static gint map_block(LttTracefile * tf, guint block_num);
/* calculate nsec per cycles for current block */
-static double calc_nsecs_per_cycle(LttTracefile * t);
+#if 0
+static guint32 calc_nsecs_per_cycle(LttTracefile * t);
+static guint64 cycles_2_ns(LttTracefile *tf, guint64 cycles);
+#endif //0
/* go to the next event */
static int ltt_seek_next_event(LttTracefile *tf);
}
+/* trace can be NULL
+ *
+ * Return value : 0 success, 1 bad tracefile
+ */
+int parse_trace_header(void *header, LttTracefile *tf, LttTrace *t)
+{
+ guint32 *magic_number = (guint32*)header;
+ struct ltt_trace_header_any *any = (struct ltt_trace_header_any *)header;
+
+ if(*magic_number == LTT_MAGIC_NUMBER)
+ tf->reverse_bo = 0;
+ else if(*magic_number == LTT_REV_MAGIC_NUMBER)
+ tf->reverse_bo = 1;
+ else /* invalid magic number, bad tracefile ! */
+ return 1;
+
+ /* Get float byte order : might be different from int byte order
+ * (or is set to 0 if the trace has no float (kernel trace)) */
+ tf->float_word_order = any->float_word_order;
+
+ if(t) {
+ t->arch_type = ltt_get_uint32(LTT_GET_BO(tf),
+ &any->arch_type);
+ t->arch_variant = ltt_get_uint32(LTT_GET_BO(tf),
+ &any->arch_variant);
+ t->arch_size = any->arch_size;
+ t->ltt_major_version = any->major_version;
+ t->ltt_minor_version = any->minor_version;
+ t->flight_recorder = any->flight_recorder;
+ t->has_heartbeat = any->has_heartbeat;
+ t->has_alignment = any->has_alignment;
+ t->has_tsc = any->has_tsc;
+ }
+
+
+ switch(any->major_version) {
+
+ case 0:
+ switch(any->minor_version) {
+ case 3:
+ {
+ tf->buffer_header_size =
+ sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_0_3);
+ g_warning("Unsupported trace version : %hhu.%hhu",
+ any->major_version, any->minor_version);
+ return 1;
+ }
+ break;
+ case 4:
+ {
+ struct ltt_trace_header_0_4 *vheader =
+ (struct ltt_trace_header_0_4 *)header;
+ tf->buffer_header_size =
+ sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_0_4);
+ if(t) {
+ t->start_freq = ltt_get_uint64(LTT_GET_BO(tf),
+ &vheader->start_freq);
+ t->start_tsc = ltt_get_uint64(LTT_GET_BO(tf),
+ &vheader->start_tsc);
+ t->start_monotonic = ltt_get_uint64(LTT_GET_BO(tf),
+ &vheader->start_monotonic);
+ t->start_time = ltt_get_time(LTT_GET_BO(tf),
+ &vheader->start_time);
+ }
+ }
+ break;
+ default:
+ g_warning("Unsupported trace version : %hhu.%hhu",
+ any->major_version, any->minor_version);
+ return 1;
+ }
+ break;
+
+ default:
+ g_warning("Unsupported trace version : %hhu.%hhu",
+ any->major_version, any->minor_version);
+ return 1;
+ }
+
+
+ return 0;
+}
+
+
+
/*****************************************************************************
*Function name
* ltt_tracefile_open : open a trace file, construct a LttTracefile
}
// Is the file large enough to contain a trace
- if(lTDFStat.st_size < (off_t)(sizeof(struct ltt_block_start_header))){
+ if(lTDFStat.st_size <
+ (off_t)(sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_any))){
g_print("The input data file %s does not contain a trace\n", fileName);
goto close_file;
}
/* Temporarily map the buffer start header to get trace information */
/* Multiple of pages aligned head */
tf->buffer.head = mmap(0,
- PAGE_ALIGN(sizeof(struct ltt_block_start_header)), PROT_READ,
+ PAGE_ALIGN(sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_any)), PROT_READ,
MAP_PRIVATE, tf->fd, 0);
if(tf->buffer.head == MAP_FAILED) {
perror("Error in allocating memory for buffer of tracefile");
header = (struct ltt_block_start_header*)tf->buffer.head;
- if(header->trace.magic_number == LTT_MAGIC_NUMBER)
- tf->reverse_bo = 0;
- else if(header->trace.magic_number == LTT_REV_MAGIC_NUMBER)
- tf->reverse_bo = 1;
- else /* invalid magic number, bad tracefile ! */
+ if(parse_trace_header(header->trace, tf, NULL)) {
+ g_warning("parse_trace_header error");
goto unmap_file;
- /* Get float byte order : might be different from int byte order
- * (or is set to 0 if the trace has no float (kernel trace)) */
- tf->float_word_order = header->trace.float_word_order;
+ }
//store the size of the file
tf->file_size = lTDFStat.st_size;
tf->num_blocks = tf->file_size / tf->buf_size;
if(munmap(tf->buffer.head,
- PAGE_ALIGN(sizeof(struct ltt_block_start_header)))) {
+ PAGE_ALIGN(sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_any)))) {
g_warning("unmap size : %u\n",
- PAGE_ALIGN(sizeof(struct ltt_block_start_header)));
+ PAGE_ALIGN(sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_any)));
perror("munmap error");
g_assert(0);
}
/* Error */
unmap_file:
if(munmap(tf->buffer.head,
- PAGE_ALIGN(sizeof(struct ltt_block_start_header)))) {
+ PAGE_ALIGN(sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_any)))) {
g_warning("unmap size : %u\n",
- PAGE_ALIGN(sizeof(struct ltt_block_start_header)));
+ PAGE_ALIGN(sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_any)));
perror("munmap error");
g_assert(0);
}
/* ltt_get_facility_description
*
- * Opens the trace corresponding to the requested facility (identified by fac_id
+ * Opens the file corresponding to the requested facility (identified by fac_id
* and checksum).
*
* The name searched is : %trace root%/eventdefs/facname_checksum.xml
textlen+=strlen(text);
if(textlen >= PATH_MAX) goto name_error;
strcat(desc_file_name, text);
-
+#if 0
text = "_";
textlen+=strlen(text);
if(textlen >= PATH_MAX) goto name_error;
textlen=strlen(desc_file_name);
+#endif //0
text = ".xml";
textlen+=strlen(text);
if(textlen >= PATH_MAX) goto name_error;
strcat(desc_file_name, text);
-
+
err = ltt_facility_open(f, t, desc_file_name);
if(err) goto facility_error;
g_assert(group->len > 0);
tf = &g_array_index (group, LttTracefile, 0);
header = (struct ltt_block_start_header*)tf->buffer.head;
- t->arch_type = ltt_get_uint32(LTT_GET_BO(tf), &header->trace.arch_type);
- t->arch_variant = ltt_get_uint32(LTT_GET_BO(tf), &header->trace.arch_variant);
- t->arch_size = header->trace.arch_size;
- t->ltt_major_version = header->trace.major_version;
- t->ltt_minor_version = header->trace.minor_version;
- t->flight_recorder = header->trace.flight_recorder;
- t->has_heartbeat = header->trace.has_heartbeat;
- t->has_alignment = header->trace.has_alignment;
- t->has_tsc = header->trace.has_tsc;
+ g_assert(parse_trace_header(header->trace,
+ tf, t) == 0);
t->num_cpu = group->len;
*Get the name of a tracefile
****************************************************************************/
-GQuark ltt_tracefile_name(LttTracefile *tf)
+GQuark ltt_tracefile_name(const LttTracefile *tf)
{
return tf->name;
}
+GQuark ltt_tracefile_long_name(const LttTracefile *tf)
+{
+ return tf->long_name;
+}
+
+
guint ltt_tracefile_num(LttTracefile *tf)
{
if(ret == ERANGE) goto range; /* ERANGE or EPERM */
else if(ret) goto fail;
- if(ltt_time_compare(time, tf->event.event_time) >= 0)
+ if(ltt_time_compare(time, tf->event.event_time) <= 0)
goto found;
}
} else if(ltt_time_compare(time, tf->buffer.begin.timestamp) < 0) {
/* go to lower part */
- high = block_num;
+ high = block_num - 1;
} else if(ltt_time_compare(time, tf->buffer.end.timestamp) > 0) {
/* go to higher part */
- low = block_num;
+ low = block_num + 1;
} else {/* The event is right in the buffer!
(or in the next buffer first event) */
while(1) {
if(ret == ERANGE) goto range; /* ERANGE or EPERM */
else if(ret) goto fail;
- if(ltt_time_compare(time, tf->event.event_time) >= 0)
+ if(ltt_time_compare(time, tf->event.event_time) <= 0)
break;
}
goto found;
g_assert(tf->trace->has_tsc);
- time = ltt_time_from_uint64(
- (guint64)(tf->buffer.tsc - tf->buffer.begin.cycle_count) *
- tf->buffer.nsecs_per_cycle);
- time = ltt_time_add(tf->buffer.begin.timestamp, time);
+// time = ltt_time_from_uint64(
+// cycles_2_ns(tf, (guint64)(tf->buffer.tsc - tf->buffer.begin.cycle_count)));
+ time = ltt_time_from_uint64((tf->buffer.tsc - tf->trace->start_tsc) * 1000000
+ / (double)tf->trace->start_freq);
+ //time = ltt_time_add(tf->buffer.begin.timestamp, time);
+ time = ltt_time_add(tf->trace->start_time, time);
return time;
}
header = (struct ltt_block_start_header*)tf->buffer.head;
- tf->buffer.begin.timestamp = ltt_get_time(LTT_GET_BO(tf),
- &header->begin.timestamp);
- tf->buffer.begin.timestamp.tv_nsec *= NSEC_PER_USEC;
- g_debug("block %u begin : %lu.%lu", block_num,
- tf->buffer.begin.timestamp.tv_sec, tf->buffer.begin.timestamp.tv_nsec);
+#if 0
+ tf->buffer.begin.timestamp = ltt_time_add(
+ ltt_time_from_uint64(
+ ltt_get_uint64(LTT_GET_BO(tf),
+ &header->begin.timestamp)
+ - tf->trace->start_monotonic),
+ tf->trace->start_time);
+#endif //0
+ //g_debug("block %u begin : %lu.%lu", block_num,
+ // tf->buffer.begin.timestamp.tv_sec, tf->buffer.begin.timestamp.tv_nsec);
tf->buffer.begin.cycle_count = ltt_get_uint64(LTT_GET_BO(tf),
&header->begin.cycle_count);
- tf->buffer.end.timestamp = ltt_get_time(LTT_GET_BO(tf),
- &header->end.timestamp);
- tf->buffer.end.timestamp.tv_nsec *= NSEC_PER_USEC;
- g_debug("block %u end : %lu.%lu", block_num,
- tf->buffer.end.timestamp.tv_sec, tf->buffer.end.timestamp.tv_nsec);
+ tf->buffer.begin.freq = ltt_get_uint64(LTT_GET_BO(tf),
+ &header->begin.freq);
+ tf->buffer.begin.timestamp = ltt_time_add(
+ ltt_time_from_uint64(
+ (tf->buffer.begin.cycle_count
+ - tf->trace->start_tsc) * 1000000
+ / (double)tf->trace->start_freq),
+ tf->trace->start_time);
+#if 0
+
+ tf->buffer.end.timestamp = ltt_time_add(
+ ltt_time_from_uint64(
+ ltt_get_uint64(LTT_GET_BO(tf),
+ &header->end.timestamp)
+ - tf->trace->start_monotonic),
+ tf->trace->start_time);
+#endif //0
+ //g_debug("block %u end : %lu.%lu", block_num,
+ // tf->buffer.end.timestamp.tv_sec, tf->buffer.end.timestamp.tv_nsec);
tf->buffer.end.cycle_count = ltt_get_uint64(LTT_GET_BO(tf),
&header->end.cycle_count);
+ tf->buffer.end.freq = ltt_get_uint64(LTT_GET_BO(tf),
+ &header->end.freq);
tf->buffer.lost_size = ltt_get_uint32(LTT_GET_BO(tf),
- &header->lost_size);
-
+ &header->lost_size);
+ tf->buffer.end.timestamp = ltt_time_add(
+ ltt_time_from_uint64(
+ (tf->buffer.end.cycle_count
+ - tf->trace->start_tsc) * 1000000
+ / (double)tf->trace->start_freq),
+ tf->trace->start_time);
+
tf->buffer.tsc = tf->buffer.begin.cycle_count;
tf->event.tsc = tf->buffer.tsc;
+ tf->buffer.freq = tf->buffer.begin.freq;
/* FIXME
* eventually support variable buffer size : will need a partial pre-read of
/* Now that the buffer is mapped, calculate the time interpolation for the
* block. */
- tf->buffer.nsecs_per_cycle = calc_nsecs_per_cycle(tf);
+// tf->buffer.nsecs_per_cycle = calc_nsecs_per_cycle(tf);
+ //tf->buffer.cyc2ns_scale = calc_nsecs_per_cycle(tf);
/* Make the current event point to the beginning of the buffer :
* it means that the event read must get the first event. */
switch((enum ltt_core_events)tf->event.event_id) {
case LTT_EVENT_FACILITY_LOAD:
size = strlen((char*)tf->event.data) + 1;
- g_debug("Update Event facility load of facility %s", (char*)tf->event.data);
+ //g_debug("Update Event facility load of facility %s", (char*)tf->event.data);
size += sizeof(struct LttFacilityLoad);
break;
case LTT_EVENT_FACILITY_UNLOAD:
- g_debug("Update Event facility unload");
+ //g_debug("Update Event facility unload");
size = sizeof(struct LttFacilityUnload);
break;
case LTT_EVENT_STATE_DUMP_FACILITY_LOAD:
size = strlen((char*)tf->event.data) + 1;
- g_debug("Update Event facility load state dump of facility %s",
- (char*)tf->event.data);
+ //g_debug("Update Event facility load state dump of facility %s",
+ // (char*)tf->event.data);
size += sizeof(struct LttStateDumpFacilityLoad);
break;
case LTT_EVENT_HEARTBEAT:
- g_debug("Update Event heartbeat");
+ //g_debug("Update Event heartbeat");
size = sizeof(TimeHeartbeat);
break;
default:
else
size = 0;
- g_debug("Event root field : f.e %hhu.%hhu size %zd",
- tf->event.facility_id,
- tf->event.event_id, size);
+ //g_debug("Event root field : f.e %hhu.%hhu size %zd",
+ // tf->event.facility_id,
+ // tf->event.event_id, size);
}
tf->event.data_size = size;
/* seek over the buffer header if we are at the buffer start */
if(tf->event.offset == 0) {
- tf->event.offset += sizeof(struct ltt_block_start_header);
+ tf->event.offset += tf->buffer_header_size;
if(tf->event.offset == tf->buf_size - tf->buffer.lost_size) {
ret = ERANGE;
ret = ERANGE;
goto found;
}
+ g_assert(tf->event.offset < tf->buf_size - tf->buffer.lost_size);
found:
return ret;
return ENOPROTOOPT;
}
-
+#if 0
/*****************************************************************************
*Function name
* calc_nsecs_per_cycle : calculate nsecs per cycle for current block
+ *
+ * 1.0 / (freq(khz) *1000) * 1000000000
*Input Params
* t : tracefile
****************************************************************************/
-
-static double calc_nsecs_per_cycle(LttTracefile * tf)
+/* from timer_tsc.c */
+#define CYC2NS_SCALE_FACTOR 10
+static guint32 calc_nsecs_per_cycle(LttTracefile * tf)
{
- LttTime lBufTotalTime; /* Total time for this buffer */
- double lBufTotalNSec; /* Total time for this buffer in nsecs */
- LttCycleCount lBufTotalCycle;/* Total cycles for this buffer */
-
- /* Calculate the total time for this buffer */
- lBufTotalTime = ltt_time_sub(tf->buffer.end.timestamp,
- tf->buffer.begin.timestamp);
-
- /* Calculate the total cycles for this bufffer */
- lBufTotalCycle = tf->buffer.end.cycle_count;
- lBufTotalCycle -= tf->buffer.begin.cycle_count;
-
- /* Convert the total time to double */
- lBufTotalNSec = ltt_time_to_double(lBufTotalTime);
+ //return 1e6 / (double)tf->buffer.freq;
+ guint32 cpu_mhz = tf->buffer.freq / 1000;
+ guint32 cyc2ns_scale = (1000 << CYC2NS_SCALE_FACTOR)/cpu_mhz;
- return lBufTotalNSec / (double)lBufTotalCycle;
+ return cyc2ns_scale;
+ // return 1e6 / (double)tf->buffer.freq;
+}
+static guint64 cycles_2_ns(LttTracefile *tf, guint64 cycles)
+{
+ return (cycles * tf->buffer.cyc2ns_scale) >> CYC2NS_SCALE_FACTOR;
}
+#endif //0
+
#if 0
void setFieldsOffset(LttTracefile *tf, LttEventType *evT,void *evD)
{