mon/src/mon_cmd.cpp

/*
 *  mon_cmd.cpp - cxmon standard commands
 *
 *  cxmon (C) 1997-2004 Christian Bauer, Marc Hellwig
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#include "sysdeps.h"

#include <stdlib.h>

#include "mon.h"
#include "mon_cmd.h"
#include "mon_disass.h"

#ifndef VERSION
#define VERSION "3"
#endif


/*
 *  range_args = [expression] [[COMMA] expression] END
 *
 *  Read start address to "adr", end address to "end_adr".
 *  "adr" defaults to '.', "end_adr" defaults to '.'+def_range
 *
 *  true: OK, false: Error
 */

static bool range_args(uintptr *adr, uintptr *end_adr, uint32 def_range)
{
        *adr = mon_dot_address;
        *end_adr = mon_dot_address + def_range;

        if (mon_token == T_END)
                return true;
        else {
                if (!mon_expression(adr))
                        return false;
                *end_adr = *adr + def_range;
                if (mon_token == T_END)
                        return true;
                else {
                        if (mon_token == T_COMMA) mon_get_token();
                        if (!mon_expression(end_adr))
                                return false;
                        return mon_token == T_END;
                }
        }
}


/*
 *  byte_string = (expression | STRING) {COMMA (expression | STRING)} END
 */

static bool byte_string(uint8 *&str, uintptr &len)
{
        uintptr value;

        static const int GRANULARITY = 16; // must be a power of 2
        str = NULL;
        len = 0;
        goto start;

        for (;;) {
                if (mon_token == T_COMMA) {
                        mon_get_token();

start:
                        if (mon_token == T_STRING) {
                                unsigned n = strlen(mon_string);
                                str = (uint8 *)realloc(str, (len + n - 1 + GRANULARITY) & ~(GRANULARITY - 1));
                                memcpy(str + len, mon_string, n);
                                len += n;
                                mon_get_token();
                        } else if (mon_expression(&value)) {
                                str = (uint8 *)realloc(str, (len + GRANULARITY) & ~(GRANULARITY - 1));
                                str[len] = value;
                                len++;
                        } else {
                                if (str)
                                        free(str);
                                return false;
                        }

                } else if (mon_token == T_END) {
                        return true;
                } else {
                        mon_error("',' expected");
                        if (str)
                                free(str);
                        return false;
                }
        }
}


/*
 *  Convert character to printable character
 */

static inline uint8 char2print(uint8 c)
{
        return (c >= 0x20 && c <= 0x7e) ? c : '.';
}


/*
 *  Show version
 *  ver
 */

void version(void)
{
        fprintf(monout, "cxmon V" VERSION "\n");
}


/*
 *  Redirect output
 *  o [file]
 */

void redir_output(void)
{
        // Close old file
        if (monout != monerr) {
                fclose(monout);
                monout = monerr;
                return;
        }

        // No argument given?
        if (mon_token == T_END)
                return;

        // Otherwise open file
        if (mon_token == T_STRING) {
                mon_get_token();
                if (mon_token != T_END) {
                        mon_error("Too many arguments");
                        return;
                }
                if (!(monout = fopen(mon_string, "w")))
                        mon_error("Unable to open file");
        } else
                mon_error("'\"' around file name expected");
}


/*
 *  Compute and display expression
 *  ? expression
 */

void print_expr(void)
{
        uintptr val;

        if (!mon_expression(&val))
                return;
        if (mon_token != T_END) {
                mon_error("Too many arguments");
                return;
        }

        if (val > 0x7fffffff) {
                fprintf(monout, "Hex unsigned:  $%08x\n"
                                          "Hex signed  : -$%08x\n"
                                          "Dec unsigned:  %u\n"
                                          "Dec signed  : %d\n", val, -val, val, val);
                fprintf(monout, "Char        : '%c%c%c%c'\n", char2print(val >> 24), char2print(val >> 16), char2print(val >> 8), char2print(val));
        } else {
                fprintf(monout, "Hex : $%08x\n"
                                          "Dec : %d\n", val, val);
                fprintf(monout, "Char: '%c%c%c%c'\n", char2print(val >> 24), char2print(val >> 16), char2print(val >> 8), char2print(val));
        }
}


/*
 *  Execute shell command
 *  \ "command"
 */

void shell_command(void)
{
        if (mon_token != T_STRING) {
                mon_error("'\"' around command expected");
                return;
        }
        mon_get_token();
        if (mon_token != T_END) {
                mon_error("Too many arguments");
                return;
        }
        system(mon_string);
}


/*
 *  Memory dump
 *  m [start [end]]
 */

#define MEMDUMP_BPL 16  // Bytes per line

void memory_dump(void)
{
        uintptr adr, end_adr;
        uint8 mem[MEMDUMP_BPL + 1];

        mem[MEMDUMP_BPL] = 0;

        if (!range_args(&adr, &end_adr, 16 * MEMDUMP_BPL - 1))  // 16 lines unless end address specified
                return;

        while (adr <= end_adr && !mon_aborted()) {
                fprintf(monout, "%0*lx:", int(2 * sizeof(adr)), mon_use_real_mem ? adr: adr % mon_mem_size);
                for (int i=0; i<MEMDUMP_BPL; i++, adr++) {
                        if (i % 4 == 0)
                                fprintf(monout, " %08x", mon_read_word(adr));
                        mem[i] = char2print(mon_read_byte(adr));
                }
                fprintf(monout, "  '%s'\n", mem);
        }

        mon_dot_address = adr;
}


/*
 *  ASCII dump
 *  i [start [end]]
 */

#define ASCIIDUMP_BPL 64  // Bytes per line

void ascii_dump(void)
{
        uintptr adr, end_adr;
        uint8 str[ASCIIDUMP_BPL + 1];

        str[ASCIIDUMP_BPL] = 0;

        if (!range_args(&adr, &end_adr, 16 * ASCIIDUMP_BPL - 1))  // 16 lines unless end address specified
                return;

        while (adr <= end_adr && !mon_aborted()) {
                fprintf(monout, "%0*lx:", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                for (int i=0; i<ASCIIDUMP_BPL; i++, adr++)
                        str[i] = char2print(mon_read_byte(adr));
                fprintf(monout, " '%s'\n", str);
        }

        mon_dot_address = adr;
}


/*
 *  Binary dump
 *  b [start [end]]
 */

void binary_dump(void)
{
        uintptr adr, end_adr;
        uint8 str[9];

        str[8] = 0;

        if (!range_args(&adr, &end_adr, 7))  // 8 lines unless end address specified
                return;

        while (adr <= end_adr && !mon_aborted()) {
                fprintf(monout, "%0*lx:", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                uint8 b = mon_read_byte(adr);
                for (int m=0x80, i=0; i<8; m>>=1, i++)
                        str[i] = (b & m) ? '*' : '.';
                fprintf(monout, " '%s'\n", str);
                adr++;
        }

        mon_dot_address = adr;
}


/*
 *  Disassemble
 *  d [start [end]]
 *  d65 [start [end]]
 *  d68 [start [end]]
 *  d80 [start [end]]
 *  d86 [start [end]]
 *  d8086 [start [end]]
 */

enum CPUType {
        CPU_PPC,
        CPU_6502,
        CPU_680x0,
        CPU_Z80,
        CPU_80x86_32,
        CPU_80x86_16,
        CPU_x86_64,
        CPU_MIPS,
        CPU_MIPS_LITTLE,
};

static void disassemble(CPUType type)
{
        uintptr adr, end_adr;

        if (!range_args(&adr, &end_adr, 16 * 4 - 1))  // 16 lines unless end address specified
                return;

        switch (type) {
                case CPU_PPC:
                        while (adr <= end_adr && !mon_aborted()) {
                                uint32 w = mon_read_word(adr);
                                fprintf(monout, "%0*lx: %08x\t", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size, w);
                                disass_ppc(monout, mon_use_real_mem ? adr : adr % mon_mem_size, w);
                                adr += 4;
                        }
                        break;

                case CPU_6502:
                        while (adr <= end_adr && !mon_aborted()) {
                                uint8 op = mon_read_byte(adr);
                                uint8 lo = mon_read_byte(adr + 1);
                                uint8 hi = mon_read_byte(adr + 2);
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_6502(monout, mon_use_real_mem ? adr : adr % mon_mem_size, op, lo, hi);
                        }
                        break;

                case CPU_680x0:
                        while (adr <= end_adr && !mon_aborted()) {
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_68k(monout, mon_use_real_mem ? adr : adr % mon_mem_size);
                        }
                        break;

                case CPU_Z80:
                        while (adr <= end_adr && !mon_aborted()) {
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_z80(monout, mon_use_real_mem ? adr : adr % mon_mem_size);
                        }
                        break;

                case CPU_MIPS:
                case CPU_MIPS_LITTLE:
                        while (adr <= end_adr && !mon_aborted()) {
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_mips(monout, mon_use_real_mem ? adr : adr % mon_mem_size, type == CPU_MIPS_LITTLE);
                        }
                        break;

                case CPU_x86_64:
                        while (adr <= end_adr && !mon_aborted()) {
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_x86(monout, mon_use_real_mem ? adr : adr % mon_mem_size, 64);
                        }
                        break;

                case CPU_80x86_32:
                        while (adr <= end_adr && !mon_aborted()) {
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_x86(monout, mon_use_real_mem ? adr : adr % mon_mem_size, 32);
                        }
                        break;

                case CPU_80x86_16:
                        while (adr <= end_adr && !mon_aborted()) {
                                fprintf(monout, "%0*lx: ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                                adr += disass_x86(monout, mon_use_real_mem ? adr : adr % mon_mem_size, 16);
                        }
        }

        mon_dot_address = adr;
}

void disassemble_ppc(void)
{
        disassemble(CPU_PPC);
}

void disassemble_6502(void)
{
        disassemble(CPU_6502);
}

void disassemble_680x0(void)
{
        disassemble(CPU_680x0);
}

void disassemble_z80(void)
{
        disassemble(CPU_Z80);
}

void disassemble_80x86_32(void)
{
        disassemble(CPU_80x86_32);
}

void disassemble_80x86_16(void)
{
        disassemble(CPU_80x86_16);
}

void disassemble_x86_64(void)
{
        disassemble(CPU_x86_64);
}

void disassemble_mips(void)
{
        disassemble(CPU_MIPS);
}

void disassemble_mipsel(void)
{
        disassemble(CPU_MIPS_LITTLE);
}


/*
 *  Modify memory
 *  : addr bytestring
 */

void modify(void)
{
        uintptr adr, len, src_adr = 0;
        uint8 *str;

        if (!mon_expression(&adr))
                return;
        if (!byte_string(str, len))
                return;

        while (src_adr < len)
                mon_write_byte(adr++, str[src_adr++]);
        mon_dot_address = adr;

        free(str);
}


/*
 *  Fill
 *  f start end bytestring
 */

void fill(void)
{
        uintptr adr, end_adr, len, src_adr = 0;
        uint8 *str;

        if (!mon_expression(&adr))
                return;
        if (!mon_expression(&end_adr))
                return;
        if (!byte_string(str, len))
                return;

        if (len) {
                while (adr <= end_adr)
                        mon_write_byte(adr++, str[src_adr++ % len]);
        }

        free(str);
}


/*
 *  Transfer memory
 *  t start end dest
 */

void transfer(void)
{
        uintptr adr, end_adr, dest;
        int num;

        if (!mon_expression(&adr))
                return;
        if (!mon_expression(&end_adr))
                return;
        if (!mon_expression(&dest))
                return;
        if (mon_token != T_END) {
                mon_error("Too many arguments");
                return;
        }

        num = end_adr - adr + 1;

        if (dest < adr)
                for (int i=0; i<num; i++)
                        mon_write_byte(dest++, mon_read_byte(adr++));
        else {
                dest += end_adr - adr;
                for (int i=0; i<num; i++)
                        mon_write_byte(dest--, mon_read_byte(end_adr--));
        }
}


/*
 *  Compare
 *  c start end dest
 */

void compare(void)
{
        uintptr adr, end_adr, dest;
        int num = 0;

        if (!mon_expression(&adr))
                return;
        if (!mon_expression(&end_adr))
                return;
        if (!mon_expression(&dest))
                return;
        if (mon_token != T_END) {
                mon_error("Too many arguments");
                return;
        }

        while (adr <= end_adr && !mon_aborted()) {
                if (mon_read_byte(adr) != mon_read_byte(dest)) {
                        fprintf(monout, "%0*lx ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                        num++;
                        if (!(num & 7))
                                fputc('\n', monout);
                }
                adr++; dest++;
        }

        if (num & 7)
                fputc('\n', monout);
        fprintf(monout, "%d byte(s) different\n", num);
}


/*
 *  Search for byte string
 *  h start end bytestring
 */

void hunt(void)
{
        uintptr adr, end_adr, len;
        uint8 *str;
        int num = 0;

        if (!mon_expression(&adr))
                return;
        if (!mon_expression(&end_adr))
                return;
        if (!byte_string(str, len))
                return;

        while ((adr+len-1) <= end_adr && !mon_aborted()) {
                uint32 i;

                for (i=0; i<len; i++)
                        if (mon_read_byte(adr + i) != str[i])
                                break;

                if (i == len) {
                        fprintf(monout, "%0*lx ", int(2 * sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
                        num++;
                        if (num == 1)
                                mon_dot_address = adr;
                        if (!(num & 7))
                                fputc('\n', monout);
                }
                adr++;
        }

        free(str);

        if (num & 7)
                fputc('\n', monout);
        fprintf(monout, "Found %d occurrences\n", num);
}


/*
 *  Load data
 *  [ start "file"
 */

void load_data(void)
{
        uintptr start_adr;
        FILE *file;
        int fc;

        if (!mon_expression(&start_adr))
                return;
        if (mon_token == T_END) {
                mon_error("Missing file name");
                return;
        }
        if (mon_token != T_STRING) {
                mon_error("'\"' around file name expected");
                return;
        }
        mon_get_token();
        if (mon_token != T_END) {
                mon_error("Too many arguments");
                return;
        }

        if (!(file = fopen(mon_string, "rb")))
                mon_error("Unable to open file");
        else {
                uintptr adr = start_adr;

                while ((fc = fgetc(file)) != EOF)
                        mon_write_byte(adr++, fc);
                fclose(file);

                fprintf(monerr, "%08x bytes read from %0*lx to %0*lx\n", adr - start_adr, int(2 * sizeof(adr)), mon_use_real_mem ? start_adr : start_adr % mon_mem_size, int(2 * sizeof(adr)), mon_use_real_mem ? adr-1 : (adr-1) % mon_mem_size);
                mon_dot_address = adr;
        }
}


/*
 *  Save data
 *  ] start size "file"
 */

void save_data(void)
{
        uintptr start_adr, size;
        FILE *file;

        if (!mon_expression(&start_adr))
                return;
        if (!mon_expression(&size))
                return;
        if (mon_token == T_END) {
                mon_error("Missing file name");
                return;
        }
        if (mon_token != T_STRING) {
                mon_error("'\"' around file name expected");
                return;
        }
        mon_get_token();
        if (mon_token != T_END) {
                mon_error("Too many arguments");
                return;
        }

        if (!(file = fopen(mon_string, "wb")))
                mon_error("Unable to create file");
        else {
                uintptr adr = start_adr, end_adr = start_adr + size - 1;

                while (adr <= end_adr)
                        fputc(mon_read_byte(adr++), file);
                fclose(file);

                fprintf(monerr, "%08x bytes written from %0*lx to %0*lx\n", size, int(2 * sizeof(adr)), mon_use_real_mem ? start_adr : start_adr % mon_mem_size, int(2 * sizeof(adr)), mon_use_real_mem ? end_adr : end_adr % mon_mem_size);
        }
}
Revision:	1.21
Committed:	2012-06-19T22:23:25Z (12 years, 4 months ago) by cebix
Branch:	MAIN
CVS Tags:	HEAD
Changes since 1.20:	+4 -2 lines
Log Message:	don't crash if string argument to fill command is empty
#	Content
1	/*
2	* mon_cmd.cpp - cxmon standard commands
3	*
4	* cxmon (C) 1997-2004 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 <stdlib.h>
24
25	#include "mon.h"
26	#include "mon_cmd.h"
27	#include "mon_disass.h"
28
29	#ifndef VERSION
30	#define VERSION "3"
31	#endif
32
33
34	/*
35	* range_args = [expression] [[COMMA] expression] END
36	*
37	* Read start address to "adr", end address to "end_adr".
38	* "adr" defaults to '.', "end_adr" defaults to '.'+def_range
39	*
40	* true: OK, false: Error
41	*/
42
43	static bool range_args(uintptr adr, uintptr end_adr, uint32 def_range)
44	{
45	*adr = mon_dot_address;
46	*end_adr = mon_dot_address + def_range;
47
48	if (mon_token == T_END)
49	return true;
50	else {
51	if (!mon_expression(adr))
52	return false;
53	end_adr = adr + def_range;
54	if (mon_token == T_END)
55	return true;
56	else {
57	if (mon_token == T_COMMA) mon_get_token();
58	if (!mon_expression(end_adr))
59	return false;
60	return mon_token == T_END;
61	}
62	}
63	}
64
65
66	/*
67	* byte_string = (expression \| STRING) {COMMA (expression \| STRING)} END
68	*/
69
70	static bool byte_string(uint8 *&str, uintptr &len)
71	{
72	uintptr value;
73
74	static const int GRANULARITY = 16; // must be a power of 2
75	str = NULL;
76	len = 0;
77	goto start;
78
79	for (;;) {
80	if (mon_token == T_COMMA) {
81	mon_get_token();
82
83	start:
84	if (mon_token == T_STRING) {
85	unsigned n = strlen(mon_string);
86	str = (uint8 *)realloc(str, (len + n - 1 + GRANULARITY) & ~(GRANULARITY - 1));
87	memcpy(str + len, mon_string, n);
88	len += n;
89	mon_get_token();
90	} else if (mon_expression(&value)) {
91	str = (uint8 *)realloc(str, (len + GRANULARITY) & ~(GRANULARITY - 1));
92	str[len] = value;
93	len++;
94	} else {
95	if (str)
96	free(str);
97	return false;
98	}
99
100	} else if (mon_token == T_END) {
101	return true;
102	} else {
103	mon_error("',' expected");
104	if (str)
105	free(str);
106	return false;
107	}
108	}
109	}
110
111
112	/*
113	* Convert character to printable character
114	*/
115
116	static inline uint8 char2print(uint8 c)
117	{
118	return (c >= 0x20 && c <= 0x7e) ? c : '.';
119	}
120
121
122	/*
123	* Show version
124	* ver
125	*/
126
127	void version(void)
128	{
129	fprintf(monout, "cxmon V" VERSION "\n");
130	}
131
132
133	/*
134	* Redirect output
135	* o [file]
136	*/
137
138	void redir_output(void)
139	{
140	// Close old file
141	if (monout != monerr) {
142	fclose(monout);
143	monout = monerr;
144	return;
145	}
146
147	// No argument given?
148	if (mon_token == T_END)
149	return;
150
151	// Otherwise open file
152	if (mon_token == T_STRING) {
153	mon_get_token();
154	if (mon_token != T_END) {
155	mon_error("Too many arguments");
156	return;
157	}
158	if (!(monout = fopen(mon_string, "w")))
159	mon_error("Unable to open file");
160	} else
161	mon_error("'\"' around file name expected");
162	}
163
164
165	/*
166	* Compute and display expression
167	* ? expression
168	*/
169
170	void print_expr(void)
171	{
172	uintptr val;
173
174	if (!mon_expression(&val))
175	return;
176	if (mon_token != T_END) {
177	mon_error("Too many arguments");
178	return;
179	}
180
181	if (val > 0x7fffffff) {
182	fprintf(monout, "Hex unsigned: $%08x\n"
183	"Hex signed : -$%08x\n"
184	"Dec unsigned: %u\n"
185	"Dec signed : %d\n", val, -val, val, val);
186	fprintf(monout, "Char : '%c%c%c%c'\n", char2print(val >> 24), char2print(val >> 16), char2print(val >> 8), char2print(val));
187	} else {
188	fprintf(monout, "Hex : $%08x\n"
189	"Dec : %d\n", val, val);
190	fprintf(monout, "Char: '%c%c%c%c'\n", char2print(val >> 24), char2print(val >> 16), char2print(val >> 8), char2print(val));
191	}
192	}
193
194
195	/*
196	* Execute shell command
197	* \ "command"
198	*/
199
200	void shell_command(void)
201	{
202	if (mon_token != T_STRING) {
203	mon_error("'\"' around command expected");
204	return;
205	}
206	mon_get_token();
207	if (mon_token != T_END) {
208	mon_error("Too many arguments");
209	return;
210	}
211	system(mon_string);
212	}
213
214
215	/*
216	* Memory dump
217	* m [start [end]]
218	*/
219
220	#define MEMDUMP_BPL 16 // Bytes per line
221
222	void memory_dump(void)
223	{
224	uintptr adr, end_adr;
225	uint8 mem[MEMDUMP_BPL + 1];
226
227	mem[MEMDUMP_BPL] = 0;
228
229	if (!range_args(&adr, &end_adr, 16 * MEMDUMP_BPL - 1)) // 16 lines unless end address specified
230	return;
231
232	while (adr <= end_adr && !mon_aborted()) {
233	fprintf(monout, "%0lx:", int(2 sizeof(adr)), mon_use_real_mem ? adr: adr % mon_mem_size);
234	for (int i=0; i<MEMDUMP_BPL; i++, adr++) {
235	if (i % 4 == 0)
236	fprintf(monout, " %08x", mon_read_word(adr));
237	mem[i] = char2print(mon_read_byte(adr));
238	}
239	fprintf(monout, " '%s'\n", mem);
240	}
241
242	mon_dot_address = adr;
243	}
244
245
246	/*
247	* ASCII dump
248	* i [start [end]]
249	*/
250
251	#define ASCIIDUMP_BPL 64 // Bytes per line
252
253	void ascii_dump(void)
254	{
255	uintptr adr, end_adr;
256	uint8 str[ASCIIDUMP_BPL + 1];
257
258	str[ASCIIDUMP_BPL] = 0;
259
260	if (!range_args(&adr, &end_adr, 16 * ASCIIDUMP_BPL - 1)) // 16 lines unless end address specified
261	return;
262
263	while (adr <= end_adr && !mon_aborted()) {
264	fprintf(monout, "%0lx:", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
265	for (int i=0; i<ASCIIDUMP_BPL; i++, adr++)
266	str[i] = char2print(mon_read_byte(adr));
267	fprintf(monout, " '%s'\n", str);
268	}
269
270	mon_dot_address = adr;
271	}
272
273
274	/*
275	* Binary dump
276	* b [start [end]]
277	*/
278
279	void binary_dump(void)
280	{
281	uintptr adr, end_adr;
282	uint8 str[9];
283
284	str[8] = 0;
285
286	if (!range_args(&adr, &end_adr, 7)) // 8 lines unless end address specified
287	return;
288
289	while (adr <= end_adr && !mon_aborted()) {
290	fprintf(monout, "%0lx:", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
291	uint8 b = mon_read_byte(adr);
292	for (int m=0x80, i=0; i<8; m>>=1, i++)
293	str[i] = (b & m) ? '*' : '.';
294	fprintf(monout, " '%s'\n", str);
295	adr++;
296	}
297
298	mon_dot_address = adr;
299	}
300
301
302	/*
303	* Disassemble
304	* d [start [end]]
305	* d65 [start [end]]
306	* d68 [start [end]]
307	* d80 [start [end]]
308	* d86 [start [end]]
309	* d8086 [start [end]]
310	*/
311
312	enum CPUType {
313	CPU_PPC,
314	CPU_6502,
315	CPU_680x0,
316	CPU_Z80,
317	CPU_80x86_32,
318	CPU_80x86_16,
319	CPU_x86_64,
320	CPU_MIPS,
321	CPU_MIPS_LITTLE,
322	};
323
324	static void disassemble(CPUType type)
325	{
326	uintptr adr, end_adr;
327
328	if (!range_args(&adr, &end_adr, 16 * 4 - 1)) // 16 lines unless end address specified
329	return;
330
331	switch (type) {
332	case CPU_PPC:
333	while (adr <= end_adr && !mon_aborted()) {
334	uint32 w = mon_read_word(adr);
335	fprintf(monout, "%0lx: %08x\t", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size, w);
336	disass_ppc(monout, mon_use_real_mem ? adr : adr % mon_mem_size, w);
337	adr += 4;
338	}
339	break;
340
341	case CPU_6502:
342	while (adr <= end_adr && !mon_aborted()) {
343	uint8 op = mon_read_byte(adr);
344	uint8 lo = mon_read_byte(adr + 1);
345	uint8 hi = mon_read_byte(adr + 2);
346	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
347	adr += disass_6502(monout, mon_use_real_mem ? adr : adr % mon_mem_size, op, lo, hi);
348	}
349	break;
350
351	case CPU_680x0:
352	while (adr <= end_adr && !mon_aborted()) {
353	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
354	adr += disass_68k(monout, mon_use_real_mem ? adr : adr % mon_mem_size);
355	}
356	break;
357
358	case CPU_Z80:
359	while (adr <= end_adr && !mon_aborted()) {
360	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
361	adr += disass_z80(monout, mon_use_real_mem ? adr : adr % mon_mem_size);
362	}
363	break;
364
365	case CPU_MIPS:
366	case CPU_MIPS_LITTLE:
367	while (adr <= end_adr && !mon_aborted()) {
368	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
369	adr += disass_mips(monout, mon_use_real_mem ? adr : adr % mon_mem_size, type == CPU_MIPS_LITTLE);
370	}
371	break;
372
373	case CPU_x86_64:
374	while (adr <= end_adr && !mon_aborted()) {
375	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
376	adr += disass_x86(monout, mon_use_real_mem ? adr : adr % mon_mem_size, 64);
377	}
378	break;
379
380	case CPU_80x86_32:
381	while (adr <= end_adr && !mon_aborted()) {
382	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
383	adr += disass_x86(monout, mon_use_real_mem ? adr : adr % mon_mem_size, 32);
384	}
385	break;
386
387	case CPU_80x86_16:
388	while (adr <= end_adr && !mon_aborted()) {
389	fprintf(monout, "%0lx: ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
390	adr += disass_x86(monout, mon_use_real_mem ? adr : adr % mon_mem_size, 16);
391	}
392	}
393
394	mon_dot_address = adr;
395	}
396
397	void disassemble_ppc(void)
398	{
399	disassemble(CPU_PPC);
400	}
401
402	void disassemble_6502(void)
403	{
404	disassemble(CPU_6502);
405	}
406
407	void disassemble_680x0(void)
408	{
409	disassemble(CPU_680x0);
410	}
411
412	void disassemble_z80(void)
413	{
414	disassemble(CPU_Z80);
415	}
416
417	void disassemble_80x86_32(void)
418	{
419	disassemble(CPU_80x86_32);
420	}
421
422	void disassemble_80x86_16(void)
423	{
424	disassemble(CPU_80x86_16);
425	}
426
427	void disassemble_x86_64(void)
428	{
429	disassemble(CPU_x86_64);
430	}
431
432	void disassemble_mips(void)
433	{
434	disassemble(CPU_MIPS);
435	}
436
437	void disassemble_mipsel(void)
438	{
439	disassemble(CPU_MIPS_LITTLE);
440	}
441
442
443	/*
444	* Modify memory
445	* : addr bytestring
446	*/
447
448	void modify(void)
449	{
450	uintptr adr, len, src_adr = 0;
451	uint8 *str;
452
453	if (!mon_expression(&adr))
454	return;
455	if (!byte_string(str, len))
456	return;
457
458	while (src_adr < len)
459	mon_write_byte(adr++, str[src_adr++]);
460	mon_dot_address = adr;
461
462	free(str);
463	}
464
465
466	/*
467	* Fill
468	* f start end bytestring
469	*/
470
471	void fill(void)
472	{
473	uintptr adr, end_adr, len, src_adr = 0;
474	uint8 *str;
475
476	if (!mon_expression(&adr))
477	return;
478	if (!mon_expression(&end_adr))
479	return;
480	if (!byte_string(str, len))
481	return;
482
483	if (len) {
484	while (adr <= end_adr)
485	mon_write_byte(adr++, str[src_adr++ % len]);
486	}
487
488	free(str);
489	}
490
491
492	/*
493	* Transfer memory
494	* t start end dest
495	*/
496
497	void transfer(void)
498	{
499	uintptr adr, end_adr, dest;
500	int num;
501
502	if (!mon_expression(&adr))
503	return;
504	if (!mon_expression(&end_adr))
505	return;
506	if (!mon_expression(&dest))
507	return;
508	if (mon_token != T_END) {
509	mon_error("Too many arguments");
510	return;
511	}
512
513	num = end_adr - adr + 1;
514
515	if (dest < adr)
516	for (int i=0; i<num; i++)
517	mon_write_byte(dest++, mon_read_byte(adr++));
518	else {
519	dest += end_adr - adr;
520	for (int i=0; i<num; i++)
521	mon_write_byte(dest--, mon_read_byte(end_adr--));
522	}
523	}
524
525
526	/*
527	* Compare
528	* c start end dest
529	*/
530
531	void compare(void)
532	{
533	uintptr adr, end_adr, dest;
534	int num = 0;
535
536	if (!mon_expression(&adr))
537	return;
538	if (!mon_expression(&end_adr))
539	return;
540	if (!mon_expression(&dest))
541	return;
542	if (mon_token != T_END) {
543	mon_error("Too many arguments");
544	return;
545	}
546
547	while (adr <= end_adr && !mon_aborted()) {
548	if (mon_read_byte(adr) != mon_read_byte(dest)) {
549	fprintf(monout, "%0lx ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
550	num++;
551	if (!(num & 7))
552	fputc('\n', monout);
553	}
554	adr++; dest++;
555	}
556
557	if (num & 7)
558	fputc('\n', monout);
559	fprintf(monout, "%d byte(s) different\n", num);
560	}
561
562
563	/*
564	* Search for byte string
565	* h start end bytestring
566	*/
567
568	void hunt(void)
569	{
570	uintptr adr, end_adr, len;
571	uint8 *str;
572	int num = 0;
573
574	if (!mon_expression(&adr))
575	return;
576	if (!mon_expression(&end_adr))
577	return;
578	if (!byte_string(str, len))
579	return;
580
581	while ((adr+len-1) <= end_adr && !mon_aborted()) {
582	uint32 i;
583
584	for (i=0; i<len; i++)
585	if (mon_read_byte(adr + i) != str[i])
586	break;
587
588	if (i == len) {
589	fprintf(monout, "%0lx ", int(2 sizeof(adr)), mon_use_real_mem ? adr : adr % mon_mem_size);
590	num++;
591	if (num == 1)
592	mon_dot_address = adr;
593	if (!(num & 7))
594	fputc('\n', monout);
595	}
596	adr++;
597	}
598
599	free(str);
600
601	if (num & 7)
602	fputc('\n', monout);
603	fprintf(monout, "Found %d occurrences\n", num);
604	}
605
606
607	/*
608	* Load data
609	* [ start "file"
610	*/
611
612	void load_data(void)
613	{
614	uintptr start_adr;
615	FILE *file;
616	int fc;
617
618	if (!mon_expression(&start_adr))
619	return;
620	if (mon_token == T_END) {
621	mon_error("Missing file name");
622	return;
623	}
624	if (mon_token != T_STRING) {
625	mon_error("'\"' around file name expected");
626	return;
627	}
628	mon_get_token();
629	if (mon_token != T_END) {
630	mon_error("Too many arguments");
631	return;
632	}
633
634	if (!(file = fopen(mon_string, "rb")))
635	mon_error("Unable to open file");
636	else {
637	uintptr adr = start_adr;
638
639	while ((fc = fgetc(file)) != EOF)
640	mon_write_byte(adr++, fc);
641	fclose(file);
642
643	fprintf(monerr, "%08x bytes read from %0lx to %0lx\n", adr - start_adr, int(2 * sizeof(adr)), mon_use_real_mem ? start_adr : start_adr % mon_mem_size, int(2 * sizeof(adr)), mon_use_real_mem ? adr-1 : (adr-1) % mon_mem_size);
644	mon_dot_address = adr;
645	}
646	}
647
648
649	/*
650	* Save data
651	* ] start size "file"
652	*/
653
654	void save_data(void)
655	{
656	uintptr start_adr, size;
657	FILE *file;
658
659	if (!mon_expression(&start_adr))
660	return;
661	if (!mon_expression(&size))
662	return;
663	if (mon_token == T_END) {
664	mon_error("Missing file name");
665	return;
666	}
667	if (mon_token != T_STRING) {
668	mon_error("'\"' around file name expected");
669	return;
670	}
671	mon_get_token();
672	if (mon_token != T_END) {
673	mon_error("Too many arguments");
674	return;
675	}
676
677	if (!(file = fopen(mon_string, "wb")))
678	mon_error("Unable to create file");
679	else {
680	uintptr adr = start_adr, end_adr = start_adr + size - 1;
681
682	while (adr <= end_adr)
683	fputc(mon_read_byte(adr++), file);
684	fclose(file);
685
686	fprintf(monerr, "%08x bytes written from %0lx to %0lx\n", size, int(2 * sizeof(adr)), mon_use_real_mem ? start_adr : start_adr % mon_mem_size, int(2 * sizeof(adr)), mon_use_real_mem ? end_adr : end_adr % mon_mem_size);
687	}
688	}