1 /* This file is part of the Linux Trace Toolkit viewer
2 * Copyright (C) 2003-2004 Xiangxiu Yang
3 * 2006 Mathieu Desnoyers
5 * This library is free software; you can redistribute it and/or
6 * modify it under the terms of the GNU Lesser General Public
7 * License Version 2.1 as published by the Free Software Foundation.
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the
16 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
17 * Boston, MA 02111-1307, USA.
24 #include <sys/types.h>
27 #include <ltt/event.h>
28 #include <ltt/marker.h>
29 #include <ltt/trace.h>
32 #define max(a,b) ((a)>(b)?(a):(b))
36 #define min(a,b) ((a)<(b)?(a):(b))
41 #define LTT_MAGIC_NUMBER 0x00D6B7ED
42 #define LTT_REV_MAGIC_NUMBER 0xEDB7D600
44 #define NSEC_PER_USEC 1000
46 #define LTT_PACKED_STRUCT __attribute__ ((packed))
48 /* Hardcoded facilities */
49 #define LTT_FACILITY_CORE 0
52 #define LTT_GET_BO(t) ((t)->reverse_bo)
54 #define LTT_HAS_FLOAT(t) ((t)->float_word_order!=0)
55 #define LTT_GET_FLOAT_BO(t) \
56 (((t)->float_word_order==__BYTE_ORDER)?0:1)
58 #define SEQUENCE_AVG_ELEMENTS 1000
60 /* Hardcoded core events */
61 enum ltt_core_events
{
62 LTT_EVENT_FACILITY_LOAD
,
63 LTT_EVENT_FACILITY_UNLOAD
,
65 LTT_EVENT_HEARTBEAT_FULL
,
66 LTT_EVENT_STATE_DUMP_FACILITY_LOAD
71 /* enumeration definition */
73 typedef enum _BuildinEvent
{
74 TRACE_FACILITY_LOAD
= 0,
75 TRACE_BLOCK_START
= 17,
77 TRACE_TIME_HEARTBEAT
= 19
81 /* structure definition */
83 typedef struct _FacilityLoad
{
87 } LTT_PACKED_STRUCT FacilityLoad
;
89 typedef struct _BlockStart
{
90 LttTime time
; //Time stamp of this block
91 LttCycleCount cycle_count
; //cycle count of the event
92 guint32 block_id
; //block id
93 } LTT_PACKED_STRUCT BlockStart
;
95 typedef struct _BlockEnd
{
96 LttTime time
; //Time stamp of this block
97 LttCycleCount cycle_count
; //cycle count of the event
98 guint32 block_id
; //block id
99 } LTT_PACKED_STRUCT BlockEnd
;
103 typedef guint8
uint8_t;
104 typedef guint16
uint16_t;
105 typedef guint32
uint32_t;
106 typedef guint64
uint64_t;
108 struct ltt_event_header_hb
{
114 struct ltt_event_header_nohb
{
121 /* Block and trace headers */
123 struct ltt_trace_header_any
{
124 uint32_t magic_number
;
126 uint32_t arch_variant
;
127 uint32_t float_word_order
;
129 uint8_t major_version
;
130 uint8_t minor_version
;
131 uint8_t flight_recorder
;
132 uint8_t has_heartbeat
;
133 uint8_t alignment
; /* Event header alignment */
137 struct ltt_trace_header_1_0
{
138 uint32_t magic_number
;
140 uint32_t arch_variant
;
141 uint32_t float_word_order
;
143 uint8_t major_version
;
144 uint8_t minor_version
;
145 uint8_t flight_recorder
;
146 uint8_t has_heartbeat
;
147 uint8_t alignment
; /* Event header alignment */
148 uint8_t tsc_lsb_truncate
;
153 uint64_t start_monotonic
;
154 uint64_t start_time_sec
;
155 uint64_t start_time_usec
;
159 struct ltt_block_start_header
{
161 uint64_t cycle_count
;
165 uint64_t cycle_count
;
168 uint32_t lost_size
; /* Size unused at the end of the buffer */
169 uint32_t buf_size
; /* The size of this sub-buffer */
170 struct ltt_trace_header_any trace
[0];
176 // LTTV does not care about type names. Everything is a field.
177 // GQuark type_name; //type name if it is a named type
180 LttTypeEnum type_class
; //which type
181 GHashTable
*enum_map
; //maps enum labels to numbers.
182 gint32 highest_value
; //For enum
183 gint32 lowest_value
; //For enum
184 GArray
*fields
; // Array of LttFields, for array, sequence, union, struct.
185 GData
*fields_by_name
;
186 guint network
; // Is the type in network byte order ?
187 //part added by gaby for fmt:
195 struct _LttEventType
{
198 guint index
; //id of the event type within the facility
199 struct marker_info
*info
;
200 GArray
* fields
; //event's fields (LttField)
201 GData
*fields_by_name
;
202 int has_compact_data
; //event header contains compact data (first field)
206 enum field_status
{ FIELD_UNKNOWN
, FIELD_VARIABLE
, FIELD_FIXED
};
212 LttType field_type
; //field type
214 off_t offset_root
; //offset from the root
215 enum field_status fixed_root
; //offset fixed according to the root
217 guint field_size
; // size of the field
218 // Only if field type size is set to 0
219 // (it's variable), then the field_size should be
220 // dynamically calculated while reading the trace
221 // and put here. Otherwise, the field_size always
222 // equals the type size.
223 off_t array_offset
; // offset of the beginning of the array (for array
225 GArray
* dynamic_offsets
; // array of offsets calculated dynamically at
226 // each event for sequences and arrays that
227 // contain variable length fields.
234 guint32 checksum
; //checksum of the facility
235 guint32 id
; //id of the facility
239 guint32 pointer_size
;
244 GData
*events_by_name
;
245 // not necessary in LTTV GData *named_types;
247 unsigned char exists
; /* 0 does not exist, 1 exists */
251 typedef struct _LttBuffer
{
257 uint64_t cycle_count
;
258 uint64_t freq
; /* Frequency in khz */
262 uint64_t cycle_count
;
263 uint64_t freq
; /* Frequency in khz */
265 uint32_t lost_size
; /* Size unused at the end of the buffer */
268 uint64_t tsc
; /* Current timestamp counter */
269 uint64_t freq
; /* Frequency in khz */
270 //double nsecs_per_cycle; /* Precalculated from freq */
271 guint32 cyc2ns_scale
;
274 struct LttTracefile
{
275 gboolean cpu_online
; //is the cpu online ?
276 GQuark long_name
; //tracefile complete filename
277 GQuark name
; //tracefile name
278 guint cpu_num
; //cpu number of the tracefile
279 guint tid
; //Usertrace tid, else 0
280 guint pgid
; //Usertrace pgid, else 0
281 guint64 creation
; //Usertrace creation, else 0
282 LttTrace
* trace
; //trace containing the tracefile
283 int fd
; //file descriptor
284 off_t file_size
; //file size
285 //unsigned block_size; //block_size
286 guint num_blocks
; //number of blocks in the file
287 gboolean reverse_bo
; //must we reverse byte order ?
288 gboolean float_word_order
; //what is the byte order of floats ?
289 size_t alignment
; //alignment of events in the tracefile.
290 // 0 or the architecture size in bytes.
292 guint8 has_heartbeat
;
293 size_t buffer_header_size
;
294 int compact
; //compact tracefile ?
295 uint8_t tsc_lsb_truncate
;
297 uint8_t tsc_msb_cutoff
;
299 uint64_t tsc_mask_next_bit
; //next MSB after the mask
302 LttEvent event
; //Event currently accessible in the trace
305 LttBuffer buffer
; //current buffer
306 guint32 buf_size
; /* The size of blocks */
309 //unsigned int count; //the number of overflow of cycle count
310 //double nsec_per_cycle; //Nsec per cycle
311 //TimeHeartbeat * last_heartbeat; //last heartbeat
313 //LttCycleCount cycles_per_nsec_reciprocal; // Optimisation for speed
314 //void * last_event_pos;
316 //LttTime prev_block_end_time; //the end time of previous block
317 //LttTime prev_event_time; //the time of the previous event
318 //LttCycleCount pre_cycle_count; //previous cycle count of the event
321 /* The characteristics of the system on which the trace was obtained
322 is described in a LttSystemDescription structure. */
324 struct LttSystemDescription
{
330 LttArchEndian endian
;
332 gchar
*kernel_release
;
333 gchar
*kernel_version
;
336 gchar
*hardware_platform
;
337 gchar
*operating_system
;
342 /*****************************************************************************
343 macro for size of some data types
344 *****************************************************************************/
345 // alignment -> dynamic!
347 //#define TIMESTAMP_SIZE sizeof(guint32)
348 //#define EVENT_ID_SIZE sizeof(guint16)
349 //#define EVENT_HEADER_SIZE (TIMESTAMP_SIZE + EVENT_ID_SIZE)
352 //off_t get_alignment(LttField *field);
354 /* Calculate the offset needed to align the type.
355 * If alignment is 0, alignment is disactivated.
356 * else, the function returns the offset needed to
357 * align align_drift on the alignment value (should be
358 * the size of the architecture). */
359 static inline unsigned int ltt_align(size_t align_drift
,
363 size_t align_offset
= min(alignment
, size_of_type
);
368 g_assert(size_of_type
!= 0);
369 return ((align_offset
- align_drift
) & (align_offset
-1));
373 #endif /* LTT_PRIVATE_H */