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[/] [plasma/] [trunk/] [tools/] [mlite.c] - Blame information for rev 41

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1 41 rhoads
/*-------------------------------------------------------------------
2
-- TITLE: M-lite CPU in software.  Executes MIPS(tm) opcodes.
3
-- AUTHOR: Steve Rhoads (rhoadss@yahoo.com)
4
-- DATE CREATED: 1/31/01
5
-- FILENAME: mlite.c
6
-- PROJECT: M-lite CPU core
7
-- COPYRIGHT: Software placed into the public domain by the author.
8
--    Software 'as is' without warranty.  Author liable for nothing.
9
-- DESCRIPTION:
10
--   M-lite CPU simulator in C code.
11
--   This file served as the starting point for the VHDL code.
12
--------------------------------------------------------------------*/
13
#include <stdio.h>
14
#include <stdlib.h>
15
#include <string.h>
16
#include <ctype.h>
17
 
18
#define MEM_SIZE (1024*1024*2)
19
#define ntohs(A) ( ((A)>>8) | (((A)&0xff)<<8) )
20
#define htons(A) ntohs(A)
21
#define ntohl(A) ( ((A)>>24) | (((A)&0xff0000)>>8) | (((A)&0xff00)<<8) | ((A)<<24) )
22
#define htonl(A) ntohl(A)
23
 
24
int getch(void);
25
 
26
typedef struct {
27
   long r[32];
28
   long pc,pc_next;
29
   long hi;
30
   long lo;
31
   long skip;
32
   char *mem;
33
   long wakeup;
34
   long big_endian;
35
} State;
36
 
37
static char *opcode_string[]={
38
   "SPECIAL","REGIMM","J","JAL","BEQ","BNE","BLEZ","BGTZ",
39
   "ADDI","ADDIU","SLTI","SLTIU","ANDI","ORI","XORI","LUI",
40
   "COP0","COP1","COP2","COP3","BEQL","BNEL","BLEZL","BGTZL",
41
   "?","?","?","?","?","?","?","?",
42
   "LB","LH","LWL","LW","LBU","LHU","LWR","?",
43
   "SB","SH","SWL","SW","?","?","SWR","CACHE",
44
   "LL","LWC1","LWC2","LWC3","?","LDC1","LDC2","LDC3"
45
   "SC","SWC1","SWC2","SWC3","?","SDC1","SDC2","SDC3"
46
};
47
 
48
static char *special_string[]={
49
   "SLL","?","SRL","SRA","SLLV","?","SRLV","SRAV",
50
   "JR","JALR","MOVZ","MOVN","SYSCALL","BREAK","?","SYNC",
51
   "MFHI","MTHI","MFLO","MTLO","?","?","?","?",
52
   "MULT","MULTU","DIV","DIVU","?","?","?","?",
53
   "ADD","ADDU","SUB","SUBU","AND","OR","XOR","NOR",
54
   "?","?","SLT","SLTU","?","DADDU","?","?",
55
   "TGE","TGEU","TLT","TLTU","TEQ","?","TNE","?",
56
   "?","?","?","?","?","?","?","?"
57
};
58
 
59
static char *regimm_string[]={
60
   "BLTZ","BGEZ","BLTZL","BGEZL","?","?","?","?",
61
   "TGEI","TGEIU","TLTI","TLTIU","TEQI","?","TNEI","?",
62
   "BLTZAL","BEQZAL","BLTZALL","BGEZALL","?","?","?","?",
63
   "?","?","?","?","?","?","?","?"
64
};
65
 
66
static long big_endian=0;
67
 
68
static long mem_read(State *s,long size,unsigned long address)
69
{
70
   unsigned long value=0,ptr;
71
   address%=MEM_SIZE;
72
   ptr=(long)s->mem+address;
73
   switch(size) {
74
      case 4: value=*(long*)ptr;
75
         if(big_endian) value=ntohl(value);
76
         break;
77
      case 2:
78
         value=*(unsigned short*)ptr;
79
         if(big_endian) value=ntohs((unsigned short)value);
80
         break;
81
      case 1:
82
         value=*(unsigned char*)ptr;
83
         break;
84
      default: printf("ERROR");
85
   }
86
   return(value);
87
}
88
 
89
static void mem_write(State *s,long size,long unsigned address,unsigned long value)
90
{
91
   static char_count=0;
92
   unsigned long ptr;
93
   if(address==0xffff) {          //UART write register at 0xffff
94
      value&=0xff;
95
      if(isprint(value)) {
96
         printf("%c",value);
97
         if(++char_count>=72) {
98
            printf("\n");
99
            char_count=0;
100
         }
101
      } else if(value=='\n') {
102
         printf("\n");
103
         char_count=0;
104
      } else {
105
         printf(".");
106
      }
107
   }
108
   address%=MEM_SIZE;
109
   ptr=(long)s->mem+address;
110
   switch(size) {
111
      case 4: if(big_endian) value=htonl(value);
112
         *(long*)ptr=value;
113
         break;
114
      case 2:
115
         if(big_endian) {
116
            value=htons((unsigned short)value);
117
         }
118
         *(short*)ptr=(unsigned short)value;
119
         break;
120
      case 1:
121
         *(char*)ptr=(unsigned char)value;
122
         break;
123
      default: printf("ERROR");
124
   }
125
}
126
 
127
void mult_big(unsigned long a,unsigned long b,
128
              unsigned long *hi,unsigned long *lo)
129
{
130
   unsigned long ahi,alo,bhi,blo;
131
   unsigned long answer[3];
132
   ahi=a>>16;
133
   alo=a&0xffff;
134
   bhi=b>>16;
135
   blo=b&0xffff;
136
   answer[0]=alo*blo;
137
   answer[1]=ahi*blo+bhi*alo+(answer[0]>>16);
138
   answer[0]&=0xffff;
139
   answer[2]=ahi*bhi+(answer[1]>>16);
140
   answer[1]&=0xffff;
141
   *hi=answer[2];
142
   *lo=(answer[1]<<16)+answer[0];
143
}
144
 
145
//execute one cycle of a M-lite CPU
146
void cycle(State *s,int show_mode)
147
{
148
   unsigned long opcode;
149
   unsigned long op,rs,rt,rd,re,func,imm,target;
150
   long imm_shift,branch=0,lbranch=2;
151
   long *r=s->r;
152
   unsigned long *u=(unsigned long*)s->r;
153
   unsigned long ptr;
154
   opcode=mem_read(s,4,s->pc);
155
   op=(opcode>>26)&0x3f;
156
   rs=(opcode>>21)&0x1f;
157
   rt=(opcode>>16)&0x1f;
158
   rd=(opcode>>11)&0x1f;
159
   re=(opcode>>6)&0x1f;
160
   func=opcode&0x3f;
161
   imm=opcode&0xffff;
162
   imm_shift=(((long)(short)imm)<<2)-4;
163
   target=(opcode<<6)>>4;
164
   ptr=(short)imm+r[rs];
165
   r[0]=0;
166
   if(show_mode) {
167
      printf("%8.8lx %8.8lx ",s->pc,opcode);
168
      if(op==0) printf("%8s ",special_string[func]);
169
      else if(op==1) printf("%8s ",regimm_string[rt]);
170
      else printf("%8s ",opcode_string[op]);
171
      printf("$%2.2ld $%2.2ld $%2.2ld $%2.2ld ",rs,rt,rd,re);
172
      printf("%4.4lx\n",imm);
173
   }
174
   if(show_mode>5) return;
175
   s->pc=s->pc_next;
176
   s->pc_next=s->pc_next+4;
177
   if(s->skip) {
178
      s->skip=0;
179
      return;
180
   }
181
   switch(op) {
182
      case 0x00:/*SPECIAL*/
183
         switch(func) {
184
            case 0x00:/*SLL*/  r[rd]=r[rt]<<re;          break;
185
            case 0x02:/*SRL*/  r[rd]=u[rt]>>re;          break;
186
            case 0x03:/*SRA*/  r[rd]=r[rt]>>re;          break;
187
            case 0x04:/*SLLV*/ r[rd]=r[rt]<<r[rs];       break;
188
            case 0x06:/*SRLV*/ r[rd]=u[rt]>>r[rs];       break;
189
            case 0x07:/*SRAV*/ r[rd]=r[rt]>>r[rs];       break;
190
            case 0x08:/*JR*/   s->pc_next=r[rs];         break;
191
            case 0x09:/*JALR*/ r[rd]=s->pc_next; s->pc_next=r[rs]; break;
192
            case 0x0a:/*MOVZ*/ if(!r[rt]) r[rd]=r[rs];   break;  /*IV*/
193
            case 0x0b:/*MOVN*/ if(r[rt]) r[rd]=r[rs];    break;  /*IV*/
194
            case 0x0c:/*SYSCALL*/                        break;
195
            case 0x0d:/*BREAK*/ s->wakeup=1; break;
196
            case 0x0f:/*SYNC*/ s->wakeup=1; break;
197
            case 0x10:/*MFHI*/ r[rd]=s->hi;              break;
198
            case 0x11:/*FTHI*/ s->hi=r[rs];              break;
199
            case 0x12:/*MFLO*/ r[rd]=s->lo;              break;
200
            case 0x13:/*MTLO*/ s->lo=r[rs];              break;
201
            case 0x18:/*MULT*/
202
            case 0x19:/*MULTU*/ //s->lo=r[rs]*r[rt]; s->hi=0; break;
203
                               mult_big(r[rs],r[rt],&s->hi,&s->lo); break;
204
            case 0x1a:/*DIV*/  s->lo=r[rs]/r[rt]; s->hi=r[rs]%r[rt]; break;
205
            case 0x1b:/*DIVU*/ s->lo=u[rs]/u[rt]; s->hi=u[rs]%u[rt]; break;
206
            case 0x20:/*ADD*/  r[rd]=r[rs]+r[rt];        break;
207
            case 0x21:/*ADDU*/ r[rd]=r[rs]+r[rt];        break;
208
            case 0x22:/*SUB*/  r[rd]=r[rs]-r[rt];        break;
209
            case 0x23:/*SUBU*/ r[rd]=r[rs]-r[rt];        break;
210
            case 0x24:/*AND*/  r[rd]=r[rs]&r[rt];        break;
211
            case 0x25:/*OR*/   r[rd]=r[rs]|r[rt];        break;
212
            case 0x26:/*XOR*/  r[rd]=r[rs]^r[rt];        break;
213
            case 0x27:/*NOR*/  r[rd]=~(r[rs]|r[rt]);     break;
214
            case 0x2a:/*SLT*/  r[rd]=r[rs]<r[rt];        break;
215
            case 0x2b:/*SLTU*/ r[rd]=u[rs]<u[rt];        break;
216
            case 0x2d:/*DADDU*/r[rd]=r[rs]+u[rt];        break;
217
            case 0x31:/*TGEU*/ break;
218
            case 0x32:/*TLT*/  break;
219
            case 0x33:/*TLTU*/ break;
220
            case 0x34:/*TEQ*/  break;
221
            case 0x36:/*TNE*/  break;
222
            default: printf("ERROR0(*0x%x~0x%x)\n",s->pc,opcode);
223
               s->wakeup=1;
224
         }
225
         break;
226
      case 0x01:/*REGIMM*/
227
         switch(rt) {
228
            case 0x10:/*BLTZAL*/ r[31]=s->pc_next;
229
            case 0x00:/*BLTZ*/   branch=r[rs]<0;   break;
230
            case 0x11:/*BGEZAL*/ r[31]=s->pc_next;
231
            case 0x01:/*BGEZ*/   branch=r[rs]>=0;  break;
232
            case 0x12:/*BLTZALL*/r[31]=s->pc_next;
233
            case 0x02:/*BLTZL*/  lbranch=r[rs]<0;  break;
234
            case 0x13:/*BGEZALL*/r[31]=s->pc_next;
235
            case 0x03:/*BGEZL*/  lbranch=r[rs]>=0; break;
236
            default: printf("ERROR1\n"); s->wakeup=1;
237
          }
238
         break;
239
      case 0x03:/*JAL*/    r[31]=s->pc_next;
240
      case 0x02:/*J*/      s->pc_next=(s->pc&0xf0000000)|target; break;
241
      case 0x04:/*BEQ*/    branch=r[rs]==r[rt];     break;
242
      case 0x05:/*BNE*/    branch=r[rs]!=r[rt];     break;
243
      case 0x06:/*BLEZ*/   branch=r[rs]<=0;         break;
244
      case 0x07:/*BGTZ*/   branch=r[rs]>0;          break;
245
      case 0x08:/*ADDI*/   r[rt]=r[rs]+(short)imm;  break;
246
      case 0x09:/*ADDIU*/  u[rt]=u[rs]+(short)imm;  break;
247
      case 0x0a:/*SLTI*/   r[rt]=r[rs]<(short)imm;  break;
248
      case 0x0b:/*SLTIU*/  u[rt]=u[rs]<(unsigned long)(short)imm; break;
249
      case 0x0c:/*ANDI*/   r[rt]=r[rs]&imm;         break;
250
      case 0x0d:/*ORI*/    r[rt]=r[rs]|imm;         break;
251
      case 0x0e:/*XORI*/   r[rt]=r[rs]^imm;         break;
252
      case 0x0f:/*LUI*/    r[rt]=(imm<<16);         break;
253
      case 0x10:/*COP0*/ break;
254
//      case 0x11:/*COP1*/ break;
255
//      case 0x12:/*COP2*/ break;
256
//      case 0x13:/*COP3*/ break;
257
      case 0x14:/*BEQL*/   lbranch=r[rs]==r[rt];    break;
258
      case 0x15:/*BNEL*/   lbranch=r[rs]!=r[rt];    break;
259
      case 0x16:/*BLEZL*/  lbranch=r[rs]<=0;        break;
260
      case 0x17:/*BGTZL*/  lbranch=r[rs]>0;         break;
261
//      case 0x1c:/*MAD*/  break;   /*IV*/
262
      case 0x20:/*LB*/   r[rt]=(signed char)mem_read(s,1,ptr);  break;
263
      case 0x21:/*LH*/   r[rt]=(signed short)mem_read(s,2,ptr); break;
264
      case 0x22:/*LWL*/  rt=rt; //fixme fall through
265
      case 0x23:/*LW*/   r[rt]=mem_read(s,4,ptr);   break;
266
      case 0x24:/*LBU*/  r[rt]=(unsigned char)mem_read(s,1,ptr); break;
267
      case 0x25:/*LHU*/  r[rt]=(unsigned short)mem_read(s,2,ptr); break;
268
      case 0x26:/*LWR*/  break; //fixme
269
      case 0x28:/*SB*/   mem_write(s,1,ptr,r[rt]);  break;
270
      case 0x29:/*SH*/   mem_write(s,2,ptr,r[rt]);  break;
271
      case 0x2a:/*SWL*/  rt=rt; //fixme fall through
272
      case 0x2b:/*SW*/   mem_write(s,4,ptr,r[rt]);  break;
273
      case 0x2e:/*SWR*/  break; //fixme
274
      case 0x2f:/*CACHE*/break;
275
      case 0x30:/*LL*/   r[rt]=mem_read(s,4,ptr);   break;
276
//      case 0x31:/*LWC1*/ break;
277
//      case 0x32:/*LWC2*/ break;
278
//      case 0x33:/*LWC3*/ break;
279
//      case 0x35:/*LDC1*/ break;
280
//      case 0x36:/*LDC2*/ break;
281
//      case 0x37:/*LDC3*/ break;
282
//      case 0x38:/*SC*/     *(long*)ptr=r[rt]; r[rt]=1; break;
283
      case 0x38:/*SC*/     mem_write(s,4,ptr,r[rt]); r[rt]=1; break;
284
//      case 0x39:/*SWC1*/ break;
285
//      case 0x3a:/*SWC2*/ break;
286
//      case 0x3b:/*SWC3*/ break;
287
//      case 0x3d:/*SDC1*/ break;
288
//      case 0x3e:/*SDC2*/ break;
289
//      case 0x3f:/*SDC3*/ break;
290
      default: printf("ERROR2 address=0x%x opcode=0x%x\n",
291
         s->pc,opcode); s->wakeup=1;
292
//         exit(0);
293
   }
294
   s->pc_next+=branch|(lbranch==1)?imm_shift:0;
295
   s->skip=(lbranch==0);
296
}
297
 
298
void show_state(State *s)
299
{
300
   long i,j;
301
   for(i=0;i<4;++i) {
302
      printf("%2.2ld ",i*8);
303
      for(j=0;j<8;++j) {
304
         printf("%8.8lx ",s->r[i*8+j]);
305
      }
306
      printf("\n");
307
   }
308
   printf("%8.8lx %8.8lx %8.8lx %8.8lx\n",s->pc,s->pc_next,s->hi,s->lo);
309
   j=s->pc;
310
   for(i=-4;i<=8;++i) {
311
      printf("%c",i==0?'*':' ');
312
      s->pc=j+i*4;
313
      cycle(s,10);
314
   }
315
   s->pc=j;
316
}
317
 
318
void do_debug(State *s)
319
{
320
   int ch;
321
   long i,j=0,watch=0,addr;
322
   s->pc_next=s->pc+4;
323
   s->skip=0;
324
   s->wakeup=0;
325
   show_state(s);
326
   for(;;) {
327
      if(watch) printf("0x%8.8lx=0x%8.8lx\n",watch,mem_read(s,4,watch));
328
      printf("1=Debug 2=Trace 3=Step 4=BreakPt 5=Go 6=Memory ");
329
      printf("7=Watch 8=Jump 9=Quit> ");
330
      ch=getch();
331
      printf("\n");
332
      switch(ch) {
333
      case '1': case 'd': case ' ': cycle(s,0); show_state(s); break;
334
      case '2': case 't': cycle(s,0); printf("*"); cycle(s,10); break;
335
      case '3': case 's':
336
         printf("Count> ");
337
         scanf("%ld",&j);
338
         for(i=0;i<j;++i) cycle(s,0);
339
         show_state(s);
340
         break;
341
      case '4': case 'b':
342
         printf("Line> ");
343
         scanf("%lx",&j);
344
         break;
345
      case '5': case 'g':
346
         s->wakeup=0;
347
         while(s->wakeup==0) {
348
            if(s->pc==j) break;
349
            cycle(s,0);
350
         }
351
         show_state(s);
352
         break;
353
      case '6': case 'm':
354
         printf("Memory> ");
355
         scanf("%lx",&j);
356
         for(i=0;i<8;++i) {
357
            printf("%8.8lx ",mem_read(s,4,j+i*4));
358
         }
359
         printf("\n");
360
         break;
361
      case '7': case 'w':
362
         printf("Watch> ");
363
         scanf("%lx",&watch);
364
         break;
365
      case '8': case 'j':
366
         printf("Jump> ");
367
         scanf("%lx",&addr);
368
         s->pc=addr;
369
         s->pc_next=addr+4;
370
         show_state(s);
371
         break;
372
      case '9': case 'q': return;
373
      }
374
   }
375
}
376
/************************************************************/
377
 
378
int main(int argc,char *argv[])
379
{
380
   State state,*s=&state;
381
   FILE *in;
382
   long bytes,index;
383
   printf("M-lite emulator\n");
384
   memset(s,0,sizeof(State));
385
   s->big_endian=0;
386
   s->mem=malloc(MEM_SIZE);
387
   if(argc<=1) {
388
      printf("   Usage:  mlite file.exe\n");
389
      printf("           mlite file.exe B   {for big_endian}\n");
390
      printf("           mlite file.exe DD  {disassemble}\n");
391
      printf("           mlite file.exe BD  {disassemble big_endian}\n");
392
      return 0;
393
   }
394
   in=fopen(argv[1],"rb");
395
   if(in==NULL) { printf("Can't open file %s!\n",argv[1]); getch(); return(0); }
396
   bytes=fread(s->mem,1,MEM_SIZE,in);
397
   fclose(in);
398
   printf("Read %ld bytes.\n",bytes);
399
   if(argc==3&&argv[2][0]=='B') {
400
      printf("Big Endian\n");
401
      s->big_endian=1;
402
      big_endian=1;
403
   }
404
   if(argc==3&&argv[2][0]=='S') {   /*make big endian*/
405
      printf("Big Endian\n");
406
      for(index=0;index<bytes+3;index+=4) {
407
         *(unsigned long*)&s->mem[index]=htonl(*(unsigned long*)&s->mem[index]);
408
      }
409
      in=fopen("big.exe","wb");
410
      fwrite(s->mem,bytes,1,in);
411
      fclose(in);
412
      return(0);
413
   }
414
   if(argc==3&&argv[2][1]=='D') {   /*dump image*/
415
      for(index=0;index<bytes;index+=4) {
416
         s->pc=index;
417
         cycle(s,10);
418
      }
419
      free(s->mem);
420
      return(0);
421
   }
422
   s->pc=0x0;
423
   do_debug(s);
424
   free(s->mem);
425
   return(0);
426
}
427
 

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