13 #define HOSTNAME_MAX 1024
14 char *hostname = "unknown";
16 void rrd_stats_api_v1_chart(RRDSET *st, BUFFER *wb)
18 pthread_rwlock_rdlock(&st->rwlock);
22 "\t\t\t\"id\": \"%s\",\n"
23 "\t\t\t\"name\": \"%s\",\n"
24 "\t\t\t\"type\": \"%s\",\n"
25 "\t\t\t\"family\": \"%s\",\n"
26 "\t\t\t\"title\": \"%s\",\n"
27 "\t\t\t\"priority\": %ld,\n"
28 "\t\t\t\"enabled\": %s,\n"
29 "\t\t\t\"units\": \"%s\",\n"
30 "\t\t\t\"data_url\": \"/api/v1/data?chart=%s\",\n"
31 "\t\t\t\"chart_type\": \"%s\",\n"
32 "\t\t\t\"duration\": %ld,\n"
33 "\t\t\t\"first_entry\": %lu,\n"
34 "\t\t\t\"last_entry\": %lu,\n"
35 "\t\t\t\"update_every\": %d,\n"
36 "\t\t\t\"dimensions\": {\n"
43 , st->enabled?"true":"false"
46 , rrdset_type_name(st->chart_type)
47 , st->entries * st->update_every
48 , rrdset_first_entry_t(st)
49 , rrdset_last_entry_t(st)
53 unsigned long memory = st->memsize;
57 for(rd = st->dimensions; rd ; rd = rd->next) {
58 if(rd->flags & RRDDIM_FLAG_HIDDEN) continue;
60 memory += rd->memsize;
64 "\t\t\t\t\"%s\": { \"name\": \"%s\" }"
78 pthread_rwlock_unlock(&st->rwlock);
81 void rrd_stats_api_v1_charts(BUFFER *wb)
86 buffer_sprintf(wb, "{\n"
87 "\t\"hostname\": \"%s\""
88 ",\n\t\"update_every\": %d"
89 ",\n\t\"history\": %d"
93 , rrd_default_history_entries
96 pthread_rwlock_rdlock(&rrdset_root_rwlock);
97 for(st = rrdset_root, c = 0; st ; st = st->next) {
99 if(c) buffer_strcat(wb, ",");
100 buffer_strcat(wb, "\n\t\t\"");
101 buffer_strcat(wb, st->id);
102 buffer_strcat(wb, "\": ");
103 rrd_stats_api_v1_chart(st, wb);
107 pthread_rwlock_unlock(&rrdset_root_rwlock);
109 buffer_strcat(wb, "\n\t}\n}\n");
113 unsigned long rrd_stats_one_json(RRDSET *st, char *options, BUFFER *wb)
115 time_t now = time(NULL);
117 pthread_rwlock_rdlock(&st->rwlock);
121 "\t\t\t\"id\": \"%s\",\n"
122 "\t\t\t\"name\": \"%s\",\n"
123 "\t\t\t\"type\": \"%s\",\n"
124 "\t\t\t\"family\": \"%s\",\n"
125 "\t\t\t\"title\": \"%s\",\n"
126 "\t\t\t\"priority\": %ld,\n"
127 "\t\t\t\"enabled\": %d,\n"
128 "\t\t\t\"units\": \"%s\",\n"
129 "\t\t\t\"url\": \"/data/%s/%s\",\n"
130 "\t\t\t\"chart_type\": \"%s\",\n"
131 "\t\t\t\"counter\": %ld,\n"
132 "\t\t\t\"entries\": %ld,\n"
133 "\t\t\t\"first_entry_t\": %lu,\n"
134 "\t\t\t\"last_entry\": %ld,\n"
135 "\t\t\t\"last_entry_t\": %lu,\n"
136 "\t\t\t\"last_entry_secs_ago\": %lu,\n"
137 "\t\t\t\"update_every\": %d,\n"
138 "\t\t\t\"isdetail\": %d,\n"
139 "\t\t\t\"usec_since_last_update\": %llu,\n"
140 "\t\t\t\"collected_total\": " TOTAL_NUMBER_FORMAT ",\n"
141 "\t\t\t\"last_collected_total\": " TOTAL_NUMBER_FORMAT ",\n"
142 "\t\t\t\"dimensions\": [\n"
151 , st->name, options?options:""
152 , rrdset_type_name(st->chart_type)
155 , rrdset_first_entry_t(st)
156 , rrdset_last_slot(st)
157 , rrdset_last_entry_t(st)
158 , (now < rrdset_last_entry_t(st)) ? (time_t)0 : now - rrdset_last_entry_t(st)
161 , st->usec_since_last_update
162 , st->collected_total
163 , st->last_collected_total
166 unsigned long memory = st->memsize;
169 for(rd = st->dimensions; rd ; rd = rd->next) {
171 memory += rd->memsize;
175 "\t\t\t\t\t\"id\": \"%s\",\n"
176 "\t\t\t\t\t\"name\": \"%s\",\n"
177 "\t\t\t\t\t\"entries\": %ld,\n"
178 "\t\t\t\t\t\"isHidden\": %d,\n"
179 "\t\t\t\t\t\"algorithm\": \"%s\",\n"
180 "\t\t\t\t\t\"multiplier\": %ld,\n"
181 "\t\t\t\t\t\"divisor\": %ld,\n"
182 "\t\t\t\t\t\"last_entry_t\": %lu,\n"
183 "\t\t\t\t\t\"collected_value\": " COLLECTED_NUMBER_FORMAT ",\n"
184 "\t\t\t\t\t\"calculated_value\": " CALCULATED_NUMBER_FORMAT ",\n"
185 "\t\t\t\t\t\"last_collected_value\": " COLLECTED_NUMBER_FORMAT ",\n"
186 "\t\t\t\t\t\"last_calculated_value\": " CALCULATED_NUMBER_FORMAT ",\n"
187 "\t\t\t\t\t\"memory\": %lu\n"
192 , (rd->flags & RRDDIM_FLAG_HIDDEN)?1:0
193 , rrddim_algorithm_name(rd->algorithm)
196 , rd->last_collected_time.tv_sec
197 , rd->collected_value
198 , rd->calculated_value
199 , rd->last_collected_value
200 , rd->last_calculated_value
208 "\t\t\t\"memory\" : %lu\n"
213 pthread_rwlock_unlock(&st->rwlock);
217 #define RRD_GRAPH_JSON_HEADER "{\n\t\"charts\": [\n"
218 #define RRD_GRAPH_JSON_FOOTER "\n\t]\n}\n"
220 void rrd_stats_graph_json(RRDSET *st, char *options, BUFFER *wb)
222 buffer_strcat(wb, RRD_GRAPH_JSON_HEADER);
223 rrd_stats_one_json(st, options, wb);
224 buffer_strcat(wb, RRD_GRAPH_JSON_FOOTER);
227 void rrd_stats_all_json(BUFFER *wb)
229 unsigned long memory = 0;
233 buffer_strcat(wb, RRD_GRAPH_JSON_HEADER);
235 pthread_rwlock_rdlock(&rrdset_root_rwlock);
236 for(st = rrdset_root, c = 0; st ; st = st->next) {
238 if(c) buffer_strcat(wb, ",\n");
239 memory += rrd_stats_one_json(st, NULL, wb);
243 pthread_rwlock_unlock(&rrdset_root_rwlock);
245 buffer_sprintf(wb, "\n\t],\n"
246 "\t\"hostname\": \"%s\",\n"
247 "\t\"update_every\": %d,\n"
248 "\t\"history\": %d,\n"
249 "\t\"memory\": %lu\n"
253 , rrd_default_history_entries
260 // ----------------------------------------------------------------------------
263 #define RRDR_EMPTY 0x01 // the dimension contains / the value is empty (null)
264 #define RRDR_RESET 0x02 // the dimension contains / the value is reset
265 #define RRDR_HIDDEN 0x04 // the dimension contains / the value is hidden
266 #define RRDR_NONZERO 0x08 // the dimension contains / the value is non-zero
269 typedef struct rrdresult {
270 RRDSET *st; // the chart this result refers to
272 int d; // the number of dimensions
273 int n; // the number of values in the arrays
274 int rows; // the number of rows used
276 uint8_t *od; // the options for the dimensions
278 time_t *t; // array of n timestamps
279 calculated_number *v; // array n x d values
280 uint8_t *o; // array n x d options
282 int c; // current line ( -1 ~ n ), ( -1 = none, use rrdr_rows() to get number of rows )
284 int group; // how many collected values were grouped for each row
285 int update_every; // what is the suggested update frequency in seconds
287 calculated_number min;
288 calculated_number max;
293 int has_st_lock; // if st is read locked by us
296 #define rrdr_rows(r) ((r)->rows)
299 static void rrdr_dump(RRDR *r)
304 fprintf(stderr, "\nCHART %s (%s)\n", r->st->id, r->st->name);
306 for(c = 0, d = r->st->dimensions; d ;c++, d = d->next) {
307 fprintf(stderr, "DIMENSION %s (%s), %s%s%s%s\n"
310 , (r->od[c] & RRDR_EMPTY)?"EMPTY ":""
311 , (r->od[c] & RRDR_RESET)?"RESET ":""
312 , (r->od[c] & RRDR_HIDDEN)?"HIDDEN ":""
313 , (r->od[c] & RRDR_NONZERO)?"NONZERO ":""
318 fprintf(stderr, "RRDR does not have any values in it.\n");
322 fprintf(stderr, "RRDR includes %d values in it:\n", r->rows);
324 // for each line in the array
325 for(i = 0; i < r->rows ;i++) {
326 calculated_number *cn = &r->v[ i * r->d ];
327 uint8_t *co = &r->o[ i * r->d ];
329 // print the id and the timestamp of the line
330 fprintf(stderr, "%ld %ld ", i + 1, r->t[i]);
332 // for each dimension
333 for(c = 0, d = r->st->dimensions; d ;c++, d = d->next) {
334 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
335 if(unlikely(!(r->od[c] & RRDR_NONZERO))) continue;
337 if(co[c] & RRDR_EMPTY)
338 fprintf(stderr, "null ");
340 fprintf(stderr, CALCULATED_NUMBER_FORMAT " %s%s%s%s "
342 , (co[c] & RRDR_EMPTY)?"E":" "
343 , (co[c] & RRDR_RESET)?"R":" "
344 , (co[c] & RRDR_HIDDEN)?"H":" "
345 , (co[c] & RRDR_NONZERO)?"N":" "
349 fprintf(stderr, "\n");
354 void rrdr_disable_not_selected_dimensions(RRDR *r, const char *dims)
356 char b[strlen(dims) + 1];
363 // disable all of them
364 for(c = 0, d = r->st->dimensions; d ;c++, d = d->next)
365 r->od[c] |= RRDR_HIDDEN;
367 while(o && *o && (tok = mystrsep(&o, ", |"))) {
370 // find it and enable it
371 for(c = 0, d = r->st->dimensions; d ;c++, d = d->next) {
372 if(!strcmp(d->name, tok)) {
373 r->od[c] &= ~RRDR_HIDDEN;
379 void rrdr_buffer_print_format(BUFFER *wb, uint32_t format)
382 case DATASOURCE_JSON:
383 buffer_strcat(wb, DATASOURCE_FORMAT_JSON);
386 case DATASOURCE_DATATABLE_JSON:
387 buffer_strcat(wb, DATASOURCE_FORMAT_DATATABLE_JSON);
390 case DATASOURCE_DATATABLE_JSONP:
391 buffer_strcat(wb, DATASOURCE_FORMAT_DATATABLE_JSONP);
394 case DATASOURCE_JSONP:
395 buffer_strcat(wb, DATASOURCE_FORMAT_JSONP);
399 buffer_strcat(wb, DATASOURCE_FORMAT_SSV);
403 buffer_strcat(wb, DATASOURCE_FORMAT_CSV);
407 buffer_strcat(wb, DATASOURCE_FORMAT_TSV);
410 case DATASOURCE_HTML:
411 buffer_strcat(wb, DATASOURCE_FORMAT_HTML);
414 case DATASOURCE_JS_ARRAY:
415 buffer_strcat(wb, DATASOURCE_FORMAT_JS_ARRAY);
418 case DATASOURCE_SSV_COMMA:
419 buffer_strcat(wb, DATASOURCE_FORMAT_SSV_COMMA);
423 buffer_strcat(wb, "unknown");
428 void rrdr_json_wrapper_begin(RRDR *r, BUFFER *wb, uint32_t format, uint32_t options, int string_value)
430 char kq[2] = "", // key quote
431 sq[2] = ""; // string quote
433 if( options & RRDR_OPTION_GOOGLE_JSON ) {
442 buffer_sprintf(wb, "{\n"
444 " %sname%s: %s%s%s,\n"
445 " %supdate_every%s: %d,\n"
447 , kq, kq, sq, r->st->id, sq
448 , kq, kq, sq, r->st->name, sq
449 , kq, kq, r->update_every
452 buffer_rrd_value(wb, r->min);
453 buffer_sprintf(wb, ",\n %smax%s: ", kq, kq);
454 buffer_rrd_value(wb, r->max);
455 buffer_sprintf(wb, ",\n"
458 " %sdimension_names%s: ["
466 for(c = 0, i = 0, rd = r->st->dimensions; rd ;c++, rd = rd->next) {
467 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
468 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
470 if(i) buffer_strcat(wb, ", ");
471 buffer_strcat(wb, sq);
472 buffer_strcat(wb, rd->name);
473 buffer_strcat(wb, sq);
476 buffer_sprintf(wb, "],\n"
477 " %sdimension_ids%s: ["
480 for(c = 0, i = 0, rd = r->st->dimensions; rd ;c++, rd = rd->next) {
481 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
482 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
484 if(i) buffer_strcat(wb, ", ");
485 buffer_strcat(wb, sq);
486 buffer_strcat(wb, rd->id);
487 buffer_strcat(wb, sq);
490 buffer_sprintf(wb, "],\n"
491 " %sdimensions%s: %d,\n"
495 , kq, kq, rrdr_rows(r)
499 rrdr_buffer_print_format(wb, format);
501 buffer_sprintf(wb, "%s,\n"
507 if(string_value) buffer_strcat(wb, sq);
510 void rrdr_json_wrapper_end(RRDR *r, BUFFER *wb, uint32_t format, uint32_t options, int string_value)
515 char sq[2] = ""; // string quote
517 if( options & RRDR_OPTION_GOOGLE_JSON )
522 if(string_value) buffer_strcat(wb, sq);
523 buffer_strcat(wb, "\n}\n");
526 #define JSON_DATES_JS 1
527 #define JSON_DATES_TIMESTAMP 2
529 static void rrdr2json(RRDR *r, BUFFER *wb, uint32_t options, int datatable)
531 int row_annotations = 0, dates = JSON_DATES_JS, dates_with_new = 0;
532 char kq[2] = "", // key quote
533 sq[2] = "", // string quote
534 pre_label[101] = "", // before each label
535 post_label[101] = "", // after each label
536 pre_date[101] = "", // the beginning of line, to the date
537 post_date[101] = "", // closing the date
538 pre_value[101] = "", // before each value
539 post_value[101] = "", // after each value
540 post_line[101] = "", // at the end of each row
541 normal_annotation[201] = "", // default row annotation
542 overflow_annotation[201] = "", // overflow row annotation
543 data_begin[101] = "", // between labels and values
544 finish[101] = ""; // at the end of everything
547 dates = JSON_DATES_JS;
548 if( options & RRDR_OPTION_GOOGLE_JSON ) {
557 snprintf(pre_date, 100, " {%sc%s:[{%sv%s:%s", kq, kq, kq, kq, sq);
558 snprintf(post_date, 100, "%s}", sq);
559 snprintf(pre_label, 100, ",\n {%sid%s:%s%s,%slabel%s:%s", kq, kq, sq, sq, kq, kq, sq);
560 snprintf(post_label, 100, "%s,%spattern%s:%s%s,%stype%s:%snumber%s}", sq, kq, kq, sq, sq, kq, kq, sq, sq);
561 snprintf(pre_value, 100, ",{%sv%s:", kq, kq);
562 snprintf(post_value, 100, "}");
563 snprintf(post_line, 100, "]}");
564 snprintf(data_begin, 100, "\n ],\n %srows%s:\n [\n", kq, kq);
565 snprintf(finish, 100, "\n ]\n}\n");
567 snprintf(overflow_annotation, 200, ",{%sv%s:%sRESET OR OVERFLOW%s},{%sv%s:%sThe counters have been wrapped.%s}", kq, kq, sq, sq, kq, kq, sq, sq);
568 snprintf(normal_annotation, 200, ",{%sv%s:null},{%sv%s:null}", kq, kq, kq, kq);
570 buffer_sprintf(wb, "{\n %scols%s:\n [\n", kq, kq, kq, kq);
571 buffer_sprintf(wb, " {%sid%s:%s%s,%slabel%s:%stime%s,%spattern%s:%s%s,%stype%s:%sdatetime%s},\n", kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq);
572 buffer_sprintf(wb, " {%sid%s:%s%s,%slabel%s:%s%s,%spattern%s:%s%s,%stype%s:%sstring%s,%sp%s:{%srole%s:%sannotation%s}},\n", kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, kq, kq, sq, sq);
573 buffer_sprintf(wb, " {%sid%s:%s%s,%slabel%s:%s%s,%spattern%s:%s%s,%stype%s:%sstring%s,%sp%s:{%srole%s:%sannotationText%s}}", kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, kq, kq, sq, sq);
575 // remove the valueobjects flag
576 // google wants its own keys
577 if(options & RRDR_OPTION_OBJECTSROWS)
578 options &= ~RRDR_OPTION_OBJECTSROWS;
583 if((options & RRDR_OPTION_SECONDS) || (options & RRDR_OPTION_MILLISECONDS)) {
584 dates = JSON_DATES_TIMESTAMP;
588 dates = JSON_DATES_JS;
591 if( options & RRDR_OPTION_OBJECTSROWS )
592 snprintf(pre_date, 100, " { ");
594 snprintf(pre_date, 100, " [ ");
595 snprintf(pre_label, 100, ", \"");
596 snprintf(post_label, 100, "\"");
597 snprintf(pre_value, 100, ", ");
598 if( options & RRDR_OPTION_OBJECTSROWS )
599 snprintf(post_line, 100, "}");
601 snprintf(post_line, 100, "]");
602 snprintf(data_begin, 100, "],\n %sdata%s:\n [\n", kq, kq);
603 snprintf(finish, 100, "\n ]\n}\n");
605 buffer_sprintf(wb, "{\n %slabels%s: [", kq, kq);
606 buffer_sprintf(wb, "%stime%s", sq, sq);
609 // -------------------------------------------------------------------------
610 // print the JSON header
615 // print the header lines
616 for(c = 0, i = 0, rd = r->st->dimensions; rd ;c++, rd = rd->next) {
617 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
618 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
620 buffer_strcat(wb, pre_label);
621 buffer_strcat(wb, rd->name);
622 buffer_strcat(wb, post_label);
626 buffer_strcat(wb, pre_label);
627 buffer_strcat(wb, "no data");
628 buffer_strcat(wb, post_label);
631 // print the begin of row data
632 buffer_strcat(wb, data_begin);
634 // if all dimensions are hidden, print a null
636 buffer_strcat(wb, pre_value);
637 if(options & RRDR_OPTION_NULL2ZERO)
638 buffer_strcat(wb, "0");
640 buffer_strcat(wb, "null");
641 buffer_strcat(wb, post_value);
644 long start = 0, end = rrdr_rows(r), step = 1;
645 if((options & RRDR_OPTION_REVERSED)) {
646 start = rrdr_rows(r) - 1;
651 // for each line in the array
652 for(i = start; i != end ;i += step) {
653 calculated_number *cn = &r->v[ i * r->d ];
654 uint8_t *co = &r->o[ i * r->d ];
656 time_t now = r->t[i];
658 if(dates == JSON_DATES_JS) {
659 // generate the local date time
660 struct tm *tm = localtime(&now);
661 if(!tm) { error("localtime() failed."); continue; }
663 if(likely(i != start)) buffer_strcat(wb, ",\n");
664 buffer_strcat(wb, pre_date);
666 if( options & RRDR_OPTION_OBJECTSROWS )
667 buffer_sprintf(wb, "%stime%s: ", kq, kq);
670 buffer_strcat(wb, "new ");
672 buffer_jsdate(wb, tm->tm_year + 1900, tm->tm_mon, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec);
674 buffer_strcat(wb, post_date);
676 if(row_annotations) {
677 // google supports one annotation per row
678 int annotation_found = 0;
679 for(c = 0, rd = r->st->dimensions; rd ;c++, rd = rd->next) {
680 if(co[c] & RRDR_RESET) {
681 buffer_strcat(wb, overflow_annotation);
682 annotation_found = 1;
686 if(!annotation_found)
687 buffer_strcat(wb, normal_annotation);
691 // print the timestamp of the line
692 if(likely(i != start)) buffer_strcat(wb, ",\n");
693 buffer_strcat(wb, pre_date);
695 if( options & RRDR_OPTION_OBJECTSROWS )
696 buffer_sprintf(wb, "%stime%s: ", kq, kq);
698 buffer_rrd_value(wb, (calculated_number)r->t[i]);
700 if(options & RRDR_OPTION_MILLISECONDS) buffer_strcat(wb, "000");
702 buffer_strcat(wb, post_date);
705 // for each dimension
706 for(c = 0, rd = r->st->dimensions; rd ;c++, rd = rd->next) {
707 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
708 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
710 calculated_number n = cn[c];
712 buffer_strcat(wb, pre_value);
714 if( options & RRDR_OPTION_OBJECTSROWS )
715 buffer_sprintf(wb, "%s%s%s: ", kq, rd->name, kq);
717 if(co[c] & RRDR_EMPTY) {
718 if(options & RRDR_OPTION_NULL2ZERO)
719 buffer_strcat(wb, "0");
721 buffer_strcat(wb, "null");
723 else if((options & RRDR_OPTION_ABSOLUTE))
724 buffer_rrd_value(wb, (n<0)?-n:n);
726 buffer_rrd_value(wb, n);
728 buffer_strcat(wb, post_value);
731 buffer_strcat(wb, post_line);
734 buffer_strcat(wb, finish);
737 static void rrdr2csv(RRDR *r, BUFFER *wb, uint32_t options, const char *startline, const char *separator, const char *endline)
742 // print the csv header
743 for(c = 0, i = 0, d = r->st->dimensions; d ;c++, d = d->next) {
744 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
745 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
748 buffer_strcat(wb, startline);
749 buffer_strcat(wb, "time");
751 buffer_strcat(wb, separator);
752 buffer_strcat(wb, d->name);
755 buffer_strcat(wb, endline);
758 // no dimensions present
762 long start = 0, end = rrdr_rows(r), step = 1;
763 if((options & RRDR_OPTION_REVERSED)) {
764 start = rrdr_rows(r) - 1;
769 // for each line in the array
770 for(i = start; i != end ;i += step) {
771 calculated_number *cn = &r->v[ i * r->d ];
772 uint8_t *co = &r->o[ i * r->d ];
774 buffer_strcat(wb, startline);
776 time_t now = r->t[i];
778 if((options & RRDR_OPTION_SECONDS) || (options & RRDR_OPTION_MILLISECONDS)) {
779 // print the timestamp of the line
780 buffer_rrd_value(wb, (calculated_number)now);
782 if(options & RRDR_OPTION_MILLISECONDS) buffer_strcat(wb, "000");
785 // generate the local date time
786 struct tm *tm = localtime(&now);
787 if(!tm) { error("localtime() failed."); continue; }
788 buffer_date(wb, tm->tm_year + 1900, tm->tm_mon, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec);
791 // for each dimension
792 for(c = 0, d = r->st->dimensions; d ;c++, d = d->next) {
793 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
794 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
796 buffer_strcat(wb, separator);
798 calculated_number n = cn[c];
800 if(co[c] & RRDR_EMPTY) {
801 if(options & RRDR_OPTION_NULL2ZERO)
802 buffer_strcat(wb, "0");
804 buffer_strcat(wb, "null");
806 else if((options & RRDR_OPTION_ABSOLUTE))
807 buffer_rrd_value(wb, (n<0)?-n:n);
809 buffer_rrd_value(wb, n);
812 buffer_strcat(wb, endline);
816 static void rrdr2ssv(RRDR *r, BUFFER *wb, uint32_t options, const char *prefix, const char *separator, const char *suffix)
821 buffer_strcat(wb, prefix);
822 long start = 0, end = rrdr_rows(r), step = 1;
823 if((options & RRDR_OPTION_REVERSED)) {
824 start = rrdr_rows(r) - 1;
829 // for each line in the array
830 for(i = start; i != end ;i += step) {
832 calculated_number *cn = &r->v[ i * r->d ];
833 uint8_t *co = &r->o[ i * r->d ];
835 calculated_number sum = 0, min = 0, max = 0;
836 int all_null = 1, init = 1;
838 // for each dimension
839 for(c = 0, d = r->st->dimensions; d ;c++, d = d->next) {
840 if(unlikely(r->od[c] & RRDR_HIDDEN)) continue;
841 if(unlikely((options & RRDR_OPTION_NONZERO) && !(r->od[c] & RRDR_NONZERO))) continue;
843 calculated_number n = cn[c];
857 if(likely(!(co[c] & RRDR_EMPTY))) {
859 if((options & RRDR_OPTION_ABSOLUTE) && n < 0) n = -n;
867 if(likely(i != start))
868 buffer_strcat(wb, separator);
871 if(options & RRDR_OPTION_NULL2ZERO)
872 buffer_strcat(wb, "0");
874 buffer_strcat(wb, "null");
876 else if(options & RRDR_OPTION_MIN2MAX)
877 buffer_rrd_value(wb, max - min);
879 buffer_rrd_value(wb, sum);
881 buffer_strcat(wb, suffix);
884 inline static calculated_number *rrdr_line_values(RRDR *r)
886 return &r->v[ r->c * r->d ];
889 inline static uint8_t *rrdr_line_options(RRDR *r)
891 return &r->o[ r->c * r->d ];
894 inline static int rrdr_line_init(RRDR *r, time_t t)
898 if(unlikely(r->c >= r->n)) {
899 error("requested to step above RRDR size for chart %s", r->st->name);
909 inline static void rrdr_lock_rrdset(RRDR *r) {
911 error("NULL value given!");
915 pthread_rwlock_rdlock(&r->st->rwlock);
919 inline static void rrdr_unlock_rrdset(RRDR *r) {
921 error("NULL value given!");
925 if(likely(r->has_st_lock)) {
926 pthread_rwlock_unlock(&r->st->rwlock);
931 inline static void rrdr_free(RRDR *r)
934 error("NULL value given!");
938 rrdr_unlock_rrdset(r);
939 if(likely(r->t)) free(r->t);
940 if(likely(r->v)) free(r->v);
941 if(likely(r->o)) free(r->o);
942 if(likely(r->od)) free(r->od);
946 inline void rrdr_done(RRDR *r)
952 static RRDR *rrdr_create(RRDSET *st, int n)
955 error("NULL value given!");
959 RRDR *r = malloc(sizeof(RRDR));
960 if(unlikely(!r)) goto cleanup;
968 for(rd = st->dimensions ; rd ; rd = rd->next) r->d++;
972 r->t = malloc(n * sizeof(time_t));
973 if(unlikely(!r->t)) goto cleanup;
975 r->v = malloc(n * r->d * sizeof(calculated_number));
976 if(unlikely(!r->v)) goto cleanup;
978 r->o = malloc(n * r->d * sizeof(uint8_t));
979 if(unlikely(!r->o)) goto cleanup;
981 r->od = malloc(r->d * sizeof(uint8_t));
982 if(unlikely(!r->od)) goto cleanup;
999 error("Cannot allocate RRDR memory for %d entries", n);
1000 if(likely(r)) rrdr_free(r);
1004 RRDR *rrd2rrdr(RRDSET *st, long points, long long after, long long before, int group_method)
1006 int debug = st->debug;
1008 time_t first_entry_t = rrdset_first_entry_t(st);
1009 time_t last_entry_t = rrdset_last_entry_t(st);
1011 if(before == 0 && after == 0) {
1012 before = last_entry_t;
1013 after = first_entry_t;
1016 // allow relative for before and after
1017 if(before <= st->update_every * st->entries)
1018 before = last_entry_t + before;
1020 if(after <= st->update_every * st->entries)
1021 after = last_entry_t + after;
1023 // make sure they are within our timeframe
1024 if(before > last_entry_t) before = last_entry_t;
1025 if(before < first_entry_t) before = first_entry_t;
1027 if(after > last_entry_t) after = last_entry_t;
1028 if(after < first_entry_t) after = first_entry_t;
1030 // check if they are upside down
1031 if(after > before) {
1032 time_t tmp = before;
1037 // the duration of the chart
1038 time_t duration = before - after;
1039 if(duration <= 0) return NULL;
1041 // how many points does the chart has?
1042 long available_points = duration / st->update_every;
1044 // check the wanted points
1045 if(points < 0) points = -points;
1046 if(points > available_points) points = available_points;
1047 if(points == 0) points = available_points;
1049 // calculate proper grouping of source data
1050 long group = available_points / points;
1051 if(group <= 0) group = 1;
1053 // round group to the closest integer
1054 if(available_points % points > points / 2) group++;
1056 time_t after_new = after - (after % (group * st->update_every));
1057 time_t before_new = before - (before % (group * st->update_every));
1058 long points_new = (before_new - after_new) / st->update_every / group;
1060 // find the starting and ending slots in our round robin db
1061 long start_at_slot = rrdset_time2slot(st, before_new),
1062 stop_at_slot = rrdset_time2slot(st, after_new);
1064 if(after_new < first_entry_t) {
1065 error("after_new %u is too small, minimum %u", after_new, first_entry_t);
1067 if(after_new > last_entry_t) {
1068 error("after_new %u is too big, maximum %u", after_new, last_entry_t);
1070 if(before_new < first_entry_t) {
1071 error("before_new %u is too small, minimum %u", before_new, first_entry_t);
1073 if(before_new > last_entry_t) {
1074 error("before_new %u is too big, maximum %u", before_new, last_entry_t);
1076 if(start_at_slot < 0 || start_at_slot >= st->entries) {
1077 error("start_at_slot is invalid %ld, expected %ld to %ld", start_at_slot, 0, st->entries - 1);
1078 start_at_slot = st->current_entry;
1080 if(stop_at_slot < 0 || stop_at_slot >= st->entries) {
1081 error("stop_at_slot is invalid %ld, expected %ld to %ld", stop_at_slot, 0, st->entries - 1);
1084 if(points_new > (before_new - after_new) / group / st->update_every + 1) {
1085 error("points_new %ld is more than points %ld", points_new, (before_new - after_new) / group / st->update_every + 1);
1088 // error("SHIFT: %s: wanted %ld points, got %ld - group=%ld, wanted duration=%u, got %u - wanted %ld - %ld, got %ld - %ld", st->id, points, points_new, group, before - after, before_new - after_new, after, before, after_new, before_new);
1091 before = before_new;
1092 duration = before - after;
1093 points = points_new;
1096 // before = the end time of the calculation
1097 // after = the start time of the calculation
1098 // duration = the duration of the calculation
1099 // group = the number of source points to aggregate / group together
1100 // method = the method of grouping source points
1101 // points = the number of points to generate
1104 // -------------------------------------------------------------------------
1105 // initialize our result set
1107 RRDR *r = rrdr_create(st, points);
1114 // find how many dimensions we have
1115 long dimensions = r->d;
1118 // -------------------------------------------------------------------------
1119 // checks for debugging
1121 if(debug) debug(D_RRD_STATS, "INFO %s first_t: %lu, last_t: %lu, all_duration: %lu, after: %lu, before: %lu, duration: %lu, points: %ld, group: %ld"
1125 , last_entry_t - first_entry_t
1134 // -------------------------------------------------------------------------
1135 // temp arrays for keeping values per dimension
1137 calculated_number group_values[dimensions]; // keep sums when grouping
1138 long group_counts[dimensions]; // keep the number of values added to group_values
1139 uint8_t group_options[dimensions];
1140 uint8_t found_non_zero[dimensions];
1146 for( rd = st->dimensions, c = 0 ; rd && c < dimensions ; rd = rd->next, c++) {
1147 group_values[c] = 0;
1148 group_counts[c] = 0;
1149 group_options[c] = 0;
1150 found_non_zero[c] = 0;
1154 // -------------------------------------------------------------------------
1157 time_t now = rrdset_slot2time(st, start_at_slot),
1158 dt = st->update_every,
1161 if(unlikely(debug)) debug(D_RRD_STATS, "BEGIN %s after_t: %lu (stop_at_t: %ld), before_t: %lu (start_at_t: %ld), start_t(now): %lu, current_entry: %ld, entries: %ld"
1173 r->update_every = group * st->update_every;
1175 long slot = start_at_slot, counter = 0, stop_now = 0, added = 0, group_count = 0, add_this = 0;
1176 for(; !stop_now ; now -= dt, slot--, counter++) {
1177 if(unlikely(slot < 0)) slot = st->entries - 1;
1178 if(unlikely(slot == stop_at_slot)) stop_now = counter;
1180 if(unlikely(debug)) debug(D_RRD_STATS, "ROW %s slot: %ld, entries_counter: %ld, group_count: %ld, added: %ld, now: %lu, %s %s"
1187 , (group_count + 1 == group)?"PRINT":" - "
1188 , (now >= after && now <= before)?"RANGE":" - "
1191 // make sure we return data in the proper time range
1192 if(unlikely(now > before)) continue;
1193 if(unlikely(now < after)) break;
1195 if(unlikely(group_count == 0)) {
1196 group_start_t = now;
1197 if(unlikely(!r->before)) {
1198 r->before = group_start_t;
1199 r->after = group_start_t;
1204 if(unlikely(group_count == group)) {
1205 if(unlikely(added >= points)) break;
1209 // do the calculations
1210 for(rd = st->dimensions, c = 0 ; likely(rd && c < dimensions) ; rd = rd->next, c++) {
1211 storage_number n = rd->values[slot];
1212 if(unlikely(!does_storage_number_exist(n))) continue;
1216 calculated_number value = unpack_storage_number(n);
1217 if(likely(value != 0.0)) {
1218 group_options[c] |= RRDR_NONZERO;
1219 found_non_zero[c] = 1;
1222 if(unlikely(did_storage_number_reset(n)))
1223 group_options[c] |= RRDR_RESET;
1225 switch(group_method) {
1227 if(unlikely(abs(value) > abs(group_values[c])))
1228 group_values[c] = value;
1234 group_values[c] += value;
1240 if(unlikely(add_this)) {
1241 if(unlikely(!rrdr_line_init(r, group_start_t))) break;
1243 r->after = group_start_t;
1245 calculated_number *cn = rrdr_line_values(r);
1246 uint8_t *co = rrdr_line_options(r);
1248 for(rd = st->dimensions, c = 0 ; likely(rd && c < dimensions) ; rd = rd->next, c++) {
1250 // update the dimension options
1251 if(likely(found_non_zero[c])) r->od[c] |= RRDR_NONZERO;
1252 if(unlikely(rd->flags & RRDDIM_FLAG_HIDDEN)) r->od[c] |= RRDR_HIDDEN;
1254 // store the specific point options
1255 co[c] = group_options[c];
1258 if(unlikely(group_counts[c] == 0)) {
1260 co[c] |= RRDR_EMPTY;
1262 else if(unlikely(group_method == GROUP_AVERAGE)) {
1263 cn[c] = group_values[c] / group_counts[c];
1266 cn[c] = group_values[c];
1269 if(cn[c] < r->min) r->min = cn[c];
1270 if(cn[c] > r->max) r->max = cn[c];
1272 // reset them for the next loop
1273 group_values[c] = 0;
1274 group_counts[c] = 0;
1275 group_options[c] = 0;
1283 r->after += group * st->update_every;
1286 //error("SHIFT: %s: wanted %ld points, got %ld", st->id, points, rrdr_rows(r));
1290 int rrd2format(RRDSET *st, BUFFER *wb, BUFFER *dimensions, uint32_t format, long points, long long after, long long before, int group_method, uint32_t options, time_t *latest_timestamp)
1292 RRDR *r = rrd2rrdr(st, points, after, before, group_method);
1294 buffer_strcat(wb, "Cannot generate output with these parameters on this chart.");
1299 rrdr_disable_not_selected_dimensions(r, buffer_tostring(dimensions));
1301 if(latest_timestamp && rrdr_rows(r) > 0)
1302 *latest_timestamp = r->before;
1305 case DATASOURCE_SSV:
1306 if(options & RRDR_OPTION_JSON_WRAP) {
1307 wb->contenttype = CT_APPLICATION_JSON;
1308 rrdr_json_wrapper_begin(r, wb, format, options, 1);
1309 rrdr2ssv(r, wb, options, "", " ", "");
1310 rrdr_json_wrapper_end(r, wb, format, options, 1);
1313 wb->contenttype = CT_TEXT_PLAIN;
1314 rrdr2ssv(r, wb, options, "", " ", "");
1318 case DATASOURCE_SSV_COMMA:
1319 if(options & RRDR_OPTION_JSON_WRAP) {
1320 wb->contenttype = CT_APPLICATION_JSON;
1321 rrdr_json_wrapper_begin(r, wb, format, options, 1);
1322 rrdr2ssv(r, wb, options, "", ",", "");
1323 rrdr_json_wrapper_end(r, wb, format, options, 1);
1326 wb->contenttype = CT_TEXT_PLAIN;
1327 rrdr2ssv(r, wb, options, "", ",", "");
1331 case DATASOURCE_JS_ARRAY:
1332 if(options & RRDR_OPTION_JSON_WRAP) {
1333 wb->contenttype = CT_APPLICATION_JSON;
1334 rrdr_json_wrapper_begin(r, wb, format, options, 0);
1335 rrdr2ssv(r, wb, options, "[", ",", "]");
1336 rrdr_json_wrapper_end(r, wb, format, options, 0);
1339 wb->contenttype = CT_APPLICATION_JSON;
1340 rrdr2ssv(r, wb, options, "[", ",", "]");
1344 case DATASOURCE_CSV:
1345 if(options & RRDR_OPTION_JSON_WRAP) {
1346 wb->contenttype = CT_APPLICATION_JSON;
1347 rrdr_json_wrapper_begin(r, wb, format, options, 1);
1348 rrdr2csv(r, wb, options, "", ",", "\\n");
1349 rrdr_json_wrapper_end(r, wb, format, options, 1);
1352 wb->contenttype = CT_TEXT_PLAIN;
1353 rrdr2csv(r, wb, options, "", ",", "\r\n");
1357 case DATASOURCE_TSV:
1358 if(options & RRDR_OPTION_JSON_WRAP) {
1359 wb->contenttype = CT_APPLICATION_JSON;
1360 rrdr_json_wrapper_begin(r, wb, format, options, 1);
1361 rrdr2csv(r, wb, options, "", "\t", "\\n");
1362 rrdr_json_wrapper_end(r, wb, format, options, 1);
1365 wb->contenttype = CT_TEXT_PLAIN;
1366 rrdr2csv(r, wb, options, "", "\t", "\r\n");
1370 case DATASOURCE_HTML:
1371 if(options & RRDR_OPTION_JSON_WRAP) {
1372 wb->contenttype = CT_APPLICATION_JSON;
1373 rrdr_json_wrapper_begin(r, wb, format, options, 1);
1374 buffer_strcat(wb, "<html>\\n<center>\\n<table border=\\\"0\\\" cellpadding=\\\"5\\\" cellspacing=\\\"5\\\">\\n");
1375 rrdr2csv(r, wb, options, "<tr><td>", "</td><td>", "</td></tr>\\n");
1376 buffer_strcat(wb, "</table>\\n</center>\\n</html>\\n");
1377 rrdr_json_wrapper_end(r, wb, format, options, 1);
1380 wb->contenttype = CT_TEXT_HTML;
1381 buffer_strcat(wb, "<html>\n<center>\n<table border=\"0\" cellpadding=\"5\" cellspacing=\"5\">\n");
1382 rrdr2csv(r, wb, options, "<tr><td>", "</td><td>", "</td></tr>\n");
1383 buffer_strcat(wb, "</table>\n</center>\n</html>\n");
1387 case DATASOURCE_DATATABLE_JSONP:
1388 wb->contenttype = CT_APPLICATION_X_JAVASCRIPT;
1390 if(options & RRDR_OPTION_JSON_WRAP)
1391 rrdr_json_wrapper_begin(r, wb, format, options, 0);
1393 rrdr2json(r, wb, options, 1);
1395 if(options & RRDR_OPTION_JSON_WRAP)
1396 rrdr_json_wrapper_end(r, wb, format, options, 0);
1399 case DATASOURCE_DATATABLE_JSON:
1400 wb->contenttype = CT_APPLICATION_JSON;
1402 if(options & RRDR_OPTION_JSON_WRAP)
1403 rrdr_json_wrapper_begin(r, wb, format, options, 0);
1405 rrdr2json(r, wb, options, 1);
1407 if(options & RRDR_OPTION_JSON_WRAP)
1408 rrdr_json_wrapper_end(r, wb, format, options, 0);
1411 case DATASOURCE_JSONP:
1412 wb->contenttype = CT_APPLICATION_X_JAVASCRIPT;
1413 if(options & RRDR_OPTION_JSON_WRAP)
1414 rrdr_json_wrapper_begin(r, wb, format, options, 0);
1416 rrdr2json(r, wb, options, 0);
1418 if(options & RRDR_OPTION_JSON_WRAP)
1419 rrdr_json_wrapper_end(r, wb, format, options, 0);
1422 case DATASOURCE_JSON:
1424 wb->contenttype = CT_APPLICATION_JSON;
1426 if(options & RRDR_OPTION_JSON_WRAP)
1427 rrdr_json_wrapper_begin(r, wb, format, options, 0);
1429 rrdr2json(r, wb, options, 0);
1431 if(options & RRDR_OPTION_JSON_WRAP)
1432 rrdr_json_wrapper_end(r, wb, format, options, 0);
1440 unsigned long rrd_stats_json(int type, RRDSET *st, BUFFER *wb, int points, int group, int group_method, time_t after, time_t before, int only_non_zero)
1443 pthread_rwlock_rdlock(&st->rwlock);
1446 // -------------------------------------------------------------------------
1447 // switch from JSON to google JSON
1452 case DATASOURCE_DATATABLE_JSON:
1453 case DATASOURCE_DATATABLE_JSONP:
1458 case DATASOURCE_JSON:
1464 // -------------------------------------------------------------------------
1465 // validate the parameters
1467 if(points < 1) points = 1;
1468 if(group < 1) group = 1;
1470 if(before == 0 || before > rrdset_last_entry_t(st)) before = rrdset_last_entry_t(st);
1471 if(after == 0 || after < rrdset_first_entry_t(st)) after = rrdset_first_entry_t(st);
1475 // our return value (the last timestamp printed)
1476 // this is required to detect re-transmit in google JSONP
1477 time_t last_timestamp = 0;
1480 // -------------------------------------------------------------------------
1481 // find how many dimensions we have
1485 for( rd = st->dimensions ; rd ; rd = rd->next) dimensions++;
1487 pthread_rwlock_unlock(&st->rwlock);
1488 buffer_strcat(wb, "No dimensions yet.");
1493 // -------------------------------------------------------------------------
1494 // prepare various strings, to speed up the loop
1496 char overflow_annotation[201]; snprintf(overflow_annotation, 200, ",{%sv%s:%sRESET OR OVERFLOW%s},{%sv%s:%sThe counters have been wrapped.%s}", kq, kq, sq, sq, kq, kq, sq, sq);
1497 char normal_annotation[201]; snprintf(normal_annotation, 200, ",{%sv%s:null},{%sv%s:null}", kq, kq, kq, kq);
1498 char pre_date[51]; snprintf(pre_date, 50, " {%sc%s:[{%sv%s:%s", kq, kq, kq, kq, sq);
1499 char post_date[21]; snprintf(post_date, 20, "%s}", sq);
1500 char pre_value[21]; snprintf(pre_value, 20, ",{%sv%s:", kq, kq);
1501 char post_value[21]; snprintf(post_value, 20, "}");
1504 // -------------------------------------------------------------------------
1505 // checks for debugging
1508 debug(D_RRD_STATS, "%s first_entry_t = %lu, last_entry_t = %lu, duration = %lu, after = %lu, before = %lu, duration = %lu, entries_to_show = %lu, group = %lu"
1510 , rrdset_first_entry_t(st)
1511 , rrdset_last_entry_t(st)
1512 , rrdset_last_entry_t(st) - rrdset_first_entry_t(st)
1521 debug(D_RRD_STATS, "WARNING: %s The newest value in the database (%lu) is earlier than the oldest (%lu)", st->name, before, after);
1523 if((before - after) > st->entries * st->update_every)
1524 debug(D_RRD_STATS, "WARNING: %s The time difference between the oldest and the newest entries (%lu) is higher than the capacity of the database (%lu)", st->name, before - after, st->entries * st->update_every);
1528 // -------------------------------------------------------------------------
1529 // temp arrays for keeping values per dimension
1531 calculated_number group_values[dimensions]; // keep sums when grouping
1532 int print_hidden[dimensions]; // keep hidden flags
1533 int found_non_zero[dimensions];
1534 int found_non_existing[dimensions];
1537 for( rd = st->dimensions, c = 0 ; rd && c < dimensions ; rd = rd->next, c++) {
1538 group_values[c] = 0;
1539 print_hidden[c] = (rd->flags & RRDDIM_FLAG_HIDDEN)?1:0;
1540 found_non_zero[c] = 0;
1541 found_non_existing[c] = 0;
1545 // error("OLD: points=%d after=%d before=%d group=%d, duration=%d", entries_to_show, before - (st->update_every * group * entries_to_show), before, group, before - after + 1);
1546 // rrd2array(st, entries_to_show, before - (st->update_every * group * entries_to_show), before, group_method, only_non_zero);
1547 // rrd2rrdr(st, entries_to_show, before - (st->update_every * group * entries_to_show), before, group_method);
1549 // -------------------------------------------------------------------------
1550 // remove dimensions that contain only zeros
1553 if(only_non_zero) max_loop = 2;
1555 for(; max_loop ; max_loop--) {
1557 // -------------------------------------------------------------------------
1558 // print the JSON header
1560 buffer_sprintf(wb, "{\n %scols%s:\n [\n", kq, kq);
1561 buffer_sprintf(wb, " {%sid%s:%s%s,%slabel%s:%stime%s,%spattern%s:%s%s,%stype%s:%sdatetime%s},\n", kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq);
1562 buffer_sprintf(wb, " {%sid%s:%s%s,%slabel%s:%s%s,%spattern%s:%s%s,%stype%s:%sstring%s,%sp%s:{%srole%s:%sannotation%s}},\n", kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, kq, kq, sq, sq);
1563 buffer_sprintf(wb, " {%sid%s:%s%s,%slabel%s:%s%s,%spattern%s:%s%s,%stype%s:%sstring%s,%sp%s:{%srole%s:%sannotationText%s}}", kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, sq, sq, kq, kq, kq, kq, sq, sq);
1565 // print the header for each dimension
1566 // and update the print_hidden array for the dimensions that should be hidden
1568 for( rd = st->dimensions, c = 0 ; rd && c < dimensions ; rd = rd->next, c++) {
1569 if(!print_hidden[c]) {
1571 buffer_sprintf(wb, ",\n {%sid%s:%s%s,%slabel%s:%s%s%s,%spattern%s:%s%s,%stype%s:%snumber%s}", kq, kq, sq, sq, kq, kq, sq, rd->name, sq, kq, kq, sq, sq, kq, kq, sq, sq);
1575 buffer_sprintf(wb, ",\n {%sid%s:%s%s,%slabel%s:%s%s%s,%spattern%s:%s%s,%stype%s:%snumber%s}", kq, kq, sq, sq, kq, kq, sq, "no data", sq, kq, kq, sq, sq, kq, kq, sq, sq);
1578 // print the begin of row data
1579 buffer_sprintf(wb, "\n ],\n %srows%s:\n [\n", kq, kq);
1582 // -------------------------------------------------------------------------
1585 int annotate_reset = 0;
1586 int annotation_count = 0;
1588 long t = rrdset_time2slot(st, before),
1589 stop_at_t = rrdset_time2slot(st, after),
1594 time_t now = rrdset_slot2time(st, t),
1595 dt = st->update_every;
1597 long count = 0, printed = 0, group_count = 0;
1600 if(st->debug) debug(D_RRD_STATS, "%s: REQUEST after:%lu before:%lu, points:%d, group:%d, CHART cur:%ld first: %lu last:%lu, CALC start_t:%ld, stop_t:%ld"
1607 , rrdset_first_entry_t(st)
1608 , rrdset_last_entry_t(st)
1614 for(; !stop_now ; now -= dt, t--, counter++) {
1615 if(t < 0) t = st->entries - 1;
1616 if(t == stop_at_t) stop_now = counter;
1620 if(st->debug) debug(D_RRD_STATS, "%s t = %ld, count = %ld, group_count = %ld, printed = %ld, now = %lu, %s %s"
1627 , (group_count + 1 == group)?"PRINT":" - "
1628 , (now >= after && now <= before)?"RANGE":" - "
1632 // make sure we return data in the proper time range
1633 if(now > before) continue;
1634 if(now < after) break;
1636 //if(rrdset_slot2time(st, t) != now)
1637 // error("%s: slot=%ld, now=%ld, slot2time=%ld, diff=%ld, last_entry_t=%ld, rrdset_last_slot=%ld", st->id, t, now, rrdset_slot2time(st,t), now - rrdset_slot2time(st,t), rrdset_last_entry_t(st), rrdset_last_slot(st));
1642 // check if we have to print this now
1643 if(group_count == group) {
1644 if(printed >= points) {
1645 // debug(D_RRD_STATS, "Already printed all rows. Stopping.");
1649 // generate the local date time
1650 struct tm *tm = localtime(&now);
1651 if(!tm) { error("localtime() failed."); continue; }
1652 if(now > last_timestamp) last_timestamp = now;
1654 if(printed) buffer_strcat(wb, "]},\n");
1655 buffer_strcat(wb, pre_date);
1656 buffer_jsdate(wb, tm->tm_year + 1900, tm->tm_mon, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec);
1657 buffer_strcat(wb, post_date);
1662 // do the calculations
1663 for(rd = st->dimensions, c = 0 ; rd && c < dimensions ; rd = rd->next, c++) {
1664 storage_number n = rd->values[t];
1665 calculated_number value = unpack_storage_number(n);
1667 if(!does_storage_number_exist(n)) {
1669 found_non_existing[c]++;
1671 if(did_storage_number_reset(n)) annotate_reset = 1;
1673 switch(group_method) {
1675 if(abs(value) > abs(group_values[c])) group_values[c] = value;
1679 group_values[c] += value;
1684 group_values[c] += value;
1685 if(print_this) group_values[c] /= ( group_count - found_non_existing[c] );
1691 if(annotate_reset) {
1693 buffer_strcat(wb, overflow_annotation);
1697 buffer_strcat(wb, normal_annotation);
1700 for(c = 0 ; c < dimensions ; c++) {
1701 if(found_non_existing[c] == group_count) {
1702 // all entries are non-existing
1704 buffer_strcat(wb, pre_value);
1705 buffer_strcat(wb, "null");
1706 buffer_strcat(wb, post_value);
1708 else if(!print_hidden[c]) {
1710 buffer_strcat(wb, pre_value);
1711 buffer_rrd_value(wb, group_values[c]);
1712 buffer_strcat(wb, post_value);
1714 if(group_values[c]) found_non_zero[c]++;
1717 // reset them for the next loop
1718 group_values[c] = 0;
1719 found_non_existing[c] = 0;
1722 // if all dimensions are hidden, print a null
1724 buffer_strcat(wb, pre_value);
1725 buffer_strcat(wb, "null");
1726 buffer_strcat(wb, post_value);
1734 if(printed) buffer_strcat(wb, "]}");
1735 buffer_strcat(wb, "\n ]\n}\n");
1737 if(only_non_zero && max_loop > 1) {
1739 for(rd = st->dimensions, c = 0 ; rd && c < dimensions ; rd = rd->next, c++) {
1740 group_values[c] = 0;
1741 found_non_existing[c] = 0;
1743 if(!print_hidden[c] && !found_non_zero[c]) {
1745 print_hidden[c] = 1;
1749 if(changed) buffer_flush(wb);
1756 debug(D_RRD_STATS, "RRD_STATS_JSON: %s total %ld bytes", st->name, wb->len);
1758 pthread_rwlock_unlock(&st->rwlock);
1759 return last_timestamp;