1 /* This file is part of the Linux Trace Toolkit viewer
2 * Copyright (C) 2005 Mathieu Desnoyers
4 * Complete rewrite from the original version made by XangXiu Yang.
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License Version 2.1 as published by the Free Software Foundation.
10 * This library is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * Lesser General Public License for more details.
15 * You should have received a copy of the GNU Lesser General Public
16 * License along with this library; if not, write to the
17 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
18 * Boston, MA 02111-1307, USA.
30 #include <sys/types.h>
45 #include "ltt-private.h"
46 #include <ltt/trace.h>
47 #include <ltt/event.h>
48 #include <ltt/ltt-types.h>
49 #include <ltt/marker.h>
51 /* Tracefile names used in this file */
53 GQuark LTT_TRACEFILE_NAME_METADATA
;
60 #define __UNUSED__ __attribute__((__unused__))
62 #define g_info(format...) g_log (G_LOG_DOMAIN, G_LOG_LEVEL_INFO, format)
65 #define g_debug(format...) g_log (G_LOG_DOMAIN, G_LOG_LEVEL_DEBUG, format)
70 /* Those macros must be called from within a function where page_size is a known
72 #define PAGE_MASK (~(page_size-1))
73 #define PAGE_ALIGN(addr) (((addr)+page_size-1)&PAGE_MASK)
75 LttTrace
*father_trace
= NULL
;
77 /* set the offset of the fields belonging to the event,
78 need the information of the archecture */
79 //void set_fields_offsets(LttTracefile *tf, LttEventType *event_type);
80 //size_t get_fields_offsets(LttTracefile *tf, LttEventType *event_type, void *data);
83 /* get the size of the field type according to
84 * The facility size information. */
85 static inline void preset_field_type_size(LttTracefile
*tf
,
86 LttEventType
*event_type
,
87 off_t offset_root
, off_t offset_parent
,
88 enum field_status
*fixed_root
, enum field_status
*fixed_parent
,
92 /* map a fixed size or a block information from the file (fd) */
93 static gint
map_block(LttTracefile
* tf
, guint block_num
);
95 /* calculate nsec per cycles for current block */
97 static guint32
calc_nsecs_per_cycle(LttTracefile
* t
);
98 static guint64
cycles_2_ns(LttTracefile
*tf
, guint64 cycles
);
101 /* go to the next event */
102 static int ltt_seek_next_event(LttTracefile
*tf
);
104 static int open_tracefiles(LttTrace
*trace
, gchar
*root_path
,
105 gchar
*relative_path
);
106 static int ltt_process_metadata_tracefile(LttTracefile
*tf
);
107 static void ltt_tracefile_time_span_get(LttTracefile
*tf
,
108 LttTime
*start
, LttTime
*end
);
109 static void group_time_span_get(GQuark name
, gpointer data
, gpointer user_data
);
110 static gint
map_block(LttTracefile
* tf
, guint block_num
);
111 static void ltt_update_event_size(LttTracefile
*tf
);
113 /* Enable event debugging */
114 static int a_event_debug
= 0;
116 void ltt_event_debug(int state
)
118 a_event_debug
= state
;
123 * Return value : 0 success, 1 bad tracefile
125 static int parse_trace_header(ltt_subbuffer_header_t
*header
,
126 LttTracefile
*tf
, LttTrace
*t
)
128 if (header
->magic_number
== LTT_MAGIC_NUMBER
)
130 else if(header
->magic_number
== LTT_REV_MAGIC_NUMBER
)
132 else /* invalid magic number, bad tracefile ! */
136 t
->ltt_major_version
= header
->major_version
;
137 t
->ltt_minor_version
= header
->minor_version
;
138 t
->arch_size
= header
->arch_size
;
140 tf
->alignment
= header
->alignment
;
142 /* Get float byte order : might be different from int byte order
143 * (or is set to 0 if the trace has no float (kernel trace)) */
144 tf
->float_word_order
= 0;
146 switch(header
->major_version
) {
149 g_warning("Unsupported trace version : %hhu.%hhu",
150 header
->major_version
, header
->minor_version
);
154 switch(header
->minor_version
) {
157 struct ltt_subbuffer_header_2_0
*vheader
= header
;
158 tf
->buffer_header_size
= sizeof(struct ltt_subbuffer_header_2_0
) ;
161 tf
->tsc_mask
= ((1ULL << tf
->tscbits
) - 1);
162 tf
->tsc_mask_next_bit
= (1ULL << tf
->tscbits
);
165 t
->start_freq
= ltt_get_uint64(LTT_GET_BO(tf
),
166 &vheader
->start_freq
);
167 t
->freq_scale
= ltt_get_uint32(LTT_GET_BO(tf
),
168 &vheader
->freq_scale
);
170 t
->start_freq
= father_trace
->start_freq
;
171 t
->freq_scale
= father_trace
->freq_scale
;
175 t
->start_tsc
= ltt_get_uint64(LTT_GET_BO(tf
),
176 &vheader
->cycle_count_begin
);
177 t
->start_monotonic
= 0;
178 t
->start_time
.tv_sec
= ltt_get_uint64(LTT_GET_BO(tf
),
179 &vheader
->start_time_sec
);
180 t
->start_time
.tv_nsec
= ltt_get_uint64(LTT_GET_BO(tf
),
181 &vheader
->start_time_usec
);
182 t
->start_time
.tv_nsec
*= 1000; /* microsec to nanosec */
184 t
->start_time_from_tsc
= ltt_time_from_uint64(
186 * (1000000000.0 / tf
->trace
->freq_scale
)
187 / (double)t
->start_freq
);
192 g_warning("Unsupported trace version : %hhu.%hhu",
193 header
->major_version
, header
->minor_version
);
198 g_warning("Unsupported trace version : %hhu.%hhu",
199 header
->major_version
, header
->minor_version
);
207 /*****************************************************************************
209 * ltt_tracefile_open : open a trace file, construct a LttTracefile
211 * t : the trace containing the tracefile
212 * fileName : path name of the trace file
213 * tf : the tracefile structure
215 * : 0 for success, -1 otherwise.
216 ****************************************************************************/
218 static gint
ltt_tracefile_open(LttTrace
*t
, gchar
* fileName
, LttTracefile
*tf
)
220 struct stat lTDFStat
; /* Trace data file status */
221 ltt_subbuffer_header_t
*header
;
222 int page_size
= getpagesize();
225 tf
->long_name
= g_quark_from_string(fileName
);
227 tf
->fd
= open(fileName
, O_RDONLY
);
229 g_warning("Unable to open input data file %s\n", fileName
);
233 // Get the file's status
234 if(fstat(tf
->fd
, &lTDFStat
) < 0){
235 g_warning("Unable to get the status of the input data file %s\n", fileName
);
239 // Is the file large enough to contain a trace
240 if(lTDFStat
.st_size
<
241 (off_t
)(sizeof(ltt_subbuffer_header_t
))){
242 g_print("The input data file %s does not contain a trace\n", fileName
);
246 /* Temporarily map the buffer start header to get trace information */
247 /* Multiple of pages aligned head */
248 tf
->buffer
.head
= mmap(0,
249 PAGE_ALIGN(sizeof(ltt_subbuffer_header_t
)), PROT_READ
,
250 MAP_PRIVATE
, tf
->fd
, 0);
251 if(tf
->buffer
.head
== MAP_FAILED
) {
252 perror("Error in allocating memory for buffer of tracefile");
255 g_assert( ( (gulong
)tf
->buffer
.head
&(8-1) ) == 0); // make sure it's aligned.
257 header
= (ltt_subbuffer_header_t
*)tf
->buffer
.head
;
259 if(parse_trace_header(header
, tf
, NULL
)) {
260 g_warning("parse_trace_header error");
264 //store the size of the file
265 tf
->file_size
= lTDFStat
.st_size
;
266 tf
->buf_size
= ltt_get_uint32(LTT_GET_BO(tf
), &header
->buf_size
);
267 tf
->num_blocks
= tf
->file_size
/ tf
->buf_size
;
269 if(munmap(tf
->buffer
.head
,
270 PAGE_ALIGN(sizeof(ltt_subbuffer_header_t
)))) {
271 g_warning("unmap size : %u\n",
272 PAGE_ALIGN(sizeof(ltt_subbuffer_header_t
)));
273 perror("munmap error");
276 tf
->buffer
.head
= NULL
;
278 //read the first block
279 if(map_block(tf
,0)) {
280 perror("Cannot map block for tracefile");
288 if(munmap(tf
->buffer
.head
,
289 PAGE_ALIGN(sizeof(ltt_subbuffer_header_t
)))) {
290 g_warning("unmap size : %u\n",
291 PAGE_ALIGN(sizeof(ltt_subbuffer_header_t
)));
292 perror("munmap error");
302 /*****************************************************************************
304 * ltt_tracefile_close: close a trace file,
306 * t : tracefile which will be closed
307 ****************************************************************************/
309 static void ltt_tracefile_close(LttTracefile
*t
)
311 int page_size
= getpagesize();
313 if(t
->buffer
.head
!= NULL
)
314 if(munmap(t
->buffer
.head
, PAGE_ALIGN(t
->buf_size
))) {
315 g_warning("unmap size : %u\n",
316 PAGE_ALIGN(t
->buf_size
));
317 perror("munmap error");
324 /****************************************************************************
325 * get_absolute_pathname
327 * return the unique pathname in the system
329 * MD : Fixed this function so it uses realpath, dealing well with
330 * forgotten cases (.. were not used correctly before).
332 ****************************************************************************/
333 void get_absolute_pathname(const gchar
*pathname
, gchar
* abs_pathname
)
335 abs_pathname
[0] = '\0';
337 if (realpath(pathname
, abs_pathname
) != NULL
)
341 /* error, return the original path unmodified */
342 strcpy(abs_pathname
, pathname
);
348 /* Search for something like : .*_.*
350 * The left side is the name, the right side is the number.
353 static int get_tracefile_name_number(gchar
*raw_name
,
360 guint raw_name_len
= strlen(raw_name
);
361 gchar char_name
[PATH_MAX
];
368 for(i
=raw_name_len
-1;i
>=0;i
--) {
369 if(raw_name
[i
] == '_') break;
371 if(i
==-1) { /* Either not found or name length is 0 */
372 /* This is a userspace tracefile */
373 strncpy(char_name
, raw_name
, raw_name_len
);
374 char_name
[raw_name_len
] = '\0';
375 *name
= g_quark_from_string(char_name
);
376 *num
= 0; /* unknown cpu */
377 for(i
=0;i
<raw_name_len
;i
++) {
378 if(raw_name
[i
] == '/') {
383 for(;i
<raw_name_len
;i
++) {
384 if(raw_name
[i
] == '/') {
389 for(;i
<raw_name_len
;i
++) {
390 if(raw_name
[i
] == '-') {
394 if(i
== raw_name_len
) return -1;
396 tmpptr
= &raw_name
[i
];
397 for(;i
<raw_name_len
;i
++) {
398 if(raw_name
[i
] == '.') {
403 *tid
= strtoul(tmpptr
, &endptr
, 10);
405 return -1; /* No digit */
406 if(*tid
== ULONG_MAX
)
407 return -1; /* underflow / overflow */
409 tmpptr
= &raw_name
[i
];
410 for(;i
<raw_name_len
;i
++) {
411 if(raw_name
[i
] == '.') {
416 *pgid
= strtoul(tmpptr
, &endptr
, 10);
418 return -1; /* No digit */
419 if(*pgid
== ULONG_MAX
)
420 return -1; /* underflow / overflow */
422 tmpptr
= &raw_name
[i
];
423 *creation
= strtoull(tmpptr
, &endptr
, 10);
425 return -1; /* No digit */
426 if(*creation
== G_MAXUINT64
)
427 return -1; /* underflow / overflow */
431 cpu_num
= strtol(raw_name
+underscore_pos
+1, &endptr
, 10);
433 if(endptr
== raw_name
+underscore_pos
+1)
434 return -1; /* No digit */
435 if(cpu_num
== LONG_MIN
|| cpu_num
== LONG_MAX
)
436 return -1; /* underflow / overflow */
438 strncpy(char_name
, raw_name
, underscore_pos
);
439 char_name
[underscore_pos
] = '\0';
441 *name
= g_quark_from_string(char_name
);
450 GData
**ltt_trace_get_tracefiles_groups(LttTrace
*trace
)
452 return &trace
->tracefiles
;
456 void compute_tracefile_group(GQuark key_id
,
458 struct compute_tracefile_group_args
*args
)
463 for(i
=0; i
<group
->len
; i
++) {
464 tf
= &g_array_index (group
, LttTracefile
, i
);
466 args
->func(tf
, args
->func_args
);
471 static void ltt_tracefile_group_destroy(gpointer data
)
473 GArray
*group
= (GArray
*)data
;
477 for(i
=0; i
<group
->len
; i
++) {
478 tf
= &g_array_index (group
, LttTracefile
, i
);
480 ltt_tracefile_close(tf
);
482 g_array_free(group
, TRUE
);
485 static gboolean
ltt_tracefile_group_has_cpu_online(gpointer data
)
487 GArray
*group
= (GArray
*)data
;
491 for(i
=0; i
<group
->len
; i
++) {
492 tf
= &g_array_index (group
, LttTracefile
, i
);
500 /* Open each tracefile under a specific directory. Put them in a
501 * GData : permits to access them using their tracefile group pathname.
502 * i.e. access control/modules tracefile group by index :
505 * relative path is the path relative to the trace root
506 * root path is the full path
508 * A tracefile group is simply an array where all the per cpu tracefiles sit.
511 static int open_tracefiles(LttTrace
*trace
, gchar
*root_path
, gchar
*relative_path
)
513 DIR *dir
= opendir(root_path
);
514 struct dirent
*entry
;
515 struct stat stat_buf
;
518 gchar path
[PATH_MAX
];
523 gchar rel_path
[PATH_MAX
];
532 strncpy(path
, root_path
, PATH_MAX
-1);
533 path_len
= strlen(path
);
534 path
[path_len
] = '/';
536 path_ptr
= path
+ path_len
;
538 strncpy(rel_path
, relative_path
, PATH_MAX
-1);
539 rel_path_len
= strlen(rel_path
);
540 rel_path
[rel_path_len
] = '/';
542 rel_path_ptr
= rel_path
+ rel_path_len
;
544 while((entry
= readdir(dir
)) != NULL
) {
546 if(entry
->d_name
[0] == '.') continue;
548 strncpy(path_ptr
, entry
->d_name
, PATH_MAX
- path_len
);
549 strncpy(rel_path_ptr
, entry
->d_name
, PATH_MAX
- rel_path_len
);
551 ret
= stat(path
, &stat_buf
);
557 g_debug("Tracefile file or directory : %s\n", path
);
559 // if(strcmp(rel_path, "/eventdefs") == 0) continue;
561 if(S_ISDIR(stat_buf
.st_mode
)) {
563 g_debug("Entering subdirectory...\n");
564 ret
= open_tracefiles(trace
, path
, rel_path
);
565 if(ret
< 0) continue;
566 } else if(S_ISREG(stat_buf
.st_mode
)) {
575 if(get_tracefile_name_number(rel_path
, &name
, &num
, &tid
, &pgid
, &creation
))
576 continue; /* invalid name */
578 g_debug("Opening file.\n");
579 if(ltt_tracefile_open(trace
, path
, &tmp_tf
)) {
580 g_info("Error opening tracefile %s", path
);
582 continue; /* error opening the tracefile : bad magic number ? */
585 g_debug("Tracefile name is %s and number is %u",
586 g_quark_to_string(name
), num
);
588 tmp_tf
.cpu_online
= 1;
589 tmp_tf
.cpu_num
= num
;
593 tmp_tf
.creation
= creation
;
594 group
= g_datalist_id_get_data(&trace
->tracefiles
, name
);
596 /* Elements are automatically cleared when the array is allocated.
597 * It makes the cpu_online variable set to 0 : cpu offline, by default.
599 group
= g_array_sized_new (FALSE
, TRUE
, sizeof(LttTracefile
), 10);
600 g_datalist_id_set_data_full(&trace
->tracefiles
, name
,
601 group
, ltt_tracefile_group_destroy
);
604 /* Add the per cpu tracefile to the named group */
605 unsigned int old_len
= group
->len
;
607 group
= g_array_set_size(group
, num
+1);
608 g_array_index (group
, LttTracefile
, num
) = tmp_tf
;
609 g_array_index (group
, LttTracefile
, num
).event
.tracefile
=
610 &g_array_index (group
, LttTracefile
, num
);
620 /* Presumes the tracefile is already seeked at the beginning. It makes sense,
621 * because it must be done just after the opening */
622 static int ltt_process_metadata_tracefile(LttTracefile
*tf
)
628 err
= ltt_tracefile_read_seek(tf
);
629 if(err
== EPERM
) goto seek_error
;
630 else if(err
== ERANGE
) break; /* End of tracefile */
632 err
= ltt_tracefile_read_update_event(tf
);
633 if(err
) goto update_error
;
636 * It contains only core events :
638 * 1 : set_marker_format
640 if(tf
->event
.event_id
>= MARKER_CORE_IDS
) {
641 /* Should only contain core events */
642 g_warning("Error in processing metadata file %s, "
643 "should not contain event id %u.", g_quark_to_string(tf
->name
),
649 const char *marker_name
, *format
;
651 guint8 int_size
, long_size
, pointer_size
, size_t_size
, alignment
;
653 switch((enum marker_id
)tf
->event
.event_id
) {
654 case MARKER_ID_SET_MARKER_ID
:
655 marker_name
= pos
= tf
->event
.data
;
656 g_debug("Doing MARKER_ID_SET_MARKER_ID of marker %s", marker_name
);
657 pos
+= strlen(marker_name
) + 1;
658 pos
+= ltt_align((size_t)pos
, sizeof(guint16
), tf
->alignment
);
659 id
= ltt_get_uint16(LTT_GET_BO(tf
), pos
);
660 g_debug("In MARKER_ID_SET_MARKER_ID of marker %s id %hu",
662 pos
+= sizeof(guint16
);
663 int_size
= *(guint8
*)pos
;
664 pos
+= sizeof(guint8
);
665 long_size
= *(guint8
*)pos
;
666 pos
+= sizeof(guint8
);
667 pointer_size
= *(guint8
*)pos
;
668 pos
+= sizeof(guint8
);
669 size_t_size
= *(guint8
*)pos
;
670 pos
+= sizeof(guint8
);
671 alignment
= *(guint8
*)pos
;
672 pos
+= sizeof(guint8
);
673 marker_id_event(tf
->trace
, g_quark_from_string(marker_name
),
674 id
, int_size
, long_size
,
675 pointer_size
, size_t_size
, alignment
);
677 case MARKER_ID_SET_MARKER_FORMAT
:
678 marker_name
= pos
= tf
->event
.data
;
679 g_debug("Doing MARKER_ID_SET_MARKER_FORMAT of marker %s",
681 pos
+= strlen(marker_name
) + 1;
683 pos
+= strlen(format
) + 1;
684 marker_format_event(tf
->trace
, g_quark_from_string(marker_name
),
686 /* get information from dictionary TODO */
689 g_warning("Error in processing metadata file %s, "
690 "unknown event id %hhu.",
691 g_quark_to_string(tf
->name
),
704 g_warning("An error occured in metadata tracefile parsing");
709 * Open a trace and return its LttTrace handle.
711 * pathname must be the directory of the trace
714 LttTrace
*ltt_trace_open(const gchar
*pathname
)
716 gchar abs_path
[PATH_MAX
];
721 ltt_subbuffer_header_t
*header
;
723 struct dirent
*entry
;
724 guint control_found
= 0;
725 struct stat stat_buf
;
726 gchar path
[PATH_MAX
];
728 t
= g_new(LttTrace
, 1);
729 if(!t
) goto alloc_error
;
731 get_absolute_pathname(pathname
, abs_path
);
732 t
->pathname
= g_quark_from_string(abs_path
);
734 g_datalist_init(&t
->tracefiles
);
736 /* Test to see if it looks like a trace */
737 dir
= opendir(abs_path
);
742 while((entry
= readdir(dir
)) != NULL
) {
743 strcpy(path
, abs_path
);
745 strcat(path
, entry
->d_name
);
746 ret
= stat(path
, &stat_buf
);
751 if(S_ISDIR(stat_buf
.st_mode
)) {
752 if(strcmp(entry
->d_name
, "control") == 0) {
759 if(!control_found
) goto find_error
;
761 /* Open all the tracefiles */
762 if(open_tracefiles(t
, abs_path
, "")) {
763 g_warning("Error opening tracefile %s", abs_path
);
767 /* Parse each trace control/metadata_N files : get runtime fac. info */
768 group
= g_datalist_id_get_data(&t
->tracefiles
, LTT_TRACEFILE_NAME_METADATA
);
770 g_error("Trace %s has no metadata tracefile", abs_path
);
775 /* Get the trace information for the control/metadata_0 tracefile */
776 g_assert(group
->len
> 0);
777 tf
= &g_array_index (group
, LttTracefile
, 0);
778 header
= (ltt_subbuffer_header_t
*)tf
->buffer
.head
;
779 g_assert(parse_trace_header(header
, tf
, t
) == 0);
781 t
->num_cpu
= group
->len
;
783 ret
= allocate_marker_data(t
);
785 g_error("Error in allocating marker data");
787 for(i
=0; i
<group
->len
; i
++) {
788 tf
= &g_array_index (group
, LttTracefile
, i
);
790 if(ltt_process_metadata_tracefile(tf
))
798 destroy_marker_data(t
);
800 g_datalist_clear(&t
->tracefiles
);
808 /* Open another, completely independant, instance of a trace.
810 * A read on this new instance will read the first event of the trace.
812 * When we copy a trace, we want all the opening actions to happen again :
813 * the trace will be reopened and totally independant from the original.
814 * That's why we call ltt_trace_open.
816 LttTrace
*ltt_trace_copy(LttTrace
*self
)
818 return ltt_trace_open(g_quark_to_string(self
->pathname
));
825 void ltt_trace_close(LttTrace
*t
)
827 g_datalist_clear(&t
->tracefiles
);
832 /*****************************************************************************
833 * Get the start time and end time of the trace
834 ****************************************************************************/
836 void ltt_tracefile_time_span_get(LttTracefile
*tf
,
837 LttTime
*start
, LttTime
*end
)
841 err
= map_block(tf
, 0);
843 g_error("Can not map block");
844 *start
= ltt_time_infinite
;
846 *start
= tf
->buffer
.begin
.timestamp
;
848 err
= map_block(tf
, tf
->num_blocks
- 1); /* Last block */
850 g_error("Can not map block");
851 *end
= ltt_time_zero
;
853 *end
= tf
->buffer
.end
.timestamp
;
856 struct tracefile_time_span_get_args
{
862 static void group_time_span_get(GQuark name
, gpointer data
, gpointer user_data
)
864 struct tracefile_time_span_get_args
*args
=
865 (struct tracefile_time_span_get_args
*)user_data
;
867 GArray
*group
= (GArray
*)data
;
873 for(i
=0; i
<group
->len
; i
++) {
874 tf
= &g_array_index (group
, LttTracefile
, i
);
876 ltt_tracefile_time_span_get(tf
, &tmp_start
, &tmp_end
);
877 if(ltt_time_compare(*args
->start
, tmp_start
)>0) *args
->start
= tmp_start
;
878 if(ltt_time_compare(*args
->end
, tmp_end
)<0) *args
->end
= tmp_end
;
883 /* return the start and end time of a trace */
885 void ltt_trace_time_span_get(LttTrace
*t
, LttTime
*start
, LttTime
*end
)
887 LttTime min_start
= ltt_time_infinite
;
888 LttTime max_end
= ltt_time_zero
;
889 struct tracefile_time_span_get_args args
= { t
, &min_start
, &max_end
};
891 g_datalist_foreach(&t
->tracefiles
, &group_time_span_get
, &args
);
893 if(start
!= NULL
) *start
= min_start
;
894 if(end
!= NULL
) *end
= max_end
;
899 /* Seek to the first event in a tracefile that has a time equal or greater than
900 * the time passed in parameter.
902 * If the time parameter is outside the tracefile time span, seek to the first
903 * event or if after, return ERANGE.
905 * If the time parameter is before the first event, we have to seek specially to
908 * If the time is after the end of the trace, return ERANGE.
910 * Do a binary search to find the right block, then a sequential search in the
911 * block to find the event.
913 * In the special case where the time requested fits inside a block that has no
914 * event corresponding to the requested time, the first event of the next block
917 * IMPORTANT NOTE : // FIXME everywhere...
919 * You MUST NOT do a ltt_tracefile_read right after a ltt_tracefile_seek_time :
920 * you will jump over an event if you do.
922 * Return value : 0 : no error, the tf->event can be used
923 * ERANGE : time if after the last event of the trace
924 * otherwise : this is an error.
928 int ltt_tracefile_seek_time(LttTracefile
*tf
, LttTime time
)
932 unsigned int block_num
, high
, low
;
934 /* seek at the beginning of trace */
935 err
= map_block(tf
, 0); /* First block */
937 g_error("Can not map block");
941 /* If the time is lower or equal the beginning of the trace,
942 * go to the first event. */
943 if(ltt_time_compare(time
, tf
->buffer
.begin
.timestamp
) <= 0) {
944 ret
= ltt_tracefile_read(tf
);
945 if(ret
== ERANGE
) goto range
;
946 else if (ret
) goto fail
;
947 goto found
; /* There is either no event in the trace or the event points
948 to the first event in the trace */
951 err
= map_block(tf
, tf
->num_blocks
- 1); /* Last block */
953 g_error("Can not map block");
957 /* If the time is after the end of the trace, return ERANGE. */
958 if(ltt_time_compare(time
, tf
->buffer
.end
.timestamp
) > 0) {
962 /* Binary search the block */
963 high
= tf
->num_blocks
- 1;
967 block_num
= ((high
-low
) / 2) + low
;
969 err
= map_block(tf
, block_num
);
971 g_error("Can not map block");
975 /* We cannot divide anymore : this is what would happen if the time
976 * requested was exactly between two consecutive buffers'end and start
977 * timestamps. This is also what would happend if we didn't deal with out
978 * of span cases prior in this function. */
979 /* The event is right in the buffer!
980 * (or in the next buffer first event) */
982 ret
= ltt_tracefile_read(tf
);
983 if(ret
== ERANGE
) goto range
; /* ERANGE or EPERM */
984 else if(ret
) goto fail
;
986 if(ltt_time_compare(time
, tf
->event
.event_time
) <= 0)
990 } else if(ltt_time_compare(time
, tf
->buffer
.begin
.timestamp
) < 0) {
991 /* go to lower part */
992 high
= block_num
- 1;
993 } else if(ltt_time_compare(time
, tf
->buffer
.end
.timestamp
) > 0) {
994 /* go to higher part */
996 } else {/* The event is right in the buffer!
997 (or in the next buffer first event) */
999 ret
= ltt_tracefile_read(tf
);
1000 if(ret
== ERANGE
) goto range
; /* ERANGE or EPERM */
1001 else if(ret
) goto fail
;
1003 if(ltt_time_compare(time
, tf
->event
.event_time
) <= 0)
1015 /* Error handling */
1017 g_error("ltt_tracefile_seek_time failed on tracefile %s",
1018 g_quark_to_string(tf
->name
));
1022 /* Seek to a position indicated by an LttEventPosition
1025 int ltt_tracefile_seek_position(LttTracefile
*tf
, const LttEventPosition
*ep
)
1029 if(ep
->tracefile
!= tf
) {
1033 err
= map_block(tf
, ep
->block
);
1035 g_error("Can not map block");
1039 tf
->event
.offset
= ep
->offset
;
1041 /* Put back the event real tsc */
1042 tf
->event
.tsc
= ep
->tsc
;
1043 tf
->buffer
.tsc
= ep
->tsc
;
1045 err
= ltt_tracefile_read_update_event(tf
);
1048 /* deactivate this, as it does nothing for now
1049 err = ltt_tracefile_read_op(tf);
1056 g_error("ltt_tracefile_seek_time failed on tracefile %s",
1057 g_quark_to_string(tf
->name
));
1061 /* Given a TSC value, return the LttTime (seconds,nanoseconds) it
1065 LttTime
ltt_interpolate_time_from_tsc(LttTracefile
*tf
, guint64 tsc
)
1069 if(tsc
> tf
->trace
->start_tsc
) {
1070 time
= ltt_time_from_uint64(
1071 (double)(tsc
- tf
->trace
->start_tsc
)
1072 * (1000000000.0 / tf
->trace
->freq_scale
)
1073 / (double)tf
->trace
->start_freq
);
1074 time
= ltt_time_add(tf
->trace
->start_time_from_tsc
, time
);
1076 time
= ltt_time_from_uint64(
1077 (double)(tf
->trace
->start_tsc
- tsc
)
1078 * (1000000000.0 / tf
->trace
->freq_scale
)
1079 / (double)tf
->trace
->start_freq
);
1080 time
= ltt_time_sub(tf
->trace
->start_time_from_tsc
, time
);
1085 /* Calculate the real event time based on the buffer boundaries */
1086 LttTime
ltt_interpolate_time(LttTracefile
*tf
, LttEvent
*event
)
1088 return ltt_interpolate_time_from_tsc(tf
, tf
->buffer
.tsc
);
1092 /* Get the current event of the tracefile : valid until the next read */
1093 LttEvent
*ltt_tracefile_get_event(LttTracefile
*tf
)
1100 /*****************************************************************************
1102 * ltt_tracefile_read : Read the next event in the tracefile
1107 * Returns 0 if an event can be used in tf->event.
1108 * Returns ERANGE on end of trace. The event in tf->event still can be used
1109 * (if the last block was not empty).
1110 * Returns EPERM on error.
1112 * This function does make the tracefile event structure point to the event
1113 * currently pointed to by the tf->event.
1115 * Note : you must call a ltt_tracefile_seek to the beginning of the trace to
1116 * reinitialize it after an error if you want results to be coherent.
1117 * It would be the case if a end of trace last buffer has no event : the end
1118 * of trace wouldn't be returned, but an error.
1119 * We make the assumption there is at least one event per buffer.
1120 ****************************************************************************/
1122 int ltt_tracefile_read(LttTracefile
*tf
)
1126 err
= ltt_tracefile_read_seek(tf
);
1128 err
= ltt_tracefile_read_update_event(tf
);
1131 /* deactivate this, as it does nothing for now
1132 err = ltt_tracefile_read_op(tf);
1139 int ltt_tracefile_read_seek(LttTracefile
*tf
)
1143 /* Get next buffer until we finally have an event, or end of trace */
1145 err
= ltt_seek_next_event(tf
);
1146 if(unlikely(err
== ENOPROTOOPT
)) {
1150 /* Are we at the end of the buffer ? */
1152 if(unlikely(tf
->buffer
.index
== tf
->num_blocks
-1)){ /* end of trace ? */
1155 /* get next block */
1156 err
= map_block(tf
, tf
->buffer
.index
+ 1);
1158 g_error("Can not map block");
1162 } else break; /* We found an event ! */
1168 /* do an operation when reading a new event */
1170 /* This function does nothing for now */
1172 int ltt_tracefile_read_op(LttTracefile
*tf
)
1178 /* do event specific operation */
1186 static void print_debug_event_header(LttEvent
*ev
, void *start_pos
, void *end_pos
)
1188 unsigned int offset
= 0;
1191 g_printf("Event header (tracefile %s offset %llx):\n",
1192 g_quark_to_string(ev
->tracefile
->long_name
),
1193 ((uint64_t)ev
->tracefile
->buffer
.index
* ev
->tracefile
->buf_size
)
1194 + (long)start_pos
- (long)ev
->tracefile
->buffer
.head
);
1196 while (offset
< (long)end_pos
- (long)start_pos
) {
1197 g_printf("%8lx", (long)start_pos
- (long)ev
->tracefile
->buffer
.head
+ offset
);
1200 for (i
= 0; i
< 4 ; i
++) {
1201 for (j
= 0; j
< 4; j
++) {
1202 if (offset
+ ((i
* 4) + j
) <
1203 (long)end_pos
- (long)start_pos
)
1205 ((char*)start_pos
)[offset
+ ((i
* 4) + j
)]);
1219 /* same as ltt_tracefile_read, but does not seek to the next event nor call
1220 * event specific operation. */
1221 int ltt_tracefile_read_update_event(LttTracefile
*tf
)
1228 pos
= tf
->buffer
.head
+ event
->offset
;
1230 /* Read event header */
1232 /* Align the head */
1233 pos
+= ltt_align((size_t)pos
, sizeof(guint32
), tf
->alignment
);
1236 event
->timestamp
= ltt_get_uint32(LTT_GET_BO(tf
), pos
);
1237 event
->event_id
= event
->timestamp
>> tf
->tscbits
;
1238 event
->timestamp
= event
->timestamp
& tf
->tsc_mask
;
1239 pos
+= sizeof(guint32
);
1241 switch (event
->event_id
) {
1242 case 29: /* LTT_RFLAG_ID_SIZE_TSC */
1243 event
->event_id
= ltt_get_uint16(LTT_GET_BO(tf
), pos
);
1244 pos
+= sizeof(guint16
);
1245 event
->event_size
= ltt_get_uint16(LTT_GET_BO(tf
), pos
);
1246 pos
+= sizeof(guint16
);
1247 if (event
->event_size
== 0xFFFF) {
1248 event
->event_size
= ltt_get_uint32(LTT_GET_BO(tf
), pos
);
1249 pos
+= sizeof(guint32
);
1251 pos
+= ltt_align((size_t)pos
, sizeof(guint64
), tf
->alignment
);
1252 tf
->buffer
.tsc
= ltt_get_uint64(LTT_GET_BO(tf
), pos
);
1253 pos
+= sizeof(guint64
);
1255 case 30: /* LTT_RFLAG_ID_SIZE */
1256 event
->event_id
= ltt_get_uint16(LTT_GET_BO(tf
), pos
);
1257 pos
+= sizeof(guint16
);
1258 event
->event_size
= ltt_get_uint16(LTT_GET_BO(tf
), pos
);
1259 pos
+= sizeof(guint16
);
1260 if (event
->event_size
== 0xFFFF) {
1261 event
->event_size
= ltt_get_uint32(LTT_GET_BO(tf
), pos
);
1262 pos
+= sizeof(guint32
);
1265 case 31: /* LTT_RFLAG_ID */
1266 event
->event_id
= ltt_get_uint16(LTT_GET_BO(tf
), pos
);
1267 pos
+= sizeof(guint16
);
1268 event
->event_size
= G_MAXUINT
;
1271 event
->event_size
= G_MAXUINT
;
1275 if (likely(event
->event_id
!= 29)) {
1276 /* No extended timestamp */
1277 if (event
->timestamp
< (tf
->buffer
.tsc
& tf
->tsc_mask
))
1278 tf
->buffer
.tsc
= ((tf
->buffer
.tsc
& ~tf
->tsc_mask
) /* overflow */
1279 + tf
->tsc_mask_next_bit
)
1280 | (guint64
)event
->timestamp
;
1282 tf
->buffer
.tsc
= (tf
->buffer
.tsc
& ~tf
->tsc_mask
) /* no overflow */
1283 | (guint64
)event
->timestamp
;
1285 event
->tsc
= tf
->buffer
.tsc
;
1287 event
->event_time
= ltt_interpolate_time(tf
, event
);
1290 print_debug_event_header(event
, pos_aligned
, pos
);
1295 * Let ltt_update_event_size update event->data according to the largest
1296 * alignment within the payload.
1297 * Get the data size and update the event fields with the current
1299 ltt_update_event_size(tf
);
1305 /****************************************************************************
1307 * map_block : map a block from the file
1309 * lttdes : ltt trace file
1310 * whichBlock : the block which will be read
1313 * EINVAL : lseek fail
1314 * EIO : can not read from the file
1315 ****************************************************************************/
1317 static gint
map_block(LttTracefile
* tf
, guint block_num
)
1319 int page_size
= getpagesize();
1320 ltt_subbuffer_header_t
*header
;
1322 g_assert(block_num
< tf
->num_blocks
);
1324 if(tf
->buffer
.head
!= NULL
) {
1325 if(munmap(tf
->buffer
.head
, PAGE_ALIGN(tf
->buf_size
))) {
1326 g_warning("unmap size : %u\n",
1327 PAGE_ALIGN(tf
->buf_size
));
1328 perror("munmap error");
1333 /* Multiple of pages aligned head */
1334 tf
->buffer
.head
= mmap(0,
1335 PAGE_ALIGN(tf
->buf_size
),
1336 PROT_READ
, MAP_PRIVATE
, tf
->fd
,
1337 PAGE_ALIGN((off_t
)tf
->buf_size
* (off_t
)block_num
));
1339 if(tf
->buffer
.head
== MAP_FAILED
) {
1340 perror("Error in allocating memory for buffer of tracefile");
1344 g_assert( ( (gulong
)tf
->buffer
.head
&(8-1) ) == 0); // make sure it's aligned.
1347 tf
->buffer
.index
= block_num
;
1349 header
= (ltt_subbuffer_header_t
*)tf
->buffer
.head
;
1351 tf
->buffer
.begin
.cycle_count
= ltt_get_uint64(LTT_GET_BO(tf
),
1352 &header
->cycle_count_begin
);
1353 tf
->buffer
.begin
.freq
= tf
->trace
->start_freq
;
1355 tf
->buffer
.begin
.timestamp
= ltt_interpolate_time_from_tsc(tf
,
1356 tf
->buffer
.begin
.cycle_count
);
1357 tf
->buffer
.end
.cycle_count
= ltt_get_uint64(LTT_GET_BO(tf
),
1358 &header
->cycle_count_end
);
1359 tf
->buffer
.end
.freq
= tf
->trace
->start_freq
;
1361 tf
->buffer
.lost_size
= ltt_get_uint32(LTT_GET_BO(tf
),
1362 &header
->lost_size
);
1363 tf
->buffer
.end
.timestamp
= ltt_interpolate_time_from_tsc(tf
,
1364 tf
->buffer
.end
.cycle_count
);
1365 tf
->buffer
.tsc
= tf
->buffer
.begin
.cycle_count
;
1366 tf
->event
.tsc
= tf
->buffer
.tsc
;
1367 tf
->buffer
.freq
= tf
->buffer
.begin
.freq
;
1370 * eventually support variable buffer size : will need a partial pre-read of
1371 * the headers to create an index when we open the trace... eventually. */
1372 g_assert(tf
->buf_size
== ltt_get_uint32(LTT_GET_BO(tf
),
1373 &header
->buf_size
));
1375 /* Make the current event point to the beginning of the buffer :
1376 * it means that the event read must get the first event. */
1377 tf
->event
.tracefile
= tf
;
1378 tf
->event
.block
= block_num
;
1379 tf
->event
.offset
= 0;
1387 static void print_debug_event_data(LttEvent
*ev
)
1389 unsigned int offset
= 0;
1392 if (!max(ev
->event_size
, ev
->data_size
))
1395 g_printf("Event data (tracefile %s offset %llx):\n",
1396 g_quark_to_string(ev
->tracefile
->long_name
),
1397 ((uint64_t)ev
->tracefile
->buffer
.index
* ev
->tracefile
->buf_size
)
1398 + (long)ev
->data
- (long)ev
->tracefile
->buffer
.head
);
1400 while (offset
< max(ev
->event_size
, ev
->data_size
)) {
1401 g_printf("%8lx", (long)ev
->data
+ offset
1402 - (long)ev
->tracefile
->buffer
.head
);
1405 for (i
= 0; i
< 4 ; i
++) {
1406 for (j
= 0; j
< 4; j
++) {
1407 if (offset
+ ((i
* 4) + j
) < max(ev
->event_size
, ev
->data_size
))
1408 g_printf("%02hhX", ((char*)ev
->data
)[offset
+ ((i
* 4) + j
)]);
1419 for (i
= 0; i
< 4; i
++) {
1420 for (j
= 0; j
< 4; j
++) {
1421 if (offset
+ ((i
* 4) + j
) < max(ev
->event_size
, ev
->data_size
)) {
1422 if (isprint(((char*)ev
->data
)[offset
+ ((i
* 4) + j
)]))
1423 g_printf("%c", ((char*)ev
->data
)[offset
+ ((i
* 4) + j
)]);
1435 /* It will update the fields offsets too */
1436 void ltt_update_event_size(LttTracefile
*tf
)
1440 struct marker_info
*info
;
1442 switch((enum marker_id
)tf
->event
.event_id
) {
1443 case MARKER_ID_SET_MARKER_ID
:
1444 size
= strlen((char*)tf
->event
.data
) + 1;
1445 g_debug("marker %s id set", (char*)tf
->event
.data
);
1446 size
+= ltt_align(size
, sizeof(guint16
), tf
->alignment
);
1447 size
+= sizeof(guint16
);
1448 size
+= sizeof(guint8
);
1449 size
+= sizeof(guint8
);
1450 size
+= sizeof(guint8
);
1451 size
+= sizeof(guint8
);
1452 size
+= sizeof(guint8
);
1454 case MARKER_ID_SET_MARKER_FORMAT
:
1455 g_debug("marker %s format set", (char*)tf
->event
.data
);
1456 size
= strlen((char*)tf
->event
.data
) + 1;
1457 size
+= strlen((char*)tf
->event
.data
+ size
) + 1;
1461 info
= marker_get_info_from_id(tf
->trace
, tf
->event
.event_id
);
1463 if (tf
->event
.event_id
>= MARKER_CORE_IDS
)
1464 g_assert(info
!= NULL
);
1466 /* Do not update field offsets of core markers when initially reading the
1467 * metadata tracefile when the infos about these markers do not exist yet.
1469 if (likely(info
&& info
->fields
)) {
1471 tf
->event
.data
+= ltt_align((off_t
)tf
->event
.data
, info
->largest_align
,
1473 /* size, dynamically computed */
1474 if (info
->size
!= -1)
1477 size
= marker_update_fields_offsets(marker_get_info_from_id(tf
->trace
,
1478 tf
->event
.event_id
), tf
->event
.data
);
1481 tf
->event
.data_size
= size
;
1483 /* Check consistency between kernel and LTTV structure sizes */
1484 if(tf
->event
.event_size
== G_MAXUINT
) {
1485 /* Event size too big to fit in the event size field */
1486 tf
->event
.event_size
= tf
->event
.data_size
;
1490 print_debug_event_data(&tf
->event
);
1492 /* Having a marker load or marker format event out of the metadata
1493 * tracefiles is a serious bug. */
1494 switch((enum marker_id
)tf
->event
.event_id
) {
1495 case MARKER_ID_SET_MARKER_ID
:
1496 case MARKER_ID_SET_MARKER_FORMAT
:
1497 if (tf
->name
!= g_quark_from_string("/control/metadata"))
1498 g_error("Trace inconsistency : metadata event found in data "
1499 "tracefile %s", g_quark_to_string(tf
->long_name
));
1502 if (tf
->event
.data_size
!= tf
->event
.event_size
) {
1503 struct marker_info
*info
= marker_get_info_from_id(tf
->trace
,
1504 tf
->event
.event_id
);
1505 g_error("Kernel/LTTV event size differs for event %s: kernel %u, LTTV %u",
1506 g_quark_to_string(info
->name
),
1507 tf
->event
.event_size
, tf
->event
.data_size
);
1513 /* Take the tf current event offset and use the event id to figure out where is
1514 * the next event offset.
1516 * This is an internal function not aiming at being used elsewhere : it will
1517 * not jump over the current block limits. Please consider using
1518 * ltt_tracefile_read to do this.
1520 * Returns 0 on success
1521 * ERANGE if we are at the end of the buffer.
1522 * ENOPROTOOPT if an error occured when getting the current event size.
1524 static int ltt_seek_next_event(LttTracefile
*tf
)
1529 /* seek over the buffer header if we are at the buffer start */
1530 if(tf
->event
.offset
== 0) {
1531 tf
->event
.offset
+= tf
->buffer_header_size
;
1533 if(tf
->event
.offset
== tf
->buf_size
- tf
->buffer
.lost_size
) {
1539 pos
= tf
->event
.data
;
1541 if(tf
->event
.data_size
< 0) goto error
;
1543 pos
+= (size_t)tf
->event
.data_size
;
1545 tf
->event
.offset
= pos
- tf
->buffer
.head
;
1547 if(tf
->event
.offset
== tf
->buf_size
- tf
->buffer
.lost_size
) {
1551 g_assert(tf
->event
.offset
< tf
->buf_size
- tf
->buffer
.lost_size
);
1557 g_error("Error in ltt_seek_next_event for tracefile %s",
1558 g_quark_to_string(tf
->name
));
1563 /*****************************************************************************
1565 * set_fields_offsets : set the precomputable offset of the fields
1567 * tracefile : opened trace file
1568 * event_type : the event type
1569 ****************************************************************************/
1571 void set_fields_offsets(LttTracefile
*tf
, LttEventType
*event_type
)
1573 LttField
*field
= event_type
->root_field
;
1574 enum field_status fixed_root
= FIELD_FIXED
, fixed_parent
= FIELD_FIXED
;
1577 preset_field_type_size(tf
, event_type
, 0, 0,
1578 &fixed_root
, &fixed_parent
,
1585 /*****************************************************************************
1587 * get_alignment : Get the alignment needed for a field.
1591 * returns : The size on which it must be aligned.
1593 ****************************************************************************/
1595 off_t
get_alignment(LttField
*field
)
1597 LttType
*type
= &field
->field_type
;
1599 switch(type
->type_class
) {
1601 case LTT_UINT_FIXED
:
1616 /* Align offset on type size */
1617 g_assert(field
->field_size
!= 0);
1618 return field
->field_size
;
1624 g_assert(type
->fields
->len
== 1);
1626 LttField
*child
= &g_array_index(type
->fields
, LttField
, 0);
1627 return get_alignment(child
);
1631 g_assert(type
->fields
->len
== 2);
1634 LttField
*child
= &g_array_index(type
->fields
, LttField
, 0);
1636 localign
= max(localign
, get_alignment(child
));
1638 child
= &g_array_index(type
->fields
, LttField
, 1);
1639 localign
= max(localign
, get_alignment(child
));
1650 for(i
=0; i
<type
->fields
->len
; i
++) {
1651 LttField
*child
= &g_array_index(type
->fields
, LttField
, i
);
1652 localign
= max(localign
, get_alignment(child
));
1659 g_error("get_alignment : unknown type");
1666 /*****************************************************************************
1668 * field_compute_static_size : Determine the size of fields known by their
1669 * sole definition. Unions, arrays and struct sizes might be known, but
1670 * the parser does not give that information.
1675 ****************************************************************************/
1677 void field_compute_static_size(LttFacility
*fac
, LttField
*field
)
1679 LttType
*type
= &field
->field_type
;
1681 switch(type
->type_class
) {
1683 case LTT_UINT_FIXED
:
1702 /* note this : array type size is the number of elements in the array,
1703 * while array field size of the length of the array in bytes */
1704 g_assert(type
->fields
->len
== 1);
1706 LttField
*child
= &g_array_index(type
->fields
, LttField
, 0);
1707 field_compute_static_size(fac
, child
);
1709 if(child
->field_size
!= 0) {
1710 field
->field_size
= type
->size
* child
->field_size
;
1711 field
->dynamic_offsets
= g_array_sized_new(FALSE
, TRUE
,
1712 sizeof(off_t
), type
->size
);
1714 field
->field_size
= 0;
1719 g_assert(type
->fields
->len
== 2);
1721 off_t local_offset
= 0;
1722 LttField
*child
= &g_array_index(type
->fields
, LttField
, 1);
1723 field_compute_static_size(fac
, child
);
1724 field
->field_size
= 0;
1726 if(child
->field_size
!= 0) {
1727 field
->dynamic_offsets
= g_array_sized_new(FALSE
, TRUE
,
1728 sizeof(off_t
), SEQUENCE_AVG_ELEMENTS
);
1736 for(i
=0;i
<type
->fields
->len
;i
++) {
1737 LttField
*child
= &g_array_index(type
->fields
, LttField
, i
);
1738 field_compute_static_size(fac
, child
);
1739 if(child
->field_size
!= 0) {
1740 type
->size
+= ltt_align(type
->size
, get_alignment(child
),
1742 type
->size
+= child
->field_size
;
1744 /* As soon as we find a child with variable size, we have
1745 * a variable size */
1750 field
->field_size
= type
->size
;
1754 g_error("field_static_size : unknown type");
1761 /*****************************************************************************
1763 * precompute_fields_offsets : set the precomputable offset of the fields
1767 * offset : pointer to the current offset, must be incremented
1769 * return : 1 : found a variable length field, stop the processing.
1771 ****************************************************************************/
1774 gint
precompute_fields_offsets(LttFacility
*fac
, LttField
*field
, off_t
*offset
, gint is_compact
)
1776 LttType
*type
= &field
->field_type
;
1778 if(unlikely(is_compact
)) {
1779 g_assert(field
->field_size
!= 0);
1780 /* FIXME THIS IS A HUUUUUGE hack :
1781 * offset is between the compact_data field in struct LttEvent
1782 * and the address of the field root in the memory map.
1783 * ark. Both will stay at the same addresses while the event
1784 * is readable, so it's ok.
1786 field
->offset_root
= 0;
1787 field
->fixed_root
= FIELD_FIXED
;
1791 switch(type
->type_class
) {
1793 case LTT_UINT_FIXED
:
1808 g_assert(field
->field_size
!= 0);
1809 /* Align offset on type size */
1810 *offset
+= ltt_align(*offset
, get_alignment(field
),
1812 /* remember offset */
1813 field
->offset_root
= *offset
;
1814 field
->fixed_root
= FIELD_FIXED
;
1815 /* Increment offset */
1816 *offset
+= field
->field_size
;
1820 field
->offset_root
= *offset
;
1821 field
->fixed_root
= FIELD_FIXED
;
1825 g_assert(type
->fields
->len
== 1);
1827 LttField
*child
= &g_array_index(type
->fields
, LttField
, 0);
1829 *offset
+= ltt_align(*offset
, get_alignment(field
),
1832 /* remember offset */
1833 field
->offset_root
= *offset
;
1834 field
->array_offset
= *offset
;
1835 field
->fixed_root
= FIELD_FIXED
;
1837 /* Let the child be variable */
1838 //precompute_fields_offsets(tf, child, offset);
1840 if(field
->field_size
!= 0) {
1841 /* Increment offset */
1842 /* field_size is the array size in bytes */
1843 *offset
+= field
->field_size
;
1851 g_assert(type
->fields
->len
== 2);
1856 *offset
+= ltt_align(*offset
, get_alignment(field
),
1859 /* remember offset */
1860 field
->offset_root
= *offset
;
1861 field
->fixed_root
= FIELD_FIXED
;
1863 child
= &g_array_index(type
->fields
, LttField
, 0);
1864 ret
= precompute_fields_offsets(fac
, child
, offset
, is_compact
);
1865 g_assert(ret
== 0); /* Seq len cannot have variable len */
1867 child
= &g_array_index(type
->fields
, LttField
, 1);
1868 *offset
+= ltt_align(*offset
, get_alignment(child
),
1870 field
->array_offset
= *offset
;
1871 /* Let the child be variable. */
1872 //ret = precompute_fields_offsets(fac, child, offset);
1874 /* Cannot precompute fields offsets of sequence members, and has
1875 * variable length. */
1885 *offset
+= ltt_align(*offset
, get_alignment(field
),
1887 /* remember offset */
1888 field
->offset_root
= *offset
;
1889 field
->fixed_root
= FIELD_FIXED
;
1891 for(i
=0; i
< type
->fields
->len
; i
++) {
1892 child
= &g_array_index(type
->fields
, LttField
, i
);
1893 ret
= precompute_fields_offsets(fac
, child
, offset
, is_compact
);
1906 *offset
+= ltt_align(*offset
, get_alignment(field
),
1908 /* remember offset */
1909 field
->offset_root
= *offset
;
1910 field
->fixed_root
= FIELD_FIXED
;
1912 for(i
=0; i
< type
->fields
->len
; i
++) {
1913 *offset
= field
->offset_root
;
1914 child
= &g_array_index(type
->fields
, LttField
, i
);
1915 ret
= precompute_fields_offsets(fac
, child
, offset
, is_compact
);
1919 *offset
= field
->offset_root
+ field
->field_size
;
1926 g_error("precompute_fields_offsets : unknown type");
1935 /*****************************************************************************
1937 * precompute_offsets : set the precomputable offset of an event type
1940 * event : event type
1942 ****************************************************************************/
1943 void precompute_offsets(LttFacility
*fac
, LttEventType
*event
)
1949 /* First, compute the size of fixed size fields. Will determine size for
1950 * arrays, struct and unions, which is not done by the parser */
1951 for(i
=0; i
<event
->fields
->len
; i
++) {
1952 LttField
*field
= &g_array_index(event
->fields
, LttField
, i
);
1953 field_compute_static_size(fac
, field
);
1956 /* Precompute all known offsets */
1957 for(i
=0; i
<event
->fields
->len
; i
++) {
1958 LttField
*field
= &g_array_index(event
->fields
, LttField
, i
);
1959 if(event
->has_compact_data
&& i
== 0)
1960 ret
= precompute_fields_offsets(fac
, field
, &offset
, 1);
1962 ret
= precompute_fields_offsets(fac
, field
, &offset
, 0);
1970 /*****************************************************************************
1972 * preset_field_type_size : set the fixed sizes of the field type
1975 * event_type : event type
1976 * offset_root : offset from the root
1977 * offset_parent : offset from the parent
1978 * fixed_root : Do we know a fixed offset to the root ?
1979 * fixed_parent : Do we know a fixed offset to the parent ?
1981 ****************************************************************************/
1985 // preset the fixed size offsets. Calculate them just like genevent-new : an
1986 // increment of a *to value that represents the offset from the start of the
1988 // The preset information is : offsets up to (and including) the first element
1989 // of variable size. All subsequent fields must be flagged "VARIABLE OFFSET".
1991 void preset_field_type_size(LttTracefile
*tf
, LttEventType
*event_type
,
1992 off_t offset_root
, off_t offset_parent
,
1993 enum field_status
*fixed_root
, enum field_status
*fixed_parent
,
1996 enum field_status local_fixed_root
, local_fixed_parent
;
2000 g_assert(field
->fixed_root
== FIELD_UNKNOWN
);
2001 g_assert(field
->fixed_parent
== FIELD_UNKNOWN
);
2002 g_assert(field
->fixed_size
== FIELD_UNKNOWN
);
2004 type
= field
->field_type
;
2006 field
->fixed_root
= *fixed_root
;
2007 if(field
->fixed_root
== FIELD_FIXED
)
2008 field
->offset_root
= offset_root
;
2010 field
->offset_root
= 0;
2012 field
->fixed_parent
= *fixed_parent
;
2013 if(field
->fixed_parent
== FIELD_FIXED
)
2014 field
->offset_parent
= offset_parent
;
2016 field
->offset_parent
= 0;
2018 size_t current_root_offset
;
2019 size_t current_offset
;
2020 enum field_status current_child_status
, final_child_status
;
2023 switch(type
->type_class
) {
2025 case LTT_UINT_FIXED
:
2034 field
->field_size
= ltt_type_size(tf
->trace
, type
);
2035 field
->fixed_size
= FIELD_FIXED
;
2038 field
->field_size
= (off_t
)event_type
->facility
->pointer_size
;
2039 field
->fixed_size
= FIELD_FIXED
;
2043 field
->field_size
= (off_t
)event_type
->facility
->long_size
;
2044 field
->fixed_size
= FIELD_FIXED
;
2049 field
->field_size
= (off_t
)event_type
->facility
->size_t_size
;
2050 field
->fixed_size
= FIELD_FIXED
;
2053 local_fixed_root
= FIELD_VARIABLE
;
2054 local_fixed_parent
= FIELD_VARIABLE
;
2055 preset_field_type_size(tf
, event_type
,
2057 &local_fixed_root
, &local_fixed_parent
,
2059 field
->fixed_size
= FIELD_VARIABLE
;
2060 field
->field_size
= 0;
2061 *fixed_root
= FIELD_VARIABLE
;
2062 *fixed_parent
= FIELD_VARIABLE
;
2065 field
->fixed_size
= FIELD_VARIABLE
;
2066 field
->field_size
= 0;
2067 *fixed_root
= FIELD_VARIABLE
;
2068 *fixed_parent
= FIELD_VARIABLE
;
2071 local_fixed_root
= FIELD_VARIABLE
;
2072 local_fixed_parent
= FIELD_VARIABLE
;
2073 preset_field_type_size(tf
, event_type
,
2075 &local_fixed_root
, &local_fixed_parent
,
2077 field
->fixed_size
= field
->child
[0]->fixed_size
;
2078 if(field
->fixed_size
== FIELD_FIXED
) {
2079 field
->field_size
= type
->element_number
* field
->child
[0]->field_size
;
2081 field
->field_size
= 0;
2082 *fixed_root
= FIELD_VARIABLE
;
2083 *fixed_parent
= FIELD_VARIABLE
;
2087 current_root_offset
= field
->offset_root
;
2089 current_child_status
= FIELD_FIXED
;
2090 for(i
=0;i
<type
->element_number
;i
++) {
2091 preset_field_type_size(tf
, event_type
,
2092 current_root_offset
, current_offset
,
2093 fixed_root
, ¤t_child_status
,
2095 if(current_child_status
== FIELD_FIXED
) {
2096 current_root_offset
+= field
->child
[i
]->field_size
;
2097 current_offset
+= field
->child
[i
]->field_size
;
2099 current_root_offset
= 0;
2103 if(current_child_status
!= FIELD_FIXED
) {
2104 *fixed_parent
= current_child_status
;
2105 field
->field_size
= 0;
2106 field
->fixed_size
= current_child_status
;
2108 field
->field_size
= current_offset
;
2109 field
->fixed_size
= FIELD_FIXED
;
2113 current_root_offset
= field
->offset_root
;
2116 final_child_status
= FIELD_FIXED
;
2117 for(i
=0;i
<type
->element_number
;i
++) {
2118 enum field_status current_root_child_status
= FIELD_FIXED
;
2119 enum field_status current_child_status
= FIELD_FIXED
;
2120 preset_field_type_size(tf
, event_type
,
2121 current_root_offset
, current_offset
,
2122 ¤t_root_child_status
, ¤t_child_status
,
2124 if(current_child_status
!= FIELD_FIXED
)
2125 final_child_status
= current_child_status
;
2127 max_size
= max(max_size
, field
->child
[i
]->field_size
);
2129 if(final_child_status
!= FIELD_FIXED
) {
2130 g_error("LTTV does not support variable size fields in unions.");
2131 /* This will stop the application. */
2132 *fixed_root
= final_child_status
;
2133 *fixed_parent
= final_child_status
;
2134 field
->field_size
= 0;
2135 field
->fixed_size
= current_child_status
;
2137 field
->field_size
= max_size
;
2138 field
->fixed_size
= FIELD_FIXED
;
2142 g_error("unexpected type NONE");
2149 /*****************************************************************************
2151 * check_fields_compatibility : Check for compatibility between two fields :
2152 * do they use the same inner structure ?
2154 * event_type1 : event type
2155 * event_type2 : event type
2158 *Returns : 0 if identical
2160 ****************************************************************************/
2161 // this function checks for equality of field types. Therefore, it does not use
2162 // per se offsets. For instance, an aligned version of a structure is
2163 // compatible with an unaligned version of the same structure.
2165 gint
check_fields_compatibility(LttEventType
*event_type1
,
2166 LttEventType
*event_type2
,
2167 LttField
*field1
, LttField
*field2
)
2169 guint different
= 0;
2173 if(field1
== NULL
) {
2174 if(field2
== NULL
) goto end
;
2179 } else if(field2
== NULL
) {
2184 type1
= &field1
->field_type
;
2185 type2
= &field2
->field_type
;
2187 if(type1
->type_class
!= type2
->type_class
) {
2191 if(type1
->network
!= type2
->network
) {
2196 switch(type1
->type_class
) {
2198 case LTT_UINT_FIXED
:
2213 if(field1
->field_size
!= field2
->field_size
)
2220 LttField
*child1
= &g_array_index(type1
->fields
, LttField
, 0);
2221 LttField
*child2
= &g_array_index(type2
->fields
, LttField
, 0);
2223 if(type1
->size
!= type2
->size
)
2225 if(check_fields_compatibility(event_type1
, event_type2
, child1
, child2
))
2231 LttField
*child1
= &g_array_index(type1
->fields
, LttField
, 1);
2232 LttField
*child2
= &g_array_index(type2
->fields
, LttField
, 1);
2234 if(check_fields_compatibility(event_type1
, event_type2
, child1
, child2
))
2244 if(type1
->fields
->len
!= type2
->fields
->len
) {
2249 for(i
=0; i
< type1
->fields
->len
; i
++) {
2252 child1
= &g_array_index(type1
->fields
, LttField
, i
);
2253 child2
= &g_array_index(type2
->fields
, LttField
, i
);
2254 different
= check_fields_compatibility(event_type1
,
2255 event_type2
, child1
, child2
);
2257 if(different
) break;
2263 g_error("check_fields_compatibility : unknown type");
2272 gint
check_fields_compatibility(LttEventType
*event_type1
,
2273 LttEventType
*event_type2
,
2274 LttField
*field1
, LttField
*field2
)
2276 guint different
= 0;
2281 if(field1
== NULL
) {
2282 if(field2
== NULL
) goto end
;
2287 } else if(field2
== NULL
) {
2292 g_assert(field1
->fixed_root
!= FIELD_UNKNOWN
);
2293 g_assert(field2
->fixed_root
!= FIELD_UNKNOWN
);
2294 g_assert(field1
->fixed_parent
!= FIELD_UNKNOWN
);
2295 g_assert(field2
->fixed_parent
!= FIELD_UNKNOWN
);
2296 g_assert(field1
->fixed_size
!= FIELD_UNKNOWN
);
2297 g_assert(field2
->fixed_size
!= FIELD_UNKNOWN
);
2299 type1
= field1
->field_type
;
2300 type2
= field2
->field_type
;
2302 if(type1
->type_class
!= type2
->type_class
) {
2306 if(type1
->element_name
!= type2
->element_name
) {
2311 switch(type1
->type_class
) {
2313 case LTT_UINT_FIXED
:
2328 if(field1
->field_size
!= field2
->field_size
) {
2334 if(type1
->element_number
!= type2
->element_number
) {
2338 for(i
=0;i
<type1
->element_number
;i
++) {
2339 if(type1
->enum_strings
[i
] != type2
->enum_strings
[i
]) {
2346 /* Two elements : size and child */
2347 g_assert(type1
->element_number
!= type2
->element_number
);
2348 for(i
=0;i
<type1
->element_number
;i
++) {
2349 if(check_fields_compatibility(event_type1
, event_type2
,
2350 field1
->child
[0], field2
->child
[0])) {
2359 if(field1
->field_size
!= field2
->field_size
) {
2363 /* Two elements : size and child */
2364 g_assert(type1
->element_number
!= type2
->element_number
);
2365 for(i
=0;i
<type1
->element_number
;i
++) {
2366 if(check_fields_compatibility(event_type1
, event_type2
,
2367 field1
->child
[0], field2
->child
[0])) {
2375 if(type1
->element_number
!= type2
->element_number
) {
2379 for(i
=0;i
<type1
->element_number
;i
++) {
2380 if(check_fields_compatibility(event_type1
, event_type2
,
2381 field1
->child
[0], field2
->child
[0])) {
2394 /*****************************************************************************
2396 * ltt_get_int : get an integer number
2398 * reverse_byte_order: must we reverse the byte order ?
2399 * size : the size of the integer
2400 * ptr : the data pointer
2402 * gint64 : a 64 bits integer
2403 ****************************************************************************/
2405 gint64
ltt_get_int(gboolean reverse_byte_order
, gint size
, void *data
)
2410 case 1: val
= *((gint8
*)data
); break;
2411 case 2: val
= ltt_get_int16(reverse_byte_order
, data
); break;
2412 case 4: val
= ltt_get_int32(reverse_byte_order
, data
); break;
2413 case 8: val
= ltt_get_int64(reverse_byte_order
, data
); break;
2414 default: val
= ltt_get_int64(reverse_byte_order
, data
);
2415 g_critical("get_int : integer size %d unknown", size
);
2422 /*****************************************************************************
2424 * ltt_get_uint : get an unsigned integer number
2426 * reverse_byte_order: must we reverse the byte order ?
2427 * size : the size of the integer
2428 * ptr : the data pointer
2430 * guint64 : a 64 bits unsigned integer
2431 ****************************************************************************/
2433 guint64
ltt_get_uint(gboolean reverse_byte_order
, gint size
, void *data
)
2438 case 1: val
= *((gint8
*)data
); break;
2439 case 2: val
= ltt_get_uint16(reverse_byte_order
, data
); break;
2440 case 4: val
= ltt_get_uint32(reverse_byte_order
, data
); break;
2441 case 8: val
= ltt_get_uint64(reverse_byte_order
, data
); break;
2442 default: val
= ltt_get_uint64(reverse_byte_order
, data
);
2443 g_critical("get_uint : unsigned integer size %d unknown",
2452 /* get the node name of the system */
2454 char * ltt_trace_system_description_node_name (LttSystemDescription
* s
)
2456 return s
->node_name
;
2460 /* get the domain name of the system */
2462 char * ltt_trace_system_description_domain_name (LttSystemDescription
* s
)
2464 return s
->domain_name
;
2468 /* get the description of the system */
2470 char * ltt_trace_system_description_description (LttSystemDescription
* s
)
2472 return s
->description
;
2476 /* get the NTP corrected start time of the trace */
2477 LttTime
ltt_trace_start_time(LttTrace
*t
)
2479 return t
->start_time
;
2482 /* get the monotonic start time of the trace */
2483 LttTime
ltt_trace_start_time_monotonic(LttTrace
*t
)
2485 return t
->start_time_from_tsc
;
2488 static LttTracefile
*ltt_tracefile_new()
2491 tf
= g_new(LttTracefile
, 1);
2492 tf
->event
.tracefile
= tf
;
2496 static void ltt_tracefile_destroy(LttTracefile
*tf
)
2501 static void ltt_tracefile_copy(LttTracefile
*dest
, const LttTracefile
*src
)
2506 /* Before library loading... */
2508 static __attribute__((constructor
)) void init(void)
2510 LTT_TRACEFILE_NAME_METADATA
= g_quark_from_string("/control/metadata");