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root/cebix/mon/src/mon.cpp
Revision: 1.20
Committed: 2002-09-07T12:48:15Z (22 years, 2 months ago) by gbeauche
Branch: MAIN
Changes since 1.19: +1 -0 lines
Log Message:
Add support for x86-64 disassembly
- mon.cpp (mon_init): new command is "d8664"
- mon_cmd.cpp (disassemble): handle CPU_x86_64, and make it 64-bit aware in
  address dumps
- mon_disass.cpp (disass_x86): s/bool i8086/uint32 bits/ defining the x86
  architecture "size", aka 16 => 8086, 32 => 80x86, 64 => x86-64
- Merge with GNU x86 disassembler as part of binutils 2.12.90.0.15

File Contents

# Content
1 /*
2 * mon.cpp - cxmon main program
3 *
4 * cxmon (C) 1997-2002 Christian Bauer, Marc Hellwig
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19 */
20
21 #include "sysdeps.h"
22
23 #include <stdio.h>
24 #include <stdlib.h>
25 #include <signal.h>
26 #include <ctype.h>
27 #include <string>
28 #include <map>
29
30 #if defined(HAVE_READLINE_H)
31 extern "C" {
32 #include <readline.h>
33 }
34 #elif defined(HAVE_READLINE_READLINE_H)
35 extern "C" {
36 #include <readline/readline.h>
37 }
38 #endif
39
40 #if defined(HAVE_HISTORY_H)
41 extern "C" {
42 #include <history.h>
43 }
44 #elif defined(HAVE_READLINE_HISTORY_H)
45 extern "C" {
46 #include <readline/history.h>
47 }
48 #endif
49
50 #include "mon.h"
51 #include "mon_cmd.h"
52 #include "mon_lowmem.h"
53
54 #ifndef VERSION
55 #define VERSION "3"
56 #endif
57
58
59 // Buffer we're operating on
60 bool mon_use_real_mem = false;
61 uint32 mon_mem_size;
62 static uint8 *mem;
63
64
65 // Streams for input, output and error messages
66 FILE *monin, *monout, *monerr;
67
68 // Input line
69 static char input[INPUT_LENGTH];
70 static char *in_ptr;
71 char *mon_args_ptr;
72
73 // Current address, value of '.' in expressions
74 uintptr mon_dot_address;
75
76 // Current value of ':' in expression
77 static uint32 colon_value;
78
79
80 // Scanner variables
81 enum Token mon_token; // Last token read
82 uintptr mon_number; // Contains the number if mon_token==T_NUMBER
83 char mon_string[INPUT_LENGTH]; // Contains the string if mon_token==T_STRING
84 char mon_name[INPUT_LENGTH]; // Contains the variable name if mon_token==T_NAME
85
86
87 // List of installed commands
88 struct CmdSpec {
89 const char *name; // Name of command
90 void (*func)(void); // Function that executes this command
91 };
92
93 static CmdSpec *cmds; // Array of CmdSpecs
94 static int num_cmds; // Number of installed commands
95 static char *cmd_help; // Help text for commands
96
97
98 // List of variables
99 typedef std::map<std::string, uintptr> var_map;
100 static var_map vars;
101
102
103 // Prototypes
104 static void init_abort(void);
105 static void exit_abort(void);
106
107 static void read_line(char *prompt); // Scanner
108 static char get_char(void);
109 static void put_back(char c);
110 static enum Token get_hex_number(uintptr &i);
111 static enum Token get_dec_number(uintptr &i);
112 static enum Token get_char_number(uintptr &i);
113 static enum Token get_string(char *str);
114 static enum Token get_hex_or_name(uintptr &i, char *name);
115
116 static bool eor_expr(uintptr *number); // Parser
117 static bool and_expr(uintptr *number);
118 static bool shift_expr(uintptr *number);
119 static bool add_expr(uintptr *number);
120 static bool mul_expr(uintptr *number);
121 static bool factor(uintptr *number);
122
123
124 /*
125 * Add command to mon
126 */
127
128 void mon_add_command(const char *name, void (*func)(void), const char *help_text)
129 {
130 num_cmds++;
131 if (cmds)
132 cmds = (CmdSpec *)realloc(cmds, num_cmds * sizeof(CmdSpec));
133 else
134 cmds = (CmdSpec *)malloc(sizeof(CmdSpec));
135 cmds[num_cmds - 1].name = name;
136 cmds[num_cmds - 1].func = func;
137 if (help_text) {
138 if (cmd_help) {
139 cmd_help = (char *)realloc(cmd_help, strlen(cmd_help) + strlen(help_text) + 1);
140 strcat(cmd_help, help_text);
141 } else
142 cmd_help = strdup(help_text);
143 }
144 }
145
146
147 /*
148 * Print error message
149 */
150
151 void mon_error(const char *s)
152 {
153 fprintf(monerr, "*** %s\n", s);
154 }
155
156
157 /*
158 * CTRL-C pressed?
159 */
160
161 static bool was_aborted;
162 static struct sigaction my_sa;
163
164 #ifdef __BEOS__
165 static void handle_abort(int sig, void *arg, vregs *r)
166 #else
167 static void handle_abort(int sig)
168 #endif
169 {
170 was_aborted = true;
171 }
172
173 static void init_abort(void)
174 {
175 was_aborted = false;
176 sigemptyset(&my_sa.sa_mask);
177 #ifdef __BEOS__
178 my_sa.sa_handler = (__signal_func_ptr)handle_abort;
179 my_sa.sa_userdata = 0;
180 #else
181 my_sa.sa_handler = handle_abort;
182 #endif
183 my_sa.sa_flags = 0;
184 sigaction(SIGINT, &my_sa, NULL);
185 }
186
187 static void exit_abort(void)
188 {
189 my_sa.sa_handler = SIG_DFL;
190 sigaction(SIGINT, &my_sa, NULL);
191 }
192
193 bool mon_aborted(void)
194 {
195 bool ret = was_aborted;
196 was_aborted = false;
197 return ret;
198 }
199
200
201 /*
202 * Access to buffer
203 */
204
205 uint32 (*mon_read_byte)(uintptr adr);
206
207 uint32 mon_read_byte_buffer(uintptr adr)
208 {
209 return mem[adr % mon_mem_size];
210 }
211
212 uint32 mon_read_byte_real(uintptr adr)
213 {
214 return *(uint8 *)adr;
215 }
216
217 void (*mon_write_byte)(uintptr adr, uint32 b);
218
219 void mon_write_byte_buffer(uintptr adr, uint32 b)
220 {
221 mem[adr % mon_mem_size] = b;
222 }
223
224 void mon_write_byte_real(uintptr adr, uint32 b)
225 {
226 *(uint8 *)adr = b;
227 }
228
229 uint32 mon_read_half(uintptr adr)
230 {
231 return (mon_read_byte(adr) << 8) | mon_read_byte(adr+1);
232 }
233
234 void mon_write_half(uintptr adr, uint32 w)
235 {
236 mon_write_byte(adr, w >> 8);
237 mon_write_byte(adr+1, w);
238 }
239
240 uint32 mon_read_word(uintptr adr)
241 {
242 return (mon_read_byte(adr) << 24) | (mon_read_byte(adr+1) << 16) | (mon_read_byte(adr+2) << 8) | mon_read_byte(adr+3);
243 }
244
245 void mon_write_word(uintptr adr, uint32 l)
246 {
247 mon_write_byte(adr, l >> 24);
248 mon_write_byte(adr+1, l >> 16);
249 mon_write_byte(adr+2, l >> 8);
250 mon_write_byte(adr+3, l);
251 }
252
253
254 /*
255 * Read a line from the keyboard
256 */
257
258 static void read_line(char *prompt)
259 {
260 #ifdef HAVE_LIBREADLINE
261 static char *line_read = NULL;
262
263 if (line_read) {
264 free(line_read);
265 line_read = NULL;
266 }
267
268 line_read = readline(prompt);
269
270 if (line_read && *line_read)
271 add_history(line_read);
272
273 strncpy(in_ptr = input, line_read, INPUT_LENGTH);
274 input[INPUT_LENGTH-1] = 0;
275 #else
276 fprintf(monout, prompt);
277 fflush(monout);
278 fgets(in_ptr = input, INPUT_LENGTH, monin);
279 char *s = strchr(input, '\n');
280 if (s != NULL)
281 *s = 0;
282 #endif
283 }
284
285
286 /*
287 * Read a character from the input line
288 */
289
290 static char get_char(void)
291 {
292 return *in_ptr++;
293 }
294
295
296 /*
297 * Stuff back a character into the input line
298 */
299
300 static void put_back(char c)
301 {
302 *(--in_ptr) = c;
303 }
304
305
306 /*
307 * Scanner: Get a token from the input line
308 */
309
310 enum Token mon_get_token(void)
311 {
312 char c;
313
314 // Skip spaces
315 while ((c = get_char()) == ' ') ;
316
317 switch (c) {
318 case 0:
319 return mon_token = T_END;
320 case '(':
321 return mon_token = T_LPAREN;
322 case ')':
323 return mon_token = T_RPAREN;
324 case '.':
325 return mon_token = T_DOT;
326 case ':':
327 return mon_token = T_COLON;
328 case ',':
329 return mon_token = T_COMMA;
330 case '+':
331 return mon_token = T_PLUS;
332 case '-':
333 return mon_token = T_MINUS;
334 case '*':
335 return mon_token = T_MUL;
336 case '/':
337 return mon_token = T_DIV;
338 case '%':
339 return mon_token = T_MOD;
340 case '&':
341 return mon_token = T_AND;
342 case '|':
343 return mon_token = T_OR;
344 case '^':
345 return mon_token = T_EOR;
346 case '<':
347 if (get_char() == '<')
348 return mon_token = T_SHIFTL;
349 else {
350 mon_error("Unrecognized token");
351 return mon_token = T_NULL;
352 }
353 case '>':
354 if (get_char() == '>')
355 return mon_token = T_SHIFTR;
356 else {
357 mon_error("Unrecognized token");
358 return mon_token = T_NULL;
359 }
360 case '~':
361 return mon_token = T_NOT;
362 case '=':
363 return mon_token = T_ASSIGN;
364
365 case '$':
366 if ((mon_token = get_hex_number(mon_number)) == T_NULL)
367 mon_error("'$' must be followed by hexadecimal number");
368 return mon_token;
369 case '_':
370 if ((mon_token = get_dec_number(mon_number)) == T_NULL)
371 mon_error("'_' must be followed by decimal number");
372 return mon_token;
373 case '\'':
374 return mon_token = get_char_number(mon_number);
375 case '"':
376 return mon_token = get_string(mon_string);
377
378 default:
379 if (isalnum(c)) {
380 put_back(c);
381 return mon_token = get_hex_or_name(mon_number, mon_name);
382 }
383 mon_error("Unrecognized token");
384 return mon_token = T_NULL;
385 }
386 }
387
388 static enum Token get_hex_number(uintptr &i)
389 {
390 char c = get_char();
391
392 i = 0;
393 if (!isxdigit(c))
394 return T_NULL;
395
396 do {
397 c = tolower(c);
398 if (c < 'a')
399 i = (i << 4) + (c - '0');
400 else
401 i = (i << 4) + (c - 'a' + 10);
402 c = get_char();
403 } while (isxdigit(c));
404
405 if (isalnum(c))
406 return T_NULL;
407 else {
408 put_back(c);
409 return T_NUMBER;
410 }
411 }
412
413 static enum Token get_dec_number(uintptr &i)
414 {
415 char c = get_char();
416
417 i = 0;
418 if (!isdigit(c))
419 return T_NULL;
420
421 do {
422 i = (i * 10) + (c - '0');
423 c = get_char();
424 } while (isdigit(c));
425
426 if (isalnum(c))
427 return T_NULL;
428 else {
429 put_back(c);
430 return T_NUMBER;
431 }
432 }
433
434 static enum Token get_char_number(uintptr &i)
435 {
436 char c;
437
438 i = 0;
439 while ((c = get_char()) != 0) {
440 if (c == '\'')
441 return T_NUMBER;
442 i = (i << 8) + (uint8)c;
443 }
444
445 mon_error("Unterminated character constant");
446 return T_NULL;
447 }
448
449 static enum Token get_string(char *str)
450 {
451 char c;
452
453 while ((c = get_char()) != 0) {
454 if (c == '"') {
455 *str = 0;
456 return T_STRING;
457 }
458 *str++ = c;
459 }
460
461 mon_error("Unterminated string");
462 return T_NULL;
463 }
464
465 static enum Token get_hex_or_name(uintptr &i, char *name)
466 {
467 char *old_in_ptr = in_ptr;
468 char c;
469
470 // Try hex number first
471 if (get_hex_number(i) == T_NUMBER)
472 return T_NUMBER;
473
474 // Not a hex number, must be a variable name
475 in_ptr = old_in_ptr;
476 c = get_char();
477 do {
478 *name++ = c;
479 c = get_char();
480 } while (isalnum(c));
481
482 *name = 0;
483 put_back(c);
484 return T_NAME;
485 }
486
487
488 /*
489 * expression = eor_expr {OR eor_expr}
490 * true: OK, false: Error
491 */
492
493 bool mon_expression(uintptr *number)
494 {
495 uintptr accu, expr;
496
497 if (!eor_expr(&accu))
498 return false;
499
500 for (;;)
501 switch (mon_token) {
502 case T_OR:
503 mon_get_token();
504 if (!eor_expr(&expr))
505 return false;
506 accu |= expr;
507 break;
508
509 default:
510 *number = accu;
511 return true;
512 }
513 }
514
515
516 /*
517 * eor_expr = and_expr {EOR and_expr}
518 * true: OK, false: Error
519 */
520
521 static bool eor_expr(uintptr *number)
522 {
523 uintptr accu, expr;
524
525 if (!and_expr(&accu))
526 return false;
527
528 for (;;)
529 switch (mon_token) {
530 case T_EOR:
531 mon_get_token();
532 if (!and_expr(&expr))
533 return false;
534 accu ^= expr;
535 break;
536
537 default:
538 *number = accu;
539 return true;
540 }
541 }
542
543
544 /*
545 * and_expr = shift_expr {AND shift_expr}
546 * true: OK, false: Error
547 */
548
549 static bool and_expr(uintptr *number)
550 {
551 uintptr accu, expr;
552
553 if (!shift_expr(&accu))
554 return false;
555
556 for (;;)
557 switch (mon_token) {
558 case T_AND:
559 mon_get_token();
560 if (!shift_expr(&expr))
561 return false;
562 accu &= expr;
563 break;
564
565 default:
566 *number = accu;
567 return true;
568 }
569 }
570
571
572 /*
573 * shift_expr = add_expr {(SHIFTL | SHIFTR) add_expr}
574 * true: OK, false: Error
575 */
576
577 static bool shift_expr(uintptr *number)
578 {
579 uintptr accu, expr;
580
581 if (!add_expr(&accu))
582 return false;
583
584 for (;;)
585 switch (mon_token) {
586 case T_SHIFTL:
587 mon_get_token();
588 if (!add_expr(&expr))
589 return false;
590 accu <<= expr;
591 break;
592
593 case T_SHIFTR:
594 mon_get_token();
595 if (!add_expr(&expr))
596 return false;
597 accu >>= expr;
598 break;
599
600 default:
601 *number = accu;
602 return true;
603 }
604 }
605
606
607 /*
608 * add_expr = mul_expr {(PLUS | MINUS) mul_expr}
609 * true: OK, false: Error
610 */
611
612 static bool add_expr(uintptr *number)
613 {
614 uintptr accu, expr;
615
616 if (!mul_expr(&accu))
617 return false;
618
619 for (;;)
620 switch (mon_token) {
621 case T_PLUS:
622 mon_get_token();
623 if (!mul_expr(&expr))
624 return false;
625 accu += expr;
626 break;
627
628 case T_MINUS:
629 mon_get_token();
630 if (!mul_expr(&expr))
631 return false;
632 accu -= expr;
633 break;
634
635 default:
636 *number = accu;
637 return true;
638 }
639 }
640
641
642 /*
643 * mul_expr = factor {(MUL | DIV | MOD) factor}
644 * true: OK, false: Error
645 */
646
647 static bool mul_expr(uintptr *number)
648 {
649 uintptr accu, fact;
650
651 if (!factor(&accu))
652 return false;
653
654 for (;;)
655 switch (mon_token) {
656 case T_MUL:
657 mon_get_token();
658 if (!factor(&fact))
659 return false;
660 accu *= fact;
661 break;
662
663 case T_DIV:
664 mon_get_token();
665 if (!factor(&fact))
666 return false;
667 if (fact == 0) {
668 mon_error("Division by 0");
669 return false;
670 }
671 accu /= fact;
672 break;
673
674 case T_MOD:
675 mon_get_token();
676 if (!factor(&fact))
677 return false;
678 if (fact == 0) {
679 mon_error("Division by 0");
680 return false;
681 }
682 accu %= fact;
683 break;
684
685 default:
686 *number = accu;
687 return true;
688 }
689 }
690
691
692 /*
693 * factor = NUMBER | NAME | DOT | COLON | (PLUS | MINUS | NOT) factor | LPAREN expression RPAREN
694 * true: OK, false: Error
695 */
696
697 static bool factor(uintptr *number)
698 {
699 switch (mon_token) {
700 case T_NUMBER:
701 *number = mon_number;
702 mon_get_token();
703 return true;
704
705 case T_NAME:{
706 var_map::const_iterator v = vars.find(mon_name);
707 if (v == vars.end())
708 return false;
709 else {
710 *number = v->second;
711 mon_get_token();
712 return true;
713 }
714 }
715
716 case T_DOT:
717 *number = mon_dot_address;
718 mon_get_token();
719 return true;
720
721 case T_COLON:
722 *number = colon_value;
723 mon_get_token();
724 return true;
725
726 case T_PLUS:
727 mon_get_token();
728 return factor(number);
729
730 case T_MINUS:
731 mon_get_token();
732 if (factor(number)) {
733 *number = -*number;
734 return true;
735 } else
736 return false;
737
738 case T_NOT:
739 mon_get_token();
740 if (factor(number)) {
741 *number = ~*number;
742 return true;
743 } else
744 return false;
745
746 case T_LPAREN:
747 mon_get_token();
748 if (mon_expression(number))
749 if (mon_token == T_RPAREN) {
750 mon_get_token();
751 return true;
752 } else {
753 mon_error("Missing ')'");
754 return false;
755 }
756 else {
757 mon_error("Error in expression");
758 return false;
759 }
760
761 case T_END:
762 mon_error("Required argument missing");
763 return false;
764
765 default:
766 mon_error("'(' or number expected");
767 return false;
768 }
769 }
770
771
772 /*
773 * Set/clear/show variables
774 * set [var[=value]]
775 */
776
777 static void set_var(void)
778 {
779 if (mon_token == T_END) {
780
781 // Show all variables
782 if (vars.empty())
783 fprintf(monout, "No variables defined\n");
784 else {
785 var_map::const_iterator v = vars.begin(), end = vars.end();
786 for (v=vars.begin(); v!=end; ++v)
787 fprintf(monout, "%s = %08x\n", v->first.c_str(), v->second);
788 }
789
790 } else if (mon_token == T_NAME) {
791 std::string var_name = mon_name;
792 mon_get_token();
793 if (mon_token == T_ASSIGN) {
794
795 // Set variable
796 uintptr value;
797 mon_get_token();
798 if (!mon_expression(&value))
799 return;
800 if (mon_token != T_END) {
801 mon_error("Too many arguments");
802 return;
803 }
804 vars[var_name] = value;
805
806 } else if (mon_token == T_END) {
807
808 // Clear variable
809 vars.erase(var_name);
810
811 } else
812 mon_error("'=' expected");
813 } else
814 mon_error("Variable name expected");
815 }
816
817
818 /*
819 * Clear all variables
820 * cv
821 */
822
823 static void clear_vars(void)
824 {
825 vars.clear();
826 }
827
828
829 /*
830 * Display help
831 * h
832 */
833
834 static void help_or_hunt(void)
835 {
836 if (mon_token != T_END) {
837 hunt();
838 return;
839 }
840 fprintf(monout, "x Quit mon\n"
841 "h This help text\n");
842 fprintf(monout, cmd_help);
843 }
844
845
846 /*
847 * Display command list
848 * ??
849 */
850
851 static void mon_cmd_list(void)
852 {
853 for (int i=0; i<num_cmds; i++)
854 fprintf(monout, "%s ", cmds[i].name);
855 fprintf(monout, "\n");
856 }
857
858
859 /*
860 * Reallocate buffer
861 * @ [size]
862 */
863
864 static void reallocate(void)
865 {
866 uintptr size;
867
868 if (mon_use_real_mem) {
869 fprintf(monerr, "Cannot reallocate buffer in real mode\n");
870 return;
871 }
872
873 if (mon_token == T_END) {
874 fprintf(monerr, "Buffer size: %08x bytes\n", mon_mem_size);
875 return;
876 }
877
878 if (!mon_expression(&size))
879 return;
880 if (mon_token != T_END) {
881 mon_error("Too many arguments");
882 return;
883 }
884
885 if ((mem = (uint8 *)realloc(mem, size)) != NULL)
886 fprintf(monerr, "Buffer size: %08x bytes\n", mon_mem_size = size);
887 else
888 fprintf(monerr, "Unable to reallocate buffer\n");
889 }
890
891
892 /*
893 * Apply expression to memory
894 * y[b|h|w] start end expression
895 */
896
897 static void apply(int size)
898 {
899 uintptr adr, end_adr, value;
900 char c;
901
902 if (!mon_expression(&adr))
903 return;
904 if (!mon_expression(&end_adr))
905 return;
906 if (!mon_expression(&value))
907 return;
908 if (mon_token != T_END) {
909 mon_error("Too many arguments");
910 return;
911 }
912
913 uint32 (*read_func)(uintptr adr);
914 void (*write_func)(uintptr adr, uint32 val);
915 switch (size) {
916 case 1:
917 read_func = mon_read_byte;
918 write_func = mon_write_byte;
919 break;
920 case 2:
921 read_func = mon_read_half;
922 write_func = mon_write_half;
923 break;
924 case 4:
925 read_func = mon_read_word;
926 write_func = mon_write_word;
927 break;
928 default:
929 abort();
930 break;
931 }
932
933 while (adr<=end_adr) {
934 colon_value = read_func(adr);
935 mon_dot_address = adr;
936
937 in_ptr = input;
938 while ((c = get_char()) == ' ') ;
939 while ((c = get_char()) != ' ') ;
940 while ((c = get_char()) == ' ') ;
941 put_back(c);
942 mon_get_token();
943 mon_expression(&value); // Skip start address
944 mon_expression(&value); // Skip end address
945 mon_expression(&value);
946
947 write_func(adr, value);
948 adr += size;
949 }
950
951 mon_dot_address = adr;
952 }
953
954 static void apply_byte(void)
955 {
956 apply(1);
957 }
958
959 static void apply_half(void)
960 {
961 apply(2);
962 }
963
964 static void apply_word(void)
965 {
966 apply(4);
967 }
968
969
970 /*
971 * Execute command via system() (for ls, rm, etc.)
972 */
973
974 static void mon_exec(void)
975 {
976 system(input);
977 }
978
979
980 /*
981 * Change current directory
982 */
983
984 static void mon_change_dir(void)
985 {
986 char c;
987 in_ptr = input;
988 while ((c = get_char()) == ' ') ;
989 while ((c = get_char()) != ' ') ;
990 while ((c = get_char()) == ' ') ;
991 put_back(c);
992 if (chdir(in_ptr) != 0)
993 mon_error("Cannot change directory");
994 }
995
996
997 /*
998 * Initialize mon
999 */
1000
1001 void mon_init(void)
1002 {
1003 cmds = NULL;
1004 num_cmds = 0;
1005 cmd_help = NULL;
1006
1007 mon_add_command("??", mon_cmd_list, "?? Show list of commands\n");
1008 mon_add_command("ver", version, "ver Show version\n");
1009 mon_add_command("?", print_expr, "? expression Calculate expression\n");
1010 mon_add_command("@", reallocate, "@ [size] Reallocate buffer\n");
1011 mon_add_command("i", ascii_dump, "i [start [end]] ASCII memory dump\n");
1012 mon_add_command("m", memory_dump, "m [start [end]] Hex/ASCII memory dump\n");
1013 mon_add_command("b", binary_dump, "b [start [end]] Binary memory dump\n");
1014 mon_add_command("d", disassemble_ppc, "d [start [end]] Disassemble PowerPC code\n");
1015 mon_add_command("d65", disassemble_6502, "d65 [start [end]] Disassemble 6502 code\n");
1016 mon_add_command("d68", disassemble_680x0, "d68 [start [end]] Disassemble 680x0 code\n");
1017 mon_add_command("d80", disassemble_z80, "d80 [start [end]] Disassemble Z80 code\n");
1018 mon_add_command("d86", disassemble_80x86_32, "d86 [start [end]] Disassemble 80x86 (32-bit) code\n");
1019 mon_add_command("d8086", disassemble_80x86_16, "d8086 [start [end]] Disassemble 80x86 (16-bit) code\n");
1020 mon_add_command("d8664", disassemble_x86_64, "d8664 [start [end]] Disassemble x86-64 code\n");
1021 mon_add_command(":", modify, ": start string Modify memory\n");
1022 mon_add_command("f", fill, "f start end string Fill memory\n");
1023 mon_add_command("y", apply_byte, "y[b|h|w] start end expr Apply expression to memory\n");
1024 mon_add_command("yb", apply_byte, NULL);
1025 mon_add_command("yh", apply_half, NULL);
1026 mon_add_command("yw", apply_word, NULL);
1027 mon_add_command("t", transfer, "t start end dest Transfer memory\n");
1028 mon_add_command("c", compare, "c start end dest Compare memory\n");
1029 mon_add_command("h", help_or_hunt, "h start end string Search for byte string\n");
1030 mon_add_command("\\", shell_command, "\\ \"command\" Execute shell command\n");
1031 mon_add_command("ls", mon_exec, "ls [args] List directory contents\n");
1032 mon_add_command("rm", mon_exec, "rm [args] Remove file(s)\n");
1033 mon_add_command("cp", mon_exec, "cp [args] Copy file(s)\n");
1034 mon_add_command("mv", mon_exec, "mv [args] Move file(s)\n");
1035 mon_add_command("cd", mon_change_dir, "cd directory Change current directory\n");
1036 mon_add_command("o", redir_output, "o [\"file\"] Redirect output\n");
1037 mon_add_command("[", load_data, "[ start \"file\" Load data from file\n");
1038 mon_add_command("]", save_data, "] start size \"file\" Save data to file\n");
1039 mon_add_command("set", set_var, "set [var[=value]] Set/clear/show variables\n");
1040 mon_add_command("cv", clear_vars, "cv Clear all variables\n");
1041
1042 mon_read_byte = NULL;
1043 mon_write_byte = NULL;
1044 }
1045
1046
1047 /*
1048 * Deinitialize mon
1049 */
1050
1051 void mon_exit(void)
1052 {
1053 free(cmds);
1054 cmds = NULL;
1055 num_cmds = 0;
1056 cmd_help = NULL;
1057 }
1058
1059
1060 /*
1061 * Main function, read-execute loop
1062 */
1063
1064 void mon(int argc, char **argv)
1065 {
1066 bool done = false, interactive = true;
1067 char c, cmd[INPUT_LENGTH];
1068
1069 // Setup input/output streams
1070 monin = stdin;
1071 monout = stdout;
1072 monerr = stdout;
1073
1074 // Make argc/argv point to the actual arguments
1075 const char *prg_name = argv[0];
1076 if (argc)
1077 argc--; argv++;
1078
1079 // Parse arguments
1080 mon_macos_mode = false;
1081 mon_use_real_mem = false;
1082 while (argc > 0) {
1083 if (strcmp(argv[0], "-h") == 0 || strcmp(argv[0], "--help") == 0) {
1084 printf("Usage: %s [-m] [-r] [command...]\n", prg_name);
1085 exit(0);
1086 } else if (strcmp(argv[0], "-m") == 0)
1087 mon_macos_mode = true;
1088 else if (strcmp(argv[0], "-r") == 0)
1089 mon_use_real_mem = true;
1090 else
1091 break;
1092 argc--; argv++;
1093 }
1094 interactive = (argc == 0);
1095
1096 // Set up memory access functions if not supplied by the user
1097 if (mon_read_byte == NULL) {
1098 if (mon_use_real_mem)
1099 mon_read_byte = mon_read_byte_real;
1100 else
1101 mon_read_byte = mon_read_byte_buffer;
1102 }
1103 if (mon_write_byte == NULL) {
1104 if (mon_use_real_mem)
1105 mon_write_byte = mon_write_byte_real;
1106 else
1107 mon_write_byte = mon_write_byte_buffer;
1108 }
1109
1110 // Allocate buffer
1111 if (!mon_use_real_mem) {
1112 mon_mem_size = 0x100000;
1113 mem = (uint8 *)malloc(mon_mem_size);
1114
1115 // Print banner
1116 if (interactive)
1117 fprintf(monerr, "\n *** cxmon V" VERSION " by Christian Bauer and Marc Hellwig ***\n"
1118 " *** Press 'h' for help ***\n\n");
1119 }
1120
1121 // Clear variables
1122 vars.clear();
1123
1124 // In MacOS mode, pull in the lowmem globals as variables
1125 if (mon_macos_mode) {
1126 const lowmem_info *l = lowmem;
1127 while (l->name) {
1128 vars[l->name] = l->addr;
1129 l++;
1130 }
1131 }
1132
1133 init_abort();
1134
1135 // Read and parse command line
1136 while (!done) {
1137 if (interactive) {
1138 char prompt[16];
1139 sprintf(prompt, "[%0*lx]-> ", 2 * sizeof(mon_dot_address), mon_dot_address);
1140 read_line(prompt);
1141 } else {
1142 if (argc == 0) {
1143 done = true;
1144 break;
1145 } else {
1146 strncpy(in_ptr = input, argv[0], INPUT_LENGTH);
1147 argc--;
1148 argv++;
1149 }
1150 }
1151
1152 // Skip leading spaces
1153 while ((c = get_char()) == ' ') ;
1154
1155 // Read command word
1156 char *p = cmd;
1157 do {
1158 *p++ = c;
1159 c = get_char();
1160 } while (isgraph(c));
1161 *p = 0;
1162 put_back(c);
1163
1164 // Execute command
1165 if (cmd[0] == 0) // Blank line
1166 continue;
1167 if (strcmp(cmd, "x") == 0) { // Exit
1168 done = true;
1169 continue;
1170 }
1171 for (int i=0; i<num_cmds; i++) {
1172 if (strcmp(cmd, cmds[i].name) == 0) {
1173 mon_get_token();
1174 cmds[i].func();
1175 goto cmd_done;
1176 }
1177 }
1178 mon_error("Unknown command");
1179 cmd_done: ;
1180 }
1181
1182 exit_abort();
1183
1184 // Free buffer
1185 if (!mon_use_real_mem)
1186 free(mem);
1187
1188 // Close output file if redirected
1189 if (monout != monerr)
1190 fclose(monout);
1191 }