Revert "virtio: sync the dataplane vring state to the virtqueue before virtio_save"
[qemu/cris-port.git] / disas / moxie.c
blob70b49ed74bc5c4a2fe9fb840662f78cc51a4a38e
1 /* Disassemble moxie instructions.
2 Copyright (c) 2009 Free Software Foundation, Inc.
4 This program is free software; you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation; either version 2 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program; if not, see <http://www.gnu.org/licenses/>. */
17 #include "qemu/osdep.h"
18 #define STATIC_TABLE
19 #define DEFINE_TABLE
21 #include "disas/bfd.h"
23 static void *stream;
25 /* Form 1 instructions come in different flavors:
27 Some have no arguments (MOXIE_F1_NARG)
28 Some only use the A operand (MOXIE_F1_A)
29 Some use A and B registers (MOXIE_F1_AB)
30 Some use A and consume a 4 byte immediate value (MOXIE_F1_A4)
31 Some use just a 4 byte immediate value (MOXIE_F1_4)
32 Some use just a 4 byte memory address (MOXIE_F1_M)
33 Some use B and an indirect A (MOXIE_F1_AiB)
34 Some use A and an indirect B (MOXIE_F1_ABi)
35 Some consume a 4 byte immediate value and use X (MOXIE_F1_4A)
36 Some use B and an indirect A plus 4 bytes (MOXIE_F1_AiB4)
37 Some use A and an indirect B plus 4 bytes (MOXIE_F1_ABi4)
39 Form 2 instructions also come in different flavors:
41 Some have no arguments (MOXIE_F2_NARG)
42 Some use the A register and an 8-bit value (MOXIE_F2_A8V)
44 Form 3 instructions also come in different flavors:
46 Some have no arguments (MOXIE_F3_NARG)
47 Some have a 10-bit PC relative operand (MOXIE_F3_PCREL). */
49 #define MOXIE_F1_NARG 0x100
50 #define MOXIE_F1_A 0x101
51 #define MOXIE_F1_AB 0x102
52 /* #define MOXIE_F1_ABC 0x103 */
53 #define MOXIE_F1_A4 0x104
54 #define MOXIE_F1_4 0x105
55 #define MOXIE_F1_AiB 0x106
56 #define MOXIE_F1_ABi 0x107
57 #define MOXIE_F1_4A 0x108
58 #define MOXIE_F1_AiB4 0x109
59 #define MOXIE_F1_ABi4 0x10a
60 #define MOXIE_F1_M 0x10b
62 #define MOXIE_F2_NARG 0x200
63 #define MOXIE_F2_A8V 0x201
65 #define MOXIE_F3_NARG 0x300
66 #define MOXIE_F3_PCREL 0x301
68 typedef struct moxie_opc_info_t {
69 short opcode;
70 unsigned itype;
71 const char * name;
72 } moxie_opc_info_t;
74 extern const moxie_opc_info_t moxie_form1_opc_info[64];
75 extern const moxie_opc_info_t moxie_form2_opc_info[4];
76 extern const moxie_opc_info_t moxie_form3_opc_info[16];
78 /* The moxie processor's 16-bit instructions come in two forms:
80 FORM 1 instructions start with a 0 bit...
82 0oooooooaaaabbbb
83 0 F
85 ooooooo - form 1 opcode number
86 aaaa - operand A
87 bbbb - operand B
89 FORM 2 instructions start with bits "10"...
91 10ooaaaavvvvvvvv
92 0 F
94 oo - form 2 opcode number
95 aaaa - operand A
96 vvvvvvvv - 8-bit immediate value
98 FORM 3 instructions start with a bits "11"...
100 11oooovvvvvvvvvv
103 oooo - form 3 opcode number
104 vvvvvvvvvv - 10-bit immediate value. */
106 const moxie_opc_info_t moxie_form1_opc_info[64] =
108 { 0x00, MOXIE_F1_NARG, "nop" },
109 { 0x01, MOXIE_F1_A4, "ldi.l" },
110 { 0x02, MOXIE_F1_AB, "mov" },
111 { 0x03, MOXIE_F1_M, "jsra" },
112 { 0x04, MOXIE_F1_NARG, "ret" },
113 { 0x05, MOXIE_F1_AB, "add.l" },
114 { 0x06, MOXIE_F1_AB, "push" },
115 { 0x07, MOXIE_F1_AB, "pop" },
116 { 0x08, MOXIE_F1_A4, "lda.l" },
117 { 0x09, MOXIE_F1_4A, "sta.l" },
118 { 0x0a, MOXIE_F1_ABi, "ld.l" },
119 { 0x0b, MOXIE_F1_AiB, "st.l" },
120 { 0x0c, MOXIE_F1_ABi4, "ldo.l" },
121 { 0x0d, MOXIE_F1_AiB4, "sto.l" },
122 { 0x0e, MOXIE_F1_AB, "cmp" },
123 { 0x0f, MOXIE_F1_NARG, "bad" },
124 { 0x10, MOXIE_F1_NARG, "bad" },
125 { 0x11, MOXIE_F1_NARG, "bad" },
126 { 0x12, MOXIE_F1_NARG, "bad" },
127 { 0x13, MOXIE_F1_NARG, "bad" },
128 { 0x14, MOXIE_F1_NARG, "bad" },
129 { 0x15, MOXIE_F1_NARG, "bad" },
130 { 0x16, MOXIE_F1_NARG, "bad" },
131 { 0x17, MOXIE_F1_NARG, "bad" },
132 { 0x18, MOXIE_F1_NARG, "bad" },
133 { 0x19, MOXIE_F1_A, "jsr" },
134 { 0x1a, MOXIE_F1_M, "jmpa" },
135 { 0x1b, MOXIE_F1_A4, "ldi.b" },
136 { 0x1c, MOXIE_F1_ABi, "ld.b" },
137 { 0x1d, MOXIE_F1_A4, "lda.b" },
138 { 0x1e, MOXIE_F1_AiB, "st.b" },
139 { 0x1f, MOXIE_F1_4A, "sta.b" },
140 { 0x20, MOXIE_F1_A4, "ldi.s" },
141 { 0x21, MOXIE_F1_ABi, "ld.s" },
142 { 0x22, MOXIE_F1_A4, "lda.s" },
143 { 0x23, MOXIE_F1_AiB, "st.s" },
144 { 0x24, MOXIE_F1_4A, "sta.s" },
145 { 0x25, MOXIE_F1_A, "jmp" },
146 { 0x26, MOXIE_F1_AB, "and" },
147 { 0x27, MOXIE_F1_AB, "lshr" },
148 { 0x28, MOXIE_F1_AB, "ashl" },
149 { 0x29, MOXIE_F1_AB, "sub.l" },
150 { 0x2a, MOXIE_F1_AB, "neg" },
151 { 0x2b, MOXIE_F1_AB, "or" },
152 { 0x2c, MOXIE_F1_AB, "not" },
153 { 0x2d, MOXIE_F1_AB, "ashr" },
154 { 0x2e, MOXIE_F1_AB, "xor" },
155 { 0x2f, MOXIE_F1_AB, "mul.l" },
156 { 0x30, MOXIE_F1_4, "swi" },
157 { 0x31, MOXIE_F1_AB, "div.l" },
158 { 0x32, MOXIE_F1_AB, "udiv.l" },
159 { 0x33, MOXIE_F1_AB, "mod.l" },
160 { 0x34, MOXIE_F1_AB, "umod.l" },
161 { 0x35, MOXIE_F1_NARG, "brk" },
162 { 0x36, MOXIE_F1_ABi4, "ldo.b" },
163 { 0x37, MOXIE_F1_AiB4, "sto.b" },
164 { 0x38, MOXIE_F1_ABi4, "ldo.s" },
165 { 0x39, MOXIE_F1_AiB4, "sto.s" },
166 { 0x3a, MOXIE_F1_NARG, "bad" },
167 { 0x3b, MOXIE_F1_NARG, "bad" },
168 { 0x3c, MOXIE_F1_NARG, "bad" },
169 { 0x3d, MOXIE_F1_NARG, "bad" },
170 { 0x3e, MOXIE_F1_NARG, "bad" },
171 { 0x3f, MOXIE_F1_NARG, "bad" }
174 const moxie_opc_info_t moxie_form2_opc_info[4] =
176 { 0x00, MOXIE_F2_A8V, "inc" },
177 { 0x01, MOXIE_F2_A8V, "dec" },
178 { 0x02, MOXIE_F2_A8V, "gsr" },
179 { 0x03, MOXIE_F2_A8V, "ssr" }
182 const moxie_opc_info_t moxie_form3_opc_info[16] =
184 { 0x00, MOXIE_F3_PCREL,"beq" },
185 { 0x01, MOXIE_F3_PCREL,"bne" },
186 { 0x02, MOXIE_F3_PCREL,"blt" },
187 { 0x03, MOXIE_F3_PCREL,"bgt" },
188 { 0x04, MOXIE_F3_PCREL,"bltu" },
189 { 0x05, MOXIE_F3_PCREL,"bgtu" },
190 { 0x06, MOXIE_F3_PCREL,"bge" },
191 { 0x07, MOXIE_F3_PCREL,"ble" },
192 { 0x08, MOXIE_F3_PCREL,"bgeu" },
193 { 0x09, MOXIE_F3_PCREL,"bleu" },
194 { 0x0a, MOXIE_F3_NARG, "bad" },
195 { 0x0b, MOXIE_F3_NARG, "bad" },
196 { 0x0c, MOXIE_F3_NARG, "bad" },
197 { 0x0d, MOXIE_F3_NARG, "bad" },
198 { 0x0e, MOXIE_F3_NARG, "bad" },
199 { 0x0f, MOXIE_F3_NARG, "bad" }
202 /* Macros to extract operands from the instruction word. */
203 #define OP_A(i) ((i >> 4) & 0xf)
204 #define OP_B(i) (i & 0xf)
205 #define INST2OFFSET(o) ((((signed short)((o & ((1<<10)-1))<<6))>>6)<<1)
207 static const char * reg_names[16] =
208 { "$fp", "$sp", "$r0", "$r1", "$r2", "$r3", "$r4", "$r5",
209 "$r6", "$r7", "$r8", "$r9", "$r10", "$r11", "$r12", "$r13" };
212 print_insn_moxie(bfd_vma addr, struct disassemble_info * info)
214 int length = 2;
215 int status;
216 stream = info->stream;
217 const moxie_opc_info_t * opcode;
218 bfd_byte buffer[4];
219 unsigned short iword;
220 fprintf_function fpr = info->fprintf_func;
222 if ((status = info->read_memory_func(addr, buffer, 2, info)))
223 goto fail;
224 iword = (bfd_getb16(buffer) >> 16);
226 /* Form 1 instructions have the high bit set to 0. */
227 if ((iword & (1<<15)) == 0) {
228 /* Extract the Form 1 opcode. */
229 opcode = &moxie_form1_opc_info[iword >> 8];
230 switch (opcode->itype) {
231 case MOXIE_F1_NARG:
232 fpr(stream, "%s", opcode->name);
233 break;
234 case MOXIE_F1_A:
235 fpr(stream, "%s\t%s", opcode->name,
236 reg_names[OP_A(iword)]);
237 break;
238 case MOXIE_F1_AB:
239 fpr(stream, "%s\t%s, %s", opcode->name,
240 reg_names[OP_A(iword)],
241 reg_names[OP_B(iword)]);
242 break;
243 case MOXIE_F1_A4:
245 unsigned imm;
246 if ((status = info->read_memory_func(addr + 2, buffer, 4, info)))
247 goto fail;
248 imm = bfd_getb32(buffer);
249 fpr(stream, "%s\t%s, 0x%x", opcode->name,
250 reg_names[OP_A(iword)], imm);
251 length = 6;
253 break;
254 case MOXIE_F1_4:
256 unsigned imm;
257 if ((status = info->read_memory_func(addr + 2, buffer, 4, info)))
258 goto fail;
259 imm = bfd_getb32(buffer);
260 fpr(stream, "%s\t0x%x", opcode->name, imm);
261 length = 6;
263 break;
264 case MOXIE_F1_M:
266 unsigned imm;
267 if ((status = info->read_memory_func(addr + 2, buffer, 4, info)))
268 goto fail;
269 imm = bfd_getb32(buffer);
270 fpr(stream, "%s\t", opcode->name);
271 info->print_address_func((bfd_vma) imm, info);
272 length = 6;
274 break;
275 case MOXIE_F1_AiB:
276 fpr (stream, "%s\t(%s), %s", opcode->name,
277 reg_names[OP_A(iword)], reg_names[OP_B(iword)]);
278 break;
279 case MOXIE_F1_ABi:
280 fpr(stream, "%s\t%s, (%s)", opcode->name,
281 reg_names[OP_A(iword)], reg_names[OP_B(iword)]);
282 break;
283 case MOXIE_F1_4A:
285 unsigned imm;
286 if ((status = info->read_memory_func(addr + 2, buffer, 4, info)))
287 goto fail;
288 imm = bfd_getb32(buffer);
289 fpr(stream, "%s\t0x%x, %s",
290 opcode->name, imm, reg_names[OP_A(iword)]);
291 length = 6;
293 break;
294 case MOXIE_F1_AiB4:
296 unsigned imm;
297 if ((status = info->read_memory_func(addr+2, buffer, 4, info)))
298 goto fail;
299 imm = bfd_getb32(buffer);
300 fpr(stream, "%s\t0x%x(%s), %s", opcode->name,
301 imm,
302 reg_names[OP_A(iword)],
303 reg_names[OP_B(iword)]);
304 length = 6;
306 break;
307 case MOXIE_F1_ABi4:
309 unsigned imm;
310 if ((status = info->read_memory_func(addr+2, buffer, 4, info)))
311 goto fail;
312 imm = bfd_getb32(buffer);
313 fpr(stream, "%s\t%s, 0x%x(%s)",
314 opcode->name,
315 reg_names[OP_A(iword)],
316 imm,
317 reg_names[OP_B(iword)]);
318 length = 6;
320 break;
321 default:
322 abort();
325 else if ((iword & (1<<14)) == 0) {
326 /* Extract the Form 2 opcode. */
327 opcode = &moxie_form2_opc_info[(iword >> 12) & 3];
328 switch (opcode->itype) {
329 case MOXIE_F2_A8V:
330 fpr(stream, "%s\t%s, 0x%x",
331 opcode->name,
332 reg_names[(iword >> 8) & 0xf],
333 iword & ((1 << 8) - 1));
334 break;
335 case MOXIE_F2_NARG:
336 fpr(stream, "%s", opcode->name);
337 break;
338 default:
339 abort();
341 } else {
342 /* Extract the Form 3 opcode. */
343 opcode = &moxie_form3_opc_info[(iword >> 10) & 15];
344 switch (opcode->itype) {
345 case MOXIE_F3_PCREL:
346 fpr(stream, "%s\t", opcode->name);
347 info->print_address_func((bfd_vma) (addr + INST2OFFSET(iword) + 2),
348 info);
349 break;
350 default:
351 abort();
355 return length;
357 fail:
358 info->memory_error_func(status, addr, info);
359 return -1;