tb_rm = -1;
2899     /* Similarly for flush-to-zero.  */
2900     ctx->tb_ftz = -1;
2901 
2902     ctx->zero = NULL;
2903     ctx->sink = NULL;
2904 
2905     /* Bound the number of insns to execute to those left on the page.  */
2906     bound = -(ctx->base.pc_first | TARGET_PAGE_MASK) / 4;
2907     ctx->base.max_insns = MIN(ctx->base.max_insns, bound);
2908 }
2909 
2910 static void alpha_tr_tb_start(DisasContextBase *db, CPUState *cpu)
2911 {
2912 }
2913 
2914 static void alpha_tr_insn_start(DisasContextBase *dcbase, CPUState *cpu)
2915 {
2916     tcg_gen_insn_start(dcbase->pc_next);
2917 }
2918 
2919 static void alpha_tr_translate_insn(DisasContextBase *dcbase, CPUState *cpu)
2920 {
2921     DisasContext *ctx = container_of(dcbase, DisasContext, base);
2922     CPUAlphaState *env = cpu->env_ptr;
2923     uint32_t insn = translator_ldl(env, &ctx->base, ctx->base.pc_next);
2924 
2925     ctx->base.pc_next += 4;
2926     ctx->base.is_jmp = translate_one(ctx, insn);
2927 
2928     free_context_temps(ctx);
2929 }
2930 
2931 static void alpha_tr_tb_stop(DisasContextBase *dcbase, CPUState *cpu)
2932 {
2933     DisasContext *ctx = container_of(dcbase, DisasContext, base);
2934 
2935     switch (ctx->base.is_jmp) {
2936     case DISAS_NORETURN:
2937         break;
2938     case DISAS_TOO_MANY:
2939         if (use_goto_tb(ctx, ctx->base.pc_next)) {
2940             tcg_gen_goto_tb(0);
2941             tcg_gen_movi_i64(cpu_pc, ctx->base.pc_next);
2942             tcg_gen_exit_tb(ctx->base.tb, 0);
2943         }
2944         /* FALLTHRU */
2945     case DISAS_PC_STALE:
2946         tcg_gen_movi_i64(cpu_pc, ctx->base.pc_next);
2947         /* FALLTHRU */
2948     case DISAS_PC_UPDATED:
2949         tcg_gen_lookup_and_goto_ptr();
2950         break;
2951     case DISAS_PC_UPDATED_NOCHAIN:
2952         tcg_gen_exit_tb(NULL, 0);
2953         break;
2954     default:
2955         g_assert_not_reached();
2956     }
2957 }
2958 
2959 static void alpha_tr_disas_log(const DisasContextBase *dcbase,
2960                                CPUState *cpu, FILE *logfile)
2961 {
2962     fprintf(logfile, "IN: %s\n", lookup_symbol(dcbase->pc_first));
2963     target_disas(logfile, cpu, dcbase->pc_first, dcbase->tb->size);
2964 }
2965 
2966 static const TranslatorOps alpha_tr_ops = {
2967     .init_disas_context = alpha_tr_init_disas_context,
2968     .tb_start           = alpha_tr_tb_start,
2969     .insn_start         = alpha_tr_insn_start,
2970     .translate_insn     = alpha_tr_translate_insn,
2971     .tb_stop            = alpha_tr_tb_stop,
2972     .disas_log          = alpha_tr_disas_log,
2973 };
2974 
2975 void gen_intermediate_code(CPUState *cpu, TranslationBlock *tb, int *max_insns,
2976                            target_ulong pc, void *host_pc)
2977 {
2978     DisasContext dc;
2979     translator_loop(cpu, tb, max_insns, pc, host_pc, &alpha_tr_ops, &dc.base);
2980 }
2981