Coverage Report

Created: 2026-07-16 06:55

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/capstonev5/arch/M68K/M68KDisassembler.c
Line
Count
Source
1
/* ======================================================================== */
2
/* ========================= LICENSING & COPYRIGHT ======================== */
3
/* ======================================================================== */
4
/*
5
 *                                  MUSASHI
6
 *                                Version 3.4
7
 *
8
 * A portable Motorola M680x0 processor emulation engine.
9
 * Copyright 1998-2001 Karl Stenerud.  All rights reserved.
10
 *
11
 * Permission is hereby granted, free of charge, to any person obtaining a copy
12
 * of this software and associated documentation files (the "Software"), to deal
13
 * in the Software without restriction, including without limitation the rights
14
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
15
 * copies of the Software, and to permit persons to whom the Software is
16
 * furnished to do so, subject to the following conditions:
17
 *
18
 * The above copyright notice and this permission notice shall be included in
19
 * all copies or substantial portions of the Software.
20
21
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
22
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
23
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
24
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
25
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
26
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
27
 * THE SOFTWARE.
28
 */
29
30
/* The code below is based on MUSASHI but has been heavily modified for Capstone by
31
 * Daniel Collin <daniel@collin.com> 2015-2019 */
32
33
/* ======================================================================== */
34
/* ================================ INCLUDES ============================== */
35
/* ======================================================================== */
36
37
#include <stdlib.h>
38
#include <stdio.h>
39
#include <string.h>
40
41
#include "../../cs_priv.h"
42
#include "../../utils.h"
43
44
#include "../../MCInst.h"
45
#include "../../MCInstrDesc.h"
46
#include "../../MCRegisterInfo.h"
47
#include "M68KInstPrinter.h"
48
#include "M68KDisassembler.h"
49
50
/* ======================================================================== */
51
/* ============================ GENERAL DEFINES =========================== */
52
/* ======================================================================== */
53
54
/* Bit Isolation Functions */
55
3.61k
#define BIT_0(A)  ((A) & 0x00000001)
56
#define BIT_1(A)  ((A) & 0x00000002)
57
#define BIT_2(A)  ((A) & 0x00000004)
58
0
#define BIT_3(A)  ((A) & 0x00000008)
59
#define BIT_4(A)  ((A) & 0x00000010)
60
1.59k
#define BIT_5(A)  ((A) & 0x00000020)
61
5.05k
#define BIT_6(A)  ((A) & 0x00000040)
62
5.05k
#define BIT_7(A)  ((A) & 0x00000080)
63
12.0k
#define BIT_8(A)  ((A) & 0x00000100)
64
#define BIT_9(A)  ((A) & 0x00000200)
65
595
#define BIT_A(A)  ((A) & 0x00000400)
66
14.5k
#define BIT_B(A)  ((A) & 0x00000800)
67
#define BIT_C(A)  ((A) & 0x00001000)
68
#define BIT_D(A)  ((A) & 0x00002000)
69
#define BIT_E(A)  ((A) & 0x00004000)
70
15.8k
#define BIT_F(A)  ((A) & 0x00008000)
71
#define BIT_10(A) ((A) & 0x00010000)
72
#define BIT_11(A) ((A) & 0x00020000)
73
#define BIT_12(A) ((A) & 0x00040000)
74
#define BIT_13(A) ((A) & 0x00080000)
75
#define BIT_14(A) ((A) & 0x00100000)
76
#define BIT_15(A) ((A) & 0x00200000)
77
#define BIT_16(A) ((A) & 0x00400000)
78
#define BIT_17(A) ((A) & 0x00800000)
79
#define BIT_18(A) ((A) & 0x01000000)
80
#define BIT_19(A) ((A) & 0x02000000)
81
#define BIT_1A(A) ((A) & 0x04000000)
82
#define BIT_1B(A) ((A) & 0x08000000)
83
#define BIT_1C(A) ((A) & 0x10000000)
84
#define BIT_1D(A) ((A) & 0x20000000)
85
#define BIT_1E(A) ((A) & 0x40000000)
86
286
#define BIT_1F(A) ((A) & 0x80000000)
87
88
/* These are the CPU types understood by this disassembler */
89
59.4k
#define TYPE_68000 1
90
0
#define TYPE_68010 2
91
0
#define TYPE_68020 4
92
0
#define TYPE_68030 8
93
122k
#define TYPE_68040 16
94
95
#define M68000_ONLY   TYPE_68000
96
97
#define M68010_ONLY   TYPE_68010
98
#define M68010_LESS   (TYPE_68000 | TYPE_68010)
99
#define M68010_PLUS   (TYPE_68010 | TYPE_68020 | TYPE_68030 | TYPE_68040)
100
101
#define M68020_ONLY   TYPE_68020
102
#define M68020_LESS   (TYPE_68010 | TYPE_68020)
103
#define M68020_PLUS   (TYPE_68020 | TYPE_68030 | TYPE_68040)
104
105
#define M68030_ONLY   TYPE_68030
106
#define M68030_LESS   (TYPE_68010 | TYPE_68020 | TYPE_68030)
107
#define M68030_PLUS   (TYPE_68030 | TYPE_68040)
108
109
#define M68040_PLUS   TYPE_68040
110
111
enum {
112
  M68K_CPU_TYPE_INVALID,
113
  M68K_CPU_TYPE_68000,
114
  M68K_CPU_TYPE_68010,
115
  M68K_CPU_TYPE_68EC020,
116
  M68K_CPU_TYPE_68020,
117
  M68K_CPU_TYPE_68030,  /* Supported by disassembler ONLY */
118
  M68K_CPU_TYPE_68040   /* Supported by disassembler ONLY */
119
};
120
121
/* Extension word formats */
122
7.02k
#define EXT_8BIT_DISPLACEMENT(A)          ((A)&0xff)
123
12.0k
#define EXT_FULL(A)                       BIT_8(A)
124
#define EXT_EFFECTIVE_ZERO(A)             (((A)&0xe4) == 0xc4 || ((A)&0xe2) == 0xc0)
125
5.05k
#define EXT_BASE_REGISTER_PRESENT(A)      (!BIT_7(A))
126
5.05k
#define EXT_INDEX_REGISTER_PRESENT(A)     (!BIT_6(A))
127
10.3k
#define EXT_INDEX_REGISTER(A)             (((A)>>12)&7)
128
#define EXT_INDEX_PRE_POST(A)             (EXT_INDEX_PRESENT(A) && (A)&3)
129
#define EXT_INDEX_PRE(A)                  (EXT_INDEX_PRESENT(A) && ((A)&7) < 4 && ((A)&7) != 0)
130
#define EXT_INDEX_POST(A)                 (EXT_INDEX_PRESENT(A) && ((A)&7) > 4)
131
16.5k
#define EXT_INDEX_SCALE(A)                (((A)>>9)&3)
132
10.3k
#define EXT_INDEX_LONG(A)                 BIT_B(A)
133
10.3k
#define EXT_INDEX_AR(A)                   BIT_F(A)
134
5.05k
#define EXT_BASE_DISPLACEMENT_PRESENT(A)  (((A)&0x30) > 0x10)
135
#define EXT_BASE_DISPLACEMENT_WORD(A)     (((A)&0x30) == 0x20)
136
2.83k
#define EXT_BASE_DISPLACEMENT_LONG(A)     (((A)&0x30) == 0x30)
137
5.05k
#define EXT_OUTER_DISPLACEMENT_PRESENT(A) (((A)&3) > 1 && ((A)&0x47) < 0x44)
138
#define EXT_OUTER_DISPLACEMENT_WORD(A)    (((A)&3) == 2 && ((A)&0x47) < 0x44)
139
1.81k
#define EXT_OUTER_DISPLACEMENT_LONG(A)    (((A)&3) == 3 && ((A)&0x47) < 0x44)
140
141
#define IS_BITSET(val,b) ((val) & (1 << (b)))
142
13.0k
#define BITFIELD_MASK(sb,eb)  (((1 << ((sb) + 1))-1) & (~((1 << (eb))-1)))
143
13.0k
#define BITFIELD(val,sb,eb) ((BITFIELD_MASK(sb,eb) & (val)) >> (eb))
144
145
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
146
147
static unsigned int m68k_read_disassembler_16(const m68k_info *info, const uint64_t addr)
148
438k
{
149
438k
  const uint16_t v0 = info->code[addr + 0];
150
438k
  const uint16_t v1 = info->code[addr + 1];
151
438k
  return (v0 << 8) | v1;
152
438k
}
153
154
static unsigned int m68k_read_disassembler_32(const m68k_info *info, const uint64_t addr)
155
189k
{
156
189k
  const uint32_t v0 = info->code[addr + 0];
157
189k
  const uint32_t v1 = info->code[addr + 1];
158
189k
  const uint32_t v2 = info->code[addr + 2];
159
189k
  const uint32_t v3 = info->code[addr + 3];
160
189k
  return (v0 << 24) | (v1 << 16) | (v2 << 8) | v3;
161
189k
}
162
163
static uint64_t m68k_read_disassembler_64(const m68k_info *info, const uint64_t addr)
164
376
{
165
376
  const uint64_t v0 = info->code[addr + 0];
166
376
  const uint64_t v1 = info->code[addr + 1];
167
376
  const uint64_t v2 = info->code[addr + 2];
168
376
  const uint64_t v3 = info->code[addr + 3];
169
376
  const uint64_t v4 = info->code[addr + 4];
170
376
  const uint64_t v5 = info->code[addr + 5];
171
376
  const uint64_t v6 = info->code[addr + 6];
172
376
  const uint64_t v7 = info->code[addr + 7];
173
376
  return (v0 << 56) | (v1 << 48) | (v2 << 40) | (v3 << 32) | (v4 << 24) | (v5 << 16) | (v6 << 8) | v7;
174
376
}
175
176
static unsigned int m68k_read_safe_16(const m68k_info *info, const uint64_t address)
177
438k
{
178
438k
  const uint64_t addr = (address - info->baseAddress) & info->address_mask;
179
438k
  if (info->code_len < addr + 2) {
180
668
    return 0xaaaa;
181
668
  }
182
438k
  return m68k_read_disassembler_16(info, addr);
183
438k
}
184
185
static unsigned int m68k_read_safe_32(const m68k_info *info, const uint64_t address)
186
191k
{
187
191k
  const uint64_t addr = (address - info->baseAddress) & info->address_mask;
188
191k
  if (info->code_len < addr + 4) {
189
1.88k
    return 0xaaaaaaaa;
190
1.88k
  }
191
189k
  return m68k_read_disassembler_32(info, addr);
192
191k
}
193
194
static uint64_t m68k_read_safe_64(const m68k_info *info, const uint64_t address)
195
378
{
196
378
  const uint64_t addr = (address - info->baseAddress) & info->address_mask;
197
378
  if (info->code_len < addr + 8) {
198
2
    return 0xaaaaaaaaaaaaaaaaLL;
199
2
  }
200
376
  return m68k_read_disassembler_64(info, addr);
201
378
}
202
203
/* ======================================================================== */
204
/* =============================== PROTOTYPES ============================= */
205
/* ======================================================================== */
206
207
/* make signed integers 100% portably */
208
static int make_int_8(int value);
209
static int make_int_16(int value);
210
211
/* Stuff to build the opcode handler jump table */
212
static void d68000_invalid(m68k_info *info);
213
static int instruction_is_valid(m68k_info *info, const unsigned int word_check);
214
215
typedef struct {
216
  void (*instruction)(m68k_info *info);   /* handler function */
217
  uint16_t word2_mask;                  /* mask the 2nd word */
218
  uint16_t word2_match;                 /* what to match after masking */
219
} instruction_struct;
220
221
/* ======================================================================== */
222
/* ================================= DATA ================================= */
223
/* ======================================================================== */
224
225
static const instruction_struct g_instruction_table[0x10000];
226
227
/* used by ops like asr, ror, addq, etc */
228
static const uint32_t g_3bit_qdata_table[8] = {8, 1, 2, 3, 4, 5, 6, 7};
229
230
static const uint32_t g_5bit_data_table[32] = {
231
  32,  1,  2,  3,  4,  5,  6,  7,  8,  9, 10, 11, 12, 13, 14, 15,
232
  16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31
233
};
234
235
static const m68k_insn s_branch_lut[] = {
236
  M68K_INS_INVALID, M68K_INS_INVALID, M68K_INS_BHI, M68K_INS_BLS,
237
  M68K_INS_BCC, M68K_INS_BCS, M68K_INS_BNE, M68K_INS_BEQ,
238
  M68K_INS_BVC, M68K_INS_BVS, M68K_INS_BPL, M68K_INS_BMI,
239
  M68K_INS_BGE, M68K_INS_BLT, M68K_INS_BGT, M68K_INS_BLE,
240
};
241
242
static const m68k_insn s_dbcc_lut[] = {
243
  M68K_INS_DBT, M68K_INS_DBF, M68K_INS_DBHI, M68K_INS_DBLS,
244
  M68K_INS_DBCC, M68K_INS_DBCS, M68K_INS_DBNE, M68K_INS_DBEQ,
245
  M68K_INS_DBVC, M68K_INS_DBVS, M68K_INS_DBPL, M68K_INS_DBMI,
246
  M68K_INS_DBGE, M68K_INS_DBLT, M68K_INS_DBGT, M68K_INS_DBLE,
247
};
248
249
static const m68k_insn s_scc_lut[] = {
250
  M68K_INS_ST, M68K_INS_SF, M68K_INS_SHI, M68K_INS_SLS,
251
  M68K_INS_SCC, M68K_INS_SCS, M68K_INS_SNE, M68K_INS_SEQ,
252
  M68K_INS_SVC, M68K_INS_SVS, M68K_INS_SPL, M68K_INS_SMI,
253
  M68K_INS_SGE, M68K_INS_SLT, M68K_INS_SGT, M68K_INS_SLE,
254
};
255
256
static const m68k_insn s_trap_lut[] = {
257
  M68K_INS_TRAPT, M68K_INS_TRAPF, M68K_INS_TRAPHI, M68K_INS_TRAPLS,
258
  M68K_INS_TRAPCC, M68K_INS_TRAPCS, M68K_INS_TRAPNE, M68K_INS_TRAPEQ,
259
  M68K_INS_TRAPVC, M68K_INS_TRAPVS, M68K_INS_TRAPPL, M68K_INS_TRAPMI,
260
  M68K_INS_TRAPGE, M68K_INS_TRAPLT, M68K_INS_TRAPGT, M68K_INS_TRAPLE,
261
};
262
263
/* ======================================================================== */
264
/* =========================== UTILITY FUNCTIONS ========================== */
265
/* ======================================================================== */
266
267
#define LIMIT_CPU_TYPES(info, ALLOWED_CPU_TYPES)  \
268
44.5k
  do {           \
269
44.5k
    if (!(info->type & ALLOWED_CPU_TYPES)) { \
270
11.4k
      d68000_invalid(info);   \
271
11.4k
      return;       \
272
11.4k
    }          \
273
44.5k
  } while (0)
274
275
11.9k
static unsigned int peek_imm_8(const m68k_info *info)  { return (m68k_read_safe_16((info), (info)->pc)&0xff); }
276
426k
static unsigned int peek_imm_16(const m68k_info *info) { return m68k_read_safe_16((info), (info)->pc); }
277
191k
static unsigned int peek_imm_32(const m68k_info *info) { return m68k_read_safe_32((info), (info)->pc); }
278
378
static unsigned long long peek_imm_64(const m68k_info *info) { return m68k_read_safe_64((info), (info)->pc); }
279
280
11.9k
static unsigned int read_imm_8(m68k_info *info)  { const unsigned int value = peek_imm_8(info);  (info)->pc+=2; return value; }
281
243k
static unsigned int read_imm_16(m68k_info *info) { const unsigned int value = peek_imm_16(info); (info)->pc+=2; return value; }
282
8.73k
static unsigned int read_imm_32(m68k_info *info) { const unsigned int value = peek_imm_32(info); (info)->pc+=4; return value; }
283
378
static unsigned long long read_imm_64(m68k_info *info) { const unsigned long long value = peek_imm_64(info); (info)->pc+=8; return value; }
284
285
/* Fake a split interface */
286
#define get_ea_mode_str_8(instruction) get_ea_mode_str(instruction, 0)
287
#define get_ea_mode_str_16(instruction) get_ea_mode_str(instruction, 1)
288
#define get_ea_mode_str_32(instruction) get_ea_mode_str(instruction, 2)
289
290
#define get_imm_str_s8() get_imm_str_s(0)
291
#define get_imm_str_s16() get_imm_str_s(1)
292
#define get_imm_str_s32() get_imm_str_s(2)
293
294
#define get_imm_str_u8() get_imm_str_u(0)
295
#define get_imm_str_u16() get_imm_str_u(1)
296
#define get_imm_str_u32() get_imm_str_u(2)
297
298
299
/* 100% portable signed int generators */
300
static int make_int_8(int value)
301
11.2k
{
302
11.2k
  return (value & 0x80) ? value | ~0xff : value & 0xff;
303
11.2k
}
304
305
static int make_int_16(int value)
306
4.51k
{
307
4.51k
  return (value & 0x8000) ? value | ~0xffff : value & 0xffff;
308
4.51k
}
309
310
static void get_with_index_address_mode(m68k_info *info, cs_m68k_op* op, uint32_t instruction, uint32_t size, bool is_pc)
311
12.0k
{
312
12.0k
  uint32_t extension = read_imm_16(info);
313
314
12.0k
  op->address_mode = M68K_AM_AREGI_INDEX_BASE_DISP;
315
316
12.0k
  if (EXT_FULL(extension)) {
317
5.05k
    uint32_t preindex;
318
5.05k
    uint32_t postindex;
319
320
5.05k
    op->mem.base_reg = M68K_REG_INVALID;
321
5.05k
    op->mem.index_reg = M68K_REG_INVALID;
322
323
    /* Not sure how to deal with this?
324
       if (EXT_EFFECTIVE_ZERO(extension)) {
325
       strcpy(mode, "0");
326
       break;
327
       }
328
     */
329
330
5.05k
    op->mem.in_disp = EXT_BASE_DISPLACEMENT_PRESENT(extension) ? (EXT_BASE_DISPLACEMENT_LONG(extension) ? read_imm_32(info) : read_imm_16(info)) : 0;
331
5.05k
    op->mem.out_disp = EXT_OUTER_DISPLACEMENT_PRESENT(extension) ? (EXT_OUTER_DISPLACEMENT_LONG(extension) ? read_imm_32(info) : read_imm_16(info)) : 0;
332
333
5.05k
    if (EXT_BASE_REGISTER_PRESENT(extension)) {
334
3.04k
      if (is_pc) {
335
241
        op->mem.base_reg = M68K_REG_PC;
336
2.79k
      } else {
337
2.79k
        op->mem.base_reg = M68K_REG_A0 + (instruction & 7);
338
2.79k
      }
339
3.04k
    }
340
341
5.05k
    if (EXT_INDEX_REGISTER_PRESENT(extension)) {
342
3.29k
      if (EXT_INDEX_AR(extension)) {
343
1.71k
        op->mem.index_reg = M68K_REG_A0 + EXT_INDEX_REGISTER(extension);
344
1.71k
      } else {
345
1.57k
        op->mem.index_reg = M68K_REG_D0 + EXT_INDEX_REGISTER(extension);
346
1.57k
      }
347
348
3.29k
      op->mem.index_size = EXT_INDEX_LONG(extension) ? 1 : 0;
349
350
3.29k
      if (EXT_INDEX_SCALE(extension)) {
351
2.34k
        op->mem.scale = 1 << EXT_INDEX_SCALE(extension);
352
2.34k
      }
353
3.29k
    }
354
355
5.05k
    preindex = (extension & 7) > 0 && (extension & 7) < 4;
356
5.05k
    postindex = (extension & 7) > 4;
357
358
5.05k
    if (preindex) {
359
2.12k
      op->address_mode = is_pc ? M68K_AM_PC_MEMI_PRE_INDEX : M68K_AM_MEMI_PRE_INDEX;
360
2.92k
    } else if (postindex) {
361
1.74k
      op->address_mode = is_pc ? M68K_AM_PC_MEMI_POST_INDEX : M68K_AM_MEMI_POST_INDEX;
362
1.74k
    }
363
364
5.05k
    return;
365
5.05k
  }
366
367
7.02k
  op->mem.index_reg = (EXT_INDEX_AR(extension) ? M68K_REG_A0 : M68K_REG_D0) + EXT_INDEX_REGISTER(extension);
368
7.02k
  op->mem.index_size = EXT_INDEX_LONG(extension) ? 1 : 0;
369
370
7.02k
  if (EXT_8BIT_DISPLACEMENT(extension) == 0) {
371
1.40k
    if (is_pc) {
372
45
      op->mem.base_reg = M68K_REG_PC;
373
45
      op->address_mode = M68K_AM_PCI_INDEX_BASE_DISP;
374
1.35k
    } else {
375
1.35k
      op->mem.base_reg = M68K_REG_A0 + (instruction & 7);
376
1.35k
    }
377
5.62k
  } else {
378
5.62k
    if (is_pc) {
379
520
      op->mem.base_reg = M68K_REG_PC;
380
520
      op->address_mode = M68K_AM_PCI_INDEX_8_BIT_DISP;
381
5.10k
    } else {
382
5.10k
      op->mem.base_reg = M68K_REG_A0 + (instruction & 7);
383
5.10k
      op->address_mode = M68K_AM_AREGI_INDEX_8_BIT_DISP;
384
5.10k
    }
385
386
5.62k
    op->mem.disp = (int8_t)(extension & 0xff);
387
5.62k
  }
388
389
7.02k
  if (EXT_INDEX_SCALE(extension)) {
390
3.87k
    op->mem.scale = 1 << EXT_INDEX_SCALE(extension);
391
3.87k
  }
392
7.02k
}
393
394
/* Make string of effective address mode */
395
static void get_ea_mode_op(m68k_info *info, cs_m68k_op* op, uint32_t instruction, uint32_t size)
396
113k
{
397
  // default to memory
398
399
113k
  op->type = M68K_OP_MEM;
400
401
113k
  switch (instruction & 0x3f) {
402
33.1k
    case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x06: case 0x07:
403
      /* data register direct */
404
33.1k
      op->address_mode = M68K_AM_REG_DIRECT_DATA;
405
33.1k
      op->reg = M68K_REG_D0 + (instruction & 7);
406
33.1k
      op->type = M68K_OP_REG;
407
33.1k
      break;
408
409
4.98k
    case 0x08: case 0x09: case 0x0a: case 0x0b: case 0x0c: case 0x0d: case 0x0e: case 0x0f:
410
      /* address register direct */
411
4.98k
      op->address_mode = M68K_AM_REG_DIRECT_ADDR;
412
4.98k
      op->reg = M68K_REG_A0 + (instruction & 7);
413
4.98k
      op->type = M68K_OP_REG;
414
4.98k
      break;
415
416
14.4k
    case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x16: case 0x17:
417
      /* address register indirect */
418
14.4k
      op->address_mode = M68K_AM_REGI_ADDR;
419
14.4k
      op->reg = M68K_REG_A0 + (instruction & 7);
420
14.4k
      break;
421
422
11.6k
    case 0x18: case 0x19: case 0x1a: case 0x1b: case 0x1c: case 0x1d: case 0x1e: case 0x1f:
423
      /* address register indirect with postincrement */
424
11.6k
      op->address_mode = M68K_AM_REGI_ADDR_POST_INC;
425
11.6k
      op->reg = M68K_REG_A0 + (instruction & 7);
426
11.6k
      break;
427
428
22.6k
    case 0x20: case 0x21: case 0x22: case 0x23: case 0x24: case 0x25: case 0x26: case 0x27:
429
      /* address register indirect with predecrement */
430
22.6k
      op->address_mode = M68K_AM_REGI_ADDR_PRE_DEC;
431
22.6k
      op->reg = M68K_REG_A0 + (instruction & 7);
432
22.6k
      break;
433
434
8.07k
    case 0x28: case 0x29: case 0x2a: case 0x2b: case 0x2c: case 0x2d: case 0x2e: case 0x2f:
435
      /* address register indirect with displacement*/
436
8.07k
      op->address_mode = M68K_AM_REGI_ADDR_DISP;
437
8.07k
      op->mem.base_reg = M68K_REG_A0 + (instruction & 7);
438
8.07k
      op->mem.disp = (int16_t)read_imm_16(info);
439
8.07k
      break;
440
441
11.0k
    case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: case 0x35: case 0x36: case 0x37:
442
      /* address register indirect with index */
443
11.0k
      get_with_index_address_mode(info, op, instruction, size, false);
444
11.0k
      break;
445
446
1.39k
    case 0x38:
447
      /* absolute short address */
448
1.39k
      op->address_mode = M68K_AM_ABSOLUTE_DATA_SHORT;
449
1.39k
      op->imm = read_imm_16(info);
450
1.39k
      break;
451
452
861
    case 0x39:
453
      /* absolute long address */
454
861
      op->address_mode = M68K_AM_ABSOLUTE_DATA_LONG;
455
861
      op->imm = read_imm_32(info);
456
861
      break;
457
458
1.78k
    case 0x3a:
459
      /* program counter with displacement */
460
1.78k
      op->address_mode = M68K_AM_PCI_DISP;
461
1.78k
      op->mem.disp = (int16_t)read_imm_16(info);
462
1.78k
      break;
463
464
1.05k
    case 0x3b:
465
      /* program counter with index */
466
1.05k
      get_with_index_address_mode(info, op, instruction, size, true);
467
1.05k
      break;
468
469
1.73k
    case 0x3c:
470
1.73k
      op->address_mode = M68K_AM_IMMEDIATE;
471
1.73k
      op->type = M68K_OP_IMM;
472
473
1.73k
      if (size == 1)
474
180
        op->imm = read_imm_8(info) & 0xff;
475
1.55k
      else if (size == 2)
476
983
        op->imm = read_imm_16(info) & 0xffff;
477
574
      else if (size == 4)
478
196
        op->imm = read_imm_32(info);
479
378
      else
480
378
        op->imm = read_imm_64(info);
481
482
1.73k
      break;
483
484
540
    default:
485
540
      break;
486
113k
  }
487
113k
}
488
489
static void set_insn_group(m68k_info *info, m68k_group_type group)
490
37.4k
{
491
37.4k
  info->groups[info->groups_count++] = (uint8_t)group;
492
37.4k
}
493
494
static cs_m68k* build_init_op(m68k_info *info, int opcode, int count, int size)
495
171k
{
496
171k
  cs_m68k* ext;
497
498
171k
  MCInst_setOpcode(info->inst, opcode);
499
500
171k
  ext = &info->extension;
501
502
171k
  ext->op_count = (uint8_t)count;
503
171k
  ext->op_size.type = M68K_SIZE_TYPE_CPU;
504
171k
  ext->op_size.cpu_size = size;
505
506
171k
  return ext;
507
171k
}
508
509
static void build_re_gen_1(m68k_info *info, bool isDreg, int opcode, uint8_t size)
510
13.3k
{
511
13.3k
  cs_m68k_op* op0;
512
13.3k
  cs_m68k_op* op1;
513
13.3k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
514
515
13.3k
  op0 = &ext->operands[0];
516
13.3k
  op1 = &ext->operands[1];
517
518
13.3k
  if (isDreg) {
519
13.3k
    op0->address_mode = M68K_AM_REG_DIRECT_DATA;
520
13.3k
    op0->reg = M68K_REG_D0 + ((info->ir >> 9 ) & 7);
521
13.3k
  } else {
522
0
    op0->address_mode = M68K_AM_REG_DIRECT_ADDR;
523
0
    op0->reg = M68K_REG_A0 + ((info->ir >> 9 ) & 7);
524
0
  }
525
526
13.3k
  get_ea_mode_op(info, op1, info->ir, size);
527
13.3k
}
528
529
static void build_re_1(m68k_info *info, int opcode, uint8_t size)
530
13.3k
{
531
13.3k
  build_re_gen_1(info, true, opcode, size);
532
13.3k
}
533
534
static void build_er_gen_1(m68k_info *info, bool isDreg, int opcode, uint8_t size)
535
13.6k
{
536
13.6k
  cs_m68k_op* op0;
537
13.6k
  cs_m68k_op* op1;
538
13.6k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
539
540
13.6k
  op0 = &ext->operands[0];
541
13.6k
  op1 = &ext->operands[1];
542
543
13.6k
  get_ea_mode_op(info, op0, info->ir, size);
544
545
13.6k
  if (isDreg) {
546
13.6k
    op1->address_mode = M68K_AM_REG_DIRECT_DATA;
547
13.6k
    op1->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
548
13.6k
  } else {
549
0
    op1->address_mode = M68K_AM_REG_DIRECT_ADDR;
550
0
    op1->reg = M68K_REG_A0 + ((info->ir >> 9) & 7);
551
0
  }
552
13.6k
}
553
554
static void build_rr(m68k_info *info, int opcode, uint8_t size, int imm)
555
3.18k
{
556
3.18k
  cs_m68k_op* op0;
557
3.18k
  cs_m68k_op* op1;
558
3.18k
  cs_m68k_op* op2;
559
3.18k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
560
561
3.18k
  op0 = &ext->operands[0];
562
3.18k
  op1 = &ext->operands[1];
563
3.18k
  op2 = &ext->operands[2];
564
565
3.18k
  op0->address_mode = M68K_AM_REG_DIRECT_DATA;
566
3.18k
  op0->reg = M68K_REG_D0 + (info->ir & 7);
567
568
3.18k
  op1->address_mode = M68K_AM_REG_DIRECT_DATA;
569
3.18k
  op1->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
570
571
3.18k
  if (imm > 0) {
572
495
    ext->op_count = 3;
573
495
    op2->type = M68K_OP_IMM;
574
495
    op2->address_mode = M68K_AM_IMMEDIATE;
575
495
    op2->imm = imm;
576
495
  }
577
3.18k
}
578
579
static void build_r(m68k_info *info, int opcode, uint8_t size)
580
4.90k
{
581
4.90k
  cs_m68k_op* op0;
582
4.90k
  cs_m68k_op* op1;
583
4.90k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
584
585
4.90k
  op0 = &ext->operands[0];
586
4.90k
  op1 = &ext->operands[1];
587
588
4.90k
  op0->address_mode = M68K_AM_REG_DIRECT_DATA;
589
4.90k
  op0->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
590
591
4.90k
  op1->address_mode = M68K_AM_REG_DIRECT_DATA;
592
4.90k
  op1->reg = M68K_REG_D0 + (info->ir & 7);
593
4.90k
}
594
595
static void build_imm_ea(m68k_info *info, int opcode, uint8_t size, int imm)
596
16.2k
{
597
16.2k
  cs_m68k_op* op0;
598
16.2k
  cs_m68k_op* op1;
599
16.2k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
600
601
16.2k
  op0 = &ext->operands[0];
602
16.2k
  op1 = &ext->operands[1];
603
604
16.2k
  op0->type = M68K_OP_IMM;
605
16.2k
  op0->address_mode = M68K_AM_IMMEDIATE;
606
16.2k
  op0->imm = imm;
607
608
16.2k
  get_ea_mode_op(info, op1, info->ir, size);
609
16.2k
}
610
611
static void build_3bit_d(m68k_info *info, int opcode, int size)
612
6.19k
{
613
6.19k
  cs_m68k_op* op0;
614
6.19k
  cs_m68k_op* op1;
615
6.19k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
616
617
6.19k
  op0 = &ext->operands[0];
618
6.19k
  op1 = &ext->operands[1];
619
620
6.19k
  op0->type = M68K_OP_IMM;
621
6.19k
  op0->address_mode = M68K_AM_IMMEDIATE;
622
6.19k
  op0->imm = g_3bit_qdata_table[(info->ir >> 9) & 7];
623
624
6.19k
  op1->address_mode = M68K_AM_REG_DIRECT_DATA;
625
6.19k
  op1->reg = M68K_REG_D0 + (info->ir & 7);
626
6.19k
}
627
628
static void build_3bit_ea(m68k_info *info, int opcode, int size)
629
5.67k
{
630
5.67k
  cs_m68k_op* op0;
631
5.67k
  cs_m68k_op* op1;
632
5.67k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
633
634
5.67k
  op0 = &ext->operands[0];
635
5.67k
  op1 = &ext->operands[1];
636
637
5.67k
  op0->type = M68K_OP_IMM;
638
5.67k
  op0->address_mode = M68K_AM_IMMEDIATE;
639
5.67k
  op0->imm = g_3bit_qdata_table[(info->ir >> 9) & 7];
640
641
5.67k
  get_ea_mode_op(info, op1, info->ir, size);
642
5.67k
}
643
644
static void build_mm(m68k_info *info, int opcode, uint8_t size, int imm)
645
3.02k
{
646
3.02k
  cs_m68k_op* op0;
647
3.02k
  cs_m68k_op* op1;
648
3.02k
  cs_m68k_op* op2;
649
3.02k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
650
651
3.02k
  op0 = &ext->operands[0];
652
3.02k
  op1 = &ext->operands[1];
653
3.02k
  op2 = &ext->operands[2];
654
655
3.02k
  op0->address_mode = M68K_AM_REGI_ADDR_PRE_DEC;
656
3.02k
  op0->reg = M68K_REG_A0 + (info->ir & 7);
657
658
3.02k
  op1->address_mode = M68K_AM_REGI_ADDR_PRE_DEC;
659
3.02k
  op1->reg = M68K_REG_A0 + ((info->ir >> 9) & 7);
660
661
3.02k
  if (imm > 0) {
662
1.01k
    ext->op_count = 3;
663
1.01k
    op2->type = M68K_OP_IMM;
664
1.01k
    op2->address_mode = M68K_AM_IMMEDIATE;
665
1.01k
    op2->imm = imm;
666
1.01k
  }
667
3.02k
}
668
669
static void build_ea(m68k_info *info, int opcode, uint8_t size)
670
9.09k
{
671
9.09k
  cs_m68k* ext = build_init_op(info, opcode, 1, size);
672
9.09k
  get_ea_mode_op(info, &ext->operands[0], info->ir, size);
673
9.09k
}
674
675
static void build_ea_a(m68k_info *info, int opcode, uint8_t size)
676
6.56k
{
677
6.56k
  cs_m68k_op* op0;
678
6.56k
  cs_m68k_op* op1;
679
6.56k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
680
681
6.56k
  op0 = &ext->operands[0];
682
6.56k
  op1 = &ext->operands[1];
683
684
6.56k
  get_ea_mode_op(info, op0, info->ir, size);
685
686
6.56k
  op1->address_mode = M68K_AM_REG_DIRECT_ADDR;
687
6.56k
  op1->reg = M68K_REG_A0 + ((info->ir >> 9) & 7);
688
6.56k
}
689
690
static void build_ea_ea(m68k_info *info, int opcode, int size)
691
15.5k
{
692
15.5k
  cs_m68k_op* op0;
693
15.5k
  cs_m68k_op* op1;
694
15.5k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
695
696
15.5k
  op0 = &ext->operands[0];
697
15.5k
  op1 = &ext->operands[1];
698
699
15.5k
  get_ea_mode_op(info, op0, info->ir, size);
700
15.5k
  get_ea_mode_op(info, op1, (((info->ir>>9) & 7) | ((info->ir>>3) & 0x38)), size);
701
15.5k
}
702
703
static void build_pi_pi(m68k_info *info, int opcode, int size)
704
1.66k
{
705
1.66k
  cs_m68k_op* op0;
706
1.66k
  cs_m68k_op* op1;
707
1.66k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
708
709
1.66k
  op0 = &ext->operands[0];
710
1.66k
  op1 = &ext->operands[1];
711
712
1.66k
  op0->address_mode = M68K_AM_REGI_ADDR_POST_INC;
713
1.66k
  op0->reg = M68K_REG_A0 + (info->ir & 7);
714
715
1.66k
  op1->address_mode = M68K_AM_REGI_ADDR_POST_INC;
716
1.66k
  op1->reg = M68K_REG_A0 + ((info->ir >> 9) & 7);
717
1.66k
}
718
719
static void build_imm_special_reg(m68k_info *info, int opcode, int imm, int size, m68k_reg reg)
720
600
{
721
600
  cs_m68k_op* op0;
722
600
  cs_m68k_op* op1;
723
600
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
724
725
600
  op0 = &ext->operands[0];
726
600
  op1 = &ext->operands[1];
727
728
600
  op0->type = M68K_OP_IMM;
729
600
  op0->address_mode = M68K_AM_IMMEDIATE;
730
600
  op0->imm = imm;
731
732
600
  op1->address_mode = M68K_AM_NONE;
733
600
  op1->reg = reg;
734
600
}
735
736
static void build_relative_branch(m68k_info *info, int opcode, int size, int displacement)
737
13.3k
{
738
13.3k
  cs_m68k_op* op;
739
13.3k
  cs_m68k* ext = build_init_op(info, opcode, 1, size);
740
741
13.3k
  op = &ext->operands[0];
742
743
13.3k
  op->type = M68K_OP_BR_DISP;
744
13.3k
  op->address_mode = M68K_AM_BRANCH_DISPLACEMENT;
745
13.3k
  op->br_disp.disp = displacement;
746
13.3k
  op->br_disp.disp_size = size;
747
748
13.3k
  set_insn_group(info, M68K_GRP_JUMP);
749
13.3k
  set_insn_group(info, M68K_GRP_BRANCH_RELATIVE);
750
13.3k
}
751
752
static void build_absolute_jump_with_immediate(m68k_info *info, int opcode, int size, int immediate)
753
1.69k
{
754
1.69k
  cs_m68k_op* op;
755
1.69k
  cs_m68k* ext = build_init_op(info, opcode, 1, size);
756
757
1.69k
  op = &ext->operands[0];
758
759
1.69k
  op->type = M68K_OP_IMM;
760
1.69k
  op->address_mode = M68K_AM_IMMEDIATE;
761
1.69k
  op->imm = immediate;
762
763
1.69k
  set_insn_group(info, M68K_GRP_JUMP);
764
1.69k
}
765
766
static void build_bcc(m68k_info *info, int size, int displacement)
767
8.95k
{
768
8.95k
  build_relative_branch(info, s_branch_lut[(info->ir >> 8) & 0xf], size, displacement);
769
8.95k
}
770
771
static void build_trap(m68k_info *info, int size, int immediate)
772
677
{
773
677
  build_absolute_jump_with_immediate(info, s_trap_lut[(info->ir >> 8) & 0xf], size, immediate);
774
677
}
775
776
static void build_dbxx(m68k_info *info, int opcode, int size, int displacement)
777
880
{
778
880
  cs_m68k_op* op0;
779
880
  cs_m68k_op* op1;
780
880
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
781
782
880
  op0 = &ext->operands[0];
783
880
  op1 = &ext->operands[1];
784
785
880
  op0->address_mode = M68K_AM_REG_DIRECT_DATA;
786
880
  op0->reg = M68K_REG_D0 + (info->ir & 7);
787
788
880
  op1->type = M68K_OP_BR_DISP;
789
880
  op1->address_mode = M68K_AM_BRANCH_DISPLACEMENT;
790
880
  op1->br_disp.disp = displacement;
791
880
  op1->br_disp.disp_size = M68K_OP_BR_DISP_SIZE_LONG;
792
793
880
  set_insn_group(info, M68K_GRP_JUMP);
794
880
  set_insn_group(info, M68K_GRP_BRANCH_RELATIVE);
795
880
}
796
797
static void build_dbcc(m68k_info *info, int size, int displacement)
798
378
{
799
378
  build_dbxx(info, s_dbcc_lut[(info->ir >> 8) & 0xf], size, displacement);
800
378
}
801
802
static void build_d_d_ea(m68k_info *info, int opcode, int size)
803
147
{
804
147
  cs_m68k_op* op0;
805
147
  cs_m68k_op* op1;
806
147
  cs_m68k_op* op2;
807
147
  uint32_t extension = read_imm_16(info);
808
147
  cs_m68k* ext = build_init_op(info, opcode, 3, size);
809
810
147
  op0 = &ext->operands[0];
811
147
  op1 = &ext->operands[1];
812
147
  op2 = &ext->operands[2];
813
814
147
  op0->address_mode = M68K_AM_REG_DIRECT_DATA;
815
147
  op0->reg = M68K_REG_D0 + (extension & 7);
816
817
147
  op1->address_mode = M68K_AM_REG_DIRECT_DATA;
818
147
  op1->reg = M68K_REG_D0 + ((extension >> 6) & 7);
819
820
147
  get_ea_mode_op(info, op2, info->ir, size);
821
147
}
822
823
static void build_bitfield_ins(m68k_info *info, int opcode, int has_d_arg)
824
1.59k
{
825
1.59k
  uint8_t offset;
826
1.59k
  uint8_t width;
827
1.59k
  cs_m68k_op* op_ea;
828
1.59k
  cs_m68k_op* op1;
829
1.59k
  cs_m68k* ext = build_init_op(info, opcode, 1, 0);
830
1.59k
  uint32_t extension = read_imm_16(info);
831
832
1.59k
  op_ea = &ext->operands[0];
833
1.59k
  op1 = &ext->operands[1];
834
835
1.59k
  if (BIT_B(extension))
836
559
    offset = (extension >> 6) & 7;
837
1.03k
  else
838
1.03k
    offset = (extension >> 6) & 31;
839
840
1.59k
  if (BIT_5(extension))
841
403
    width = extension & 7;
842
1.19k
  else
843
1.19k
    width = (uint8_t)g_5bit_data_table[extension & 31];
844
845
1.59k
  if (has_d_arg) {
846
941
    ext->op_count = 2;
847
941
    op1->address_mode = M68K_AM_REG_DIRECT_DATA;
848
941
    op1->reg = M68K_REG_D0 + ((extension >> 12) & 7);
849
941
  }
850
851
1.59k
  get_ea_mode_op(info, op_ea, info->ir, 1);
852
853
1.59k
  op_ea->mem.bitfield = 1;
854
1.59k
  op_ea->mem.width = width;
855
1.59k
  op_ea->mem.offset = offset;
856
1.59k
}
857
858
static void build_d(m68k_info *info, int opcode, int size)
859
476
{
860
476
  cs_m68k* ext = build_init_op(info, opcode, 1, size);
861
476
  cs_m68k_op* op;
862
863
476
  op = &ext->operands[0];
864
865
476
  op->address_mode = M68K_AM_REG_DIRECT_DATA;
866
476
  op->reg = M68K_REG_D0 + (info->ir & 7);
867
476
}
868
869
static uint16_t reverse_bits(uint32_t v)
870
913
{
871
913
  uint32_t r = v; // r will be reversed bits of v; first get LSB of v
872
913
  uint32_t s = 16 - 1; // extra shift needed at end
873
874
7.03k
  for (v >>= 1; v; v >>= 1) {
875
6.11k
    r <<= 1;
876
6.11k
    r |= v & 1;
877
6.11k
    s--;
878
6.11k
  }
879
880
913
  return r <<= s; // shift when v's highest bits are zero
881
913
}
882
883
static uint8_t reverse_bits_8(uint32_t v)
884
554
{
885
554
  uint32_t r = v; // r will be reversed bits of v; first get LSB of v
886
554
  uint32_t s = 8 - 1; // extra shift needed at end
887
888
1.85k
  for (v >>= 1; v; v >>= 1) {
889
1.29k
    r <<= 1;
890
1.29k
    r |= v & 1;
891
1.29k
    s--;
892
1.29k
  }
893
894
554
  return r <<= s; // shift when v's highest bits are zero
895
554
}
896
897
898
static void build_movem_re(m68k_info *info, int opcode, int size)
899
1.67k
{
900
1.67k
  cs_m68k_op* op0;
901
1.67k
  cs_m68k_op* op1;
902
1.67k
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
903
904
1.67k
  op0 = &ext->operands[0];
905
1.67k
  op1 = &ext->operands[1];
906
907
1.67k
  op0->type = M68K_OP_REG_BITS;
908
1.67k
  op0->register_bits = read_imm_16(info);
909
910
1.67k
  get_ea_mode_op(info, op1, info->ir, size);
911
912
1.67k
  if (op1->address_mode == M68K_AM_REGI_ADDR_PRE_DEC)
913
913
    op0->register_bits = reverse_bits(op0->register_bits);
914
1.67k
}
915
916
static void build_movem_er(m68k_info *info, int opcode, int size)
917
458
{
918
458
  cs_m68k_op* op0;
919
458
  cs_m68k_op* op1;
920
458
  cs_m68k* ext = build_init_op(info, opcode, 2, size);
921
922
458
  op0 = &ext->operands[0];
923
458
  op1 = &ext->operands[1];
924
925
458
  op1->type = M68K_OP_REG_BITS;
926
458
  op1->register_bits = read_imm_16(info);
927
928
458
  get_ea_mode_op(info, op0, info->ir, size);
929
458
}
930
931
static void build_imm(m68k_info *info, int opcode, int data)
932
23.5k
{
933
23.5k
  cs_m68k_op* op;
934
23.5k
  cs_m68k* ext = build_init_op(info, opcode, 1, 0);
935
936
23.5k
  MCInst_setOpcode(info->inst, opcode);
937
938
23.5k
  op = &ext->operands[0];
939
940
23.5k
  op->type = M68K_OP_IMM;
941
23.5k
  op->address_mode = M68K_AM_IMMEDIATE;
942
23.5k
  op->imm = data;
943
23.5k
}
944
945
static void build_illegal(m68k_info *info, int data)
946
133
{
947
133
  build_imm(info, M68K_INS_ILLEGAL, data);
948
133
}
949
950
static void build_invalid(m68k_info *info, int data)
951
23.3k
{
952
23.3k
  build_imm(info, M68K_INS_INVALID, data);
953
23.3k
}
954
955
static void build_cas2(m68k_info *info, int size)
956
575
{
957
575
  uint32_t word3;
958
575
  uint32_t extension;
959
575
  cs_m68k_op* op0;
960
575
  cs_m68k_op* op1;
961
575
  cs_m68k_op* op2;
962
575
  cs_m68k* ext = build_init_op(info, M68K_INS_CAS2, 3, size);
963
575
  int reg_0, reg_1;
964
965
  /* cas2 is the only 3 words instruction, word2 and word3 have the same motif bits to check */
966
575
  word3 = peek_imm_32(info) & 0xffff;
967
575
  if (!instruction_is_valid(info, word3))
968
289
    return;
969
970
286
  op0 = &ext->operands[0];
971
286
  op1 = &ext->operands[1];
972
286
  op2 = &ext->operands[2];
973
974
286
  extension = read_imm_32(info);
975
976
286
  op0->address_mode = M68K_AM_NONE;
977
286
  op0->type = M68K_OP_REG_PAIR;
978
286
  op0->reg_pair.reg_0 = ((extension >> 16) & 7) + M68K_REG_D0;
979
286
  op0->reg_pair.reg_1 = (extension & 7) + M68K_REG_D0;
980
981
286
  op1->address_mode = M68K_AM_NONE;
982
286
  op1->type = M68K_OP_REG_PAIR;
983
286
  op1->reg_pair.reg_0 = ((extension >> 22) & 7) + M68K_REG_D0;
984
286
  op1->reg_pair.reg_1 = ((extension >> 6) & 7) + M68K_REG_D0;
985
986
286
  reg_0 = (extension >> 28) & 7;
987
286
  reg_1 = (extension >> 12) & 7;
988
989
286
  op2->address_mode = M68K_AM_NONE;
990
286
  op2->type = M68K_OP_REG_PAIR;
991
286
  op2->reg_pair.reg_0 = reg_0 + (BIT_1F(extension) ? 8 : 0) + M68K_REG_D0;
992
286
  op2->reg_pair.reg_1 = reg_1 + (BIT_F(extension) ? 8 : 0) + M68K_REG_D0;
993
286
}
994
995
static void build_chk2_cmp2(m68k_info *info, int size)
996
961
{
997
961
  cs_m68k_op* op0;
998
961
  cs_m68k_op* op1;
999
961
  cs_m68k* ext = build_init_op(info, M68K_INS_CHK2, 2, size);
1000
1001
961
  uint32_t extension = read_imm_16(info);
1002
1003
961
  if (BIT_B(extension))
1004
56
    MCInst_setOpcode(info->inst, M68K_INS_CHK2);
1005
905
  else
1006
905
    MCInst_setOpcode(info->inst, M68K_INS_CMP2);
1007
1008
961
  op0 = &ext->operands[0];
1009
961
  op1 = &ext->operands[1];
1010
1011
961
  get_ea_mode_op(info, op0, info->ir, size);
1012
1013
961
  op1->address_mode = M68K_AM_NONE;
1014
961
  op1->type = M68K_OP_REG;
1015
961
  op1->reg = (BIT_F(extension) ? M68K_REG_A0 : M68K_REG_D0) + ((extension >> 12) & 7);
1016
961
}
1017
1018
static void build_move16(m68k_info *info, int data[2], int modes[2])
1019
1.04k
{
1020
1.04k
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVE16, 2, 0);
1021
1.04k
  int i;
1022
1023
3.12k
  for (i = 0; i < 2; ++i) {
1024
2.08k
    cs_m68k_op* op = &ext->operands[i];
1025
2.08k
    const int d = data[i];
1026
2.08k
    const int m = modes[i];
1027
1028
2.08k
    op->type = M68K_OP_MEM;
1029
1030
2.08k
    if (m == M68K_AM_REGI_ADDR_POST_INC || m == M68K_AM_REG_DIRECT_ADDR) {
1031
1.25k
      op->address_mode = m;
1032
1.25k
      op->reg = M68K_REG_A0 + d;
1033
1.25k
    } else {
1034
827
      op->address_mode = m;
1035
827
      op->imm = d;
1036
827
    }
1037
2.08k
  }
1038
1.04k
}
1039
1040
static void build_link(m68k_info *info, int disp, int size)
1041
120
{
1042
120
  cs_m68k_op* op0;
1043
120
  cs_m68k_op* op1;
1044
120
  cs_m68k* ext = build_init_op(info, M68K_INS_LINK, 2, size);
1045
1046
120
  op0 = &ext->operands[0];
1047
120
  op1 = &ext->operands[1];
1048
1049
120
  op0->address_mode = M68K_AM_NONE;
1050
120
  op0->reg = M68K_REG_A0 + (info->ir & 7);
1051
1052
120
  op1->address_mode = M68K_AM_IMMEDIATE;
1053
120
  op1->type = M68K_OP_IMM;
1054
120
  op1->imm = disp;
1055
120
}
1056
1057
static void build_cpush_cinv(m68k_info *info, int op_offset)
1058
724
{
1059
724
  cs_m68k_op* op0;
1060
724
  cs_m68k_op* op1;
1061
724
  cs_m68k* ext = build_init_op(info, M68K_INS_INVALID, 2, 0);
1062
1063
724
  switch ((info->ir >> 3) & 3) { // scope
1064
    // Invalid
1065
100
    case 0:
1066
100
      d68000_invalid(info);
1067
100
      return;
1068
      // Line
1069
218
    case 1:
1070
218
      MCInst_setOpcode(info->inst, op_offset + 0);
1071
218
      break;
1072
      // Page
1073
225
    case 2:
1074
225
      MCInst_setOpcode(info->inst, op_offset + 1);
1075
225
      break;
1076
      // All
1077
181
    case 3:
1078
181
      ext->op_count = 1;
1079
181
      MCInst_setOpcode(info->inst, op_offset + 2);
1080
181
      break;
1081
724
  }
1082
1083
624
  op0 = &ext->operands[0];
1084
624
  op1 = &ext->operands[1];
1085
1086
624
  op0->address_mode = M68K_AM_IMMEDIATE;
1087
624
  op0->type = M68K_OP_IMM;
1088
624
  op0->imm = (info->ir >> 6) & 3;
1089
1090
624
  op1->type = M68K_OP_MEM;
1091
624
  op1->address_mode = M68K_AM_REG_DIRECT_ADDR;
1092
624
  op1->imm = M68K_REG_A0 + (info->ir & 7);
1093
624
}
1094
1095
static void build_movep_re(m68k_info *info, int size)
1096
391
{
1097
391
  cs_m68k_op* op0;
1098
391
  cs_m68k_op* op1;
1099
391
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVEP, 2, size);
1100
1101
391
  op0 = &ext->operands[0];
1102
391
  op1 = &ext->operands[1];
1103
1104
391
  op0->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
1105
1106
391
  op1->address_mode = M68K_AM_REGI_ADDR_DISP;
1107
391
  op1->type = M68K_OP_MEM;
1108
391
  op1->mem.base_reg = M68K_REG_A0 + (info->ir & 7);
1109
391
  op1->mem.disp = (int16_t)read_imm_16(info);
1110
391
}
1111
1112
static void build_movep_er(m68k_info *info, int size)
1113
949
{
1114
949
  cs_m68k_op* op0;
1115
949
  cs_m68k_op* op1;
1116
949
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVEP, 2, size);
1117
1118
949
  op0 = &ext->operands[0];
1119
949
  op1 = &ext->operands[1];
1120
1121
949
  op0->address_mode = M68K_AM_REGI_ADDR_DISP;
1122
949
  op0->type = M68K_OP_MEM;
1123
949
  op0->mem.base_reg = M68K_REG_A0 + (info->ir & 7);
1124
949
  op0->mem.disp = (int16_t)read_imm_16(info);
1125
1126
949
  op1->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
1127
949
}
1128
1129
static void build_moves(m68k_info *info, int size)
1130
715
{
1131
715
  cs_m68k_op* op0;
1132
715
  cs_m68k_op* op1;
1133
715
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVES, 2, size);
1134
715
  uint32_t extension = read_imm_16(info);
1135
1136
715
  op0 = &ext->operands[0];
1137
715
  op1 = &ext->operands[1];
1138
1139
715
  if (BIT_B(extension)) {
1140
71
    op0->reg = (BIT_F(extension) ? M68K_REG_A0 : M68K_REG_D0) + ((extension >> 12) & 7);
1141
71
    get_ea_mode_op(info, op1, info->ir, size);
1142
644
  } else {
1143
644
    get_ea_mode_op(info, op0, info->ir, size);
1144
644
    op1->reg = (BIT_F(extension) ? M68K_REG_A0 : M68K_REG_D0) + ((extension >> 12) & 7);
1145
644
  }
1146
715
}
1147
1148
static void build_er_1(m68k_info *info, int opcode, uint8_t size)
1149
13.6k
{
1150
13.6k
  build_er_gen_1(info, true, opcode, size);
1151
13.6k
}
1152
1153
/* ======================================================================== */
1154
/* ========================= INSTRUCTION HANDLERS ========================= */
1155
/* ======================================================================== */
1156
/* Instruction handler function names follow this convention:
1157
 *
1158
 * d68000_NAME_EXTENSIONS(void)
1159
 * where NAME is the name of the opcode it handles and EXTENSIONS are any
1160
 * extensions for special instances of that opcode.
1161
 *
1162
 * Examples:
1163
 *   d68000_add_er_8(): add opcode, from effective address to register,
1164
 *                      size = byte
1165
 *
1166
 *   d68000_asr_s_8(): arithmetic shift right, static count, size = byte
1167
 *
1168
 *
1169
 * Common extensions:
1170
 * 8   : size = byte
1171
 * 16  : size = word
1172
 * 32  : size = long
1173
 * rr  : register to register
1174
 * mm  : memory to memory
1175
 * r   : register
1176
 * s   : static
1177
 * er  : effective address -> register
1178
 * re  : register -> effective address
1179
 * ea  : using effective address mode of operation
1180
 * d   : data register direct
1181
 * a   : address register direct
1182
 * ai  : address register indirect
1183
 * pi  : address register indirect with postincrement
1184
 * pd  : address register indirect with predecrement
1185
 * di  : address register indirect with displacement
1186
 * ix  : address register indirect with index
1187
 * aw  : absolute word
1188
 * al  : absolute long
1189
 */
1190
1191
1192
static void d68000_invalid(m68k_info *info)
1193
12.3k
{
1194
12.3k
  build_invalid(info, info->ir);
1195
12.3k
}
1196
1197
static void d68000_illegal(m68k_info *info)
1198
133
{
1199
133
  build_illegal(info, info->ir);
1200
133
}
1201
1202
static void d68000_1010(m68k_info *info)
1203
4.62k
{
1204
4.62k
  build_invalid(info, info->ir);
1205
4.62k
}
1206
1207
static void d68000_1111(m68k_info *info)
1208
6.40k
{
1209
6.40k
  build_invalid(info, info->ir);
1210
6.40k
}
1211
1212
static void d68000_abcd_rr(m68k_info *info)
1213
241
{
1214
241
  build_rr(info, M68K_INS_ABCD, 1, 0);
1215
241
}
1216
1217
static void d68000_abcd_mm(m68k_info *info)
1218
251
{
1219
251
  build_mm(info, M68K_INS_ABCD, 1, 0);
1220
251
}
1221
1222
static void d68000_add_er_8(m68k_info *info)
1223
289
{
1224
289
  build_er_1(info, M68K_INS_ADD, 1);
1225
289
}
1226
1227
static void d68000_add_er_16(m68k_info *info)
1228
324
{
1229
324
  build_er_1(info, M68K_INS_ADD, 2);
1230
324
}
1231
1232
static void d68000_add_er_32(m68k_info *info)
1233
276
{
1234
276
  build_er_1(info, M68K_INS_ADD, 4);
1235
276
}
1236
1237
static void d68000_add_re_8(m68k_info *info)
1238
126
{
1239
126
  build_re_1(info, M68K_INS_ADD, 1);
1240
126
}
1241
1242
static void d68000_add_re_16(m68k_info *info)
1243
407
{
1244
407
  build_re_1(info, M68K_INS_ADD, 2);
1245
407
}
1246
1247
static void d68000_add_re_32(m68k_info *info)
1248
337
{
1249
337
  build_re_1(info, M68K_INS_ADD, 4);
1250
337
}
1251
1252
static void d68000_adda_16(m68k_info *info)
1253
759
{
1254
759
  build_ea_a(info, M68K_INS_ADDA, 2);
1255
759
}
1256
1257
static void d68000_adda_32(m68k_info *info)
1258
1.59k
{
1259
1.59k
  build_ea_a(info, M68K_INS_ADDA, 4);
1260
1.59k
}
1261
1262
static void d68000_addi_8(m68k_info *info)
1263
124
{
1264
124
  build_imm_ea(info, M68K_INS_ADDI, 1, read_imm_8(info));
1265
124
}
1266
1267
static void d68000_addi_16(m68k_info *info)
1268
296
{
1269
296
  build_imm_ea(info, M68K_INS_ADDI, 2, read_imm_16(info));
1270
296
}
1271
1272
static void d68000_addi_32(m68k_info *info)
1273
31
{
1274
31
  build_imm_ea(info, M68K_INS_ADDI, 4, read_imm_32(info));
1275
31
}
1276
1277
static void d68000_addq_8(m68k_info *info)
1278
881
{
1279
881
  build_3bit_ea(info, M68K_INS_ADDQ, 1);
1280
881
}
1281
1282
static void d68000_addq_16(m68k_info *info)
1283
2.24k
{
1284
2.24k
  build_3bit_ea(info, M68K_INS_ADDQ, 2);
1285
2.24k
}
1286
1287
static void d68000_addq_32(m68k_info *info)
1288
481
{
1289
481
  build_3bit_ea(info, M68K_INS_ADDQ, 4);
1290
481
}
1291
1292
static void d68000_addx_rr_8(m68k_info *info)
1293
468
{
1294
468
  build_rr(info, M68K_INS_ADDX, 1, 0);
1295
468
}
1296
1297
static void d68000_addx_rr_16(m68k_info *info)
1298
87
{
1299
87
  build_rr(info, M68K_INS_ADDX, 2, 0);
1300
87
}
1301
1302
static void d68000_addx_rr_32(m68k_info *info)
1303
430
{
1304
430
  build_rr(info, M68K_INS_ADDX, 4, 0);
1305
430
}
1306
1307
static void d68000_addx_mm_8(m68k_info *info)
1308
188
{
1309
188
  build_mm(info, M68K_INS_ADDX, 1, 0);
1310
188
}
1311
1312
static void d68000_addx_mm_16(m68k_info *info)
1313
316
{
1314
316
  build_mm(info, M68K_INS_ADDX, 2, 0);
1315
316
}
1316
1317
static void d68000_addx_mm_32(m68k_info *info)
1318
84
{
1319
84
  build_mm(info, M68K_INS_ADDX, 4, 0);
1320
84
}
1321
1322
static void d68000_and_er_8(m68k_info *info)
1323
388
{
1324
388
  build_er_1(info, M68K_INS_AND, 1);
1325
388
}
1326
1327
static void d68000_and_er_16(m68k_info *info)
1328
319
{
1329
319
  build_er_1(info, M68K_INS_AND, 2);
1330
319
}
1331
1332
static void d68000_and_er_32(m68k_info *info)
1333
593
{
1334
593
  build_er_1(info, M68K_INS_AND, 4);
1335
593
}
1336
1337
static void d68000_and_re_8(m68k_info *info)
1338
159
{
1339
159
  build_re_1(info, M68K_INS_AND, 1);
1340
159
}
1341
1342
static void d68000_and_re_16(m68k_info *info)
1343
258
{
1344
258
  build_re_1(info, M68K_INS_AND, 2);
1345
258
}
1346
1347
static void d68000_and_re_32(m68k_info *info)
1348
320
{
1349
320
  build_re_1(info, M68K_INS_AND, 4);
1350
320
}
1351
1352
static void d68000_andi_8(m68k_info *info)
1353
501
{
1354
501
  build_imm_ea(info, M68K_INS_ANDI, 1, read_imm_8(info));
1355
501
}
1356
1357
static void d68000_andi_16(m68k_info *info)
1358
230
{
1359
230
  build_imm_ea(info, M68K_INS_ANDI, 2, read_imm_16(info));
1360
230
}
1361
1362
static void d68000_andi_32(m68k_info *info)
1363
104
{
1364
104
  build_imm_ea(info, M68K_INS_ANDI, 4, read_imm_32(info));
1365
104
}
1366
1367
static void d68000_andi_to_ccr(m68k_info *info)
1368
51
{
1369
51
  build_imm_special_reg(info, M68K_INS_ANDI, read_imm_8(info), 1, M68K_REG_CCR);
1370
51
}
1371
1372
static void d68000_andi_to_sr(m68k_info *info)
1373
176
{
1374
176
  build_imm_special_reg(info, M68K_INS_ANDI, read_imm_16(info), 2, M68K_REG_SR);
1375
176
}
1376
1377
static void d68000_asr_s_8(m68k_info *info)
1378
338
{
1379
338
  build_3bit_d(info, M68K_INS_ASR, 1);
1380
338
}
1381
1382
static void d68000_asr_s_16(m68k_info *info)
1383
103
{
1384
103
  build_3bit_d(info, M68K_INS_ASR, 2);
1385
103
}
1386
1387
static void d68000_asr_s_32(m68k_info *info)
1388
534
{
1389
534
  build_3bit_d(info, M68K_INS_ASR, 4);
1390
534
}
1391
1392
static void d68000_asr_r_8(m68k_info *info)
1393
191
{
1394
191
  build_r(info, M68K_INS_ASR, 1);
1395
191
}
1396
1397
static void d68000_asr_r_16(m68k_info *info)
1398
257
{
1399
257
  build_r(info, M68K_INS_ASR, 2);
1400
257
}
1401
1402
static void d68000_asr_r_32(m68k_info *info)
1403
367
{
1404
367
  build_r(info, M68K_INS_ASR, 4);
1405
367
}
1406
1407
static void d68000_asr_ea(m68k_info *info)
1408
420
{
1409
420
  build_ea(info, M68K_INS_ASR, 2);
1410
420
}
1411
1412
static void d68000_asl_s_8(m68k_info *info)
1413
381
{
1414
381
  build_3bit_d(info, M68K_INS_ASL, 1);
1415
381
}
1416
1417
static void d68000_asl_s_16(m68k_info *info)
1418
409
{
1419
409
  build_3bit_d(info, M68K_INS_ASL, 2);
1420
409
}
1421
1422
static void d68000_asl_s_32(m68k_info *info)
1423
181
{
1424
181
  build_3bit_d(info, M68K_INS_ASL, 4);
1425
181
}
1426
1427
static void d68000_asl_r_8(m68k_info *info)
1428
178
{
1429
178
  build_r(info, M68K_INS_ASL, 1);
1430
178
}
1431
1432
static void d68000_asl_r_16(m68k_info *info)
1433
223
{
1434
223
  build_r(info, M68K_INS_ASL, 2);
1435
223
}
1436
1437
static void d68000_asl_r_32(m68k_info *info)
1438
84
{
1439
84
  build_r(info, M68K_INS_ASL, 4);
1440
84
}
1441
1442
static void d68000_asl_ea(m68k_info *info)
1443
682
{
1444
682
  build_ea(info, M68K_INS_ASL, 2);
1445
682
}
1446
1447
static void d68000_bcc_8(m68k_info *info)
1448
7.89k
{
1449
7.89k
  build_bcc(info, 1, make_int_8(info->ir));
1450
7.89k
}
1451
1452
static void d68000_bcc_16(m68k_info *info)
1453
950
{
1454
950
  build_bcc(info, 2, make_int_16(read_imm_16(info)));
1455
950
}
1456
1457
static void d68020_bcc_32(m68k_info *info)
1458
223
{
1459
223
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1460
114
  build_bcc(info, 4, read_imm_32(info));
1461
114
}
1462
1463
static void d68000_bchg_r(m68k_info *info)
1464
2.00k
{
1465
2.00k
  build_re_1(info, M68K_INS_BCHG, 1);
1466
2.00k
}
1467
1468
static void d68000_bchg_s(m68k_info *info)
1469
152
{
1470
152
  build_imm_ea(info, M68K_INS_BCHG, 1, read_imm_8(info));
1471
152
}
1472
1473
static void d68000_bclr_r(m68k_info *info)
1474
632
{
1475
632
  build_re_1(info, M68K_INS_BCLR, 1);
1476
632
}
1477
1478
static void d68000_bclr_s(m68k_info *info)
1479
42
{
1480
42
  build_imm_ea(info, M68K_INS_BCLR, 1, read_imm_8(info));
1481
42
}
1482
1483
static void d68010_bkpt(m68k_info *info)
1484
201
{
1485
201
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1486
92
  build_absolute_jump_with_immediate(info, M68K_INS_BKPT, 0, info->ir & 7);
1487
92
}
1488
1489
static void d68020_bfchg(m68k_info *info)
1490
310
{
1491
310
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1492
178
  build_bitfield_ins(info, M68K_INS_BFCHG, false);
1493
178
}
1494
1495
1496
static void d68020_bfclr(m68k_info *info)
1497
446
{
1498
446
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1499
166
  build_bitfield_ins(info, M68K_INS_BFCLR, false);
1500
166
}
1501
1502
static void d68020_bfexts(m68k_info *info)
1503
468
{
1504
468
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1505
369
  build_bitfield_ins(info, M68K_INS_BFEXTS, true);
1506
369
}
1507
1508
static void d68020_bfextu(m68k_info *info)
1509
365
{
1510
365
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1511
323
  build_bitfield_ins(info, M68K_INS_BFEXTU, true);
1512
323
}
1513
1514
static void d68020_bfffo(m68k_info *info)
1515
153
{
1516
153
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1517
75
  build_bitfield_ins(info, M68K_INS_BFFFO, true);
1518
75
}
1519
1520
static void d68020_bfins(m68k_info *info)
1521
328
{
1522
328
  cs_m68k* ext = &info->extension;
1523
328
  cs_m68k_op temp;
1524
1525
328
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1526
174
  build_bitfield_ins(info, M68K_INS_BFINS, true);
1527
1528
  // a bit hacky but we need to flip the args on only this instruction
1529
1530
174
  temp = ext->operands[0];
1531
174
  ext->operands[0] = ext->operands[1];
1532
174
  ext->operands[1] = temp;
1533
174
}
1534
1535
static void d68020_bfset(m68k_info *info)
1536
331
{
1537
331
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1538
81
  build_bitfield_ins(info, M68K_INS_BFSET, false);
1539
81
}
1540
1541
static void d68020_bftst(m68k_info *info)
1542
232
{
1543
232
  build_bitfield_ins(info, M68K_INS_BFTST, false);
1544
232
}
1545
1546
static void d68000_bra_8(m68k_info *info)
1547
2.23k
{
1548
2.23k
  build_relative_branch(info, M68K_INS_BRA, 1, make_int_8(info->ir));
1549
2.23k
}
1550
1551
static void d68000_bra_16(m68k_info *info)
1552
123
{
1553
123
  build_relative_branch(info, M68K_INS_BRA, 2, make_int_16(read_imm_16(info)));
1554
123
}
1555
1556
static void d68020_bra_32(m68k_info *info)
1557
250
{
1558
250
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1559
203
  build_relative_branch(info, M68K_INS_BRA, 4, read_imm_32(info));
1560
203
}
1561
1562
static void d68000_bset_r(m68k_info *info)
1563
1.96k
{
1564
1.96k
  build_re_1(info, M68K_INS_BSET, 1);
1565
1.96k
}
1566
1567
static void d68000_bset_s(m68k_info *info)
1568
309
{
1569
309
  build_imm_ea(info, M68K_INS_BSET, 1, read_imm_8(info));
1570
309
}
1571
1572
static void d68000_bsr_8(m68k_info *info)
1573
1.16k
{
1574
1.16k
  build_relative_branch(info, M68K_INS_BSR, 1, make_int_8(info->ir));
1575
1.16k
}
1576
1577
static void d68000_bsr_16(m68k_info *info)
1578
644
{
1579
644
  build_relative_branch(info, M68K_INS_BSR, 2, make_int_16(read_imm_16(info)));
1580
644
}
1581
1582
static void d68020_bsr_32(m68k_info *info)
1583
305
{
1584
305
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1585
49
  build_relative_branch(info, M68K_INS_BSR, 4, read_imm_32(info));
1586
49
}
1587
1588
static void d68000_btst_r(m68k_info *info)
1589
2.51k
{
1590
2.51k
  build_re_1(info, M68K_INS_BTST, 4);
1591
2.51k
}
1592
1593
static void d68000_btst_s(m68k_info *info)
1594
95
{
1595
95
  build_imm_ea(info, M68K_INS_BTST, 1, read_imm_8(info));
1596
95
}
1597
1598
static void d68020_callm(m68k_info *info)
1599
154
{
1600
154
  LIMIT_CPU_TYPES(info, M68020_ONLY);
1601
0
  build_imm_ea(info, M68K_INS_CALLM, 0, read_imm_8(info));
1602
0
}
1603
1604
static void d68020_cas_8(m68k_info *info)
1605
196
{
1606
196
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1607
93
  build_d_d_ea(info, M68K_INS_CAS, 1);
1608
93
}
1609
1610
static void d68020_cas_16(m68k_info *info)
1611
290
{
1612
290
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1613
24
  build_d_d_ea(info, M68K_INS_CAS, 2);
1614
24
}
1615
1616
static void d68020_cas_32(m68k_info *info)
1617
83
{
1618
83
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1619
30
  build_d_d_ea(info, M68K_INS_CAS, 4);
1620
30
}
1621
1622
static void d68020_cas2_16(m68k_info *info)
1623
62
{
1624
62
  build_cas2(info, 2);
1625
62
}
1626
1627
static void d68020_cas2_32(m68k_info *info)
1628
513
{
1629
513
  build_cas2(info, 4);
1630
513
}
1631
1632
static void d68000_chk_16(m68k_info *info)
1633
211
{
1634
211
  build_er_1(info, M68K_INS_CHK, 2);
1635
211
}
1636
1637
static void d68020_chk_32(m68k_info *info)
1638
671
{
1639
671
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1640
349
  build_er_1(info, M68K_INS_CHK, 4);
1641
349
}
1642
1643
static void d68020_chk2_cmp2_8(m68k_info *info)
1644
615
{
1645
615
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1646
531
  build_chk2_cmp2(info, 1);
1647
531
}
1648
1649
static void d68020_chk2_cmp2_16(m68k_info *info)
1650
144
{
1651
144
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1652
108
  build_chk2_cmp2(info, 2);
1653
108
}
1654
1655
static void d68020_chk2_cmp2_32(m68k_info *info)
1656
424
{
1657
424
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1658
322
  build_chk2_cmp2(info, 4);
1659
322
}
1660
1661
static void d68040_cinv(m68k_info *info)
1662
307
{
1663
307
  LIMIT_CPU_TYPES(info, M68040_PLUS);
1664
163
  build_cpush_cinv(info, M68K_INS_CINVL);
1665
163
}
1666
1667
static void d68000_clr_8(m68k_info *info)
1668
134
{
1669
134
  build_ea(info, M68K_INS_CLR, 1);
1670
134
}
1671
1672
static void d68000_clr_16(m68k_info *info)
1673
746
{
1674
746
  build_ea(info, M68K_INS_CLR, 2);
1675
746
}
1676
1677
static void d68000_clr_32(m68k_info *info)
1678
237
{
1679
237
  build_ea(info, M68K_INS_CLR, 4);
1680
237
}
1681
1682
static void d68000_cmp_8(m68k_info *info)
1683
347
{
1684
347
  build_er_1(info, M68K_INS_CMP, 1);
1685
347
}
1686
1687
static void d68000_cmp_16(m68k_info *info)
1688
828
{
1689
828
  build_er_1(info, M68K_INS_CMP, 2);
1690
828
}
1691
1692
static void d68000_cmp_32(m68k_info *info)
1693
721
{
1694
721
  build_er_1(info, M68K_INS_CMP, 4);
1695
721
}
1696
1697
static void d68000_cmpa_16(m68k_info *info)
1698
626
{
1699
626
  build_ea_a(info, M68K_INS_CMPA, 2);
1700
626
}
1701
1702
static void d68000_cmpa_32(m68k_info *info)
1703
220
{
1704
220
  build_ea_a(info, M68K_INS_CMPA, 4);
1705
220
}
1706
1707
static void d68000_cmpi_8(m68k_info *info)
1708
348
{
1709
348
  build_imm_ea(info, M68K_INS_CMPI, 1, read_imm_8(info));
1710
348
}
1711
1712
static void d68020_cmpi_pcdi_8(m68k_info *info)
1713
56
{
1714
56
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1715
44
  build_imm_ea(info, M68K_INS_CMPI, 1, read_imm_8(info));
1716
44
}
1717
1718
static void d68020_cmpi_pcix_8(m68k_info *info)
1719
92
{
1720
92
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1721
41
  build_imm_ea(info, M68K_INS_CMPI, 1, read_imm_8(info));
1722
41
}
1723
1724
static void d68000_cmpi_16(m68k_info *info)
1725
291
{
1726
291
  build_imm_ea(info, M68K_INS_CMPI, 2, read_imm_16(info));
1727
291
}
1728
1729
static void d68020_cmpi_pcdi_16(m68k_info *info)
1730
443
{
1731
443
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1732
364
  build_imm_ea(info, M68K_INS_CMPI, 2, read_imm_16(info));
1733
364
}
1734
1735
static void d68020_cmpi_pcix_16(m68k_info *info)
1736
240
{
1737
240
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1738
76
  build_imm_ea(info, M68K_INS_CMPI, 2, read_imm_16(info));
1739
76
}
1740
1741
static void d68000_cmpi_32(m68k_info *info)
1742
152
{
1743
152
  build_imm_ea(info, M68K_INS_CMPI, 4, read_imm_32(info));
1744
152
}
1745
1746
static void d68020_cmpi_pcdi_32(m68k_info *info)
1747
283
{
1748
283
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1749
125
  build_imm_ea(info, M68K_INS_CMPI, 4, read_imm_32(info));
1750
125
}
1751
1752
static void d68020_cmpi_pcix_32(m68k_info *info)
1753
359
{
1754
359
  LIMIT_CPU_TYPES(info, M68010_PLUS);
1755
154
  build_imm_ea(info, M68K_INS_CMPI, 4, read_imm_32(info));
1756
154
}
1757
1758
static void d68000_cmpm_8(m68k_info *info)
1759
184
{
1760
184
  build_pi_pi(info, M68K_INS_CMPM, 1);
1761
184
}
1762
1763
static void d68000_cmpm_16(m68k_info *info)
1764
1.00k
{
1765
1.00k
  build_pi_pi(info, M68K_INS_CMPM, 2);
1766
1.00k
}
1767
1768
static void d68000_cmpm_32(m68k_info *info)
1769
482
{
1770
482
  build_pi_pi(info, M68K_INS_CMPM, 4);
1771
482
}
1772
1773
static void make_cpbcc_operand(cs_m68k_op* op, int size, int displacement)
1774
2.86k
{
1775
2.86k
  op->address_mode = M68K_AM_BRANCH_DISPLACEMENT;
1776
2.86k
  op->type = M68K_OP_BR_DISP;
1777
2.86k
  op->br_disp.disp = displacement;
1778
2.86k
  op->br_disp.disp_size = size;
1779
2.86k
}
1780
1781
static void d68020_cpbcc_16(m68k_info *info)
1782
2.51k
{
1783
2.51k
  cs_m68k_op* op0;
1784
2.51k
  cs_m68k* ext;
1785
2.51k
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1786
1787
  // FNOP is a special case of FBF
1788
2.15k
  if (info->ir == 0xf280 && peek_imm_16(info) == 0) {
1789
448
    MCInst_setOpcode(info->inst, M68K_INS_FNOP);
1790
448
    info->pc += 2;
1791
448
    return;
1792
448
  }
1793
1794
  // these are all in row with the extension so just doing a add here is fine
1795
1.70k
  info->inst->Opcode += (info->ir & 0x2f);
1796
1797
1.70k
  ext = build_init_op(info, M68K_INS_FBF, 1, 2);
1798
1.70k
  op0 = &ext->operands[0];
1799
1800
1.70k
  make_cpbcc_operand(op0, M68K_OP_BR_DISP_SIZE_WORD, make_int_16(read_imm_16(info)));
1801
1802
1.70k
  set_insn_group(info, M68K_GRP_JUMP);
1803
1.70k
  set_insn_group(info, M68K_GRP_BRANCH_RELATIVE);
1804
1.70k
}
1805
1806
static void d68020_cpbcc_32(m68k_info *info)
1807
1.60k
{
1808
1.60k
  cs_m68k* ext;
1809
1.60k
  cs_m68k_op* op0;
1810
1811
1.60k
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1812
1813
  // these are all in row with the extension so just doing a add here is fine
1814
952
  info->inst->Opcode += (info->ir & 0x2f);
1815
1816
952
  ext = build_init_op(info, M68K_INS_FBF, 1, 4);
1817
952
  op0 = &ext->operands[0];
1818
1819
952
  make_cpbcc_operand(op0, M68K_OP_BR_DISP_SIZE_LONG, read_imm_32(info));
1820
1821
952
  set_insn_group(info, M68K_GRP_JUMP);
1822
952
  set_insn_group(info, M68K_GRP_BRANCH_RELATIVE);
1823
952
}
1824
1825
static void d68020_cpdbcc(m68k_info *info)
1826
268
{
1827
268
  cs_m68k* ext;
1828
268
  cs_m68k_op* op0;
1829
268
  cs_m68k_op* op1;
1830
268
  uint32_t ext1, ext2;
1831
1832
268
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1833
1834
208
  ext1 = read_imm_16(info);
1835
208
  ext2 = read_imm_16(info);
1836
1837
  // these are all in row with the extension so just doing a add here is fine
1838
208
  info->inst->Opcode += (ext1 & 0x2f);
1839
1840
208
  ext = build_init_op(info, M68K_INS_FDBF, 2, 0);
1841
208
  op0 = &ext->operands[0];
1842
208
  op1 = &ext->operands[1];
1843
1844
208
  op0->reg = M68K_REG_D0 + (info->ir & 7);
1845
1846
208
  make_cpbcc_operand(op1, M68K_OP_BR_DISP_SIZE_WORD, make_int_16(ext2) + 2);
1847
1848
208
  set_insn_group(info, M68K_GRP_JUMP);
1849
208
  set_insn_group(info, M68K_GRP_BRANCH_RELATIVE);
1850
208
}
1851
1852
static void fmove_fpcr(m68k_info *info, uint32_t extension)
1853
714
{
1854
714
  cs_m68k_op* special;
1855
714
  cs_m68k_op* op_ea;
1856
1857
714
  int regsel = (extension >> 10) & 0x7;
1858
714
  int dir = (extension >> 13) & 0x1;
1859
1860
714
  cs_m68k* ext = build_init_op(info, M68K_INS_FMOVE, 2, 4);
1861
1862
714
  special = &ext->operands[0];
1863
714
  op_ea = &ext->operands[1];
1864
1865
714
  if (!dir) {
1866
522
    cs_m68k_op* t = special;
1867
522
    special = op_ea;
1868
522
    op_ea = t;
1869
522
  }
1870
1871
714
  get_ea_mode_op(info, op_ea, info->ir, 4);
1872
1873
714
  if (regsel & 4)
1874
252
    special->reg = M68K_REG_FPCR;
1875
462
  else if (regsel & 2)
1876
244
    special->reg = M68K_REG_FPSR;
1877
218
  else if (regsel & 1)
1878
80
    special->reg = M68K_REG_FPIAR;
1879
714
}
1880
1881
static void fmovem(m68k_info *info, uint32_t extension)
1882
1.58k
{
1883
1.58k
  cs_m68k_op* op_reglist;
1884
1.58k
  cs_m68k_op* op_ea;
1885
1.58k
  int dir = (extension >> 13) & 0x1;
1886
1.58k
  int mode = (extension >> 11) & 0x3;
1887
1.58k
  uint32_t reglist = extension & 0xff;
1888
1.58k
  cs_m68k* ext = build_init_op(info, M68K_INS_FMOVEM, 2, 0);
1889
1890
1.58k
  op_reglist = &ext->operands[0];
1891
1.58k
  op_ea = &ext->operands[1];
1892
1893
  // flip args around
1894
1895
1.58k
  if (!dir) {
1896
482
    cs_m68k_op* t = op_reglist;
1897
482
    op_reglist = op_ea;
1898
482
    op_ea = t;
1899
482
  }
1900
1901
1.58k
  get_ea_mode_op(info, op_ea, info->ir, 0);
1902
1903
1.58k
  switch (mode) {
1904
195
    case 1 : // Dynamic list in dn register
1905
195
      op_reglist->reg = M68K_REG_D0 + ((reglist >> 4) & 7);
1906
195
      break;
1907
1908
624
    case 0 :
1909
624
      op_reglist->address_mode = M68K_AM_NONE;
1910
624
      op_reglist->type = M68K_OP_REG_BITS;
1911
624
      op_reglist->register_bits = reglist << 16;
1912
624
      break;
1913
1914
554
    case 2 : // Static list
1915
554
      op_reglist->address_mode = M68K_AM_NONE;
1916
554
      op_reglist->type = M68K_OP_REG_BITS;
1917
554
      op_reglist->register_bits = ((uint32_t)reverse_bits_8(reglist)) << 16;
1918
554
      break;
1919
1.58k
  }
1920
1.58k
}
1921
1922
static void d68020_cpgen(m68k_info *info)
1923
12.6k
{
1924
12.6k
  cs_m68k *ext;
1925
12.6k
  cs_m68k_op* op0;
1926
12.6k
  cs_m68k_op* op1;
1927
12.6k
  bool supports_single_op;
1928
12.6k
  uint32_t next;
1929
12.6k
  int rm, src, dst, opmode;
1930
1931
1932
12.6k
  LIMIT_CPU_TYPES(info, M68020_PLUS);
1933
1934
12.1k
  supports_single_op = true;
1935
1936
12.1k
  next = read_imm_16(info);
1937
1938
12.1k
  rm = (next >> 14) & 0x1;
1939
12.1k
  src = (next >> 10) & 0x7;
1940
12.1k
  dst = (next >> 7) & 0x7;
1941
12.1k
  opmode = next & 0x3f;
1942
1943
  // special handling for fmovecr
1944
1945
12.1k
  if (BITFIELD(info->ir, 5, 0) == 0 && BITFIELD(next, 15, 10) == 0x17) {
1946
42
    cs_m68k_op* op0;
1947
42
    cs_m68k_op* op1;
1948
42
    cs_m68k* ext = build_init_op(info, M68K_INS_FMOVECR, 2, 0);
1949
1950
42
    op0 = &ext->operands[0];
1951
42
    op1 = &ext->operands[1];
1952
1953
42
    op0->address_mode = M68K_AM_IMMEDIATE;
1954
42
    op0->type = M68K_OP_IMM;
1955
42
    op0->imm = next & 0x3f;
1956
1957
42
    op1->reg = M68K_REG_FP0 + ((next >> 7) & 7);
1958
1959
42
    return;
1960
42
  }
1961
1962
  // deal with extended move stuff
1963
1964
12.0k
  switch ((next >> 13) & 0x7) {
1965
    // fmovem fpcr
1966
522
    case 0x4: // FMOVEM ea, FPCR
1967
714
    case 0x5: // FMOVEM FPCR, ea
1968
714
      fmove_fpcr(info, next);
1969
714
      return;
1970
1971
    // fmovem list
1972
482
    case 0x6:
1973
1.58k
    case 0x7:
1974
1.58k
      fmovem(info, next);
1975
1.58k
      return;
1976
12.0k
  }
1977
1978
  // See comment bellow on why this is being done
1979
1980
9.76k
  if ((next >> 6) & 1)
1981
5.07k
    opmode &= ~4;
1982
1983
  // special handling of some instructions here
1984
1985
9.76k
  switch (opmode) {
1986
334
    case 0x00: MCInst_setOpcode(info->inst, M68K_INS_FMOVE); supports_single_op = false; break;
1987
136
    case 0x01: MCInst_setOpcode(info->inst, M68K_INS_FINT); break;
1988
251
    case 0x02: MCInst_setOpcode(info->inst, M68K_INS_FSINH); break;
1989
60
    case 0x03: MCInst_setOpcode(info->inst, M68K_INS_FINTRZ); break;
1990
69
    case 0x04: MCInst_setOpcode(info->inst, M68K_INS_FSQRT); break;
1991
110
    case 0x06: MCInst_setOpcode(info->inst, M68K_INS_FLOGNP1); break;
1992
206
    case 0x08: MCInst_setOpcode(info->inst, M68K_INS_FETOXM1); break;
1993
818
    case 0x09: MCInst_setOpcode(info->inst, M68K_INS_FATANH); break;
1994
178
    case 0x0a: MCInst_setOpcode(info->inst, M68K_INS_FATAN); break;
1995
224
    case 0x0c: MCInst_setOpcode(info->inst, M68K_INS_FASIN); break;
1996
13
    case 0x0d: MCInst_setOpcode(info->inst, M68K_INS_FATANH); break;
1997
237
    case 0x0e: MCInst_setOpcode(info->inst, M68K_INS_FSIN); break;
1998
245
    case 0x0f: MCInst_setOpcode(info->inst, M68K_INS_FTAN); break;
1999
193
    case 0x10: MCInst_setOpcode(info->inst, M68K_INS_FETOX); break;
2000
46
    case 0x11: MCInst_setOpcode(info->inst, M68K_INS_FTWOTOX); break;
2001
28
    case 0x12: MCInst_setOpcode(info->inst, M68K_INS_FTENTOX); break;
2002
210
    case 0x14: MCInst_setOpcode(info->inst, M68K_INS_FLOGN); break;
2003
36
    case 0x15: MCInst_setOpcode(info->inst, M68K_INS_FLOG10); break;
2004
213
    case 0x16: MCInst_setOpcode(info->inst, M68K_INS_FLOG2); break;
2005
217
    case 0x18: MCInst_setOpcode(info->inst, M68K_INS_FABS); break;
2006
508
    case 0x19: MCInst_setOpcode(info->inst, M68K_INS_FCOSH); break;
2007
353
    case 0x1a: MCInst_setOpcode(info->inst, M68K_INS_FNEG); break;
2008
131
    case 0x1c: MCInst_setOpcode(info->inst, M68K_INS_FACOS); break;
2009
113
    case 0x1d: MCInst_setOpcode(info->inst, M68K_INS_FCOS); break;
2010
70
    case 0x1e: MCInst_setOpcode(info->inst, M68K_INS_FGETEXP); break;
2011
35
    case 0x1f: MCInst_setOpcode(info->inst, M68K_INS_FGETMAN); break;
2012
403
    case 0x20: MCInst_setOpcode(info->inst, M68K_INS_FDIV); supports_single_op = false; break;
2013
76
    case 0x21: MCInst_setOpcode(info->inst, M68K_INS_FMOD); supports_single_op = false; break;
2014
609
    case 0x22: MCInst_setOpcode(info->inst, M68K_INS_FADD); supports_single_op = false; break;
2015
550
    case 0x23: MCInst_setOpcode(info->inst, M68K_INS_FMUL); supports_single_op = false; break;
2016
437
    case 0x24: MCInst_setOpcode(info->inst, M68K_INS_FSGLDIV); supports_single_op = false; break;
2017
243
    case 0x25: MCInst_setOpcode(info->inst, M68K_INS_FREM); break;
2018
80
    case 0x26: MCInst_setOpcode(info->inst, M68K_INS_FSCALE); break;
2019
53
    case 0x27: MCInst_setOpcode(info->inst, M68K_INS_FSGLMUL); break;
2020
20
    case 0x28: MCInst_setOpcode(info->inst, M68K_INS_FSUB); supports_single_op = false; break;
2021
479
    case 0x38: MCInst_setOpcode(info->inst, M68K_INS_FCMP); supports_single_op = false; break;
2022
1.21k
    case 0x3a: MCInst_setOpcode(info->inst, M68K_INS_FTST); break;
2023
561
    default:
2024
561
      break;
2025
9.76k
  }
2026
2027
  // Some trickery here! It's not documented but if bit 6 is set this is a s/d opcode and then
2028
  // if bit 2 is set it's a d. As we already have set our opcode in the code above we can just
2029
  // offset it as the following 2 op codes (if s/d is supported) will always be directly after it
2030
2031
9.76k
  if ((next >> 6) & 1) {
2032
5.07k
    if ((next >> 2) & 1)
2033
928
      info->inst->Opcode += 2;
2034
4.15k
    else
2035
4.15k
      info->inst->Opcode += 1;
2036
5.07k
  }
2037
2038
9.76k
  ext = &info->extension;
2039
2040
9.76k
  ext->op_count = 2;
2041
9.76k
  ext->op_size.type = M68K_SIZE_TYPE_CPU;
2042
9.76k
  ext->op_size.cpu_size = 0;
2043
2044
  // Special case - adjust direction of fmove
2045
9.76k
  if ((opmode == 0x00) && ((next >> 13) & 0x1) != 0) {
2046
114
    op0 = &ext->operands[1];
2047
114
    op1 = &ext->operands[0];
2048
9.64k
  } else {
2049
9.64k
    op0 = &ext->operands[0];
2050
9.64k
    op1 = &ext->operands[1];
2051
9.64k
  }
2052
2053
9.76k
  if (rm == 0 && supports_single_op && src == dst) {
2054
413
    ext->op_count = 1;
2055
413
    op0->reg = M68K_REG_FP0 + dst;
2056
413
    return;
2057
413
  }
2058
2059
9.35k
  if (rm == 1) {
2060
5.36k
    switch (src) {
2061
711
      case 0x00 :
2062
711
        ext->op_size.cpu_size = M68K_CPU_SIZE_LONG;
2063
711
        get_ea_mode_op(info, op0, info->ir, 4);
2064
711
        break;
2065
2066
406
      case 0x06 :
2067
406
        ext->op_size.cpu_size = M68K_CPU_SIZE_BYTE;
2068
406
        get_ea_mode_op(info, op0, info->ir, 1);
2069
406
        break;
2070
2071
719
      case 0x04 :
2072
719
        ext->op_size.cpu_size = M68K_CPU_SIZE_WORD;
2073
719
        get_ea_mode_op(info, op0, info->ir, 2);
2074
719
        break;
2075
2076
1.36k
      case 0x01 :
2077
1.36k
        ext->op_size.type = M68K_SIZE_TYPE_FPU;
2078
1.36k
        ext->op_size.fpu_size = M68K_FPU_SIZE_SINGLE;
2079
1.36k
        get_ea_mode_op(info, op0, info->ir, 4);
2080
1.36k
        op0->type = M68K_OP_FP_SINGLE;
2081
1.36k
        break;
2082
2083
1.82k
      case 0x05:
2084
1.82k
        ext->op_size.type = M68K_SIZE_TYPE_FPU;
2085
1.82k
        ext->op_size.fpu_size = M68K_FPU_SIZE_DOUBLE;
2086
1.82k
        get_ea_mode_op(info, op0, info->ir, 8);
2087
1.82k
        op0->type = M68K_OP_FP_DOUBLE;
2088
1.82k
        break;
2089
2090
350
      default :
2091
350
        ext->op_size.type = M68K_SIZE_TYPE_FPU;
2092
350
        ext->op_size.fpu_size = M68K_FPU_SIZE_EXTENDED;
2093
350
        break;
2094
5.36k
    }
2095
5.36k
  } else {
2096
3.98k
    op0->reg = M68K_REG_FP0 + src;
2097
3.98k
  }
2098
2099
9.35k
  op1->reg = M68K_REG_FP0 + dst;
2100
9.35k
}
2101
2102
static void d68020_cprestore(m68k_info *info)
2103
536
{
2104
536
  cs_m68k* ext;
2105
536
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2106
2107
313
  ext = build_init_op(info, M68K_INS_FRESTORE, 1, 0);
2108
313
  get_ea_mode_op(info, &ext->operands[0], info->ir, 1);
2109
313
}
2110
2111
static void d68020_cpsave(m68k_info *info)
2112
961
{
2113
961
  cs_m68k* ext;
2114
2115
961
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2116
2117
616
  ext = build_init_op(info, M68K_INS_FSAVE, 1, 0);
2118
616
  get_ea_mode_op(info, &ext->operands[0], info->ir, 1);
2119
616
}
2120
2121
static void d68020_cpscc(m68k_info *info)
2122
681
{
2123
681
  cs_m68k* ext;
2124
2125
681
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2126
549
  ext = build_init_op(info, M68K_INS_FSF, 1, 1);
2127
2128
  // these are all in row with the extension so just doing a add here is fine
2129
549
  info->inst->Opcode += (read_imm_16(info) & 0x2f);
2130
2131
549
  get_ea_mode_op(info, &ext->operands[0], info->ir, 1);
2132
549
}
2133
2134
static void d68020_cptrapcc_0(m68k_info *info)
2135
185
{
2136
185
  uint32_t extension1;
2137
185
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2138
2139
135
  extension1 = read_imm_16(info);
2140
2141
135
  build_init_op(info, M68K_INS_FTRAPF, 0, 0);
2142
2143
  // these are all in row with the extension so just doing a add here is fine
2144
135
  info->inst->Opcode += (extension1 & 0x2f);
2145
135
}
2146
2147
static void d68020_cptrapcc_16(m68k_info *info)
2148
78
{
2149
78
  uint32_t extension1, extension2;
2150
78
  cs_m68k_op* op0;
2151
78
  cs_m68k* ext;
2152
2153
78
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2154
2155
31
  extension1 = read_imm_16(info);
2156
31
  extension2 = read_imm_16(info);
2157
2158
31
  ext = build_init_op(info, M68K_INS_FTRAPF, 1, 2);
2159
2160
  // these are all in row with the extension so just doing a add here is fine
2161
31
  info->inst->Opcode += (extension1 & 0x2f);
2162
2163
31
  op0 = &ext->operands[0];
2164
2165
31
  op0->address_mode = M68K_AM_IMMEDIATE;
2166
31
  op0->type = M68K_OP_IMM;
2167
31
  op0->imm = extension2;
2168
31
}
2169
2170
static void d68020_cptrapcc_32(m68k_info *info)
2171
485
{
2172
485
  uint32_t extension1, extension2;
2173
485
  cs_m68k* ext;
2174
485
  cs_m68k_op* op0;
2175
2176
485
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2177
2178
209
  extension1 = read_imm_16(info);
2179
209
  extension2 = read_imm_32(info);
2180
2181
209
  ext = build_init_op(info, M68K_INS_FTRAPF, 1, 2);
2182
2183
  // these are all in row with the extension so just doing a add here is fine
2184
209
  info->inst->Opcode += (extension1 & 0x2f);
2185
2186
209
  op0 = &ext->operands[0];
2187
2188
209
  op0->address_mode = M68K_AM_IMMEDIATE;
2189
209
  op0->type = M68K_OP_IMM;
2190
209
  op0->imm = extension2;
2191
209
}
2192
2193
static void d68040_cpush(m68k_info *info)
2194
869
{
2195
869
  LIMIT_CPU_TYPES(info, M68040_PLUS);
2196
561
  build_cpush_cinv(info, M68K_INS_CPUSHL);
2197
561
}
2198
2199
static void d68000_dbra(m68k_info *info)
2200
502
{
2201
502
  build_dbxx(info, M68K_INS_DBRA, 0, make_int_16(read_imm_16(info)));
2202
502
}
2203
2204
static void d68000_dbcc(m68k_info *info)
2205
378
{
2206
378
  build_dbcc(info, 0, make_int_16(read_imm_16(info)));
2207
378
}
2208
2209
static void d68000_divs(m68k_info *info)
2210
523
{
2211
523
  build_er_1(info, M68K_INS_DIVS, 2);
2212
523
}
2213
2214
static void d68000_divu(m68k_info *info)
2215
924
{
2216
924
  build_er_1(info, M68K_INS_DIVU, 2);
2217
924
}
2218
2219
static void d68020_divl(m68k_info *info)
2220
557
{
2221
557
  uint32_t extension, insn_signed;
2222
557
  cs_m68k* ext;
2223
557
  cs_m68k_op* op0;
2224
557
  cs_m68k_op* op1;
2225
557
  uint32_t reg_0, reg_1;
2226
2227
557
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2228
2229
551
  extension = read_imm_16(info);
2230
551
  insn_signed = 0;
2231
2232
551
  if (BIT_B((extension)))
2233
80
    insn_signed = 1;
2234
2235
551
  ext = build_init_op(info, insn_signed ? M68K_INS_DIVS : M68K_INS_DIVU, 2, 4);
2236
2237
551
  op0 = &ext->operands[0];
2238
551
  op1 = &ext->operands[1];
2239
2240
551
  get_ea_mode_op(info, op0, info->ir, 4);
2241
2242
551
  reg_0 = extension & 7;
2243
551
  reg_1 = (extension >> 12) & 7;
2244
2245
551
  op1->address_mode = M68K_AM_NONE;
2246
551
  op1->type = M68K_OP_REG_PAIR;
2247
551
  op1->reg_pair.reg_0 = reg_0 + M68K_REG_D0;
2248
551
  op1->reg_pair.reg_1 = reg_1 + M68K_REG_D0;
2249
2250
551
  if ((reg_0 == reg_1) || !BIT_A(extension)) {
2251
471
    op1->type = M68K_OP_REG;
2252
471
    op1->reg = M68K_REG_D0 + reg_1;
2253
471
  }
2254
551
}
2255
2256
static void d68000_eor_8(m68k_info *info)
2257
373
{
2258
373
  build_re_1(info, M68K_INS_EOR, 1);
2259
373
}
2260
2261
static void d68000_eor_16(m68k_info *info)
2262
506
{
2263
506
  build_re_1(info, M68K_INS_EOR, 2);
2264
506
}
2265
2266
static void d68000_eor_32(m68k_info *info)
2267
921
{
2268
921
  build_re_1(info, M68K_INS_EOR, 4);
2269
921
}
2270
2271
static void d68000_eori_8(m68k_info *info)
2272
78
{
2273
78
  build_imm_ea(info, M68K_INS_EORI, 1, read_imm_8(info));
2274
78
}
2275
2276
static void d68000_eori_16(m68k_info *info)
2277
192
{
2278
192
  build_imm_ea(info, M68K_INS_EORI, 2, read_imm_16(info));
2279
192
}
2280
2281
static void d68000_eori_32(m68k_info *info)
2282
220
{
2283
220
  build_imm_ea(info, M68K_INS_EORI, 4, read_imm_32(info));
2284
220
}
2285
2286
static void d68000_eori_to_ccr(m68k_info *info)
2287
152
{
2288
152
  build_imm_special_reg(info, M68K_INS_EORI, read_imm_8(info), 1, M68K_REG_CCR);
2289
152
}
2290
2291
static void d68000_eori_to_sr(m68k_info *info)
2292
19
{
2293
19
  build_imm_special_reg(info, M68K_INS_EORI, read_imm_16(info), 2, M68K_REG_SR);
2294
19
}
2295
2296
static void d68000_exg_dd(m68k_info *info)
2297
85
{
2298
85
  build_r(info, M68K_INS_EXG, 4);
2299
85
}
2300
2301
static void d68000_exg_aa(m68k_info *info)
2302
547
{
2303
547
  cs_m68k_op* op0;
2304
547
  cs_m68k_op* op1;
2305
547
  cs_m68k* ext = build_init_op(info, M68K_INS_EXG, 2, 4);
2306
2307
547
  op0 = &ext->operands[0];
2308
547
  op1 = &ext->operands[1];
2309
2310
547
  op0->address_mode = M68K_AM_NONE;
2311
547
  op0->reg = M68K_REG_A0 + ((info->ir >> 9) & 7);
2312
2313
547
  op1->address_mode = M68K_AM_NONE;
2314
547
  op1->reg = M68K_REG_A0 + (info->ir & 7);
2315
547
}
2316
2317
static void d68000_exg_da(m68k_info *info)
2318
253
{
2319
253
  cs_m68k_op* op0;
2320
253
  cs_m68k_op* op1;
2321
253
  cs_m68k* ext = build_init_op(info, M68K_INS_EXG, 2, 4);
2322
2323
253
  op0 = &ext->operands[0];
2324
253
  op1 = &ext->operands[1];
2325
2326
253
  op0->address_mode = M68K_AM_NONE;
2327
253
  op0->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
2328
2329
253
  op1->address_mode = M68K_AM_NONE;
2330
253
  op1->reg = M68K_REG_A0 + (info->ir & 7);
2331
253
}
2332
2333
static void d68000_ext_16(m68k_info *info)
2334
59
{
2335
59
  build_d(info, M68K_INS_EXT, 2);
2336
59
}
2337
2338
static void d68000_ext_32(m68k_info *info)
2339
257
{
2340
257
  build_d(info, M68K_INS_EXT, 4);
2341
257
}
2342
2343
static void d68020_extb_32(m68k_info *info)
2344
122
{
2345
122
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2346
75
  build_d(info, M68K_INS_EXTB, 4);
2347
75
}
2348
2349
static void d68000_jmp(m68k_info *info)
2350
191
{
2351
191
  cs_m68k* ext = build_init_op(info, M68K_INS_JMP, 1, 0);
2352
191
  set_insn_group(info, M68K_GRP_JUMP);
2353
191
  get_ea_mode_op(info, &ext->operands[0], info->ir, 4);
2354
191
}
2355
2356
static void d68000_jsr(m68k_info *info)
2357
255
{
2358
255
  cs_m68k* ext = build_init_op(info, M68K_INS_JSR, 1, 0);
2359
255
  set_insn_group(info, M68K_GRP_JUMP);
2360
255
  get_ea_mode_op(info, &ext->operands[0], info->ir, 4);
2361
255
}
2362
2363
static void d68000_lea(m68k_info *info)
2364
572
{
2365
572
  build_ea_a(info, M68K_INS_LEA, 4);
2366
572
}
2367
2368
static void d68000_link_16(m68k_info *info)
2369
35
{
2370
35
  build_link(info, read_imm_16(info), 2);
2371
35
}
2372
2373
static void d68020_link_32(m68k_info *info)
2374
268
{
2375
268
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2376
85
  build_link(info, read_imm_32(info), 4);
2377
85
}
2378
2379
static void d68000_lsr_s_8(m68k_info *info)
2380
66
{
2381
66
  build_3bit_d(info, M68K_INS_LSR, 1);
2382
66
}
2383
2384
static void d68000_lsr_s_16(m68k_info *info)
2385
268
{
2386
268
  build_3bit_d(info, M68K_INS_LSR, 2);
2387
268
}
2388
2389
static void d68000_lsr_s_32(m68k_info *info)
2390
185
{
2391
185
  build_3bit_d(info, M68K_INS_LSR, 4);
2392
185
}
2393
2394
static void d68000_lsr_r_8(m68k_info *info)
2395
293
{
2396
293
  build_r(info, M68K_INS_LSR, 1);
2397
293
}
2398
2399
static void d68000_lsr_r_16(m68k_info *info)
2400
46
{
2401
46
  build_r(info, M68K_INS_LSR, 2);
2402
46
}
2403
2404
static void d68000_lsr_r_32(m68k_info *info)
2405
208
{
2406
208
  build_r(info, M68K_INS_LSR, 4);
2407
208
}
2408
2409
static void d68000_lsr_ea(m68k_info *info)
2410
228
{
2411
228
  build_ea(info, M68K_INS_LSR, 2);
2412
228
}
2413
2414
static void d68000_lsl_s_8(m68k_info *info)
2415
56
{
2416
56
  build_3bit_d(info, M68K_INS_LSL, 1);
2417
56
}
2418
2419
static void d68000_lsl_s_16(m68k_info *info)
2420
397
{
2421
397
  build_3bit_d(info, M68K_INS_LSL, 2);
2422
397
}
2423
2424
static void d68000_lsl_s_32(m68k_info *info)
2425
95
{
2426
95
  build_3bit_d(info, M68K_INS_LSL, 4);
2427
95
}
2428
2429
static void d68000_lsl_r_8(m68k_info *info)
2430
302
{
2431
302
  build_r(info, M68K_INS_LSL, 1);
2432
302
}
2433
2434
static void d68000_lsl_r_16(m68k_info *info)
2435
236
{
2436
236
  build_r(info, M68K_INS_LSL, 2);
2437
236
}
2438
2439
static void d68000_lsl_r_32(m68k_info *info)
2440
140
{
2441
140
  build_r(info, M68K_INS_LSL, 4);
2442
140
}
2443
2444
static void d68000_lsl_ea(m68k_info *info)
2445
217
{
2446
217
  build_ea(info, M68K_INS_LSL, 2);
2447
217
}
2448
2449
static void d68000_move_8(m68k_info *info)
2450
3.76k
{
2451
3.76k
  build_ea_ea(info, M68K_INS_MOVE, 1);
2452
3.76k
}
2453
2454
static void d68000_move_16(m68k_info *info)
2455
6.38k
{
2456
6.38k
  build_ea_ea(info, M68K_INS_MOVE, 2);
2457
6.38k
}
2458
2459
static void d68000_move_32(m68k_info *info)
2460
5.42k
{
2461
5.42k
  build_ea_ea(info, M68K_INS_MOVE, 4);
2462
5.42k
}
2463
2464
static void d68000_movea_16(m68k_info *info)
2465
1.00k
{
2466
1.00k
  build_ea_a(info, M68K_INS_MOVEA, 2);
2467
1.00k
}
2468
2469
static void d68000_movea_32(m68k_info *info)
2470
507
{
2471
507
  build_ea_a(info, M68K_INS_MOVEA, 4);
2472
507
}
2473
2474
static void d68000_move_to_ccr(m68k_info *info)
2475
49
{
2476
49
  cs_m68k_op* op0;
2477
49
  cs_m68k_op* op1;
2478
49
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVE, 2, 2);
2479
2480
49
  op0 = &ext->operands[0];
2481
49
  op1 = &ext->operands[1];
2482
2483
49
  get_ea_mode_op(info, op0, info->ir, 1);
2484
2485
49
  op1->address_mode = M68K_AM_NONE;
2486
49
  op1->reg = M68K_REG_CCR;
2487
49
}
2488
2489
static void d68010_move_fr_ccr(m68k_info *info)
2490
381
{
2491
381
  cs_m68k_op* op0;
2492
381
  cs_m68k_op* op1;
2493
381
  cs_m68k* ext;
2494
2495
381
  LIMIT_CPU_TYPES(info, M68010_PLUS);
2496
2497
228
  ext = build_init_op(info, M68K_INS_MOVE, 2, 2);
2498
2499
228
  op0 = &ext->operands[0];
2500
228
  op1 = &ext->operands[1];
2501
2502
228
  op0->address_mode = M68K_AM_NONE;
2503
228
  op0->reg = M68K_REG_CCR;
2504
2505
228
  get_ea_mode_op(info, op1, info->ir, 1);
2506
228
}
2507
2508
static void d68000_move_fr_sr(m68k_info *info)
2509
496
{
2510
496
  cs_m68k_op* op0;
2511
496
  cs_m68k_op* op1;
2512
496
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVE, 2, 2);
2513
2514
496
  op0 = &ext->operands[0];
2515
496
  op1 = &ext->operands[1];
2516
2517
496
  op0->address_mode = M68K_AM_NONE;
2518
496
  op0->reg = M68K_REG_SR;
2519
2520
496
  get_ea_mode_op(info, op1, info->ir, 2);
2521
496
}
2522
2523
static void d68000_move_to_sr(m68k_info *info)
2524
254
{
2525
254
  cs_m68k_op* op0;
2526
254
  cs_m68k_op* op1;
2527
254
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVE, 2, 2);
2528
2529
254
  op0 = &ext->operands[0];
2530
254
  op1 = &ext->operands[1];
2531
2532
254
  get_ea_mode_op(info, op0, info->ir, 2);
2533
2534
254
  op1->address_mode = M68K_AM_NONE;
2535
254
  op1->reg = M68K_REG_SR;
2536
254
}
2537
2538
static void d68000_move_fr_usp(m68k_info *info)
2539
250
{
2540
250
  cs_m68k_op* op0;
2541
250
  cs_m68k_op* op1;
2542
250
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVE, 2, 0);
2543
2544
250
  op0 = &ext->operands[0];
2545
250
  op1 = &ext->operands[1];
2546
2547
250
  op0->address_mode = M68K_AM_NONE;
2548
250
  op0->reg = M68K_REG_USP;
2549
2550
250
  op1->address_mode = M68K_AM_NONE;
2551
250
  op1->reg = M68K_REG_A0 + (info->ir & 7);
2552
250
}
2553
2554
static void d68000_move_to_usp(m68k_info *info)
2555
614
{
2556
614
  cs_m68k_op* op0;
2557
614
  cs_m68k_op* op1;
2558
614
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVE, 2, 0);
2559
2560
614
  op0 = &ext->operands[0];
2561
614
  op1 = &ext->operands[1];
2562
2563
614
  op0->address_mode = M68K_AM_NONE;
2564
614
  op0->reg = M68K_REG_A0 + (info->ir & 7);
2565
2566
614
  op1->address_mode = M68K_AM_NONE;
2567
614
  op1->reg = M68K_REG_USP;
2568
614
}
2569
2570
static void d68010_movec(m68k_info *info)
2571
3.79k
{
2572
3.79k
  uint32_t extension;
2573
3.79k
  m68k_reg reg;
2574
3.79k
  cs_m68k* ext;
2575
3.79k
  cs_m68k_op* op0;
2576
3.79k
  cs_m68k_op* op1;
2577
2578
2579
3.79k
  LIMIT_CPU_TYPES(info, M68010_PLUS);
2580
2581
3.61k
  extension = read_imm_16(info);
2582
3.61k
  reg = M68K_REG_INVALID;
2583
2584
3.61k
  ext = build_init_op(info, M68K_INS_MOVEC, 2, 0);
2585
2586
3.61k
  op0 = &ext->operands[0];
2587
3.61k
  op1 = &ext->operands[1];
2588
2589
3.61k
  switch (extension & 0xfff) {
2590
78
    case 0x000: reg = M68K_REG_SFC; break;
2591
63
    case 0x001: reg = M68K_REG_DFC; break;
2592
30
    case 0x800: reg = M68K_REG_USP; break;
2593
61
    case 0x801: reg = M68K_REG_VBR; break;
2594
35
    case 0x002: reg = M68K_REG_CACR; break;
2595
174
    case 0x802: reg = M68K_REG_CAAR; break;
2596
268
    case 0x803: reg = M68K_REG_MSP; break;
2597
78
    case 0x804: reg = M68K_REG_ISP; break;
2598
234
    case 0x003: reg = M68K_REG_TC; break;
2599
522
    case 0x004: reg = M68K_REG_ITT0; break;
2600
159
    case 0x005: reg = M68K_REG_ITT1; break;
2601
345
    case 0x006: reg = M68K_REG_DTT0; break;
2602
435
    case 0x007: reg = M68K_REG_DTT1; break;
2603
290
    case 0x805: reg = M68K_REG_MMUSR; break;
2604
53
    case 0x806: reg = M68K_REG_URP; break;
2605
187
    case 0x807: reg = M68K_REG_SRP; break;
2606
3.61k
  }
2607
2608
3.61k
  if (BIT_0(info->ir)) {
2609
1.22k
    op0->reg = (BIT_F(extension) ? M68K_REG_A0 : M68K_REG_D0) + ((extension >> 12) & 7);
2610
1.22k
    op1->reg = reg;
2611
2.39k
  } else {
2612
2.39k
    op0->reg = reg;
2613
2.39k
    op1->reg = (BIT_F(extension) ? M68K_REG_A0 : M68K_REG_D0) + ((extension >> 12) & 7);
2614
2.39k
  }
2615
3.61k
}
2616
2617
static void d68000_movem_pd_16(m68k_info *info)
2618
505
{
2619
505
  build_movem_re(info, M68K_INS_MOVEM, 2);
2620
505
}
2621
2622
static void d68000_movem_pd_32(m68k_info *info)
2623
408
{
2624
408
  build_movem_re(info, M68K_INS_MOVEM, 4);
2625
408
}
2626
2627
static void d68000_movem_er_16(m68k_info *info)
2628
99
{
2629
99
  build_movem_er(info, M68K_INS_MOVEM, 2);
2630
99
}
2631
2632
static void d68000_movem_er_32(m68k_info *info)
2633
359
{
2634
359
  build_movem_er(info, M68K_INS_MOVEM, 4);
2635
359
}
2636
2637
static void d68000_movem_re_16(m68k_info *info)
2638
561
{
2639
561
  build_movem_re(info, M68K_INS_MOVEM, 2);
2640
561
}
2641
2642
static void d68000_movem_re_32(m68k_info *info)
2643
197
{
2644
197
  build_movem_re(info, M68K_INS_MOVEM, 4);
2645
197
}
2646
2647
static void d68000_movep_re_16(m68k_info *info)
2648
111
{
2649
111
  build_movep_re(info, 2);
2650
111
}
2651
2652
static void d68000_movep_re_32(m68k_info *info)
2653
280
{
2654
280
  build_movep_re(info, 4);
2655
280
}
2656
2657
static void d68000_movep_er_16(m68k_info *info)
2658
298
{
2659
298
  build_movep_er(info, 2);
2660
298
}
2661
2662
static void d68000_movep_er_32(m68k_info *info)
2663
651
{
2664
651
  build_movep_er(info, 4);
2665
651
}
2666
2667
static void d68010_moves_8(m68k_info *info)
2668
224
{
2669
224
  LIMIT_CPU_TYPES(info, M68010_PLUS);
2670
198
  build_moves(info, 1);
2671
198
}
2672
2673
static void d68010_moves_16(m68k_info *info)
2674
301
{
2675
  //uint32_t extension;
2676
301
  LIMIT_CPU_TYPES(info, M68010_PLUS);
2677
187
  build_moves(info, 2);
2678
187
}
2679
2680
static void d68010_moves_32(m68k_info *info)
2681
601
{
2682
601
  LIMIT_CPU_TYPES(info, M68010_PLUS);
2683
330
  build_moves(info, 4);
2684
330
}
2685
2686
static void d68000_moveq(m68k_info *info)
2687
6.38k
{
2688
6.38k
  cs_m68k_op* op0;
2689
6.38k
  cs_m68k_op* op1;
2690
2691
6.38k
  cs_m68k* ext = build_init_op(info, M68K_INS_MOVEQ, 2, 0);
2692
2693
6.38k
  op0 = &ext->operands[0];
2694
6.38k
  op1 = &ext->operands[1];
2695
2696
6.38k
  op0->type = M68K_OP_IMM;
2697
6.38k
  op0->address_mode = M68K_AM_IMMEDIATE;
2698
6.38k
  op0->imm = (info->ir & 0xff);
2699
2700
6.38k
  op1->address_mode = M68K_AM_REG_DIRECT_DATA;
2701
6.38k
  op1->reg = M68K_REG_D0 + ((info->ir >> 9) & 7);
2702
6.38k
}
2703
2704
static void d68040_move16_pi_pi(m68k_info *info)
2705
240
{
2706
240
  int data[] = { info->ir & 7, (read_imm_16(info) >> 12) & 7 };
2707
240
  int modes[] = { M68K_AM_REGI_ADDR_POST_INC, M68K_AM_REGI_ADDR_POST_INC };
2708
2709
240
  LIMIT_CPU_TYPES(info, M68040_PLUS);
2710
2711
214
  build_move16(info, data, modes);
2712
214
}
2713
2714
static void d68040_move16_pi_al(m68k_info *info)
2715
430
{
2716
430
  int data[] = { info->ir & 7, read_imm_32(info) };
2717
430
  int modes[] = { M68K_AM_REGI_ADDR_POST_INC, M68K_AM_ABSOLUTE_DATA_LONG };
2718
2719
430
  LIMIT_CPU_TYPES(info, M68040_PLUS);
2720
2721
380
  build_move16(info, data, modes);
2722
380
}
2723
2724
static void d68040_move16_al_pi(m68k_info *info)
2725
69
{
2726
69
  int data[] = { read_imm_32(info), info->ir & 7 };
2727
69
  int modes[] = { M68K_AM_ABSOLUTE_DATA_LONG, M68K_AM_REGI_ADDR_POST_INC };
2728
2729
69
  LIMIT_CPU_TYPES(info, M68040_PLUS);
2730
2731
16
  build_move16(info, data, modes);
2732
16
}
2733
2734
static void d68040_move16_ai_al(m68k_info *info)
2735
169
{
2736
169
  int data[] = { info->ir & 7, read_imm_32(info) };
2737
169
  int modes[] = { M68K_AM_REG_DIRECT_ADDR, M68K_AM_ABSOLUTE_DATA_LONG };
2738
2739
169
  LIMIT_CPU_TYPES(info, M68040_PLUS);
2740
2741
106
  build_move16(info, data, modes);
2742
106
}
2743
2744
static void d68040_move16_al_ai(m68k_info *info)
2745
549
{
2746
549
  int data[] = { read_imm_32(info), info->ir & 7 };
2747
549
  int modes[] = { M68K_AM_ABSOLUTE_DATA_LONG, M68K_AM_REG_DIRECT_ADDR };
2748
2749
549
  LIMIT_CPU_TYPES(info, M68040_PLUS);
2750
2751
325
  build_move16(info, data, modes);
2752
325
}
2753
2754
static void d68000_muls(m68k_info *info)
2755
835
{
2756
835
  build_er_1(info, M68K_INS_MULS, 2);
2757
835
}
2758
2759
static void d68000_mulu(m68k_info *info)
2760
811
{
2761
811
  build_er_1(info, M68K_INS_MULU, 2);
2762
811
}
2763
2764
static void d68020_mull(m68k_info *info)
2765
448
{
2766
448
  uint32_t extension, insn_signed;
2767
448
  cs_m68k* ext;
2768
448
  cs_m68k_op* op0;
2769
448
  cs_m68k_op* op1;
2770
448
  uint32_t reg_0, reg_1;
2771
2772
448
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2773
2774
388
  extension = read_imm_16(info);
2775
388
  insn_signed = 0;
2776
2777
388
  if (BIT_B((extension)))
2778
73
    insn_signed = 1;
2779
2780
388
  ext = build_init_op(info, insn_signed ? M68K_INS_MULS : M68K_INS_MULU, 2, 4);
2781
2782
388
  op0 = &ext->operands[0];
2783
388
  op1 = &ext->operands[1];
2784
2785
388
  get_ea_mode_op(info, op0, info->ir, 4);
2786
2787
388
  reg_0 = extension & 7;
2788
388
  reg_1 = (extension >> 12) & 7;
2789
2790
388
  op1->address_mode = M68K_AM_NONE;
2791
388
  op1->type = M68K_OP_REG_PAIR;
2792
388
  op1->reg_pair.reg_0 = reg_0 + M68K_REG_D0;
2793
388
  op1->reg_pair.reg_1 = reg_1 + M68K_REG_D0;
2794
2795
388
  if (!BIT_A(extension)) {
2796
315
    op1->type = M68K_OP_REG;
2797
315
    op1->reg = M68K_REG_D0 + reg_1;
2798
315
  }
2799
388
}
2800
2801
static void d68000_nbcd(m68k_info *info)
2802
171
{
2803
171
  build_ea(info, M68K_INS_NBCD, 1);
2804
171
}
2805
2806
static void d68000_neg_8(m68k_info *info)
2807
122
{
2808
122
  build_ea(info, M68K_INS_NEG, 1);
2809
122
}
2810
2811
static void d68000_neg_16(m68k_info *info)
2812
111
{
2813
111
  build_ea(info, M68K_INS_NEG, 2);
2814
111
}
2815
2816
static void d68000_neg_32(m68k_info *info)
2817
40
{
2818
40
  build_ea(info, M68K_INS_NEG, 4);
2819
40
}
2820
2821
static void d68000_negx_8(m68k_info *info)
2822
834
{
2823
834
  build_ea(info, M68K_INS_NEGX, 1);
2824
834
}
2825
2826
static void d68000_negx_16(m68k_info *info)
2827
281
{
2828
281
  build_ea(info, M68K_INS_NEGX, 2);
2829
281
}
2830
2831
static void d68000_negx_32(m68k_info *info)
2832
536
{
2833
536
  build_ea(info, M68K_INS_NEGX, 4);
2834
536
}
2835
2836
static void d68000_nop(m68k_info *info)
2837
151
{
2838
151
  MCInst_setOpcode(info->inst, M68K_INS_NOP);
2839
151
}
2840
2841
static void d68000_not_8(m68k_info *info)
2842
88
{
2843
88
  build_ea(info, M68K_INS_NOT, 1);
2844
88
}
2845
2846
static void d68000_not_16(m68k_info *info)
2847
131
{
2848
131
  build_ea(info, M68K_INS_NOT, 2);
2849
131
}
2850
2851
static void d68000_not_32(m68k_info *info)
2852
176
{
2853
176
  build_ea(info, M68K_INS_NOT, 4);
2854
176
}
2855
2856
static void d68000_or_er_8(m68k_info *info)
2857
1.09k
{
2858
1.09k
  build_er_1(info, M68K_INS_OR, 1);
2859
1.09k
}
2860
2861
static void d68000_or_er_16(m68k_info *info)
2862
933
{
2863
933
  build_er_1(info, M68K_INS_OR, 2);
2864
933
}
2865
2866
static void d68000_or_er_32(m68k_info *info)
2867
1.14k
{
2868
1.14k
  build_er_1(info, M68K_INS_OR, 4);
2869
1.14k
}
2870
2871
static void d68000_or_re_8(m68k_info *info)
2872
371
{
2873
371
  build_re_1(info, M68K_INS_OR, 1);
2874
371
}
2875
2876
static void d68000_or_re_16(m68k_info *info)
2877
521
{
2878
521
  build_re_1(info, M68K_INS_OR, 2);
2879
521
}
2880
2881
static void d68000_or_re_32(m68k_info *info)
2882
385
{
2883
385
  build_re_1(info, M68K_INS_OR, 4);
2884
385
}
2885
2886
static void d68000_ori_8(m68k_info *info)
2887
9.35k
{
2888
9.35k
  build_imm_ea(info, M68K_INS_ORI, 1, read_imm_8(info));
2889
9.35k
}
2890
2891
static void d68000_ori_16(m68k_info *info)
2892
1.58k
{
2893
1.58k
  build_imm_ea(info, M68K_INS_ORI, 2, read_imm_16(info));
2894
1.58k
}
2895
2896
static void d68000_ori_32(m68k_info *info)
2897
672
{
2898
672
  build_imm_ea(info, M68K_INS_ORI, 4, read_imm_32(info));
2899
672
}
2900
2901
static void d68000_ori_to_ccr(m68k_info *info)
2902
124
{
2903
124
  build_imm_special_reg(info, M68K_INS_ORI, read_imm_8(info), 1, M68K_REG_CCR);
2904
124
}
2905
2906
static void d68000_ori_to_sr(m68k_info *info)
2907
78
{
2908
78
  build_imm_special_reg(info, M68K_INS_ORI, read_imm_16(info), 2, M68K_REG_SR);
2909
78
}
2910
2911
static void d68020_pack_rr(m68k_info *info)
2912
285
{
2913
285
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2914
266
  build_rr(info, M68K_INS_PACK, 0, read_imm_16(info));
2915
266
}
2916
2917
static void d68020_pack_mm(m68k_info *info)
2918
1.13k
{
2919
1.13k
  LIMIT_CPU_TYPES(info, M68020_PLUS);
2920
709
  build_mm(info, M68K_INS_PACK, 0, read_imm_16(info));
2921
709
}
2922
2923
static void d68000_pea(m68k_info *info)
2924
100
{
2925
100
  build_ea(info, M68K_INS_PEA, 4);
2926
100
}
2927
2928
static void d68000_reset(m68k_info *info)
2929
299
{
2930
299
  MCInst_setOpcode(info->inst, M68K_INS_RESET);
2931
299
}
2932
2933
static void d68000_ror_s_8(m68k_info *info)
2934
188
{
2935
188
  build_3bit_d(info, M68K_INS_ROR, 1);
2936
188
}
2937
2938
static void d68000_ror_s_16(m68k_info *info)
2939
86
{
2940
86
  build_3bit_d(info, M68K_INS_ROR, 2);
2941
86
}
2942
2943
static void d68000_ror_s_32(m68k_info *info)
2944
373
{
2945
373
  build_3bit_d(info, M68K_INS_ROR, 4);
2946
373
}
2947
2948
static void d68000_ror_r_8(m68k_info *info)
2949
61
{
2950
61
  build_r(info, M68K_INS_ROR, 1);
2951
61
}
2952
2953
static void d68000_ror_r_16(m68k_info *info)
2954
86
{
2955
86
  build_r(info, M68K_INS_ROR, 2);
2956
86
}
2957
2958
static void d68000_ror_r_32(m68k_info *info)
2959
235
{
2960
235
  build_r(info, M68K_INS_ROR, 4);
2961
235
}
2962
2963
static void d68000_ror_ea(m68k_info *info)
2964
376
{
2965
376
  build_ea(info, M68K_INS_ROR, 2);
2966
376
}
2967
2968
static void d68000_rol_s_8(m68k_info *info)
2969
238
{
2970
238
  build_3bit_d(info, M68K_INS_ROL, 1);
2971
238
}
2972
2973
static void d68000_rol_s_16(m68k_info *info)
2974
365
{
2975
365
  build_3bit_d(info, M68K_INS_ROL, 2);
2976
365
}
2977
2978
static void d68000_rol_s_32(m68k_info *info)
2979
454
{
2980
454
  build_3bit_d(info, M68K_INS_ROL, 4);
2981
454
}
2982
2983
static void d68000_rol_r_8(m68k_info *info)
2984
73
{
2985
73
  build_r(info, M68K_INS_ROL, 1);
2986
73
}
2987
2988
static void d68000_rol_r_16(m68k_info *info)
2989
98
{
2990
98
  build_r(info, M68K_INS_ROL, 2);
2991
98
}
2992
2993
static void d68000_rol_r_32(m68k_info *info)
2994
35
{
2995
35
  build_r(info, M68K_INS_ROL, 4);
2996
35
}
2997
2998
static void d68000_rol_ea(m68k_info *info)
2999
523
{
3000
523
  build_ea(info, M68K_INS_ROL, 2);
3001
523
}
3002
3003
static void d68000_roxr_s_8(m68k_info *info)
3004
99
{
3005
99
  build_3bit_d(info, M68K_INS_ROXR, 1);
3006
99
}
3007
3008
static void d68000_roxr_s_16(m68k_info *info)
3009
276
{
3010
276
  build_3bit_d(info, M68K_INS_ROXR, 2);
3011
276
}
3012
3013
static void d68000_roxr_s_32(m68k_info *info)
3014
231
{
3015
231
  build_3bit_d(info, M68K_INS_ROXR, 4);
3016
231
}
3017
3018
static void d68000_roxr_r_8(m68k_info *info)
3019
301
{
3020
301
  build_3bit_d(info, M68K_INS_ROXR, 4);
3021
301
}
3022
3023
static void d68000_roxr_r_16(m68k_info *info)
3024
656
{
3025
656
  build_r(info, M68K_INS_ROXR, 2);
3026
656
}
3027
3028
static void d68000_roxr_r_32(m68k_info *info)
3029
355
{
3030
355
  build_r(info, M68K_INS_ROXR, 4);
3031
355
}
3032
3033
static void d68000_roxr_ea(m68k_info *info)
3034
111
{
3035
111
  build_ea(info, M68K_INS_ROXR, 2);
3036
111
}
3037
3038
static void d68000_roxl_s_8(m68k_info *info)
3039
253
{
3040
253
  build_3bit_d(info, M68K_INS_ROXL, 1);
3041
253
}
3042
3043
static void d68000_roxl_s_16(m68k_info *info)
3044
106
{
3045
106
  build_3bit_d(info, M68K_INS_ROXL, 2);
3046
106
}
3047
3048
static void d68000_roxl_s_32(m68k_info *info)
3049
208
{
3050
208
  build_3bit_d(info, M68K_INS_ROXL, 4);
3051
208
}
3052
3053
static void d68000_roxl_r_8(m68k_info *info)
3054
121
{
3055
121
  build_r(info, M68K_INS_ROXL, 1);
3056
121
}
3057
3058
static void d68000_roxl_r_16(m68k_info *info)
3059
220
{
3060
220
  build_r(info, M68K_INS_ROXL, 2);
3061
220
}
3062
3063
static void d68000_roxl_r_32(m68k_info *info)
3064
357
{
3065
357
  build_r(info, M68K_INS_ROXL, 4);
3066
357
}
3067
3068
static void d68000_roxl_ea(m68k_info *info)
3069
306
{
3070
306
  build_ea(info, M68K_INS_ROXL, 2);
3071
306
}
3072
3073
static void d68010_rtd(m68k_info *info)
3074
359
{
3075
359
  set_insn_group(info, M68K_GRP_RET);
3076
359
  LIMIT_CPU_TYPES(info, M68010_PLUS);
3077
347
  build_absolute_jump_with_immediate(info, M68K_INS_RTD, 0, read_imm_16(info));
3078
347
}
3079
3080
static void d68000_rte(m68k_info *info)
3081
291
{
3082
291
  set_insn_group(info, M68K_GRP_IRET);
3083
291
  MCInst_setOpcode(info->inst, M68K_INS_RTE);
3084
291
}
3085
3086
static void d68020_rtm(m68k_info *info)
3087
196
{
3088
196
  cs_m68k* ext;
3089
196
  cs_m68k_op* op;
3090
3091
196
  set_insn_group(info, M68K_GRP_RET);
3092
3093
196
  LIMIT_CPU_TYPES(info, M68020_ONLY);
3094
3095
0
  build_absolute_jump_with_immediate(info, M68K_INS_RTM, 0, 0);
3096
3097
0
  ext = &info->extension;
3098
0
  op = &ext->operands[0];
3099
3100
0
  op->address_mode = M68K_AM_NONE;
3101
0
  op->type = M68K_OP_REG;
3102
3103
0
  if (BIT_3(info->ir)) {
3104
0
    op->reg = M68K_REG_A0 + (info->ir & 7);
3105
0
  } else {
3106
0
    op->reg = M68K_REG_D0 + (info->ir & 7);
3107
0
  }
3108
0
}
3109
3110
static void d68000_rtr(m68k_info *info)
3111
96
{
3112
96
  set_insn_group(info, M68K_GRP_RET);
3113
96
  MCInst_setOpcode(info->inst, M68K_INS_RTR);
3114
96
}
3115
3116
static void d68000_rts(m68k_info *info)
3117
150
{
3118
150
  set_insn_group(info, M68K_GRP_RET);
3119
150
  MCInst_setOpcode(info->inst, M68K_INS_RTS);
3120
150
}
3121
3122
static void d68000_sbcd_rr(m68k_info *info)
3123
476
{
3124
476
  build_rr(info, M68K_INS_SBCD, 1, 0);
3125
476
}
3126
3127
static void d68000_sbcd_mm(m68k_info *info)
3128
371
{
3129
371
  build_mm(info, M68K_INS_SBCD, 0, read_imm_16(info));
3130
371
}
3131
3132
static void d68000_scc(m68k_info *info)
3133
1.02k
{
3134
1.02k
  cs_m68k* ext = build_init_op(info, s_scc_lut[(info->ir >> 8) & 0xf], 1, 1);
3135
1.02k
  get_ea_mode_op(info, &ext->operands[0], info->ir, 1);
3136
1.02k
}
3137
3138
static void d68000_stop(m68k_info *info)
3139
122
{
3140
122
  build_absolute_jump_with_immediate(info, M68K_INS_STOP, 0, read_imm_16(info));
3141
122
}
3142
3143
static void d68000_sub_er_8(m68k_info *info)
3144
1.12k
{
3145
1.12k
  build_er_1(info, M68K_INS_SUB, 1);
3146
1.12k
}
3147
3148
static void d68000_sub_er_16(m68k_info *info)
3149
441
{
3150
441
  build_er_1(info, M68K_INS_SUB, 2);
3151
441
}
3152
3153
static void d68000_sub_er_32(m68k_info *info)
3154
1.19k
{
3155
1.19k
  build_er_1(info, M68K_INS_SUB, 4);
3156
1.19k
}
3157
3158
static void d68000_sub_re_8(m68k_info *info)
3159
357
{
3160
357
  build_re_1(info, M68K_INS_SUB, 1);
3161
357
}
3162
3163
static void d68000_sub_re_16(m68k_info *info)
3164
291
{
3165
291
  build_re_1(info, M68K_INS_SUB, 2);
3166
291
}
3167
3168
static void d68000_sub_re_32(m68k_info *info)
3169
851
{
3170
851
  build_re_1(info, M68K_INS_SUB, 4);
3171
851
}
3172
3173
static void d68000_suba_16(m68k_info *info)
3174
929
{
3175
929
  build_ea_a(info, M68K_INS_SUBA, 2);
3176
929
}
3177
3178
static void d68000_suba_32(m68k_info *info)
3179
360
{
3180
360
  build_ea_a(info, M68K_INS_SUBA, 4);
3181
360
}
3182
3183
static void d68000_subi_8(m68k_info *info)
3184
304
{
3185
304
  build_imm_ea(info, M68K_INS_SUBI, 1, read_imm_8(info));
3186
304
}
3187
3188
static void d68000_subi_16(m68k_info *info)
3189
243
{
3190
243
  build_imm_ea(info, M68K_INS_SUBI, 2, read_imm_16(info));
3191
243
}
3192
3193
static void d68000_subi_32(m68k_info *info)
3194
97
{
3195
97
  build_imm_ea(info, M68K_INS_SUBI, 4, read_imm_32(info));
3196
97
}
3197
3198
static void d68000_subq_8(m68k_info *info)
3199
377
{
3200
377
  build_3bit_ea(info, M68K_INS_SUBQ, 1);
3201
377
}
3202
3203
static void d68000_subq_16(m68k_info *info)
3204
1.21k
{
3205
1.21k
  build_3bit_ea(info, M68K_INS_SUBQ, 2);
3206
1.21k
}
3207
3208
static void d68000_subq_32(m68k_info *info)
3209
481
{
3210
481
  build_3bit_ea(info, M68K_INS_SUBQ, 4);
3211
481
}
3212
3213
static void d68000_subx_rr_8(m68k_info *info)
3214
435
{
3215
435
  build_rr(info, M68K_INS_SUBX, 1, 0);
3216
435
}
3217
3218
static void d68000_subx_rr_16(m68k_info *info)
3219
82
{
3220
82
  build_rr(info, M68K_INS_SUBX, 2, 0);
3221
82
}
3222
3223
static void d68000_subx_rr_32(m68k_info *info)
3224
275
{
3225
275
  build_rr(info, M68K_INS_SUBX, 4, 0);
3226
275
}
3227
3228
static void d68000_subx_mm_8(m68k_info *info)
3229
81
{
3230
81
  build_mm(info, M68K_INS_SUBX, 1, 0);
3231
81
}
3232
3233
static void d68000_subx_mm_16(m68k_info *info)
3234
295
{
3235
295
  build_mm(info, M68K_INS_SUBX, 2, 0);
3236
295
}
3237
3238
static void d68000_subx_mm_32(m68k_info *info)
3239
238
{
3240
238
  build_mm(info, M68K_INS_SUBX, 4, 0);
3241
238
}
3242
3243
static void d68000_swap(m68k_info *info)
3244
85
{
3245
85
  build_d(info, M68K_INS_SWAP, 0);
3246
85
}
3247
3248
static void d68000_tas(m68k_info *info)
3249
205
{
3250
205
  build_ea(info, M68K_INS_TAS, 1);
3251
205
}
3252
3253
static void d68000_trap(m68k_info *info)
3254
460
{
3255
460
  build_absolute_jump_with_immediate(info, M68K_INS_TRAP, 0, info->ir&0xf);
3256
460
}
3257
3258
static void d68020_trapcc_0(m68k_info *info)
3259
223
{
3260
223
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3261
188
  build_trap(info, 0, 0);
3262
3263
188
  info->extension.op_count = 0;
3264
188
}
3265
3266
static void d68020_trapcc_16(m68k_info *info)
3267
411
{
3268
411
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3269
392
  build_trap(info, 2, read_imm_16(info));
3270
392
}
3271
3272
static void d68020_trapcc_32(m68k_info *info)
3273
113
{
3274
113
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3275
97
  build_trap(info, 4, read_imm_32(info));
3276
97
}
3277
3278
static void d68000_trapv(m68k_info *info)
3279
75
{
3280
75
  MCInst_setOpcode(info->inst, M68K_INS_TRAPV);
3281
75
}
3282
3283
static void d68000_tst_8(m68k_info *info)
3284
161
{
3285
161
  build_ea(info, M68K_INS_TST, 1);
3286
161
}
3287
3288
static void d68020_tst_pcdi_8(m68k_info *info)
3289
225
{
3290
225
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3291
27
  build_ea(info, M68K_INS_TST, 1);
3292
27
}
3293
3294
static void d68020_tst_pcix_8(m68k_info *info)
3295
379
{
3296
379
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3297
193
  build_ea(info, M68K_INS_TST, 1);
3298
193
}
3299
3300
static void d68020_tst_i_8(m68k_info *info)
3301
220
{
3302
220
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3303
62
  build_ea(info, M68K_INS_TST, 1);
3304
62
}
3305
3306
static void d68000_tst_16(m68k_info *info)
3307
315
{
3308
315
  build_ea(info, M68K_INS_TST, 2);
3309
315
}
3310
3311
static void d68020_tst_a_16(m68k_info *info)
3312
605
{
3313
605
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3314
344
  build_ea(info, M68K_INS_TST, 2);
3315
344
}
3316
3317
static void d68020_tst_pcdi_16(m68k_info *info)
3318
586
{
3319
586
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3320
241
  build_ea(info, M68K_INS_TST, 2);
3321
241
}
3322
3323
static void d68020_tst_pcix_16(m68k_info *info)
3324
122
{
3325
122
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3326
16
  build_ea(info, M68K_INS_TST, 2);
3327
16
}
3328
3329
static void d68020_tst_i_16(m68k_info *info)
3330
317
{
3331
317
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3332
157
  build_ea(info, M68K_INS_TST, 2);
3333
157
}
3334
3335
static void d68000_tst_32(m68k_info *info)
3336
405
{
3337
405
  build_ea(info, M68K_INS_TST, 4);
3338
405
}
3339
3340
static void d68020_tst_a_32(m68k_info *info)
3341
442
{
3342
442
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3343
158
  build_ea(info, M68K_INS_TST, 4);
3344
158
}
3345
3346
static void d68020_tst_pcdi_32(m68k_info *info)
3347
214
{
3348
214
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3349
157
  build_ea(info, M68K_INS_TST, 4);
3350
157
}
3351
3352
static void d68020_tst_pcix_32(m68k_info *info)
3353
748
{
3354
748
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3355
60
  build_ea(info, M68K_INS_TST, 4);
3356
60
}
3357
3358
static void d68020_tst_i_32(m68k_info *info)
3359
37
{
3360
37
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3361
21
  build_ea(info, M68K_INS_TST, 4);
3362
21
}
3363
3364
static void d68000_unlk(m68k_info *info)
3365
175
{
3366
175
  cs_m68k_op* op;
3367
175
  cs_m68k* ext = build_init_op(info, M68K_INS_UNLK, 1, 0);
3368
3369
175
  op = &ext->operands[0];
3370
3371
175
  op->address_mode = M68K_AM_REG_DIRECT_ADDR;
3372
175
  op->reg = M68K_REG_A0 + (info->ir & 7);
3373
175
}
3374
3375
static void d68020_unpk_rr(m68k_info *info)
3376
607
{
3377
607
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3378
426
  build_rr(info, M68K_INS_UNPK, 0, read_imm_16(info));
3379
426
}
3380
3381
static void d68020_unpk_mm(m68k_info *info)
3382
671
{
3383
671
  LIMIT_CPU_TYPES(info, M68020_PLUS);
3384
495
  build_mm(info, M68K_INS_UNPK, 0, read_imm_16(info));
3385
495
}
3386
3387
/* This table is auto-generated. Look in contrib/m68k_instruction_tbl_gen for more info */
3388
#include "M68KInstructionTable.inc"
3389
3390
static int instruction_is_valid(m68k_info *info, const unsigned int word_check)
3391
182k
{
3392
182k
  const unsigned int instruction = info->ir;
3393
182k
  const instruction_struct *i = &g_instruction_table[instruction];
3394
3395
182k
  if ( (i->word2_mask && ((word_check & i->word2_mask) != i->word2_match)) ||
3396
182k
    (i->instruction == d68000_invalid) ) {
3397
785
    d68000_invalid(info);
3398
785
    return 0;
3399
785
  }
3400
3401
181k
  return 1;
3402
182k
}
3403
3404
static int exists_reg_list(uint16_t *regs, uint8_t count, m68k_reg reg)
3405
229k
{
3406
229k
  uint8_t i;
3407
3408
321k
  for (i = 0; i < count; ++i) {
3409
95.5k
    if (regs[i] == (uint16_t)reg)
3410
3.28k
      return 1;
3411
95.5k
  }
3412
3413
226k
  return 0;
3414
229k
}
3415
3416
static void add_reg_to_rw_list(m68k_info *info, m68k_reg reg, int write)
3417
243k
{
3418
243k
  if (reg == M68K_REG_INVALID)
3419
14.4k
    return;
3420
3421
229k
  if (write)
3422
132k
  {
3423
132k
    if (exists_reg_list(info->regs_write, info->regs_write_count, reg))
3424
1.16k
      return;
3425
3426
131k
    info->regs_write[info->regs_write_count] = (uint16_t)reg;
3427
131k
    info->regs_write_count++;
3428
131k
  }
3429
96.7k
  else
3430
96.7k
  {
3431
96.7k
    if (exists_reg_list(info->regs_read, info->regs_read_count, reg))
3432
2.12k
      return;
3433
3434
94.6k
    info->regs_read[info->regs_read_count] = (uint16_t)reg;
3435
94.6k
    info->regs_read_count++;
3436
94.6k
  }
3437
229k
}
3438
3439
static void update_am_reg_list(m68k_info *info, cs_m68k_op *op, int write)
3440
75.2k
{
3441
75.2k
  switch (op->address_mode) {
3442
874
    case M68K_AM_REG_DIRECT_ADDR:
3443
874
    case M68K_AM_REG_DIRECT_DATA:
3444
874
      add_reg_to_rw_list(info, op->reg, write);
3445
874
      break;
3446
3447
11.4k
    case M68K_AM_REGI_ADDR_POST_INC:
3448
33.2k
    case M68K_AM_REGI_ADDR_PRE_DEC:
3449
33.2k
      add_reg_to_rw_list(info, op->reg, 1);
3450
33.2k
      break;
3451
3452
14.4k
    case M68K_AM_REGI_ADDR:
3453
23.8k
    case M68K_AM_REGI_ADDR_DISP:
3454
23.8k
      add_reg_to_rw_list(info, op->reg, 0);
3455
23.8k
      break;
3456
3457
5.10k
    case M68K_AM_AREGI_INDEX_8_BIT_DISP:
3458
7.64k
    case M68K_AM_AREGI_INDEX_BASE_DISP:
3459
9.18k
    case M68K_AM_MEMI_POST_INDEX:
3460
11.1k
    case M68K_AM_MEMI_PRE_INDEX:
3461
11.6k
    case M68K_AM_PCI_INDEX_8_BIT_DISP:
3462
11.6k
    case M68K_AM_PCI_INDEX_BASE_DISP:
3463
11.8k
    case M68K_AM_PC_MEMI_PRE_INDEX:
3464
12.0k
    case M68K_AM_PC_MEMI_POST_INDEX:
3465
12.0k
      add_reg_to_rw_list(info, op->mem.index_reg, 0);
3466
12.0k
      add_reg_to_rw_list(info, op->mem.base_reg, 0);
3467
12.0k
      break;
3468
3469
    // no register(s) in the other addressing modes
3470
5.18k
    default:
3471
5.18k
      break;
3472
75.2k
  }
3473
75.2k
}
3474
3475
static void update_bits_range(m68k_info *info, m68k_reg reg_start, uint8_t bits, int write)
3476
9.92k
{
3477
9.92k
  int i;
3478
3479
89.2k
  for (i = 0; i < 8; ++i) {
3480
79.3k
    if (bits & (1 << i)) {
3481
16.2k
      add_reg_to_rw_list(info, reg_start + i, write);
3482
16.2k
    }
3483
79.3k
  }
3484
9.92k
}
3485
3486
static void update_reg_list_regbits(m68k_info *info, cs_m68k_op *op, int write)
3487
3.30k
{
3488
3.30k
  uint32_t bits = op->register_bits;
3489
3.30k
  update_bits_range(info, M68K_REG_D0, bits & 0xff, write);
3490
3.30k
  update_bits_range(info, M68K_REG_A0, (bits >> 8) & 0xff, write);
3491
3.30k
  update_bits_range(info, M68K_REG_FP0, (bits >> 16) & 0xff, write);
3492
3.30k
}
3493
3494
static void update_op_reg_list(m68k_info *info, cs_m68k_op *op, int write)
3495
306k
{
3496
306k
  switch ((int)op->type) {
3497
143k
    case M68K_OP_REG:
3498
143k
      add_reg_to_rw_list(info, op->reg, write);
3499
143k
      break;
3500
3501
75.2k
    case M68K_OP_MEM:
3502
75.2k
      update_am_reg_list(info, op, write);
3503
75.2k
      break;
3504
3505
3.30k
    case M68K_OP_REG_BITS:
3506
3.30k
      update_reg_list_regbits(info, op, write);
3507
3.30k
      break;
3508
3509
1.01k
    case M68K_OP_REG_PAIR:
3510
1.01k
      add_reg_to_rw_list(info, op->reg_pair.reg_0, write);
3511
1.01k
      add_reg_to_rw_list(info, op->reg_pair.reg_1, write);
3512
1.01k
      break;
3513
306k
  }
3514
306k
}
3515
3516
static void build_regs_read_write_counts(m68k_info *info)
3517
181k
{
3518
181k
  int i;
3519
3520
181k
  if (!info->extension.op_count)
3521
1.83k
    return;
3522
3523
179k
  if (info->extension.op_count == 1) {
3524
54.7k
    update_op_reg_list(info, &info->extension.operands[0], 1);
3525
125k
  } else {
3526
    // first operand is always read
3527
125k
    update_op_reg_list(info, &info->extension.operands[0], 0);
3528
3529
    // remaning write
3530
252k
    for (i = 1; i < info->extension.op_count; ++i)
3531
127k
      update_op_reg_list(info, &info->extension.operands[i], 1);
3532
125k
  }
3533
179k
}
3534
3535
static void m68k_setup_internals(m68k_info* info, MCInst* inst, unsigned int pc, unsigned int cpu_type)
3536
182k
{
3537
182k
  info->inst = inst;
3538
182k
  info->pc = pc;
3539
182k
  info->ir = 0;
3540
182k
  info->type = cpu_type;
3541
182k
  info->address_mask = 0xffffffff;
3542
3543
182k
  switch(info->type) {
3544
59.4k
    case M68K_CPU_TYPE_68000:
3545
59.4k
      info->type = TYPE_68000;
3546
59.4k
      info->address_mask = 0x00ffffff;
3547
59.4k
      break;
3548
0
    case M68K_CPU_TYPE_68010:
3549
0
      info->type = TYPE_68010;
3550
0
      info->address_mask = 0x00ffffff;
3551
0
      break;
3552
0
    case M68K_CPU_TYPE_68EC020:
3553
0
      info->type = TYPE_68020;
3554
0
      info->address_mask = 0x00ffffff;
3555
0
      break;
3556
0
    case M68K_CPU_TYPE_68020:
3557
0
      info->type = TYPE_68020;
3558
0
      info->address_mask = 0xffffffff;
3559
0
      break;
3560
0
    case M68K_CPU_TYPE_68030:
3561
0
      info->type = TYPE_68030;
3562
0
      info->address_mask = 0xffffffff;
3563
0
      break;
3564
122k
    case M68K_CPU_TYPE_68040:
3565
122k
      info->type = TYPE_68040;
3566
122k
      info->address_mask = 0xffffffff;
3567
122k
      break;
3568
0
    default:
3569
0
      info->address_mask = 0;
3570
0
      return;
3571
182k
  }
3572
182k
}
3573
3574
/* ======================================================================== */
3575
/* ================================= API ================================== */
3576
/* ======================================================================== */
3577
3578
/* Disasemble one instruction at pc and store in str_buff */
3579
static unsigned int m68k_disassemble(m68k_info *info, uint64_t pc)
3580
182k
{
3581
182k
  MCInst *inst = info->inst;
3582
182k
  cs_m68k* ext = &info->extension;
3583
182k
  int i;
3584
182k
  unsigned int size;
3585
3586
182k
  inst->Opcode = M68K_INS_INVALID;
3587
3588
182k
  memset(ext, 0, sizeof(cs_m68k));
3589
182k
  ext->op_size.type = M68K_SIZE_TYPE_CPU;
3590
3591
910k
  for (i = 0; i < M68K_OPERAND_COUNT; ++i)
3592
728k
    ext->operands[i].type = M68K_OP_REG;
3593
3594
182k
  info->ir = peek_imm_16(info);
3595
182k
  if (instruction_is_valid(info, peek_imm_32(info) & 0xffff)) {
3596
181k
    info->ir = read_imm_16(info);
3597
181k
    g_instruction_table[info->ir].instruction(info);
3598
181k
  }
3599
3600
182k
  size = info->pc - (unsigned int)pc;
3601
182k
  info->pc = (unsigned int)pc;
3602
3603
182k
  return size;
3604
182k
}
3605
3606
bool M68K_getInstruction(csh ud, const uint8_t* code, size_t code_len, MCInst* instr, uint16_t* size, uint64_t address, void* inst_info)
3607
182k
{
3608
#ifdef M68K_DEBUG
3609
  SStream ss;
3610
#endif
3611
182k
  int s;
3612
182k
  int cpu_type = M68K_CPU_TYPE_68000;
3613
182k
  cs_struct* handle = instr->csh;
3614
182k
  m68k_info *info = (m68k_info*)handle->printer_info;
3615
3616
  // code len has to be at least 2 bytes to be valid m68k
3617
3618
182k
  if (code_len < 2) {
3619
610
    *size = 0;
3620
610
    return false;
3621
610
  }
3622
3623
182k
  if (instr->flat_insn->detail) {
3624
182k
    memset(instr->flat_insn->detail, 0, offsetof(cs_detail, m68k)+sizeof(cs_m68k));
3625
182k
  }
3626
3627
182k
  info->groups_count = 0;
3628
182k
  info->regs_read_count = 0;
3629
182k
  info->regs_write_count = 0;
3630
182k
  info->code = code;
3631
182k
  info->code_len = code_len;
3632
182k
  info->baseAddress = address;
3633
3634
182k
  if (handle->mode & CS_MODE_M68K_010)
3635
0
    cpu_type = M68K_CPU_TYPE_68010;
3636
182k
  if (handle->mode & CS_MODE_M68K_020)
3637
0
    cpu_type = M68K_CPU_TYPE_68020;
3638
182k
  if (handle->mode & CS_MODE_M68K_030)
3639
0
    cpu_type = M68K_CPU_TYPE_68030;
3640
182k
  if (handle->mode & CS_MODE_M68K_040)
3641
122k
    cpu_type = M68K_CPU_TYPE_68040;
3642
182k
  if (handle->mode & CS_MODE_M68K_060)
3643
0
    cpu_type = M68K_CPU_TYPE_68040; // 060 = 040 for now
3644
3645
182k
  m68k_setup_internals(info, instr, (unsigned int)address, cpu_type);
3646
182k
  s = m68k_disassemble(info, address);
3647
3648
182k
  if (s == 0) {
3649
496
    *size = 2;
3650
496
    return false;
3651
496
  }
3652
3653
181k
  build_regs_read_write_counts(info);
3654
3655
#ifdef M68K_DEBUG
3656
  SStream_Init(&ss);
3657
  M68K_printInst(instr, &ss, info);
3658
#endif
3659
3660
  // Make sure we always stay within range
3661
181k
  if (s > (int)code_len)
3662
755
    *size = (uint16_t)code_len;
3663
180k
  else
3664
180k
    *size = (uint16_t)s;
3665
3666
  return true;
3667
182k
}
3668