/[dynamips]/trunk/mips64_amd64_trans.c
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Contents of /trunk/mips64_amd64_trans.c

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Revision 8 - (show annotations)
Sat Oct 6 16:24:54 2007 UTC (16 years, 5 months ago) by dpavlin
Original Path: upstream/dynamips-0.2.7-RC2/mips64_amd64_trans.c
File MIME type: text/plain
File size: 77968 byte(s)
dynamips-0.2.7-RC2

1 /*
2 * Cisco router simulation platform.
3 * Copyright (c) 2005,2006 Christophe Fillot (cf@utc.fr)
4 */
5
6 #include <stdio.h>
7 #include <stdlib.h>
8 #include <unistd.h>
9 #include <string.h>
10 #include <sys/types.h>
11 #include <sys/stat.h>
12 #include <sys/mman.h>
13 #include <fcntl.h>
14
15 #include "cpu.h"
16 #include "mips64_jit.h"
17 #include "mips64_amd64_trans.h"
18 #include "mips64_cp0.h"
19 #include "memory.h"
20
21 /* Macros for CPU structure access */
22 #define REG_OFFSET(reg) (OFFSET(cpu_mips_t,gpr[(reg)]))
23 #define CP0_REG_OFFSET(c0reg) (OFFSET(cpu_mips_t,cp0.reg[(c0reg)]))
24 #define MEMOP_OFFSET(op) (OFFSET(cpu_mips_t,mem_op_fn[(op)]))
25
26 #define DECLARE_INSN(name) \
27 static int mips64_emit_##name(cpu_mips_t *cpu,mips64_jit_tcb_t *b, \
28 mips_insn_t insn)
29
30 /* Set an IRQ */
31 void mips64_set_irq(cpu_mips_t *cpu,m_uint8_t irq)
32 {
33 m_uint32_t m;
34 m = (1 << (irq + MIPS_CP0_CAUSE_ISHIFT)) & MIPS_CP0_CAUSE_IMASK;
35 atomic_or(&cpu->irq_cause,m);
36 }
37
38 /* Clear an IRQ */
39 void mips64_clear_irq(cpu_mips_t *cpu,m_uint8_t irq)
40 {
41 m_uint32_t m;
42 m = (1 << (irq + MIPS_CP0_CAUSE_ISHIFT)) & MIPS_CP0_CAUSE_IMASK;
43 atomic_and(&cpu->irq_cause,~m);
44
45 if (!cpu->irq_cause)
46 cpu->irq_pending = 0;
47 }
48
49 /* Load a 64 bit immediate value */
50 static inline void mips64_load_imm(mips64_jit_tcb_t *b,u_int reg,
51 m_uint64_t value)
52 {
53 if (value > 0xffffffffULL)
54 amd64_mov_reg_imm_size(b->jit_ptr,reg,value,8);
55 else
56 amd64_mov_reg_imm(b->jit_ptr,reg,value);
57 }
58
59 /* Set the Pointer Counter (PC) register */
60 void mips64_set_pc(mips64_jit_tcb_t *b,m_uint64_t new_pc)
61 {
62 mips64_load_imm(b,AMD64_RAX,new_pc);
63 amd64_mov_membase_reg(b->jit_ptr,
64 AMD64_R15,OFFSET(cpu_mips_t,pc),
65 AMD64_RAX,8);
66 }
67
68 /* Set the Return Address (RA) register */
69 void mips64_set_ra(mips64_jit_tcb_t *b,m_uint64_t ret_pc)
70 {
71 mips64_load_imm(b,AMD64_RAX,ret_pc);
72 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,
73 REG_OFFSET(MIPS_GPR_RA),
74 AMD64_RAX,8);
75 }
76
77 /*
78 * Try to branch directly to the specified JIT block without returning to
79 * main loop.
80 */
81 static void mips64_try_direct_far_jump(cpu_mips_t *cpu,mips64_jit_tcb_t *b,
82 m_uint64_t new_pc)
83 {
84 m_uint64_t new_page;
85 m_uint32_t pc_hash,pc_offset;
86 u_char *test1,*test2,*test3;
87
88 new_page = new_pc & MIPS_MIN_PAGE_MASK;
89 pc_offset = (new_pc & MIPS_MIN_PAGE_IMASK) >> 2;
90 pc_hash = mips64_jit_get_pc_hash(new_pc);
91
92 /* Get JIT block info in %rdx */
93 amd64_mov_reg_membase(b->jit_ptr,AMD64_RBX,
94 AMD64_R15,OFFSET(cpu_mips_t,exec_blk_map),8);
95 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,
96 AMD64_RBX,pc_hash*sizeof(void *),8);
97
98 /* no JIT block found ? */
99 amd64_test_reg_reg(b->jit_ptr,AMD64_RDX,AMD64_RDX);
100 test1 = b->jit_ptr;
101 amd64_branch8(b->jit_ptr, X86_CC_Z, 0, 1);
102
103 /* Check block IA */
104 mips64_load_imm(b,AMD64_RAX,new_page);
105 amd64_alu_reg_membase_size(b->jit_ptr,X86_CMP,X86_EAX,AMD64_RDX,
106 OFFSET(mips64_jit_tcb_t,start_pc),4);
107 test2 = b->jit_ptr;
108 amd64_branch8(b->jit_ptr, X86_CC_NE, 0, 1);
109
110 /* Jump to the code */
111 amd64_mov_reg_membase(b->jit_ptr,AMD64_RSI,
112 AMD64_RDX,OFFSET(mips64_jit_tcb_t,jit_insn_ptr),8);
113 amd64_mov_reg_membase(b->jit_ptr,AMD64_RBX,
114 AMD64_RSI,pc_offset * sizeof(void *),8);
115
116 amd64_test_reg_reg(b->jit_ptr,AMD64_RBX,AMD64_RBX);
117 test3 = b->jit_ptr;
118 amd64_branch8(b->jit_ptr, X86_CC_Z, 0, 1);
119 amd64_jump_reg(b->jit_ptr,AMD64_RBX);
120
121 /* Returns to caller... */
122 amd64_patch(test1,b->jit_ptr);
123 amd64_patch(test2,b->jit_ptr);
124 amd64_patch(test3,b->jit_ptr);
125
126 mips64_set_pc(b,new_pc);
127 mips64_jit_tcb_push_epilog(b);
128 }
129
130 /* Set Jump */
131 static void mips64_set_jump(cpu_mips_t *cpu,mips64_jit_tcb_t *b,
132 m_uint64_t new_pc,int local_jump)
133 {
134 int return_to_caller = FALSE;
135 u_char *jump_ptr;
136
137 if (cpu->sym_trace && !local_jump)
138 return_to_caller = TRUE;
139
140 if (!return_to_caller && mips64_jit_tcb_local_addr(b,new_pc,&jump_ptr)) {
141 if (jump_ptr) {
142 amd64_jump_code(b->jit_ptr,jump_ptr);
143 } else {
144 /* Never jump directly to code in a delay slot */
145 if (mips64_jit_is_delay_slot(b,new_pc)) {
146 mips64_set_pc(b,new_pc);
147 mips64_jit_tcb_push_epilog(b);
148 return;
149 }
150
151 mips64_jit_tcb_record_patch(b,b->jit_ptr,new_pc);
152 amd64_jump32(b->jit_ptr,0);
153 }
154 } else {
155 if (cpu->exec_blk_direct_jump) {
156 /* Block lookup optimization */
157 mips64_try_direct_far_jump(cpu,b,new_pc);
158 } else {
159 mips64_set_pc(b,new_pc);
160 mips64_jit_tcb_push_epilog(b);
161 }
162 }
163 }
164
165 /* Basic C call */
166 static forced_inline
167 void mips64_emit_basic_c_call(mips64_jit_tcb_t *b,void *f)
168 {
169 amd64_mov_reg_imm(b->jit_ptr,AMD64_RCX,f);
170 amd64_call_reg(b->jit_ptr,AMD64_RCX);
171 }
172
173 /* Emit a simple call to a C function without any parameter */
174 static void mips64_emit_c_call(mips64_jit_tcb_t *b,void *f)
175 {
176 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
177 amd64_mov_reg_imm(b->jit_ptr,AMD64_RCX,f);
178 amd64_call_reg(b->jit_ptr,AMD64_RCX);
179 }
180
181 /* Single-step operation */
182 void mips64_emit_single_step(mips64_jit_tcb_t *b,mips_insn_t insn)
183 {
184 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
185 amd64_mov_reg_imm(b->jit_ptr,AMD64_RSI,insn);
186 mips64_emit_basic_c_call(b,mips64_exec_single_step);
187 }
188
189 /* Fast memory operation prototype */
190 typedef void (*memop_fast_access)(mips64_jit_tcb_t *b,int target);
191
192 /* Fast LW */
193 static void mips64_memop_fast_lw(mips64_jit_tcb_t *b,int target)
194 {
195 amd64_mov_reg_memindex(b->jit_ptr,AMD64_RAX,AMD64_RBX,0,AMD64_RSI,0,4);
196 amd64_bswap32(b->jit_ptr,X86_EAX);
197 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EAX);
198
199 /* Save value in register */
200 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(target),AMD64_RDX,8);
201 }
202
203 /* Fast SW */
204 static void mips64_memop_fast_sw(mips64_jit_tcb_t *b,int target)
205 {
206 /* Load value from register */
207 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(target),4);
208 amd64_bswap32(b->jit_ptr,X86_EAX);
209 amd64_mov_memindex_reg(b->jit_ptr,AMD64_RBX,0,AMD64_RSI,0,AMD64_RAX,4);
210 }
211
212 /* Fast memory operation (64-bit) */
213 static void mips64_emit_memop_fast64(mips64_jit_tcb_t *b,int write_op,
214 int opcode,int base,int offset,
215 int target,int keep_ll_bit,
216 memop_fast_access op_handler)
217 {
218 m_uint32_t val = sign_extend(offset,16);
219 u_char *test1,*test2,*p_exception,*p_exit;
220
221 test2 = NULL;
222
223 /* RSI = GPR[base] + sign-extended offset */
224 mips64_load_imm(b,AMD64_RSI,val);
225 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,
226 AMD64_RSI,AMD64_R15,REG_OFFSET(base));
227
228 /* RBX = mts64_entry index */
229 amd64_mov_reg_reg_size(b->jit_ptr,X86_EBX,X86_ESI,4);
230 amd64_shift_reg_imm_size(b->jit_ptr,X86_SHR,X86_EBX,MTS64_HASH_SHIFT,4);
231 amd64_alu_reg_imm_size(b->jit_ptr,X86_AND,X86_EBX,MTS64_HASH_MASK,4);
232
233 /* RCX = mts32 entry */
234 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,
235 AMD64_R15,
236 OFFSET(cpu_mips_t,mts_u.mts64_cache),8);
237 amd64_shift_reg_imm(b->jit_ptr,X86_SHL,AMD64_RBX,5); /* TO FIX */
238 amd64_alu_reg_reg(b->jit_ptr,X86_ADD,AMD64_RCX,AMD64_RBX);
239
240 /* Compare virtual page address (EAX = vpage) */
241 amd64_mov_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RSI,8);
242 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RAX,MIPS_MIN_PAGE_MASK);
243
244 amd64_alu_reg_membase_size(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RCX,
245 OFFSET(mts64_entry_t,gvpa),8);
246 test1 = b->jit_ptr;
247 x86_branch8(b->jit_ptr, X86_CC_NZ, 0, 1);
248
249 /* Test if we are writing to a COW page */
250 if (write_op) {
251 amd64_test_membase_imm_size(b->jit_ptr,
252 AMD64_RCX,OFFSET(mts64_entry_t,flags),
253 MTS_FLAG_COW,4);
254 test2 = b->jit_ptr;
255 amd64_branch8(b->jit_ptr, X86_CC_NZ, 0, 1);
256 }
257
258 /* ESI = offset in page, RBX = Host Page Address */
259 amd64_alu_reg_imm(b->jit_ptr,X86_AND,X86_ESI,MIPS_MIN_PAGE_IMASK);
260 amd64_mov_reg_membase(b->jit_ptr,AMD64_RBX,
261 AMD64_RCX,OFFSET(mts64_entry_t,hpa),8);
262
263 /* Memory access */
264 op_handler(b,target);
265
266 p_exit = b->jit_ptr;
267 amd64_jump8(b->jit_ptr,0);
268 if (test2)
269 amd64_patch(test2,b->jit_ptr);
270
271 /* === Slow lookup === */
272 amd64_patch(test1,b->jit_ptr);
273
274 /* Save PC for exception handling */
275 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
276
277 /* Sign-extend virtual address */
278 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RSI,X86_ESI);
279
280 /* RDX = target register */
281 amd64_mov_reg_imm(b->jit_ptr,AMD64_RDX,target);
282
283 /* RDI = CPU instance */
284 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
285
286 /* Call memory access function */
287 amd64_call_membase(b->jit_ptr,AMD64_R15,MEMOP_OFFSET(opcode));
288
289 /* Exception ? */
290 amd64_test_reg_reg_size(b->jit_ptr,AMD64_RAX,AMD64_RAX,4);
291 p_exception = b->jit_ptr;
292 amd64_branch8(b->jit_ptr, X86_CC_Z, 0, 1);
293 mips64_jit_tcb_push_epilog(b);
294
295 amd64_patch(p_exit,b->jit_ptr);
296 amd64_patch(p_exception,b->jit_ptr);
297 }
298
299 /* Fast memory operation (32-bit) */
300 static void mips64_emit_memop_fast32(mips64_jit_tcb_t *b,int write_op,
301 int opcode,int base,int offset,
302 int target,int keep_ll_bit,
303 memop_fast_access op_handler)
304 {
305 m_uint32_t val = sign_extend(offset,16);
306 u_char *test1,*test2,*p_exception,*p_exit;
307
308 test2 = NULL;
309
310 /* ESI = GPR[base] + sign-extended offset */
311 amd64_mov_reg_imm(b->jit_ptr,X86_ESI,val);
312 amd64_alu_reg_membase_size(b->jit_ptr,X86_ADD,
313 X86_ESI,AMD64_R15,REG_OFFSET(base),4);
314
315 /* RBX = mts32_entry index */
316 amd64_mov_reg_reg_size(b->jit_ptr,X86_EBX,X86_ESI,4);
317 amd64_shift_reg_imm_size(b->jit_ptr,X86_SHR,X86_EBX,MTS32_HASH_SHIFT,4);
318 amd64_alu_reg_imm_size(b->jit_ptr,X86_AND,X86_EBX,MTS32_HASH_MASK,4);
319
320 /* RCX = mts32 entry */
321 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,
322 AMD64_R15,
323 OFFSET(cpu_mips_t,mts_u.mts32_cache),8);
324 amd64_shift_reg_imm(b->jit_ptr,X86_SHL,AMD64_RBX,5); /* TO FIX */
325 amd64_alu_reg_reg(b->jit_ptr,X86_ADD,AMD64_RCX,AMD64_RBX);
326
327 /* Compare virtual page address (EAX = vpage) */
328 amd64_mov_reg_reg(b->jit_ptr,X86_EAX,X86_ESI,4);
329 amd64_alu_reg_imm(b->jit_ptr,X86_AND,X86_EAX,MIPS_MIN_PAGE_MASK);
330
331 amd64_alu_reg_membase_size(b->jit_ptr,X86_CMP,X86_EAX,AMD64_RCX,
332 OFFSET(mts32_entry_t,gvpa),4);
333 test1 = b->jit_ptr;
334 x86_branch8(b->jit_ptr, X86_CC_NZ, 0, 1);
335
336 /* Test if we are writing to a COW page */
337 if (write_op) {
338 amd64_test_membase_imm_size(b->jit_ptr,
339 AMD64_RCX,OFFSET(mts32_entry_t,flags),
340 MTS_FLAG_COW,4);
341 test2 = b->jit_ptr;
342 amd64_branch8(b->jit_ptr, X86_CC_NZ, 0, 1);
343 }
344
345 /* ESI = offset in page, RBX = Host Page Address */
346 amd64_alu_reg_imm(b->jit_ptr,X86_AND,X86_ESI,MIPS_MIN_PAGE_IMASK);
347 amd64_mov_reg_membase(b->jit_ptr,AMD64_RBX,
348 AMD64_RCX,OFFSET(mts32_entry_t,hpa),8);
349
350 /* Memory access */
351 op_handler(b,target);
352
353 p_exit = b->jit_ptr;
354 amd64_jump8(b->jit_ptr,0);
355
356 /* === Slow lookup === */
357 amd64_patch(test1,b->jit_ptr);
358 if (test2)
359 amd64_patch(test2,b->jit_ptr);
360
361 /* Save PC for exception handling */
362 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
363
364 /* Sign-extend virtual address */
365 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RSI,X86_ESI);
366
367 /* RDX = target register */
368 amd64_mov_reg_imm(b->jit_ptr,AMD64_RDX,target);
369
370 /* RDI = CPU instance */
371 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
372
373 /* Call memory access function */
374 amd64_call_membase(b->jit_ptr,AMD64_R15,MEMOP_OFFSET(opcode));
375
376 /* Exception ? */
377 amd64_test_reg_reg_size(b->jit_ptr,AMD64_RAX,AMD64_RAX,4);
378 p_exception = b->jit_ptr;
379 amd64_branch8(b->jit_ptr, X86_CC_Z, 0, 1);
380 mips64_jit_tcb_push_epilog(b);
381
382 amd64_patch(p_exit,b->jit_ptr);
383 amd64_patch(p_exception,b->jit_ptr);
384 }
385
386 /* Fast memory operation */
387 static void mips64_emit_memop_fast(cpu_mips_t *cpu,mips64_jit_tcb_t *b,
388 int write_op,int opcode,
389 int base,int offset,
390 int target,int keep_ll_bit,
391 memop_fast_access op_handler)
392 {
393 switch(cpu->addr_mode) {
394 case 32:
395 mips64_emit_memop_fast32(b,write_op,opcode,base,offset,target,
396 keep_ll_bit,op_handler);
397 break;
398 case 64:
399 mips64_emit_memop_fast64(b,write_op,opcode,base,offset,target,
400 keep_ll_bit,op_handler);
401 break;
402 }
403 }
404
405 /* Memory operation */
406 static void mips64_emit_memop(mips64_jit_tcb_t *b,int op,int base,int offset,
407 int target,int keep_ll_bit)
408 {
409 m_uint64_t val = sign_extend(offset,16);
410 u_char *test1;
411
412 /* Save PC for exception handling */
413 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
414
415 /* RDI = CPU instance */
416 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
417
418 if (!keep_ll_bit) {
419 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
420 amd64_mov_membase_reg(b->jit_ptr,AMD64_RDI,OFFSET(cpu_mips_t,ll_bit),
421 X86_ECX,4);
422 }
423
424 /* RSI = GPR[base] + sign-extended offset */
425 mips64_load_imm(b,AMD64_RSI,val);
426 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,
427 AMD64_RSI,AMD64_RDI,REG_OFFSET(base));
428
429 /* RDX = target register */
430 amd64_mov_reg_imm(b->jit_ptr,AMD64_RDX,target);
431
432 /* Call memory access function */
433 amd64_call_membase(b->jit_ptr,AMD64_RDI,MEMOP_OFFSET(op));
434
435 /* Exception ? */
436 amd64_test_reg_reg_size(b->jit_ptr,AMD64_RAX,AMD64_RAX,4);
437 test1 = b->jit_ptr;
438 amd64_branch8(b->jit_ptr, X86_CC_Z, 0, 1);
439 mips64_jit_tcb_push_epilog(b);
440 amd64_patch(test1,b->jit_ptr);
441 }
442
443 /* Coprocessor Register transfert operation */
444 static void mips64_emit_cp_xfr_op(mips64_jit_tcb_t *b,int rt,int rd,void *f)
445 {
446 /* update pc */
447 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
448
449 /* cp0 register */
450 amd64_mov_reg_imm(b->jit_ptr,AMD64_RDX,rd);
451
452 /* gpr */
453 amd64_mov_reg_imm(b->jit_ptr,AMD64_RSI,rt);
454
455 /* cpu instance */
456 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
457
458 mips64_emit_basic_c_call(b,f);
459 }
460
461 /* Virtual Breakpoint */
462 void mips64_emit_breakpoint(mips64_jit_tcb_t *b)
463 {
464 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
465 mips64_emit_c_call(b,mips64_run_breakpoint);
466 }
467
468 /* Unknown opcode handler */
469 static fastcall void mips64_unknown_opcode(cpu_mips_t *cpu,m_uint32_t opcode)
470 {
471 printf("CPU = %p\n",cpu);
472
473 printf("MIPS64: unhandled opcode 0x%8.8x at 0x%llx (ra=0x%llx)\n",
474 opcode,cpu->pc,cpu->gpr[MIPS_GPR_RA]);
475
476 mips64_dump_regs(cpu->gen);
477 }
478
479 /* Emit unhandled instruction code */
480 static int mips64_emit_unknown(cpu_mips_t *cpu,mips64_jit_tcb_t *b,
481 mips_insn_t opcode)
482 {
483 amd64_mov_reg_imm(b->jit_ptr,AMD64_RSI,opcode);
484 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
485
486 mips64_emit_c_call(b,mips64_unknown_opcode);
487 return(0);
488 }
489
490 /* Invalid delay slot handler */
491 static fastcall void mips64_invalid_delay_slot(cpu_mips_t *cpu)
492 {
493 printf("MIPS64: invalid instruction in delay slot at 0x%llx (ra=0x%llx)\n",
494 cpu->pc,cpu->gpr[MIPS_GPR_RA]);
495
496 mips64_dump_regs(cpu->gen);
497
498 /* Halt the virtual CPU */
499 cpu->pc = 0;
500 }
501
502 /* Emit unhandled instruction code */
503 int mips64_emit_invalid_delay_slot(mips64_jit_tcb_t *b)
504 {
505 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
506 mips64_emit_c_call(b,mips64_invalid_delay_slot);
507 return(0);
508 }
509
510 /*
511 * Increment count register and trigger the timer IRQ if value in compare
512 * register is the same.
513 */
514 void mips64_inc_cp0_count_reg(mips64_jit_tcb_t *b)
515 {
516 amd64_inc_membase(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,cp0_virt_cnt_reg));
517
518 #if 0 /* TIMER_IRQ */
519 u_char *test1;
520
521 /* increment the virtual count register */
522 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,
523 AMD64_R15,OFFSET(cpu_mips_t,cp0_virt_cnt_reg),4);
524 amd64_inc_reg_size(b->jit_ptr,AMD64_RAX,4);
525 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,
526 OFFSET(cpu_mips_t,cp0_virt_cnt_reg),
527 AMD64_RAX,4);
528
529 /* check with the virtual compare register */
530 amd64_alu_reg_membase_size(b->jit_ptr,X86_CMP,AMD64_RAX,
531 AMD64_R15,OFFSET(cpu_mips_t,cp0_virt_cmp_reg),4);
532 test1 = b->jit_ptr;
533 amd64_branch8(b->jit_ptr, X86_CC_NE, 0, 1);
534
535 /* we have to trigger the timer irq */
536 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
537 mips64_emit_basic_c_call(b,mips64_trigger_timer_irq);
538
539 amd64_patch(test1,b->jit_ptr);
540 #endif
541 }
542
543 /* Check if there are pending IRQ */
544 void mips64_check_pending_irq(mips64_jit_tcb_t *b)
545 {
546 u_char *test1;
547
548 /* Check the pending IRQ flag */
549 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,
550 AMD64_R15,OFFSET(cpu_mips_t,irq_pending),4);
551
552 amd64_test_reg_reg_size(b->jit_ptr,AMD64_RAX,AMD64_RAX,4);
553 test1 = b->jit_ptr;
554 amd64_branch8(b->jit_ptr, X86_CC_Z, 0, 1);
555
556 /* Update PC */
557 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
558
559 /* Trigger the IRQ */
560 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
561 mips64_emit_basic_c_call(b,mips64_trigger_irq);
562 mips64_jit_tcb_push_epilog(b);
563
564 amd64_patch(test1,b->jit_ptr);
565 }
566
567 /* Increment the number of executed instructions (performance debugging) */
568 void mips64_inc_perf_counter(mips64_jit_tcb_t *b)
569 {
570 amd64_inc_membase(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,perf_counter));
571 }
572
573 /* ADD */
574 DECLARE_INSN(ADD)
575 {
576 int rs = bits(insn,21,25);
577 int rt = bits(insn,16,20);
578 int rd = bits(insn,11,15);
579
580 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
581 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,AMD64_RAX,AMD64_R15,
582 REG_OFFSET(rt));
583
584 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
585 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
586 return(0);
587 }
588
589 /* ADDI */
590 DECLARE_INSN(ADDI)
591 {
592 int rs = bits(insn,21,25);
593 int rt = bits(insn,16,20);
594 int imm = bits(insn,0,15);
595 m_uint64_t val = sign_extend(imm,16);
596
597 /* TODO: Exception handling */
598
599 mips64_load_imm(b,AMD64_RAX,val);
600 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,AMD64_RAX,
601 AMD64_R15,REG_OFFSET(rs));
602
603 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
604 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RAX,8);
605 return(0);
606 }
607
608 /* ADDIU */
609 DECLARE_INSN(ADDIU)
610 {
611 int rs = bits(insn,21,25);
612 int rt = bits(insn,16,20);
613 int imm = bits(insn,0,15);
614 m_uint64_t val = sign_extend(imm,16);
615
616 mips64_load_imm(b,AMD64_RAX,val);
617
618 if (rs != 0) {
619 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,AMD64_RAX,
620 AMD64_R15,REG_OFFSET(rs));
621 }
622
623 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EAX);
624 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RDX,8);
625 return(0);
626 }
627
628 /* ADDU */
629 DECLARE_INSN(ADDU)
630 {
631 int rs = bits(insn,21,25);
632 int rt = bits(insn,16,20);
633 int rd = bits(insn,11,15);
634
635 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
636 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,AMD64_RAX,AMD64_R15,
637 REG_OFFSET(rt));
638
639 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
640 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
641 return(0);
642 }
643
644 /* AND */
645 DECLARE_INSN(AND)
646 {
647 int rs = bits(insn,21,25);
648 int rt = bits(insn,16,20);
649 int rd = bits(insn,11,15);
650
651 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
652 amd64_alu_reg_membase(b->jit_ptr,X86_AND,AMD64_RAX,AMD64_R15,
653 REG_OFFSET(rt));
654 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
655 return(0);
656 }
657
658 /* ANDI */
659 DECLARE_INSN(ANDI)
660 {
661 int rs = bits(insn,21,25);
662 int rt = bits(insn,16,20);
663 int imm = bits(insn,0,15);
664
665 mips64_load_imm(b,AMD64_RAX,imm);
666
667 amd64_alu_reg_membase(b->jit_ptr,X86_AND,AMD64_RAX,
668 AMD64_R15,REG_OFFSET(rs));
669
670 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RAX,8);
671 return(0);
672 }
673
674 /* B (Branch, virtual instruction) */
675 DECLARE_INSN(B)
676 {
677 int offset = bits(insn,0,15);
678 m_uint64_t new_pc;
679
680 /* compute the new pc */
681 new_pc = b->start_pc + (b->mips_trans_pos << 2);
682 new_pc += sign_extend(offset << 2,18);
683
684 /* insert the instruction in the delay slot */
685 mips64_jit_fetch_and_emit(cpu,b,1);
686
687 /* set the new pc in cpu structure */
688 mips64_set_jump(cpu,b,new_pc,1);
689 return(0);
690 }
691
692 /* BAL (Branch and Link, virtual instruction) */
693 DECLARE_INSN(BAL)
694 {
695 int offset = bits(insn,0,15);
696 m_uint64_t new_pc;
697
698 /* compute the new pc */
699 new_pc = b->start_pc + (b->mips_trans_pos << 2);
700 new_pc += sign_extend(offset << 2,18);
701
702 /* set the return address (instruction after the delay slot) */
703 mips64_set_ra(b,b->start_pc + ((b->mips_trans_pos + 1) << 2));
704
705 /* insert the instruction in the delay slot */
706 mips64_jit_fetch_and_emit(cpu,b,1);
707
708 /* set the new pc in cpu structure */
709 mips64_set_jump(cpu,b,new_pc,0);
710 return(0);
711 }
712
713 /* BEQ (Branch On Equal) */
714 DECLARE_INSN(BEQ)
715 {
716 int rs = bits(insn,21,25);
717 int rt = bits(insn,16,20);
718 int offset = bits(insn,0,15);
719 u_char *test1;
720 m_uint64_t new_pc;
721
722 /* compute the new pc */
723 new_pc = b->start_pc + (b->mips_trans_pos << 2);
724 new_pc += sign_extend(offset << 2,18);
725
726 /*
727 * compare gpr[rs] and gpr[rt].
728 */
729 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
730 amd64_alu_reg_membase(b->jit_ptr,X86_CMP,AMD64_RAX,
731 AMD64_R15,REG_OFFSET(rt));
732 test1 = b->jit_ptr;
733 amd64_branch32(b->jit_ptr, X86_CC_NE, 0, 1);
734
735 /* insert the instruction in the delay slot */
736 mips64_jit_fetch_and_emit(cpu,b,2);
737
738 /* set the new pc in cpu structure */
739 mips64_set_jump(cpu,b,new_pc,1);
740
741 amd64_patch(test1,b->jit_ptr);
742
743 /* if the branch is not taken, we have to execute the delay slot too */
744 mips64_jit_fetch_and_emit(cpu,b,1);
745 return(0);
746 }
747
748 /* BEQL (Branch On Equal Likely) */
749 DECLARE_INSN(BEQL)
750 {
751 int rs = bits(insn,21,25);
752 int rt = bits(insn,16,20);
753 int offset = bits(insn,0,15);
754 u_char *test1;
755 m_uint64_t new_pc;
756
757 /* compute the new pc */
758 new_pc = b->start_pc + (b->mips_trans_pos << 2);
759 new_pc += sign_extend(offset << 2,18);
760
761 /*
762 * compare gpr[rs] and gpr[rt].
763 */
764 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
765 amd64_alu_reg_membase(b->jit_ptr,X86_CMP,AMD64_RAX,
766 AMD64_R15,REG_OFFSET(rt));
767 test1 = b->jit_ptr;
768 amd64_branch32(b->jit_ptr, X86_CC_NE, 0, 1);
769
770 /* insert the instruction in the delay slot */
771 mips64_jit_fetch_and_emit(cpu,b,1);
772
773 /* set the new pc in cpu structure */
774 mips64_set_jump(cpu,b,new_pc,1);
775
776 amd64_patch(test1,b->jit_ptr);
777 return(0);
778 }
779
780 /* BEQZ (Branch On Equal Zero) */
781 DECLARE_INSN(BEQZ)
782 {
783 int rs = bits(insn,21,25);
784 int offset = bits(insn,0,15);
785 u_char *test1;
786 m_uint64_t new_pc;
787
788 /* compute the new pc */
789 new_pc = b->start_pc + (b->mips_trans_pos << 2);
790 new_pc += sign_extend(offset << 2,18);
791
792 /*
793 * compare gpr[rs] with 0.
794 */
795 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
796 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
797 test1 = b->jit_ptr;
798 amd64_branch32(b->jit_ptr, X86_CC_NZ, 0, 1);
799
800 /* insert the instruction in the delay slot */
801 mips64_jit_fetch_and_emit(cpu,b,2);
802
803 /* set the new pc in cpu structure */
804 mips64_set_jump(cpu,b,new_pc,1);
805
806 amd64_patch(test1,b->jit_ptr);
807
808 /* if the branch is not taken, we have to execute the delay slot too */
809 mips64_jit_fetch_and_emit(cpu,b,1);
810 return(0);
811 }
812
813 /* BNEZ (Branch On Not Equal Zero) */
814 DECLARE_INSN(BNEZ)
815 {
816 int rs = bits(insn,21,25);
817 int offset = bits(insn,0,15);
818 u_char *test1;
819 m_uint64_t new_pc;
820
821 /* compute the new pc */
822 new_pc = b->start_pc + (b->mips_trans_pos << 2);
823 new_pc += sign_extend(offset << 2,18);
824
825 /*
826 * compare gpr[rs] with 0.
827 */
828 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
829 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
830 test1 = b->jit_ptr;
831 amd64_branch32(b->jit_ptr, X86_CC_Z, 0, 1);
832
833 /* insert the instruction in the delay slot */
834 mips64_jit_fetch_and_emit(cpu,b,2);
835
836 /* set the new pc in cpu structure */
837 mips64_set_jump(cpu,b,new_pc,1);
838
839 amd64_patch(test1,b->jit_ptr);
840
841 /* if the branch is not taken, we have to execute the delay slot too */
842 mips64_jit_fetch_and_emit(cpu,b,1);
843 return(0);
844 }
845
846 /* BGEZ (Branch On Greater or Equal Than Zero) */
847 DECLARE_INSN(BGEZ)
848 {
849 int rs = bits(insn,21,25);
850 int offset = bits(insn,0,15);
851 u_char *test1;
852 m_uint64_t new_pc;
853
854 /* compute the new pc */
855 new_pc = b->start_pc + (b->mips_trans_pos << 2);
856 new_pc += sign_extend(offset << 2,18);
857
858 /* If sign bit is set, don't take the branch */
859 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
860 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
861 test1 = b->jit_ptr;
862 amd64_branch32(b->jit_ptr, X86_CC_S, 0, 1);
863
864 /* insert the instruction in the delay slot */
865 mips64_jit_fetch_and_emit(cpu,b,2);
866
867 /* set the new pc in cpu structure */
868 mips64_set_jump(cpu,b,new_pc,1);
869
870 amd64_patch(test1,b->jit_ptr);
871
872 /* if the branch is not taken, we have to execute the delay slot too */
873 mips64_jit_fetch_and_emit(cpu,b,1);
874 return(0);
875 }
876
877 /* BGEZAL (Branch On Greater or Equal Than Zero And Link) */
878 DECLARE_INSN(BGEZAL)
879 {
880 int rs = bits(insn,21,25);
881 int offset = bits(insn,0,15);
882 u_char *test1;
883 m_uint64_t new_pc;
884
885 /* compute the new pc */
886 new_pc = b->start_pc + (b->mips_trans_pos << 2);
887 new_pc += sign_extend(offset << 2,18);
888
889 /* set the return address (instruction after the delay slot) */
890 mips64_set_ra(b,b->start_pc + ((b->mips_trans_pos + 1) << 2));
891
892 /* If sign bit is set, don't take the branch */
893 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
894 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
895 test1 = b->jit_ptr;
896 amd64_branch32(b->jit_ptr, X86_CC_S, 0, 1);
897
898 /* insert the instruction in the delay slot */
899 mips64_jit_fetch_and_emit(cpu,b,2);
900
901 /* set the new pc in cpu structure */
902 mips64_set_jump(cpu,b,new_pc,1);
903
904 amd64_patch(test1,b->jit_ptr);
905
906 /* if the branch is not taken, we have to execute the delay slot too */
907 mips64_jit_fetch_and_emit(cpu,b,1);
908 return(0);
909 }
910
911 /* BGEZALL (Branch On Greater or Equal Than Zero And Link Likely) */
912 DECLARE_INSN(BGEZALL)
913 {
914 int rs = bits(insn,21,25);
915 int offset = bits(insn,0,15);
916 u_char *test1;
917 m_uint64_t new_pc;
918
919 /* compute the new pc */
920 new_pc = b->start_pc + (b->mips_trans_pos << 2);
921 new_pc += sign_extend(offset << 2,18);
922
923 /* set the return address (instruction after the delay slot) */
924 mips64_set_ra(b,b->start_pc + ((b->mips_trans_pos + 1) << 2));
925
926 /* If sign bit is set, don't take the branch */
927 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
928 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
929 test1 = b->jit_ptr;
930 amd64_branch32(b->jit_ptr, X86_CC_S, 0, 1);
931
932 /* insert the instruction in the delay slot */
933 mips64_jit_fetch_and_emit(cpu,b,1);
934
935 /* set the new pc in cpu structure */
936 mips64_set_jump(cpu,b,new_pc,1);
937
938 amd64_patch(test1,b->jit_ptr);
939 return(0);
940 }
941
942 /* BGEZL (Branch On Greater or Equal Than Zero Likely) */
943 DECLARE_INSN(BGEZL)
944 {
945 int rs = bits(insn,21,25);
946 int offset = bits(insn,0,15);
947 u_char *test1;
948 m_uint64_t new_pc;
949
950 /* compute the new pc */
951 new_pc = b->start_pc + (b->mips_trans_pos << 2);
952 new_pc += sign_extend(offset << 2,18);
953
954 /* If sign bit is set, don't take the branch */
955 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
956 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
957 test1 = b->jit_ptr;
958 amd64_branch32(b->jit_ptr, X86_CC_S, 0, 1);
959
960 /* insert the instruction in the delay slot */
961 mips64_jit_fetch_and_emit(cpu,b,1);
962
963 /* set the new pc in cpu structure */
964 mips64_set_jump(cpu,b,new_pc,1);
965
966 amd64_patch(test1,b->jit_ptr);
967 return(0);
968 }
969
970 /* BGTZ (Branch On Greater Than Zero) */
971 DECLARE_INSN(BGTZ)
972 {
973 int rs = bits(insn,21,25);
974 int offset = bits(insn,0,15);
975 u_char *test1;
976 m_uint64_t new_pc;
977
978 /* compute the new pc */
979 new_pc = b->start_pc + (b->mips_trans_pos << 2);
980 new_pc += sign_extend(offset << 2,18);
981
982 /* compare reg to zero */
983 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
984 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
985
986 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RCX);
987 test1 = b->jit_ptr;
988 amd64_branch32(b->jit_ptr, X86_CC_LE, 0, 1);
989
990 /* insert the instruction in the delay slot */
991 mips64_jit_fetch_and_emit(cpu,b,2);
992
993 /* set the new pc in cpu structure */
994 mips64_set_jump(cpu,b,new_pc,1);
995
996 amd64_patch(test1,b->jit_ptr);
997
998 /* if the branch is not taken, we have to execute the delay slot too */
999 mips64_jit_fetch_and_emit(cpu,b,1);
1000 return(0);
1001 }
1002
1003 /* BGTZL (Branch On Greater Than Zero Likely) */
1004 DECLARE_INSN(BGTZL)
1005 {
1006 int rs = bits(insn,21,25);
1007 int offset = bits(insn,0,15);
1008 u_char *test1;
1009 m_uint64_t new_pc;
1010
1011 /* compute the new pc */
1012 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1013 new_pc += sign_extend(offset << 2,18);
1014
1015 /* compare reg to zero */
1016 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1017 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
1018
1019 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RCX);
1020 test1 = b->jit_ptr;
1021 amd64_branch32(b->jit_ptr, X86_CC_LE, 0, 1);
1022
1023 /* insert the instruction in the delay slot */
1024 mips64_jit_fetch_and_emit(cpu,b,1);
1025
1026 /* set the new pc in cpu structure */
1027 mips64_set_jump(cpu,b,new_pc,1);
1028
1029 amd64_patch(test1,b->jit_ptr);
1030 return(0);
1031 }
1032
1033 /* BLEZ (Branch On Less or Equal Than Zero) */
1034 DECLARE_INSN(BLEZ)
1035 {
1036 int rs = bits(insn,21,25);
1037 int offset = bits(insn,0,15);
1038 u_char *test1;
1039 m_uint64_t new_pc;
1040
1041 /* compute the new pc */
1042 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1043 new_pc += sign_extend(offset << 2,18);
1044
1045 /* compare reg to zero */
1046 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1047 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
1048
1049 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RCX);
1050 test1 = b->jit_ptr;
1051 amd64_branch32(b->jit_ptr, X86_CC_GT, 0, 1);
1052
1053 /* insert the instruction in the delay slot */
1054 mips64_jit_fetch_and_emit(cpu,b,2);
1055
1056 /* set the new pc in cpu structure */
1057 mips64_set_jump(cpu,b,new_pc,1);
1058
1059 amd64_patch(test1,b->jit_ptr);
1060
1061 /* if the branch is not taken, we have to execute the delay slot too */
1062 mips64_jit_fetch_and_emit(cpu,b,1);
1063 return(0);
1064 }
1065
1066 /* BLEZL (Branch On Less or Equal Than Zero Likely) */
1067 DECLARE_INSN(BLEZL)
1068 {
1069 int rs = bits(insn,21,25);
1070 int offset = bits(insn,0,15);
1071 u_char *test1;
1072 m_uint64_t new_pc;
1073
1074 /* compute the new pc */
1075 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1076 new_pc += sign_extend(offset << 2,18);
1077
1078 /* compare reg to zero */
1079 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1080 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
1081
1082 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RCX);
1083 test1 = b->jit_ptr;
1084 amd64_branch32(b->jit_ptr, X86_CC_GT, 0, 1);
1085
1086 /* insert the instruction in the delay slot */
1087 mips64_jit_fetch_and_emit(cpu,b,1);
1088
1089 /* set the new pc in cpu structure */
1090 mips64_set_jump(cpu,b,new_pc,1);
1091
1092 amd64_patch(test1,b->jit_ptr);
1093 return(0);
1094 }
1095
1096 /* BLTZ (Branch On Less Than Zero) */
1097 DECLARE_INSN(BLTZ)
1098 {
1099 int rs = bits(insn,21,25);
1100 int offset = bits(insn,0,15);
1101 u_char *test1;
1102 m_uint64_t new_pc;
1103
1104 /* compute the new pc */
1105 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1106 new_pc += sign_extend(offset << 2,18);
1107
1108 /* If sign bit isn't set, don't take the branch */
1109 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1110 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
1111 test1 = b->jit_ptr;
1112 amd64_branch32(b->jit_ptr, X86_CC_NS, 0, 1);
1113
1114 /* insert the instruction in the delay slot */
1115 mips64_jit_fetch_and_emit(cpu,b,2);
1116
1117 /* set the new pc in cpu structure */
1118 mips64_set_jump(cpu,b,new_pc,1);
1119
1120 amd64_patch(test1,b->jit_ptr);
1121
1122 /* if the branch is not taken, we have to execute the delay slot too */
1123 mips64_jit_fetch_and_emit(cpu,b,1);
1124 return(0);
1125 }
1126
1127 /* BLTZAL (Branch On Less Than Zero And Link) */
1128 DECLARE_INSN(BLTZAL)
1129 {
1130 int rs = bits(insn,21,25);
1131 int offset = bits(insn,0,15);
1132 u_char *test1;
1133 m_uint64_t new_pc;
1134
1135 /* compute the new pc */
1136 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1137 new_pc += sign_extend(offset << 2,18);
1138
1139 /* set the return address (instruction after the delay slot) */
1140 mips64_set_ra(b,b->start_pc + ((b->mips_trans_pos + 1) << 2));
1141
1142 /* If sign bit isn't set, don't take the branch */
1143 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1144 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
1145 test1 = b->jit_ptr;
1146 amd64_branch32(b->jit_ptr, X86_CC_NS, 0, 1);
1147
1148 /* insert the instruction in the delay slot */
1149 mips64_jit_fetch_and_emit(cpu,b,2);
1150
1151 /* set the new pc in cpu structure */
1152 mips64_set_jump(cpu,b,new_pc,1);
1153
1154 amd64_patch(test1,b->jit_ptr);
1155
1156 /* if the branch is not taken, we have to execute the delay slot too */
1157 mips64_jit_fetch_and_emit(cpu,b,1);
1158 return(0);
1159 }
1160
1161 /* BLTZALL (Branch On Less Than Zero And Link Likely) */
1162 DECLARE_INSN(BLTZALL)
1163 {
1164 int rs = bits(insn,21,25);
1165 int offset = bits(insn,0,15);
1166 u_char *test1;
1167 m_uint64_t new_pc;
1168
1169 /* compute the new pc */
1170 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1171 new_pc += sign_extend(offset << 2,18);
1172
1173 /* set the return address (instruction after the delay slot) */
1174 mips64_set_ra(b,b->start_pc + ((b->mips_trans_pos + 1) << 2));
1175
1176 /* If sign bit isn't set, don't take the branch */
1177 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1178 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
1179 test1 = b->jit_ptr;
1180 amd64_branch32(b->jit_ptr, X86_CC_NS, 0, 1);
1181
1182 /* insert the instruction in the delay slot */
1183 mips64_jit_fetch_and_emit(cpu,b,1);
1184
1185 /* set the new pc in cpu structure */
1186 mips64_set_jump(cpu,b,new_pc,1);
1187
1188 amd64_patch(test1,b->jit_ptr);
1189 return(0);
1190 }
1191
1192 /* BLTZL (Branch On Less Than Zero Likely) */
1193 DECLARE_INSN(BLTZL)
1194 {
1195 int rs = bits(insn,21,25);
1196 int offset = bits(insn,0,15);
1197 u_char *test1;
1198 m_uint64_t new_pc;
1199
1200 /* compute the new pc */
1201 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1202 new_pc += sign_extend(offset << 2,18);
1203
1204 /* If sign bit isn't set, don't take the branch */
1205 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1206 amd64_test_reg_reg(b->jit_ptr,AMD64_RAX,AMD64_RAX);
1207 test1 = b->jit_ptr;
1208 amd64_branch32(b->jit_ptr, X86_CC_NS, 0, 1);
1209
1210 /* insert the instruction in the delay slot */
1211 mips64_jit_fetch_and_emit(cpu,b,1);
1212
1213 /* set the new pc in cpu structure */
1214 mips64_set_jump(cpu,b,new_pc,1);
1215
1216 amd64_patch(test1,b->jit_ptr);
1217 return(0);
1218 }
1219
1220 /* BNE (Branch On Not Equal) */
1221 DECLARE_INSN(BNE)
1222 {
1223 int rs = bits(insn,21,25);
1224 int rt = bits(insn,16,20);
1225 int offset = bits(insn,0,15);
1226 u_char *test1;
1227 m_uint64_t new_pc;
1228
1229 /* compute the new pc */
1230 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1231 new_pc += sign_extend(offset << 2,18);
1232
1233 /*
1234 * compare gpr[rs] and gpr[rt].
1235 */
1236 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1237 amd64_alu_reg_membase(b->jit_ptr,X86_CMP,AMD64_RAX,
1238 AMD64_R15,REG_OFFSET(rt));
1239 test1 = b->jit_ptr;
1240 amd64_branch32(b->jit_ptr, X86_CC_E, 0, 1);
1241
1242 /* insert the instruction in the delay slot */
1243 mips64_jit_fetch_and_emit(cpu,b,2);
1244
1245 /* set the new pc in cpu structure */
1246 mips64_set_jump(cpu,b,new_pc,1);
1247
1248 amd64_patch(test1,b->jit_ptr);
1249
1250 /* if the branch is not taken, we have to execute the delay slot too */
1251 mips64_jit_fetch_and_emit(cpu,b,1);
1252 return(0);
1253 }
1254
1255 /* BNEL (Branch On Not Equal Likely) */
1256 DECLARE_INSN(BNEL)
1257 {
1258 int rs = bits(insn,21,25);
1259 int rt = bits(insn,16,20);
1260 int offset = bits(insn,0,15);
1261 u_char *test1;
1262 m_uint64_t new_pc;
1263
1264 /* compute the new pc */
1265 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1266 new_pc += sign_extend(offset << 2,18);
1267
1268 /*
1269 * compare gpr[rs] and gpr[rt].
1270 */
1271 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1272 amd64_alu_reg_membase(b->jit_ptr,X86_CMP,AMD64_RAX,
1273 AMD64_R15,REG_OFFSET(rt));
1274 test1 = b->jit_ptr;
1275 amd64_branch32(b->jit_ptr, X86_CC_E, 0, 1);
1276
1277 /* insert the instruction in the delay slot */
1278 mips64_jit_fetch_and_emit(cpu,b,1);
1279
1280 /* set the new pc in cpu structure */
1281 mips64_set_jump(cpu,b,new_pc,1);
1282
1283 amd64_patch(test1,b->jit_ptr);
1284 return(0);
1285 }
1286
1287 /* BREAK */
1288 DECLARE_INSN(BREAK)
1289 {
1290 u_int code = bits(insn,6,25);
1291
1292 amd64_mov_reg_imm(b->jit_ptr,AMD64_RSI,code);
1293 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
1294 mips64_emit_basic_c_call(b,mips64_exec_break);
1295 mips64_jit_tcb_push_epilog(b);
1296 return(0);
1297 }
1298
1299 /* CACHE */
1300 DECLARE_INSN(CACHE)
1301 {
1302 int base = bits(insn,21,25);
1303 int op = bits(insn,16,20);
1304 int offset = bits(insn,0,15);
1305
1306 mips64_emit_memop(b,MIPS_MEMOP_CACHE,base,offset,op,0);
1307 return(0);
1308 }
1309
1310 /* CFC0 */
1311 DECLARE_INSN(CFC0)
1312 {
1313 int rt = bits(insn,16,20);
1314 int rd = bits(insn,11,15);
1315
1316 mips64_emit_cp_xfr_op(b,rt,rd,mips64_cp0_exec_cfc0);
1317 return(0);
1318 }
1319
1320 /* CTC0 */
1321 DECLARE_INSN(CTC0)
1322 {
1323 int rt = bits(insn,16,20);
1324 int rd = bits(insn,11,15);
1325
1326 mips64_emit_cp_xfr_op(b,rt,rd,mips64_cp0_exec_ctc0);
1327 return(0);
1328 }
1329
1330 /* DADDIU */
1331 DECLARE_INSN(DADDIU)
1332 {
1333 int rs = bits(insn,21,25);
1334 int rt = bits(insn,16,20);
1335 int imm = bits(insn,0,15);
1336 m_uint64_t val = sign_extend(imm,16);
1337
1338 mips64_load_imm(b,AMD64_RCX,val);
1339 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,AMD64_RCX,
1340 AMD64_R15,REG_OFFSET(rs));
1341 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RCX,8);
1342 return(0);
1343 }
1344
1345 /* DADDU: rd = rs + rt */
1346 DECLARE_INSN(DADDU)
1347 {
1348 int rs = bits(insn,21,25);
1349 int rt = bits(insn,16,20);
1350 int rd = bits(insn,11,15);
1351
1352 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),8);
1353 amd64_alu_reg_membase(b->jit_ptr,X86_ADD,AMD64_RCX,
1354 AMD64_R15,REG_OFFSET(rt));
1355 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RCX,8);
1356 return(0);
1357 }
1358
1359 /* DIV */
1360 DECLARE_INSN(DIV)
1361 {
1362 int rs = bits(insn,21,25);
1363 int rt = bits(insn,16,20);
1364
1365 /* eax = gpr[rs] */
1366 amd64_clear_reg(b->jit_ptr,AMD64_RDX);
1367 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),4);
1368
1369 /* ecx = gpr[rt] */
1370 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rt),4);
1371
1372 /* eax = quotient (LO), edx = remainder (HI) */
1373 amd64_div_reg_size(b->jit_ptr,AMD64_RCX,1,4);
1374
1375 /* store LO */
1376 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
1377 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,lo),
1378 AMD64_RAX,8);
1379
1380 /* store HI */
1381 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EDX);
1382 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,hi),
1383 AMD64_RDX,8);
1384 return(0);
1385 }
1386
1387 /* DIVU */
1388 DECLARE_INSN(DIVU)
1389 {
1390 int rs = bits(insn,21,25);
1391 int rt = bits(insn,16,20);
1392
1393 /* eax = gpr[rs] */
1394 amd64_clear_reg(b->jit_ptr,AMD64_RDX);
1395 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),4);
1396
1397 /* ecx = gpr[rt] */
1398 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rt),4);
1399
1400 /* eax = quotient (LO), edx = remainder (HI) */
1401 amd64_div_reg_size(b->jit_ptr,AMD64_RCX,0,4);
1402
1403 /* store LO */
1404 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
1405 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,lo),
1406 AMD64_RAX,8);
1407
1408 /* store HI */
1409 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EDX);
1410 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,hi),
1411 AMD64_RDX,8);
1412 return(0);
1413 }
1414
1415 /* DMFC0 */
1416 DECLARE_INSN(DMFC0)
1417 {
1418 int rt = bits(insn,16,20);
1419 int rd = bits(insn,11,15);
1420
1421 mips64_emit_cp_xfr_op(b,rt,rd,mips64_cp0_exec_dmfc0);
1422 return(0);
1423 }
1424
1425 /* DMFC1 */
1426 DECLARE_INSN(DMFC1)
1427 {
1428 int rt = bits(insn,16,20);
1429 int rd = bits(insn,11,15);
1430
1431 mips64_emit_cp_xfr_op(b,rt,rd,mips64_exec_dmfc1);
1432 return(0);
1433 }
1434
1435 /* DMTC0 */
1436 DECLARE_INSN(DMTC0)
1437 {
1438 int rt = bits(insn,16,20);
1439 int rd = bits(insn,11,15);
1440
1441 mips64_emit_cp_xfr_op(b,rt,rd,mips64_cp0_exec_dmtc0);
1442 return(0);
1443 }
1444
1445 /* DMTC1 */
1446 DECLARE_INSN(DMTC1)
1447 {
1448 int rt = bits(insn,16,20);
1449 int rd = bits(insn,11,15);
1450
1451 mips64_emit_cp_xfr_op(b,rt,rd,mips64_exec_dmtc1);
1452 return(0);
1453 }
1454
1455 /* DSLL */
1456 DECLARE_INSN(DSLL)
1457 {
1458 int rt = bits(insn,16,20);
1459 int rd = bits(insn,11,15);
1460 int sa = bits(insn,6,10);
1461
1462 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1463 amd64_shift_reg_imm(b->jit_ptr,X86_SHL,AMD64_RAX,sa);
1464 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1465 return(0);
1466 }
1467
1468 /* DSLL32 */
1469 DECLARE_INSN(DSLL32)
1470 {
1471 int rt = bits(insn,16,20);
1472 int rd = bits(insn,11,15);
1473 int sa = bits(insn,6,10);
1474
1475 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1476 amd64_shift_reg_imm(b->jit_ptr,X86_SHL,AMD64_RAX,sa+32);
1477 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1478 return(0);
1479 }
1480
1481 /* DSLLV */
1482 DECLARE_INSN(DSLLV)
1483 {
1484 int rs = bits(insn,21,25);
1485 int rt = bits(insn,16,20);
1486 int rd = bits(insn,11,15);
1487
1488 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),4);
1489 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RCX,0x3f);
1490
1491 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1492 amd64_shift_reg(b->jit_ptr,X86_SHL,AMD64_RAX);
1493 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1494 return(0);
1495 }
1496
1497 /* DSRA */
1498 DECLARE_INSN(DSRA)
1499 {
1500 int rt = bits(insn,16,20);
1501 int rd = bits(insn,11,15);
1502 int sa = bits(insn,6,10);
1503
1504 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1505 amd64_shift_reg_imm(b->jit_ptr,X86_SAR,AMD64_RAX,sa);
1506 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1507 return(0);
1508 }
1509
1510 /* DSRA32 */
1511 DECLARE_INSN(DSRA32)
1512 {
1513 int rt = bits(insn,16,20);
1514 int rd = bits(insn,11,15);
1515 int sa = bits(insn,6,10);
1516
1517 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1518 amd64_shift_reg_imm(b->jit_ptr,X86_SAR,AMD64_RAX,sa+32);
1519 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1520 return(0);
1521 }
1522
1523 /* DSRAV */
1524 DECLARE_INSN(DSRAV)
1525 {
1526 int rs = bits(insn,21,25);
1527 int rt = bits(insn,16,20);
1528 int rd = bits(insn,11,15);
1529
1530 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),4);
1531 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RCX,0x3f);
1532
1533 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1534 amd64_shift_reg(b->jit_ptr,X86_SAR,AMD64_RAX);
1535 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1536 return(0);
1537 }
1538
1539 /* DSRL */
1540 DECLARE_INSN(DSRL)
1541 {
1542 int rt = bits(insn,16,20);
1543 int rd = bits(insn,11,15);
1544 int sa = bits(insn,6,10);
1545
1546 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1547 amd64_shift_reg_imm(b->jit_ptr,X86_SHR,AMD64_RAX,sa);
1548 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1549 return(0);
1550 }
1551
1552 /* DSRL32 */
1553 DECLARE_INSN(DSRL32)
1554 {
1555 int rt = bits(insn,16,20);
1556 int rd = bits(insn,11,15);
1557 int sa = bits(insn,6,10);
1558
1559 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1560 amd64_shift_reg_imm(b->jit_ptr,X86_SHR,AMD64_RAX,sa+32);
1561 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1562 return(0);
1563 }
1564
1565 /* DSRLV */
1566 DECLARE_INSN(DSRLV)
1567 {
1568 int rs = bits(insn,21,25);
1569 int rt = bits(insn,16,20);
1570 int rd = bits(insn,11,15);
1571
1572 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),4);
1573 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RCX,0x3f);
1574
1575 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
1576 amd64_shift_reg(b->jit_ptr,X86_SHR,AMD64_RAX);
1577 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1578 return(0);
1579 }
1580
1581 /* DSUBU: rd = rs - rt */
1582 DECLARE_INSN(DSUBU)
1583 {
1584 int rs = bits(insn,21,25);
1585 int rt = bits(insn,16,20);
1586 int rd = bits(insn,11,15);
1587
1588 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
1589 amd64_alu_reg_membase(b->jit_ptr,X86_SUB,AMD64_RAX,
1590 AMD64_R15,REG_OFFSET(rt));
1591 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1592 return(0);
1593 }
1594
1595 /* ERET */
1596 DECLARE_INSN(ERET)
1597 {
1598 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
1599 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
1600 mips64_emit_basic_c_call(b,mips64_exec_eret);
1601 mips64_jit_tcb_push_epilog(b);
1602 return(0);
1603 }
1604
1605 /* J (Jump) */
1606 DECLARE_INSN(J)
1607 {
1608 u_int instr_index = bits(insn,0,25);
1609 m_uint64_t new_pc;
1610
1611 /* compute the new pc */
1612 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1613 new_pc &= ~((1 << 28) - 1);
1614 new_pc |= instr_index << 2;
1615
1616 /* insert the instruction in the delay slot */
1617 mips64_jit_fetch_and_emit(cpu,b,1);
1618
1619 /* set the new pc in cpu structure */
1620 mips64_set_jump(cpu,b,new_pc,1);
1621 return(0);
1622 }
1623
1624 /* JAL (Jump And Link) */
1625 DECLARE_INSN(JAL)
1626 {
1627 u_int instr_index = bits(insn,0,25);
1628 m_uint64_t new_pc;
1629
1630 /* compute the new pc */
1631 new_pc = b->start_pc + (b->mips_trans_pos << 2);
1632 new_pc &= ~((1 << 28) - 1);
1633 new_pc |= instr_index << 2;
1634
1635 /* set the return address (instruction after the delay slot) */
1636 mips64_set_ra(b,b->start_pc + ((b->mips_trans_pos + 1) << 2));
1637
1638 /* insert the instruction in the delay slot */
1639 mips64_jit_fetch_and_emit(cpu,b,1);
1640
1641 /* set the new pc in cpu structure */
1642 mips64_set_jump(cpu,b,new_pc,0);
1643 return(0);
1644 }
1645
1646 /* JALR (Jump and Link Register) */
1647 DECLARE_INSN(JALR)
1648 {
1649 int rs = bits(insn,21,25);
1650 int rd = bits(insn,11,15);
1651 m_uint64_t ret_pc;
1652
1653 /* set the return pc (instruction after the delay slot) in GPR[rd] */
1654 ret_pc = b->start_pc + ((b->mips_trans_pos + 1) << 2);
1655 mips64_load_imm(b,AMD64_RAX,ret_pc);
1656 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
1657
1658 /* get the new pc */
1659 amd64_mov_reg_membase(b->jit_ptr,AMD64_R14,AMD64_R15,REG_OFFSET(rs),8);
1660
1661 #if DEBUG_JR0
1662 {
1663 u_char *test1;
1664
1665 amd64_test_reg_reg(b->jit_ptr,AMD64_R14,AMD64_R14);
1666 test1 = b->jit_ptr;
1667 amd64_branch8(b->jit_ptr, X86_CC_NZ, 0, 1);
1668 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
1669 mips64_emit_c_call(b,mips64_debug_jr0);
1670 amd64_patch(test1,b->jit_ptr);
1671 }
1672 #endif
1673
1674 /* insert the instruction in the delay slot */
1675 mips64_jit_fetch_and_emit(cpu,b,1);
1676
1677 /* set the new pc */
1678 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,pc),
1679 AMD64_R14,8);
1680
1681 /* returns to the caller which will determine the next path */
1682 mips64_jit_tcb_push_epilog(b);
1683 return(0);
1684 }
1685
1686 /* JR (Jump Register) */
1687 DECLARE_INSN(JR)
1688 {
1689 int rs = bits(insn,21,25);
1690
1691 /* get the new pc */
1692 amd64_mov_reg_membase(b->jit_ptr,AMD64_R14,AMD64_R15,REG_OFFSET(rs),8);
1693
1694 #if DEBUG_JR0
1695 {
1696 u_char *test1;
1697
1698 amd64_test_reg_reg(b->jit_ptr,AMD64_RCX,AMD64_RCX);
1699 test1 = b->jit_ptr;
1700 amd64_branch8(b->jit_ptr, X86_CC_NZ, 0, 1);
1701 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
1702 mips64_emit_c_call(b,mips64_debug_jr0);
1703 amd64_patch(test1,b->jit_ptr);
1704 }
1705 #endif
1706
1707 /* insert the instruction in the delay slot */
1708 mips64_jit_fetch_and_emit(cpu,b,1);
1709
1710 /* set the new pc */
1711 amd64_mov_membase_reg(b->jit_ptr,
1712 AMD64_R15,OFFSET(cpu_mips_t,pc),
1713 AMD64_R14,8);
1714
1715 /* returns to the caller which will determine the next path */
1716 mips64_jit_tcb_push_epilog(b);
1717 return(0);
1718 }
1719
1720 /* LB (Load Byte) */
1721 DECLARE_INSN(LB)
1722 {
1723 int base = bits(insn,21,25);
1724 int rt = bits(insn,16,20);
1725 int offset = bits(insn,0,15);
1726
1727 mips64_emit_memop(b,MIPS_MEMOP_LB,base,offset,rt,TRUE);
1728 return(0);
1729 }
1730
1731 /* LBU (Load Byte Unsigned) */
1732 DECLARE_INSN(LBU)
1733 {
1734 int base = bits(insn,21,25);
1735 int rt = bits(insn,16,20);
1736 int offset = bits(insn,0,15);
1737
1738 mips64_emit_memop(b,MIPS_MEMOP_LBU,base,offset,rt,TRUE);
1739 return(0);
1740 }
1741
1742 /* LD (Load Double-Word) */
1743 DECLARE_INSN(LD)
1744 {
1745 int base = bits(insn,21,25);
1746 int rt = bits(insn,16,20);
1747 int offset = bits(insn,0,15);
1748
1749 mips64_emit_memop(b,MIPS_MEMOP_LD,base,offset,rt,TRUE);
1750 return(0);
1751 }
1752
1753 /* LDC1 (Load Double-Word to Coprocessor 1) */
1754 DECLARE_INSN(LDC1)
1755 {
1756 int base = bits(insn,21,25);
1757 int ft = bits(insn,16,20);
1758 int offset = bits(insn,0,15);
1759
1760 mips64_emit_memop(b,MIPS_MEMOP_LDC1,base,offset,ft,TRUE);
1761 return(0);
1762 }
1763
1764 /* LDL (Load Double-Word Left) */
1765 DECLARE_INSN(LDL)
1766 {
1767 int base = bits(insn,21,25);
1768 int rt = bits(insn,16,20);
1769 int offset = bits(insn,0,15);
1770
1771 mips64_emit_memop(b,MIPS_MEMOP_LDL,base,offset,rt,TRUE);
1772 return(0);
1773 }
1774
1775 /* LDR (Load Double-Word Right) */
1776 DECLARE_INSN(LDR)
1777 {
1778 int base = bits(insn,21,25);
1779 int rt = bits(insn,16,20);
1780 int offset = bits(insn,0,15);
1781
1782 mips64_emit_memop(b,MIPS_MEMOP_LDR,base,offset,rt,TRUE);
1783 return(0);
1784 }
1785
1786 /* LH (Load Half-Word) */
1787 DECLARE_INSN(LH)
1788 {
1789 int base = bits(insn,21,25);
1790 int rt = bits(insn,16,20);
1791 int offset = bits(insn,0,15);
1792
1793 mips64_emit_memop(b,MIPS_MEMOP_LH,base,offset,rt,TRUE);
1794 return(0);
1795 }
1796
1797 /* LHU (Load Half-Word Unsigned) */
1798 DECLARE_INSN(LHU)
1799 {
1800 int base = bits(insn,21,25);
1801 int rt = bits(insn,16,20);
1802 int offset = bits(insn,0,15);
1803
1804 mips64_emit_memop(b,MIPS_MEMOP_LHU,base,offset,rt,TRUE);
1805 return(0);
1806 }
1807
1808 /* LI (virtual) */
1809 DECLARE_INSN(LI)
1810 {
1811 int rt = bits(insn,16,20);
1812 int imm = bits(insn,0,15);
1813 m_uint64_t val = sign_extend(imm,16);
1814
1815 mips64_load_imm(b,AMD64_RCX,val);
1816 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RCX,8);
1817 return(0);
1818 }
1819
1820 /* LL (Load Linked) */
1821 DECLARE_INSN(LL)
1822 {
1823 int base = bits(insn,21,25);
1824 int rt = bits(insn,16,20);
1825 int offset = bits(insn,0,15);
1826
1827 mips64_emit_memop(b,MIPS_MEMOP_LL,base,offset,rt,TRUE);
1828 return(0);
1829 }
1830
1831 /* LUI */
1832 DECLARE_INSN(LUI)
1833 {
1834 int rt = bits(insn,16,20);
1835 int imm = bits(insn,0,15);
1836 m_uint64_t val = sign_extend(imm,16) << 16;
1837
1838 #if 1
1839 mips64_load_imm(b,AMD64_RCX,val);
1840 #else
1841 amd64_mov_reg_imm(b->jit_ptr,AMD64_RCX,imm);
1842 amd64_shift_reg_imm(b->jit_ptr,X86_SHL,AMD64_RCX,48);
1843 amd64_shift_reg_imm(b->jit_ptr,X86_SAR,AMD64_RCX,32);
1844 #endif
1845
1846 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RCX,8);
1847 return(0);
1848 }
1849
1850 /* LW (Load Word) */
1851 DECLARE_INSN(LW)
1852 {
1853 int base = bits(insn,21,25);
1854 int rt = bits(insn,16,20);
1855 int offset = bits(insn,0,15);
1856
1857 if (cpu->fast_memop) {
1858 mips64_emit_memop_fast(cpu,b,0,MIPS_MEMOP_LW,base,offset,rt,TRUE,
1859 mips64_memop_fast_lw);
1860 } else {
1861 mips64_emit_memop(b,MIPS_MEMOP_LW,base,offset,rt,TRUE);
1862 }
1863 return(0);
1864 }
1865
1866 /* LWL (Load Word Left) */
1867 DECLARE_INSN(LWL)
1868 {
1869 int base = bits(insn,21,25);
1870 int rt = bits(insn,16,20);
1871 int offset = bits(insn,0,15);
1872
1873 mips64_emit_memop(b,MIPS_MEMOP_LWL,base,offset,rt,TRUE);
1874 return(0);
1875 }
1876
1877 /* LWR (Load Word Right) */
1878 DECLARE_INSN(LWR)
1879 {
1880 int base = bits(insn,21,25);
1881 int rt = bits(insn,16,20);
1882 int offset = bits(insn,0,15);
1883
1884 mips64_emit_memop(b,MIPS_MEMOP_LWR,base,offset,rt,TRUE);
1885 return(0);
1886 }
1887
1888 /* LWU (Load Word Unsigned) */
1889 DECLARE_INSN(LWU)
1890 {
1891 int base = bits(insn,21,25);
1892 int rt = bits(insn,16,20);
1893 int offset = bits(insn,0,15);
1894
1895 mips64_emit_memop(b,MIPS_MEMOP_LWU,base,offset,rt,TRUE);
1896 return(0);
1897 }
1898
1899 /* MFC0 */
1900 DECLARE_INSN(MFC0)
1901 {
1902 int rt = bits(insn,16,20);
1903 int rd = bits(insn,11,15);
1904
1905 mips64_emit_cp_xfr_op(b,rt,rd,mips64_cp0_exec_mfc0);
1906 return(0);
1907 }
1908
1909 /* MFC1 */
1910 DECLARE_INSN(MFC1)
1911 {
1912 int rt = bits(insn,16,20);
1913 int rd = bits(insn,11,15);
1914
1915 mips64_emit_cp_xfr_op(b,rt,rd,mips64_exec_mfc1);
1916 return(0);
1917 }
1918
1919 /* MFHI */
1920 DECLARE_INSN(MFHI)
1921 {
1922 int rd = bits(insn,11,15);
1923
1924 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,
1925 AMD64_R15,OFFSET(cpu_mips_t,hi),8);
1926 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RDX,8);
1927 return(0);
1928 }
1929
1930 /* MFLO */
1931 DECLARE_INSN(MFLO)
1932 {
1933 int rd = bits(insn,11,15);
1934
1935 if (!rd) return(0);
1936
1937 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,
1938 AMD64_R15,OFFSET(cpu_mips_t,lo),8);
1939 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RDX,8);
1940 return(0);
1941 }
1942
1943 /* MOVE (virtual instruction, real: ADDU) */
1944 DECLARE_INSN(MOVE)
1945 {
1946 int rs = bits(insn,21,25);
1947 int rd = bits(insn,11,15);
1948
1949 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,AMD64_R15,REG_OFFSET(rs),4);
1950 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EDX);
1951 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RDX,8);
1952 return(0);
1953 }
1954
1955 /* MTC0 */
1956 DECLARE_INSN(MTC0)
1957 {
1958 int rt = bits(insn,16,20);
1959 int rd = bits(insn,11,15);
1960
1961 mips64_emit_cp_xfr_op(b,rt,rd,mips64_cp0_exec_mtc0);
1962 return(0);
1963 }
1964
1965 /* MTC1 */
1966 DECLARE_INSN(MTC1)
1967 {
1968 int rt = bits(insn,16,20);
1969 int rd = bits(insn,11,15);
1970
1971 mips64_emit_cp_xfr_op(b,rt,rd,mips64_exec_mtc1);
1972 return(0);
1973 }
1974
1975 /* MTHI */
1976 DECLARE_INSN(MTHI)
1977 {
1978 int rs = bits(insn,21,25);
1979
1980 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,AMD64_R15,REG_OFFSET(rs),8);
1981
1982 amd64_mov_membase_reg(b->jit_ptr,
1983 AMD64_R15,OFFSET(cpu_mips_t,hi),AMD64_RDX,8);
1984 return(0);
1985 }
1986
1987 /* MTLO */
1988 DECLARE_INSN(MTLO)
1989 {
1990 int rs = bits(insn,21,25);
1991
1992 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,AMD64_R15,REG_OFFSET(rs),8);
1993
1994 amd64_mov_membase_reg(b->jit_ptr,
1995 AMD64_R15,OFFSET(cpu_mips_t,lo),AMD64_RDX,8);
1996 return(0);
1997 }
1998
1999 /* MUL */
2000 DECLARE_INSN(MUL)
2001 {
2002 int rs = bits(insn,21,25);
2003 int rt = bits(insn,16,20);
2004 int rd = bits(insn,11,15);
2005
2006 /* eax = gpr[rs] */
2007 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),4);
2008
2009 /* ecx = gpr[rt] */
2010 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rt),4);
2011
2012 amd64_mul_reg_size(b->jit_ptr,AMD64_RCX,1,4);
2013
2014 /* store result in gpr[rd] */
2015 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2016 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2017 return(0);
2018 }
2019
2020 /* MULT */
2021 DECLARE_INSN(MULT)
2022 {
2023 int rs = bits(insn,21,25);
2024 int rt = bits(insn,16,20);
2025
2026 /* eax = gpr[rs] */
2027 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),4);
2028
2029 /* ecx = gpr[rt] */
2030 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rt),4);
2031
2032 amd64_mul_reg_size(b->jit_ptr,AMD64_RCX,1,4);
2033
2034 /* store LO */
2035 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2036 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,lo),
2037 AMD64_RAX,8);
2038
2039 /* store HI */
2040 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EDX);
2041 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,hi),
2042 AMD64_RDX,8);
2043 return(0);
2044 }
2045
2046 /* MULTU */
2047 DECLARE_INSN(MULTU)
2048 {
2049 int rs = bits(insn,21,25);
2050 int rt = bits(insn,16,20);
2051
2052 /* eax = gpr[rs] */
2053 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),4);
2054
2055 /* ecx = gpr[rt] */
2056 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rt),4);
2057
2058 amd64_mul_reg_size(b->jit_ptr,AMD64_RCX,0,4);
2059
2060 /* store LO */
2061 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2062 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,lo),
2063 AMD64_RAX,8);
2064
2065 /* store HI */
2066 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RDX,X86_EDX);
2067 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,OFFSET(cpu_mips_t,hi),
2068 AMD64_RDX,8);
2069 return(0);
2070 }
2071
2072 /* NOP */
2073 DECLARE_INSN(NOP)
2074 {
2075 return(0);
2076 }
2077
2078 /* NOR */
2079 DECLARE_INSN(NOR)
2080 {
2081 int rs = bits(insn,21,25);
2082 int rt = bits(insn,16,20);
2083 int rd = bits(insn,11,15);
2084
2085 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2086 amd64_alu_reg_membase(b->jit_ptr,X86_OR,AMD64_RAX,AMD64_R15,
2087 REG_OFFSET(rt));
2088 amd64_not_reg(b->jit_ptr,AMD64_RAX);
2089 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2090 return(0);
2091 }
2092
2093 /* OR */
2094 DECLARE_INSN(OR)
2095 {
2096 int rs = bits(insn,21,25);
2097 int rt = bits(insn,16,20);
2098 int rd = bits(insn,11,15);
2099
2100 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2101 amd64_alu_reg_membase(b->jit_ptr,X86_OR,AMD64_RAX,AMD64_R15,
2102 REG_OFFSET(rt));
2103 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2104 return(0);
2105 }
2106
2107 /* ORI */
2108 DECLARE_INSN(ORI)
2109 {
2110 int rs = bits(insn,21,25);
2111 int rt = bits(insn,16,20);
2112 int imm = bits(insn,0,15);
2113
2114 mips64_load_imm(b,AMD64_RAX,imm);
2115
2116 amd64_alu_reg_membase(b->jit_ptr,X86_OR,AMD64_RAX,
2117 AMD64_R15,REG_OFFSET(rs));
2118
2119 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RAX,8);
2120 return(0);
2121 }
2122
2123 /* PREF */
2124 DECLARE_INSN(PREF)
2125 {
2126 amd64_nop(b->jit_ptr);
2127 return(0);
2128 }
2129
2130 /* PREFI */
2131 DECLARE_INSN(PREFI)
2132 {
2133 amd64_nop(b->jit_ptr);
2134 return(0);
2135 }
2136
2137 /* SB (Store Byte) */
2138 DECLARE_INSN(SB)
2139 {
2140 int base = bits(insn,21,25);
2141 int rt = bits(insn,16,20);
2142 int offset = bits(insn,0,15);
2143
2144 mips64_emit_memop(b,MIPS_MEMOP_SB,base,offset,rt,FALSE);
2145 return(0);
2146 }
2147
2148 /* SC (Store Conditional) */
2149 DECLARE_INSN(SC)
2150 {
2151 int base = bits(insn,21,25);
2152 int rt = bits(insn,16,20);
2153 int offset = bits(insn,0,15);
2154
2155 mips64_emit_memop(b,MIPS_MEMOP_SC,base,offset,rt,TRUE);
2156 return(0);
2157 }
2158
2159 /* SD (Store Double-Word) */
2160 DECLARE_INSN(SD)
2161 {
2162 int base = bits(insn,21,25);
2163 int rt = bits(insn,16,20);
2164 int offset = bits(insn,0,15);
2165
2166 mips64_emit_memop(b,MIPS_MEMOP_SD,base,offset,rt,FALSE);
2167 return(0);
2168 }
2169
2170 /* SDL (Store Double-Word Left) */
2171 DECLARE_INSN(SDL)
2172 {
2173 int base = bits(insn,21,25);
2174 int rt = bits(insn,16,20);
2175 int offset = bits(insn,0,15);
2176
2177 mips64_emit_memop(b,MIPS_MEMOP_SDL,base,offset,rt,FALSE);
2178 return(0);
2179 }
2180
2181 /* SDR (Store Double-Word Right) */
2182 DECLARE_INSN(SDR)
2183 {
2184 int base = bits(insn,21,25);
2185 int rt = bits(insn,16,20);
2186 int offset = bits(insn,0,15);
2187
2188 mips64_emit_memop(b,MIPS_MEMOP_SDR,base,offset,rt,FALSE);
2189 return(0);
2190 }
2191
2192 /* SDC1 (Store Double-Word from Coprocessor 1) */
2193 DECLARE_INSN(SDC1)
2194 {
2195 int base = bits(insn,21,25);
2196 int ft = bits(insn,16,20);
2197 int offset = bits(insn,0,15);
2198
2199 mips64_emit_memop(b,MIPS_MEMOP_SDC1,base,offset,ft,FALSE);
2200 return(0);
2201 }
2202
2203 /* SH (Store Half-Word) */
2204 DECLARE_INSN(SH)
2205 {
2206 int base = bits(insn,21,25);
2207 int rt = bits(insn,16,20);
2208 int offset = bits(insn,0,15);
2209
2210 mips64_emit_memop(b,MIPS_MEMOP_SH,base,offset,rt,FALSE);
2211 return(0);
2212 }
2213
2214 /* SLL */
2215 DECLARE_INSN(SLL)
2216 {
2217 int rt = bits(insn,16,20);
2218 int rd = bits(insn,11,15);
2219 int sa = bits(insn,6,10);
2220
2221 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),4);
2222 amd64_shift_reg_imm(b->jit_ptr,X86_SHL,AMD64_RAX,sa);
2223
2224 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2225 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2226 return(0);
2227 }
2228
2229 /* SLLV */
2230 DECLARE_INSN(SLLV)
2231 {
2232 int rs = bits(insn,21,25);
2233 int rt = bits(insn,16,20);
2234 int rd = bits(insn,11,15);
2235
2236 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),4);
2237 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RCX,0x1f);
2238
2239 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),4);
2240 amd64_shift_reg(b->jit_ptr,X86_SHL,AMD64_RAX);
2241
2242 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2243 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2244 return(0);
2245 }
2246
2247 /* SLT */
2248 DECLARE_INSN(SLT)
2249 {
2250 int rs = bits(insn,21,25);
2251 int rt = bits(insn,16,20);
2252 int rd = bits(insn,11,15);
2253 u_char *test1;
2254
2255 /* RDX = gpr[rs] */
2256 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,AMD64_R15,REG_OFFSET(rs),8);
2257
2258 /* RAX = gpr[rt] */
2259 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
2260
2261 /* we set rd to 1 when gpr[rs] < gpr[rt] */
2262 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
2263 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RCX,8);
2264
2265 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RDX,AMD64_RAX);
2266 test1 = b->jit_ptr;
2267 amd64_branch8(b->jit_ptr, X86_CC_GE, 0, 1);
2268
2269 amd64_inc_membase(b->jit_ptr,AMD64_R15,REG_OFFSET(rd));
2270
2271 /* end */
2272 amd64_patch(test1,b->jit_ptr);
2273 return(0);
2274 }
2275
2276 /* SLTI */
2277 DECLARE_INSN(SLTI)
2278 {
2279 int rs = bits(insn,21,25);
2280 int rt = bits(insn,16,20);
2281 int imm = bits(insn,0,15);
2282 m_uint64_t val = sign_extend(imm,16);
2283 u_char *test1;
2284
2285 /* RDX = val */
2286 mips64_load_imm(b,AMD64_RDX,val);
2287
2288 /* RAX = gpr[rs] */
2289 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2290
2291 /* we set rt to 1 when gpr[rs] < val */
2292 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
2293 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RCX,8);
2294
2295 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RDX);
2296 test1 = b->jit_ptr;
2297 amd64_branch8(b->jit_ptr, X86_CC_GE, 0, 1);
2298
2299 amd64_inc_membase(b->jit_ptr,AMD64_R15,REG_OFFSET(rt));
2300
2301 /* end */
2302 amd64_patch(test1,b->jit_ptr);
2303 return(0);
2304 }
2305
2306 /* SLTU */
2307 DECLARE_INSN(SLTU)
2308 {
2309 int rs = bits(insn,21,25);
2310 int rt = bits(insn,16,20);
2311 int rd = bits(insn,11,15);
2312 u_char *test1;
2313
2314 /* RDX = gpr[rs] */
2315 amd64_mov_reg_membase(b->jit_ptr,AMD64_RDX,AMD64_R15,REG_OFFSET(rs),8);
2316
2317 /* RAX = gpr[rt] */
2318 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),8);
2319
2320 /* we set rd to 1 when gpr[rs] < gpr[rt] */
2321 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
2322 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RCX,8);
2323
2324 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RDX,AMD64_RAX);
2325 test1 = b->jit_ptr;
2326 amd64_branch8(b->jit_ptr, X86_CC_AE, 0, 0);
2327
2328 amd64_inc_membase(b->jit_ptr,AMD64_R15,REG_OFFSET(rd));
2329
2330 /* end */
2331 amd64_patch(test1,b->jit_ptr);
2332 return(0);
2333 }
2334
2335 /* SLTIU */
2336 DECLARE_INSN(SLTIU)
2337 {
2338 int rs = bits(insn,21,25);
2339 int rt = bits(insn,16,20);
2340 int imm = bits(insn,0,15);
2341 m_uint64_t val = sign_extend(imm,16);
2342 u_char *test1;
2343
2344 /* RDX = val */
2345 mips64_load_imm(b,AMD64_RDX,val);
2346
2347 /* RAX = gpr[rs] */
2348 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2349
2350 /* we set rt to 1 when gpr[rs] < val */
2351 amd64_clear_reg(b->jit_ptr,AMD64_RCX);
2352 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RCX,8);
2353
2354 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RDX);
2355 test1 = b->jit_ptr;
2356 amd64_branch8(b->jit_ptr, X86_CC_AE, 0, 0);
2357
2358 amd64_inc_membase(b->jit_ptr,AMD64_R15,REG_OFFSET(rt));
2359
2360 /* end */
2361 amd64_patch(test1,b->jit_ptr);
2362 return(0);
2363 }
2364
2365 /* SRA */
2366 DECLARE_INSN(SRA)
2367 {
2368 int rt = bits(insn,16,20);
2369 int rd = bits(insn,11,15);
2370 int sa = bits(insn,6,10);
2371
2372 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),4);
2373 amd64_shift_reg_imm_size(b->jit_ptr,X86_SAR,AMD64_RAX,sa,4);
2374
2375 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2376 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2377 return(0);
2378 }
2379
2380 /* SRAV */
2381 DECLARE_INSN(SRAV)
2382 {
2383 int rs = bits(insn,21,25);
2384 int rt = bits(insn,16,20);
2385 int rd = bits(insn,11,15);
2386
2387 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),4);
2388 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RCX,0x1f);
2389
2390 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),4);
2391 amd64_shift_reg_size(b->jit_ptr,X86_SAR,AMD64_RAX,4);
2392
2393 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2394 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2395 return(0);
2396 }
2397
2398 /* SRL */
2399 DECLARE_INSN(SRL)
2400 {
2401 int rt = bits(insn,16,20);
2402 int rd = bits(insn,11,15);
2403 int sa = bits(insn,6,10);
2404
2405 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),4);
2406 amd64_shift_reg_imm(b->jit_ptr,X86_SHR,AMD64_RAX,sa);
2407
2408 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2409 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2410 return(0);
2411 }
2412
2413 /* SRLV */
2414 DECLARE_INSN(SRLV)
2415 {
2416 int rs = bits(insn,21,25);
2417 int rt = bits(insn,16,20);
2418 int rd = bits(insn,11,15);
2419
2420 amd64_mov_reg_membase(b->jit_ptr,AMD64_RCX,AMD64_R15,REG_OFFSET(rs),4);
2421 amd64_alu_reg_imm(b->jit_ptr,X86_AND,AMD64_RCX,0x1f);
2422
2423 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rt),4);
2424 amd64_shift_reg(b->jit_ptr,X86_SHR,AMD64_RAX);
2425
2426 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2427 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2428 return(0);
2429 }
2430
2431 /* SUB */
2432 DECLARE_INSN(SUB)
2433 {
2434 int rs = bits(insn,21,25);
2435 int rt = bits(insn,16,20);
2436 int rd = bits(insn,11,15);
2437
2438 /* TODO: Exception handling */
2439 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2440 amd64_alu_reg_membase(b->jit_ptr,X86_SUB,AMD64_RAX,AMD64_R15,
2441 REG_OFFSET(rt));
2442
2443 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2444 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2445 return(0);
2446 }
2447
2448 /* SUBU */
2449 DECLARE_INSN(SUBU)
2450 {
2451 int rs = bits(insn,21,25);
2452 int rt = bits(insn,16,20);
2453 int rd = bits(insn,11,15);
2454
2455 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2456 amd64_alu_reg_membase(b->jit_ptr,X86_SUB,AMD64_RAX,AMD64_R15,
2457 REG_OFFSET(rt));
2458
2459 amd64_movsxd_reg_reg(b->jit_ptr,AMD64_RAX,X86_EAX);
2460 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2461 return(0);
2462 }
2463
2464 /* SW (Store Word) */
2465 DECLARE_INSN(SW)
2466 {
2467 int base = bits(insn,21,25);
2468 int rt = bits(insn,16,20);
2469 int offset = bits(insn,0,15);
2470
2471 if (cpu->fast_memop) {
2472 mips64_emit_memop_fast(cpu,b,1,MIPS_MEMOP_SW,base,offset,rt,FALSE,
2473 mips64_memop_fast_sw);
2474 } else {
2475 mips64_emit_memop(b,MIPS_MEMOP_SW,base,offset,rt,FALSE);
2476 }
2477 return(0);
2478 }
2479
2480 /* SWL (Store Word Left) */
2481 DECLARE_INSN(SWL)
2482 {
2483 int base = bits(insn,21,25);
2484 int rt = bits(insn,16,20);
2485 int offset = bits(insn,0,15);
2486
2487 mips64_emit_memop(b,MIPS_MEMOP_SWL,base,offset,rt,FALSE);
2488 return(0);
2489 }
2490
2491 /* SWR (Store Word Right) */
2492 DECLARE_INSN(SWR)
2493 {
2494 int base = bits(insn,21,25);
2495 int rt = bits(insn,16,20);
2496 int offset = bits(insn,0,15);
2497
2498 mips64_emit_memop(b,MIPS_MEMOP_SWR,base,offset,rt,FALSE);
2499 return(0);
2500 }
2501
2502 /* SYNC */
2503 DECLARE_INSN(SYNC)
2504 {
2505 return(0);
2506 }
2507
2508 /* SYSCALL */
2509 DECLARE_INSN(SYSCALL)
2510 {
2511 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
2512 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2513 mips64_emit_basic_c_call(b,mips64_exec_syscall);
2514 mips64_jit_tcb_push_epilog(b);
2515 return(0);
2516 }
2517
2518 /* TEQ (Trap If Equal) */
2519 DECLARE_INSN(TEQ)
2520 {
2521 int rs = bits(insn,21,25);
2522 int rt = bits(insn,16,20);
2523 u_char *test1;
2524
2525 /*
2526 * compare gpr[rs] and gpr[rt].
2527 */
2528 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2529 amd64_alu_reg_membase(b->jit_ptr,X86_CMP,AMD64_RAX,
2530 AMD64_R15,REG_OFFSET(rt));
2531 test1 = b->jit_ptr;
2532 amd64_branch8(b->jit_ptr, X86_CC_NE, 0, 1);
2533
2534 /* Generate trap exception */
2535 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2536 mips64_emit_c_call(b,mips64_trigger_trap_exception);
2537 mips64_jit_tcb_push_epilog(b);
2538
2539 /* end */
2540 amd64_patch(test1,b->jit_ptr);
2541 return(0);
2542 }
2543
2544 /* TEQI (Trap If Equal Immediate) */
2545 DECLARE_INSN(TEQI)
2546 {
2547 int rs = bits(insn,21,25);
2548 int imm = bits(insn,0,15);
2549 m_uint64_t val = sign_extend(imm,16);
2550 u_char *test1;
2551
2552 /* RDX = val */
2553 mips64_load_imm(b,AMD64_RDX,val);
2554
2555 /* RAX = gpr[rs] */
2556 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2557
2558 amd64_alu_reg_reg(b->jit_ptr,X86_CMP,AMD64_RAX,AMD64_RDX);
2559 test1 = b->jit_ptr;
2560 amd64_branch8(b->jit_ptr, X86_CC_NE, 0, 1);
2561
2562 /* Generate trap exception */
2563 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2564 mips64_emit_c_call(b,mips64_trigger_trap_exception);
2565 mips64_jit_tcb_push_epilog(b);
2566
2567 /* end */
2568 amd64_patch(test1,b->jit_ptr);
2569 return(0);
2570 }
2571
2572 /* TLBP */
2573 DECLARE_INSN(TLBP)
2574 {
2575 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
2576 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2577 mips64_emit_basic_c_call(b,mips64_cp0_exec_tlbp);
2578 return(0);
2579 }
2580
2581 /* TLBR */
2582 DECLARE_INSN(TLBR)
2583 {
2584 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
2585 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2586 mips64_emit_basic_c_call(b,mips64_cp0_exec_tlbr);
2587 return(0);
2588 }
2589
2590 /* TLBWI */
2591 DECLARE_INSN(TLBWI)
2592 {
2593 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
2594 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2595 mips64_emit_basic_c_call(b,mips64_cp0_exec_tlbwi);
2596 return(0);
2597 }
2598
2599 /* TLBWR */
2600 DECLARE_INSN(TLBWR)
2601 {
2602 mips64_set_pc(b,b->start_pc+((b->mips_trans_pos-1)<<2));
2603 amd64_mov_reg_reg(b->jit_ptr,AMD64_RDI,AMD64_R15,8);
2604 mips64_emit_basic_c_call(b,mips64_cp0_exec_tlbwr);
2605 return(0);
2606 }
2607
2608 /* XOR */
2609 DECLARE_INSN(XOR)
2610 {
2611 int rs = bits(insn,21,25);
2612 int rt = bits(insn,16,20);
2613 int rd = bits(insn,11,15);
2614
2615 amd64_mov_reg_membase(b->jit_ptr,AMD64_RAX,AMD64_R15,REG_OFFSET(rs),8);
2616 amd64_alu_reg_membase(b->jit_ptr,X86_XOR,AMD64_RAX,AMD64_R15,
2617 REG_OFFSET(rt));
2618 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rd),AMD64_RAX,8);
2619 return(0);
2620 }
2621
2622 /* XORI */
2623 DECLARE_INSN(XORI)
2624 {
2625 int rs = bits(insn,21,25);
2626 int rt = bits(insn,16,20);
2627 int imm = bits(insn,0,15);
2628
2629 mips64_load_imm(b,AMD64_RAX,imm);
2630
2631 amd64_alu_reg_membase(b->jit_ptr,X86_XOR,AMD64_RAX,
2632 AMD64_R15,REG_OFFSET(rs));
2633
2634 amd64_mov_membase_reg(b->jit_ptr,AMD64_R15,REG_OFFSET(rt),AMD64_RAX,8);
2635 return(0);
2636 }
2637
2638 /* MIPS instruction array */
2639 struct mips64_insn_tag mips64_insn_tags[] = {
2640 { mips64_emit_LI , 0xffe00000 , 0x24000000, 1 }, /* virtual */
2641 { mips64_emit_MOVE , 0xfc1f07ff , 0x00000021, 1 }, /* virtual */
2642 { mips64_emit_B , 0xffff0000 , 0x10000000, 0 }, /* virtual */
2643 { mips64_emit_BAL , 0xffff0000 , 0x04110000, 0 }, /* virtual */
2644 { mips64_emit_BEQZ , 0xfc1f0000 , 0x10000000, 0 }, /* virtual */
2645 { mips64_emit_BNEZ , 0xfc1f0000 , 0x14000000, 0 }, /* virtual */
2646 { mips64_emit_ADD , 0xfc0007ff , 0x00000020, 1 },
2647 { mips64_emit_ADDI , 0xfc000000 , 0x20000000, 1 },
2648 { mips64_emit_ADDIU , 0xfc000000 , 0x24000000, 1 },
2649 { mips64_emit_ADDU , 0xfc0007ff , 0x00000021, 1 },
2650 { mips64_emit_AND , 0xfc0007ff , 0x00000024, 1 },
2651 { mips64_emit_ANDI , 0xfc000000 , 0x30000000, 1 },
2652 { mips64_emit_BEQ , 0xfc000000 , 0x10000000, 0 },
2653 { mips64_emit_BEQL , 0xfc000000 , 0x50000000, 0 },
2654 { mips64_emit_BGEZ , 0xfc1f0000 , 0x04010000, 0 },
2655 { mips64_emit_BGEZAL , 0xfc1f0000 , 0x04110000, 0 },
2656 { mips64_emit_BGEZALL , 0xfc1f0000 , 0x04130000, 0 },
2657 { mips64_emit_BGEZL , 0xfc1f0000 , 0x04030000, 0 },
2658 { mips64_emit_BGTZ , 0xfc1f0000 , 0x1c000000, 0 },
2659 { mips64_emit_BGTZL , 0xfc1f0000 , 0x5c000000, 0 },
2660 { mips64_emit_BLEZ , 0xfc1f0000 , 0x18000000, 0 },
2661 { mips64_emit_BLEZL , 0xfc1f0000 , 0x58000000, 0 },
2662 { mips64_emit_BLTZ , 0xfc1f0000 , 0x04000000, 0 },
2663 { mips64_emit_BLTZAL , 0xfc1f0000 , 0x04100000, 0 },
2664 { mips64_emit_BLTZALL , 0xfc1f0000 , 0x04120000, 0 },
2665 { mips64_emit_BLTZL , 0xfc1f0000 , 0x04020000, 0 },
2666 { mips64_emit_BNE , 0xfc000000 , 0x14000000, 0 },
2667 { mips64_emit_BNEL , 0xfc000000 , 0x54000000, 0 },
2668 { mips64_emit_BREAK , 0xfc00003f , 0x0000000d, 1 },
2669 { mips64_emit_CACHE , 0xfc000000 , 0xbc000000, 1 },
2670 { mips64_emit_CFC0 , 0xffe007ff , 0x40400000, 1 },
2671 { mips64_emit_CTC0 , 0xffe007ff , 0x40600000, 1 },
2672 { mips64_emit_DADDIU , 0xfc000000 , 0x64000000, 1 },
2673 { mips64_emit_DADDU , 0xfc0007ff , 0x0000002d, 1 },
2674 { mips64_emit_DIV , 0xfc00ffff , 0x0000001a, 1 },
2675 { mips64_emit_DIVU , 0xfc00ffff , 0x0000001b, 1 },
2676 { mips64_emit_DMFC0 , 0xffe007f8 , 0x40200000, 1 },
2677 { mips64_emit_DMFC1 , 0xffe007ff , 0x44200000, 1 },
2678 { mips64_emit_DMTC0 , 0xffe007f8 , 0x40a00000, 1 },
2679 { mips64_emit_DMTC1 , 0xffe007ff , 0x44a00000, 1 },
2680 { mips64_emit_DSLL , 0xffe0003f , 0x00000038, 1 },
2681 { mips64_emit_DSLL32 , 0xffe0003f , 0x0000003c, 1 },
2682 { mips64_emit_DSLLV , 0xfc0007ff , 0x00000014, 1 },
2683 { mips64_emit_DSRA , 0xffe0003f , 0x0000003b, 1 },
2684 { mips64_emit_DSRA32 , 0xffe0003f , 0x0000003f, 1 },
2685 { mips64_emit_DSRAV , 0xfc0007ff , 0x00000017, 1 },
2686 { mips64_emit_DSRL , 0xffe0003f , 0x0000003a, 1 },
2687 { mips64_emit_DSRL32 , 0xffe0003f , 0x0000003e, 1 },
2688 { mips64_emit_DSRLV , 0xfc0007ff , 0x00000016, 1 },
2689 { mips64_emit_DSUBU , 0xfc0007ff , 0x0000002f, 1 },
2690 { mips64_emit_ERET , 0xffffffff , 0x42000018, 0 },
2691 { mips64_emit_J , 0xfc000000 , 0x08000000, 0 },
2692 { mips64_emit_JAL , 0xfc000000 , 0x0c000000, 0 },
2693 { mips64_emit_JALR , 0xfc1f003f , 0x00000009, 0 },
2694 { mips64_emit_JR , 0xfc1ff83f , 0x00000008, 0 },
2695 { mips64_emit_LB , 0xfc000000 , 0x80000000, 1 },
2696 { mips64_emit_LBU , 0xfc000000 , 0x90000000, 1 },
2697 { mips64_emit_LD , 0xfc000000 , 0xdc000000, 1 },
2698 { mips64_emit_LDC1 , 0xfc000000 , 0xd4000000, 1 },
2699 { mips64_emit_LDL , 0xfc000000 , 0x68000000, 1 },
2700 { mips64_emit_LDR , 0xfc000000 , 0x6c000000, 1 },
2701 { mips64_emit_LH , 0xfc000000 , 0x84000000, 1 },
2702 { mips64_emit_LHU , 0xfc000000 , 0x94000000, 1 },
2703 { mips64_emit_LL , 0xfc000000 , 0xc0000000, 1 },
2704 { mips64_emit_LUI , 0xffe00000 , 0x3c000000, 1 },
2705 { mips64_emit_LW , 0xfc000000 , 0x8c000000, 1 },
2706 { mips64_emit_LWL , 0xfc000000 , 0x88000000, 1 },
2707 { mips64_emit_LWR , 0xfc000000 , 0x98000000, 1 },
2708 { mips64_emit_LWU , 0xfc000000 , 0x9c000000, 1 },
2709 { mips64_emit_MFC0 , 0xffe007ff , 0x40000000, 1 },
2710 { mips64_emit_CFC0 , 0xffe007ff , 0x40000001, 1 }, /* MFC0 / Set 1 */
2711 { mips64_emit_MFC1 , 0xffe007ff , 0x44000000, 1 },
2712 { mips64_emit_MFHI , 0xffff07ff , 0x00000010, 1 },
2713 { mips64_emit_MFLO , 0xffff07ff , 0x00000012, 1 },
2714 { mips64_emit_MTC0 , 0xffe007ff , 0x40800000, 1 },
2715 { mips64_emit_MTC1 , 0xffe007ff , 0x44800000, 1 },
2716 { mips64_emit_MTHI , 0xfc1fffff , 0x00000011, 1 },
2717 { mips64_emit_MTLO , 0xfc1fffff , 0x00000013, 1 },
2718 { mips64_emit_MUL , 0xfc0007ff , 0x70000002, 1 },
2719 { mips64_emit_MULT , 0xfc00ffff , 0x00000018, 1 },
2720 { mips64_emit_MULTU , 0xfc00ffff , 0x00000019, 1 },
2721 { mips64_emit_NOP , 0xffffffff , 0x00000000, 1 },
2722 { mips64_emit_NOR , 0xfc0007ff , 0x00000027, 1 },
2723 { mips64_emit_OR , 0xfc0007ff , 0x00000025, 1 },
2724 { mips64_emit_ORI , 0xfc000000 , 0x34000000, 1 },
2725 { mips64_emit_PREF , 0xfc000000 , 0xcc000000, 1 },
2726 { mips64_emit_PREFI , 0xfc0007ff , 0x4c00000f, 1 },
2727 { mips64_emit_SB , 0xfc000000 , 0xa0000000, 1 },
2728 { mips64_emit_SC , 0xfc000000 , 0xe0000000, 1 },
2729 { mips64_emit_SD , 0xfc000000 , 0xfc000000, 1 },
2730 { mips64_emit_SDC1 , 0xfc000000 , 0xf4000000, 1 },
2731 { mips64_emit_SDL , 0xfc000000 , 0xb0000000, 1 },
2732 { mips64_emit_SDR , 0xfc000000 , 0xb4000000, 1 },
2733 { mips64_emit_SH , 0xfc000000 , 0xa4000000, 1 },
2734 { mips64_emit_SLL , 0xffe0003f , 0x00000000, 1 },
2735 { mips64_emit_SLLV , 0xfc0007ff , 0x00000004, 1 },
2736 { mips64_emit_SLT , 0xfc0007ff , 0x0000002a, 1 },
2737 { mips64_emit_SLTI , 0xfc000000 , 0x28000000, 1 },
2738 { mips64_emit_SLTIU , 0xfc000000 , 0x2c000000, 1 },
2739 { mips64_emit_SLTU , 0xfc0007ff , 0x0000002b, 1 },
2740 { mips64_emit_SRA , 0xffe0003f , 0x00000003, 1 },
2741 { mips64_emit_SRAV , 0xfc0007ff , 0x00000007, 1 },
2742 { mips64_emit_SRL , 0xffe0003f , 0x00000002, 1 },
2743 { mips64_emit_SRLV , 0xfc0007ff , 0x00000006, 1 },
2744 { mips64_emit_SUB , 0xfc0007ff , 0x00000022, 1 },
2745 { mips64_emit_SUBU , 0xfc0007ff , 0x00000023, 1 },
2746 { mips64_emit_SW , 0xfc000000 , 0xac000000, 1 },
2747 { mips64_emit_SWL , 0xfc000000 , 0xa8000000, 1 },
2748 { mips64_emit_SWR , 0xfc000000 , 0xb8000000, 1 },
2749 { mips64_emit_SYNC , 0xfffff83f , 0x0000000f, 1 },
2750 { mips64_emit_SYSCALL , 0xfc00003f , 0x0000000c, 1 },
2751 { mips64_emit_TEQ , 0xfc00003f , 0x00000034, 1 },
2752 { mips64_emit_TEQI , 0xfc1f0000 , 0x040c0000, 1 },
2753 { mips64_emit_TLBP , 0xffffffff , 0x42000008, 1 },
2754 { mips64_emit_TLBR , 0xffffffff , 0x42000001, 1 },
2755 { mips64_emit_TLBWI , 0xffffffff , 0x42000002, 1 },
2756 { mips64_emit_TLBWR , 0xffffffff , 0x42000006, 1 },
2757 { mips64_emit_XOR , 0xfc0007ff , 0x00000026, 1 },
2758 { mips64_emit_XORI , 0xfc000000 , 0x38000000, 1 },
2759 { mips64_emit_unknown , 0x00000000 , 0x00000000, 1 },
2760 { NULL , 0x00000000 , 0x00000000, 0 },
2761 };

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