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target-ppc: dump DAR and DSISR
[qemu/ar7.git] / monitor.c
blob3863d8346624a8a21782877682f243298248794a
1 /*
2 * QEMU monitor
3 *
4 * Copyright (c) 2003-2004 Fabrice Bellard
5 *
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:
12 *
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
15 *
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
22 * THE SOFTWARE.
23 */
24 #include <dirent.h>
25 #include "hw/hw.h"
26 #include "monitor/qdev.h"
27 #include "hw/usb.h"
28 #include "hw/pcmcia.h"
29 #include "hw/i386/pc.h"
30 #include "hw/pci/pci.h"
31 #include "sysemu/watchdog.h"
32 #include "hw/loader.h"
33 #include "exec/gdbstub.h"
34 #include "net/net.h"
35 #include "net/slirp.h"
36 #include "sysemu/char.h"
37 #include "ui/qemu-spice.h"
38 #include "sysemu/sysemu.h"
39 #include "monitor/monitor.h"
40 #include "qemu/readline.h"
41 #include "ui/console.h"
42 #include "sysemu/blockdev.h"
43 #include "audio/audio.h"
44 #include "disas/disas.h"
45 #include "sysemu/balloon.h"
46 #include "qemu/timer.h"
47 #include "migration/migration.h"
48 #include "sysemu/kvm.h"
49 #include "qemu/acl.h"
50 #include "sysemu/tpm.h"
51 #include "qapi/qmp/qint.h"
52 #include "qapi/qmp/qfloat.h"
53 #include "qapi/qmp/qlist.h"
54 #include "qapi/qmp/qbool.h"
55 #include "qapi/qmp/qstring.h"
56 #include "qapi/qmp/qjson.h"
57 #include "qapi/qmp/json-streamer.h"
58 #include "qapi/qmp/json-parser.h"
59 #include <qom/object_interfaces.h>
60 #include "qemu/osdep.h"
61 #include "cpu.h"
62 #include "trace.h"
63 #include "trace/control.h"
64 #ifdef CONFIG_TRACE_SIMPLE
65 #include "trace/simple.h"
66 #endif
67 #include "exec/memory.h"
68 #include "qmp-commands.h"
69 #include "hmp.h"
70 #include "qemu/thread.h"
71
72 /* for pic/irq_info */
73 #if defined(TARGET_SPARC)
74 #include "hw/sparc/sun4m.h"
75 #endif
76 #include "hw/lm32/lm32_pic.h"
77
78 //#define DEBUG
79 //#define DEBUG_COMPLETION
80
81 /*
82 * Supported types:
83 *
84 * 'F' filename
85 * 'B' block device name
86 * 's' string (accept optional quote)
87 * 'S' it just appends the rest of the string (accept optional quote)
88 * 'O' option string of the form NAME=VALUE,...
89 * parsed according to QemuOptsList given by its name
90 * Example: 'device:O' uses qemu_device_opts.
91 * Restriction: only lists with empty desc are supported
92 * TODO lift the restriction
93 * 'i' 32 bit integer
94 * 'l' target long (32 or 64 bit)
95 * 'M' Non-negative target long (32 or 64 bit), in user mode the
96 * value is multiplied by 2^20 (think Mebibyte)
97 * 'o' octets (aka bytes)
98 * user mode accepts an optional E, e, P, p, T, t, G, g, M, m,
99 * K, k suffix, which multiplies the value by 2^60 for suffixes E
100 * and e, 2^50 for suffixes P and p, 2^40 for suffixes T and t,
101 * 2^30 for suffixes G and g, 2^20 for M and m, 2^10 for K and k
102 * 'T' double
103 * user mode accepts an optional ms, us, ns suffix,
104 * which divides the value by 1e3, 1e6, 1e9, respectively
105 * '/' optional gdb-like print format (like "/10x")
106 *
107 * '?' optional type (for all types, except '/')
108 * '.' other form of optional type (for 'i' and 'l')
109 * 'b' boolean
110 * user mode accepts "on" or "off"
111 * '-' optional parameter (eg. '-f')
112 *
113 */
114
115 typedef struct MonitorCompletionData MonitorCompletionData;
116 struct MonitorCompletionData {
117 Monitor *mon;
118 void (*user_print)(Monitor *mon, const QObject *data);
119 };
120
121 typedef struct mon_cmd_t {
122 const char *name;
123 const char *args_type;
124 const char *params;
125 const char *help;
126 void (*user_print)(Monitor *mon, const QObject *data);
127 union {
128 void (*cmd)(Monitor *mon, const QDict *qdict);
129 int (*cmd_new)(Monitor *mon, const QDict *params, QObject **ret_data);
130 int (*cmd_async)(Monitor *mon, const QDict *params,
131 MonitorCompletion *cb, void *opaque);
132 } mhandler;
133 int flags;
134 /* @sub_table is a list of 2nd level of commands. If it do not exist,
135 * mhandler should be used. If it exist, sub_table[?].mhandler should be
136 * used, and mhandler of 1st level plays the role of help function.
137 */
138 struct mon_cmd_t *sub_table;
139 } mon_cmd_t;
140
141 /* file descriptors passed via SCM_RIGHTS */
142 typedef struct mon_fd_t mon_fd_t;
143 struct mon_fd_t {
144 char *name;
145 int fd;
146 QLIST_ENTRY(mon_fd_t) next;
147 };
148
149 /* file descriptor associated with a file descriptor set */
150 typedef struct MonFdsetFd MonFdsetFd;
151 struct MonFdsetFd {
152 int fd;
153 bool removed;
154 char *opaque;
155 QLIST_ENTRY(MonFdsetFd) next;
156 };
157
158 /* file descriptor set containing fds passed via SCM_RIGHTS */
159 typedef struct MonFdset MonFdset;
160 struct MonFdset {
161 int64_t id;
162 QLIST_HEAD(, MonFdsetFd) fds;
163 QLIST_HEAD(, MonFdsetFd) dup_fds;
164 QLIST_ENTRY(MonFdset) next;
165 };
166
167 typedef struct MonitorControl {
168 QObject *id;
169 JSONMessageParser parser;
170 int command_mode;
171 } MonitorControl;
172
173 /*
174 * To prevent flooding clients, events can be throttled. The
175 * throttling is calculated globally, rather than per-Monitor
176 * instance.
177 */
178 typedef struct MonitorEventState {
179 MonitorEvent event; /* Event being tracked */
180 int64_t rate; /* Period over which to throttle. 0 to disable */
181 int64_t last; /* Time at which event was last emitted */
182 QEMUTimer *timer; /* Timer for handling delayed events */
183 QObject *data; /* Event pending delayed dispatch */
184 } MonitorEventState;
185
186 struct Monitor {
187 CharDriverState *chr;
188 int mux_out;
189 int reset_seen;
190 int flags;
191 int suspend_cnt;
192 bool skip_flush;
193 QString *outbuf;
194 guint watch;
195 ReadLineState *rs;
196 MonitorControl *mc;
197 CPUState *mon_cpu;
198 BlockDriverCompletionFunc *password_completion_cb;
199 void *password_opaque;
200 mon_cmd_t *cmd_table;
201 QError *error;
202 QLIST_HEAD(,mon_fd_t) fds;
203 QLIST_ENTRY(Monitor) entry;
204 };
205
206 /* QMP checker flags */
207 #define QMP_ACCEPT_UNKNOWNS 1
208
209 static QLIST_HEAD(mon_list, Monitor) mon_list;
210 static QLIST_HEAD(mon_fdsets, MonFdset) mon_fdsets;
211 static int mon_refcount;
212
213 static mon_cmd_t mon_cmds[];
214 static mon_cmd_t info_cmds[];
215
216 static const mon_cmd_t qmp_cmds[];
217
218 Monitor *cur_mon;
219 Monitor *default_mon;
220
221 static void monitor_command_cb(void *opaque, const char *cmdline,
222 void *readline_opaque);
223
224 static inline int qmp_cmd_mode(const Monitor *mon)
225 {
226 return (mon->mc ? mon->mc->command_mode : 0);
227 }
228
229 /* Return true if in control mode, false otherwise */
230 static inline int monitor_ctrl_mode(const Monitor *mon)
231 {
232 return (mon->flags & MONITOR_USE_CONTROL);
233 }
234
235 /* Return non-zero iff we have a current monitor, and it is in QMP mode. */
236 int monitor_cur_is_qmp(void)
237 {
238 return cur_mon && monitor_ctrl_mode(cur_mon);
239 }
240
241 void monitor_read_command(Monitor *mon, int show_prompt)
242 {
243 if (!mon->rs)
244 return;
245
246 readline_start(mon->rs, "(qemu) ", 0, monitor_command_cb, NULL);
247 if (show_prompt)
248 readline_show_prompt(mon->rs);
249 }
250
251 int monitor_read_password(Monitor *mon, ReadLineFunc *readline_func,
252 void *opaque)
253 {
254 if (monitor_ctrl_mode(mon)) {
255 qerror_report(QERR_MISSING_PARAMETER, "password");
256 return -EINVAL;
257 } else if (mon->rs) {
258 readline_start(mon->rs, "Password: ", 1, readline_func, opaque);
259 /* prompt is printed on return from the command handler */
260 return 0;
261 } else {
262 monitor_printf(mon, "terminal does not support password prompting\n");
263 return -ENOTTY;
264 }
265 }
266
267 static gboolean monitor_unblocked(GIOChannel *chan, GIOCondition cond,
268 void *opaque)
269 {
270 Monitor *mon = opaque;
271
272 mon->watch = 0;
273 monitor_flush(mon);
274 return FALSE;
275 }
276
277 void monitor_flush(Monitor *mon)
278 {
279 int rc;
280 size_t len;
281 const char *buf;
282
283 if (mon->skip_flush) {
284 return;
285 }
286
287 buf = qstring_get_str(mon->outbuf);
288 len = qstring_get_length(mon->outbuf);
289
290 if (len && !mon->mux_out) {
291 rc = qemu_chr_fe_write(mon->chr, (const uint8_t *) buf, len);
292 if ((rc < 0 && errno != EAGAIN) || (rc == len)) {
293 /* all flushed or error */
294 QDECREF(mon->outbuf);
295 mon->outbuf = qstring_new();
296 return;
297 }
298 if (rc > 0) {
299 /* partinal write */
300 QString *tmp = qstring_from_str(buf + rc);
301 QDECREF(mon->outbuf);
302 mon->outbuf = tmp;
303 }
304 if (mon->watch == 0) {
305 mon->watch = qemu_chr_fe_add_watch(mon->chr, G_IO_OUT,
306 monitor_unblocked, mon);
307 }
308 }
309 }
310
311 /* flush at every end of line */
312 static void monitor_puts(Monitor *mon, const char *str)
313 {
314 char c;
315
316 for(;;) {
317 c = *str++;
318 if (c == '\0')
319 break;
320 if (c == '\n') {
321 qstring_append_chr(mon->outbuf, '\r');
322 }
323 qstring_append_chr(mon->outbuf, c);
324 if (c == '\n') {
325 monitor_flush(mon);
326 }
327 }
328 }
329
330 void monitor_vprintf(Monitor *mon, const char *fmt, va_list ap)
331 {
332 char *buf;
333
334 if (!mon)
335 return;
336
337 if (monitor_ctrl_mode(mon)) {
338 return;
339 }
340
341 buf = g_strdup_vprintf(fmt, ap);
342 monitor_puts(mon, buf);
343 g_free(buf);
344 }
345
346 void monitor_printf(Monitor *mon, const char *fmt, ...)
347 {
348 va_list ap;
349 va_start(ap, fmt);
350 monitor_vprintf(mon, fmt, ap);
351 va_end(ap);
352 }
353
354 void monitor_print_filename(Monitor *mon, const char *filename)
355 {
356 int i;
357
358 for (i = 0; filename[i]; i++) {
359 switch (filename[i]) {
360 case ' ':
361 case '"':
362 case '\\':
363 monitor_printf(mon, "\\%c", filename[i]);
364 break;
365 case '\t':
366 monitor_printf(mon, "\\t");
367 break;
368 case '\r':
369 monitor_printf(mon, "\\r");
370 break;
371 case '\n':
372 monitor_printf(mon, "\\n");
373 break;
374 default:
375 monitor_printf(mon, "%c", filename[i]);
376 break;
377 }
378 }
379 }
380
381 static int GCC_FMT_ATTR(2, 3) monitor_fprintf(FILE *stream,
382 const char *fmt, ...)
383 {
384 va_list ap;
385 va_start(ap, fmt);
386 monitor_vprintf((Monitor *)stream, fmt, ap);
387 va_end(ap);
388 return 0;
389 }
390
391 static void monitor_user_noop(Monitor *mon, const QObject *data) { }
392
393 static inline int handler_is_qobject(const mon_cmd_t *cmd)
394 {
395 return cmd->user_print != NULL;
396 }
397
398 static inline bool handler_is_async(const mon_cmd_t *cmd)
399 {
400 return cmd->flags & MONITOR_CMD_ASYNC;
401 }
402
403 static inline int monitor_has_error(const Monitor *mon)
404 {
405 return mon->error != NULL;
406 }
407
408 static void monitor_json_emitter(Monitor *mon, const QObject *data)
409 {
410 QString *json;
411
412 json = mon->flags & MONITOR_USE_PRETTY ? qobject_to_json_pretty(data) :
413 qobject_to_json(data);
414 assert(json != NULL);
415
416 qstring_append_chr(json, '\n');
417 monitor_puts(mon, qstring_get_str(json));
418
419 QDECREF(json);
420 }
421
422 static QDict *build_qmp_error_dict(const QError *err)
423 {
424 QObject *obj;
425
426 obj = qobject_from_jsonf("{ 'error': { 'class': %s, 'desc': %p } }",
427 ErrorClass_lookup[err->err_class],
428 qerror_human(err));
429
430 return qobject_to_qdict(obj);
431 }
432
433 static void monitor_protocol_emitter(Monitor *mon, QObject *data)
434 {
435 QDict *qmp;
436
437 trace_monitor_protocol_emitter(mon);
438
439 if (!monitor_has_error(mon)) {
440 /* success response */
441 qmp = qdict_new();
442 if (data) {
443 qobject_incref(data);
444 qdict_put_obj(qmp, "return", data);
445 } else {
446 /* return an empty QDict by default */
447 qdict_put(qmp, "return", qdict_new());
448 }
449 } else {
450 /* error response */
451 qmp = build_qmp_error_dict(mon->error);
452 QDECREF(mon->error);
453 mon->error = NULL;
454 }
455
456 if (mon->mc->id) {
457 qdict_put_obj(qmp, "id", mon->mc->id);
458 mon->mc->id = NULL;
459 }
460
461 monitor_json_emitter(mon, QOBJECT(qmp));
462 QDECREF(qmp);
463 }
464
465 static void timestamp_put(QDict *qdict)
466 {
467 int err;
468 QObject *obj;
469 qemu_timeval tv;
470
471 err = qemu_gettimeofday(&tv);
472 if (err < 0)
473 return;
474
475 obj = qobject_from_jsonf("{ 'seconds': %" PRId64 ", "
476 "'microseconds': %" PRId64 " }",
477 (int64_t) tv.tv_sec, (int64_t) tv.tv_usec);
478 qdict_put_obj(qdict, "timestamp", obj);
479 }
480
481
482 static const char *monitor_event_names[] = {
483 [QEVENT_SHUTDOWN] = "SHUTDOWN",
484 [QEVENT_RESET] = "RESET",
485 [QEVENT_POWERDOWN] = "POWERDOWN",
486 [QEVENT_STOP] = "STOP",
487 [QEVENT_RESUME] = "RESUME",
488 [QEVENT_VNC_CONNECTED] = "VNC_CONNECTED",
489 [QEVENT_VNC_INITIALIZED] = "VNC_INITIALIZED",
490 [QEVENT_VNC_DISCONNECTED] = "VNC_DISCONNECTED",
491 [QEVENT_BLOCK_IO_ERROR] = "BLOCK_IO_ERROR",
492 [QEVENT_RTC_CHANGE] = "RTC_CHANGE",
493 [QEVENT_WATCHDOG] = "WATCHDOG",
494 [QEVENT_SPICE_CONNECTED] = "SPICE_CONNECTED",
495 [QEVENT_SPICE_INITIALIZED] = "SPICE_INITIALIZED",
496 [QEVENT_SPICE_DISCONNECTED] = "SPICE_DISCONNECTED",
497 [QEVENT_BLOCK_JOB_COMPLETED] = "BLOCK_JOB_COMPLETED",
498 [QEVENT_BLOCK_JOB_CANCELLED] = "BLOCK_JOB_CANCELLED",
499 [QEVENT_BLOCK_JOB_ERROR] = "BLOCK_JOB_ERROR",
500 [QEVENT_BLOCK_JOB_READY] = "BLOCK_JOB_READY",
501 [QEVENT_DEVICE_DELETED] = "DEVICE_DELETED",
502 [QEVENT_DEVICE_TRAY_MOVED] = "DEVICE_TRAY_MOVED",
503 [QEVENT_NIC_RX_FILTER_CHANGED] = "NIC_RX_FILTER_CHANGED",
504 [QEVENT_SUSPEND] = "SUSPEND",
505 [QEVENT_SUSPEND_DISK] = "SUSPEND_DISK",
506 [QEVENT_WAKEUP] = "WAKEUP",
507 [QEVENT_BALLOON_CHANGE] = "BALLOON_CHANGE",
508 [QEVENT_SPICE_MIGRATE_COMPLETED] = "SPICE_MIGRATE_COMPLETED",
509 [QEVENT_GUEST_PANICKED] = "GUEST_PANICKED",
510 [QEVENT_BLOCK_IMAGE_CORRUPTED] = "BLOCK_IMAGE_CORRUPTED",
511 [QEVENT_QUORUM_FAILURE] = "QUORUM_FAILURE",
512 [QEVENT_QUORUM_REPORT_BAD] = "QUORUM_REPORT_BAD",
513 };
514 QEMU_BUILD_BUG_ON(ARRAY_SIZE(monitor_event_names) != QEVENT_MAX)
515
516 MonitorEventState monitor_event_state[QEVENT_MAX];
517
518 /*
519 * Emits the event to every monitor instance
520 */
521 static void
522 monitor_protocol_event_emit(MonitorEvent event,
523 QObject *data)
524 {
525 Monitor *mon;
526
527 trace_monitor_protocol_event_emit(event, data);
528 QLIST_FOREACH(mon, &mon_list, entry) {
529 if (monitor_ctrl_mode(mon) && qmp_cmd_mode(mon)) {
530 monitor_json_emitter(mon, data);
531 }
532 }
533 }
534
535
536 /*
537 * Queue a new event for emission to Monitor instances,
538 * applying any rate limiting if required.
539 */
540 static void
541 monitor_protocol_event_queue(MonitorEvent event,
542 QObject *data)
543 {
544 MonitorEventState *evstate;
545 int64_t now = qemu_clock_get_ns(QEMU_CLOCK_REALTIME);
546 assert(event < QEVENT_MAX);
547
548 evstate = &(monitor_event_state[event]);
549 trace_monitor_protocol_event_queue(event,
550 data,
551 evstate->rate,
552 evstate->last,
553 now);
554
555 /* Rate limit of 0 indicates no throttling */
556 if (!evstate->rate) {
557 monitor_protocol_event_emit(event, data);
558 evstate->last = now;
559 } else {
560 int64_t delta = now - evstate->last;
561 if (evstate->data ||
562 delta < evstate->rate) {
563 /* If there's an existing event pending, replace
564 * it with the new event, otherwise schedule a
565 * timer for delayed emission
566 */
567 if (evstate->data) {
568 qobject_decref(evstate->data);
569 } else {
570 int64_t then = evstate->last + evstate->rate;
571 timer_mod_ns(evstate->timer, then);
572 }
573 evstate->data = data;
574 qobject_incref(evstate->data);
575 } else {
576 monitor_protocol_event_emit(event, data);
577 evstate->last = now;
578 }
579 }
580 }
581
582
583 /*
584 * The callback invoked by QemuTimer when a delayed
585 * event is ready to be emitted
586 */
587 static void monitor_protocol_event_handler(void *opaque)
588 {
589 MonitorEventState *evstate = opaque;
590 int64_t now = qemu_clock_get_ns(QEMU_CLOCK_REALTIME);
591
592
593 trace_monitor_protocol_event_handler(evstate->event,
594 evstate->data,
595 evstate->last,
596 now);
597 if (evstate->data) {
598 monitor_protocol_event_emit(evstate->event, evstate->data);
599 qobject_decref(evstate->data);
600 evstate->data = NULL;
601 }
602 evstate->last = now;
603 }
604
605
606 /*
607 * @event: the event ID to be limited
608 * @rate: the rate limit in milliseconds
609 *
610 * Sets a rate limit on a particular event, so no
611 * more than 1 event will be emitted within @rate
612 * milliseconds
613 */
614 static void
615 monitor_protocol_event_throttle(MonitorEvent event,
616 int64_t rate)
617 {
618 MonitorEventState *evstate;
619 assert(event < QEVENT_MAX);
620
621 evstate = &(monitor_event_state[event]);
622
623 trace_monitor_protocol_event_throttle(event, rate);
624 evstate->event = event;
625 evstate->rate = rate * SCALE_MS;
626 evstate->timer = timer_new(QEMU_CLOCK_REALTIME,
627 SCALE_MS,
628 monitor_protocol_event_handler,
629 evstate);
630 evstate->last = 0;
631 evstate->data = NULL;
632 }
633
634
635 /* Global, one-time initializer to configure the rate limiting
636 * and initialize state */
637 static void monitor_protocol_event_init(void)
638 {
639 /* Limit RTC & BALLOON events to 1 per second */
640 monitor_protocol_event_throttle(QEVENT_RTC_CHANGE, 1000);
641 monitor_protocol_event_throttle(QEVENT_BALLOON_CHANGE, 1000);
642 monitor_protocol_event_throttle(QEVENT_WATCHDOG, 1000);
643 /* limit the rate of quorum events to avoid hammering the management */
644 monitor_protocol_event_throttle(QEVENT_QUORUM_REPORT_BAD, 1000);
645 monitor_protocol_event_throttle(QEVENT_QUORUM_FAILURE, 1000);
646 }
647
648 /**
649 * monitor_protocol_event(): Generate a Monitor event
650 *
651 * Event-specific data can be emitted through the (optional) 'data' parameter.
652 */
653 void monitor_protocol_event(MonitorEvent event, QObject *data)
654 {
655 QDict *qmp;
656 const char *event_name;
657
658 assert(event < QEVENT_MAX);
659
660 event_name = monitor_event_names[event];
661 assert(event_name != NULL);
662
663 qmp = qdict_new();
664 timestamp_put(qmp);
665 qdict_put(qmp, "event", qstring_from_str(event_name));
666 if (data) {
667 qobject_incref(data);
668 qdict_put_obj(qmp, "data", data);
669 }
670
671 trace_monitor_protocol_event(event, event_name, qmp);
672 monitor_protocol_event_queue(event, QOBJECT(qmp));
673 QDECREF(qmp);
674 }
675
676 static int do_qmp_capabilities(Monitor *mon, const QDict *params,
677 QObject **ret_data)
678 {
679 /* Will setup QMP capabilities in the future */
680 if (monitor_ctrl_mode(mon)) {
681 mon->mc->command_mode = 1;
682 }
683
684 return 0;
685 }
686
687 static void handle_user_command(Monitor *mon, const char *cmdline);
688
689 static void monitor_data_init(Monitor *mon)
690 {
691 memset(mon, 0, sizeof(Monitor));
692 mon->outbuf = qstring_new();
693 /* Use *mon_cmds by default. */
694 mon->cmd_table = mon_cmds;
695 }
696
697 static void monitor_data_destroy(Monitor *mon)
698 {
699 QDECREF(mon->outbuf);
700 }
701
702 char *qmp_human_monitor_command(const char *command_line, bool has_cpu_index,
703 int64_t cpu_index, Error **errp)
704 {
705 char *output = NULL;
706 Monitor *old_mon, hmp;
707
708 monitor_data_init(&hmp);
709 hmp.skip_flush = true;
710
711 old_mon = cur_mon;
712 cur_mon = &hmp;
713
714 if (has_cpu_index) {
715 int ret = monitor_set_cpu(cpu_index);
716 if (ret < 0) {
717 cur_mon = old_mon;
718 error_set(errp, QERR_INVALID_PARAMETER_VALUE, "cpu-index",
719 "a CPU number");
720 goto out;
721 }
722 }
723
724 handle_user_command(&hmp, command_line);
725 cur_mon = old_mon;
726
727 if (qstring_get_length(hmp.outbuf) > 0) {
728 output = g_strdup(qstring_get_str(hmp.outbuf));
729 } else {
730 output = g_strdup("");
731 }
732
733 out:
734 monitor_data_destroy(&hmp);
735 return output;
736 }
737
738 static int compare_cmd(const char *name, const char *list)
739 {
740 const char *p, *pstart;
741 int len;
742 len = strlen(name);
743 p = list;
744 for(;;) {
745 pstart = p;
746 p = strchr(p, '|');
747 if (!p)
748 p = pstart + strlen(pstart);
749 if ((p - pstart) == len && !memcmp(pstart, name, len))
750 return 1;
751 if (*p == '\0')
752 break;
753 p++;
754 }
755 return 0;
756 }
757
758 static int get_str(char *buf, int buf_size, const char **pp)
759 {
760 const char *p;
761 char *q;
762 int c;
763
764 q = buf;
765 p = *pp;
766 while (qemu_isspace(*p)) {
767 p++;
768 }
769 if (*p == '\0') {
770 fail:
771 *q = '\0';
772 *pp = p;
773 return -1;
774 }
775 if (*p == '\"') {
776 p++;
777 while (*p != '\0' && *p != '\"') {
778 if (*p == '\\') {
779 p++;
780 c = *p++;
781 switch (c) {
782 case 'n':
783 c = '\n';
784 break;
785 case 'r':
786 c = '\r';
787 break;
788 case '\\':
789 case '\'':
790 case '\"':
791 break;
792 default:
793 qemu_printf("unsupported escape code: '\\%c'\n", c);
794 goto fail;
795 }
796 if ((q - buf) < buf_size - 1) {
797 *q++ = c;
798 }
799 } else {
800 if ((q - buf) < buf_size - 1) {
801 *q++ = *p;
802 }
803 p++;
804 }
805 }
806 if (*p != '\"') {
807 qemu_printf("unterminated string\n");
808 goto fail;
809 }
810 p++;
811 } else {
812 while (*p != '\0' && !qemu_isspace(*p)) {
813 if ((q - buf) < buf_size - 1) {
814 *q++ = *p;
815 }
816 p++;
817 }
818 }
819 *q = '\0';
820 *pp = p;
821 return 0;
822 }
823
824 #define MAX_ARGS 16
825
826 static void free_cmdline_args(char **args, int nb_args)
827 {
828 int i;
829
830 assert(nb_args <= MAX_ARGS);
831
832 for (i = 0; i < nb_args; i++) {
833 g_free(args[i]);
834 }
835
836 }
837
838 /*
839 * Parse the command line to get valid args.
840 * @cmdline: command line to be parsed.
841 * @pnb_args: location to store the number of args, must NOT be NULL.
842 * @args: location to store the args, which should be freed by caller, must
843 * NOT be NULL.
844 *
845 * Returns 0 on success, negative on failure.
846 *
847 * NOTE: this parser is an approximate form of the real command parser. Number
848 * of args have a limit of MAX_ARGS. If cmdline contains more, it will
849 * return with failure.
850 */
851 static int parse_cmdline(const char *cmdline,
852 int *pnb_args, char **args)
853 {
854 const char *p;
855 int nb_args, ret;
856 char buf[1024];
857
858 p = cmdline;
859 nb_args = 0;
860 for (;;) {
861 while (qemu_isspace(*p)) {
862 p++;
863 }
864 if (*p == '\0') {
865 break;
866 }
867 if (nb_args >= MAX_ARGS) {
868 goto fail;
869 }
870 ret = get_str(buf, sizeof(buf), &p);
871 if (ret < 0) {
872 goto fail;
873 }
874 args[nb_args] = g_strdup(buf);
875 nb_args++;
876 }
877 *pnb_args = nb_args;
878 return 0;
879
880 fail:
881 free_cmdline_args(args, nb_args);
882 return -1;
883 }
884
885 static void help_cmd_dump_one(Monitor *mon,
886 const mon_cmd_t *cmd,
887 char **prefix_args,
888 int prefix_args_nb)
889 {
890 int i;
891
892 for (i = 0; i < prefix_args_nb; i++) {
893 monitor_printf(mon, "%s ", prefix_args[i]);
894 }
895 monitor_printf(mon, "%s %s -- %s\n", cmd->name, cmd->params, cmd->help);
896 }
897
898 /* @args[@arg_index] is the valid command need to find in @cmds */
899 static void help_cmd_dump(Monitor *mon, const mon_cmd_t *cmds,
900 char **args, int nb_args, int arg_index)
901 {
902 const mon_cmd_t *cmd;
903
904 /* No valid arg need to compare with, dump all in *cmds */
905 if (arg_index >= nb_args) {
906 for (cmd = cmds; cmd->name != NULL; cmd++) {
907 help_cmd_dump_one(mon, cmd, args, arg_index);
908 }
909 return;
910 }
911
912 /* Find one entry to dump */
913 for (cmd = cmds; cmd->name != NULL; cmd++) {
914 if (compare_cmd(args[arg_index], cmd->name)) {
915 if (cmd->sub_table) {
916 /* continue with next arg */
917 help_cmd_dump(mon, cmd->sub_table,
918 args, nb_args, arg_index + 1);
919 } else {
920 help_cmd_dump_one(mon, cmd, args, arg_index);
921 }
922 break;
923 }
924 }
925 }
926
927 static void help_cmd(Monitor *mon, const char *name)
928 {
929 char *args[MAX_ARGS];
930 int nb_args = 0;
931
932 /* 1. parse user input */
933 if (name) {
934 /* special case for log, directly dump and return */
935 if (!strcmp(name, "log")) {
936 const QEMULogItem *item;
937 monitor_printf(mon, "Log items (comma separated):\n");
938 monitor_printf(mon, "%-10s %s\n", "none", "remove all logs");
939 for (item = qemu_log_items; item->mask != 0; item++) {
940 monitor_printf(mon, "%-10s %s\n", item->name, item->help);
941 }
942 return;
943 }
944
945 if (parse_cmdline(name, &nb_args, args) < 0) {
946 return;
947 }
948 }
949
950 /* 2. dump the contents according to parsed args */
951 help_cmd_dump(mon, mon->cmd_table, args, nb_args, 0);
952
953 free_cmdline_args(args, nb_args);
954 }
955
956 static void do_help_cmd(Monitor *mon, const QDict *qdict)
957 {
958 help_cmd(mon, qdict_get_try_str(qdict, "name"));
959 }
960
961 static void do_trace_event_set_state(Monitor *mon, const QDict *qdict)
962 {
963 const char *tp_name = qdict_get_str(qdict, "name");
964 bool new_state = qdict_get_bool(qdict, "option");
965
966 bool found = false;
967 TraceEvent *ev = NULL;
968 while ((ev = trace_event_pattern(tp_name, ev)) != NULL) {
969 found = true;
970 if (!trace_event_get_state_static(ev)) {
971 monitor_printf(mon, "event \"%s\" is not traceable\n", tp_name);
972 } else {
973 trace_event_set_state_dynamic(ev, new_state);
974 }
975 }
976 if (!trace_event_is_pattern(tp_name) && !found) {
977 monitor_printf(mon, "unknown event name \"%s\"\n", tp_name);
978 }
979 }
980
981 #ifdef CONFIG_TRACE_SIMPLE
982 static void do_trace_file(Monitor *mon, const QDict *qdict)
983 {
984 const char *op = qdict_get_try_str(qdict, "op");
985 const char *arg = qdict_get_try_str(qdict, "arg");
986
987 if (!op) {
988 st_print_trace_file_status((FILE *)mon, &monitor_fprintf);
989 } else if (!strcmp(op, "on")) {
990 st_set_trace_file_enabled(true);
991 } else if (!strcmp(op, "off")) {
992 st_set_trace_file_enabled(false);
993 } else if (!strcmp(op, "flush")) {
994 st_flush_trace_buffer();
995 } else if (!strcmp(op, "set")) {
996 if (arg) {
997 st_set_trace_file(arg);
998 }
999 } else {
1000 monitor_printf(mon, "unexpected argument \"%s\"\n", op);
1001 help_cmd(mon, "trace-file");
1002 }
1003 }
1004 #endif
1005
1006 static void user_monitor_complete(void *opaque, QObject *ret_data)
1007 {
1008 MonitorCompletionData *data = (MonitorCompletionData *)opaque;
1009
1010 if (ret_data) {
1011 data->user_print(data->mon, ret_data);
1012 }
1013 monitor_resume(data->mon);
1014 g_free(data);
1015 }
1016
1017 static void qmp_monitor_complete(void *opaque, QObject *ret_data)
1018 {
1019 monitor_protocol_emitter(opaque, ret_data);
1020 }
1021
1022 static int qmp_async_cmd_handler(Monitor *mon, const mon_cmd_t *cmd,
1023 const QDict *params)
1024 {
1025 return cmd->mhandler.cmd_async(mon, params, qmp_monitor_complete, mon);
1026 }
1027
1028 static void user_async_cmd_handler(Monitor *mon, const mon_cmd_t *cmd,
1029 const QDict *params)
1030 {
1031 int ret;
1032
1033 MonitorCompletionData *cb_data = g_malloc(sizeof(*cb_data));
1034 cb_data->mon = mon;
1035 cb_data->user_print = cmd->user_print;
1036 monitor_suspend(mon);
1037 ret = cmd->mhandler.cmd_async(mon, params,
1038 user_monitor_complete, cb_data);
1039 if (ret < 0) {
1040 monitor_resume(mon);
1041 g_free(cb_data);
1042 }
1043 }
1044
1045 static void do_info_help(Monitor *mon, const QDict *qdict)
1046 {
1047 help_cmd(mon, "info");
1048 }
1049
1050 CommandInfoList *qmp_query_commands(Error **errp)
1051 {
1052 CommandInfoList *info, *cmd_list = NULL;
1053 const mon_cmd_t *cmd;
1054
1055 for (cmd = qmp_cmds; cmd->name != NULL; cmd++) {
1056 info = g_malloc0(sizeof(*info));
1057 info->value = g_malloc0(sizeof(*info->value));
1058 info->value->name = g_strdup(cmd->name);
1059
1060 info->next = cmd_list;
1061 cmd_list = info;
1062 }
1063
1064 return cmd_list;
1065 }
1066
1067 EventInfoList *qmp_query_events(Error **errp)
1068 {
1069 EventInfoList *info, *ev_list = NULL;
1070 MonitorEvent e;
1071
1072 for (e = 0 ; e < QEVENT_MAX ; e++) {
1073 const char *event_name = monitor_event_names[e];
1074 assert(event_name != NULL);
1075 info = g_malloc0(sizeof(*info));
1076 info->value = g_malloc0(sizeof(*info->value));
1077 info->value->name = g_strdup(event_name);
1078
1079 info->next = ev_list;
1080 ev_list = info;
1081 }
1082
1083 return ev_list;
1084 }
1085
1086 /* set the current CPU defined by the user */
1087 int monitor_set_cpu(int cpu_index)
1088 {
1089 CPUState *cpu;
1090
1091 cpu = qemu_get_cpu(cpu_index);
1092 if (cpu == NULL) {
1093 return -1;
1094 }
1095 cur_mon->mon_cpu = cpu;
1096 return 0;
1097 }
1098
1099 static CPUArchState *mon_get_cpu(void)
1100 {
1101 if (!cur_mon->mon_cpu) {
1102 monitor_set_cpu(0);
1103 }
1104 cpu_synchronize_state(cur_mon->mon_cpu);
1105 return cur_mon->mon_cpu->env_ptr;
1106 }
1107
1108 int monitor_get_cpu_index(void)
1109 {
1110 CPUState *cpu = ENV_GET_CPU(mon_get_cpu());
1111 return cpu->cpu_index;
1112 }
1113
1114 static void do_info_registers(Monitor *mon, const QDict *qdict)
1115 {
1116 CPUState *cpu;
1117 CPUArchState *env;
1118 env = mon_get_cpu();
1119 cpu = ENV_GET_CPU(env);
1120 cpu_dump_state(cpu, (FILE *)mon, monitor_fprintf, CPU_DUMP_FPU);
1121 }
1122
1123 static void do_info_jit(Monitor *mon, const QDict *qdict)
1124 {
1125 dump_exec_info((FILE *)mon, monitor_fprintf);
1126 }
1127
1128 static void do_info_history(Monitor *mon, const QDict *qdict)
1129 {
1130 int i;
1131 const char *str;
1132
1133 if (!mon->rs)
1134 return;
1135 i = 0;
1136 for(;;) {
1137 str = readline_get_history(mon->rs, i);
1138 if (!str)
1139 break;
1140 monitor_printf(mon, "%d: '%s'\n", i, str);
1141 i++;
1142 }
1143 }
1144
1145 static void do_info_cpu_stats(Monitor *mon, const QDict *qdict)
1146 {
1147 CPUState *cpu;
1148 CPUArchState *env;
1149
1150 env = mon_get_cpu();
1151 cpu = ENV_GET_CPU(env);
1152 cpu_dump_statistics(cpu, (FILE *)mon, &monitor_fprintf, 0);
1153 }
1154
1155 static void do_trace_print_events(Monitor *mon, const QDict *qdict)
1156 {
1157 trace_print_events((FILE *)mon, &monitor_fprintf);
1158 }
1159
1160 static int client_migrate_info(Monitor *mon, const QDict *qdict,
1161 MonitorCompletion cb, void *opaque)
1162 {
1163 const char *protocol = qdict_get_str(qdict, "protocol");
1164 const char *hostname = qdict_get_str(qdict, "hostname");
1165 const char *subject = qdict_get_try_str(qdict, "cert-subject");
1166 int port = qdict_get_try_int(qdict, "port", -1);
1167 int tls_port = qdict_get_try_int(qdict, "tls-port", -1);
1168 int ret;
1169
1170 if (strcmp(protocol, "spice") == 0) {
1171 if (!using_spice) {
1172 qerror_report(QERR_DEVICE_NOT_ACTIVE, "spice");
1173 return -1;
1174 }
1175
1176 if (port == -1 && tls_port == -1) {
1177 qerror_report(QERR_MISSING_PARAMETER, "port/tls-port");
1178 return -1;
1179 }
1180
1181 ret = qemu_spice_migrate_info(hostname, port, tls_port, subject,
1182 cb, opaque);
1183 if (ret != 0) {
1184 qerror_report(QERR_UNDEFINED_ERROR);
1185 return -1;
1186 }
1187 return 0;
1188 }
1189
1190 qerror_report(QERR_INVALID_PARAMETER, "protocol");
1191 return -1;
1192 }
1193
1194 static void do_logfile(Monitor *mon, const QDict *qdict)
1195 {
1196 qemu_set_log_filename(qdict_get_str(qdict, "filename"));
1197 }
1198
1199 static void do_log(Monitor *mon, const QDict *qdict)
1200 {
1201 int mask;
1202 const char *items = qdict_get_str(qdict, "items");
1203
1204 if (!strcmp(items, "none")) {
1205 mask = 0;
1206 } else {
1207 mask = qemu_str_to_log_mask(items);
1208 if (!mask) {
1209 help_cmd(mon, "log");
1210 return;
1211 }
1212 }
1213 qemu_set_log(mask);
1214 }
1215
1216 static void do_singlestep(Monitor *mon, const QDict *qdict)
1217 {
1218 const char *option = qdict_get_try_str(qdict, "option");
1219 if (!option || !strcmp(option, "on")) {
1220 singlestep = 1;
1221 } else if (!strcmp(option, "off")) {
1222 singlestep = 0;
1223 } else {
1224 monitor_printf(mon, "unexpected option %s\n", option);
1225 }
1226 }
1227
1228 static void do_gdbserver(Monitor *mon, const QDict *qdict)
1229 {
1230 const char *device = qdict_get_try_str(qdict, "device");
1231 if (!device)
1232 device = "tcp::" DEFAULT_GDBSTUB_PORT;
1233 if (gdbserver_start(device) < 0) {
1234 monitor_printf(mon, "Could not open gdbserver on device '%s'\n",
1235 device);
1236 } else if (strcmp(device, "none") == 0) {
1237 monitor_printf(mon, "Disabled gdbserver\n");
1238 } else {
1239 monitor_printf(mon, "Waiting for gdb connection on device '%s'\n",
1240 device);
1241 }
1242 }
1243
1244 static void do_watchdog_action(Monitor *mon, const QDict *qdict)
1245 {
1246 const char *action = qdict_get_str(qdict, "action");
1247 if (select_watchdog_action(action) == -1) {
1248 monitor_printf(mon, "Unknown watchdog action '%s'\n", action);
1249 }
1250 }
1251
1252 static void monitor_printc(Monitor *mon, int c)
1253 {
1254 monitor_printf(mon, "'");
1255 switch(c) {
1256 case '\'':
1257 monitor_printf(mon, "\\'");
1258 break;
1259 case '\\':
1260 monitor_printf(mon, "\\\\");
1261 break;
1262 case '\n':
1263 monitor_printf(mon, "\\n");
1264 break;
1265 case '\r':
1266 monitor_printf(mon, "\\r");
1267 break;
1268 default:
1269 if (c >= 32 && c <= 126) {
1270 monitor_printf(mon, "%c", c);
1271 } else {
1272 monitor_printf(mon, "\\x%02x", c);
1273 }
1274 break;
1275 }
1276 monitor_printf(mon, "'");
1277 }
1278
1279 static void memory_dump(Monitor *mon, int count, int format, int wsize,
1280 hwaddr addr, int is_physical)
1281 {
1282 CPUArchState *env;
1283 int l, line_size, i, max_digits, len;
1284 uint8_t buf[16];
1285 uint64_t v;
1286
1287 if (format == 'i') {
1288 int flags;
1289 flags = 0;
1290 env = mon_get_cpu();
1291 #ifdef TARGET_I386
1292 if (wsize == 2) {
1293 flags = 1;
1294 } else if (wsize == 4) {
1295 flags = 0;
1296 } else {
1297 /* as default we use the current CS size */
1298 flags = 0;
1299 if (env) {
1300 #ifdef TARGET_X86_64
1301 if ((env->efer & MSR_EFER_LMA) &&
1302 (env->segs[R_CS].flags & DESC_L_MASK))
1303 flags = 2;
1304 else
1305 #endif
1306 if (!(env->segs[R_CS].flags & DESC_B_MASK))
1307 flags = 1;
1308 }
1309 }
1310 #endif
1311 monitor_disas(mon, env, addr, count, is_physical, flags);
1312 return;
1313 }
1314
1315 len = wsize * count;
1316 if (wsize == 1)
1317 line_size = 8;
1318 else
1319 line_size = 16;
1320 max_digits = 0;
1321
1322 switch(format) {
1323 case 'o':
1324 max_digits = (wsize * 8 + 2) / 3;
1325 break;
1326 default:
1327 case 'x':
1328 max_digits = (wsize * 8) / 4;
1329 break;
1330 case 'u':
1331 case 'd':
1332 max_digits = (wsize * 8 * 10 + 32) / 33;
1333 break;
1334 case 'c':
1335 wsize = 1;
1336 break;
1337 }
1338
1339 while (len > 0) {
1340 if (is_physical)
1341 monitor_printf(mon, TARGET_FMT_plx ":", addr);
1342 else
1343 monitor_printf(mon, TARGET_FMT_lx ":", (target_ulong)addr);
1344 l = len;
1345 if (l > line_size)
1346 l = line_size;
1347 if (is_physical) {
1348 cpu_physical_memory_read(addr, buf, l);
1349 } else {
1350 env = mon_get_cpu();
1351 if (cpu_memory_rw_debug(ENV_GET_CPU(env), addr, buf, l, 0) < 0) {
1352 monitor_printf(mon, " Cannot access memory\n");
1353 break;
1354 }
1355 }
1356 i = 0;
1357 while (i < l) {
1358 switch(wsize) {
1359 default:
1360 case 1:
1361 v = ldub_raw(buf + i);
1362 break;
1363 case 2:
1364 v = lduw_raw(buf + i);
1365 break;
1366 case 4:
1367 v = (uint32_t)ldl_raw(buf + i);
1368 break;
1369 case 8:
1370 v = ldq_raw(buf + i);
1371 break;
1372 }
1373 monitor_printf(mon, " ");
1374 switch(format) {
1375 case 'o':
1376 monitor_printf(mon, "%#*" PRIo64, max_digits, v);
1377 break;
1378 case 'x':
1379 monitor_printf(mon, "0x%0*" PRIx64, max_digits, v);
1380 break;
1381 case 'u':
1382 monitor_printf(mon, "%*" PRIu64, max_digits, v);
1383 break;
1384 case 'd':
1385 monitor_printf(mon, "%*" PRId64, max_digits, v);
1386 break;
1387 case 'c':
1388 monitor_printc(mon, v);
1389 break;
1390 }
1391 i += wsize;
1392 }
1393 monitor_printf(mon, "\n");
1394 addr += l;
1395 len -= l;
1396 }
1397 }
1398
1399 static void do_memory_dump(Monitor *mon, const QDict *qdict)
1400 {
1401 int count = qdict_get_int(qdict, "count");
1402 int format = qdict_get_int(qdict, "format");
1403 int size = qdict_get_int(qdict, "size");
1404 target_long addr = qdict_get_int(qdict, "addr");
1405
1406 memory_dump(mon, count, format, size, addr, 0);
1407 }
1408
1409 static void do_physical_memory_dump(Monitor *mon, const QDict *qdict)
1410 {
1411 int count = qdict_get_int(qdict, "count");
1412 int format = qdict_get_int(qdict, "format");
1413 int size = qdict_get_int(qdict, "size");
1414 hwaddr addr = qdict_get_int(qdict, "addr");
1415
1416 memory_dump(mon, count, format, size, addr, 1);
1417 }
1418
1419 static void do_print(Monitor *mon, const QDict *qdict)
1420 {
1421 int format = qdict_get_int(qdict, "format");
1422 hwaddr val = qdict_get_int(qdict, "val");
1423
1424 switch(format) {
1425 case 'o':
1426 monitor_printf(mon, "%#" HWADDR_PRIo, val);
1427 break;
1428 case 'x':
1429 monitor_printf(mon, "%#" HWADDR_PRIx, val);
1430 break;
1431 case 'u':
1432 monitor_printf(mon, "%" HWADDR_PRIu, val);
1433 break;
1434 default:
1435 case 'd':
1436 monitor_printf(mon, "%" HWADDR_PRId, val);
1437 break;
1438 case 'c':
1439 monitor_printc(mon, val);
1440 break;
1441 }
1442 monitor_printf(mon, "\n");
1443 }
1444
1445 static void do_sum(Monitor *mon, const QDict *qdict)
1446 {
1447 uint32_t addr;
1448 uint16_t sum;
1449 uint32_t start = qdict_get_int(qdict, "start");
1450 uint32_t size = qdict_get_int(qdict, "size");
1451
1452 sum = 0;
1453 for(addr = start; addr < (start + size); addr++) {
1454 uint8_t val = ldub_phys(&address_space_memory, addr);
1455 /* BSD sum algorithm ('sum' Unix command) */
1456 sum = (sum >> 1) | (sum << 15);
1457 sum += val;
1458 }
1459 monitor_printf(mon, "%05d\n", sum);
1460 }
1461
1462 static int mouse_button_state;
1463
1464 static void do_mouse_move(Monitor *mon, const QDict *qdict)
1465 {
1466 int dx, dy, dz;
1467 const char *dx_str = qdict_get_str(qdict, "dx_str");
1468 const char *dy_str = qdict_get_str(qdict, "dy_str");
1469 const char *dz_str = qdict_get_try_str(qdict, "dz_str");
1470 dx = strtol(dx_str, NULL, 0);
1471 dy = strtol(dy_str, NULL, 0);
1472 dz = 0;
1473 if (dz_str)
1474 dz = strtol(dz_str, NULL, 0);
1475 kbd_mouse_event(dx, dy, dz, mouse_button_state);
1476 }
1477
1478 static void do_mouse_button(Monitor *mon, const QDict *qdict)
1479 {
1480 int button_state = qdict_get_int(qdict, "button_state");
1481 mouse_button_state = button_state;
1482 kbd_mouse_event(0, 0, 0, mouse_button_state);
1483 }
1484
1485 static void do_ioport_read(Monitor *mon, const QDict *qdict)
1486 {
1487 int size = qdict_get_int(qdict, "size");
1488 int addr = qdict_get_int(qdict, "addr");
1489 int has_index = qdict_haskey(qdict, "index");
1490 uint32_t val;
1491 int suffix;
1492
1493 if (has_index) {
1494 int index = qdict_get_int(qdict, "index");
1495 cpu_outb(addr & IOPORTS_MASK, index & 0xff);
1496 addr++;
1497 }
1498 addr &= 0xffff;
1499
1500 switch(size) {
1501 default:
1502 case 1:
1503 val = cpu_inb(addr);
1504 suffix = 'b';
1505 break;
1506 case 2:
1507 val = cpu_inw(addr);
1508 suffix = 'w';
1509 break;
1510 case 4:
1511 val = cpu_inl(addr);
1512 suffix = 'l';
1513 break;
1514 }
1515 monitor_printf(mon, "port%c[0x%04x] = %#0*x\n",
1516 suffix, addr, size * 2, val);
1517 }
1518
1519 static void do_ioport_write(Monitor *mon, const QDict *qdict)
1520 {
1521 int size = qdict_get_int(qdict, "size");
1522 int addr = qdict_get_int(qdict, "addr");
1523 int val = qdict_get_int(qdict, "val");
1524
1525 addr &= IOPORTS_MASK;
1526
1527 switch (size) {
1528 default:
1529 case 1:
1530 cpu_outb(addr, val);
1531 break;
1532 case 2:
1533 cpu_outw(addr, val);
1534 break;
1535 case 4:
1536 cpu_outl(addr, val);
1537 break;
1538 }
1539 }
1540
1541 static void do_boot_set(Monitor *mon, const QDict *qdict)
1542 {
1543 int res;
1544 const char *bootdevice = qdict_get_str(qdict, "bootdevice");
1545
1546 res = qemu_boot_set(bootdevice);
1547 if (res == 0) {
1548 monitor_printf(mon, "boot device list now set to %s\n", bootdevice);
1549 } else if (res > 0) {
1550 monitor_printf(mon, "setting boot device list failed\n");
1551 } else {
1552 monitor_printf(mon, "no function defined to set boot device list for "
1553 "this architecture\n");
1554 }
1555 }
1556
1557 #if defined(TARGET_I386)
1558 static void print_pte(Monitor *mon, hwaddr addr,
1559 hwaddr pte,
1560 hwaddr mask)
1561 {
1562 #ifdef TARGET_X86_64
1563 if (addr & (1ULL << 47)) {
1564 addr |= -1LL << 48;
1565 }
1566 #endif
1567 monitor_printf(mon, TARGET_FMT_plx ": " TARGET_FMT_plx
1568 " %c%c%c%c%c%c%c%c%c\n",
1569 addr,
1570 pte & mask,
1571 pte & PG_NX_MASK ? 'X' : '-',
1572 pte & PG_GLOBAL_MASK ? 'G' : '-',
1573 pte & PG_PSE_MASK ? 'P' : '-',
1574 pte & PG_DIRTY_MASK ? 'D' : '-',
1575 pte & PG_ACCESSED_MASK ? 'A' : '-',
1576 pte & PG_PCD_MASK ? 'C' : '-',
1577 pte & PG_PWT_MASK ? 'T' : '-',
1578 pte & PG_USER_MASK ? 'U' : '-',
1579 pte & PG_RW_MASK ? 'W' : '-');
1580 }
1581
1582 static void tlb_info_32(Monitor *mon, CPUArchState *env)
1583 {
1584 unsigned int l1, l2;
1585 uint32_t pgd, pde, pte;
1586
1587 pgd = env->cr[3] & ~0xfff;
1588 for(l1 = 0; l1 < 1024; l1++) {
1589 cpu_physical_memory_read(pgd + l1 * 4, &pde, 4);
1590 pde = le32_to_cpu(pde);
1591 if (pde & PG_PRESENT_MASK) {
1592 if ((pde & PG_PSE_MASK) && (env->cr[4] & CR4_PSE_MASK)) {
1593 /* 4M pages */
1594 print_pte(mon, (l1 << 22), pde, ~((1 << 21) - 1));
1595 } else {
1596 for(l2 = 0; l2 < 1024; l2++) {
1597 cpu_physical_memory_read((pde & ~0xfff) + l2 * 4, &pte, 4);
1598 pte = le32_to_cpu(pte);
1599 if (pte & PG_PRESENT_MASK) {
1600 print_pte(mon, (l1 << 22) + (l2 << 12),
1601 pte & ~PG_PSE_MASK,
1602 ~0xfff);
1603 }
1604 }
1605 }
1606 }
1607 }
1608 }
1609
1610 static void tlb_info_pae32(Monitor *mon, CPUArchState *env)
1611 {
1612 unsigned int l1, l2, l3;
1613 uint64_t pdpe, pde, pte;
1614 uint64_t pdp_addr, pd_addr, pt_addr;
1615
1616 pdp_addr = env->cr[3] & ~0x1f;
1617 for (l1 = 0; l1 < 4; l1++) {
1618 cpu_physical_memory_read(pdp_addr + l1 * 8, &pdpe, 8);
1619 pdpe = le64_to_cpu(pdpe);
1620 if (pdpe & PG_PRESENT_MASK) {
1621 pd_addr = pdpe & 0x3fffffffff000ULL;
1622 for (l2 = 0; l2 < 512; l2++) {
1623 cpu_physical_memory_read(pd_addr + l2 * 8, &pde, 8);
1624 pde = le64_to_cpu(pde);
1625 if (pde & PG_PRESENT_MASK) {
1626 if (pde & PG_PSE_MASK) {
1627 /* 2M pages with PAE, CR4.PSE is ignored */
1628 print_pte(mon, (l1 << 30 ) + (l2 << 21), pde,
1629 ~((hwaddr)(1 << 20) - 1));
1630 } else {
1631 pt_addr = pde & 0x3fffffffff000ULL;
1632 for (l3 = 0; l3 < 512; l3++) {
1633 cpu_physical_memory_read(pt_addr + l3 * 8, &pte, 8);
1634 pte = le64_to_cpu(pte);
1635 if (pte & PG_PRESENT_MASK) {
1636 print_pte(mon, (l1 << 30 ) + (l2 << 21)
1637 + (l3 << 12),
1638 pte & ~PG_PSE_MASK,
1639 ~(hwaddr)0xfff);
1640 }
1641 }
1642 }
1643 }
1644 }
1645 }
1646 }
1647 }
1648
1649 #ifdef TARGET_X86_64
1650 static void tlb_info_64(Monitor *mon, CPUArchState *env)
1651 {
1652 uint64_t l1, l2, l3, l4;
1653 uint64_t pml4e, pdpe, pde, pte;
1654 uint64_t pml4_addr, pdp_addr, pd_addr, pt_addr;
1655
1656 pml4_addr = env->cr[3] & 0x3fffffffff000ULL;
1657 for (l1 = 0; l1 < 512; l1++) {
1658 cpu_physical_memory_read(pml4_addr + l1 * 8, &pml4e, 8);
1659 pml4e = le64_to_cpu(pml4e);
1660 if (pml4e & PG_PRESENT_MASK) {
1661 pdp_addr = pml4e & 0x3fffffffff000ULL;
1662 for (l2 = 0; l2 < 512; l2++) {
1663 cpu_physical_memory_read(pdp_addr + l2 * 8, &pdpe, 8);
1664 pdpe = le64_to_cpu(pdpe);
1665 if (pdpe & PG_PRESENT_MASK) {
1666 if (pdpe & PG_PSE_MASK) {
1667 /* 1G pages, CR4.PSE is ignored */
1668 print_pte(mon, (l1 << 39) + (l2 << 30), pdpe,
1669 0x3ffffc0000000ULL);
1670 } else {
1671 pd_addr = pdpe & 0x3fffffffff000ULL;
1672 for (l3 = 0; l3 < 512; l3++) {
1673 cpu_physical_memory_read(pd_addr + l3 * 8, &pde, 8);
1674 pde = le64_to_cpu(pde);
1675 if (pde & PG_PRESENT_MASK) {
1676 if (pde & PG_PSE_MASK) {
1677 /* 2M pages, CR4.PSE is ignored */
1678 print_pte(mon, (l1 << 39) + (l2 << 30) +
1679 (l3 << 21), pde,
1680 0x3ffffffe00000ULL);
1681 } else {
1682 pt_addr = pde & 0x3fffffffff000ULL;
1683 for (l4 = 0; l4 < 512; l4++) {
1684 cpu_physical_memory_read(pt_addr
1685 + l4 * 8,
1686 &pte, 8);
1687 pte = le64_to_cpu(pte);
1688 if (pte & PG_PRESENT_MASK) {
1689 print_pte(mon, (l1 << 39) +
1690 (l2 << 30) +
1691 (l3 << 21) + (l4 << 12),
1692 pte & ~PG_PSE_MASK,
1693 0x3fffffffff000ULL);
1694 }
1695 }
1696 }
1697 }
1698 }
1699 }
1700 }
1701 }
1702 }
1703 }
1704 }
1705 #endif
1706
1707 static void tlb_info(Monitor *mon, const QDict *qdict)
1708 {
1709 CPUArchState *env;
1710
1711 env = mon_get_cpu();
1712
1713 if (!(env->cr[0] & CR0_PG_MASK)) {
1714 monitor_printf(mon, "PG disabled\n");
1715 return;
1716 }
1717 if (env->cr[4] & CR4_PAE_MASK) {
1718 #ifdef TARGET_X86_64
1719 if (env->hflags & HF_LMA_MASK) {
1720 tlb_info_64(mon, env);
1721 } else
1722 #endif
1723 {
1724 tlb_info_pae32(mon, env);
1725 }
1726 } else {
1727 tlb_info_32(mon, env);
1728 }
1729 }
1730
1731 static void mem_print(Monitor *mon, hwaddr *pstart,
1732 int *plast_prot,
1733 hwaddr end, int prot)
1734 {
1735 int prot1;
1736 prot1 = *plast_prot;
1737 if (prot != prot1) {
1738 if (*pstart != -1) {
1739 monitor_printf(mon, TARGET_FMT_plx "-" TARGET_FMT_plx " "
1740 TARGET_FMT_plx " %c%c%c\n",
1741 *pstart, end, end - *pstart,
1742 prot1 & PG_USER_MASK ? 'u' : '-',
1743 'r',
1744 prot1 & PG_RW_MASK ? 'w' : '-');
1745 }
1746 if (prot != 0)
1747 *pstart = end;
1748 else
1749 *pstart = -1;
1750 *plast_prot = prot;
1751 }
1752 }
1753
1754 static void mem_info_32(Monitor *mon, CPUArchState *env)
1755 {
1756 unsigned int l1, l2;
1757 int prot, last_prot;
1758 uint32_t pgd, pde, pte;
1759 hwaddr start, end;
1760
1761 pgd = env->cr[3] & ~0xfff;
1762 last_prot = 0;
1763 start = -1;
1764 for(l1 = 0; l1 < 1024; l1++) {
1765 cpu_physical_memory_read(pgd + l1 * 4, &pde, 4);
1766 pde = le32_to_cpu(pde);
1767 end = l1 << 22;
1768 if (pde & PG_PRESENT_MASK) {
1769 if ((pde & PG_PSE_MASK) && (env->cr[4] & CR4_PSE_MASK)) {
1770 prot = pde & (PG_USER_MASK | PG_RW_MASK | PG_PRESENT_MASK);
1771 mem_print(mon, &start, &last_prot, end, prot);
1772 } else {
1773 for(l2 = 0; l2 < 1024; l2++) {
1774 cpu_physical_memory_read((pde & ~0xfff) + l2 * 4, &pte, 4);
1775 pte = le32_to_cpu(pte);
1776 end = (l1 << 22) + (l2 << 12);
1777 if (pte & PG_PRESENT_MASK) {
1778 prot = pte & pde &
1779 (PG_USER_MASK | PG_RW_MASK | PG_PRESENT_MASK);
1780 } else {
1781 prot = 0;
1782 }
1783 mem_print(mon, &start, &last_prot, end, prot);
1784 }
1785 }
1786 } else {
1787 prot = 0;
1788 mem_print(mon, &start, &last_prot, end, prot);
1789 }
1790 }
1791 /* Flush last range */
1792 mem_print(mon, &start, &last_prot, (hwaddr)1 << 32, 0);
1793 }
1794
1795 static void mem_info_pae32(Monitor *mon, CPUArchState *env)
1796 {
1797 unsigned int l1, l2, l3;
1798 int prot, last_prot;
1799 uint64_t pdpe, pde, pte;
1800 uint64_t pdp_addr, pd_addr, pt_addr;
1801 hwaddr start, end;
1802
1803 pdp_addr = env->cr[3] & ~0x1f;
1804 last_prot = 0;
1805 start = -1;
1806 for (l1 = 0; l1 < 4; l1++) {
1807 cpu_physical_memory_read(pdp_addr + l1 * 8, &pdpe, 8);
1808 pdpe = le64_to_cpu(pdpe);
1809 end = l1 << 30;
1810 if (pdpe & PG_PRESENT_MASK) {
1811 pd_addr = pdpe & 0x3fffffffff000ULL;
1812 for (l2 = 0; l2 < 512; l2++) {
1813 cpu_physical_memory_read(pd_addr + l2 * 8, &pde, 8);
1814 pde = le64_to_cpu(pde);
1815 end = (l1 << 30) + (l2 << 21);
1816 if (pde & PG_PRESENT_MASK) {
1817 if (pde & PG_PSE_MASK) {
1818 prot = pde & (PG_USER_MASK | PG_RW_MASK |
1819 PG_PRESENT_MASK);
1820 mem_print(mon, &start, &last_prot, end, prot);
1821 } else {
1822 pt_addr = pde & 0x3fffffffff000ULL;
1823 for (l3 = 0; l3 < 512; l3++) {
1824 cpu_physical_memory_read(pt_addr + l3 * 8, &pte, 8);
1825 pte = le64_to_cpu(pte);
1826 end = (l1 << 30) + (l2 << 21) + (l3 << 12);
1827 if (pte & PG_PRESENT_MASK) {
1828 prot = pte & pde & (PG_USER_MASK | PG_RW_MASK |
1829 PG_PRESENT_MASK);
1830 } else {
1831 prot = 0;
1832 }
1833 mem_print(mon, &start, &last_prot, end, prot);
1834 }
1835 }
1836 } else {
1837 prot = 0;
1838 mem_print(mon, &start, &last_prot, end, prot);
1839 }
1840 }
1841 } else {
1842 prot = 0;
1843 mem_print(mon, &start, &last_prot, end, prot);
1844 }
1845 }
1846 /* Flush last range */
1847 mem_print(mon, &start, &last_prot, (hwaddr)1 << 32, 0);
1848 }
1849
1850
1851 #ifdef TARGET_X86_64
1852 static void mem_info_64(Monitor *mon, CPUArchState *env)
1853 {
1854 int prot, last_prot;
1855 uint64_t l1, l2, l3, l4;
1856 uint64_t pml4e, pdpe, pde, pte;
1857 uint64_t pml4_addr, pdp_addr, pd_addr, pt_addr, start, end;
1858
1859 pml4_addr = env->cr[3] & 0x3fffffffff000ULL;
1860 last_prot = 0;
1861 start = -1;
1862 for (l1 = 0; l1 < 512; l1++) {
1863 cpu_physical_memory_read(pml4_addr + l1 * 8, &pml4e, 8);
1864 pml4e = le64_to_cpu(pml4e);
1865 end = l1 << 39;
1866 if (pml4e & PG_PRESENT_MASK) {
1867 pdp_addr = pml4e & 0x3fffffffff000ULL;
1868 for (l2 = 0; l2 < 512; l2++) {
1869 cpu_physical_memory_read(pdp_addr + l2 * 8, &pdpe, 8);
1870 pdpe = le64_to_cpu(pdpe);
1871 end = (l1 << 39) + (l2 << 30);
1872 if (pdpe & PG_PRESENT_MASK) {
1873 if (pdpe & PG_PSE_MASK) {
1874 prot = pdpe & (PG_USER_MASK | PG_RW_MASK |
1875 PG_PRESENT_MASK);
1876 prot &= pml4e;
1877 mem_print(mon, &start, &last_prot, end, prot);
1878 } else {
1879 pd_addr = pdpe & 0x3fffffffff000ULL;
1880 for (l3 = 0; l3 < 512; l3++) {
1881 cpu_physical_memory_read(pd_addr + l3 * 8, &pde, 8);
1882 pde = le64_to_cpu(pde);
1883 end = (l1 << 39) + (l2 << 30) + (l3 << 21);
1884 if (pde & PG_PRESENT_MASK) {
1885 if (pde & PG_PSE_MASK) {
1886 prot = pde & (PG_USER_MASK | PG_RW_MASK |
1887 PG_PRESENT_MASK);
1888 prot &= pml4e & pdpe;
1889 mem_print(mon, &start, &last_prot, end, prot);
1890 } else {
1891 pt_addr = pde & 0x3fffffffff000ULL;
1892 for (l4 = 0; l4 < 512; l4++) {
1893 cpu_physical_memory_read(pt_addr
1894 + l4 * 8,
1895 &pte, 8);
1896 pte = le64_to_cpu(pte);
1897 end = (l1 << 39) + (l2 << 30) +
1898 (l3 << 21) + (l4 << 12);
1899 if (pte & PG_PRESENT_MASK) {
1900 prot = pte & (PG_USER_MASK | PG_RW_MASK |
1901 PG_PRESENT_MASK);
1902 prot &= pml4e & pdpe & pde;
1903 } else {
1904 prot = 0;
1905 }
1906 mem_print(mon, &start, &last_prot, end, prot);
1907 }
1908 }
1909 } else {
1910 prot = 0;
1911 mem_print(mon, &start, &last_prot, end, prot);
1912 }
1913 }
1914 }
1915 } else {
1916 prot = 0;
1917 mem_print(mon, &start, &last_prot, end, prot);
1918 }
1919 }
1920 } else {
1921 prot = 0;
1922 mem_print(mon, &start, &last_prot, end, prot);
1923 }
1924 }
1925 /* Flush last range */
1926 mem_print(mon, &start, &last_prot, (hwaddr)1 << 48, 0);
1927 }
1928 #endif
1929
1930 static void mem_info(Monitor *mon, const QDict *qdict)
1931 {
1932 CPUArchState *env;
1933
1934 env = mon_get_cpu();
1935
1936 if (!(env->cr[0] & CR0_PG_MASK)) {
1937 monitor_printf(mon, "PG disabled\n");
1938 return;
1939 }
1940 if (env->cr[4] & CR4_PAE_MASK) {
1941 #ifdef TARGET_X86_64
1942 if (env->hflags & HF_LMA_MASK) {
1943 mem_info_64(mon, env);
1944 } else
1945 #endif
1946 {
1947 mem_info_pae32(mon, env);
1948 }
1949 } else {
1950 mem_info_32(mon, env);
1951 }
1952 }
1953 #endif
1954
1955 #if defined(TARGET_SH4)
1956
1957 static void print_tlb(Monitor *mon, int idx, tlb_t *tlb)
1958 {
1959 monitor_printf(mon, " tlb%i:\t"
1960 "asid=%hhu vpn=%x\tppn=%x\tsz=%hhu size=%u\t"
1961 "v=%hhu shared=%hhu cached=%hhu prot=%hhu "
1962 "dirty=%hhu writethrough=%hhu\n",
1963 idx,
1964 tlb->asid, tlb->vpn, tlb->ppn, tlb->sz, tlb->size,
1965 tlb->v, tlb->sh, tlb->c, tlb->pr,
1966 tlb->d, tlb->wt);
1967 }
1968
1969 static void tlb_info(Monitor *mon, const QDict *qdict)
1970 {
1971 CPUArchState *env = mon_get_cpu();
1972 int i;
1973
1974 monitor_printf (mon, "ITLB:\n");
1975 for (i = 0 ; i < ITLB_SIZE ; i++)
1976 print_tlb (mon, i, &env->itlb[i]);
1977 monitor_printf (mon, "UTLB:\n");
1978 for (i = 0 ; i < UTLB_SIZE ; i++)
1979 print_tlb (mon, i, &env->utlb[i]);
1980 }
1981
1982 #endif
1983
1984 #if defined(TARGET_SPARC) || defined(TARGET_PPC) || defined(TARGET_XTENSA)
1985 static void tlb_info(Monitor *mon, const QDict *qdict)
1986 {
1987 CPUArchState *env1 = mon_get_cpu();
1988
1989 dump_mmu((FILE*)mon, (fprintf_function)monitor_printf, env1);
1990 }
1991 #endif
1992
1993 static void do_info_mtree(Monitor *mon, const QDict *qdict)
1994 {
1995 mtree_info((fprintf_function)monitor_printf, mon);
1996 }
1997
1998 static void do_info_numa(Monitor *mon, const QDict *qdict)
1999 {
2000 int i;
2001 CPUState *cpu;
2002
2003 monitor_printf(mon, "%d nodes\n", nb_numa_nodes);
2004 for (i = 0; i < nb_numa_nodes; i++) {
2005 monitor_printf(mon, "node %d cpus:", i);
2006 CPU_FOREACH(cpu) {
2007 if (cpu->numa_node == i) {
2008 monitor_printf(mon, " %d", cpu->cpu_index);
2009 }
2010 }
2011 monitor_printf(mon, "\n");
2012 monitor_printf(mon, "node %d size: %" PRId64 " MB\n", i,
2013 node_mem[i] >> 20);
2014 }
2015 }
2016
2017 #ifdef CONFIG_PROFILER
2018
2019 int64_t qemu_time;
2020 int64_t dev_time;
2021
2022 static void do_info_profile(Monitor *mon, const QDict *qdict)
2023 {
2024 monitor_printf(mon, "async time %" PRId64 " (%0.3f)\n",
2025 dev_time, dev_time / (double)get_ticks_per_sec());
2026 monitor_printf(mon, "qemu time %" PRId64 " (%0.3f)\n",
2027 qemu_time, qemu_time / (double)get_ticks_per_sec());
2028 qemu_time = 0;
2029 dev_time = 0;
2030 }
2031 #else
2032 static void do_info_profile(Monitor *mon, const QDict *qdict)
2033 {
2034 monitor_printf(mon, "Internal profiler not compiled\n");
2035 }
2036 #endif
2037
2038 /* Capture support */
2039 static QLIST_HEAD (capture_list_head, CaptureState) capture_head;
2040
2041 static void do_info_capture(Monitor *mon, const QDict *qdict)
2042 {
2043 int i;
2044 CaptureState *s;
2045
2046 for (s = capture_head.lh_first, i = 0; s; s = s->entries.le_next, ++i) {
2047 monitor_printf(mon, "[%d]: ", i);
2048 s->ops.info (s->opaque);
2049 }
2050 }
2051
2052 static void do_stop_capture(Monitor *mon, const QDict *qdict)
2053 {
2054 int i;
2055 int n = qdict_get_int(qdict, "n");
2056 CaptureState *s;
2057
2058 for (s = capture_head.lh_first, i = 0; s; s = s->entries.le_next, ++i) {
2059 if (i == n) {
2060 s->ops.destroy (s->opaque);
2061 QLIST_REMOVE (s, entries);
2062 g_free (s);
2063 return;
2064 }
2065 }
2066 }
2067
2068 static void do_wav_capture(Monitor *mon, const QDict *qdict)
2069 {
2070 const char *path = qdict_get_str(qdict, "path");
2071 int has_freq = qdict_haskey(qdict, "freq");
2072 int freq = qdict_get_try_int(qdict, "freq", -1);
2073 int has_bits = qdict_haskey(qdict, "bits");
2074 int bits = qdict_get_try_int(qdict, "bits", -1);
2075 int has_channels = qdict_haskey(qdict, "nchannels");
2076 int nchannels = qdict_get_try_int(qdict, "nchannels", -1);
2077 CaptureState *s;
2078
2079 s = g_malloc0 (sizeof (*s));
2080
2081 freq = has_freq ? freq : 44100;
2082 bits = has_bits ? bits : 16;
2083 nchannels = has_channels ? nchannels : 2;
2084
2085 if (wav_start_capture (s, path, freq, bits, nchannels)) {
2086 monitor_printf(mon, "Failed to add wave capture\n");
2087 g_free (s);
2088 return;
2089 }
2090 QLIST_INSERT_HEAD (&capture_head, s, entries);
2091 }
2092
2093 static qemu_acl *find_acl(Monitor *mon, const char *name)
2094 {
2095 qemu_acl *acl = qemu_acl_find(name);
2096
2097 if (!acl) {
2098 monitor_printf(mon, "acl: unknown list '%s'\n", name);
2099 }
2100 return acl;
2101 }
2102
2103 static void do_acl_show(Monitor *mon, const QDict *qdict)
2104 {
2105 const char *aclname = qdict_get_str(qdict, "aclname");
2106 qemu_acl *acl = find_acl(mon, aclname);
2107 qemu_acl_entry *entry;
2108 int i = 0;
2109
2110 if (acl) {
2111 monitor_printf(mon, "policy: %s\n",
2112 acl->defaultDeny ? "deny" : "allow");
2113 QTAILQ_FOREACH(entry, &acl->entries, next) {
2114 i++;
2115 monitor_printf(mon, "%d: %s %s\n", i,
2116 entry->deny ? "deny" : "allow", entry->match);
2117 }
2118 }
2119 }
2120
2121 static void do_acl_reset(Monitor *mon, const QDict *qdict)
2122 {
2123 const char *aclname = qdict_get_str(qdict, "aclname");
2124 qemu_acl *acl = find_acl(mon, aclname);
2125
2126 if (acl) {
2127 qemu_acl_reset(acl);
2128 monitor_printf(mon, "acl: removed all rules\n");
2129 }
2130 }
2131
2132 static void do_acl_policy(Monitor *mon, const QDict *qdict)
2133 {
2134 const char *aclname = qdict_get_str(qdict, "aclname");
2135 const char *policy = qdict_get_str(qdict, "policy");
2136 qemu_acl *acl = find_acl(mon, aclname);
2137
2138 if (acl) {
2139 if (strcmp(policy, "allow") == 0) {
2140 acl->defaultDeny = 0;
2141 monitor_printf(mon, "acl: policy set to 'allow'\n");
2142 } else if (strcmp(policy, "deny") == 0) {
2143 acl->defaultDeny = 1;
2144 monitor_printf(mon, "acl: policy set to 'deny'\n");
2145 } else {
2146 monitor_printf(mon, "acl: unknown policy '%s', "
2147 "expected 'deny' or 'allow'\n", policy);
2148 }
2149 }
2150 }
2151
2152 static void do_acl_add(Monitor *mon, const QDict *qdict)
2153 {
2154 const char *aclname = qdict_get_str(qdict, "aclname");
2155 const char *match = qdict_get_str(qdict, "match");
2156 const char *policy = qdict_get_str(qdict, "policy");
2157 int has_index = qdict_haskey(qdict, "index");
2158 int index = qdict_get_try_int(qdict, "index", -1);
2159 qemu_acl *acl = find_acl(mon, aclname);
2160 int deny, ret;
2161
2162 if (acl) {
2163 if (strcmp(policy, "allow") == 0) {
2164 deny = 0;
2165 } else if (strcmp(policy, "deny") == 0) {
2166 deny = 1;
2167 } else {
2168 monitor_printf(mon, "acl: unknown policy '%s', "
2169 "expected 'deny' or 'allow'\n", policy);
2170 return;
2171 }
2172 if (has_index)
2173 ret = qemu_acl_insert(acl, deny, match, index);
2174 else
2175 ret = qemu_acl_append(acl, deny, match);
2176 if (ret < 0)
2177 monitor_printf(mon, "acl: unable to add acl entry\n");
2178 else
2179 monitor_printf(mon, "acl: added rule at position %d\n", ret);
2180 }
2181 }
2182
2183 static void do_acl_remove(Monitor *mon, const QDict *qdict)
2184 {
2185 const char *aclname = qdict_get_str(qdict, "aclname");
2186 const char *match = qdict_get_str(qdict, "match");
2187 qemu_acl *acl = find_acl(mon, aclname);
2188 int ret;
2189
2190 if (acl) {
2191 ret = qemu_acl_remove(acl, match);
2192 if (ret < 0)
2193 monitor_printf(mon, "acl: no matching acl entry\n");
2194 else
2195 monitor_printf(mon, "acl: removed rule at position %d\n", ret);
2196 }
2197 }
2198
2199 #if defined(TARGET_I386)
2200 static void do_inject_mce(Monitor *mon, const QDict *qdict)
2201 {
2202 X86CPU *cpu;
2203 CPUState *cs;
2204 int cpu_index = qdict_get_int(qdict, "cpu_index");
2205 int bank = qdict_get_int(qdict, "bank");
2206 uint64_t status = qdict_get_int(qdict, "status");
2207 uint64_t mcg_status = qdict_get_int(qdict, "mcg_status");
2208 uint64_t addr = qdict_get_int(qdict, "addr");
2209 uint64_t misc = qdict_get_int(qdict, "misc");
2210 int flags = MCE_INJECT_UNCOND_AO;
2211
2212 if (qdict_get_try_bool(qdict, "broadcast", 0)) {
2213 flags |= MCE_INJECT_BROADCAST;
2214 }
2215 cs = qemu_get_cpu(cpu_index);
2216 if (cs != NULL) {
2217 cpu = X86_CPU(cs);
2218 cpu_x86_inject_mce(mon, cpu, bank, status, mcg_status, addr, misc,
2219 flags);
2220 }
2221 }
2222 #endif
2223
2224 void qmp_getfd(const char *fdname, Error **errp)
2225 {
2226 mon_fd_t *monfd;
2227 int fd;
2228
2229 fd = qemu_chr_fe_get_msgfd(cur_mon->chr);
2230 if (fd == -1) {
2231 error_set(errp, QERR_FD_NOT_SUPPLIED);
2232 return;
2233 }
2234
2235 if (qemu_isdigit(fdname[0])) {
2236 error_set(errp, QERR_INVALID_PARAMETER_VALUE, "fdname",
2237 "a name not starting with a digit");
2238 return;
2239 }
2240
2241 QLIST_FOREACH(monfd, &cur_mon->fds, next) {
2242 if (strcmp(monfd->name, fdname) != 0) {
2243 continue;
2244 }
2245
2246 close(monfd->fd);
2247 monfd->fd = fd;
2248 return;
2249 }
2250
2251 monfd = g_malloc0(sizeof(mon_fd_t));
2252 monfd->name = g_strdup(fdname);
2253 monfd->fd = fd;
2254
2255 QLIST_INSERT_HEAD(&cur_mon->fds, monfd, next);
2256 }
2257
2258 void qmp_closefd(const char *fdname, Error **errp)
2259 {
2260 mon_fd_t *monfd;
2261
2262 QLIST_FOREACH(monfd, &cur_mon->fds, next) {
2263 if (strcmp(monfd->name, fdname) != 0) {
2264 continue;
2265 }
2266
2267 QLIST_REMOVE(monfd, next);
2268 close(monfd->fd);
2269 g_free(monfd->name);
2270 g_free(monfd);
2271 return;
2272 }
2273
2274 error_set(errp, QERR_FD_NOT_FOUND, fdname);
2275 }
2276
2277 static void do_loadvm(Monitor *mon, const QDict *qdict)
2278 {
2279 int saved_vm_running = runstate_is_running();
2280 const char *name = qdict_get_str(qdict, "name");
2281
2282 vm_stop(RUN_STATE_RESTORE_VM);
2283
2284 if (load_vmstate(name) == 0 && saved_vm_running) {
2285 vm_start();
2286 }
2287 }
2288
2289 int monitor_get_fd(Monitor *mon, const char *fdname, Error **errp)
2290 {
2291 mon_fd_t *monfd;
2292
2293 QLIST_FOREACH(monfd, &mon->fds, next) {
2294 int fd;
2295
2296 if (strcmp(monfd->name, fdname) != 0) {
2297 continue;
2298 }
2299
2300 fd = monfd->fd;
2301
2302 /* caller takes ownership of fd */
2303 QLIST_REMOVE(monfd, next);
2304 g_free(monfd->name);
2305 g_free(monfd);
2306
2307 return fd;
2308 }
2309
2310 error_setg(errp, "File descriptor named '%s' has not been found", fdname);
2311 return -1;
2312 }
2313
2314 static void monitor_fdset_cleanup(MonFdset *mon_fdset)
2315 {
2316 MonFdsetFd *mon_fdset_fd;
2317 MonFdsetFd *mon_fdset_fd_next;
2318
2319 QLIST_FOREACH_SAFE(mon_fdset_fd, &mon_fdset->fds, next, mon_fdset_fd_next) {
2320 if ((mon_fdset_fd->removed ||
2321 (QLIST_EMPTY(&mon_fdset->dup_fds) && mon_refcount == 0)) &&
2322 runstate_is_running()) {
2323 close(mon_fdset_fd->fd);
2324 g_free(mon_fdset_fd->opaque);
2325 QLIST_REMOVE(mon_fdset_fd, next);
2326 g_free(mon_fdset_fd);
2327 }
2328 }
2329
2330 if (QLIST_EMPTY(&mon_fdset->fds) && QLIST_EMPTY(&mon_fdset->dup_fds)) {
2331 QLIST_REMOVE(mon_fdset, next);
2332 g_free(mon_fdset);
2333 }
2334 }
2335
2336 static void monitor_fdsets_cleanup(void)
2337 {
2338 MonFdset *mon_fdset;
2339 MonFdset *mon_fdset_next;
2340
2341 QLIST_FOREACH_SAFE(mon_fdset, &mon_fdsets, next, mon_fdset_next) {
2342 monitor_fdset_cleanup(mon_fdset);
2343 }
2344 }
2345
2346 AddfdInfo *qmp_add_fd(bool has_fdset_id, int64_t fdset_id, bool has_opaque,
2347 const char *opaque, Error **errp)
2348 {
2349 int fd;
2350 Monitor *mon = cur_mon;
2351 AddfdInfo *fdinfo;
2352
2353 fd = qemu_chr_fe_get_msgfd(mon->chr);
2354 if (fd == -1) {
2355 error_set(errp, QERR_FD_NOT_SUPPLIED);
2356 goto error;
2357 }
2358
2359 fdinfo = monitor_fdset_add_fd(fd, has_fdset_id, fdset_id,
2360 has_opaque, opaque, errp);
2361 if (fdinfo) {
2362 return fdinfo;
2363 }
2364
2365 error:
2366 if (fd != -1) {
2367 close(fd);
2368 }
2369 return NULL;
2370 }
2371
2372 void qmp_remove_fd(int64_t fdset_id, bool has_fd, int64_t fd, Error **errp)
2373 {
2374 MonFdset *mon_fdset;
2375 MonFdsetFd *mon_fdset_fd;
2376 char fd_str[60];
2377
2378 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2379 if (mon_fdset->id != fdset_id) {
2380 continue;
2381 }
2382 QLIST_FOREACH(mon_fdset_fd, &mon_fdset->fds, next) {
2383 if (has_fd) {
2384 if (mon_fdset_fd->fd != fd) {
2385 continue;
2386 }
2387 mon_fdset_fd->removed = true;
2388 break;
2389 } else {
2390 mon_fdset_fd->removed = true;
2391 }
2392 }
2393 if (has_fd && !mon_fdset_fd) {
2394 goto error;
2395 }
2396 monitor_fdset_cleanup(mon_fdset);
2397 return;
2398 }
2399
2400 error:
2401 if (has_fd) {
2402 snprintf(fd_str, sizeof(fd_str), "fdset-id:%" PRId64 ", fd:%" PRId64,
2403 fdset_id, fd);
2404 } else {
2405 snprintf(fd_str, sizeof(fd_str), "fdset-id:%" PRId64, fdset_id);
2406 }
2407 error_set(errp, QERR_FD_NOT_FOUND, fd_str);
2408 }
2409
2410 FdsetInfoList *qmp_query_fdsets(Error **errp)
2411 {
2412 MonFdset *mon_fdset;
2413 MonFdsetFd *mon_fdset_fd;
2414 FdsetInfoList *fdset_list = NULL;
2415
2416 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2417 FdsetInfoList *fdset_info = g_malloc0(sizeof(*fdset_info));
2418 FdsetFdInfoList *fdsetfd_list = NULL;
2419
2420 fdset_info->value = g_malloc0(sizeof(*fdset_info->value));
2421 fdset_info->value->fdset_id = mon_fdset->id;
2422
2423 QLIST_FOREACH(mon_fdset_fd, &mon_fdset->fds, next) {
2424 FdsetFdInfoList *fdsetfd_info;
2425
2426 fdsetfd_info = g_malloc0(sizeof(*fdsetfd_info));
2427 fdsetfd_info->value = g_malloc0(sizeof(*fdsetfd_info->value));
2428 fdsetfd_info->value->fd = mon_fdset_fd->fd;
2429 if (mon_fdset_fd->opaque) {
2430 fdsetfd_info->value->has_opaque = true;
2431 fdsetfd_info->value->opaque = g_strdup(mon_fdset_fd->opaque);
2432 } else {
2433 fdsetfd_info->value->has_opaque = false;
2434 }
2435
2436 fdsetfd_info->next = fdsetfd_list;
2437 fdsetfd_list = fdsetfd_info;
2438 }
2439
2440 fdset_info->value->fds = fdsetfd_list;
2441
2442 fdset_info->next = fdset_list;
2443 fdset_list = fdset_info;
2444 }
2445
2446 return fdset_list;
2447 }
2448
2449 AddfdInfo *monitor_fdset_add_fd(int fd, bool has_fdset_id, int64_t fdset_id,
2450 bool has_opaque, const char *opaque,
2451 Error **errp)
2452 {
2453 MonFdset *mon_fdset = NULL;
2454 MonFdsetFd *mon_fdset_fd;
2455 AddfdInfo *fdinfo;
2456
2457 if (has_fdset_id) {
2458 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2459 /* Break if match found or match impossible due to ordering by ID */
2460 if (fdset_id <= mon_fdset->id) {
2461 if (fdset_id < mon_fdset->id) {
2462 mon_fdset = NULL;
2463 }
2464 break;
2465 }
2466 }
2467 }
2468
2469 if (mon_fdset == NULL) {
2470 int64_t fdset_id_prev = -1;
2471 MonFdset *mon_fdset_cur = QLIST_FIRST(&mon_fdsets);
2472
2473 if (has_fdset_id) {
2474 if (fdset_id < 0) {
2475 error_set(errp, QERR_INVALID_PARAMETER_VALUE, "fdset-id",
2476 "a non-negative value");
2477 return NULL;
2478 }
2479 /* Use specified fdset ID */
2480 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2481 mon_fdset_cur = mon_fdset;
2482 if (fdset_id < mon_fdset_cur->id) {
2483 break;
2484 }
2485 }
2486 } else {
2487 /* Use first available fdset ID */
2488 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2489 mon_fdset_cur = mon_fdset;
2490 if (fdset_id_prev == mon_fdset_cur->id - 1) {
2491 fdset_id_prev = mon_fdset_cur->id;
2492 continue;
2493 }
2494 break;
2495 }
2496 }
2497
2498 mon_fdset = g_malloc0(sizeof(*mon_fdset));
2499 if (has_fdset_id) {
2500 mon_fdset->id = fdset_id;
2501 } else {
2502 mon_fdset->id = fdset_id_prev + 1;
2503 }
2504
2505 /* The fdset list is ordered by fdset ID */
2506 if (!mon_fdset_cur) {
2507 QLIST_INSERT_HEAD(&mon_fdsets, mon_fdset, next);
2508 } else if (mon_fdset->id < mon_fdset_cur->id) {
2509 QLIST_INSERT_BEFORE(mon_fdset_cur, mon_fdset, next);
2510 } else {
2511 QLIST_INSERT_AFTER(mon_fdset_cur, mon_fdset, next);
2512 }
2513 }
2514
2515 mon_fdset_fd = g_malloc0(sizeof(*mon_fdset_fd));
2516 mon_fdset_fd->fd = fd;
2517 mon_fdset_fd->removed = false;
2518 if (has_opaque) {
2519 mon_fdset_fd->opaque = g_strdup(opaque);
2520 }
2521 QLIST_INSERT_HEAD(&mon_fdset->fds, mon_fdset_fd, next);
2522
2523 fdinfo = g_malloc0(sizeof(*fdinfo));
2524 fdinfo->fdset_id = mon_fdset->id;
2525 fdinfo->fd = mon_fdset_fd->fd;
2526
2527 return fdinfo;
2528 }
2529
2530 int monitor_fdset_get_fd(int64_t fdset_id, int flags)
2531 {
2532 #ifndef _WIN32
2533 MonFdset *mon_fdset;
2534 MonFdsetFd *mon_fdset_fd;
2535 int mon_fd_flags;
2536
2537 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2538 if (mon_fdset->id != fdset_id) {
2539 continue;
2540 }
2541 QLIST_FOREACH(mon_fdset_fd, &mon_fdset->fds, next) {
2542 mon_fd_flags = fcntl(mon_fdset_fd->fd, F_GETFL);
2543 if (mon_fd_flags == -1) {
2544 return -1;
2545 }
2546
2547 if ((flags & O_ACCMODE) == (mon_fd_flags & O_ACCMODE)) {
2548 return mon_fdset_fd->fd;
2549 }
2550 }
2551 errno = EACCES;
2552 return -1;
2553 }
2554 #endif
2555
2556 errno = ENOENT;
2557 return -1;
2558 }
2559
2560 int monitor_fdset_dup_fd_add(int64_t fdset_id, int dup_fd)
2561 {
2562 MonFdset *mon_fdset;
2563 MonFdsetFd *mon_fdset_fd_dup;
2564
2565 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2566 if (mon_fdset->id != fdset_id) {
2567 continue;
2568 }
2569 QLIST_FOREACH(mon_fdset_fd_dup, &mon_fdset->dup_fds, next) {
2570 if (mon_fdset_fd_dup->fd == dup_fd) {
2571 return -1;
2572 }
2573 }
2574 mon_fdset_fd_dup = g_malloc0(sizeof(*mon_fdset_fd_dup));
2575 mon_fdset_fd_dup->fd = dup_fd;
2576 QLIST_INSERT_HEAD(&mon_fdset->dup_fds, mon_fdset_fd_dup, next);
2577 return 0;
2578 }
2579 return -1;
2580 }
2581
2582 static int monitor_fdset_dup_fd_find_remove(int dup_fd, bool remove)
2583 {
2584 MonFdset *mon_fdset;
2585 MonFdsetFd *mon_fdset_fd_dup;
2586
2587 QLIST_FOREACH(mon_fdset, &mon_fdsets, next) {
2588 QLIST_FOREACH(mon_fdset_fd_dup, &mon_fdset->dup_fds, next) {
2589 if (mon_fdset_fd_dup->fd == dup_fd) {
2590 if (remove) {
2591 QLIST_REMOVE(mon_fdset_fd_dup, next);
2592 if (QLIST_EMPTY(&mon_fdset->dup_fds)) {
2593 monitor_fdset_cleanup(mon_fdset);
2594 }
2595 }
2596 return mon_fdset->id;
2597 }
2598 }
2599 }
2600 return -1;
2601 }
2602
2603 int monitor_fdset_dup_fd_find(int dup_fd)
2604 {
2605 return monitor_fdset_dup_fd_find_remove(dup_fd, false);
2606 }
2607
2608 int monitor_fdset_dup_fd_remove(int dup_fd)
2609 {
2610 return monitor_fdset_dup_fd_find_remove(dup_fd, true);
2611 }
2612
2613 int monitor_handle_fd_param(Monitor *mon, const char *fdname)
2614 {
2615 int fd;
2616 Error *local_err = NULL;
2617
2618 if (!qemu_isdigit(fdname[0]) && mon) {
2619
2620 fd = monitor_get_fd(mon, fdname, &local_err);
2621 if (fd == -1) {
2622 qerror_report_err(local_err);
2623 error_free(local_err);
2624 return -1;
2625 }
2626 } else {
2627 fd = qemu_parse_fd(fdname);
2628 }
2629
2630 return fd;
2631 }
2632
2633 /* Please update hmp-commands.hx when adding or changing commands */
2634 static mon_cmd_t info_cmds[] = {
2635 {
2636 .name = "version",
2637 .args_type = "",
2638 .params = "",
2639 .help = "show the version of QEMU",
2640 .mhandler.cmd = hmp_info_version,
2641 },
2642 {
2643 .name = "network",
2644 .args_type = "",
2645 .params = "",
2646 .help = "show the network state",
2647 .mhandler.cmd = do_info_network,
2648 },
2649 {
2650 .name = "chardev",
2651 .args_type = "",
2652 .params = "",
2653 .help = "show the character devices",
2654 .mhandler.cmd = hmp_info_chardev,
2655 },
2656 {
2657 .name = "block",
2658 .args_type = "verbose:-v,device:B?",
2659 .params = "[-v] [device]",
2660 .help = "show info of one block device or all block devices "
2661 "(and details of images with -v option)",
2662 .mhandler.cmd = hmp_info_block,
2663 },
2664 {
2665 .name = "blockstats",
2666 .args_type = "",
2667 .params = "",
2668 .help = "show block device statistics",
2669 .mhandler.cmd = hmp_info_blockstats,
2670 },
2671 {
2672 .name = "block-jobs",
2673 .args_type = "",
2674 .params = "",
2675 .help = "show progress of ongoing block device operations",
2676 .mhandler.cmd = hmp_info_block_jobs,
2677 },
2678 {
2679 .name = "registers",
2680 .args_type = "",
2681 .params = "",
2682 .help = "show the cpu registers",
2683 .mhandler.cmd = do_info_registers,
2684 },
2685 {
2686 .name = "cpus",
2687 .args_type = "",
2688 .params = "",
2689 .help = "show infos for each CPU",
2690 .mhandler.cmd = hmp_info_cpus,
2691 },
2692 {
2693 .name = "history",
2694 .args_type = "",
2695 .params = "",
2696 .help = "show the command line history",
2697 .mhandler.cmd = do_info_history,
2698 },
2699 #if defined(TARGET_I386) || defined(TARGET_PPC) || defined(TARGET_MIPS) || \
2700 defined(TARGET_LM32) || (defined(TARGET_SPARC) && !defined(TARGET_SPARC64))
2701 {
2702 .name = "irq",
2703 .args_type = "",
2704 .params = "",
2705 .help = "show the interrupts statistics (if available)",
2706 #ifdef TARGET_SPARC
2707 .mhandler.cmd = sun4m_irq_info,
2708 #elif defined(TARGET_LM32)
2709 .mhandler.cmd = lm32_irq_info,
2710 #else
2711 .mhandler.cmd = irq_info,
2712 #endif
2713 },
2714 {
2715 .name = "pic",
2716 .args_type = "",
2717 .params = "",
2718 .help = "show i8259 (PIC) state",
2719 #ifdef TARGET_SPARC
2720 .mhandler.cmd = sun4m_pic_info,
2721 #elif defined(TARGET_LM32)
2722 .mhandler.cmd = lm32_do_pic_info,
2723 #else
2724 .mhandler.cmd = pic_info,
2725 #endif
2726 },
2727 #endif
2728 {
2729 .name = "pci",
2730 .args_type = "",
2731 .params = "",
2732 .help = "show PCI info",
2733 .mhandler.cmd = hmp_info_pci,
2734 },
2735 #if defined(TARGET_I386) || defined(TARGET_SH4) || defined(TARGET_SPARC) || \
2736 defined(TARGET_PPC) || defined(TARGET_XTENSA)
2737 {
2738 .name = "tlb",
2739 .args_type = "",
2740 .params = "",
2741 .help = "show virtual to physical memory mappings",
2742 .mhandler.cmd = tlb_info,
2743 },
2744 #endif
2745 #if defined(TARGET_I386)
2746 {
2747 .name = "mem",
2748 .args_type = "",
2749 .params = "",
2750 .help = "show the active virtual memory mappings",
2751 .mhandler.cmd = mem_info,
2752 },
2753 #endif
2754 {
2755 .name = "mtree",
2756 .args_type = "",
2757 .params = "",
2758 .help = "show memory tree",
2759 .mhandler.cmd = do_info_mtree,
2760 },
2761 {
2762 .name = "jit",
2763 .args_type = "",
2764 .params = "",
2765 .help = "show dynamic compiler info",
2766 .mhandler.cmd = do_info_jit,
2767 },
2768 {
2769 .name = "kvm",
2770 .args_type = "",
2771 .params = "",
2772 .help = "show KVM information",
2773 .mhandler.cmd = hmp_info_kvm,
2774 },
2775 {
2776 .name = "numa",
2777 .args_type = "",
2778 .params = "",
2779 .help = "show NUMA information",
2780 .mhandler.cmd = do_info_numa,
2781 },
2782 {
2783 .name = "usb",
2784 .args_type = "",
2785 .params = "",
2786 .help = "show guest USB devices",
2787 .mhandler.cmd = usb_info,
2788 },
2789 {
2790 .name = "usbhost",
2791 .args_type = "",
2792 .params = "",
2793 .help = "show host USB devices",
2794 .mhandler.cmd = usb_host_info,
2795 },
2796 {
2797 .name = "profile",
2798 .args_type = "",
2799 .params = "",
2800 .help = "show profiling information",
2801 .mhandler.cmd = do_info_profile,
2802 },
2803 {
2804 .name = "capture",
2805 .args_type = "",
2806 .params = "",
2807 .help = "show capture information",
2808 .mhandler.cmd = do_info_capture,
2809 },
2810 {
2811 .name = "snapshots",
2812 .args_type = "",
2813 .params = "",
2814 .help = "show the currently saved VM snapshots",
2815 .mhandler.cmd = do_info_snapshots,
2816 },
2817 {
2818 .name = "status",
2819 .args_type = "",
2820 .params = "",
2821 .help = "show the current VM status (running|paused)",
2822 .mhandler.cmd = hmp_info_status,
2823 },
2824 {
2825 .name = "pcmcia",
2826 .args_type = "",
2827 .params = "",
2828 .help = "show guest PCMCIA status",
2829 .mhandler.cmd = pcmcia_info,
2830 },
2831 {
2832 .name = "mice",
2833 .args_type = "",
2834 .params = "",
2835 .help = "show which guest mouse is receiving events",
2836 .mhandler.cmd = hmp_info_mice,
2837 },
2838 {
2839 .name = "vnc",
2840 .args_type = "",
2841 .params = "",
2842 .help = "show the vnc server status",
2843 .mhandler.cmd = hmp_info_vnc,
2844 },
2845 #if defined(CONFIG_SPICE)
2846 {
2847 .name = "spice",
2848 .args_type = "",
2849 .params = "",
2850 .help = "show the spice server status",
2851 .mhandler.cmd = hmp_info_spice,
2852 },
2853 #endif
2854 {
2855 .name = "name",
2856 .args_type = "",
2857 .params = "",
2858 .help = "show the current VM name",
2859 .mhandler.cmd = hmp_info_name,
2860 },
2861 {
2862 .name = "uuid",
2863 .args_type = "",
2864 .params = "",
2865 .help = "show the current VM UUID",
2866 .mhandler.cmd = hmp_info_uuid,
2867 },
2868 {
2869 .name = "cpustats",
2870 .args_type = "",
2871 .params = "",
2872 .help = "show CPU statistics",
2873 .mhandler.cmd = do_info_cpu_stats,
2874 },
2875 #if defined(CONFIG_SLIRP)
2876 {
2877 .name = "usernet",
2878 .args_type = "",
2879 .params = "",
2880 .help = "show user network stack connection states",
2881 .mhandler.cmd = do_info_usernet,
2882 },
2883 #endif
2884 {
2885 .name = "migrate",
2886 .args_type = "",
2887 .params = "",
2888 .help = "show migration status",
2889 .mhandler.cmd = hmp_info_migrate,
2890 },
2891 {
2892 .name = "migrate_capabilities",
2893 .args_type = "",
2894 .params = "",
2895 .help = "show current migration capabilities",
2896 .mhandler.cmd = hmp_info_migrate_capabilities,
2897 },
2898 {
2899 .name = "migrate_cache_size",
2900 .args_type = "",
2901 .params = "",
2902 .help = "show current migration xbzrle cache size",
2903 .mhandler.cmd = hmp_info_migrate_cache_size,
2904 },
2905 {
2906 .name = "balloon",
2907 .args_type = "",
2908 .params = "",
2909 .help = "show balloon information",
2910 .mhandler.cmd = hmp_info_balloon,
2911 },
2912 {
2913 .name = "qtree",
2914 .args_type = "",
2915 .params = "",
2916 .help = "show device tree",
2917 .mhandler.cmd = do_info_qtree,
2918 },
2919 {
2920 .name = "qdm",
2921 .args_type = "",
2922 .params = "",
2923 .help = "show qdev device model list",
2924 .mhandler.cmd = do_info_qdm,
2925 },
2926 {
2927 .name = "roms",
2928 .args_type = "",
2929 .params = "",
2930 .help = "show roms",
2931 .mhandler.cmd = do_info_roms,
2932 },
2933 {
2934 .name = "trace-events",
2935 .args_type = "",
2936 .params = "",
2937 .help = "show available trace-events & their state",
2938 .mhandler.cmd = do_trace_print_events,
2939 },
2940 {
2941 .name = "tpm",
2942 .args_type = "",
2943 .params = "",
2944 .help = "show the TPM device",
2945 .mhandler.cmd = hmp_info_tpm,
2946 },
2947 {
2948 .name = NULL,
2949 },
2950 };
2951
2952 /* mon_cmds and info_cmds would be sorted at runtime */
2953 static mon_cmd_t mon_cmds[] = {
2954 #include "hmp-commands.h"
2955 { NULL, NULL, },
2956 };
2957
2958 static const mon_cmd_t qmp_cmds[] = {
2959 #include "qmp-commands-old.h"
2960 { /* NULL */ },
2961 };
2962
2963 /*******************************************************************/
2964
2965 static const char *pch;
2966 static sigjmp_buf expr_env;
2967
2968 #define MD_TLONG 0
2969 #define MD_I32 1
2970
2971 typedef struct MonitorDef {
2972 const char *name;
2973 int offset;
2974 target_long (*get_value)(const struct MonitorDef *md, int val);
2975 int type;
2976 } MonitorDef;
2977
2978 #if defined(TARGET_I386)
2979 static target_long monitor_get_pc (const struct MonitorDef *md, int val)
2980 {
2981 CPUArchState *env = mon_get_cpu();
2982 return env->eip + env->segs[R_CS].base;
2983 }
2984 #endif
2985
2986 #if defined(TARGET_PPC)
2987 static target_long monitor_get_ccr (const struct MonitorDef *md, int val)
2988 {
2989 CPUArchState *env = mon_get_cpu();
2990 unsigned int u;
2991 int i;
2992
2993 u = 0;
2994 for (i = 0; i < 8; i++)
2995 u |= env->crf[i] << (32 - (4 * i));
2996
2997 return u;
2998 }
2999
3000 static target_long monitor_get_msr (const struct MonitorDef *md, int val)
3001 {
3002 CPUArchState *env = mon_get_cpu();
3003 return env->msr;
3004 }
3005
3006 static target_long monitor_get_xer (const struct MonitorDef *md, int val)
3007 {
3008 CPUArchState *env = mon_get_cpu();
3009 return env->xer;
3010 }
3011
3012 static target_long monitor_get_decr (const struct MonitorDef *md, int val)
3013 {
3014 CPUArchState *env = mon_get_cpu();
3015 return cpu_ppc_load_decr(env);
3016 }
3017
3018 static target_long monitor_get_tbu (const struct MonitorDef *md, int val)
3019 {
3020 CPUArchState *env = mon_get_cpu();
3021 return cpu_ppc_load_tbu(env);
3022 }
3023
3024 static target_long monitor_get_tbl (const struct MonitorDef *md, int val)
3025 {
3026 CPUArchState *env = mon_get_cpu();
3027 return cpu_ppc_load_tbl(env);
3028 }
3029 #endif
3030
3031 #if defined(TARGET_SPARC)
3032 #ifndef TARGET_SPARC64
3033 static target_long monitor_get_psr (const struct MonitorDef *md, int val)
3034 {
3035 CPUArchState *env = mon_get_cpu();
3036
3037 return cpu_get_psr(env);
3038 }
3039 #endif
3040
3041 static target_long monitor_get_reg(const struct MonitorDef *md, int val)
3042 {
3043 CPUArchState *env = mon_get_cpu();
3044 return env->regwptr[val];
3045 }
3046 #endif
3047
3048 static const MonitorDef monitor_defs[] = {
3049 #ifdef TARGET_I386
3050
3051 #define SEG(name, seg) \
3052 { name, offsetof(CPUX86State, segs[seg].selector), NULL, MD_I32 },\
3053 { name ".base", offsetof(CPUX86State, segs[seg].base) },\
3054 { name ".limit", offsetof(CPUX86State, segs[seg].limit), NULL, MD_I32 },
3055
3056 { "eax", offsetof(CPUX86State, regs[0]) },
3057 { "ecx", offsetof(CPUX86State, regs[1]) },
3058 { "edx", offsetof(CPUX86State, regs[2]) },
3059 { "ebx", offsetof(CPUX86State, regs[3]) },
3060 { "esp|sp", offsetof(CPUX86State, regs[4]) },
3061 { "ebp|fp", offsetof(CPUX86State, regs[5]) },
3062 { "esi", offsetof(CPUX86State, regs[6]) },
3063 { "edi", offsetof(CPUX86State, regs[7]) },
3064 #ifdef TARGET_X86_64
3065 { "r8", offsetof(CPUX86State, regs[8]) },
3066 { "r9", offsetof(CPUX86State, regs[9]) },
3067 { "r10", offsetof(CPUX86State, regs[10]) },
3068 { "r11", offsetof(CPUX86State, regs[11]) },
3069 { "r12", offsetof(CPUX86State, regs[12]) },
3070 { "r13", offsetof(CPUX86State, regs[13]) },
3071 { "r14", offsetof(CPUX86State, regs[14]) },
3072 { "r15", offsetof(CPUX86State, regs[15]) },
3073 #endif
3074 { "eflags", offsetof(CPUX86State, eflags) },
3075 { "eip", offsetof(CPUX86State, eip) },
3076 SEG("cs", R_CS)
3077 SEG("ds", R_DS)
3078 SEG("es", R_ES)
3079 SEG("ss", R_SS)
3080 SEG("fs", R_FS)
3081 SEG("gs", R_GS)
3082 { "pc", 0, monitor_get_pc, },
3083 #elif defined(TARGET_PPC)
3084 /* General purpose registers */
3085 { "r0", offsetof(CPUPPCState, gpr[0]) },
3086 { "r1", offsetof(CPUPPCState, gpr[1]) },
3087 { "r2", offsetof(CPUPPCState, gpr[2]) },
3088 { "r3", offsetof(CPUPPCState, gpr[3]) },
3089 { "r4", offsetof(CPUPPCState, gpr[4]) },
3090 { "r5", offsetof(CPUPPCState, gpr[5]) },
3091 { "r6", offsetof(CPUPPCState, gpr[6]) },
3092 { "r7", offsetof(CPUPPCState, gpr[7]) },
3093 { "r8", offsetof(CPUPPCState, gpr[8]) },
3094 { "r9", offsetof(CPUPPCState, gpr[9]) },
3095 { "r10", offsetof(CPUPPCState, gpr[10]) },
3096 { "r11", offsetof(CPUPPCState, gpr[11]) },
3097 { "r12", offsetof(CPUPPCState, gpr[12]) },
3098 { "r13", offsetof(CPUPPCState, gpr[13]) },
3099 { "r14", offsetof(CPUPPCState, gpr[14]) },
3100 { "r15", offsetof(CPUPPCState, gpr[15]) },
3101 { "r16", offsetof(CPUPPCState, gpr[16]) },
3102 { "r17", offsetof(CPUPPCState, gpr[17]) },
3103 { "r18", offsetof(CPUPPCState, gpr[18]) },
3104 { "r19", offsetof(CPUPPCState, gpr[19]) },
3105 { "r20", offsetof(CPUPPCState, gpr[20]) },
3106 { "r21", offsetof(CPUPPCState, gpr[21]) },
3107 { "r22", offsetof(CPUPPCState, gpr[22]) },
3108 { "r23", offsetof(CPUPPCState, gpr[23]) },
3109 { "r24", offsetof(CPUPPCState, gpr[24]) },
3110 { "r25", offsetof(CPUPPCState, gpr[25]) },
3111 { "r26", offsetof(CPUPPCState, gpr[26]) },
3112 { "r27", offsetof(CPUPPCState, gpr[27]) },
3113 { "r28", offsetof(CPUPPCState, gpr[28]) },
3114 { "r29", offsetof(CPUPPCState, gpr[29]) },
3115 { "r30", offsetof(CPUPPCState, gpr[30]) },
3116 { "r31", offsetof(CPUPPCState, gpr[31]) },
3117 /* Floating point registers */
3118 { "f0", offsetof(CPUPPCState, fpr[0]) },
3119 { "f1", offsetof(CPUPPCState, fpr[1]) },
3120 { "f2", offsetof(CPUPPCState, fpr[2]) },
3121 { "f3", offsetof(CPUPPCState, fpr[3]) },
3122 { "f4", offsetof(CPUPPCState, fpr[4]) },
3123 { "f5", offsetof(CPUPPCState, fpr[5]) },
3124 { "f6", offsetof(CPUPPCState, fpr[6]) },
3125 { "f7", offsetof(CPUPPCState, fpr[7]) },
3126 { "f8", offsetof(CPUPPCState, fpr[8]) },
3127 { "f9", offsetof(CPUPPCState, fpr[9]) },
3128 { "f10", offsetof(CPUPPCState, fpr[10]) },
3129 { "f11", offsetof(CPUPPCState, fpr[11]) },
3130 { "f12", offsetof(CPUPPCState, fpr[12]) },
3131 { "f13", offsetof(CPUPPCState, fpr[13]) },
3132 { "f14", offsetof(CPUPPCState, fpr[14]) },
3133 { "f15", offsetof(CPUPPCState, fpr[15]) },
3134 { "f16", offsetof(CPUPPCState, fpr[16]) },
3135 { "f17", offsetof(CPUPPCState, fpr[17]) },
3136 { "f18", offsetof(CPUPPCState, fpr[18]) },
3137 { "f19", offsetof(CPUPPCState, fpr[19]) },
3138 { "f20", offsetof(CPUPPCState, fpr[20]) },
3139 { "f21", offsetof(CPUPPCState, fpr[21]) },
3140 { "f22", offsetof(CPUPPCState, fpr[22]) },
3141 { "f23", offsetof(CPUPPCState, fpr[23]) },
3142 { "f24", offsetof(CPUPPCState, fpr[24]) },
3143 { "f25", offsetof(CPUPPCState, fpr[25]) },
3144 { "f26", offsetof(CPUPPCState, fpr[26]) },
3145 { "f27", offsetof(CPUPPCState, fpr[27]) },
3146 { "f28", offsetof(CPUPPCState, fpr[28]) },
3147 { "f29", offsetof(CPUPPCState, fpr[29]) },
3148 { "f30", offsetof(CPUPPCState, fpr[30]) },
3149 { "f31", offsetof(CPUPPCState, fpr[31]) },
3150 { "fpscr", offsetof(CPUPPCState, fpscr) },
3151 /* Next instruction pointer */
3152 { "nip|pc", offsetof(CPUPPCState, nip) },
3153 { "lr", offsetof(CPUPPCState, lr) },
3154 { "ctr", offsetof(CPUPPCState, ctr) },
3155 { "decr", 0, &monitor_get_decr, },
3156 { "ccr", 0, &monitor_get_ccr, },
3157 /* Machine state register */
3158 { "msr", 0, &monitor_get_msr, },
3159 { "xer", 0, &monitor_get_xer, },
3160 { "tbu", 0, &monitor_get_tbu, },
3161 { "tbl", 0, &monitor_get_tbl, },
3162 /* Segment registers */
3163 { "sdr1", offsetof(CPUPPCState, spr[SPR_SDR1]) },
3164 { "sr0", offsetof(CPUPPCState, sr[0]) },
3165 { "sr1", offsetof(CPUPPCState, sr[1]) },
3166 { "sr2", offsetof(CPUPPCState, sr[2]) },
3167 { "sr3", offsetof(CPUPPCState, sr[3]) },
3168 { "sr4", offsetof(CPUPPCState, sr[4]) },
3169 { "sr5", offsetof(CPUPPCState, sr[5]) },
3170 { "sr6", offsetof(CPUPPCState, sr[6]) },
3171 { "sr7", offsetof(CPUPPCState, sr[7]) },
3172 { "sr8", offsetof(CPUPPCState, sr[8]) },
3173 { "sr9", offsetof(CPUPPCState, sr[9]) },
3174 { "sr10", offsetof(CPUPPCState, sr[10]) },
3175 { "sr11", offsetof(CPUPPCState, sr[11]) },
3176 { "sr12", offsetof(CPUPPCState, sr[12]) },
3177 { "sr13", offsetof(CPUPPCState, sr[13]) },
3178 { "sr14", offsetof(CPUPPCState, sr[14]) },
3179 { "sr15", offsetof(CPUPPCState, sr[15]) },
3180 /* Too lazy to put BATs... */
3181 { "pvr", offsetof(CPUPPCState, spr[SPR_PVR]) },
3182
3183 { "srr0", offsetof(CPUPPCState, spr[SPR_SRR0]) },
3184 { "srr1", offsetof(CPUPPCState, spr[SPR_SRR1]) },
3185 { "dar", offsetof(CPUPPCState, spr[SPR_DAR]) },
3186 { "dsisr", offsetof(CPUPPCState, spr[SPR_DSISR]) },
3187 { "cfar", offsetof(CPUPPCState, spr[SPR_CFAR]) },
3188 { "sprg0", offsetof(CPUPPCState, spr[SPR_SPRG0]) },
3189 { "sprg1", offsetof(CPUPPCState, spr[SPR_SPRG1]) },
3190 { "sprg2", offsetof(CPUPPCState, spr[SPR_SPRG2]) },
3191 { "sprg3", offsetof(CPUPPCState, spr[SPR_SPRG3]) },
3192 { "sprg4", offsetof(CPUPPCState, spr[SPR_SPRG4]) },
3193 { "sprg5", offsetof(CPUPPCState, spr[SPR_SPRG5]) },
3194 { "sprg6", offsetof(CPUPPCState, spr[SPR_SPRG6]) },
3195 { "sprg7", offsetof(CPUPPCState, spr[SPR_SPRG7]) },
3196 { "pid", offsetof(CPUPPCState, spr[SPR_BOOKE_PID]) },
3197 { "csrr0", offsetof(CPUPPCState, spr[SPR_BOOKE_CSRR0]) },
3198 { "csrr1", offsetof(CPUPPCState, spr[SPR_BOOKE_CSRR1]) },
3199 { "esr", offsetof(CPUPPCState, spr[SPR_BOOKE_ESR]) },
3200 { "dear", offsetof(CPUPPCState, spr[SPR_BOOKE_DEAR]) },
3201 { "mcsr", offsetof(CPUPPCState, spr[SPR_BOOKE_MCSR]) },
3202 { "tsr", offsetof(CPUPPCState, spr[SPR_BOOKE_TSR]) },
3203 { "tcr", offsetof(CPUPPCState, spr[SPR_BOOKE_TCR]) },
3204 { "vrsave", offsetof(CPUPPCState, spr[SPR_VRSAVE]) },
3205 { "pir", offsetof(CPUPPCState, spr[SPR_BOOKE_PIR]) },
3206 { "mcsrr0", offsetof(CPUPPCState, spr[SPR_BOOKE_MCSRR0]) },
3207 { "mcsrr1", offsetof(CPUPPCState, spr[SPR_BOOKE_MCSRR1]) },
3208 { "decar", offsetof(CPUPPCState, spr[SPR_BOOKE_DECAR]) },
3209 { "ivpr", offsetof(CPUPPCState, spr[SPR_BOOKE_IVPR]) },
3210 { "epcr", offsetof(CPUPPCState, spr[SPR_BOOKE_EPCR]) },
3211 { "sprg8", offsetof(CPUPPCState, spr[SPR_BOOKE_SPRG8]) },
3212 { "ivor0", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR0]) },
3213 { "ivor1", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR1]) },
3214 { "ivor2", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR2]) },
3215 { "ivor3", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR3]) },
3216 { "ivor4", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR4]) },
3217 { "ivor5", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR5]) },
3218 { "ivor6", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR6]) },
3219 { "ivor7", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR7]) },
3220 { "ivor8", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR8]) },
3221 { "ivor9", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR9]) },
3222 { "ivor10", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR10]) },
3223 { "ivor11", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR11]) },
3224 { "ivor12", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR12]) },
3225 { "ivor13", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR13]) },
3226 { "ivor14", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR14]) },
3227 { "ivor15", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR15]) },
3228 { "ivor32", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR32]) },
3229 { "ivor33", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR33]) },
3230 { "ivor34", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR34]) },
3231 { "ivor35", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR35]) },
3232 { "ivor36", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR36]) },
3233 { "ivor37", offsetof(CPUPPCState, spr[SPR_BOOKE_IVOR37]) },
3234 { "mas0", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS0]) },
3235 { "mas1", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS1]) },
3236 { "mas2", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS2]) },
3237 { "mas3", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS3]) },
3238 { "mas4", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS4]) },
3239 { "mas6", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS6]) },
3240 { "mas7", offsetof(CPUPPCState, spr[SPR_BOOKE_MAS7]) },
3241 { "mmucfg", offsetof(CPUPPCState, spr[SPR_MMUCFG]) },
3242 { "tlb0cfg", offsetof(CPUPPCState, spr[SPR_BOOKE_TLB0CFG]) },
3243 { "tlb1cfg", offsetof(CPUPPCState, spr[SPR_BOOKE_TLB1CFG]) },
3244 { "epr", offsetof(CPUPPCState, spr[SPR_BOOKE_EPR]) },
3245 { "eplc", offsetof(CPUPPCState, spr[SPR_BOOKE_EPLC]) },
3246 { "epsc", offsetof(CPUPPCState, spr[SPR_BOOKE_EPSC]) },
3247 { "svr", offsetof(CPUPPCState, spr[SPR_E500_SVR]) },
3248 { "mcar", offsetof(CPUPPCState, spr[SPR_Exxx_MCAR]) },
3249 { "pid1", offsetof(CPUPPCState, spr[SPR_BOOKE_PID1]) },
3250 { "pid2", offsetof(CPUPPCState, spr[SPR_BOOKE_PID2]) },
3251 { "hid0", offsetof(CPUPPCState, spr[SPR_HID0]) },
3252
3253 #elif defined(TARGET_SPARC)
3254 { "g0", offsetof(CPUSPARCState, gregs[0]) },
3255 { "g1", offsetof(CPUSPARCState, gregs[1]) },
3256 { "g2", offsetof(CPUSPARCState, gregs[2]) },
3257 { "g3", offsetof(CPUSPARCState, gregs[3]) },
3258 { "g4", offsetof(CPUSPARCState, gregs[4]) },
3259 { "g5", offsetof(CPUSPARCState, gregs[5]) },
3260 { "g6", offsetof(CPUSPARCState, gregs[6]) },
3261 { "g7", offsetof(CPUSPARCState, gregs[7]) },
3262 { "o0", 0, monitor_get_reg },
3263 { "o1", 1, monitor_get_reg },
3264 { "o2", 2, monitor_get_reg },
3265 { "o3", 3, monitor_get_reg },
3266 { "o4", 4, monitor_get_reg },
3267 { "o5", 5, monitor_get_reg },
3268 { "o6", 6, monitor_get_reg },
3269 { "o7", 7, monitor_get_reg },
3270 { "l0", 8, monitor_get_reg },
3271 { "l1", 9, monitor_get_reg },
3272 { "l2", 10, monitor_get_reg },
3273 { "l3", 11, monitor_get_reg },
3274 { "l4", 12, monitor_get_reg },
3275 { "l5", 13, monitor_get_reg },
3276 { "l6", 14, monitor_get_reg },
3277 { "l7", 15, monitor_get_reg },
3278 { "i0", 16, monitor_get_reg },
3279 { "i1", 17, monitor_get_reg },
3280 { "i2", 18, monitor_get_reg },
3281 { "i3", 19, monitor_get_reg },
3282 { "i4", 20, monitor_get_reg },
3283 { "i5", 21, monitor_get_reg },
3284 { "i6", 22, monitor_get_reg },
3285 { "i7", 23, monitor_get_reg },
3286 { "pc", offsetof(CPUSPARCState, pc) },
3287 { "npc", offsetof(CPUSPARCState, npc) },
3288 { "y", offsetof(CPUSPARCState, y) },
3289 #ifndef TARGET_SPARC64
3290 { "psr", 0, &monitor_get_psr, },
3291 { "wim", offsetof(CPUSPARCState, wim) },
3292 #endif
3293 { "tbr", offsetof(CPUSPARCState, tbr) },
3294 { "fsr", offsetof(CPUSPARCState, fsr) },
3295 { "f0", offsetof(CPUSPARCState, fpr[0].l.upper) },
3296 { "f1", offsetof(CPUSPARCState, fpr[0].l.lower) },
3297 { "f2", offsetof(CPUSPARCState, fpr[1].l.upper) },
3298 { "f3", offsetof(CPUSPARCState, fpr[1].l.lower) },
3299 { "f4", offsetof(CPUSPARCState, fpr[2].l.upper) },
3300 { "f5", offsetof(CPUSPARCState, fpr[2].l.lower) },
3301 { "f6", offsetof(CPUSPARCState, fpr[3].l.upper) },
3302 { "f7", offsetof(CPUSPARCState, fpr[3].l.lower) },
3303 { "f8", offsetof(CPUSPARCState, fpr[4].l.upper) },
3304 { "f9", offsetof(CPUSPARCState, fpr[4].l.lower) },
3305 { "f10", offsetof(CPUSPARCState, fpr[5].l.upper) },
3306 { "f11", offsetof(CPUSPARCState, fpr[5].l.lower) },
3307 { "f12", offsetof(CPUSPARCState, fpr[6].l.upper) },
3308 { "f13", offsetof(CPUSPARCState, fpr[6].l.lower) },
3309 { "f14", offsetof(CPUSPARCState, fpr[7].l.upper) },
3310 { "f15", offsetof(CPUSPARCState, fpr[7].l.lower) },
3311 { "f16", offsetof(CPUSPARCState, fpr[8].l.upper) },
3312 { "f17", offsetof(CPUSPARCState, fpr[8].l.lower) },
3313 { "f18", offsetof(CPUSPARCState, fpr[9].l.upper) },
3314 { "f19", offsetof(CPUSPARCState, fpr[9].l.lower) },
3315 { "f20", offsetof(CPUSPARCState, fpr[10].l.upper) },
3316 { "f21", offsetof(CPUSPARCState, fpr[10].l.lower) },
3317 { "f22", offsetof(CPUSPARCState, fpr[11].l.upper) },
3318 { "f23", offsetof(CPUSPARCState, fpr[11].l.lower) },
3319 { "f24", offsetof(CPUSPARCState, fpr[12].l.upper) },
3320 { "f25", offsetof(CPUSPARCState, fpr[12].l.lower) },
3321 { "f26", offsetof(CPUSPARCState, fpr[13].l.upper) },
3322 { "f27", offsetof(CPUSPARCState, fpr[13].l.lower) },
3323 { "f28", offsetof(CPUSPARCState, fpr[14].l.upper) },
3324 { "f29", offsetof(CPUSPARCState, fpr[14].l.lower) },
3325 { "f30", offsetof(CPUSPARCState, fpr[15].l.upper) },
3326 { "f31", offsetof(CPUSPARCState, fpr[15].l.lower) },
3327 #ifdef TARGET_SPARC64
3328 { "f32", offsetof(CPUSPARCState, fpr[16]) },
3329 { "f34", offsetof(CPUSPARCState, fpr[17]) },
3330 { "f36", offsetof(CPUSPARCState, fpr[18]) },
3331 { "f38", offsetof(CPUSPARCState, fpr[19]) },
3332 { "f40", offsetof(CPUSPARCState, fpr[20]) },
3333 { "f42", offsetof(CPUSPARCState, fpr[21]) },
3334 { "f44", offsetof(CPUSPARCState, fpr[22]) },
3335 { "f46", offsetof(CPUSPARCState, fpr[23]) },
3336 { "f48", offsetof(CPUSPARCState, fpr[24]) },
3337 { "f50", offsetof(CPUSPARCState, fpr[25]) },
3338 { "f52", offsetof(CPUSPARCState, fpr[26]) },
3339 { "f54", offsetof(CPUSPARCState, fpr[27]) },
3340 { "f56", offsetof(CPUSPARCState, fpr[28]) },
3341 { "f58", offsetof(CPUSPARCState, fpr[29]) },
3342 { "f60", offsetof(CPUSPARCState, fpr[30]) },
3343 { "f62", offsetof(CPUSPARCState, fpr[31]) },
3344 { "asi", offsetof(CPUSPARCState, asi) },
3345 { "pstate", offsetof(CPUSPARCState, pstate) },
3346 { "cansave", offsetof(CPUSPARCState, cansave) },
3347 { "canrestore", offsetof(CPUSPARCState, canrestore) },
3348 { "otherwin", offsetof(CPUSPARCState, otherwin) },
3349 { "wstate", offsetof(CPUSPARCState, wstate) },
3350 { "cleanwin", offsetof(CPUSPARCState, cleanwin) },
3351 { "fprs", offsetof(CPUSPARCState, fprs) },
3352 #endif
3353 #endif
3354 { NULL },
3355 };
3356
3357 static void GCC_FMT_ATTR(2, 3) QEMU_NORETURN
3358 expr_error(Monitor *mon, const char *fmt, ...)
3359 {
3360 va_list ap;
3361 va_start(ap, fmt);
3362 monitor_vprintf(mon, fmt, ap);
3363 monitor_printf(mon, "\n");
3364 va_end(ap);
3365 siglongjmp(expr_env, 1);
3366 }
3367
3368 /* return 0 if OK, -1 if not found */
3369 static int get_monitor_def(target_long *pval, const char *name)
3370 {
3371 const MonitorDef *md;
3372 void *ptr;
3373
3374 for(md = monitor_defs; md->name != NULL; md++) {
3375 if (compare_cmd(name, md->name)) {
3376 if (md->get_value) {
3377 *pval = md->get_value(md, md->offset);
3378 } else {
3379 CPUArchState *env = mon_get_cpu();
3380 ptr = (uint8_t *)env + md->offset;
3381 switch(md->type) {
3382 case MD_I32:
3383 *pval = *(int32_t *)ptr;
3384 break;
3385 case MD_TLONG:
3386 *pval = *(target_long *)ptr;
3387 break;
3388 default:
3389 *pval = 0;
3390 break;
3391 }
3392 }
3393 return 0;
3394 }
3395 }
3396 return -1;
3397 }
3398
3399 static void next(void)
3400 {
3401 if (*pch != '\0') {
3402 pch++;
3403 while (qemu_isspace(*pch))
3404 pch++;
3405 }
3406 }
3407
3408 static int64_t expr_sum(Monitor *mon);
3409
3410 static int64_t expr_unary(Monitor *mon)
3411 {
3412 int64_t n;
3413 char *p;
3414 int ret;
3415
3416 switch(*pch) {
3417 case '+':
3418 next();
3419 n = expr_unary(mon);
3420 break;
3421 case '-':
3422 next();
3423 n = -expr_unary(mon);
3424 break;
3425 case '~':
3426 next();
3427 n = ~expr_unary(mon);
3428 break;
3429 case '(':
3430 next();
3431 n = expr_sum(mon);
3432 if (*pch != ')') {
3433 expr_error(mon, "')' expected");
3434 }
3435 next();
3436 break;
3437 case '\'':
3438 pch++;
3439 if (*pch == '\0')
3440 expr_error(mon, "character constant expected");
3441 n = *pch;
3442 pch++;
3443 if (*pch != '\'')
3444 expr_error(mon, "missing terminating \' character");
3445 next();
3446 break;
3447 case '$':
3448 {
3449 char buf[128], *q;
3450 target_long reg=0;
3451
3452 pch++;
3453 q = buf;
3454 while ((*pch >= 'a' && *pch <= 'z') ||
3455 (*pch >= 'A' && *pch <= 'Z') ||
3456 (*pch >= '0' && *pch <= '9') ||
3457 *pch == '_' || *pch == '.') {
3458 if ((q - buf) < sizeof(buf) - 1)
3459 *q++ = *pch;
3460 pch++;
3461 }
3462 while (qemu_isspace(*pch))
3463 pch++;
3464 *q = 0;
3465 ret = get_monitor_def(&reg, buf);
3466 if (ret < 0)
3467 expr_error(mon, "unknown register");
3468 n = reg;
3469 }
3470 break;
3471 case '\0':
3472 expr_error(mon, "unexpected end of expression");
3473 n = 0;
3474 break;
3475 default:
3476 errno = 0;
3477 n = strtoull(pch, &p, 0);
3478 if (errno == ERANGE) {
3479 expr_error(mon, "number too large");
3480 }
3481 if (pch == p) {
3482 expr_error(mon, "invalid char '%c' in expression", *p);
3483 }
3484 pch = p;
3485 while (qemu_isspace(*pch))
3486 pch++;
3487 break;
3488 }
3489 return n;
3490 }
3491
3492
3493 static int64_t expr_prod(Monitor *mon)
3494 {
3495 int64_t val, val2;
3496 int op;
3497
3498 val = expr_unary(mon);
3499 for(;;) {
3500 op = *pch;
3501 if (op != '*' && op != '/' && op != '%')
3502 break;
3503 next();
3504 val2 = expr_unary(mon);
3505 switch(op) {
3506 default:
3507 case '*':
3508 val *= val2;
3509 break;
3510 case '/':
3511 case '%':
3512 if (val2 == 0)
3513 expr_error(mon, "division by zero");
3514 if (op == '/')
3515 val /= val2;
3516 else
3517 val %= val2;
3518 break;
3519 }
3520 }
3521 return val;
3522 }
3523
3524 static int64_t expr_logic(Monitor *mon)
3525 {
3526 int64_t val, val2;
3527 int op;
3528
3529 val = expr_prod(mon);
3530 for(;;) {
3531 op = *pch;
3532 if (op != '&' && op != '|' && op != '^')
3533 break;
3534 next();
3535 val2 = expr_prod(mon);
3536 switch(op) {
3537 default:
3538 case '&':
3539 val &= val2;
3540 break;
3541 case '|':
3542 val |= val2;
3543 break;
3544 case '^':
3545 val ^= val2;
3546 break;
3547 }
3548 }
3549 return val;
3550 }
3551
3552 static int64_t expr_sum(Monitor *mon)
3553 {
3554 int64_t val, val2;
3555 int op;
3556
3557 val = expr_logic(mon);
3558 for(;;) {
3559 op = *pch;
3560 if (op != '+' && op != '-')
3561 break;
3562 next();
3563 val2 = expr_logic(mon);
3564 if (op == '+')
3565 val += val2;
3566 else
3567 val -= val2;
3568 }
3569 return val;
3570 }
3571
3572 static int get_expr(Monitor *mon, int64_t *pval, const char **pp)
3573 {
3574 pch = *pp;
3575 if (sigsetjmp(expr_env, 0)) {
3576 *pp = pch;
3577 return -1;
3578 }
3579 while (qemu_isspace(*pch))
3580 pch++;
3581 *pval = expr_sum(mon);
3582 *pp = pch;
3583 return 0;
3584 }
3585
3586 static int get_double(Monitor *mon, double *pval, const char **pp)
3587 {
3588 const char *p = *pp;
3589 char *tailp;
3590 double d;
3591
3592 d = strtod(p, &tailp);
3593 if (tailp == p) {
3594 monitor_printf(mon, "Number expected\n");
3595 return -1;
3596 }
3597 if (d != d || d - d != 0) {
3598 /* NaN or infinity */
3599 monitor_printf(mon, "Bad number\n");
3600 return -1;
3601 }
3602 *pval = d;
3603 *pp = tailp;
3604 return 0;
3605 }
3606
3607 /*
3608 * Store the command-name in cmdname, and return a pointer to
3609 * the remaining of the command string.
3610 */
3611 static const char *get_command_name(const char *cmdline,
3612 char *cmdname, size_t nlen)
3613 {
3614 size_t len;
3615 const char *p, *pstart;
3616
3617 p = cmdline;
3618 while (qemu_isspace(*p))
3619 p++;
3620 if (*p == '\0')
3621 return NULL;
3622 pstart = p;
3623 while (*p != '\0' && *p != '/' && !qemu_isspace(*p))
3624 p++;
3625 len = p - pstart;
3626 if (len > nlen - 1)
3627 len = nlen - 1;
3628 memcpy(cmdname, pstart, len);
3629 cmdname[len] = '\0';
3630 return p;
3631 }
3632
3633 /**
3634 * Read key of 'type' into 'key' and return the current
3635 * 'type' pointer.
3636 */
3637 static char *key_get_info(const char *type, char **key)
3638 {
3639 size_t len;
3640 char *p, *str;
3641
3642 if (*type == ',')
3643 type++;
3644
3645 p = strchr(type, ':');
3646 if (!p) {
3647 *key = NULL;
3648 return NULL;
3649 }
3650 len = p - type;
3651
3652 str = g_malloc(len + 1);
3653 memcpy(str, type, len);
3654 str[len] = '\0';
3655
3656 *key = str;
3657 return ++p;
3658 }
3659
3660 static int default_fmt_format = 'x';
3661 static int default_fmt_size = 4;
3662
3663 static int is_valid_option(const char *c, const char *typestr)
3664 {
3665 char option[3];
3666
3667 option[0] = '-';
3668 option[1] = *c;
3669 option[2] = '\0';
3670
3671 typestr = strstr(typestr, option);
3672 return (typestr != NULL);
3673 }
3674
3675 static const mon_cmd_t *search_dispatch_table(const mon_cmd_t *disp_table,
3676 const char *cmdname)
3677 {
3678 const mon_cmd_t *cmd;
3679
3680 for (cmd = disp_table; cmd->name != NULL; cmd++) {
3681 if (compare_cmd(cmdname, cmd->name)) {
3682 return cmd;
3683 }
3684 }
3685
3686 return NULL;
3687 }
3688
3689 static const mon_cmd_t *qmp_find_cmd(const char *cmdname)
3690 {
3691 return search_dispatch_table(qmp_cmds, cmdname);
3692 }
3693
3694 /*
3695 * Parse @cmdline according to command table @table.
3696 * If @cmdline is blank, return NULL.
3697 * If it can't be parsed, report to @mon, and return NULL.
3698 * Else, insert command arguments into @qdict, and return the command.
3699 * If a sub-command table exists, and if @cmdline contains an additional string
3700 * for a sub-command, this function will try to search the sub-command table.
3701 * If no additional string for a sub-command is present, this function will
3702 * return the command found in @table.
3703 * Do not assume the returned command points into @table! It doesn't
3704 * when the command is a sub-command.
3705 */
3706 static const mon_cmd_t *monitor_parse_command(Monitor *mon,
3707 const char *cmdline,
3708 int start,
3709 mon_cmd_t *table,
3710 QDict *qdict)
3711 {
3712 const char *p, *typestr;
3713 int c;
3714 const mon_cmd_t *cmd;
3715 char cmdname[256];
3716 char buf[1024];
3717 char *key;
3718
3719 #ifdef DEBUG
3720 monitor_printf(mon, "command='%s', start='%d'\n", cmdline, start);
3721 #endif
3722
3723 /* extract the command name */
3724 p = get_command_name(cmdline + start, cmdname, sizeof(cmdname));
3725 if (!p)
3726 return NULL;
3727
3728 cmd = search_dispatch_table(table, cmdname);
3729 if (!cmd) {
3730 monitor_printf(mon, "unknown command: '%.*s'\n",
3731 (int)(p - cmdline), cmdline);
3732 return NULL;
3733 }
3734
3735 /* filter out following useless space */
3736 while (qemu_isspace(*p)) {
3737 p++;
3738 }
3739 /* search sub command */
3740 if (cmd->sub_table != NULL) {
3741 /* check if user set additional command */
3742 if (*p == '\0') {
3743 return cmd;
3744 }
3745 return monitor_parse_command(mon, cmdline, p - cmdline,
3746 cmd->sub_table, qdict);
3747 }
3748
3749 /* parse the parameters */
3750 typestr = cmd->args_type;
3751 for(;;) {
3752 typestr = key_get_info(typestr, &key);
3753 if (!typestr)
3754 break;
3755 c = *typestr;
3756 typestr++;
3757 switch(c) {
3758 case 'F':
3759 case 'B':
3760 case 's':
3761 {
3762 int ret;
3763
3764 while (qemu_isspace(*p))
3765 p++;
3766 if (*typestr == '?') {
3767 typestr++;
3768 if (*p == '\0') {
3769 /* no optional string: NULL argument */
3770 break;
3771 }
3772 }
3773 ret = get_str(buf, sizeof(buf), &p);
3774 if (ret < 0) {
3775 switch(c) {
3776 case 'F':
3777 monitor_printf(mon, "%s: filename expected\n",
3778 cmdname);
3779 break;
3780 case 'B':
3781 monitor_printf(mon, "%s: block device name expected\n",
3782 cmdname);
3783 break;
3784 default:
3785 monitor_printf(mon, "%s: string expected\n", cmdname);
3786 break;
3787 }
3788 goto fail;
3789 }
3790 qdict_put(qdict, key, qstring_from_str(buf));
3791 }
3792 break;
3793 case 'O':
3794 {
3795 QemuOptsList *opts_list;
3796 QemuOpts *opts;
3797
3798 opts_list = qemu_find_opts(key);
3799 if (!opts_list || opts_list->desc->name) {
3800 goto bad_type;
3801 }
3802 while (qemu_isspace(*p)) {
3803 p++;
3804 }
3805 if (!*p)
3806 break;
3807 if (get_str(buf, sizeof(buf), &p) < 0) {
3808 goto fail;
3809 }
3810 opts = qemu_opts_parse(opts_list, buf, 1);
3811 if (!opts) {
3812 goto fail;
3813 }
3814 qemu_opts_to_qdict(opts, qdict);
3815 qemu_opts_del(opts);
3816 }
3817 break;
3818 case '/':
3819 {
3820 int count, format, size;
3821
3822 while (qemu_isspace(*p))
3823 p++;
3824 if (*p == '/') {
3825 /* format found */
3826 p++;
3827 count = 1;
3828 if (qemu_isdigit(*p)) {
3829 count = 0;
3830 while (qemu_isdigit(*p)) {
3831 count = count * 10 + (*p - '0');
3832 p++;
3833 }
3834 }
3835 size = -1;
3836 format = -1;
3837 for(;;) {
3838 switch(*p) {
3839 case 'o':
3840 case 'd':
3841 case 'u':
3842 case 'x':
3843 case 'i':
3844 case 'c':
3845 format = *p++;
3846 break;
3847 case 'b':
3848 size = 1;
3849 p++;
3850 break;
3851 case 'h':
3852 size = 2;
3853 p++;
3854 break;
3855 case 'w':
3856 size = 4;
3857 p++;
3858 break;
3859 case 'g':
3860 case 'L':
3861 size = 8;
3862 p++;
3863 break;
3864 default:
3865 goto next;
3866 }
3867 }
3868 next:
3869 if (*p != '\0' && !qemu_isspace(*p)) {
3870 monitor_printf(mon, "invalid char in format: '%c'\n",
3871 *p);
3872 goto fail;
3873 }
3874 if (format < 0)
3875 format = default_fmt_format;
3876 if (format != 'i') {
3877 /* for 'i', not specifying a size gives -1 as size */
3878 if (size < 0)
3879 size = default_fmt_size;
3880 default_fmt_size = size;
3881 }
3882 default_fmt_format = format;
3883 } else {
3884 count = 1;
3885 format = default_fmt_format;
3886 if (format != 'i') {
3887 size = default_fmt_size;
3888 } else {
3889 size = -1;
3890 }
3891 }
3892 qdict_put(qdict, "count", qint_from_int(count));
3893 qdict_put(qdict, "format", qint_from_int(format));
3894 qdict_put(qdict, "size", qint_from_int(size));
3895 }
3896 break;
3897 case 'i':
3898 case 'l':
3899 case 'M':
3900 {
3901 int64_t val;
3902
3903 while (qemu_isspace(*p))
3904 p++;
3905 if (*typestr == '?' || *typestr == '.') {
3906 if (*typestr == '?') {
3907 if (*p == '\0') {
3908 typestr++;
3909 break;
3910 }
3911 } else {
3912 if (*p == '.') {
3913 p++;
3914 while (qemu_isspace(*p))
3915 p++;
3916 } else {
3917 typestr++;
3918 break;
3919 }
3920 }
3921 typestr++;
3922 }
3923 if (get_expr(mon, &val, &p))
3924 goto fail;
3925 /* Check if 'i' is greater than 32-bit */
3926 if ((c == 'i') && ((val >> 32) & 0xffffffff)) {
3927 monitor_printf(mon, "\'%s\' has failed: ", cmdname);
3928 monitor_printf(mon, "integer is for 32-bit values\n");
3929 goto fail;
3930 } else if (c == 'M') {
3931 if (val < 0) {
3932 monitor_printf(mon, "enter a positive value\n");
3933 goto fail;
3934 }
3935 val <<= 20;
3936 }
3937 qdict_put(qdict, key, qint_from_int(val));
3938 }
3939 break;
3940 case 'o':
3941 {
3942 int64_t val;
3943 char *end;
3944
3945 while (qemu_isspace(*p)) {
3946 p++;
3947 }
3948 if (*typestr == '?') {
3949 typestr++;
3950 if (*p == '\0') {
3951 break;
3952 }
3953 }
3954 val = strtosz(p, &end);
3955 if (val < 0) {
3956 monitor_printf(mon, "invalid size\n");
3957 goto fail;
3958 }
3959 qdict_put(qdict, key, qint_from_int(val));
3960 p = end;
3961 }
3962 break;
3963 case 'T':
3964 {
3965 double val;
3966
3967 while (qemu_isspace(*p))
3968 p++;
3969 if (*typestr == '?') {
3970 typestr++;
3971 if (*p == '\0') {
3972 break;
3973 }
3974 }
3975 if (get_double(mon, &val, &p) < 0) {
3976 goto fail;
3977 }
3978 if (p[0] && p[1] == 's') {
3979 switch (*p) {
3980 case 'm':
3981 val /= 1e3; p += 2; break;
3982 case 'u':
3983 val /= 1e6; p += 2; break;
3984 case 'n':
3985 val /= 1e9; p += 2; break;
3986 }
3987 }
3988 if (*p && !qemu_isspace(*p)) {
3989 monitor_printf(mon, "Unknown unit suffix\n");
3990 goto fail;
3991 }
3992 qdict_put(qdict, key, qfloat_from_double(val));
3993 }
3994 break;
3995 case 'b':
3996 {
3997 const char *beg;
3998 int val;
3999
4000 while (qemu_isspace(*p)) {
4001 p++;
4002 }
4003 beg = p;
4004 while (qemu_isgraph(*p)) {
4005 p++;
4006 }
4007 if (p - beg == 2 && !memcmp(beg, "on", p - beg)) {
4008 val = 1;
4009 } else if (p - beg == 3 && !memcmp(beg, "off", p - beg)) {
4010 val = 0;
4011 } else {
4012 monitor_printf(mon, "Expected 'on' or 'off'\n");
4013 goto fail;
4014 }
4015 qdict_put(qdict, key, qbool_from_int(val));
4016 }
4017 break;
4018 case '-':
4019 {
4020 const char *tmp = p;
4021 int skip_key = 0;
4022 /* option */
4023
4024 c = *typestr++;
4025 if (c == '\0')
4026 goto bad_type;
4027 while (qemu_isspace(*p))
4028 p++;
4029 if (*p == '-') {
4030 p++;
4031 if(c != *p) {
4032 if(!is_valid_option(p, typestr)) {
4033
4034 monitor_printf(mon, "%s: unsupported option -%c\n",
4035 cmdname, *p);
4036 goto fail;
4037 } else {
4038 skip_key = 1;
4039 }
4040 }
4041 if(skip_key) {
4042 p = tmp;
4043 } else {
4044 /* has option */
4045 p++;
4046 qdict_put(qdict, key, qbool_from_int(1));
4047 }
4048 }
4049 }
4050 break;
4051 case 'S':
4052 {
4053 /* package all remaining string */
4054 int len;
4055
4056 while (qemu_isspace(*p)) {
4057 p++;
4058 }
4059 if (*typestr == '?') {
4060 typestr++;
4061 if (*p == '\0') {
4062 /* no remaining string: NULL argument */
4063 break;
4064 }
4065 }
4066 len = strlen(p);
4067 if (len <= 0) {
4068 monitor_printf(mon, "%s: string expected\n",
4069 cmdname);
4070 break;
4071 }
4072 qdict_put(qdict, key, qstring_from_str(p));
4073 p += len;
4074 }
4075 break;
4076 default:
4077 bad_type:
4078 monitor_printf(mon, "%s: unknown type '%c'\n", cmdname, c);
4079 goto fail;
4080 }
4081 g_free(key);
4082 key = NULL;
4083 }
4084 /* check that all arguments were parsed */
4085 while (qemu_isspace(*p))
4086 p++;
4087 if (*p != '\0') {
4088 monitor_printf(mon, "%s: extraneous characters at the end of line\n",
4089 cmdname);
4090 goto fail;
4091 }
4092
4093 return cmd;
4094
4095 fail:
4096 g_free(key);
4097 return NULL;
4098 }
4099
4100 void monitor_set_error(Monitor *mon, QError *qerror)
4101 {
4102 /* report only the first error */
4103 if (!mon->error) {
4104 mon->error = qerror;
4105 } else {
4106 QDECREF(qerror);
4107 }
4108 }
4109
4110 static void handler_audit(Monitor *mon, const mon_cmd_t *cmd, int ret)
4111 {
4112 if (ret && !monitor_has_error(mon)) {
4113 /*
4114 * If it returns failure, it must have passed on error.
4115 *
4116 * Action: Report an internal error to the client if in QMP.
4117 */
4118 qerror_report(QERR_UNDEFINED_ERROR);
4119 }
4120 }
4121
4122 static void handle_user_command(Monitor *mon, const char *cmdline)
4123 {
4124 QDict *qdict;
4125 const mon_cmd_t *cmd;
4126
4127 qdict = qdict_new();
4128
4129 cmd = monitor_parse_command(mon, cmdline, 0, mon->cmd_table, qdict);
4130 if (!cmd)
4131 goto out;
4132
4133 if (handler_is_async(cmd)) {
4134 user_async_cmd_handler(mon, cmd, qdict);
4135 } else if (handler_is_qobject(cmd)) {
4136 QObject *data = NULL;
4137
4138 /* XXX: ignores the error code */
4139 cmd->mhandler.cmd_new(mon, qdict, &data);
4140 assert(!monitor_has_error(mon));
4141 if (data) {
4142 cmd->user_print(mon, data);
4143 qobject_decref(data);
4144 }
4145 } else {
4146 cmd->mhandler.cmd(mon, qdict);
4147 }
4148
4149 out:
4150 QDECREF(qdict);
4151 }
4152
4153 static void cmd_completion(Monitor *mon, const char *name, const char *list)
4154 {
4155 const char *p, *pstart;
4156 char cmd[128];
4157 int len;
4158
4159 p = list;
4160 for(;;) {
4161 pstart = p;
4162 p = strchr(p, '|');
4163 if (!p)
4164 p = pstart + strlen(pstart);
4165 len = p - pstart;
4166 if (len > sizeof(cmd) - 2)
4167 len = sizeof(cmd) - 2;
4168 memcpy(cmd, pstart, len);
4169 cmd[len] = '\0';
4170 if (name[0] == '\0' || !strncmp(name, cmd, strlen(name))) {
4171 readline_add_completion(mon->rs, cmd);
4172 }
4173 if (*p == '\0')
4174 break;
4175 p++;
4176 }
4177 }
4178
4179 static void file_completion(Monitor *mon, const char *input)
4180 {
4181 DIR *ffs;
4182 struct dirent *d;
4183 char path[1024];
4184 char file[1024], file_prefix[1024];
4185 int input_path_len;
4186 const char *p;
4187
4188 p = strrchr(input, '/');
4189 if (!p) {
4190 input_path_len = 0;
4191 pstrcpy(file_prefix, sizeof(file_prefix), input);
4192 pstrcpy(path, sizeof(path), ".");
4193 } else {
4194 input_path_len = p - input + 1;
4195 memcpy(path, input, input_path_len);
4196 if (input_path_len > sizeof(path) - 1)
4197 input_path_len = sizeof(path) - 1;
4198 path[input_path_len] = '\0';
4199 pstrcpy(file_prefix, sizeof(file_prefix), p + 1);
4200 }
4201 #ifdef DEBUG_COMPLETION
4202 monitor_printf(mon, "input='%s' path='%s' prefix='%s'\n",
4203 input, path, file_prefix);
4204 #endif
4205 ffs = opendir(path);
4206 if (!ffs)
4207 return;
4208 for(;;) {
4209 struct stat sb;
4210 d = readdir(ffs);
4211 if (!d)
4212 break;
4213
4214 if (strcmp(d->d_name, ".") == 0 || strcmp(d->d_name, "..") == 0) {
4215 continue;
4216 }
4217
4218 if (strstart(d->d_name, file_prefix, NULL)) {
4219 memcpy(file, input, input_path_len);
4220 if (input_path_len < sizeof(file))
4221 pstrcpy(file + input_path_len, sizeof(file) - input_path_len,
4222 d->d_name);
4223 /* stat the file to find out if it's a directory.
4224 * In that case add a slash to speed up typing long paths
4225 */
4226 if (stat(file, &sb) == 0 && S_ISDIR(sb.st_mode)) {
4227 pstrcat(file, sizeof(file), "/");
4228 }
4229 readline_add_completion(mon->rs, file);
4230 }
4231 }
4232 closedir(ffs);
4233 }
4234
4235 typedef struct MonitorBlockComplete {
4236 Monitor *mon;
4237 const char *input;
4238 } MonitorBlockComplete;
4239
4240 static void block_completion_it(void *opaque, BlockDriverState *bs)
4241 {
4242 const char *name = bdrv_get_device_name(bs);
4243 MonitorBlockComplete *mbc = opaque;
4244 Monitor *mon = mbc->mon;
4245 const char *input = mbc->input;
4246
4247 if (input[0] == '\0' ||
4248 !strncmp(name, (char *)input, strlen(input))) {
4249 readline_add_completion(mon->rs, name);
4250 }
4251 }
4252
4253 static const char *next_arg_type(const char *typestr)
4254 {
4255 const char *p = strchr(typestr, ':');
4256 return (p != NULL ? ++p : typestr);
4257 }
4258
4259 static void device_add_completion(ReadLineState *rs, const char *str)
4260 {
4261 GSList *list, *elt;
4262 size_t len;
4263
4264 len = strlen(str);
4265 readline_set_completion_index(rs, len);
4266 list = elt = object_class_get_list(TYPE_DEVICE, false);
4267 while (elt) {
4268 const char *name;
4269 DeviceClass *dc = OBJECT_CLASS_CHECK(DeviceClass, elt->data,
4270 TYPE_DEVICE);
4271 name = object_class_get_name(OBJECT_CLASS(dc));
4272 if (!strncmp(name, str, len)) {
4273 readline_add_completion(rs, name);
4274 }
4275 elt = elt->next;
4276 }
4277 g_slist_free(list);
4278 }
4279
4280 static void object_add_completion(ReadLineState *rs, const char *str)
4281 {
4282 GSList *list, *elt;
4283 size_t len;
4284
4285 len = strlen(str);
4286 readline_set_completion_index(rs, len);
4287 list = elt = object_class_get_list(TYPE_USER_CREATABLE, false);
4288 while (elt) {
4289 const char *name;
4290
4291 name = object_class_get_name(OBJECT_CLASS(elt->data));
4292 if (!strncmp(name, str, len) && strcmp(name, TYPE_USER_CREATABLE)) {
4293 readline_add_completion(rs, name);
4294 }
4295 elt = elt->next;
4296 }
4297 g_slist_free(list);
4298 }
4299
4300 static void device_del_completion(ReadLineState *rs, BusState *bus,
4301 const char *str, size_t len)
4302 {
4303 BusChild *kid;
4304
4305 QTAILQ_FOREACH(kid, &bus->children, sibling) {
4306 DeviceState *dev = kid->child;
4307 BusState *dev_child;
4308
4309 if (dev->id && !strncmp(str, dev->id, len)) {
4310 readline_add_completion(rs, dev->id);
4311 }
4312
4313 QLIST_FOREACH(dev_child, &dev->child_bus, sibling) {
4314 device_del_completion(rs, dev_child, str, len);
4315 }
4316 }
4317 }
4318
4319 static void object_del_completion(ReadLineState *rs, const char *str)
4320 {
4321 ObjectPropertyInfoList *list, *start;
4322 size_t len;
4323
4324 len = strlen(str);
4325 readline_set_completion_index(rs, len);
4326
4327 start = list = qmp_qom_list("/objects", NULL);
4328 while (list) {
4329 ObjectPropertyInfo *info = list->value;
4330
4331 if (!strncmp(info->type, "child<", 5)
4332 && !strncmp(info->name, str, len)) {
4333 readline_add_completion(rs, info->name);
4334 }
4335 list = list->next;
4336 }
4337 qapi_free_ObjectPropertyInfoList(start);
4338 }
4339
4340 static void monitor_find_completion_by_table(Monitor *mon,
4341 const mon_cmd_t *cmd_table,
4342 char **args,
4343 int nb_args)
4344 {
4345 const char *cmdname;
4346 int i;
4347 const char *ptype, *str;
4348 const mon_cmd_t *cmd;
4349 MonitorBlockComplete mbs;
4350
4351 if (nb_args <= 1) {
4352 /* command completion */
4353 if (nb_args == 0)
4354 cmdname = "";
4355 else
4356 cmdname = args[0];
4357 readline_set_completion_index(mon->rs, strlen(cmdname));
4358 for (cmd = cmd_table; cmd->name != NULL; cmd++) {
4359 cmd_completion(mon, cmdname, cmd->name);
4360 }
4361 } else {
4362 /* find the command */
4363 for (cmd = cmd_table; cmd->name != NULL; cmd++) {
4364 if (compare_cmd(args[0], cmd->name)) {
4365 break;
4366 }
4367 }
4368 if (!cmd->name) {
4369 return;
4370 }
4371
4372 if (cmd->sub_table) {
4373 /* do the job again */
4374 return monitor_find_completion_by_table(mon, cmd->sub_table,
4375 &args[1], nb_args - 1);
4376 }
4377
4378 ptype = next_arg_type(cmd->args_type);
4379 for(i = 0; i < nb_args - 2; i++) {
4380 if (*ptype != '\0') {
4381 ptype = next_arg_type(ptype);
4382 while (*ptype == '?')
4383 ptype = next_arg_type(ptype);
4384 }
4385 }
4386 str = args[nb_args - 1];
4387 if (*ptype == '-' && ptype[1] != '\0') {
4388 ptype = next_arg_type(ptype);
4389 }
4390 switch(*ptype) {
4391 case 'F':
4392 /* file completion */
4393 readline_set_completion_index(mon->rs, strlen(str));
4394 file_completion(mon, str);
4395 break;
4396 case 'B':
4397 /* block device name completion */
4398 mbs.mon = mon;
4399 mbs.input = str;
4400 readline_set_completion_index(mon->rs, strlen(str));
4401 bdrv_iterate(block_completion_it, &mbs);
4402 break;
4403 case 'O':
4404 if (!strcmp(cmd->name, "device_add") && nb_args == 2) {
4405 device_add_completion(mon->rs, str);
4406 } else if (!strcmp(cmd->name, "object_add") && nb_args == 2) {
4407 object_add_completion(mon->rs, str);
4408 }
4409 break;
4410 case 's':
4411 case 'S':
4412 if (!strcmp(cmd->name, "sendkey")) {
4413 char *sep = strrchr(str, '-');
4414 if (sep)
4415 str = sep + 1;
4416 readline_set_completion_index(mon->rs, strlen(str));
4417 for (i = 0; i < Q_KEY_CODE_MAX; i++) {
4418 cmd_completion(mon, str, QKeyCode_lookup[i]);
4419 }
4420 } else if (!strcmp(cmd->name, "help|?")) {
4421 monitor_find_completion_by_table(mon, cmd_table,
4422 &args[1], nb_args - 1);
4423 } else if (!strcmp(cmd->name, "device_del") && nb_args == 2) {
4424 size_t len = strlen(str);
4425 readline_set_completion_index(mon->rs, len);
4426 device_del_completion(mon->rs, sysbus_get_default(), str, len);
4427 } else if (!strcmp(cmd->name, "object_del") && nb_args == 2) {
4428 object_del_completion(mon->rs, str);
4429 }
4430 break;
4431 default:
4432 break;
4433 }
4434 }
4435 }
4436
4437 static void monitor_find_completion(void *opaque,
4438 const char *cmdline)
4439 {
4440 Monitor *mon = opaque;
4441 char *args[MAX_ARGS];
4442 int nb_args, len;
4443
4444 /* 1. parse the cmdline */
4445 if (parse_cmdline(cmdline, &nb_args, args) < 0) {
4446 return;
4447 }
4448 #ifdef DEBUG_COMPLETION
4449 for (i = 0; i < nb_args; i++) {
4450 monitor_printf(mon, "arg%d = '%s'\n", i, args[i]);
4451 }
4452 #endif
4453
4454 /* if the line ends with a space, it means we want to complete the
4455 next arg */
4456 len = strlen(cmdline);
4457 if (len > 0 && qemu_isspace(cmdline[len - 1])) {
4458 if (nb_args >= MAX_ARGS) {
4459 goto cleanup;
4460 }
4461 args[nb_args++] = g_strdup("");
4462 }
4463
4464 /* 2. auto complete according to args */
4465 monitor_find_completion_by_table(mon, mon->cmd_table, args, nb_args);
4466
4467 cleanup:
4468 free_cmdline_args(args, nb_args);
4469 }
4470
4471 static int monitor_can_read(void *opaque)
4472 {
4473 Monitor *mon = opaque;
4474
4475 return (mon->suspend_cnt == 0) ? 1 : 0;
4476 }
4477
4478 static int invalid_qmp_mode(const Monitor *mon, const char *cmd_name)
4479 {
4480 int is_cap = compare_cmd(cmd_name, "qmp_capabilities");
4481 return (qmp_cmd_mode(mon) ? is_cap : !is_cap);
4482 }
4483
4484 /*
4485 * Argument validation rules:
4486 *
4487 * 1. The argument must exist in cmd_args qdict
4488 * 2. The argument type must be the expected one
4489 *
4490 * Special case: If the argument doesn't exist in cmd_args and
4491 * the QMP_ACCEPT_UNKNOWNS flag is set, then the
4492 * checking is skipped for it.
4493 */
4494 static int check_client_args_type(const QDict *client_args,
4495 const QDict *cmd_args, int flags)
4496 {
4497 const QDictEntry *ent;
4498
4499 for (ent = qdict_first(client_args); ent;ent = qdict_next(client_args,ent)){
4500 QObject *obj;
4501 QString *arg_type;
4502 const QObject *client_arg = qdict_entry_value(ent);
4503 const char *client_arg_name = qdict_entry_key(ent);
4504
4505 obj = qdict_get(cmd_args, client_arg_name);
4506 if (!obj) {
4507 if (flags & QMP_ACCEPT_UNKNOWNS) {
4508 /* handler accepts unknowns */
4509 continue;
4510 }
4511 /* client arg doesn't exist */
4512 qerror_report(QERR_INVALID_PARAMETER, client_arg_name);
4513 return -1;
4514 }
4515
4516 arg_type = qobject_to_qstring(obj);
4517 assert(arg_type != NULL);
4518
4519 /* check if argument's type is correct */
4520 switch (qstring_get_str(arg_type)[0]) {
4521 case 'F':
4522 case 'B':
4523 case 's':
4524 if (qobject_type(client_arg) != QTYPE_QSTRING) {
4525 qerror_report(QERR_INVALID_PARAMETER_TYPE, client_arg_name,
4526 "string");
4527 return -1;
4528 }
4529 break;
4530 case 'i':
4531 case 'l':
4532 case 'M':
4533 case 'o':
4534 if (qobject_type(client_arg) != QTYPE_QINT) {
4535 qerror_report(QERR_INVALID_PARAMETER_TYPE, client_arg_name,
4536 "int");
4537 return -1;
4538 }
4539 break;
4540 case 'T':
4541 if (qobject_type(client_arg) != QTYPE_QINT &&
4542 qobject_type(client_arg) != QTYPE_QFLOAT) {
4543 qerror_report(QERR_INVALID_PARAMETER_TYPE, client_arg_name,
4544 "number");
4545 return -1;
4546 }
4547 break;
4548 case 'b':
4549 case '-':
4550 if (qobject_type(client_arg) != QTYPE_QBOOL) {
4551 qerror_report(QERR_INVALID_PARAMETER_TYPE, client_arg_name,
4552 "bool");
4553 return -1;
4554 }
4555 break;
4556 case 'O':
4557 assert(flags & QMP_ACCEPT_UNKNOWNS);
4558 break;
4559 case 'q':
4560 /* Any QObject can be passed. */
4561 break;
4562 case '/':
4563 case '.':
4564 /*
4565 * These types are not supported by QMP and thus are not
4566 * handled here. Fall through.
4567 */
4568 default:
4569 abort();
4570 }
4571 }
4572
4573 return 0;
4574 }
4575
4576 /*
4577 * - Check if the client has passed all mandatory args
4578 * - Set special flags for argument validation
4579 */
4580 static int check_mandatory_args(const QDict *cmd_args,
4581 const QDict *client_args, int *flags)
4582 {
4583 const QDictEntry *ent;
4584
4585 for (ent = qdict_first(cmd_args); ent; ent = qdict_next(cmd_args, ent)) {
4586 const char *cmd_arg_name = qdict_entry_key(ent);
4587 QString *type = qobject_to_qstring(qdict_entry_value(ent));
4588 assert(type != NULL);
4589
4590 if (qstring_get_str(type)[0] == 'O') {
4591 assert((*flags & QMP_ACCEPT_UNKNOWNS) == 0);
4592 *flags |= QMP_ACCEPT_UNKNOWNS;
4593 } else if (qstring_get_str(type)[0] != '-' &&
4594 qstring_get_str(type)[1] != '?' &&
4595 !qdict_haskey(client_args, cmd_arg_name)) {
4596 qerror_report(QERR_MISSING_PARAMETER, cmd_arg_name);
4597 return -1;
4598 }
4599 }
4600
4601 return 0;
4602 }
4603
4604 static QDict *qdict_from_args_type(const char *args_type)
4605 {
4606 int i;
4607 QDict *qdict;
4608 QString *key, *type, *cur_qs;
4609
4610 assert(args_type != NULL);
4611
4612 qdict = qdict_new();
4613
4614 if (args_type == NULL || args_type[0] == '\0') {
4615 /* no args, empty qdict */
4616 goto out;
4617 }
4618
4619 key = qstring_new();
4620 type = qstring_new();
4621
4622 cur_qs = key;
4623
4624 for (i = 0;; i++) {
4625 switch (args_type[i]) {
4626 case ',':
4627 case '\0':
4628 qdict_put(qdict, qstring_get_str(key), type);
4629 QDECREF(key);
4630 if (args_type[i] == '\0') {
4631 goto out;
4632 }
4633 type = qstring_new(); /* qdict has ref */
4634 cur_qs = key = qstring_new();
4635 break;
4636 case ':':
4637 cur_qs = type;
4638 break;
4639 default:
4640 qstring_append_chr(cur_qs, args_type[i]);
4641 break;
4642 }
4643 }
4644
4645 out:
4646 return qdict;
4647 }
4648
4649 /*
4650 * Client argument checking rules:
4651 *
4652 * 1. Client must provide all mandatory arguments
4653 * 2. Each argument provided by the client must be expected
4654 * 3. Each argument provided by the client must have the type expected
4655 * by the command
4656 */
4657 static int qmp_check_client_args(const mon_cmd_t *cmd, QDict *client_args)
4658 {
4659 int flags, err;
4660 QDict *cmd_args;
4661
4662 cmd_args = qdict_from_args_type(cmd->args_type);
4663
4664 flags = 0;
4665 err = check_mandatory_args(cmd_args, client_args, &flags);
4666 if (err) {
4667 goto out;
4668 }
4669
4670 err = check_client_args_type(client_args, cmd_args, flags);
4671
4672 out:
4673 QDECREF(cmd_args);
4674 return err;
4675 }
4676
4677 /*
4678 * Input object checking rules
4679 *
4680 * 1. Input object must be a dict
4681 * 2. The "execute" key must exist
4682 * 3. The "execute" key must be a string
4683 * 4. If the "arguments" key exists, it must be a dict
4684 * 5. If the "id" key exists, it can be anything (ie. json-value)
4685 * 6. Any argument not listed above is considered invalid
4686 */
4687 static QDict *qmp_check_input_obj(QObject *input_obj)
4688 {
4689 const QDictEntry *ent;
4690 int has_exec_key = 0;
4691 QDict *input_dict;
4692
4693 if (qobject_type(input_obj) != QTYPE_QDICT) {
4694 qerror_report(QERR_QMP_BAD_INPUT_OBJECT, "object");
4695 return NULL;
4696 }
4697
4698 input_dict = qobject_to_qdict(input_obj);
4699
4700 for (ent = qdict_first(input_dict); ent; ent = qdict_next(input_dict, ent)){
4701 const char *arg_name = qdict_entry_key(ent);
4702 const QObject *arg_obj = qdict_entry_value(ent);
4703
4704 if (!strcmp(arg_name, "execute")) {
4705 if (qobject_type(arg_obj) != QTYPE_QSTRING) {
4706 qerror_report(QERR_QMP_BAD_INPUT_OBJECT_MEMBER, "execute",
4707 "string");
4708 return NULL;
4709 }
4710 has_exec_key = 1;
4711 } else if (!strcmp(arg_name, "arguments")) {
4712 if (qobject_type(arg_obj) != QTYPE_QDICT) {
4713 qerror_report(QERR_QMP_BAD_INPUT_OBJECT_MEMBER, "arguments",
4714 "object");
4715 return NULL;
4716 }
4717 } else if (!strcmp(arg_name, "id")) {
4718 /* FIXME: check duplicated IDs for async commands */
4719 } else {
4720 qerror_report(QERR_QMP_EXTRA_MEMBER, arg_name);
4721 return NULL;
4722 }
4723 }
4724
4725 if (!has_exec_key) {
4726 qerror_report(QERR_QMP_BAD_INPUT_OBJECT, "execute");
4727 return NULL;
4728 }
4729
4730 return input_dict;
4731 }
4732
4733 static void qmp_call_cmd(Monitor *mon, const mon_cmd_t *cmd,
4734 const QDict *params)
4735 {
4736 int ret;
4737 QObject *data = NULL;
4738
4739 ret = cmd->mhandler.cmd_new(mon, params, &data);
4740 handler_audit(mon, cmd, ret);
4741 monitor_protocol_emitter(mon, data);
4742 qobject_decref(data);
4743 }
4744
4745 static void handle_qmp_command(JSONMessageParser *parser, QList *tokens)
4746 {
4747 int err;
4748 QObject *obj;
4749 QDict *input, *args;
4750 const mon_cmd_t *cmd;
4751 const char *cmd_name;
4752 Monitor *mon = cur_mon;
4753
4754 args = input = NULL;
4755
4756 obj = json_parser_parse(tokens, NULL);
4757 if (!obj) {
4758 // FIXME: should be triggered in json_parser_parse()
4759 qerror_report(QERR_JSON_PARSING);
4760 goto err_out;
4761 }
4762
4763 input = qmp_check_input_obj(obj);
4764 if (!input) {
4765 qobject_decref(obj);
4766 goto err_out;
4767 }
4768
4769 mon->mc->id = qdict_get(input, "id");
4770 qobject_incref(mon->mc->id);
4771
4772 cmd_name = qdict_get_str(input, "execute");
4773 trace_handle_qmp_command(mon, cmd_name);
4774 if (invalid_qmp_mode(mon, cmd_name)) {
4775 qerror_report(QERR_COMMAND_NOT_FOUND, cmd_name);
4776 goto err_out;
4777 }
4778
4779 cmd = qmp_find_cmd(cmd_name);
4780 if (!cmd) {
4781 qerror_report(QERR_COMMAND_NOT_FOUND, cmd_name);
4782 goto err_out;
4783 }
4784
4785 obj = qdict_get(input, "arguments");
4786 if (!obj) {
4787 args = qdict_new();
4788 } else {
4789 args = qobject_to_qdict(obj);
4790 QINCREF(args);
4791 }
4792
4793 err = qmp_check_client_args(cmd, args);
4794 if (err < 0) {
4795 goto err_out;
4796 }
4797
4798 if (handler_is_async(cmd)) {
4799 err = qmp_async_cmd_handler(mon, cmd, args);
4800 if (err) {
4801 /* emit the error response */
4802 goto err_out;
4803 }
4804 } else {
4805 qmp_call_cmd(mon, cmd, args);
4806 }
4807
4808 goto out;
4809
4810 err_out:
4811 monitor_protocol_emitter(mon, NULL);
4812 out:
4813 QDECREF(input);
4814 QDECREF(args);
4815 }
4816
4817 /**
4818 * monitor_control_read(): Read and handle QMP input
4819 */
4820 static void monitor_control_read(void *opaque, const uint8_t *buf, int size)
4821 {
4822 Monitor *old_mon = cur_mon;
4823
4824 cur_mon = opaque;
4825
4826 json_message_parser_feed(&cur_mon->mc->parser, (const char *) buf, size);
4827
4828 cur_mon = old_mon;
4829 }
4830
4831 static void monitor_read(void *opaque, const uint8_t *buf, int size)
4832 {
4833 Monitor *old_mon = cur_mon;
4834 int i;
4835
4836 cur_mon = opaque;
4837
4838 if (cur_mon->rs) {
4839 for (i = 0; i < size; i++)
4840 readline_handle_byte(cur_mon->rs, buf[i]);
4841 } else {
4842 if (size == 0 || buf[size - 1] != 0)
4843 monitor_printf(cur_mon, "corrupted command\n");
4844 else
4845 handle_user_command(cur_mon, (char *)buf);
4846 }
4847
4848 cur_mon = old_mon;
4849 }
4850
4851 static void monitor_command_cb(void *opaque, const char *cmdline,
4852 void *readline_opaque)
4853 {
4854 Monitor *mon = opaque;
4855
4856 monitor_suspend(mon);
4857 handle_user_command(mon, cmdline);
4858 monitor_resume(mon);
4859 }
4860
4861 int monitor_suspend(Monitor *mon)
4862 {
4863 if (!mon->rs)
4864 return -ENOTTY;
4865 mon->suspend_cnt++;
4866 return 0;
4867 }
4868
4869 void monitor_resume(Monitor *mon)
4870 {
4871 if (!mon->rs)
4872 return;
4873 if (--mon->suspend_cnt == 0)
4874 readline_show_prompt(mon->rs);
4875 }
4876
4877 static QObject *get_qmp_greeting(void)
4878 {
4879 QObject *ver = NULL;
4880
4881 qmp_marshal_input_query_version(NULL, NULL, &ver);
4882 return qobject_from_jsonf("{'QMP':{'version': %p,'capabilities': []}}",ver);
4883 }
4884
4885 /**
4886 * monitor_control_event(): Print QMP gretting
4887 */
4888 static void monitor_control_event(void *opaque, int event)
4889 {
4890 QObject *data;
4891 Monitor *mon = opaque;
4892
4893 switch (event) {
4894 case CHR_EVENT_OPENED:
4895 mon->mc->command_mode = 0;
4896 data = get_qmp_greeting();
4897 monitor_json_emitter(mon, data);
4898 qobject_decref(data);
4899 mon_refcount++;
4900 break;
4901 case CHR_EVENT_CLOSED:
4902 json_message_parser_destroy(&mon->mc->parser);
4903 json_message_parser_init(&mon->mc->parser, handle_qmp_command);
4904 mon_refcount--;
4905 monitor_fdsets_cleanup();
4906 break;
4907 }
4908 }
4909
4910 static void monitor_event(void *opaque, int event)
4911 {
4912 Monitor *mon = opaque;
4913
4914 switch (event) {
4915 case CHR_EVENT_MUX_IN:
4916 mon->mux_out = 0;
4917 if (mon->reset_seen) {
4918 readline_restart(mon->rs);
4919 monitor_resume(mon);
4920 monitor_flush(mon);
4921 } else {
4922 mon->suspend_cnt = 0;
4923 }
4924 break;
4925
4926 case CHR_EVENT_MUX_OUT:
4927 if (mon->reset_seen) {
4928 if (mon->suspend_cnt == 0) {
4929 monitor_printf(mon, "\n");
4930 }
4931 monitor_flush(mon);
4932 monitor_suspend(mon);
4933 } else {
4934 mon->suspend_cnt++;
4935 }
4936 mon->mux_out = 1;
4937 break;
4938
4939 case CHR_EVENT_OPENED:
4940 monitor_printf(mon, "QEMU %s monitor - type 'help' for more "
4941 "information\n", QEMU_VERSION);
4942 if (!mon->mux_out) {
4943 readline_show_prompt(mon->rs);
4944 }
4945 mon->reset_seen = 1;
4946 mon_refcount++;
4947 break;
4948
4949 case CHR_EVENT_CLOSED:
4950 mon_refcount--;
4951 monitor_fdsets_cleanup();
4952 break;
4953 }
4954 }
4955
4956 static int
4957 compare_mon_cmd(const void *a, const void *b)
4958 {
4959 return strcmp(((const mon_cmd_t *)a)->name,
4960 ((const mon_cmd_t *)b)->name);
4961 }
4962
4963 static void sortcmdlist(void)
4964 {
4965 int array_num;
4966 int elem_size = sizeof(mon_cmd_t);
4967
4968 array_num = sizeof(mon_cmds)/elem_size-1;
4969 qsort((void *)mon_cmds, array_num, elem_size, compare_mon_cmd);
4970
4971 array_num = sizeof(info_cmds)/elem_size-1;
4972 qsort((void *)info_cmds, array_num, elem_size, compare_mon_cmd);
4973 }
4974
4975
4976 /*
4977 * Local variables:
4978 * c-indent-level: 4
4979 * c-basic-offset: 4
4980 * tab-width: 8
4981 * End:
4982 */
4983
4984 /* These functions just adapt the readline interface in a typesafe way. We
4985 * could cast function pointers but that discards compiler checks.
4986 */
4987 static void GCC_FMT_ATTR(2, 3) monitor_readline_printf(void *opaque,
4988 const char *fmt, ...)
4989 {
4990 va_list ap;
4991 va_start(ap, fmt);
4992 monitor_vprintf(opaque, fmt, ap);
4993 va_end(ap);
4994 }
4995
4996 static void monitor_readline_flush(void *opaque)
4997 {
4998 monitor_flush(opaque);
4999 }
5000
5001 void monitor_init(CharDriverState *chr, int flags)
5002 {
5003 static int is_first_init = 1;
5004 Monitor *mon;
5005
5006 if (is_first_init) {
5007 monitor_protocol_event_init();
5008 sortcmdlist();
5009 is_first_init = 0;
5010 }
5011
5012 mon = g_malloc(sizeof(*mon));
5013 monitor_data_init(mon);
5014
5015 mon->chr = chr;
5016 mon->flags = flags;
5017 if (flags & MONITOR_USE_READLINE) {
5018 mon->rs = readline_init(monitor_readline_printf,
5019 monitor_readline_flush,
5020 mon,
5021 monitor_find_completion);
5022 monitor_read_command(mon, 0);
5023 }
5024
5025 if (monitor_ctrl_mode(mon)) {
5026 mon->mc = g_malloc0(sizeof(MonitorControl));
5027 /* Control mode requires special handlers */
5028 qemu_chr_add_handlers(chr, monitor_can_read, monitor_control_read,
5029 monitor_control_event, mon);
5030 qemu_chr_fe_set_echo(chr, true);
5031
5032 json_message_parser_init(&mon->mc->parser, handle_qmp_command);
5033 } else {
5034 qemu_chr_add_handlers(chr, monitor_can_read, monitor_read,
5035 monitor_event, mon);
5036 }
5037
5038 QLIST_INSERT_HEAD(&mon_list, mon, entry);
5039 if (!default_mon || (flags & MONITOR_IS_DEFAULT))
5040 default_mon = mon;
5041 }
5042
5043 static void bdrv_password_cb(void *opaque, const char *password,
5044 void *readline_opaque)
5045 {
5046 Monitor *mon = opaque;
5047 BlockDriverState *bs = readline_opaque;
5048 int ret = 0;
5049
5050 if (bdrv_set_key(bs, password) != 0) {
5051 monitor_printf(mon, "invalid password\n");
5052 ret = -EPERM;
5053 }
5054 if (mon->password_completion_cb)
5055 mon->password_completion_cb(mon->password_opaque, ret);
5056
5057 monitor_read_command(mon, 1);
5058 }
5059
5060 ReadLineState *monitor_get_rs(Monitor *mon)
5061 {
5062 return mon->rs;
5063 }
5064
5065 int monitor_read_bdrv_key_start(Monitor *mon, BlockDriverState *bs,
5066 BlockDriverCompletionFunc *completion_cb,
5067 void *opaque)
5068 {
5069 int err;
5070
5071 if (!bdrv_key_required(bs)) {
5072 if (completion_cb)
5073 completion_cb(opaque, 0);
5074 return 0;
5075 }
5076
5077 if (monitor_ctrl_mode(mon)) {
5078 qerror_report(QERR_DEVICE_ENCRYPTED, bdrv_get_device_name(bs),
5079 bdrv_get_encrypted_filename(bs));
5080 return -1;
5081 }
5082
5083 monitor_printf(mon, "%s (%s) is encrypted.\n", bdrv_get_device_name(bs),
5084 bdrv_get_encrypted_filename(bs));
5085
5086 mon->password_completion_cb = completion_cb;
5087 mon->password_opaque = opaque;
5088
5089 err = monitor_read_password(mon, bdrv_password_cb, bs);
5090
5091 if (err && completion_cb)
5092 completion_cb(opaque, err);
5093
5094 return err;
5095 }
5096
5097 int monitor_read_block_device_key(Monitor *mon, const char *device,
5098 BlockDriverCompletionFunc *completion_cb,
5099 void *opaque)
5100 {
5101 BlockDriverState *bs;
5102
5103 bs = bdrv_find(device);
5104 if (!bs) {
5105 monitor_printf(mon, "Device not found %s\n", device);
5106 return -1;
5107 }
5108
5109 return monitor_read_bdrv_key_start(mon, bs, completion_cb, opaque);
5110 }
5111
5112 QemuOptsList qemu_mon_opts = {
5113 .name = "mon",
5114 .implied_opt_name = "chardev",
5115 .head = QTAILQ_HEAD_INITIALIZER(qemu_mon_opts.head),
5116 .desc = {
5117 {
5118 .name = "mode",
5119 .type = QEMU_OPT_STRING,
5120 },{
5121 .name = "chardev",
5122 .type = QEMU_OPT_STRING,
5123 },{
5124 .name = "default",
5125 .type = QEMU_OPT_BOOL,
5126 },{
5127 .name = "pretty",
5128 .type = QEMU_OPT_BOOL,
5129 },
5130 { /* end of list */ }
5131 },
5132 };
AR7 emulation for QEMU