arm, objdump: print obsolote warning when 26-bit set in instructions
[binutils-gdb.git] / gdb / tracectf.c
blobb4997f8589fae3a53e527dcf62bb256fe3fe8383
1 /* CTF format support.
3 Copyright (C) 2012-2024 Free Software Foundation, Inc.
4 Contributed by Hui Zhu <hui_zhu@mentor.com>
5 Contributed by Yao Qi <yao@codesourcery.com>
7 This file is part of GDB.
9 This program is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; either version 3 of the License, or
12 (at your option) any later version.
14 This program is distributed in the hope that it will be useful,
15 but WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 GNU General Public License for more details.
19 You should have received a copy of the GNU General Public License
20 along with this program. If not, see <http://www.gnu.org/licenses/>. */
22 #include "tracectf.h"
23 #include "tracepoint.h"
24 #include "regcache.h"
25 #include <sys/stat.h>
26 #include "exec.h"
27 #include "completer.h"
28 #include "inferior.h"
29 #include "gdbthread.h"
30 #include "tracefile.h"
31 #include <ctype.h>
32 #include <algorithm>
33 #include "gdbsupport/filestuff.h"
34 #include "gdbarch.h"
36 /* GDB saves trace buffers and other information (such as trace
37 status) got from the remote target into Common Trace Format (CTF).
38 The following types of information are expected to save in CTF:
40 1. The length (in bytes) of register cache. Event "register" will
41 be defined in metadata, which includes the length.
43 2. Trace status. Event "status" is defined in metadata, which
44 includes all aspects of trace status.
46 3. Uploaded trace variables. Event "tsv_def" is defined in
47 metadata, which is about all aspects of a uploaded trace variable.
48 Uploaded tracepoints. Event "tp_def" is defined in meta, which
49 is about all aspects of an uploaded tracepoint. Note that the
50 "sequence" (a CTF type, which is a dynamically-sized array.) is
51 used for "actions" "step_actions" and "cmd_strings".
53 4. Trace frames. Each trace frame is composed by several blocks
54 of different types ('R', 'M', 'V'). One trace frame is saved in
55 one CTF packet and the blocks of this frame are saved as events.
56 4.1: The trace frame related information (such as the number of
57 tracepoint associated with this frame) is saved in the packet
58 context.
59 4.2: The block 'M', 'R' and 'V' are saved in event "memory",
60 "register" and "tsv" respectively.
61 4.3: When iterating over events, babeltrace can't tell iterator
62 goes to a new packet, so we need a marker or anchor to tell GDB
63 that iterator goes into a new packet or frame. We define event
64 "frame". */
66 #define CTF_MAGIC 0xC1FC1FC1
67 #define CTF_SAVE_MAJOR 1
68 #define CTF_SAVE_MINOR 8
70 #define CTF_METADATA_NAME "metadata"
71 #define CTF_DATASTREAM_NAME "datastream"
73 /* Reserved event id. */
75 #define CTF_EVENT_ID_REGISTER 0
76 #define CTF_EVENT_ID_TSV 1
77 #define CTF_EVENT_ID_MEMORY 2
78 #define CTF_EVENT_ID_FRAME 3
79 #define CTF_EVENT_ID_STATUS 4
80 #define CTF_EVENT_ID_TSV_DEF 5
81 #define CTF_EVENT_ID_TP_DEF 6
83 #define CTF_PID (2)
85 /* The state kept while writing the CTF datastream file. */
87 struct trace_write_handler
89 /* File descriptor of metadata. */
90 FILE *metadata_fd;
91 /* File descriptor of traceframes. */
92 FILE *datastream_fd;
94 /* This is the content size of the current packet. */
95 size_t content_size;
97 /* This is the start offset of current packet. */
98 long packet_start;
101 /* Write metadata in FORMAT. */
103 static void
104 ctf_save_write_metadata (struct trace_write_handler *handler,
105 const char *format, ...)
106 ATTRIBUTE_PRINTF (2, 3);
108 static void
109 ctf_save_write_metadata (struct trace_write_handler *handler,
110 const char *format, ...)
112 va_list args;
114 va_start (args, format);
115 if (vfprintf (handler->metadata_fd, format, args) < 0)
116 error (_("Unable to write metadata file (%s)"),
117 safe_strerror (errno));
118 va_end (args);
121 /* Write BUF of length SIZE to datastream file represented by
122 HANDLER. */
124 static int
125 ctf_save_write (struct trace_write_handler *handler,
126 const gdb_byte *buf, size_t size)
128 if (fwrite (buf, size, 1, handler->datastream_fd) != 1)
129 error (_("Unable to write file for saving trace data (%s)"),
130 safe_strerror (errno));
132 handler->content_size += size;
134 return 0;
137 /* Write a unsigned 32-bit integer to datastream file represented by
138 HANDLER. */
140 #define ctf_save_write_uint32(HANDLER, U32) \
141 ctf_save_write (HANDLER, (gdb_byte *) &U32, 4)
143 /* Write a signed 32-bit integer to datastream file represented by
144 HANDLER. */
146 #define ctf_save_write_int32(HANDLER, INT32) \
147 ctf_save_write ((HANDLER), (gdb_byte *) &(INT32), 4)
149 /* Set datastream file position. Update HANDLER->content_size
150 if WHENCE is SEEK_CUR. */
152 static int
153 ctf_save_fseek (struct trace_write_handler *handler, long offset,
154 int whence)
156 gdb_assert (whence != SEEK_END);
157 gdb_assert (whence != SEEK_SET
158 || offset <= handler->content_size + handler->packet_start);
160 if (fseek (handler->datastream_fd, offset, whence))
161 error (_("Unable to seek file for saving trace data (%s)"),
162 safe_strerror (errno));
164 if (whence == SEEK_CUR)
165 handler->content_size += offset;
167 return 0;
170 /* Change the datastream file position to align on ALIGN_SIZE,
171 and write BUF to datastream file. The size of BUF is SIZE. */
173 static int
174 ctf_save_align_write (struct trace_write_handler *handler,
175 const gdb_byte *buf,
176 size_t size, size_t align_size)
178 long offset
179 = (align_up (handler->content_size, align_size)
180 - handler->content_size);
182 if (ctf_save_fseek (handler, offset, SEEK_CUR))
183 return -1;
185 if (ctf_save_write (handler, buf, size))
186 return -1;
188 return 0;
191 /* Write events to next new packet. */
193 static void
194 ctf_save_next_packet (struct trace_write_handler *handler)
196 handler->packet_start += (handler->content_size + 4);
197 ctf_save_fseek (handler, handler->packet_start, SEEK_SET);
198 handler->content_size = 0;
201 /* Write the CTF metadata header. */
203 static void
204 ctf_save_metadata_header (struct trace_write_handler *handler)
206 ctf_save_write_metadata (handler, "/* CTF %d.%d */\n",
207 CTF_SAVE_MAJOR, CTF_SAVE_MINOR);
208 ctf_save_write_metadata (handler,
209 "typealias integer { size = 8; align = 8; "
210 "signed = false; encoding = ascii;}"
211 " := ascii;\n");
212 ctf_save_write_metadata (handler,
213 "typealias integer { size = 8; align = 8; "
214 "signed = false; }"
215 " := uint8_t;\n");
216 ctf_save_write_metadata (handler,
217 "typealias integer { size = 16; align = 16;"
218 "signed = false; } := uint16_t;\n");
219 ctf_save_write_metadata (handler,
220 "typealias integer { size = 32; align = 32;"
221 "signed = false; } := uint32_t;\n");
222 ctf_save_write_metadata (handler,
223 "typealias integer { size = 64; align = 64;"
224 "signed = false; base = hex;}"
225 " := uint64_t;\n");
226 ctf_save_write_metadata (handler,
227 "typealias integer { size = 32; align = 32;"
228 "signed = true; } := int32_t;\n");
229 ctf_save_write_metadata (handler,
230 "typealias integer { size = 64; align = 64;"
231 "signed = true; } := int64_t;\n");
232 ctf_save_write_metadata (handler,
233 "typealias string { encoding = ascii;"
234 " } := chars;\n");
235 ctf_save_write_metadata (handler, "\n");
237 /* Get the byte order of the host and write CTF data in this byte
238 order. */
239 #if WORDS_BIGENDIAN
240 #define HOST_ENDIANNESS "be"
241 #else
242 #define HOST_ENDIANNESS "le"
243 #endif
245 ctf_save_write_metadata (handler,
246 "\ntrace {\n"
247 " major = %u;\n"
248 " minor = %u;\n"
249 " byte_order = %s;\n"
250 " packet.header := struct {\n"
251 " uint32_t magic;\n"
252 " };\n"
253 "};\n"
254 "\n"
255 "stream {\n"
256 " packet.context := struct {\n"
257 " uint32_t content_size;\n"
258 " uint32_t packet_size;\n"
259 " uint16_t tpnum;\n"
260 " };\n"
261 " event.header := struct {\n"
262 " uint32_t id;\n"
263 " };\n"
264 "};\n",
265 CTF_SAVE_MAJOR, CTF_SAVE_MINOR,
266 HOST_ENDIANNESS);
267 ctf_save_write_metadata (handler, "\n");
270 /* CTF trace writer. */
272 struct ctf_trace_file_writer
274 struct trace_file_writer base;
276 /* States related to writing CTF trace file. */
277 struct trace_write_handler tcs;
280 /* This is the implementation of trace_file_write_ops method
281 dtor. */
283 static void
284 ctf_dtor (struct trace_file_writer *self)
286 struct ctf_trace_file_writer *writer
287 = (struct ctf_trace_file_writer *) self;
289 if (writer->tcs.metadata_fd != NULL)
290 fclose (writer->tcs.metadata_fd);
292 if (writer->tcs.datastream_fd != NULL)
293 fclose (writer->tcs.datastream_fd);
297 /* This is the implementation of trace_file_write_ops method
298 target_save. */
300 static int
301 ctf_target_save (struct trace_file_writer *self,
302 const char *dirname)
304 /* Don't support save trace file to CTF format in the target. */
305 return 0;
308 /* This is the implementation of trace_file_write_ops method
309 start. It creates the directory DIRNAME, metadata and datastream
310 in the directory. */
312 static void
313 ctf_start (struct trace_file_writer *self, const char *dirname)
315 struct ctf_trace_file_writer *writer
316 = (struct ctf_trace_file_writer *) self;
317 mode_t hmode = S_IRUSR | S_IWUSR | S_IXUSR | S_IRGRP | S_IXGRP | S_IROTH;
319 /* Create DIRNAME. */
320 if (mkdir (dirname, hmode) && errno != EEXIST)
321 error (_("Unable to open directory '%s' for saving trace data (%s)"),
322 dirname, safe_strerror (errno));
324 memset (&writer->tcs, '\0', sizeof (writer->tcs));
326 std::string file_name = string_printf ("%s/%s", dirname, CTF_METADATA_NAME);
328 writer->tcs.metadata_fd
329 = gdb_fopen_cloexec (file_name.c_str (), "w").release ();
330 if (writer->tcs.metadata_fd == NULL)
331 error (_("Unable to open file '%s' for saving trace data (%s)"),
332 file_name.c_str (), safe_strerror (errno));
334 ctf_save_metadata_header (&writer->tcs);
336 file_name = string_printf ("%s/%s", dirname, CTF_DATASTREAM_NAME);
337 writer->tcs.datastream_fd
338 = gdb_fopen_cloexec (file_name.c_str (), "w").release ();
339 if (writer->tcs.datastream_fd == NULL)
340 error (_("Unable to open file '%s' for saving trace data (%s)"),
341 file_name.c_str (), safe_strerror (errno));
344 /* This is the implementation of trace_file_write_ops method
345 write_header. Write the types of events on trace variable and
346 frame. */
348 static void
349 ctf_write_header (struct trace_file_writer *self)
351 struct ctf_trace_file_writer *writer
352 = (struct ctf_trace_file_writer *) self;
355 ctf_save_write_metadata (&writer->tcs, "\n");
356 ctf_save_write_metadata (&writer->tcs,
357 "event {\n\tname = \"memory\";\n\tid = %u;\n"
358 "\tfields := struct { \n"
359 "\t\tuint64_t address;\n"
360 "\t\tuint16_t length;\n"
361 "\t\tuint8_t contents[length];\n"
362 "\t};\n"
363 "};\n", CTF_EVENT_ID_MEMORY);
365 ctf_save_write_metadata (&writer->tcs, "\n");
366 ctf_save_write_metadata (&writer->tcs,
367 "event {\n\tname = \"tsv\";\n\tid = %u;\n"
368 "\tfields := struct { \n"
369 "\t\tuint64_t val;\n"
370 "\t\tuint32_t num;\n"
371 "\t};\n"
372 "};\n", CTF_EVENT_ID_TSV);
374 ctf_save_write_metadata (&writer->tcs, "\n");
375 ctf_save_write_metadata (&writer->tcs,
376 "event {\n\tname = \"frame\";\n\tid = %u;\n"
377 "\tfields := struct { \n"
378 "\t};\n"
379 "};\n", CTF_EVENT_ID_FRAME);
381 ctf_save_write_metadata (&writer->tcs, "\n");
382 ctf_save_write_metadata (&writer->tcs,
383 "event {\n\tname = \"tsv_def\";\n"
384 "\tid = %u;\n\tfields := struct { \n"
385 "\t\tint64_t initial_value;\n"
386 "\t\tint32_t number;\n"
387 "\t\tint32_t builtin;\n"
388 "\t\tchars name;\n"
389 "\t};\n"
390 "};\n", CTF_EVENT_ID_TSV_DEF);
392 ctf_save_write_metadata (&writer->tcs, "\n");
393 ctf_save_write_metadata (&writer->tcs,
394 "event {\n\tname = \"tp_def\";\n"
395 "\tid = %u;\n\tfields := struct { \n"
396 "\t\tuint64_t addr;\n"
397 "\t\tuint64_t traceframe_usage;\n"
398 "\t\tint32_t number;\n"
399 "\t\tint32_t enabled;\n"
400 "\t\tint32_t step;\n"
401 "\t\tint32_t pass;\n"
402 "\t\tint32_t hit_count;\n"
403 "\t\tint32_t type;\n"
404 "\t\tchars cond;\n"
406 "\t\tuint32_t action_num;\n"
407 "\t\tchars actions[action_num];\n"
409 "\t\tuint32_t step_action_num;\n"
410 "\t\tchars step_actions[step_action_num];\n"
412 "\t\tchars at_string;\n"
413 "\t\tchars cond_string;\n"
415 "\t\tuint32_t cmd_num;\n"
416 "\t\tchars cmd_strings[cmd_num];\n"
417 "\t};\n"
418 "};\n", CTF_EVENT_ID_TP_DEF);
420 gdb_assert (writer->tcs.content_size == 0);
421 gdb_assert (writer->tcs.packet_start == 0);
423 /* Create a new packet to contain this event. */
424 self->ops->frame_ops->start (self, 0);
427 /* This is the implementation of trace_file_write_ops method
428 write_regblock_type. Write the type of register event in
429 metadata. */
431 static void
432 ctf_write_regblock_type (struct trace_file_writer *self, int size)
434 struct ctf_trace_file_writer *writer
435 = (struct ctf_trace_file_writer *) self;
437 ctf_save_write_metadata (&writer->tcs, "\n");
439 ctf_save_write_metadata (&writer->tcs,
440 "event {\n\tname = \"register\";\n\tid = %u;\n"
441 "\tfields := struct { \n"
442 "\t\tascii contents[%d];\n"
443 "\t};\n"
444 "};\n",
445 CTF_EVENT_ID_REGISTER, size);
448 /* This is the implementation of trace_file_write_ops method
449 write_status. */
451 static void
452 ctf_write_status (struct trace_file_writer *self,
453 struct trace_status *ts)
455 struct ctf_trace_file_writer *writer
456 = (struct ctf_trace_file_writer *) self;
457 uint32_t id;
459 ctf_save_write_metadata (&writer->tcs, "\n");
460 ctf_save_write_metadata (&writer->tcs,
461 "event {\n\tname = \"status\";\n\tid = %u;\n"
462 "\tfields := struct { \n"
463 "\t\tint32_t stop_reason;\n"
464 "\t\tint32_t stopping_tracepoint;\n"
465 "\t\tint32_t traceframe_count;\n"
466 "\t\tint32_t traceframes_created;\n"
467 "\t\tint32_t buffer_free;\n"
468 "\t\tint32_t buffer_size;\n"
469 "\t\tint32_t disconnected_tracing;\n"
470 "\t\tint32_t circular_buffer;\n"
471 "\t};\n"
472 "};\n",
473 CTF_EVENT_ID_STATUS);
475 id = CTF_EVENT_ID_STATUS;
476 /* Event Id. */
477 ctf_save_align_write (&writer->tcs, (gdb_byte *) &id, 4, 4);
479 ctf_save_write_int32 (&writer->tcs, ts->stop_reason);
480 ctf_save_write_int32 (&writer->tcs, ts->stopping_tracepoint);
481 ctf_save_write_int32 (&writer->tcs, ts->traceframe_count);
482 ctf_save_write_int32 (&writer->tcs, ts->traceframes_created);
483 ctf_save_write_int32 (&writer->tcs, ts->buffer_free);
484 ctf_save_write_int32 (&writer->tcs, ts->buffer_size);
485 ctf_save_write_int32 (&writer->tcs, ts->disconnected_tracing);
486 ctf_save_write_int32 (&writer->tcs, ts->circular_buffer);
489 /* This is the implementation of trace_file_write_ops method
490 write_uploaded_tsv. */
492 static void
493 ctf_write_uploaded_tsv (struct trace_file_writer *self,
494 struct uploaded_tsv *tsv)
496 struct ctf_trace_file_writer *writer
497 = (struct ctf_trace_file_writer *) self;
498 int32_t int32;
499 int64_t int64;
500 const gdb_byte zero = 0;
502 /* Event Id. */
503 int32 = CTF_EVENT_ID_TSV_DEF;
504 ctf_save_align_write (&writer->tcs, (gdb_byte *) &int32, 4, 4);
506 /* initial_value */
507 int64 = tsv->initial_value;
508 ctf_save_align_write (&writer->tcs, (gdb_byte *) &int64, 8, 8);
510 /* number */
511 ctf_save_write_int32 (&writer->tcs, tsv->number);
513 /* builtin */
514 ctf_save_write_int32 (&writer->tcs, tsv->builtin);
516 /* name */
517 if (tsv->name != NULL)
518 ctf_save_write (&writer->tcs, (gdb_byte *) tsv->name,
519 strlen (tsv->name));
520 ctf_save_write (&writer->tcs, &zero, 1);
523 /* This is the implementation of trace_file_write_ops method
524 write_uploaded_tp. */
526 static void
527 ctf_write_uploaded_tp (struct trace_file_writer *self,
528 struct uploaded_tp *tp)
530 struct ctf_trace_file_writer *writer
531 = (struct ctf_trace_file_writer *) self;
532 int32_t int32;
533 int64_t int64;
534 uint32_t u32;
535 const gdb_byte zero = 0;
537 /* Event Id. */
538 int32 = CTF_EVENT_ID_TP_DEF;
539 ctf_save_align_write (&writer->tcs, (gdb_byte *) &int32, 4, 4);
541 /* address */
542 int64 = tp->addr;
543 ctf_save_align_write (&writer->tcs, (gdb_byte *) &int64, 8, 8);
545 /* traceframe_usage */
546 int64 = tp->traceframe_usage;
547 ctf_save_align_write (&writer->tcs, (gdb_byte *) &int64, 8, 8);
549 /* number */
550 ctf_save_write_int32 (&writer->tcs, tp->number);
552 /* enabled */
553 ctf_save_write_int32 (&writer->tcs, tp->enabled);
555 /* step */
556 ctf_save_write_int32 (&writer->tcs, tp->step);
558 /* pass */
559 ctf_save_write_int32 (&writer->tcs, tp->pass);
561 /* hit_count */
562 ctf_save_write_int32 (&writer->tcs, tp->hit_count);
564 /* type */
565 ctf_save_write_int32 (&writer->tcs, tp->type);
567 /* condition */
568 if (tp->cond != NULL)
569 ctf_save_write (&writer->tcs, (gdb_byte *) tp->cond.get (),
570 strlen (tp->cond.get ()));
571 ctf_save_write (&writer->tcs, &zero, 1);
573 /* actions */
574 u32 = tp->actions.size ();
575 ctf_save_align_write (&writer->tcs, (gdb_byte *) &u32, 4, 4);
576 for (const auto &act : tp->actions)
577 ctf_save_write (&writer->tcs, (gdb_byte *) act.get (),
578 strlen (act.get ()) + 1);
580 /* step_actions */
581 u32 = tp->step_actions.size ();
582 ctf_save_align_write (&writer->tcs, (gdb_byte *) &u32, 4, 4);
583 for (const auto &act : tp->step_actions)
584 ctf_save_write (&writer->tcs, (gdb_byte *) act.get (),
585 strlen (act.get ()) + 1);
587 /* at_string */
588 if (tp->at_string != NULL)
589 ctf_save_write (&writer->tcs, (gdb_byte *) tp->at_string.get (),
590 strlen (tp->at_string.get ()));
591 ctf_save_write (&writer->tcs, &zero, 1);
593 /* cond_string */
594 if (tp->cond_string != NULL)
595 ctf_save_write (&writer->tcs, (gdb_byte *) tp->cond_string.get (),
596 strlen (tp->cond_string.get ()));
597 ctf_save_write (&writer->tcs, &zero, 1);
599 /* cmd_strings */
600 u32 = tp->cmd_strings.size ();
601 ctf_save_align_write (&writer->tcs, (gdb_byte *) &u32, 4, 4);
602 for (const auto &act : tp->cmd_strings)
603 ctf_save_write (&writer->tcs, (gdb_byte *) act.get (),
604 strlen (act.get ()) + 1);
608 /* This is the implementation of trace_file_write_ops method
609 write_tdesc. */
611 static void
612 ctf_write_tdesc (struct trace_file_writer *self)
614 /* Nothing so far. */
617 /* This is the implementation of trace_file_write_ops method
618 write_definition_end. */
620 static void
621 ctf_write_definition_end (struct trace_file_writer *self)
623 self->ops->frame_ops->end (self);
626 /* This is the implementation of trace_file_write_ops method
627 end. */
629 static void
630 ctf_end (struct trace_file_writer *self)
632 struct ctf_trace_file_writer *writer = (struct ctf_trace_file_writer *) self;
634 gdb_assert (writer->tcs.content_size == 0);
637 /* This is the implementation of trace_frame_write_ops method
638 start. */
640 static void
641 ctf_write_frame_start (struct trace_file_writer *self, uint16_t tpnum)
643 struct ctf_trace_file_writer *writer
644 = (struct ctf_trace_file_writer *) self;
645 uint32_t id = CTF_EVENT_ID_FRAME;
646 uint32_t u32;
648 /* Step 1: Write packet context. */
649 /* magic. */
650 u32 = CTF_MAGIC;
651 ctf_save_write_uint32 (&writer->tcs, u32);
652 /* content_size and packet_size.. We still don't know the value,
653 write it later. */
654 ctf_save_fseek (&writer->tcs, 4, SEEK_CUR);
655 ctf_save_fseek (&writer->tcs, 4, SEEK_CUR);
656 /* Tracepoint number. */
657 ctf_save_write (&writer->tcs, (gdb_byte *) &tpnum, 2);
659 /* Step 2: Write event "frame". */
660 /* Event Id. */
661 ctf_save_align_write (&writer->tcs, (gdb_byte *) &id, 4, 4);
664 /* This is the implementation of trace_frame_write_ops method
665 write_r_block. */
667 static void
668 ctf_write_frame_r_block (struct trace_file_writer *self,
669 gdb_byte *buf, int32_t size)
671 struct ctf_trace_file_writer *writer
672 = (struct ctf_trace_file_writer *) self;
673 uint32_t id = CTF_EVENT_ID_REGISTER;
675 /* Event Id. */
676 ctf_save_align_write (&writer->tcs, (gdb_byte *) &id, 4, 4);
678 /* array contents. */
679 ctf_save_align_write (&writer->tcs, buf, size, 1);
682 /* This is the implementation of trace_frame_write_ops method
683 write_m_block_header. */
685 static void
686 ctf_write_frame_m_block_header (struct trace_file_writer *self,
687 uint64_t addr, uint16_t length)
689 struct ctf_trace_file_writer *writer
690 = (struct ctf_trace_file_writer *) self;
691 uint32_t event_id = CTF_EVENT_ID_MEMORY;
693 /* Event Id. */
694 ctf_save_align_write (&writer->tcs, (gdb_byte *) &event_id, 4, 4);
696 /* Address. */
697 ctf_save_align_write (&writer->tcs, (gdb_byte *) &addr, 8, 8);
699 /* Length. */
700 ctf_save_align_write (&writer->tcs, (gdb_byte *) &length, 2, 2);
703 /* This is the implementation of trace_frame_write_ops method
704 write_m_block_memory. */
706 static void
707 ctf_write_frame_m_block_memory (struct trace_file_writer *self,
708 gdb_byte *buf, uint16_t length)
710 struct ctf_trace_file_writer *writer
711 = (struct ctf_trace_file_writer *) self;
713 /* Contents. */
714 ctf_save_align_write (&writer->tcs, (gdb_byte *) buf, length, 1);
717 /* This is the implementation of trace_frame_write_ops method
718 write_v_block. */
720 static void
721 ctf_write_frame_v_block (struct trace_file_writer *self,
722 int32_t num, uint64_t val)
724 struct ctf_trace_file_writer *writer
725 = (struct ctf_trace_file_writer *) self;
726 uint32_t id = CTF_EVENT_ID_TSV;
728 /* Event Id. */
729 ctf_save_align_write (&writer->tcs, (gdb_byte *) &id, 4, 4);
731 /* val. */
732 ctf_save_align_write (&writer->tcs, (gdb_byte *) &val, 8, 8);
733 /* num. */
734 ctf_save_align_write (&writer->tcs, (gdb_byte *) &num, 4, 4);
737 /* This is the implementation of trace_frame_write_ops method
738 end. */
740 static void
741 ctf_write_frame_end (struct trace_file_writer *self)
743 struct ctf_trace_file_writer *writer
744 = (struct ctf_trace_file_writer *) self;
745 uint32_t u32;
746 uint32_t t;
748 /* Write the content size to packet header. */
749 ctf_save_fseek (&writer->tcs, writer->tcs.packet_start + 4,
750 SEEK_SET);
751 u32 = writer->tcs.content_size * TARGET_CHAR_BIT;
753 t = writer->tcs.content_size;
754 ctf_save_write_uint32 (&writer->tcs, u32);
756 /* Write the packet size. */
757 u32 += 4 * TARGET_CHAR_BIT;
758 ctf_save_write_uint32 (&writer->tcs, u32);
760 writer->tcs.content_size = t;
762 /* Write zero at the end of the packet. */
763 ctf_save_fseek (&writer->tcs, writer->tcs.packet_start + t,
764 SEEK_SET);
765 u32 = 0;
766 ctf_save_write_uint32 (&writer->tcs, u32);
767 writer->tcs.content_size = t;
769 ctf_save_next_packet (&writer->tcs);
772 /* Operations to write various types of trace frames into CTF
773 format. */
775 static const struct trace_frame_write_ops ctf_write_frame_ops =
777 ctf_write_frame_start,
778 ctf_write_frame_r_block,
779 ctf_write_frame_m_block_header,
780 ctf_write_frame_m_block_memory,
781 ctf_write_frame_v_block,
782 ctf_write_frame_end,
785 /* Operations to write trace buffers into CTF format. */
787 static const struct trace_file_write_ops ctf_write_ops =
789 ctf_dtor,
790 ctf_target_save,
791 ctf_start,
792 ctf_write_header,
793 ctf_write_regblock_type,
794 ctf_write_status,
795 ctf_write_uploaded_tsv,
796 ctf_write_uploaded_tp,
797 ctf_write_tdesc,
798 ctf_write_definition_end,
799 NULL,
800 &ctf_write_frame_ops,
801 ctf_end,
804 /* Return a trace writer for CTF format. */
806 struct trace_file_writer *
807 ctf_trace_file_writer_new (void)
809 struct ctf_trace_file_writer *writer = XNEW (struct ctf_trace_file_writer);
811 writer->base.ops = &ctf_write_ops;
813 return (struct trace_file_writer *) writer;
816 #if HAVE_LIBBABELTRACE
817 /* Use libbabeltrace to read CTF data. The libbabeltrace provides
818 iterator to iterate over each event in CTF data and APIs to get
819 details of event and packet, so it is very convenient to use
820 libbabeltrace to access events in CTF. */
822 #include <babeltrace/babeltrace.h>
823 #include <babeltrace/ctf/events.h>
824 #include <babeltrace/ctf/iterator.h>
826 /* The CTF target. */
828 static const target_info ctf_target_info = {
829 "ctf",
830 N_("CTF file"),
831 N_("(Use a CTF directory as a target.\n\
832 Specify the filename of the CTF directory.")
835 class ctf_target final : public tracefile_target
837 public:
838 const target_info &info () const override
839 { return ctf_target_info; }
841 void close () override;
842 void fetch_registers (struct regcache *, int) override;
843 enum target_xfer_status xfer_partial (enum target_object object,
844 const char *annex,
845 gdb_byte *readbuf,
846 const gdb_byte *writebuf,
847 ULONGEST offset, ULONGEST len,
848 ULONGEST *xfered_len) override;
849 void files_info () override;
850 int trace_find (enum trace_find_type type, int num,
851 CORE_ADDR addr1, CORE_ADDR addr2, int *tpp) override;
852 bool get_trace_state_variable_value (int tsv, LONGEST *val) override;
853 traceframe_info_up traceframe_info () override;
856 /* The struct pointer for current CTF directory. */
857 static struct bt_context *ctx = NULL;
858 static struct bt_ctf_iter *ctf_iter = NULL;
859 /* The position of the first packet containing trace frame. */
860 static struct bt_iter_pos *start_pos;
862 /* The name of CTF directory. */
863 static gdb::unique_xmalloc_ptr<char> trace_dirname;
865 static ctf_target ctf_ops;
867 /* Destroy ctf iterator and context. */
869 static void
870 ctf_destroy (void)
872 if (ctf_iter != NULL)
874 bt_ctf_iter_destroy (ctf_iter);
875 ctf_iter = NULL;
877 if (ctx != NULL)
879 bt_context_put (ctx);
880 ctx = NULL;
884 /* Open CTF trace data in DIRNAME. */
886 static void
887 ctf_open_dir (const char *dirname)
889 struct bt_iter_pos begin_pos;
890 unsigned int count, i;
891 struct bt_ctf_event_decl * const *list;
893 ctx = bt_context_create ();
894 if (ctx == NULL)
895 error (_("Unable to create bt_context"));
896 int handle_id = bt_context_add_trace (ctx, dirname, "ctf", NULL, NULL, NULL);
897 if (handle_id < 0)
899 ctf_destroy ();
900 error (_("Unable to use libbabeltrace on directory \"%s\""),
901 dirname);
904 begin_pos.type = BT_SEEK_BEGIN;
905 ctf_iter = bt_ctf_iter_create (ctx, &begin_pos, NULL);
906 if (ctf_iter == NULL)
908 ctf_destroy ();
909 error (_("Unable to create bt_iterator"));
912 /* Look for the declaration of register block. Get the length of
913 array "contents" to set trace_regblock_size. */
915 bt_ctf_get_event_decl_list (handle_id, ctx, &list, &count);
916 for (i = 0; i < count; i++)
917 if (strcmp ("register", bt_ctf_get_decl_event_name (list[i])) == 0)
919 const struct bt_ctf_field_decl * const *field_list;
920 const struct bt_declaration *decl;
922 bt_ctf_get_decl_fields (list[i], BT_EVENT_FIELDS, &field_list,
923 &count);
925 gdb_assert (count == 1);
926 gdb_assert (0 == strcmp ("contents",
927 bt_ctf_get_decl_field_name (field_list[0])));
928 decl = bt_ctf_get_decl_from_field_decl (field_list[0]);
929 trace_regblock_size = bt_ctf_get_array_len (decl);
931 break;
935 #define SET_INT32_FIELD(EVENT, SCOPE, VAR, FIELD) \
936 (VAR)->FIELD = (int) bt_ctf_get_int64 (bt_ctf_get_field ((EVENT), \
937 (SCOPE), \
938 #FIELD))
940 #define SET_ENUM_FIELD(EVENT, SCOPE, VAR, TYPE, FIELD) \
941 (VAR)->FIELD = (TYPE) bt_ctf_get_int64 (bt_ctf_get_field ((EVENT), \
942 (SCOPE), \
943 #FIELD))
946 /* EVENT is the "status" event and TS is filled in. */
948 static void
949 ctf_read_status (struct bt_ctf_event *event, struct trace_status *ts)
951 const struct bt_definition *scope
952 = bt_ctf_get_top_level_scope (event, BT_EVENT_FIELDS);
954 SET_ENUM_FIELD (event, scope, ts, enum trace_stop_reason, stop_reason);
955 SET_INT32_FIELD (event, scope, ts, stopping_tracepoint);
956 SET_INT32_FIELD (event, scope, ts, traceframe_count);
957 SET_INT32_FIELD (event, scope, ts, traceframes_created);
958 SET_INT32_FIELD (event, scope, ts, buffer_free);
959 SET_INT32_FIELD (event, scope, ts, buffer_size);
960 SET_INT32_FIELD (event, scope, ts, disconnected_tracing);
961 SET_INT32_FIELD (event, scope, ts, circular_buffer);
963 bt_iter_next (bt_ctf_get_iter (ctf_iter));
966 /* Read the events "tsv_def" one by one, extract its contents and fill
967 in the list UPLOADED_TSVS. */
969 static void
970 ctf_read_tsv (struct uploaded_tsv **uploaded_tsvs)
972 gdb_assert (ctf_iter != NULL);
974 while (1)
976 struct bt_ctf_event *event;
977 const struct bt_definition *scope;
978 const struct bt_definition *def;
979 uint32_t event_id;
980 struct uploaded_tsv *utsv = NULL;
982 event = bt_ctf_iter_read_event (ctf_iter);
983 scope = bt_ctf_get_top_level_scope (event,
984 BT_STREAM_EVENT_HEADER);
985 event_id = bt_ctf_get_uint64 (bt_ctf_get_field (event, scope,
986 "id"));
987 if (event_id != CTF_EVENT_ID_TSV_DEF)
988 break;
990 scope = bt_ctf_get_top_level_scope (event,
991 BT_EVENT_FIELDS);
993 def = bt_ctf_get_field (event, scope, "number");
994 utsv = get_uploaded_tsv ((int32_t) bt_ctf_get_int64 (def),
995 uploaded_tsvs);
997 def = bt_ctf_get_field (event, scope, "builtin");
998 utsv->builtin = (int32_t) bt_ctf_get_int64 (def);
999 def = bt_ctf_get_field (event, scope, "initial_value");
1000 utsv->initial_value = bt_ctf_get_int64 (def);
1002 def = bt_ctf_get_field (event, scope, "name");
1003 utsv->name = xstrdup (bt_ctf_get_string (def));
1005 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1006 break;
1011 /* Read the value of element whose index is NUM from CTF and write it
1012 to the corresponding VAR->ARRAY. */
1014 #define SET_ARRAY_FIELD(EVENT, SCOPE, VAR, NUM, ARRAY) \
1015 do \
1017 uint32_t lu32, i; \
1018 const struct bt_definition *def; \
1020 lu32 = (uint32_t) bt_ctf_get_uint64 (bt_ctf_get_field ((EVENT), \
1021 (SCOPE), \
1022 #NUM)); \
1023 def = bt_ctf_get_field ((EVENT), (SCOPE), #ARRAY); \
1024 for (i = 0; i < lu32; i++) \
1026 const struct bt_definition *element \
1027 = bt_ctf_get_index ((EVENT), def, i); \
1029 (VAR)->ARRAY.emplace_back \
1030 (xstrdup (bt_ctf_get_string (element))); \
1033 while (0)
1035 /* Read a string from CTF and set VAR->FIELD. If the length of string
1036 is zero, set VAR->FIELD to NULL. */
1038 #define SET_STRING_FIELD(EVENT, SCOPE, VAR, FIELD) \
1039 do \
1041 const char *p = bt_ctf_get_string (bt_ctf_get_field ((EVENT), \
1042 (SCOPE), \
1043 #FIELD)); \
1045 if (strlen (p) > 0) \
1046 (VAR)->FIELD.reset (xstrdup (p)); \
1047 else \
1048 (VAR)->FIELD = NULL; \
1050 while (0)
1052 /* Read the events "tp_def" one by one, extract its contents and fill
1053 in the list UPLOADED_TPS. */
1055 static void
1056 ctf_read_tp (struct uploaded_tp **uploaded_tps)
1058 gdb_assert (ctf_iter != NULL);
1060 while (1)
1062 struct bt_ctf_event *event;
1063 const struct bt_definition *scope;
1064 uint32_t u32;
1065 int32_t int32;
1066 uint64_t u64;
1067 struct uploaded_tp *utp = NULL;
1069 event = bt_ctf_iter_read_event (ctf_iter);
1070 scope = bt_ctf_get_top_level_scope (event,
1071 BT_STREAM_EVENT_HEADER);
1072 u32 = bt_ctf_get_uint64 (bt_ctf_get_field (event, scope,
1073 "id"));
1074 if (u32 != CTF_EVENT_ID_TP_DEF)
1075 break;
1077 scope = bt_ctf_get_top_level_scope (event,
1078 BT_EVENT_FIELDS);
1079 int32 = (int32_t) bt_ctf_get_int64 (bt_ctf_get_field (event,
1080 scope,
1081 "number"));
1082 u64 = bt_ctf_get_uint64 (bt_ctf_get_field (event, scope,
1083 "addr"));
1084 utp = get_uploaded_tp (int32, u64, uploaded_tps);
1086 SET_INT32_FIELD (event, scope, utp, enabled);
1087 SET_INT32_FIELD (event, scope, utp, step);
1088 SET_INT32_FIELD (event, scope, utp, pass);
1089 SET_INT32_FIELD (event, scope, utp, hit_count);
1090 SET_ENUM_FIELD (event, scope, utp, enum bptype, type);
1092 /* Read 'cmd_strings'. */
1093 SET_ARRAY_FIELD (event, scope, utp, cmd_num, cmd_strings);
1094 /* Read 'actions'. */
1095 SET_ARRAY_FIELD (event, scope, utp, action_num, actions);
1096 /* Read 'step_actions'. */
1097 SET_ARRAY_FIELD (event, scope, utp, step_action_num,
1098 step_actions);
1100 SET_STRING_FIELD(event, scope, utp, at_string);
1101 SET_STRING_FIELD(event, scope, utp, cond_string);
1103 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1104 break;
1108 /* This is the implementation of target_ops method to_open. Open CTF
1109 trace data, read trace status, trace state variables and tracepoint
1110 definitions from the first packet. Set the start position at the
1111 second packet which contains events on trace blocks. */
1113 static void
1114 ctf_target_open (const char *args, int from_tty)
1116 struct bt_ctf_event *event;
1117 uint32_t event_id;
1118 const struct bt_definition *scope;
1119 struct uploaded_tsv *uploaded_tsvs = NULL;
1120 struct uploaded_tp *uploaded_tps = NULL;
1122 std::string dirname = extract_single_filename_arg (args);
1123 if (dirname.empty ())
1124 error (_("No CTF directory specified."));
1126 ctf_open_dir (dirname.c_str ());
1128 target_preopen (from_tty);
1130 /* Skip the first packet which about the trace status. The first
1131 event is "frame". */
1132 event = bt_ctf_iter_read_event (ctf_iter);
1133 scope = bt_ctf_get_top_level_scope (event, BT_STREAM_EVENT_HEADER);
1134 event_id = bt_ctf_get_uint64 (bt_ctf_get_field (event, scope, "id"));
1135 if (event_id != CTF_EVENT_ID_FRAME)
1136 error (_("Wrong event id of the first event"));
1137 /* The second event is "status". */
1138 bt_iter_next (bt_ctf_get_iter (ctf_iter));
1139 event = bt_ctf_iter_read_event (ctf_iter);
1140 scope = bt_ctf_get_top_level_scope (event, BT_STREAM_EVENT_HEADER);
1141 event_id = bt_ctf_get_uint64 (bt_ctf_get_field (event, scope, "id"));
1142 if (event_id != CTF_EVENT_ID_STATUS)
1143 error (_("Wrong event id of the second event"));
1144 ctf_read_status (event, current_trace_status ());
1146 ctf_read_tsv (&uploaded_tsvs);
1148 ctf_read_tp (&uploaded_tps);
1150 event = bt_ctf_iter_read_event (ctf_iter);
1151 /* EVENT can be NULL if we've already gone to the end of stream of
1152 events. */
1153 if (event != NULL)
1155 scope = bt_ctf_get_top_level_scope (event,
1156 BT_STREAM_EVENT_HEADER);
1157 event_id = bt_ctf_get_uint64 (bt_ctf_get_field (event,
1158 scope, "id"));
1159 if (event_id != CTF_EVENT_ID_FRAME)
1160 error (_("Wrong event id of the first event of the second packet"));
1163 start_pos = bt_iter_get_pos (bt_ctf_get_iter (ctf_iter));
1164 gdb_assert (start_pos->type == BT_SEEK_RESTORE);
1166 trace_dirname = make_unique_xstrdup (dirname.c_str ());
1167 current_inferior ()->push_target (&ctf_ops);
1169 inferior_appeared (current_inferior (), CTF_PID);
1171 thread_info *thr = add_thread_silent (&ctf_ops, ptid_t (CTF_PID));
1172 switch_to_thread (thr);
1174 merge_uploaded_trace_state_variables (&uploaded_tsvs);
1175 merge_uploaded_tracepoints (&uploaded_tps);
1177 post_create_inferior (from_tty);
1180 /* This is the implementation of target_ops method to_close. Destroy
1181 CTF iterator and context. */
1183 void
1184 ctf_target::close ()
1186 ctf_destroy ();
1187 trace_dirname.reset ();
1189 switch_to_no_thread (); /* Avoid confusion from thread stuff. */
1190 exit_inferior (current_inferior ());
1192 trace_reset_local_state ();
1195 /* This is the implementation of target_ops method to_files_info.
1196 Print the directory name of CTF trace data. */
1198 void
1199 ctf_target::files_info ()
1201 gdb_printf ("\t`%s'\n", trace_dirname.get ());
1204 /* This is the implementation of target_ops method to_fetch_registers.
1205 Iterate over events whose name is "register" in current frame,
1206 extract contents from events, and set REGCACHE with the contents.
1207 If no matched events are found, mark registers unavailable. */
1209 void
1210 ctf_target::fetch_registers (struct regcache *regcache, int regno)
1212 struct gdbarch *gdbarch = regcache->arch ();
1213 struct bt_ctf_event *event = NULL;
1214 struct bt_iter_pos *pos;
1216 /* An uninitialized reg size says we're not going to be
1217 successful at getting register blocks. */
1218 if (trace_regblock_size == 0)
1219 return;
1221 gdb_assert (ctf_iter != NULL);
1222 /* Save the current position. */
1223 pos = bt_iter_get_pos (bt_ctf_get_iter (ctf_iter));
1224 gdb_assert (pos->type == BT_SEEK_RESTORE);
1226 while (1)
1228 const char *name;
1229 struct bt_ctf_event *event1;
1231 event1 = bt_ctf_iter_read_event (ctf_iter);
1233 name = bt_ctf_event_name (event1);
1235 if (name == NULL || strcmp (name, "frame") == 0)
1236 break;
1237 else if (strcmp (name, "register") == 0)
1239 event = event1;
1240 break;
1243 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1244 break;
1247 /* Restore the position. */
1248 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), pos);
1250 if (event != NULL)
1252 int offset, regsize, regn;
1253 const struct bt_definition *scope
1254 = bt_ctf_get_top_level_scope (event,
1255 BT_EVENT_FIELDS);
1256 const struct bt_definition *array
1257 = bt_ctf_get_field (event, scope, "contents");
1258 gdb_byte *regs = (gdb_byte *) bt_ctf_get_char_array (array);
1260 /* Assume the block is laid out in GDB register number order,
1261 each register with the size that it has in GDB. */
1262 offset = 0;
1263 for (regn = 0; regn < gdbarch_num_regs (gdbarch); regn++)
1265 regsize = register_size (gdbarch, regn);
1266 /* Make sure we stay within block bounds. */
1267 if (offset + regsize >= trace_regblock_size)
1268 break;
1269 if (regcache->get_register_status (regn) == REG_UNKNOWN)
1271 if (regno == regn)
1273 regcache->raw_supply (regno, regs + offset);
1274 break;
1276 else if (regno == -1)
1278 regcache->raw_supply (regn, regs + offset);
1281 offset += regsize;
1284 else
1285 tracefile_fetch_registers (regcache, regno);
1288 /* This is the implementation of target_ops method to_xfer_partial.
1289 Iterate over events whose name is "memory" in
1290 current frame, extract the address and length from events. If
1291 OFFSET is within the range, read the contents from events to
1292 READBUF. */
1294 enum target_xfer_status
1295 ctf_target::xfer_partial (enum target_object object,
1296 const char *annex, gdb_byte *readbuf,
1297 const gdb_byte *writebuf, ULONGEST offset,
1298 ULONGEST len, ULONGEST *xfered_len)
1300 /* We're only doing regular memory for now. */
1301 if (object != TARGET_OBJECT_MEMORY)
1302 return TARGET_XFER_E_IO;
1304 if (readbuf == NULL)
1305 error (_("ctf_xfer_partial: trace file is read-only"));
1307 if (get_traceframe_number () != -1)
1309 struct bt_iter_pos *pos;
1310 enum target_xfer_status res;
1311 /* Records the lowest available address of all blocks that
1312 intersects the requested range. */
1313 ULONGEST low_addr_available = 0;
1315 gdb_assert (ctf_iter != NULL);
1316 /* Save the current position. */
1317 pos = bt_iter_get_pos (bt_ctf_get_iter (ctf_iter));
1318 gdb_assert (pos->type == BT_SEEK_RESTORE);
1320 /* Iterate through the traceframe's blocks, looking for
1321 memory. */
1322 while (1)
1324 ULONGEST amt;
1325 uint64_t maddr;
1326 uint16_t mlen;
1327 const struct bt_definition *scope;
1328 const struct bt_definition *def;
1329 struct bt_ctf_event *event
1330 = bt_ctf_iter_read_event (ctf_iter);
1331 const char *name = bt_ctf_event_name (event);
1333 if (name == NULL || strcmp (name, "frame") == 0)
1334 break;
1335 else if (strcmp (name, "memory") != 0)
1337 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1338 break;
1340 continue;
1343 scope = bt_ctf_get_top_level_scope (event,
1344 BT_EVENT_FIELDS);
1346 def = bt_ctf_get_field (event, scope, "address");
1347 maddr = bt_ctf_get_uint64 (def);
1348 def = bt_ctf_get_field (event, scope, "length");
1349 mlen = (uint16_t) bt_ctf_get_uint64 (def);
1351 /* If the block includes the first part of the desired
1352 range, return as much it has; GDB will re-request the
1353 remainder, which might be in a different block of this
1354 trace frame. */
1355 if (maddr <= offset && offset < (maddr + mlen))
1357 const struct bt_definition *array
1358 = bt_ctf_get_field (event, scope, "contents");
1359 int k;
1361 gdb::byte_vector contents (mlen);
1363 for (k = 0; k < mlen; k++)
1365 const struct bt_definition *element
1366 = bt_ctf_get_index (event, array, k);
1368 contents[k] = (gdb_byte) bt_ctf_get_uint64 (element);
1371 amt = (maddr + mlen) - offset;
1372 if (amt > len)
1373 amt = len;
1375 memcpy (readbuf, &contents[offset - maddr], amt);
1377 /* Restore the position. */
1378 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), pos);
1380 if (amt == 0)
1381 return TARGET_XFER_EOF;
1382 else
1384 *xfered_len = amt;
1385 return TARGET_XFER_OK;
1389 if (offset < maddr && maddr < (offset + len))
1390 if (low_addr_available == 0 || low_addr_available > maddr)
1391 low_addr_available = maddr;
1393 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1394 break;
1397 /* Restore the position. */
1398 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), pos);
1400 /* Requested memory is unavailable in the context of traceframes,
1401 and this address falls within a read-only section, fallback
1402 to reading from executable, up to LOW_ADDR_AVAILABLE */
1403 if (offset < low_addr_available)
1404 len = std::min (len, low_addr_available - offset);
1405 res = exec_read_partial_read_only (readbuf, offset, len, xfered_len);
1407 if (res == TARGET_XFER_OK)
1408 return TARGET_XFER_OK;
1409 else
1411 /* No use trying further, we know some memory starting
1412 at MEMADDR isn't available. */
1413 *xfered_len = len;
1414 return TARGET_XFER_UNAVAILABLE;
1417 else
1419 /* Fallback to reading from read-only sections. */
1420 return section_table_read_available_memory (readbuf, offset, len, xfered_len);
1424 /* This is the implementation of target_ops method
1425 to_get_trace_state_variable_value.
1426 Iterate over events whose name is "tsv" in current frame. When the
1427 trace variable is found, set the value of it to *VAL and return
1428 true, otherwise return false. */
1430 bool
1431 ctf_target::get_trace_state_variable_value (int tsvnum, LONGEST *val)
1433 struct bt_iter_pos *pos;
1434 bool found = false;
1436 gdb_assert (ctf_iter != NULL);
1437 /* Save the current position. */
1438 pos = bt_iter_get_pos (bt_ctf_get_iter (ctf_iter));
1439 gdb_assert (pos->type == BT_SEEK_RESTORE);
1441 /* Iterate through the traceframe's blocks, looking for 'V'
1442 block. */
1443 while (1)
1445 struct bt_ctf_event *event
1446 = bt_ctf_iter_read_event (ctf_iter);
1447 const char *name = bt_ctf_event_name (event);
1449 if (name == NULL || strcmp (name, "frame") == 0)
1450 break;
1451 else if (strcmp (name, "tsv") == 0)
1453 const struct bt_definition *scope;
1454 const struct bt_definition *def;
1456 scope = bt_ctf_get_top_level_scope (event,
1457 BT_EVENT_FIELDS);
1459 def = bt_ctf_get_field (event, scope, "num");
1460 if (tsvnum == (int32_t) bt_ctf_get_uint64 (def))
1462 def = bt_ctf_get_field (event, scope, "val");
1463 *val = bt_ctf_get_uint64 (def);
1465 found = true;
1469 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1470 break;
1473 /* Restore the position. */
1474 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), pos);
1476 return found;
1479 /* Return the tracepoint number in "frame" event. */
1481 static int
1482 ctf_get_tpnum_from_frame_event (struct bt_ctf_event *event)
1484 /* The packet context of events has a field "tpnum". */
1485 const struct bt_definition *scope
1486 = bt_ctf_get_top_level_scope (event, BT_STREAM_PACKET_CONTEXT);
1487 uint64_t tpnum
1488 = bt_ctf_get_uint64 (bt_ctf_get_field (event, scope, "tpnum"));
1490 return (int) tpnum;
1493 /* Return the address at which the current frame was collected. */
1495 static CORE_ADDR
1496 ctf_get_traceframe_address (void)
1498 struct bt_ctf_event *event = NULL;
1499 struct bt_iter_pos *pos;
1500 CORE_ADDR addr = 0;
1502 gdb_assert (ctf_iter != NULL);
1503 pos = bt_iter_get_pos (bt_ctf_get_iter (ctf_iter));
1504 gdb_assert (pos->type == BT_SEEK_RESTORE);
1506 while (1)
1508 const char *name;
1509 struct bt_ctf_event *event1;
1511 event1 = bt_ctf_iter_read_event (ctf_iter);
1513 name = bt_ctf_event_name (event1);
1515 if (name == NULL)
1516 break;
1517 else if (strcmp (name, "frame") == 0)
1519 event = event1;
1520 break;
1523 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1524 break;
1527 if (event != NULL)
1529 int tpnum = ctf_get_tpnum_from_frame_event (event);
1530 struct tracepoint *tp
1531 = get_tracepoint_by_number_on_target (tpnum);
1533 if (tp != nullptr && tp->has_locations ())
1534 addr = tp->first_loc ().address;
1537 /* Restore the position. */
1538 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), pos);
1540 return addr;
1543 /* This is the implementation of target_ops method to_trace_find.
1544 Iterate the events whose name is "frame", extract the tracepoint
1545 number in it. Return traceframe number when matched. */
1548 ctf_target::trace_find (enum trace_find_type type, int num,
1549 CORE_ADDR addr1, CORE_ADDR addr2, int *tpp)
1551 int tfnum = 0;
1552 int found = 0;
1554 if (num == -1)
1556 if (tpp != NULL)
1557 *tpp = -1;
1558 return -1;
1561 gdb_assert (ctf_iter != NULL);
1562 /* Set iterator back to the start. */
1563 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), start_pos);
1565 while (1)
1567 struct bt_ctf_event *event;
1568 const char *name;
1570 event = bt_ctf_iter_read_event (ctf_iter);
1572 name = bt_ctf_event_name (event);
1574 if (event == NULL || name == NULL)
1575 break;
1577 if (strcmp (name, "frame") == 0)
1579 CORE_ADDR tfaddr;
1581 if (type == tfind_number)
1583 /* Looking for a specific trace frame. */
1584 if (tfnum == num)
1585 found = 1;
1587 else
1589 /* Start from the _next_ trace frame. */
1590 if (tfnum > get_traceframe_number ())
1592 switch (type)
1594 case tfind_tp:
1596 struct tracepoint *tp = get_tracepoint (num);
1598 if (tp != NULL
1599 && (tp->number_on_target
1600 == ctf_get_tpnum_from_frame_event (event)))
1601 found = 1;
1602 break;
1604 case tfind_pc:
1605 tfaddr = ctf_get_traceframe_address ();
1606 if (tfaddr == addr1)
1607 found = 1;
1608 break;
1609 case tfind_range:
1610 tfaddr = ctf_get_traceframe_address ();
1611 if (addr1 <= tfaddr && tfaddr <= addr2)
1612 found = 1;
1613 break;
1614 case tfind_outside:
1615 tfaddr = ctf_get_traceframe_address ();
1616 if (!(addr1 <= tfaddr && tfaddr <= addr2))
1617 found = 1;
1618 break;
1619 default:
1620 internal_error (_("unknown tfind type"));
1624 if (found)
1626 if (tpp != NULL)
1627 *tpp = ctf_get_tpnum_from_frame_event (event);
1629 /* Skip the event "frame". */
1630 bt_iter_next (bt_ctf_get_iter (ctf_iter));
1632 return tfnum;
1634 tfnum++;
1637 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1638 break;
1641 return -1;
1644 /* This is the implementation of target_ops method to_traceframe_info.
1645 Iterate the events whose name is "memory", in current
1646 frame, extract memory range information, and return them in
1647 traceframe_info. */
1649 traceframe_info_up
1650 ctf_target::traceframe_info ()
1652 traceframe_info_up info (new struct traceframe_info);
1653 const char *name;
1654 struct bt_iter_pos *pos;
1656 gdb_assert (ctf_iter != NULL);
1657 /* Save the current position. */
1658 pos = bt_iter_get_pos (bt_ctf_get_iter (ctf_iter));
1659 gdb_assert (pos->type == BT_SEEK_RESTORE);
1663 struct bt_ctf_event *event
1664 = bt_ctf_iter_read_event (ctf_iter);
1666 name = bt_ctf_event_name (event);
1668 if (name == NULL || strcmp (name, "register") == 0
1669 || strcmp (name, "frame") == 0)
1671 else if (strcmp (name, "memory") == 0)
1673 const struct bt_definition *scope
1674 = bt_ctf_get_top_level_scope (event,
1675 BT_EVENT_FIELDS);
1676 const struct bt_definition *def;
1678 def = bt_ctf_get_field (event, scope, "address");
1679 CORE_ADDR start = bt_ctf_get_uint64 (def);
1681 def = bt_ctf_get_field (event, scope, "length");
1682 int length = (uint16_t) bt_ctf_get_uint64 (def);
1684 info->memory.emplace_back (start, length);
1686 else if (strcmp (name, "tsv") == 0)
1688 int vnum;
1689 const struct bt_definition *scope
1690 = bt_ctf_get_top_level_scope (event,
1691 BT_EVENT_FIELDS);
1692 const struct bt_definition *def;
1694 def = bt_ctf_get_field (event, scope, "num");
1695 vnum = (int) bt_ctf_get_uint64 (def);
1696 info->tvars.push_back (vnum);
1698 else
1700 warning (_("Unhandled trace block type (%s) "
1701 "while building trace frame info."),
1702 name);
1705 if (bt_iter_next (bt_ctf_get_iter (ctf_iter)) < 0)
1706 break;
1708 while (name != NULL && strcmp (name, "frame") != 0);
1710 /* Restore the position. */
1711 bt_iter_set_pos (bt_ctf_get_iter (ctf_iter), pos);
1713 return info;
1716 #endif
1718 /* module initialization */
1720 void _initialize_ctf ();
1721 void
1722 _initialize_ctf ()
1724 #if HAVE_LIBBABELTRACE
1725 add_target (ctf_target_info, ctf_target_open,
1726 filename_maybe_quoted_completer);
1727 #endif