2 * QEMU readline utility
4 * Copyright (c) 2003-2004 Fabrice Bellard
6 * Permission is hereby granted, free of charge, to any person obtaining a copy
7 * of this software and associated documentation files (the "Software"), to deal
8 * in the Software without restriction, including without limitation the rights
9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
10 * copies of the Software, and to permit persons to whom the Software is
11 * furnished to do so, subject to the following conditions:
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
24 #include "monitor/readline.h"
25 #include "monitor/monitor.h"
32 #define printf do_not_use_printf
34 void readline_show_prompt(ReadLineState
*rs
)
36 monitor_printf(rs
->mon
, "%s", rs
->prompt
);
37 monitor_flush(rs
->mon
);
38 rs
->last_cmd_buf_index
= 0;
39 rs
->last_cmd_buf_size
= 0;
40 rs
->esc_state
= IS_NORM
;
43 /* update the displayed command line */
44 static void readline_update(ReadLineState
*rs
)
48 if (rs
->cmd_buf_size
!= rs
->last_cmd_buf_size
||
49 memcmp(rs
->cmd_buf
, rs
->last_cmd_buf
, rs
->cmd_buf_size
) != 0) {
50 for(i
= 0; i
< rs
->last_cmd_buf_index
; i
++) {
51 monitor_printf(rs
->mon
, "\033[D");
53 rs
->cmd_buf
[rs
->cmd_buf_size
] = '\0';
54 if (rs
->read_password
) {
55 len
= strlen(rs
->cmd_buf
);
56 for(i
= 0; i
< len
; i
++)
57 monitor_printf(rs
->mon
, "*");
59 monitor_printf(rs
->mon
, "%s", rs
->cmd_buf
);
61 monitor_printf(rs
->mon
, "\033[K");
62 memcpy(rs
->last_cmd_buf
, rs
->cmd_buf
, rs
->cmd_buf_size
);
63 rs
->last_cmd_buf_size
= rs
->cmd_buf_size
;
64 rs
->last_cmd_buf_index
= rs
->cmd_buf_size
;
66 if (rs
->cmd_buf_index
!= rs
->last_cmd_buf_index
) {
67 delta
= rs
->cmd_buf_index
- rs
->last_cmd_buf_index
;
69 for(i
= 0;i
< delta
; i
++) {
70 monitor_printf(rs
->mon
, "\033[C");
74 for(i
= 0;i
< delta
; i
++) {
75 monitor_printf(rs
->mon
, "\033[D");
78 rs
->last_cmd_buf_index
= rs
->cmd_buf_index
;
80 monitor_flush(rs
->mon
);
83 static void readline_insert_char(ReadLineState
*rs
, int ch
)
85 if (rs
->cmd_buf_index
< READLINE_CMD_BUF_SIZE
) {
86 memmove(rs
->cmd_buf
+ rs
->cmd_buf_index
+ 1,
87 rs
->cmd_buf
+ rs
->cmd_buf_index
,
88 rs
->cmd_buf_size
- rs
->cmd_buf_index
);
89 rs
->cmd_buf
[rs
->cmd_buf_index
] = ch
;
95 static void readline_backward_char(ReadLineState
*rs
)
97 if (rs
->cmd_buf_index
> 0) {
102 static void readline_forward_char(ReadLineState
*rs
)
104 if (rs
->cmd_buf_index
< rs
->cmd_buf_size
) {
109 static void readline_delete_char(ReadLineState
*rs
)
111 if (rs
->cmd_buf_index
< rs
->cmd_buf_size
) {
112 memmove(rs
->cmd_buf
+ rs
->cmd_buf_index
,
113 rs
->cmd_buf
+ rs
->cmd_buf_index
+ 1,
114 rs
->cmd_buf_size
- rs
->cmd_buf_index
- 1);
119 static void readline_backspace(ReadLineState
*rs
)
121 if (rs
->cmd_buf_index
> 0) {
122 readline_backward_char(rs
);
123 readline_delete_char(rs
);
127 static void readline_backword(ReadLineState
*rs
)
131 if (rs
->cmd_buf_index
== 0 || rs
->cmd_buf_index
> rs
->cmd_buf_size
) {
135 start
= rs
->cmd_buf_index
- 1;
137 /* find first word (backwards) */
139 if (!qemu_isspace(rs
->cmd_buf
[start
])) {
146 /* find first space (backwards) */
148 if (qemu_isspace(rs
->cmd_buf
[start
])) {
157 if (start
< rs
->cmd_buf_index
) {
158 memmove(rs
->cmd_buf
+ start
,
159 rs
->cmd_buf
+ rs
->cmd_buf_index
,
160 rs
->cmd_buf_size
- rs
->cmd_buf_index
);
161 rs
->cmd_buf_size
-= rs
->cmd_buf_index
- start
;
162 rs
->cmd_buf_index
= start
;
166 static void readline_bol(ReadLineState
*rs
)
168 rs
->cmd_buf_index
= 0;
171 static void readline_eol(ReadLineState
*rs
)
173 rs
->cmd_buf_index
= rs
->cmd_buf_size
;
176 static void readline_up_char(ReadLineState
*rs
)
180 if (rs
->hist_entry
== 0)
182 if (rs
->hist_entry
== -1) {
183 /* Find latest entry */
184 for (idx
= 0; idx
< READLINE_MAX_CMDS
; idx
++) {
185 if (rs
->history
[idx
] == NULL
)
188 rs
->hist_entry
= idx
;
191 if (rs
->hist_entry
>= 0) {
192 pstrcpy(rs
->cmd_buf
, sizeof(rs
->cmd_buf
),
193 rs
->history
[rs
->hist_entry
]);
194 rs
->cmd_buf_index
= rs
->cmd_buf_size
= strlen(rs
->cmd_buf
);
198 static void readline_down_char(ReadLineState
*rs
)
200 if (rs
->hist_entry
== -1)
202 if (rs
->hist_entry
< READLINE_MAX_CMDS
- 1 &&
203 rs
->history
[++rs
->hist_entry
] != NULL
) {
204 pstrcpy(rs
->cmd_buf
, sizeof(rs
->cmd_buf
),
205 rs
->history
[rs
->hist_entry
]);
210 rs
->cmd_buf_index
= rs
->cmd_buf_size
= strlen(rs
->cmd_buf
);
213 static void readline_hist_add(ReadLineState
*rs
, const char *cmdline
)
215 char *hist_entry
, *new_entry
;
218 if (cmdline
[0] == '\0')
221 if (rs
->hist_entry
!= -1) {
222 /* We were editing an existing history entry: replace it */
223 hist_entry
= rs
->history
[rs
->hist_entry
];
224 idx
= rs
->hist_entry
;
225 if (strcmp(hist_entry
, cmdline
) == 0) {
229 /* Search cmdline in history buffers */
230 for (idx
= 0; idx
< READLINE_MAX_CMDS
; idx
++) {
231 hist_entry
= rs
->history
[idx
];
232 if (hist_entry
== NULL
)
234 if (strcmp(hist_entry
, cmdline
) == 0) {
236 new_entry
= hist_entry
;
237 /* Put this entry at the end of history */
238 memmove(&rs
->history
[idx
], &rs
->history
[idx
+ 1],
239 (READLINE_MAX_CMDS
- (idx
+ 1)) * sizeof(char *));
240 rs
->history
[READLINE_MAX_CMDS
- 1] = NULL
;
241 for (; idx
< READLINE_MAX_CMDS
; idx
++) {
242 if (rs
->history
[idx
] == NULL
)
248 if (idx
== READLINE_MAX_CMDS
) {
249 /* Need to get one free slot */
250 free(rs
->history
[0]);
251 memmove(rs
->history
, &rs
->history
[1],
252 (READLINE_MAX_CMDS
- 1) * sizeof(char *));
253 rs
->history
[READLINE_MAX_CMDS
- 1] = NULL
;
254 idx
= READLINE_MAX_CMDS
- 1;
256 if (new_entry
== NULL
)
257 new_entry
= strdup(cmdline
);
258 rs
->history
[idx
] = new_entry
;
262 /* completion support */
264 void readline_add_completion(ReadLineState
*rs
, const char *str
)
266 if (rs
->nb_completions
< READLINE_MAX_COMPLETIONS
) {
267 rs
->completions
[rs
->nb_completions
++] = g_strdup(str
);
271 void readline_set_completion_index(ReadLineState
*rs
, int index
)
273 rs
->completion_index
= index
;
276 static void readline_completion(ReadLineState
*rs
)
278 Monitor
*mon
= cur_mon
;
279 int len
, i
, j
, max_width
, nb_cols
, max_prefix
;
282 rs
->nb_completions
= 0;
284 cmdline
= g_malloc(rs
->cmd_buf_index
+ 1);
285 memcpy(cmdline
, rs
->cmd_buf
, rs
->cmd_buf_index
);
286 cmdline
[rs
->cmd_buf_index
] = '\0';
287 rs
->completion_finder(cmdline
);
290 /* no completion found */
291 if (rs
->nb_completions
<= 0)
293 if (rs
->nb_completions
== 1) {
294 len
= strlen(rs
->completions
[0]);
295 for(i
= rs
->completion_index
; i
< len
; i
++) {
296 readline_insert_char(rs
, rs
->completions
[0][i
]);
298 /* extra space for next argument. XXX: make it more generic */
299 if (len
> 0 && rs
->completions
[0][len
- 1] != '/')
300 readline_insert_char(rs
, ' ');
302 monitor_printf(mon
, "\n");
305 for(i
= 0; i
< rs
->nb_completions
; i
++) {
306 len
= strlen(rs
->completions
[i
]);
310 if (len
< max_prefix
)
312 for(j
=0; j
<max_prefix
; j
++) {
313 if (rs
->completions
[i
][j
] != rs
->completions
[0][j
])
321 for(i
= rs
->completion_index
; i
< max_prefix
; i
++) {
322 readline_insert_char(rs
, rs
->completions
[0][i
]);
327 else if (max_width
> 80)
329 nb_cols
= 80 / max_width
;
331 for(i
= 0; i
< rs
->nb_completions
; i
++) {
332 monitor_printf(rs
->mon
, "%-*s", max_width
, rs
->completions
[i
]);
333 if (++j
== nb_cols
|| i
== (rs
->nb_completions
- 1)) {
334 monitor_printf(rs
->mon
, "\n");
338 readline_show_prompt(rs
);
340 for (i
= 0; i
< rs
->nb_completions
; i
++) {
341 g_free(rs
->completions
[i
]);
345 /* return true if command handled */
346 void readline_handle_byte(ReadLineState
*rs
, int ch
)
348 switch(rs
->esc_state
) {
355 readline_delete_char(rs
);
361 readline_completion(rs
);
365 rs
->cmd_buf
[rs
->cmd_buf_size
] = '\0';
366 if (!rs
->read_password
)
367 readline_hist_add(rs
, rs
->cmd_buf
);
368 monitor_printf(rs
->mon
, "\n");
369 rs
->cmd_buf_index
= 0;
370 rs
->cmd_buf_size
= 0;
371 rs
->last_cmd_buf_index
= 0;
372 rs
->last_cmd_buf_size
= 0;
373 rs
->readline_func(rs
->mon
, rs
->cmd_buf
, rs
->readline_opaque
);
377 readline_backword(rs
);
380 rs
->esc_state
= IS_ESC
;
384 readline_backspace(rs
);
387 rs
->esc_state
= IS_CSI
;
391 readline_insert_char(rs
, ch
);
398 rs
->esc_state
= IS_CSI
;
401 rs
->esc_state
= IS_NORM
;
408 readline_up_char(rs
);
412 readline_down_char(rs
);
415 readline_backward_char(rs
);
418 readline_forward_char(rs
);
421 rs
->esc_param
= rs
->esc_param
* 10 + (ch
- '0');
424 switch(rs
->esc_param
) {
429 readline_delete_char(rs
);
439 rs
->esc_state
= IS_NORM
;
446 void readline_start(ReadLineState
*rs
, const char *prompt
, int read_password
,
447 ReadLineFunc
*readline_func
, void *opaque
)
449 pstrcpy(rs
->prompt
, sizeof(rs
->prompt
), prompt
);
450 rs
->readline_func
= readline_func
;
451 rs
->readline_opaque
= opaque
;
452 rs
->read_password
= read_password
;
453 readline_restart(rs
);
456 void readline_restart(ReadLineState
*rs
)
458 rs
->cmd_buf_index
= 0;
459 rs
->cmd_buf_size
= 0;
462 const char *readline_get_history(ReadLineState
*rs
, unsigned int index
)
464 if (index
>= READLINE_MAX_CMDS
)
466 return rs
->history
[index
];
469 ReadLineState
*readline_init(Monitor
*mon
,
470 ReadLineCompletionFunc
*completion_finder
)
472 ReadLineState
*rs
= g_malloc0(sizeof(*rs
));
476 rs
->completion_finder
= completion_finder
;