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1 /* Definitions for remote debugging interface for ROM monitors.
2 Copyright (C) 1990-2013 Free Software Foundation, Inc.
3 Contributed by Cygnus Support. Written by Rob Savoye for Cygnus.
4
5 This file is part of GDB.
6
7 This program is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3 of the License, or
10 (at your option) any later version.
11
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
16
17 You should have received a copy of the GNU General Public License
18 along with this program. If not, see <http://www.gnu.org/licenses/>. */
19
20 #ifndef MONITOR_H
21 #define MONITOR_H
22
23 struct target_waitstatus;
24 struct serial;
25
26 /* This structure describes the strings necessary to give small command
27 sequences to the monitor, and parse the response.
28
29 CMD is the actual command typed at the monitor. Usually this has
30 embedded sequences ala printf, which are substituted with the
31 arguments appropriate to that type of command. Ie: to examine a
32 register, we substitute the register name for the first arg. To
33 modify memory, we substitute the memory location and the new
34 contents for the first and second args, etc...
35
36 RESP_DELIM used to home in on the response string, and is used to
37 disambiguate the answer within the pile of text returned by the
38 monitor. This should be a unique string that immediately precedes
39 the answer. Ie: if your monitor prints out `PC: 00000001= ' in
40 response to asking for the PC, you should use `: ' as the
41 RESP_DELIM. RESP_DELIM may be NULL if the res- ponse is going to
42 be ignored, or has no particular leading text.
43
44 TERM is the string that the monitor outputs to indicate that it is
45 idle, and waiting for input. This is usually a prompt of some
46 sort. In the previous example, it would be `= '. It is important
47 that TERM really means that the monitor is idle, otherwise GDB may
48 try to type at it when it isn't ready for input. This is a problem
49 because many monitors cannot deal with type-ahead. TERM may be
50 NULL if the normal prompt is output.
51
52 TERM_CMD is used to quit out of the subcommand mode and get back to
53 the main prompt. TERM_CMD may be NULL if it isn't necessary. It
54 will also be ignored if TERM is NULL. */
55
56 struct memrw_cmd
57 {
58 char *cmdb; /* Command to send for byte read/write */
59 char *cmdw; /* Command for word (16 bit) read/write */
60 char *cmdl; /* Command for long (32 bit) read/write */
61 char *cmdll; /* Command for long long (64 bit) read/write */
62 char *resp_delim; /* String just prior to the desired value */
63 char *term; /* Terminating string to search for */
64 char *term_cmd; /* String to get out of sub-mode (if
65 necessary) */
66 };
67
68 struct regrw_cmd
69 {
70 char *cmd; /* Command to send for reg read/write */
71 char *resp_delim; /* String (actually a regexp if getmem) just
72 prior to the desired value */
73 char *term; /* Terminating string to search for */
74 char *term_cmd; /* String to get out of sub-mode (if
75 necessary) */
76 };
77
78 struct monitor_ops
79 {
80 int flags; /* See below */
81 char **init; /* List of init commands. NULL terminated. */
82 char *cont; /* continue command */
83 char *step; /* single step */
84 char *stop; /* Interrupt program string */
85 char *set_break; /* set a breakpoint. If NULL, monitor
86 implementation sets its own
87 to_insert_breakpoint method. */
88 char *clr_break; /* clear a breakpoint */
89 char *clr_all_break; /* Clear all breakpoints */
90 char *fill; /* Memory fill cmd (addr len val) */
91 struct memrw_cmd setmem; /* set memory to a value */
92 struct memrw_cmd getmem; /* display memory */
93 struct regrw_cmd setreg; /* set a register */
94 struct regrw_cmd getreg; /* get a register */
95 /* Some commands can dump a bunch of registers
96 at once. This comes as a set of REG=VAL
97 pairs. This should be called for each pair
98 of registers that we can parse to supply
99 GDB with the value of a register. */
100 char *dump_registers; /* Command to dump all regs at once */
101 char *register_pattern; /* Pattern that picks out register
102 from reg dump */
103 void (*supply_register) (struct regcache *regcache, char *name,
104 int namelen, char *val, int vallen);
105 int (*dumpregs) (struct regcache *); /* Dump all registers */
106 int (*continue_hook) (void); /* Emit the continue command */
107 int (*wait_filter) (char *buf, /* Maybe contains registers */
108 int bufmax,
109 int *response_length,
110 struct target_waitstatus * status);
111 char *load; /* load command */
112 char *loadresp; /* Response to load command */
113 char *prompt; /* monitor command prompt */
114 char *line_term; /* end-of-command delimitor */
115 char *cmd_end; /* optional command terminator */
116 struct target_ops *target; /* target operations */
117 int stopbits; /* number of stop bits */
118 char **regnames; /* array of register names in ascii */
119 /* deprecated: use regname instead */
120 const char *(*regname) (int index);
121 /* function for dynamic regname array */
122 int num_breakpoints; /* If set_break != NULL, number of supported
123 breakpoints */
124 int magic; /* Check value */
125 };
126
127 /* The monitor ops magic number, used to detect if an ops structure doesn't
128 have the right number of entries filled in. */
129
130 #define MONITOR_OPS_MAGIC 600925
131
132 /* Flag definitions. */
133
134 /* If set, then clear breakpoint command uses address, otherwise it
135 uses an index returned by the monitor. */
136
137 #define MO_CLR_BREAK_USES_ADDR 0x1
138
139 /* If set, then memory fill command uses STARTADDR, ENDADDR+1, VALUE
140 as args, else it uses STARTADDR, LENGTH, VALUE as args. */
141
142 #define MO_FILL_USES_ADDR 0x2
143
144 /* If set, then monitor doesn't automatically supply register dump
145 when coming back after a continue. */
146
147 #define MO_NEED_REGDUMP_AFTER_CONT 0x4
148
149 /* getmem needs start addr and end addr. */
150
151 #define MO_GETMEM_NEEDS_RANGE 0x8
152
153 /* getmem can only read one loc at a time. */
154
155 #define MO_GETMEM_READ_SINGLE 0x10
156
157 /* handle \r\n combinations. */
158
159 #define MO_HANDLE_NL 0x20
160
161 /* don't expect echos in monitor_open. */
162
163 #define MO_NO_ECHO_ON_OPEN 0x40
164
165 /* If set, send break to stop monitor. */
166
167 #define MO_SEND_BREAK_ON_STOP 0x80
168
169 /* If set, target sends an ACK after each S-record. */
170
171 #define MO_SREC_ACK 0x100
172
173 /* Allow 0x prefix on addresses retured from monitor. */
174
175 #define MO_HEX_PREFIX 0x200
176
177 /* Some monitors require a different command when starting a program. */
178
179 #define MO_RUN_FIRST_TIME 0x400
180
181 /* Don't expect echos when getting memory */
182
183 #define MO_NO_ECHO_ON_SETMEM 0x800
184
185 /* If set, then register store command expects value BEFORE regname. */
186
187 #define MO_REGISTER_VALUE_FIRST 0x1000
188
189 /* If set, then the monitor displays registers as pairs. */
190
191 #define MO_32_REGS_PAIRED 0x2000
192
193 /* If set, then register setting happens interactively. */
194
195 #define MO_SETREG_INTERACTIVE 0x4000
196
197 /* If set, then memory setting happens interactively. */
198
199 #define MO_SETMEM_INTERACTIVE 0x8000
200
201 /* If set, then memory dumps are always on 16-byte boundaries, even
202 when less is desired. */
203
204 #define MO_GETMEM_16_BOUNDARY 0x10000
205
206 /* If set, then the monitor numbers its breakpoints starting from 1. */
207
208 #define MO_CLR_BREAK_1_BASED 0x20000
209
210 /* If set, then the monitor acks srecords with a plus sign. */
211
212 #define MO_SREC_ACK_PLUS 0x40000
213
214 /* If set, then the monitor "acks" srecords with rotating lines. */
215
216 #define MO_SREC_ACK_ROTATE 0x80000
217
218 /* If set, then remove useless address bits from memory addresses. */
219
220 #define MO_ADDR_BITS_REMOVE 0x100000
221
222 /* If set, then display target program output if prefixed by ^O. */
223
224 #define MO_PRINT_PROGRAM_OUTPUT 0x200000
225
226 /* Some dump bytes commands align the first data with the preceding
227 16 byte boundary. Some print blanks and start at the exactly the
228 requested boundary. */
229
230 #define MO_EXACT_DUMPADDR 0x400000
231
232 /* Rather entering and exiting the write memory dialog for each word byte,
233 we can save time by transferring the whole block without exiting
234 the memory editing mode. You only need to worry about this
235 if you are doing memory downloading.
236 This engages a new write function registered with dcache. */
237
238 #define MO_HAS_BLOCKWRITES 0x800000
239
240 #define SREC_SIZE 160
241
242 extern void monitor_open (char *args, struct monitor_ops *ops, int from_tty);
243 extern void monitor_close (void);
244 extern char *monitor_supply_register (struct regcache *regcache,
245 int regno, char *valstr);
246 extern int monitor_expect (char *prompt, char *buf, int buflen);
247 extern int monitor_expect_prompt (char *buf, int buflen);
248 /* Note: The variable argument functions monitor_printf and
249 monitor_printf_noecho vararg do not take take standard format style
250 arguments. Instead they take custom formats interpretered directly
251 by monitor_vsprintf. */
252 extern void monitor_printf (char *, ...);
253 extern void monitor_printf_noecho (char *, ...);
254 extern void monitor_write (char *buf, int buflen);
255 extern int monitor_readchar (void);
256 extern char *monitor_get_dev_name (void);
257 extern void init_monitor_ops (struct target_ops *);
258 extern int monitor_dump_reg_block (struct regcache *regcache, char *dump_cmd);
259
260 #endif
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