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root/cebix/mon/src/mon.cpp

Comparing mon/src/mon.cpp (file contents):
Revision 1.9 by cebix, 2000-06-27T14:52:44Z vs.
Revision 1.19 by cebix, 2002-08-03T14:54:28Z

#	Line 1 | Line 1
1		/*
2	<	*  mon.cpp - mon main program
2	>	*  mon.cpp - cxmon main program
3		*
4	<	*  mon (C) 1997-2000 Christian Bauer, Marc Hellwig
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
#	Line 24 | Line 24
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" {
#	Line 47 | Line 49 | extern "C" {
49
50		#include "mon.h"
51		#include "mon_cmd.h"
52	+	#include "mon_lowmem.h"
53
54		#ifndef VERSION
55	<	#define VERSION "2"
55	>	#define VERSION "3"
56		#endif
57
58
#	Line 68 | Line 71 | static char *in_ptr;
71		char *mon_args_ptr;
72
73		// Current address, value of '.' in expressions
74	<	uint32 mon_dot_address;
74	>	uintptr mon_dot_address;
75
76		// Current value of ':' in expression
77		static uint32 colon_value;
#	Line 76 | Line 79 | static uint32 colon_value;
79
80		// Scanner variables
81		enum Token mon_token;                   // Last token read
82	<	uint32 mon_number;                              // Contains the number if mon_token==T_NUMBER
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
#	Line 93 | Line 96 | static char *cmd_help;         // Help text for
96
97
98		// List of variables
99	<	struct Variable {
100	<	Variable *next; // Pointer to next variable (must be first element of struct)
98	<	char *name;             // Variable name
99	<	uint32 value;   // Variable value
100	<	};
101	<
102	<	static Variable *first_var;     // Pointer to first variable
99	>	typedef std::map<std::string, uintptr> var_map;
100	>	static var_map vars;
101
102
103		// Prototypes
#	Line 109 | Line 107 | static void exit_abort(void);
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(uint32 &i);
111	<	static enum Token get_dec_number(uint32 &i);
112	<	static enum Token get_char_number(uint32 &i);
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(uint32 &i, char *name);
114	>	static enum Token get_hex_or_name(uintptr &i, char *name);
115
116	<	static bool eor_expr(uint32 *number);   // Parser
117	<	static bool and_expr(uint32 *number);
118	<	static bool shift_expr(uint32 *number);
119	<	static bool add_expr(uint32 *number);
120	<	static bool mul_expr(uint32 *number);
121	<	static bool factor(uint32 *number);
124	<	static Variable *lookup_var(const char *s);
125	<	static Variable *insert_var(const char *s);
126	<	static void remove_var(const char *s);
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		/*
#	Line 207 | Line 202 | bool mon_aborted(void)
202		*  Access to buffer
203		*/
204
205	<	uint32 (*mon_read_byte)(uint32 adr);
205	>	uint32 (*mon_read_byte)(uintptr adr);
206
207	<	uint32 mon_read_byte_buffer(uint32 adr)
207	>	uint32 mon_read_byte_buffer(uintptr adr)
208		{
209		return mem[adr % mon_mem_size];
210		}
211
212	<	uint32 mon_read_byte_real(uint32 adr)
212	>	uint32 mon_read_byte_real(uintptr adr)
213		{
214		return *(uint8 *)adr;
215		}
216
217	<	void (*mon_write_byte)(uint32 adr, uint32 b);
217	>	void (*mon_write_byte)(uintptr adr, uint32 b);
218
219	<	void mon_write_byte_buffer(uint32 adr, uint32 b)
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(uint32 adr, uint32 b)
224	>	void mon_write_byte_real(uintptr adr, uint32 b)
225		{
226		*(uint8 *)adr = b;
227		}
228
229	<	uint32 mon_read_half(uint32 adr)
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(uint32 adr, uint32 w)
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(uint32 adr)
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(uint32 adr, uint32 l)
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);
#	Line 390 | Line 385 | enum Token mon_get_token(void)
385		}
386		}
387
388	<	static enum Token get_hex_number(uint32 &i)
388	>	static enum Token get_hex_number(uintptr &i)
389		{
390		char c = get_char();
391
#	Line 399 | Line 394 | static enum Token get_hex_number(uint32
394		return T_NULL;
395
396		do {
397	+	c = tolower(c);
398		if (c < 'a')
399		i = (i << 4) + (c - '0');
400		else
#	Line 414 | Line 410 | static enum Token get_hex_number(uint32
410		}
411		}
412
413	<	static enum Token get_dec_number(uint32 &i)
413	>	static enum Token get_dec_number(uintptr &i)
414		{
415		char c = get_char();
416
#	Line 435 | Line 431 | static enum Token get_dec_number(uint32
431		}
432		}
433
434	<	static enum Token get_char_number(uint32 &i)
434	>	static enum Token get_char_number(uintptr &i)
435		{
436		char c;
437
#	Line 466 | Line 462 | static enum Token get_string(char *str)
462		return T_NULL;
463		}
464
465	<	static enum Token get_hex_or_name(uint32 &i, char *name)
465	>	static enum Token get_hex_or_name(uintptr &i, char *name)
466		{
467		char *old_in_ptr = in_ptr;
468		char c;
#	Line 494 | Line 490 | static enum Token get_hex_or_name(uint32
490		*  true: OK, false: Error
491		*/
492
493	<	bool mon_expression(uint32 *number)
493	>	bool mon_expression(uintptr *number)
494		{
495	<	uint32 accu, expr;
495	>	uintptr accu, expr;
496
497		if (!eor_expr(&accu))
498		return false;
#	Line 522 | Line 518 | bool mon_expression(uint32 *number)
518		*  true: OK, false: Error
519		*/
520
521	<	static bool eor_expr(uint32 *number)
521	>	static bool eor_expr(uintptr *number)
522		{
523	<	uint32 accu, expr;
523	>	uintptr accu, expr;
524
525		if (!and_expr(&accu))
526		return false;
#	Line 550 | Line 546 | static bool eor_expr(uint32 *number)
546		*  true: OK, false: Error
547		*/
548
549	<	static bool and_expr(uint32 *number)
549	>	static bool and_expr(uintptr *number)
550		{
551	<	uint32 accu, expr;
551	>	uintptr accu, expr;
552
553		if (!shift_expr(&accu))
554		return false;
#	Line 578 | Line 574 | static bool and_expr(uint32 *number)
574		*  true: OK, false: Error
575		*/
576
577	<	static bool shift_expr(uint32 *number)
577	>	static bool shift_expr(uintptr *number)
578		{
579	<	uint32 accu, expr;
579	>	uintptr accu, expr;
580
581		if (!add_expr(&accu))
582		return false;
#	Line 613 | Line 609 | static bool shift_expr(uint32 *number)
609		*  true: OK, false: Error
610		*/
611
612	<	static bool add_expr(uint32 *number)
612	>	static bool add_expr(uintptr *number)
613		{
614	<	uint32 accu, expr;
614	>	uintptr accu, expr;
615
616		if (!mul_expr(&accu))
617		return false;
#	Line 648 | Line 644 | static bool add_expr(uint32 *number)
644		*  true: OK, false: Error
645		*/
646
647	<	static bool mul_expr(uint32 *number)
647	>	static bool mul_expr(uintptr *number)
648		{
649	<	uint32 accu, fact;
649	>	uintptr accu, fact;
650
651		if (!factor(&accu))
652		return false;
#	Line 698 | Line 694 | static bool mul_expr(uint32 *number)
694		*  true: OK, false: Error
695		*/
696
697	<	static bool factor(uint32 *number)
697	>	static bool factor(uintptr *number)
698		{
699		switch (mon_token) {
700		case T_NUMBER:
#	Line 707 | Line 703 | static bool factor(uint32 *number)
703		return true;
704
705		case T_NAME:{
706	<	Variable *var;
707	<	if ((var = lookup_var(mon_name)) != NULL) {
708	<	*number = var->value;
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	<	} else
716	<	return false;
713	>	}
714		}
715
716		case T_DOT:
#	Line 773 | Line 770 | static bool factor(uint32 *number)
770
771
772		/*
776	–	*  Lookup the value of a variable
777	–	*/
778	–
779	–	static Variable *lookup_var(const char *s)
780	–	{
781	–	// Lookup variable
782	–	for (Variable *var=first_var; var; var=var->next)
783	–	if (!strcmp(s, var->name))
784	–	return var;
785	–
786	–	// Not found, error
787	–	mon_error("Undefined variable");
788	–	return NULL;
789	–	}
790	–
791	–
792	–	/*
793	–	*  Insert new variable (or redefine old)
794	–	*/
795	–
796	–	static Variable *insert_var(const char *s)
797	–	{
798	–	// Lookup variable
799	–	for (Variable *var=first_var; var; var=var->next)
800	–	if (!strcmp(s, var->name))
801	–	return var;
802	–
803	–	// Insert new variable
804	–	Variable *var = new Variable;
805	–	var->name = strdup(s);
806	–	var->next = first_var;
807	–	first_var = var;
808	–	return var;
809	–	}
810	–
811	–
812	–	/*
813	–	*  Remove variable
814	–	*/
815	–
816	–	static void remove_var(const char *s)
817	–	{
818	–	Variable *var, *prev = (Variable *)&first_var;
819	–
820	–	// Lookup variable and remove it
821	–	for (var=prev->next; var; prev=var, var=var->next)
822	–	if (!strcmp(s, var->name)) {
823	–	prev->next = var->next;
824	–	free(var->name);
825	–	free(var);
826	–	return;
827	–	}
828	–	}
829	–
830	–
831	–	/*
773		*  Set/clear/show variables
774		*  set [var[=value]]
775		*/
#	Line 838 | Line 779 | static void set_var(void)
779		if (mon_token == T_END) {
780
781		// Show all variables
782	<	if (first_var == NULL)
782	>	if (vars.empty())
783		fprintf(monout, "No variables defined\n");
784	<	else
785	<	for (Variable *v=first_var; v; v=v->next)
786	<	fprintf(monout, "%s = %08x\n", v->name, v->value);
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	<	char var_name[256];
849	<	strcpy(var_name, mon_name);
791	>	std::string var_name = mon_name;
792		mon_get_token();
793		if (mon_token == T_ASSIGN) {
794
795		// Set variable
796	<	uint32 value;
796	>	uintptr value;
797		mon_get_token();
798		if (!mon_expression(&value))
799		return;
#	Line 859 | Line 801 | static void set_var(void)
801		mon_error("Too many arguments");
802		return;
803		}
804	<	insert_var(var_name)->value = value;
804	>	vars[var_name] = value;
805
806		} else if (mon_token == T_END) {
807
808		// Clear variable
809	<	remove_var(var_name);
809	>	vars.erase(var_name);
810
811		} else
812		mon_error("'=' expected");
#	Line 880 | Line 822 | static void set_var(void)
822
823		static void clear_vars(void)
824		{
825	<	Variable *var, *next;
884	<	for (var=first_var; var; var=next) {
885	<	free(var->name);
886	<	next = var->next;
887	<	free(var);
888	<	}
889	<	first_var = NULL;
825	>	vars.clear();
826		}
827
828
#	Line 927 | Line 863 | static void mon_cmd_list(void)
863
864		static void reallocate(void)
865		{
866	<	uint32 size;
866	>	uintptr size;
867
868		if (mon_use_real_mem) {
869		fprintf(monerr, "Cannot reallocate buffer in real mode\n");
#	Line 960 | Line 896 | static void reallocate(void)
896
897		static void apply(int size)
898		{
899	<	uint32 adr, end_adr, value;
899	>	uintptr adr, end_adr, value;
900		char c;
901
902		if (!mon_expression(&adr))
#	Line 974 | Line 910 | static void apply(int size)
910		return;
911		}
912
913	<	uint32 (*read_func)(uint32 adr);
914	<	void (*write_func)(uint32 adr, uint32 val);
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;
#	Line 1068 | Line 1004 | void mon_init(void)
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_8080,        "d80 [start [end]]        Disassemble 8080 code\n");
1018	<	mon_add_command("d86", disassemble_80x86,       "d86 [start [end]]        Disassemble 80x86 code\n");
1019	<	mon_add_command(":", modify,                            ": start string           Modify memory\n");
1020	<	mon_add_command("f", fill,                                      "f start end string       Fill memory\n");
1021	<	mon_add_command("y", apply_byte,                        "y[b|h|w] start end expr  Apply expression to memory\n");
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(":", modify,                                    ": start string           Modify memory\n");
1021	>	mon_add_command("f", fill,                                              "f start end string       Fill memory\n");
1022	>	mon_add_command("y", apply_byte,                                "y[b|h|w] start end expr  Apply expression to memory\n");
1023		mon_add_command("yb", apply_byte, NULL);
1024		mon_add_command("yh", apply_half, NULL);
1025		mon_add_command("yw", apply_word, NULL);
1026	<	mon_add_command("t", transfer,                          "t start end dest         Transfer memory\n");
1027	<	mon_add_command("c", compare,                           "c start end dest         Compare memory\n");
1028	<	mon_add_command("h", help_or_hunt,                      "h start end string       Search for byte string\n");
1029	<	mon_add_command("\\", shell_command,            "\\ \"command\"              Execute shell command\n");
1030	<	mon_add_command("ls", mon_exec,                         "ls [args]                List directory contents\n");
1031	<	mon_add_command("rm", mon_exec,                         "rm [args]                Remove file(s)\n");
1032	<	mon_add_command("cp", mon_exec,                         "cp [args]                Copy file(s)\n");
1033	<	mon_add_command("mv", mon_exec,                         "mv [args]                Move file(s)\n");
1034	<	mon_add_command("cd", mon_change_dir,           "cd directory             Change current directory\n");
1035	<	mon_add_command("o", redir_output,                      "o [\"file\"]               Redirect output\n");
1036	<	mon_add_command("[", load_data,                         "[ start \"file\"           Load data from file\n");
1037	<	mon_add_command("]", save_data,                         "] start size \"file\"      Save data to file\n");
1038	<	mon_add_command("set", set_var,                         "set [var[=value]]        Set/clear/show variables\n");
1039	<	mon_add_command("cv", clear_vars,                       "cv                       Clear all variables\n");
1026	>	mon_add_command("t", transfer,                                  "t start end dest         Transfer memory\n");
1027	>	mon_add_command("c", compare,                                   "c start end dest         Compare memory\n");
1028	>	mon_add_command("h", help_or_hunt,                              "h start end string       Search for byte string\n");
1029	>	mon_add_command("\\", shell_command,                    "\\ \"command\"              Execute shell command\n");
1030	>	mon_add_command("ls", mon_exec,                                 "ls [args]                List directory contents\n");
1031	>	mon_add_command("rm", mon_exec,                                 "rm [args]                Remove file(s)\n");
1032	>	mon_add_command("cp", mon_exec,                                 "cp [args]                Copy file(s)\n");
1033	>	mon_add_command("mv", mon_exec,                                 "mv [args]                Move file(s)\n");
1034	>	mon_add_command("cd", mon_change_dir,                   "cd directory             Change current directory\n");
1035	>	mon_add_command("o", redir_output,                              "o [\"file\"]               Redirect output\n");
1036	>	mon_add_command("[", load_data,                                 "[ start \"file\"           Load data from file\n");
1037	>	mon_add_command("]", save_data,                                 "] start size \"file\"      Save data to file\n");
1038	>	mon_add_command("set", set_var,                                 "set [var[=value]]        Set/clear/show variables\n");
1039	>	mon_add_command("cv", clear_vars,                               "cv                       Clear all variables\n");
1040
1041		mon_read_byte = NULL;
1042		mon_write_byte = NULL;
#	Line 1133 | Line 1070 | void mon(int argc, char **argv)
1070		monout = stdout;
1071		monerr = stdout;
1072
1073	<	if (argc) {
1074	<	// Access real memory if mon was started as "rmon"
1075	<	char *prgname = argv[0];
1076	<	char *lastslash;
1077	<	if ((lastslash = strrchr(prgname, '/')) != NULL)
1078	<	prgname = lastslash + 1;
1079	<	if (strcmp(prgname, "rmon") == 0)
1073	>	// Make argc/argv point to the actual arguments
1074	>	const char *prg_name = argv[0];
1075	>	if (argc)
1076	>	argc--; argv++;
1077	>
1078	>	// Parse arguments
1079	>	mon_macos_mode = false;
1080	>	mon_use_real_mem = false;
1081	>	while (argc > 0) {
1082	>	if (strcmp(argv[0], "-h") == 0 || strcmp(argv[0], "--help") == 0) {
1083	>	printf("Usage: %s [-m] [-r] [command...]\n", prg_name);
1084	>	exit(0);
1085	>	} else if (strcmp(argv[0], "-m") == 0)
1086	>	mon_macos_mode = true;
1087	>	else if (strcmp(argv[0], "-r") == 0)
1088		mon_use_real_mem = true;
1089	<
1090	<	// Make argc/argv point to the actual arguments
1091	<	argc--;
1147	<	argv++;
1148	<	interactive = (argc == 0);
1089	>	else
1090	>	break;
1091	>	argc--; argv++;
1092		}
1093	+	interactive = (argc == 0);
1094
1095		// Set up memory access functions if not supplied by the user
1096		if (mon_read_byte == NULL) {
#	Line 1169 | Line 1113 | void mon(int argc, char **argv)
1113
1114		// Print banner
1115		if (interactive)
1116	<	fprintf(monerr, "\n *** mon V" VERSION " by Christian Bauer and Marc Hellwig ***\n"
1116	>	fprintf(monerr, "\n *** cxmon V" VERSION " by Christian Bauer and Marc Hellwig ***\n"
1117		" ***               Press 'h' for help               ***\n\n");
1118		}
1119
1120	+	// Clear variables
1121	+	vars.clear();
1122	+
1123	+	// In MacOS mode, pull in the lowmem globals as variables
1124	+	if (mon_macos_mode) {
1125	+	const lowmem_info *l = lowmem;
1126	+	while (l->name) {
1127	+	vars[l->name] = l->addr;
1128	+	l++;
1129	+	}
1130	+	}
1131	+
1132		init_abort();
1133
1134		// Read and parse command line
1135		while (!done) {
1136		if (interactive) {
1137		char prompt[16];
1138	<	sprintf(prompt, "[%08x]-> ", mon_dot_address);
1138	>	sprintf(prompt, "[%0*lx]-> ", 2 * sizeof(mon_dot_address), mon_dot_address);
1139		read_line(prompt);
1140		} else {
1141		if (argc == 0) {

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