#include <glib.h>
#include <malloc.h>
#include <sys/mman.h>
+#include <string.h>
// For realpath
#include <limits.h>
#include <ltt/event.h>
#include <ltt/type.h>
#include <ltt/ltt-types.h>
-
+#include <ltt/markers.h>
/* Facility names used in this file */
GQuark LTT_FACILITY_NAME_HEARTBEAT,
- LTT_EVENT_NAME_HEARTBEAT;
+ LTT_EVENT_NAME_HEARTBEAT,
+ LTT_EVENT_NAME_HEARTBEAT_FULL;
GQuark LTT_TRACEFILE_NAME_FACILITIES;
#ifndef g_open
* (or is set to 0 if the trace has no float (kernel trace)) */
tf->float_word_order = any->float_word_order;
tf->has_alignment = any->has_alignment;
+ tf->has_heartbeat = any->has_heartbeat;
if(t) {
t->arch_type = ltt_get_uint32(LTT_GET_BO(tf),
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->freq_scale = any->freq_scale;
+ t->compact_facilities = NULL;
}
tf->buffer_header_size =
sizeof(struct ltt_block_start_header)
+ sizeof(struct ltt_trace_header_0_7);
+ tf->tsc_lsb_truncate = 0;
+ tf->tscbits = 32;
+ tf->tsc_msb_cutoff = 32 - tf->tsc_lsb_truncate - tf->tscbits;
+ tf->tsc_mask = (1ULL<<32)-1;
+ tf->tsc_mask_next_bit = (1ULL<<32);
+ if(t) {
+ t->start_freq = ltt_get_uint64(LTT_GET_BO(tf),
+ &vheader->start_freq);
+ t->freq_scale = ltt_get_uint32(LTT_GET_BO(tf),
+ &vheader->freq_scale);
+ 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.tv_sec = ltt_get_uint64(LTT_GET_BO(tf),
+ &vheader->start_time_sec);
+ t->start_time.tv_nsec = ltt_get_uint64(LTT_GET_BO(tf),
+ &vheader->start_time_usec);
+ t->start_time.tv_nsec *= 1000; /* microsec to nanosec */
+
+ t->start_time_from_tsc = ltt_time_from_uint64(
+ (double)t->start_tsc
+ * (1000000000.0 / tf->trace->freq_scale)
+ / (double)t->start_freq);
+ t->compact_event_bits = 0;
+ }
+ }
+ break;
+ case 8:
+ {
+ struct ltt_trace_header_0_8 *vheader =
+ (struct ltt_trace_header_0_8 *)header;
+ tf->buffer_header_size =
+ sizeof(struct ltt_block_start_header)
+ + sizeof(struct ltt_trace_header_0_8);
+ tf->tsc_lsb_truncate = vheader->tsc_lsb_truncate;
+ tf->tscbits = vheader->tscbits;
+ tf->tsc_msb_cutoff = 32 - tf->tsc_lsb_truncate - tf->tscbits;
+ tf->tsc_mask = ((1ULL << (tf->tscbits))-1);
+ tf->tsc_mask = tf->tsc_mask << tf->tsc_lsb_truncate;
+ tf->tsc_mask_next_bit = (1ULL<<(tf->tscbits));
+ tf->tsc_mask_next_bit = tf->tsc_mask_next_bit << tf->tsc_lsb_truncate;
if(t) {
t->start_freq = ltt_get_uint64(LTT_GET_BO(tf),
&vheader->start_freq);
+ t->freq_scale = ltt_get_uint32(LTT_GET_BO(tf),
+ &vheader->freq_scale);
t->start_tsc = ltt_get_uint64(LTT_GET_BO(tf),
&vheader->start_tsc);
t->start_monotonic = ltt_get_uint64(LTT_GET_BO(tf),
t->start_time.tv_nsec *= 1000; /* microsec to nanosec */
t->start_time_from_tsc = ltt_time_from_uint64(
- (double)t->start_tsc * 1000000.0 / (double)t->start_freq);
+ (double)t->start_tsc
+ * (1000000000.0 / tf->trace->freq_scale)
+ / (double)t->start_freq);
+ t->compact_event_bits = 0;
}
}
break;
int get_tracefile_name_number(gchar *raw_name,
GQuark *name,
guint *num,
- guint *tid,
- guint *pgid,
- guint64 *creation)
+ guint *tid,
+ guint *pgid,
+ guint64 *creation)
{
guint raw_name_len = strlen(raw_name);
gchar char_name[PATH_MAX];
int underscore_pos;
long int cpu_num;
gchar *endptr;
- gchar *tmpptr;
+ gchar *tmpptr;
for(i=raw_name_len-1;i>=0;i--) {
if(raw_name[i] == '_') break;
}
if(i==-1) { /* Either not found or name length is 0 */
- /* This is a userspace tracefile */
- strncpy(char_name, raw_name, raw_name_len);
- *name = g_quark_from_string(char_name);
- *num = 0; /* unknown cpu */
- for(i=0;i<raw_name_len;i++) {
- if(raw_name[i] == '/') {
- break;
- }
- }
- i++;
- for(;i<raw_name_len;i++) {
- if(raw_name[i] == '/') {
- break;
- }
- }
- i++;
- for(;i<raw_name_len;i++) {
- if(raw_name[i] == '-') {
- break;
- }
- }
- if(i == raw_name_len) return -1;
- i++;
- tmpptr = &raw_name[i];
- for(;i<raw_name_len;i++) {
- if(raw_name[i] == '.') {
- raw_name[i] = ' ';
- break;
- }
- }
- *tid = strtoul(tmpptr, &endptr, 10);
- if(endptr == tmpptr)
- return -1; /* No digit */
- if(*tid == ULONG_MAX)
- return -1; /* underflow / overflow */
- i++;
- tmpptr = &raw_name[i];
- for(;i<raw_name_len;i++) {
- if(raw_name[i] == '.') {
- raw_name[i] = ' ';
- break;
- }
- }
- *pgid = strtoul(tmpptr, &endptr, 10);
- if(endptr == tmpptr)
- return -1; /* No digit */
- if(*pgid == ULONG_MAX)
- return -1; /* underflow / overflow */
- i++;
- tmpptr = &raw_name[i];
- *creation = strtoull(tmpptr, &endptr, 10);
- if(endptr == tmpptr)
- return -1; /* No digit */
- if(*creation == G_MAXUINT64)
- return -1; /* underflow / overflow */
- } else {
- underscore_pos = i;
-
- cpu_num = strtol(raw_name+underscore_pos+1, &endptr, 10);
-
- if(endptr == raw_name+underscore_pos+1)
- return -1; /* No digit */
- if(cpu_num == LONG_MIN || cpu_num == LONG_MAX)
- return -1; /* underflow / overflow */
-
- strncpy(char_name, raw_name, underscore_pos);
- char_name[underscore_pos] = '\0';
-
- *name = g_quark_from_string(char_name);
- *num = cpu_num;
- }
+ /* This is a userspace tracefile */
+ strncpy(char_name, raw_name, raw_name_len);
+ char_name[raw_name_len] = '\0';
+ *name = g_quark_from_string(char_name);
+ *num = 0; /* unknown cpu */
+ for(i=0;i<raw_name_len;i++) {
+ if(raw_name[i] == '/') {
+ break;
+ }
+ }
+ i++;
+ for(;i<raw_name_len;i++) {
+ if(raw_name[i] == '/') {
+ break;
+ }
+ }
+ i++;
+ for(;i<raw_name_len;i++) {
+ if(raw_name[i] == '-') {
+ break;
+ }
+ }
+ if(i == raw_name_len) return -1;
+ i++;
+ tmpptr = &raw_name[i];
+ for(;i<raw_name_len;i++) {
+ if(raw_name[i] == '.') {
+ raw_name[i] = ' ';
+ break;
+ }
+ }
+ *tid = strtoul(tmpptr, &endptr, 10);
+ if(endptr == tmpptr)
+ return -1; /* No digit */
+ if(*tid == ULONG_MAX)
+ return -1; /* underflow / overflow */
+ i++;
+ tmpptr = &raw_name[i];
+ for(;i<raw_name_len;i++) {
+ if(raw_name[i] == '.') {
+ raw_name[i] = ' ';
+ break;
+ }
+ }
+ *pgid = strtoul(tmpptr, &endptr, 10);
+ if(endptr == tmpptr)
+ return -1; /* No digit */
+ if(*pgid == ULONG_MAX)
+ return -1; /* underflow / overflow */
+ i++;
+ tmpptr = &raw_name[i];
+ *creation = strtoull(tmpptr, &endptr, 10);
+ if(endptr == tmpptr)
+ return -1; /* No digit */
+ if(*creation == G_MAXUINT64)
+ return -1; /* underflow / overflow */
+ } else {
+ underscore_pos = i;
+
+ cpu_num = strtol(raw_name+underscore_pos+1, &endptr, 10);
+
+ if(endptr == raw_name+underscore_pos+1)
+ return -1; /* No digit */
+ if(cpu_num == LONG_MIN || cpu_num == LONG_MAX)
+ return -1; /* underflow / overflow */
+
+ strncpy(char_name, raw_name, underscore_pos);
+ char_name[underscore_pos] = '\0';
+
+ *name = g_quark_from_string(char_name);
+ *num = cpu_num;
+ }
return 0;
* relative path is the path relative to the trace root
* root path is the full path
*
- * A tracefile group is simply an array where all the per cpu tracefiles sits.
+ * A tracefile group is simply an array where all the per cpu tracefiles sit.
*/
static int open_tracefiles(LttTrace *trace, gchar *root_path,
gchar *relative_path)
{
- DIR *dir = opendir(root_path);
- struct dirent *entry;
- struct stat stat_buf;
- int ret;
+ DIR *dir = opendir(root_path);
+ struct dirent *entry;
+ struct stat stat_buf;
+ int ret;
- gchar path[PATH_MAX];
- int path_len;
- gchar *path_ptr;
+ gchar path[PATH_MAX];
+ int path_len;
+ gchar *path_ptr;
int rel_path_len;
gchar rel_path[PATH_MAX];
gchar *rel_path_ptr;
LttTracefile tmp_tf;
- if(dir == NULL) {
- perror(root_path);
- return ENOENT;
- }
+ if(dir == NULL) {
+ perror(root_path);
+ return ENOENT;
+ }
- strncpy(path, root_path, PATH_MAX-1);
- path_len = strlen(path);
- path[path_len] = '/';
- path_len++;
- path_ptr = path + path_len;
+ strncpy(path, root_path, PATH_MAX-1);
+ path_len = strlen(path);
+ path[path_len] = '/';
+ path_len++;
+ path_ptr = path + path_len;
strncpy(rel_path, relative_path, PATH_MAX-1);
rel_path_len = strlen(rel_path);
rel_path_len++;
rel_path_ptr = rel_path + rel_path_len;
- while((entry = readdir(dir)) != NULL) {
-
- if(entry->d_name[0] == '.') continue;
-
- strncpy(path_ptr, entry->d_name, PATH_MAX - path_len);
- strncpy(rel_path_ptr, entry->d_name, PATH_MAX - rel_path_len);
-
- ret = stat(path, &stat_buf);
- if(ret == -1) {
- perror(path);
- continue;
- }
-
- g_debug("Tracefile file or directory : %s\n", path);
-
+ while((entry = readdir(dir)) != NULL) {
+
+ if(entry->d_name[0] == '.') continue;
+
+ strncpy(path_ptr, entry->d_name, PATH_MAX - path_len);
+ strncpy(rel_path_ptr, entry->d_name, PATH_MAX - rel_path_len);
+
+ ret = stat(path, &stat_buf);
+ if(ret == -1) {
+ perror(path);
+ continue;
+ }
+
+ g_debug("Tracefile file or directory : %s\n", path);
+
if(strcmp(rel_path, "/eventdefs") == 0) continue;
- if(S_ISDIR(stat_buf.st_mode)) {
+ if(S_ISDIR(stat_buf.st_mode)) {
- g_debug("Entering subdirectory...\n");
- ret = open_tracefiles(trace, path, rel_path);
- if(ret < 0) continue;
- } else if(S_ISREG(stat_buf.st_mode)) {
- GQuark name;
+ g_debug("Entering subdirectory...\n");
+ ret = open_tracefiles(trace, path, rel_path);
+ if(ret < 0) continue;
+ } else if(S_ISREG(stat_buf.st_mode)) {
+ GQuark name;
guint num, tid, pgid;
- guint64 creation;
+ guint64 creation;
GArray *group;
num = tid = pgid = 0;
- creation = 0;
+ creation = 0;
if(get_tracefile_name_number(rel_path, &name, &num, &tid, &pgid, &creation))
continue; /* invalid name */
- g_debug("Opening file.\n");
+ g_debug("Opening file.\n");
if(ltt_tracefile_open(trace, path, &tmp_tf)) {
g_info("Error opening tracefile %s", path);
tmp_tf.cpu_online = 1;
tmp_tf.cpu_num = num;
tmp_tf.name = name;
- tmp_tf.tid = tid;
- tmp_tf.pgid = pgid;
- tmp_tf.creation = creation;
-
+ tmp_tf.tid = tid;
+ tmp_tf.pgid = pgid;
+ tmp_tf.creation = creation;
+ if(tmp_tf.name == g_quark_from_string("/compact")
+ || tmp_tf.name == g_quark_from_string("/flight-compact"))
+ tmp_tf.compact = 1;
+ else
+ tmp_tf.compact = 0;
group = g_datalist_id_get_data(&trace->tracefiles, name);
if(group == NULL) {
/* Elements are automatically cleared when the array is allocated.
group = g_array_set_size(group, num+1);
g_array_index (group, LttTracefile, num) = tmp_tf;
- }
- }
-
- closedir(dir);
+ }
+ }
+
+ closedir(dir);
- return 0;
+ return 0;
}
/* ltt_get_facility_description
const gchar *text;
guint textlen;
gint err;
- gint arch_spec;
- gint fac_name_len;
+ gint arch_spec;
+ gint fac_name_len;
text = g_quark_to_string(t->pathname);
textlen = strlen(text);
strcat(desc_file_name, text);
text = g_quark_to_string(f->name);
- fac_name_len = strlen(text);
+ fac_name_len = strlen(text);
textlen+=fac_name_len;
if(textlen >= PATH_MAX) goto name_error;
strcat(desc_file_name, text);
- /* arch specific facilities are named like this : name_arch */
- if(fac_name_len+1 < sizeof("_arch"))
- arch_spec = 0;
- else {
- if(!strcmp(&text[fac_name_len+1-sizeof("_arch")], "_arch"))
- arch_spec = 1;
- else
- arch_spec = 0;
- }
+ /* arch specific facilities are named like this : name_arch */
+ if(fac_name_len+1 < sizeof("_arch"))
+ arch_spec = 0;
+ else {
+ if(!strcmp(&text[fac_name_len+1-sizeof("_arch")], "_arch"))
+ arch_spec = 1;
+ else
+ arch_spec = 0;
+ }
#if 0
text = "_";
textlen=strlen(desc_file_name);
#endif //0
-
- if(arch_spec) {
- switch(t->arch_type) {
- case LTT_ARCH_TYPE_I386:
- text = "_i386";
- break;
- case LTT_ARCH_TYPE_PPC:
- text = "_ppc";
- break;
- case LTT_ARCH_TYPE_SH:
- text = "_sh";
- break;
- case LTT_ARCH_TYPE_S390:
- text = "_s390";
- break;
- case LTT_ARCH_TYPE_MIPS:
- text = "_mips";
- break;
- case LTT_ARCH_TYPE_ARM:
- text = "_arm";
- break;
- case LTT_ARCH_TYPE_PPC64:
- text = "_ppc64";
- break;
- case LTT_ARCH_TYPE_X86_64:
- text = "_x86_64";
- break;
- case LTT_ARCH_TYPE_C2:
- text = "_c2";
- break;
- default:
- g_error("Trace from unsupported architecture.");
- }
- textlen+=strlen(text);
- if(textlen >= PATH_MAX) goto name_error;
- strcat(desc_file_name, text);
- }
-
+
+ if(arch_spec) {
+ switch(t->arch_type) {
+ case LTT_ARCH_TYPE_I386:
+ text = "_i386";
+ break;
+ case LTT_ARCH_TYPE_PPC:
+ text = "_ppc";
+ break;
+ case LTT_ARCH_TYPE_SH:
+ text = "_sh";
+ break;
+ case LTT_ARCH_TYPE_S390:
+ text = "_s390";
+ break;
+ case LTT_ARCH_TYPE_MIPS:
+ text = "_mips";
+ break;
+ case LTT_ARCH_TYPE_ARM:
+ text = "_arm";
+ break;
+ case LTT_ARCH_TYPE_PPC64:
+ text = "_ppc64";
+ break;
+ case LTT_ARCH_TYPE_X86_64:
+ text = "_x86_64";
+ break;
+ case LTT_ARCH_TYPE_C2:
+ text = "_c2";
+ break;
+ case LTT_ARCH_TYPE_POWERPC:
+ text = "_powerpc";
+ break;
+ default:
+ g_error("Trace from unsupported architecture.");
+ }
+ textlen+=strlen(text);
+ if(textlen >= PATH_MAX) goto name_error;
+ strcat(desc_file_name, text);
+ }
+
text = ".xml";
textlen+=strlen(text);
if(textlen >= PATH_MAX) goto name_error;
g_debug("Doing LTT_EVENT_FACILITY_LOAD of facility %s",
fac_name);
pos = (tf->event.data + strlen(fac_name) + 1);
- pos += ltt_align((size_t)pos, sizeof(guint32), tf->has_alignment);
+ pos += ltt_align((size_t)pos, tf->trace->arch_size, tf->has_alignment);
fac_load_data = (struct LttFacilityLoad *)pos;
fac = &g_array_index (tf->trace->facilities_by_num, LttFacility,
fac->id = ltt_get_uint32(LTT_GET_BO(tf), &fac_load_data->id);
fac->pointer_size = ltt_get_uint32(LTT_GET_BO(tf),
&fac_load_data->pointer_size);
- fac->int_size = ltt_get_uint32(LTT_GET_BO(tf),
- &fac_load_data->int_size);
+ fac->int_size = ltt_get_uint32(LTT_GET_BO(tf),
+ &fac_load_data->int_size);
fac->long_size = ltt_get_uint32(LTT_GET_BO(tf),
&fac_load_data->long_size);
fac->size_t_size = ltt_get_uint32(LTT_GET_BO(tf),
g_debug("Doing LTT_EVENT_STATE_DUMP_FACILITY_LOAD of facility %s",
fac_name);
pos = (tf->event.data + strlen(fac_name) + 1);
- pos += ltt_align((size_t)pos, sizeof(guint32), tf->has_alignment);
+ pos += ltt_align((size_t)pos, tf->trace->arch_size, tf->has_alignment);
fac_state_dump_load_data = (struct LttStateDumpFacilityLoad *)pos;
fac = &g_array_index (tf->trace->facilities_by_num, LttFacility,
&fac_state_dump_load_data->id);
fac->pointer_size = ltt_get_uint32(LTT_GET_BO(tf),
&fac_state_dump_load_data->pointer_size);
- fac->int_size = ltt_get_uint32(LTT_GET_BO(tf),
- &fac_state_dump_load_data->int_size);
+ fac->int_size = ltt_get_uint32(LTT_GET_BO(tf),
+ &fac_state_dump_load_data->int_size);
fac->long_size = ltt_get_uint32(LTT_GET_BO(tf),
&fac_state_dump_load_data->long_size);
fac->size_t_size = ltt_get_uint32(LTT_GET_BO(tf),
fac_ids, ltt_fac_ids_destroy);
}
g_array_append_val(fac_ids, fac->id);
+ g_debug("fac id : %u", fac->id);
break;
case LTT_EVENT_HEARTBEAT:
break;
+ case LTT_EVENT_HEARTBEAT_FULL:
+ break;
default:
g_warning("Error in processing facility file %s, "
"unknown event id %hhu in core facility.",
GArray *group;
int i, ret;
struct ltt_block_start_header *header;
- DIR *dir;
- struct dirent *entry;
+ DIR *dir;
+ struct dirent *entry;
guint control_found = 0;
guint eventdefs_found = 0;
- struct stat stat_buf;
+ struct stat stat_buf;
gchar path[PATH_MAX];
t = g_new(LttTrace, 1);
g_datalist_init(&t->tracefiles);
/* Test to see if it looks like a trace */
- dir = opendir(abs_path);
- if(dir == NULL) {
- perror(abs_path);
- goto open_error;
- }
- while((entry = readdir(dir)) != NULL) {
+ dir = opendir(abs_path);
+ if(dir == NULL) {
+ perror(abs_path);
+ goto open_error;
+ }
+ while((entry = readdir(dir)) != NULL) {
strcpy(path, abs_path);
strcat(path, "/");
strcat(path, entry->d_name);
- ret = stat(path, &stat_buf);
- if(ret == -1) {
- perror(path);
- continue;
- }
- if(S_ISDIR(stat_buf.st_mode)) {
+ ret = stat(path, &stat_buf);
+ if(ret == -1) {
+ perror(path);
+ continue;
+ }
+ if(S_ISDIR(stat_buf.st_mode)) {
if(strcmp(entry->d_name, "control") == 0) {
control_found = 1;
}
if(ltt_process_facility_tracefile(tf))
goto facilities_error;
}
-
+ t->compact_facilities = ltt_trace_facility_get_by_name(t,
+ g_quark_from_string("compact"));
+ if(!t->compact_facilities)
+ t->compact_facilities = ltt_trace_facility_get_by_name(t,
+ g_quark_from_string("flight-compact"));
+ if (t->compact_facilities) {
+ /* FIXME : currently does not support unload/load of compact
+ * facility during tracing. Should check for the currently loaded
+ * version of the facility. */
+ g_assert(t->compact_facilities->len == 1);
+ g_assert(t->compact_facilities);
+ {
+ guint facility_id = g_array_index(t->compact_facilities, guint, 0);
+ LttFacility *fac = ltt_trace_facility_by_id(t, facility_id);
+ unsigned int num = ltt_facility_eventtype_number(fac);
+ /* Could be done much quicker, but not on much used code path */
+ if(num) {
+ t->compact_event_bits = 1;
+ while(num >>= 1)
+ t->compact_event_bits++;
+ } else
+ t->compact_event_bits = 0;
+ }
+ }
+
return t;
/* Error handling */
tf->event.offset = ep->offset;
- /* Put back the event real tsc */
- tf->event.tsc = ep->tsc;
- tf->buffer.tsc = ep->tsc;
+ /* Put back the event real tsc */
+ tf->event.tsc = ep->tsc;
+ tf->buffer.tsc = ep->tsc;
err = ltt_tracefile_read_update_event(tf);
if(err) goto fail;
LttTime ltt_interpolate_time_from_tsc(LttTracefile *tf, guint64 tsc)
{
LttTime time;
-
- if(tsc > tf->trace->start_tsc) {
- time = ltt_time_from_uint64(
- (double)(tsc - tf->trace->start_tsc)
- * (1000000000.0 / tf->trace->freq_scale)
- / (double)tf->trace->start_freq);
- time = ltt_time_add(tf->trace->start_time_from_tsc, time);
- } else {
- time = ltt_time_from_uint64(
- (double)(tf->trace->start_tsc - tsc)
- * (1000000000.0 / tf->trace->freq_scale)
- / (double)tf->trace->start_freq);
- time = ltt_time_sub(tf->trace->start_time_from_tsc, time);
- }
+
+ if(tsc > tf->trace->start_tsc) {
+ time = ltt_time_from_uint64(
+ (double)(tsc - tf->trace->start_tsc)
+ * (1000000000.0 / tf->trace->freq_scale)
+ / (double)tf->trace->start_freq);
+ time = ltt_time_add(tf->trace->start_time_from_tsc, time);
+ } else {
+ time = ltt_time_from_uint64(
+ (double)(tf->trace->start_tsc - tsc)
+ * (1000000000.0 / tf->trace->freq_scale)
+ / (double)tf->trace->start_freq);
+ time = ltt_time_sub(tf->trace->start_time_from_tsc, time);
+ }
return time;
}
/* Calculate the real event time based on the buffer boundaries */
LttTime ltt_interpolate_time(LttTracefile *tf, LttEvent *event)
{
- return ltt_interpolate_time_from_tsc(tf, tf->buffer.tsc);
+ return ltt_interpolate_time_from_tsc(tf, tf->buffer.tsc);
}
/* Read event header */
- /* Align the head */
- pos += ltt_align((size_t)pos, tf->trace->arch_size, tf->has_alignment);
+ /* Align the head */
+ if(!tf->compact)
+ pos += ltt_align((size_t)pos, tf->trace->arch_size, tf->has_alignment);
+ else {
+ g_assert(tf->has_heartbeat);
+ pos += ltt_align((size_t)pos, sizeof(uint32_t), tf->has_alignment);
+ }
- if(tf->trace->has_heartbeat) {
- event->timestamp = ltt_get_uint32(LTT_GET_BO(tf),
- pos);
- /* 32 bits -> 64 bits tsc */
- /* note : still works for seek and non seek cases. */
- if(event->timestamp < (0xFFFFFFFFULL&tf->buffer.tsc)) {
- tf->buffer.tsc = ((tf->buffer.tsc&0xFFFFFFFF00000000ULL)
- + 0x100000000ULL)
- | (guint64)event->timestamp;
- event->tsc = tf->buffer.tsc;
- } else {
- /* no overflow */
- tf->buffer.tsc = (tf->buffer.tsc&0xFFFFFFFF00000000ULL)
- | (guint64)event->timestamp;
- event->tsc = tf->buffer.tsc;
- }
- pos += sizeof(guint32);
- } else {
- event->tsc = ltt_get_uint64(LTT_GET_BO(tf), pos);
- tf->buffer.tsc = event->tsc;
- pos += sizeof(guint64);
- }
- event->event_time = ltt_interpolate_time(tf, event);
- event->facility_id = *(guint8*)pos;
- pos += sizeof(guint8);
+ if(tf->has_heartbeat) {
+ event->timestamp = ltt_get_uint32(LTT_GET_BO(tf),
+ pos);
+ if(!tf->compact) {
+ /* 32 bits -> 64 bits tsc */
+ /* note : still works for seek and non seek cases. */
+ if(event->timestamp < (0xFFFFFFFFULL&tf->buffer.tsc)) {
+ tf->buffer.tsc = ((tf->buffer.tsc&0xFFFFFFFF00000000ULL)
+ + 0x100000000ULL)
+ | (guint64)event->timestamp;
+ event->tsc = tf->buffer.tsc;
+ } else {
+ /* no overflow */
+ tf->buffer.tsc = (tf->buffer.tsc&0xFFFFFFFF00000000ULL)
+ | (guint64)event->timestamp;
+ event->tsc = tf->buffer.tsc;
+ event->compact_data = 0;
+ }
+ } else {
+ /* Compact header */
+ /* We keep the LSB of the previous timestamp, to make sure
+ * we never go back */
+ event->event_id = event->timestamp >> tf->tscbits;
+ event->event_id = event->event_id & ((1 << tf->trace->compact_event_bits) - 1);
+ event->compact_data = event->timestamp >>
+ (tf->trace->compact_event_bits + tf->tscbits);
+ //printf("tsc bits %u, ev bits %u init data %u\n",
+ // tf->tscbits, tf->trace->compact_event_bits, event->compact_data);
+ /* Put the compact data back in original endianness */
+ event->compact_data = ltt_get_uint32(LTT_GET_BO(tf), &event->compact_data);
+ event->event_size = 0xFFFF;
+ //printf("Found compact event %d\n", event->event_id);
+ //printf("Compact data %d\n", event->compact_data);
+ event->timestamp = event->timestamp << tf->tsc_lsb_truncate;
+ event->timestamp = event->timestamp & tf->tsc_mask;
+ //printf("timestamp 0x%lX\n", event->timestamp);
+ //printf("mask 0x%llX\n", tf->tsc_mask);
+ //printf("mask_next 0x%llX\n", tf->tsc_mask_next_bit);
+ //printf("previous tsc 0x%llX\n", tf->buffer.tsc);
+ //printf("previous tsc&mask 0x%llX\n", tf->tsc_mask&tf->buffer.tsc);
+ //printf("previous tsc&(~mask) 0x%llX\n", tf->buffer.tsc&(~tf->tsc_mask));
+ if(event->timestamp < (tf->tsc_mask&tf->buffer.tsc)) {
+ //printf("wrap\n");
+ tf->buffer.tsc = ((tf->buffer.tsc&(~tf->tsc_mask))
+ + tf->tsc_mask_next_bit)
+ | (guint64)event->timestamp;
+ event->tsc = tf->buffer.tsc;
+ } else {
+ //printf("no wrap\n");
+ /* no overflow */
+ tf->buffer.tsc = (tf->buffer.tsc&(~tf->tsc_mask))
+ | (guint64)event->timestamp;
+ event->tsc = tf->buffer.tsc;
+ }
+ //printf("current tsc 0x%llX\n", tf->buffer.tsc);
+ event->facility_id = g_array_index(tf->trace->compact_facilities, guint, 0);
+ }
+ pos += sizeof(guint32);
+ } else {
+ event->tsc = ltt_get_uint64(LTT_GET_BO(tf), pos);
+ tf->buffer.tsc = event->tsc;
+ event->compact_data = 0;
+ pos += sizeof(guint64);
+ }
+ event->event_time = ltt_interpolate_time(tf, event);
- event->event_id = *(guint8*)pos;
- pos += sizeof(guint8);
+ if(!tf->compact) {
+ event->facility_id = *(guint8*)pos;
+ pos += sizeof(guint8);
- event->event_size = ltt_get_uint16(LTT_GET_BO(tf), pos);
- pos += sizeof(guint16);
-
- /* Align the head */
- pos += ltt_align((size_t)pos, tf->trace->arch_size, tf->has_alignment);
+ event->event_id = *(guint8*)pos;
+ pos += sizeof(guint8);
+
+ event->event_size = ltt_get_uint16(LTT_GET_BO(tf), pos);
+ pos += sizeof(guint16);
+ } else {
+ /* Compact event */
+ }
+ /* Align the head */
+ if(!tf->compact)
+ pos += ltt_align((size_t)pos, tf->trace->arch_size, tf->has_alignment);
event->data = pos;
/* get the data size and update the event fields with the current
- * information */
+ * information. Also update the time if a heartbeat_full event is found. */
ltt_update_event_size(tf);
return 0;
&header->begin.cycle_count);
tf->buffer.begin.freq = ltt_get_uint64(LTT_GET_BO(tf),
&header->begin.freq);
- if(tf->buffer.begin.freq == 0)
- tf->buffer.begin.freq = tf->trace->start_freq;
+ if(tf->buffer.begin.freq == 0)
+ tf->buffer.begin.freq = tf->trace->start_freq;
tf->buffer.begin.timestamp = ltt_interpolate_time_from_tsc(tf,
- tf->buffer.begin.cycle_count);
+ tf->buffer.begin.cycle_count);
#if 0
- ltt_time_add(
+ ltt_time_add(
ltt_time_from_uint64(
(double)(tf->buffer.begin.cycle_count
- tf->trace->start_tsc) * 1000000.0
/ (double)tf->trace->start_freq),
- tf->trace->start_time_from_tsc);
+ tf->trace->start_time_from_tsc);
#endif //0
#if 0
&header->end.cycle_count);
tf->buffer.end.freq = ltt_get_uint64(LTT_GET_BO(tf),
&header->end.freq);
- if(tf->buffer.end.freq == 0)
- tf->buffer.end.freq = tf->trace->start_freq;
-
+ if(tf->buffer.end.freq == 0)
+ tf->buffer.end.freq = tf->trace->start_freq;
+
tf->buffer.lost_size = ltt_get_uint32(LTT_GET_BO(tf),
&header->lost_size);
tf->buffer.end.timestamp = ltt_interpolate_time_from_tsc(tf,
- tf->buffer.end.cycle_count);
+ tf->buffer.end.cycle_count);
#if 0
- ltt_time_add(
+ ltt_time_add(
ltt_time_from_uint64(
(double)(tf->buffer.end.cycle_count
- tf->trace->start_tsc) * 1000000.0
void ltt_update_event_size(LttTracefile *tf)
{
off_t size = 0;
+ char *tscdata;
+ struct marker_info *info;
+
+ switch((enum marker_id)tf->event.event_id) {
+ case MARKER_ID_SET_MARKER_ID:
+ size = strlen((char*)tf->event.data) + 1;
+ //g_debug("marker %s id set", (char*)tf->event.data);
+ size += ltt_align(size, sizeof(guint16), tf->has_alignment);
+ size += sizeof(guint16);
+ break;
+ case MARKER_ID_SET_MARKER_FORMAT:
+ //g_debug("marker %s format set", (char*)tf->event.data);
+ size = strlen((char*)tf->event.data) + 1;
+ size += strlen((char*)tf->event.data) + 1;
+ break;
+ case MARKER_ID_HEARTBEAT_32:
+ //g_debug("Update Event heartbeat 32 bits");
+ size = ltt_align(size, sizeof(guint32), tf->has_alignment);
+ size += sizeof(guint32);
+ break;
+ case MARKER_ID_HEARTBEAT_64:
+ //g_debug("Update Event heartbeat 64 bits");
+ tscdata = (char*)(tf->event.data);
+ tf->event.tsc = ltt_get_uint64(LTT_GET_BO(tf), tscdata);
+ tf->buffer.tsc = tf->event.tsc;
+ tf->event.event_time = ltt_interpolate_time(tf, &tf->event);
+ size = ltt_align(size, sizeof(guint64), tf->has_alignment);
+ size += sizeof(guint64);
+ break;
+ default:
+ info = marker_get_info_from_id(tf->trace, tf->event.event_id);
+ g_assert(info != NULL);
+ if (info->size) {
+ size = info->size;
+ } else {
+ /* Must compute the event size dynamically TODO */
- /* Specific handling of core events : necessary to read the facility control
- * tracefile. */
- LttFacility *f = ltt_trace_get_facility_by_num(tf->trace,
- tf->event.facility_id);
-
- if(likely(tf->event.facility_id == LTT_FACILITY_CORE)) {
- 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);
- size += ltt_align(size, sizeof(guint32), tf->has_alignment);
- size += sizeof(struct LttFacilityLoad);
- break;
- case LTT_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;
- size += ltt_align(size, sizeof(guint32), tf->has_alignment);
- //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");
- size = sizeof(TimeHeartbeat);
- break;
- default:
- g_warning("Error in getting event size : tracefile %s, "
- "unknown event id %hhu in core facility.",
- g_quark_to_string(tf->name),
- tf->event.event_id);
- goto event_id_error;
-
- }
- } else {
- if(!f->exists) {
- g_warning("Unknown facility %hhu (0x%hhx) in tracefile %s",
- tf->event.facility_id,
- tf->event.facility_id,
- g_quark_to_string(tf->name));
- goto facility_error;
- }
-
- LttEventType *event_type =
- ltt_facility_eventtype_get(f, tf->event.event_id);
+ }
+ }
- if(!event_type) {
- g_warning("Unknown event id %hhu in facility %s in tracefile %s",
- tf->event.event_id,
- g_quark_to_string(f->name),
- g_quark_to_string(tf->name));
- goto event_type_error;
- }
-
- /* Compute the dynamic offsets */
- compute_offsets(tf, f, event_type, &size, tf->event.data);
+ tf->event.data_size = size;
+
+ /* Check consistency between kernel and LTTV structure sizes */
+ if(tf->event.event_size == 0xFFFF) {
+ /* Event size too big to fit in the event size field */
+ tf->event.event_size = tf->event.data_size;
+ }
+ if (tf->event.data_size != tf->event.event_size) {
+ g_error("Kernel/LTTV event size differs for event %s.%s: kernel %u, LTTV %u",
+ g_quark_to_string(f->name), g_quark_to_string(event_type->name),
+ tf->event.event_size, tf->event.data_size);
+ exit(-1);
+ }
- //g_debug("Event root field : f.e %hhu.%hhu size %zd",
- // tf->event.facility_id,
- // tf->event.event_id, size);
+#if 0
+ LttEventType *event_type =
+ ltt_facility_eventtype_get(f, tf->event.event_id);
+
+ if(!event_type) {
+ g_warning("Unknown event id %hhu in facility %s in tracefile %s",
+ tf->event.event_id,
+ g_quark_to_string(f->name),
+ g_quark_to_string(tf->name));
+ goto event_type_error;
}
+ /* Compute the dynamic offsets */
+ compute_offsets(tf, f, event_type, &size, tf->event.data);
+
+ //g_debug("Event root field : f.e %hhu.%hhu size %zd",
+ // tf->event.facility_id,
+ // tf->event.event_id, size);
+
+no_offset:
tf->event.data_size = size;
/* Check consistency between kernel and LTTV structure sizes */
- if(tf->event.event_size == 0xFFFF) {
- /* Event size too big to fit in the event size field */
- tf->event.event_size = tf->event.data_size;
- }
- g_assert(tf->event.data_size == tf->event.event_size);
+ if(tf->event.event_size == 0xFFFF) {
+ /* Event size too big to fit in the event size field */
+ tf->event.event_size = tf->event.data_size;
+ }
+ if (tf->event.data_size != tf->event.event_size) {
+ g_error("Kernel/LTTV event size differs for event %s.%s: kernel %u, LTTV %u",
+ g_quark_to_string(f->name), g_quark_to_string(event_type->name),
+ tf->event.event_size, tf->event.data_size);
+ exit(-1);
+ }
+ //g_assert(tf->event.data_size == tf->event.event_size);
return;
-facility_error:
event_type_error:
event_id_error:
- if(tf->event.event_size == 0xFFFF) {
- g_error("Cannot jump over an unknown event bigger than 0xFFFE bytes");
- }
- /* The facility is unknown : use the kernel information about this event
- * to jump over it. */
+ if(tf->event.event_size == 0xFFFF) {
+ g_error("Cannot jump over an unknown event bigger than 0xFFFE bytes");
+ }
+ /* The facility is unknown : use the kernel information about this event
+ * to jump over it. */
tf->event.data_size = tf->event.event_size;
+#endif //0
}
case LTT_FLOAT:
case LTT_ENUM:
/* Align offset on type size */
+ g_assert(field->field_size != 0);
return field->field_size;
break;
case LTT_STRING:
- return 0;
+ return 1;
break;
case LTT_ARRAY:
g_assert(type->fields->len == 1);
case LTT_SEQUENCE:
g_assert(type->fields->len == 2);
{
- off_t localign = 0;
+ off_t localign = 1;
LttField *child = &g_array_index(type->fields, LttField, 0);
localign = max(localign, get_alignment(child));
case LTT_UNION:
{
guint i;
- off_t localign = 0;
+ off_t localign = 1;
for(i=0; i<type->fields->len; i++) {
LttField *child = &g_array_index(type->fields, LttField, i);
case LTT_NONE:
default:
g_error("get_alignment : unknown type");
+ return -1;
}
-
}
/*****************************************************************************
****************************************************************************/
-gint precompute_fields_offsets(LttFacility *fac, LttField *field, off_t *offset)
+gint precompute_fields_offsets(LttFacility *fac, LttField *field, off_t *offset, gint is_compact)
{
LttType *type = &field->field_type;
+
+ if(unlikely(is_compact)) {
+ g_assert(field->field_size != 0);
+ /* FIXME THIS IS A HUUUUUGE hack :
+ * offset is between the compact_data field in struct LttEvent
+ * and the address of the field root in the memory map.
+ * ark. Both will stay at the same addresses while the event
+ * is readable, so it's ok.
+ */
+ field->offset_root = 0;
+ field->fixed_root = FIELD_FIXED;
+ return 0;
+ }
switch(type->type_class) {
case LTT_INT_FIXED:
field->fixed_root = FIELD_FIXED;
child = &g_array_index(type->fields, LttField, 0);
- ret = precompute_fields_offsets(fac, child, offset);
+ ret = precompute_fields_offsets(fac, child, offset, is_compact);
g_assert(ret == 0); /* Seq len cannot have variable len */
child = &g_array_index(type->fields, LttField, 1);
for(i=0; i< type->fields->len; i++) {
child = &g_array_index(type->fields, LttField, i);
- ret = precompute_fields_offsets(fac, child, offset);
+ ret = precompute_fields_offsets(fac, child, offset, is_compact);
if(ret) break;
}
for(i=0; i< type->fields->len; i++) {
*offset = field->offset_root;
child = &g_array_index(type->fields, LttField, i);
- ret = precompute_fields_offsets(fac, child, offset);
+ ret = precompute_fields_offsets(fac, child, offset, is_compact);
if(ret) break;
}
/* Precompute all known offsets */
for(i=0; i<event->fields->len; i++) {
LttField *field = &g_array_index(event->fields, LttField, i);
- ret = precompute_fields_offsets(fac, field, &offset);
+ if(event->has_compact_data && i == 0)
+ ret = precompute_fields_offsets(fac, field, &offset, 1);
+ else
+ ret = precompute_fields_offsets(fac, field, &offset, 0);
if(ret) break;
}
}
size_t max_size;
switch(type->type_class) {
+ case LTT_INT_FIXED:
+ case LTT_UINT_FIXED:
+ case LTT_CHAR:
+ case LTT_UCHAR:
+ case LTT_SHORT:
+ case LTT_USHORT:
case LTT_INT:
case LTT_UINT:
case LTT_FLOAT:
max_size = max(max_size, field->child[i]->field_size);
}
if(final_child_status != FIELD_FIXED) {
- g_error("LTTV does not support variable size fields in unions.");
- /* This will stop the application. */
+ g_error("LTTV does not support variable size fields in unions.");
+ /* This will stop the application. */
*fixed_root = final_child_status;
*fixed_parent = final_child_status;
field->field_size = 0;
field->fixed_size = FIELD_FIXED;
}
break;
+ case LTT_NONE:
+ g_error("unexpected type NONE");
+ break;
}
}
different = 1;
goto end;
}
- if(type1->network != type2->network) {
- different = 1;
- goto end;
- }
+ if(type1->network != type2->network) {
+ different = 1;
+ goto end;
+ }
switch(type1->type_class) {
case LTT_INT_FIXED:
break;
case LTT_NONE:
default:
- g_error("precompute_fields_offsets : unknown type");
+ g_error("check_fields_compatibility : unknown type");
}
end:
}
switch(type1->type_class) {
+ case LTT_INT_FIXED:
+ case LTT_UINT_FIXED:
+ case LTT_POINTER:
+ case LTT_CHAR:
+ case LTT_UCHAR:
+ case LTT_SHORT:
+ case LTT_USHORT:
case LTT_INT:
case LTT_UINT:
case LTT_FLOAT:
{
LTT_FACILITY_NAME_HEARTBEAT = g_quark_from_string("heartbeat");
LTT_EVENT_NAME_HEARTBEAT = g_quark_from_string("heartbeat");
+ LTT_EVENT_NAME_HEARTBEAT_FULL = g_quark_from_string("heartbeat_full");
LTT_TRACEFILE_NAME_FACILITIES = g_quark_from_string("/control/facilities");
}