d83c62c043a4d87bf8abfcfd3accd1db07d43bca
1 /* This file is part of the Linux Trace Toolkit viewer
2 * Copyright (C) 2003-2004 Xiangxiu Yang
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License Version 2 as
6 * published by the Free Software Foundation;
8 * This program is distributed in the hope that it will be useful,
9 * but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 * GNU General Public License for more details.
13 * You should have received a copy of the GNU General Public License
14 * along with this program; if not, write to the Free Software
15 * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
20 #include <asm/types.h>
21 #include <linux/byteorder/swab.h>
25 #include "ltt-private.h"
26 #include <ltt/event.h>
27 #include <ltt/trace.h>
29 /*****************************************************************************
31 * ltt_event_refresh_fields : refresh fields of an event
33 * offsetRoot : offset from the root
34 * offsetParent : offset from the parent
38 * int : size of the field
39 ****************************************************************************/
41 int ltt_event_refresh_fields(int offsetRoot
,int offsetParent
,
42 LttField
* fld
, void *evD
)
44 int size
, size1
, element_number
, i
, offset1
, offset2
;
45 LttType
* type
= fld
->field_type
;
47 if(type
->type_class
!= LTT_STRUCT
&& type
->type_class
!= LTT_ARRAY
&&
48 type
->type_class
!= LTT_SEQUENCE
&& type
->type_class
!= LTT_STRING
){
49 size
= fld
->field_size
;
50 }else if(type
->type_class
== LTT_ARRAY
){
51 element_number
= (int) type
->element_number
;
52 if(fld
->field_fixed
== 0){// has string or sequence
54 for(i
=0;i
<element_number
;i
++){
55 size
+= ltt_event_refresh_fields(offsetRoot
+size
,size
,
56 fld
->child
[0], evD
+size
);
58 }else size
= fld
->field_size
;
59 }else if(type
->type_class
== LTT_SEQUENCE
){
60 size1
= fld
->sequ_number_size
;
61 element_number
= getIntNumber(size1
,evD
);
62 type
->element_number
= element_number
;
63 if(fld
->element_size
> 0){
64 size
= element_number
* fld
->element_size
;
65 }else{//sequence has string or sequence
67 for(i
=0;i
<element_number
;i
++){
68 size
+= ltt_event_refresh_fields(offsetRoot
+size
+size1
,size
+size1
,
69 fld
->child
[0], evD
+size
+size1
);
73 }else if(type
->type_class
== LTT_STRING
){
74 size
= strlen((char*)evD
) + 1; //include end : '\0'
75 }else if(type
->type_class
== LTT_STRUCT
){
76 element_number
= (int) type
->element_number
;
77 if(fld
->field_fixed
== 0){
80 for(i
=0;i
<element_number
;i
++){
81 size
=ltt_event_refresh_fields(offset1
,offset2
,fld
->child
[i
],evD
+offset2
);
86 }else size
= fld
->field_size
;
89 fld
->offset_root
= offsetRoot
;
90 fld
->offset_parent
= offsetParent
;
91 fld
->fixed_root
= (offsetRoot
==-1) ? 0 : 1;
92 fld
->fixed_parent
= (offsetParent
==-1) ? 0 : 1;
93 fld
->field_size
= size
;
98 /*****************************************************************************
100 * ltt_event_eventtype_id: get event type id
101 * (base id + position of the event)
103 * e : an instance of an event type
105 * unsigned : event type id
106 ****************************************************************************/
108 unsigned ltt_event_eventtype_id(LttEvent
*e
)
110 return (unsigned) e
->event_id
;
113 /*****************************************************************************
115 * ltt_event_facility : get the facility of the event
117 * e : an instance of an event type
119 * LttFacility * : the facility of the event
120 ****************************************************************************/
122 LttFacility
*ltt_event_facility(LttEvent
*e
)
124 LttTrace
* trace
= e
->tracefile
->trace
;
125 unsigned id
= e
->event_id
;
126 return ltt_trace_facility_by_id(trace
,id
);
129 /*****************************************************************************
131 * ltt_event_eventtype : get the event type of the event
133 * e : an instance of an event type
135 * LttEventType * : the event type of the event
136 ****************************************************************************/
138 LttEventType
*ltt_event_eventtype(LttEvent
*e
)
140 LttFacility
* facility
= ltt_event_facility(e
);
141 if(!facility
) return NULL
;
142 return facility
->events
[e
->event_id
- facility
->base_id
];
145 /*****************************************************************************
147 * ltt_event_field : get the root field of the event
149 * e : an instance of an event type
151 * LttField * : the root field of the event
152 ****************************************************************************/
154 LttField
*ltt_event_field(LttEvent
*e
)
157 LttEventType
* event_type
= ltt_event_eventtype(e
);
158 if(!event_type
) return NULL
;
159 field
= event_type
->root_field
;
160 if(!field
) return NULL
;
162 //check if the field need refresh
163 if(e
->which_block
!= event_type
->latest_block
||
164 e
->which_event
!= event_type
->latest_event
){
166 event_type
->latest_block
= e
->which_block
;
167 event_type
->latest_event
= e
->which_event
;
169 if(field
->field_fixed
== 1)return field
;
172 ltt_event_refresh_fields(0, 0, field
, e
->data
);
177 /*****************************************************************************
179 * ltt_event_time : get the time of the event
181 * e : an instance of an event type
183 * LttTime : the time of the event
184 ****************************************************************************/
186 LttTime
ltt_event_time(LttEvent
*e
)
188 return e
->event_time
;
191 /*****************************************************************************
193 * ltt_event_time : get the cycle count of the event
195 * e : an instance of an event type
197 * LttCycleCount : the cycle count of the event
198 ****************************************************************************/
200 LttCycleCount
ltt_event_cycle_count(LttEvent
*e
)
202 return e
->event_cycle_count
;
205 /*****************************************************************************
207 * ltt_event_position : get the event's position
209 * e : an instance of an event type
210 * ep : a pointer to event's position structure
211 ****************************************************************************/
213 void ltt_event_position(LttEvent
*e
, LttEventPosition
*ep
)
215 ep
->block_num
= e
->which_block
;
216 ep
->event_num
= e
->which_event
;
217 ep
->event_time
= e
->event_time
;
218 ep
->event_cycle_count
= e
->event_cycle_count
;
219 ep
->heart_beat_number
= e
->tracefile
->cur_heart_beat_number
;
220 ep
->old_position
= TRUE
;
221 ep
->event_offset
= e
->data
- e
->tracefile
->buffer
- EVENT_HEADER_SIZE
;
222 ep
->tf
= e
->tracefile
;
224 /* This is a workaround for fast position seek */
225 ep
->last_event_pos
= e
->last_event_pos
;
226 ep
->prev_block_end_time
= e
->prev_block_end_time
;
227 ep
->prev_event_time
= e
->prev_event_time
;
228 ep
->pre_cycle_count
= e
->pre_cycle_count
;
229 ep
->count
= e
->count
;
230 /* end of workaround */
233 LttEventPosition
* ltt_event_position_new()
235 return g_new(LttEventPosition
, 1);
238 /*****************************************************************************
240 * ltt_event_position_get : get the block number and index of the event
242 * ep : a pointer to event's position structure
243 * block_number : the block number of the event
244 * index_in_block : the index of the event within the block
245 ****************************************************************************/
247 void ltt_event_position_get(LttEventPosition
*ep
,
248 unsigned *block_number
, unsigned *index_in_block
, LttTracefile
** tf
)
250 *block_number
= ep
->block_num
;
251 *index_in_block
= ep
->event_num
;
255 /*****************************************************************************
257 * ltt_event_position_set : set the block number and index of the event
259 * ep : a pointer to event's position structure
260 * block_number : the block number of the event
261 * index_in_block : the index of the event within the block
262 ****************************************************************************/
264 void ltt_event_position_set(LttEventPosition
*ep
,
265 unsigned block_number
, unsigned index_in_block
)
267 ep
->block_num
= block_number
;
268 ep
->event_num
= index_in_block
;
271 /*****************************************************************************
273 * ltt_event_position_compare : compare two positions
274 * A NULL value is infinite.
276 * ep1 : a pointer to event's position structure
277 * ep2 : a pointer to event's position structure
282 ****************************************************************************/
285 gint
ltt_event_position_compare(const LttEventPosition
*ep1
,
286 const LttEventPosition
*ep2
)
288 if(ep1
->tf
!= ep2
->tf
)
289 g_error("ltt_event_position_compare on different tracefiles makes no sense");
290 if(ep1
== NULL
&& ep2
== NULL
)
292 if(ep1
!= NULL
&& ep2
== NULL
)
294 if(ep1
== NULL
&& ep2
!= NULL
)
297 if(ep1
->block_num
< ep2
->block_num
)
299 if(ep1
->block_num
> ep2
->block_num
)
301 if(ep1
->event_num
< ep2
->event_num
)
303 if(ep1
->event_num
> ep2
->event_num
)
308 /*****************************************************************************
310 * ltt_event_event_position_compare : compare two positions, one in event,
311 * other in position opaque structure.
313 * event : a pointer to event structure
314 * ep : a pointer to event's position structure
319 ****************************************************************************/
321 gint
ltt_event_event_position_compare(const LttEvent
*event
,
322 const LttEventPosition
*ep
)
324 if(event
== NULL
&& ep
== NULL
)
326 if(event
!= NULL
&& ep
== NULL
)
328 if(event
== NULL
&& ep
!= NULL
)
331 g_assert(event
->tracefile
== ep
->tf
);
333 if(event
->which_block
< ep
->block_num
)
335 if(event
->which_block
> ep
->block_num
)
337 if(event
->which_event
< ep
->event_num
)
339 if(event
->which_event
> ep
->event_num
)
344 /*****************************************************************************
346 * ltt_event_position_copy : copy position
348 * src : a pointer to event's position structure source
349 * dest : a pointer to event's position structure dest
352 ****************************************************************************/
353 void ltt_event_position_copy(LttEventPosition
*dest
,
354 const LttEventPosition
*src
)
363 /*****************************************************************************
365 * ltt_event_cpu_i: get the cpu id where the event happens
367 * e : an instance of an event type
369 * unsigned : the cpu id
370 ****************************************************************************/
372 unsigned ltt_event_cpu_id(LttEvent
*e
)
374 char * c1
, * c2
, * c3
;
375 c1
= strrchr(e
->tracefile
->name
,'\\');
376 c2
= strrchr(e
->tracefile
->name
,'/');
377 if(c1
== NULL
&& c2
== NULL
){
378 return (unsigned)atoi(e
->tracefile
->name
);
379 }else if(c1
== NULL
){
381 return (unsigned)atoi(c2
);
382 }else if(c2
== NULL
){
384 return (unsigned)atoi(c1
);
386 c3
= (c1
> c2
) ? c1
: c2
;
388 return (unsigned)atoi(c3
);
392 /*****************************************************************************
394 * ltt_event_data : get the raw data for the event
396 * e : an instance of an event type
398 * void * : pointer to the raw data for the event
399 ****************************************************************************/
401 void *ltt_event_data(LttEvent
*e
)
406 /*****************************************************************************
408 * ltt_event_field_element_number
409 * : The number of elements in a sequence field is specific
410 * to each event. This function returns the number of
411 * elements for an array or sequence field in an event.
413 * e : an instance of an event type
414 * f : a field of the instance
416 * unsigned : the number of elements for an array/sequence field
417 ****************************************************************************/
419 unsigned ltt_event_field_element_number(LttEvent
*e
, LttField
*f
)
421 if(f
->field_type
->type_class
!= LTT_ARRAY
&&
422 f
->field_type
->type_class
!= LTT_SEQUENCE
)
425 if(f
->field_type
->type_class
== LTT_ARRAY
)
426 return f
->field_type
->element_number
;
427 return (unsigned) getIntNumber(f
->sequ_number_size
, e
+ f
->offset_root
);
430 /*****************************************************************************
432 * ltt_event_field_element_select
433 * : Set the currently selected element for a sequence or
436 * e : an instance of an event type
437 * f : a field of the instance
438 * i : the ith element
439 ****************************************************************************/
441 void ltt_event_field_element_select(LttEvent
*e
, LttField
*f
, unsigned i
)
443 unsigned element_number
;
448 if(f
->field_type
->type_class
!= LTT_ARRAY
&&
449 f
->field_type
->type_class
!= LTT_SEQUENCE
)
452 element_number
= ltt_event_field_element_number(e
,f
);
453 if((element_number
-1) < i
|| i
< 0) return;
457 evD
= e
->data
+ f
->offset_root
;
460 size
+= ltt_event_refresh_fields(f
->offset_root
+size
,size
, fld
, evD
+size
);
463 f
->current_element
= i
- 1;
466 /*****************************************************************************
467 * These functions extract data from an event after architecture specific
469 ****************************************************************************/
471 unsigned ltt_event_get_unsigned(LttEvent
*e
, LttField
*f
)
473 int revFlag
= e
->tracefile
->trace
->my_arch_endian
==
474 e
->tracefile
->trace
->system_description
->endian
? 0:1;
475 LttTypeEnum t
= f
->field_type
->type_class
;
477 g_assert(t
== LTT_UINT
|| t
== LTT_ENUM
);
479 if(f
->field_size
== 1){
480 guint8 x
= *(guint8
*)(e
->data
+ f
->offset_root
);
481 return (unsigned int) x
;
482 }else if(f
->field_size
== 2){
483 guint16 x
= *(guint16
*)(e
->data
+ f
->offset_root
);
484 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
485 return (unsigned int) (revFlag
? GUINT16_FROM_BE(x
): x
);
487 return (unsigned int) (revFlag
? GUINT16_FROM_LE(x
): x
);
488 }else if(f
->field_size
== 4){
489 guint32 x
= *(guint32
*)(e
->data
+ f
->offset_root
);
490 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
491 return (unsigned int) (revFlag
? GUINT32_FROM_BE(x
): x
);
493 return (unsigned int) (revFlag
? GUINT32_FROM_LE(x
): x
);
494 }else if(f
->field_size
== 8){
495 guint64 x
= *(guint64
*)(e
->data
+ f
->offset_root
);
496 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
497 return (unsigned int) (revFlag
? GUINT64_FROM_BE(x
): x
);
499 return (unsigned int) (revFlag
? GUINT64_FROM_LE(x
): x
);
503 int ltt_event_get_int(LttEvent
*e
, LttField
*f
)
505 int revFlag
= e
->tracefile
->trace
->my_arch_endian
==
506 e
->tracefile
->trace
->system_description
->endian
? 0:1;
508 g_assert(f
->field_type
->type_class
== LTT_INT
);
510 if(f
->field_size
== 1){
511 gint8 x
= *(gint8
*)(e
->data
+ f
->offset_root
);
513 }else if(f
->field_size
== 2){
514 gint16 x
= *(gint16
*)(e
->data
+ f
->offset_root
);
515 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
516 return (int) (revFlag
? GINT16_FROM_BE(x
): x
);
518 return (int) (revFlag
? GINT16_FROM_LE(x
): x
);
519 }else if(f
->field_size
== 4){
520 gint32 x
= *(gint32
*)(e
->data
+ f
->offset_root
);
521 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
522 return (int) (revFlag
? GINT32_FROM_BE(x
): x
);
524 return (int) (revFlag
? GINT32_FROM_LE(x
): x
);
525 }else if(f
->field_size
== 8){
526 gint64 x
= *(gint64
*)(e
->data
+ f
->offset_root
);
527 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
528 return (int) (revFlag
? GINT64_FROM_BE(x
): x
);
530 return (int) (revFlag
? GINT64_FROM_LE(x
): x
);
534 unsigned long ltt_event_get_long_unsigned(LttEvent
*e
, LttField
*f
)
536 int revFlag
= e
->tracefile
->trace
->my_arch_endian
==
537 e
->tracefile
->trace
->system_description
->endian
? 0:1;
538 LttTypeEnum t
= f
->field_type
->type_class
;
540 g_assert(t
== LTT_UINT
|| t
== LTT_ENUM
);
542 if(f
->field_size
== 1){
543 guint8 x
= *(guint8
*)(e
->data
+ f
->offset_root
);
544 return (unsigned long) x
;
545 }else if(f
->field_size
== 2){
546 guint16 x
= *(guint16
*)(e
->data
+ f
->offset_root
);
547 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
548 return (unsigned long) (revFlag
? GUINT16_FROM_BE(x
): x
);
550 return (unsigned long) (revFlag
? GUINT16_FROM_LE(x
): x
);
551 }else if(f
->field_size
== 4){
552 guint32 x
= *(guint32
*)(e
->data
+ f
->offset_root
);
553 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
554 return (unsigned long) (revFlag
? GUINT32_FROM_BE(x
): x
);
556 return (unsigned long) (revFlag
? GUINT32_FROM_LE(x
): x
);
557 }else if(f
->field_size
== 8){
558 guint64 x
= *(guint64
*)(e
->data
+ f
->offset_root
);
559 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
560 return (unsigned long) (revFlag
? GUINT64_FROM_BE(x
): x
);
562 return (unsigned long) (revFlag
? GUINT64_FROM_LE(x
): x
);
566 long int ltt_event_get_long_int(LttEvent
*e
, LttField
*f
)
568 int revFlag
= e
->tracefile
->trace
->my_arch_endian
==
569 e
->tracefile
->trace
->system_description
->endian
? 0:1;
571 g_assert( f
->field_type
->type_class
== LTT_INT
);
573 if(f
->field_size
== 1){
574 gint8 x
= *(gint8
*)(e
->data
+ f
->offset_root
);
576 }else if(f
->field_size
== 2){
577 gint16 x
= *(gint16
*)(e
->data
+ f
->offset_root
);
578 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
579 return (long) (revFlag
? GINT16_FROM_BE(x
): x
);
581 return (long) (revFlag
? GINT16_FROM_LE(x
): x
);
582 }else if(f
->field_size
== 4){
583 gint32 x
= *(gint32
*)(e
->data
+ f
->offset_root
);
584 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
585 return (long) (revFlag
? GINT32_FROM_BE(x
): x
);
587 return (long) (revFlag
? GINT32_FROM_LE(x
): x
);
588 }else if(f
->field_size
== 8){
589 gint64 x
= *(gint64
*)(e
->data
+ f
->offset_root
);
590 if(e
->tracefile
->trace
->my_arch_endian
== LTT_LITTLE_ENDIAN
)
591 return (long) (revFlag
? GINT64_FROM_BE(x
): x
);
593 return (long) (revFlag
? GINT64_FROM_LE(x
): x
);
597 float ltt_event_get_float(LttEvent
*e
, LttField
*f
)
599 int revFlag
= e
->tracefile
->trace
->my_arch_endian
==
600 e
->tracefile
->trace
->system_description
->endian
? 0:1;
602 g_assert(f
->field_type
->type_class
== LTT_FLOAT
&& f
->field_size
== 4);
604 if(revFlag
== 0) return *(float *)(e
->data
+ f
->offset_root
);
607 memcpy((void*)&aInt
, e
->data
+ f
->offset_root
, 4);
608 aInt
= ___swab32(aInt
);
609 return *((float*)&aInt
);
613 double ltt_event_get_double(LttEvent
*e
, LttField
*f
)
615 int revFlag
= e
->tracefile
->trace
->my_arch_endian
==
616 e
->tracefile
->trace
->system_description
->endian
? 0:1;
618 g_assert(f
->field_type
->type_class
== LTT_FLOAT
&& f
->field_size
== 8);
620 if(revFlag
== 0) return *(double *)(e
->data
+ f
->offset_root
);
623 memcpy((void*)&aInt
, e
->data
+ f
->offset_root
, 8);
624 aInt
= ___swab64(aInt
);
625 return *((double *)&aInt
);
629 /*****************************************************************************
630 * The string obtained is only valid until the next read from
631 * the same tracefile.
632 ****************************************************************************/
634 char *ltt_event_get_string(LttEvent
*e
, LttField
*f
)
636 g_assert(f
->field_type
->type_class
== LTT_STRING
);
638 return (char*)g_strdup((char*)(e
->data
+ f
->offset_root
));
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