/***************************************************************************** * RRDtool 1.0.50 Copyright Tobias Oetiker, 1997 - 2000 ***************************************************************************** * rrd_fetch.c read date from an rrd to use for further processing ***************************************************************************** * $Id: rrd_fetch.c,v 1.1.1.1 2002/02/26 10:21:37 oetiker Exp $ * $Log: rrd_fetch.c,v $ * Revision 1.1.1.1 2002/02/26 10:21:37 oetiker * Intial Import * *****************************************************************************/ #include "rrd_tool.h" /*#define DEBUG*/ int rrd_fetch(int argc, char **argv, TIME_INT *start, TIME_INT *end, /* which time frame do you want ? * will be changed to represent reality */ unsigned long *step, /* which stepsize do you want? * will be changed to represent reality */ unsigned long *ds_cnt, /* number of data sources in file */ char ***ds_namv, /* names of data sources */ rrd_value_t **data) /* two dimensional array containing the data */ { long step_tmp =1; TIME_INT start_tmp=0, end_tmp=0; enum cf_en cf_idx; struct rrd_time_value start_tv, end_tv; char *parsetime_error = NULL; /* init start and end time */ parsetime("end-24h", &start_tv); parsetime("now", &end_tv); while (1){ static struct option long_options[] = { {"resolution", required_argument, 0, 'r'}, {"start", required_argument, 0, 's'}, {"end", required_argument, 0, 'e'}, {0,0,0,0} }; int option_index = 0; int opt; opt = getopt_long(argc, argv, "r:s:e:", long_options, &option_index); if (opt == EOF) break; switch(opt) { case 's': if ((parsetime_error = parsetime(optarg, &start_tv))) { rrd_set_error( "start time: %s", parsetime_error ); return -1; } break; case 'e': if ((parsetime_error = parsetime(optarg, &end_tv))) { rrd_set_error( "end time: %s", parsetime_error ); return -1; } break; case 'r': step_tmp = atol(optarg); break; case '?': rrd_set_error("unknown option '-%c'",optopt); return(-1); } } if (proc_start_end(&start_tv,&end_tv,&start_tmp,&end_tmp) == -1){ return -1; } if (start_tmp < 3600*24*365*10){ rrd_set_error("the first entry to fetch should be after 1980"); return(-1); } if (end_tmp < start_tmp) { rrd_set_error("start (%ld) should be less than end (%ld)", start_tmp, end_tmp); return(-1); } *start = start_tmp; *end = end_tmp; if (step_tmp < 1) { rrd_set_error("step must be >= 1 second"); return -1; } *step = step_tmp; if (optind + 1 >= argc){ rrd_set_error("not enough arguments"); return -1; } if ((cf_idx=cf_conv(argv[optind+1])) == -1 ){ return -1; } if (rrd_fetch_fn(argv[optind],cf_idx,start,end,step,ds_cnt,ds_namv,data) == -1) return(-1); return (0); } int rrd_fetch_fn( char *filename, /* name of the rrd */ enum cf_en cf_idx, /* which consolidation function ?*/ TIME_INT *start, TIME_INT *end, /* which time frame do you want ? * will be changed to represent reality */ unsigned long *step, /* which stepsize do you want? * will be changed to represent reality */ unsigned long *ds_cnt, /* number of data sources in file */ char ***ds_namv, /* names of data_sources */ rrd_value_t **data) /* two dimensional array containing the data */ { long i,ii; FILE *in_file; TIME_INT cal_start,cal_end, rra_start_time,rra_end_time; long best_full_rra=0, best_part_rra=0, chosen_rra=0, rra_pointer=0; long best_step_diff=0, tmp_step_diff=0, tmp_match=0, best_match=0; long full_match, rra_base; long start_offset, end_offset; int first_full = 1; int first_part = 1; rrd_t rrd; rrd_value_t *data_ptr; unsigned long rows; if(rrd_open(filename,&in_file,&rrd, RRD_READONLY)==-1) return(-1); /* when was the really last update of this file ? */ if (((*ds_namv) = (char **) malloc(rrd.stat_head->ds_cnt * sizeof(char*)))==NULL){ rrd_set_error("malloc fetch ds_namv array"); rrd_free(&rrd); fclose(in_file); return(-1); } for(i=0;ids_cnt;i++){ if ((((*ds_namv)[i]) = malloc(sizeof(char) * DS_NAM_SIZE))==NULL){ rrd_set_error("malloc fetch ds_namv entry"); rrd_free(&rrd); free(*ds_namv); fclose(in_file); return(-1); } strncpy((*ds_namv)[i],rrd.ds_def[i].ds_nam,DS_NAM_SIZE-1); (*ds_namv)[i][DS_NAM_SIZE-1]='\0'; } /* find the rra which best matches the requirements */ for(i=0;irra_cnt;i++){ if(cf_conv(rrd.rra_def[i].cf_nam) == cf_idx){ cal_end = (rrd.live_head->last_up - (rrd.live_head->last_up % (rrd.rra_def[i].pdp_cnt * rrd.stat_head->pdp_step))); cal_start = (cal_end - (rrd.rra_def[i].pdp_cnt * rrd.rra_def[i].row_cnt * rrd.stat_head->pdp_step)); /* we need step difference in either full or partial case */ tmp_step_diff = labs(*step - (rrd.stat_head->pdp_step * rrd.rra_def[i].pdp_cnt)); full_match = *end -*start; /* best full match */ if(cal_end >= *end && cal_start <= *start){ if (first_full || (tmp_step_diff < best_step_diff)){ first_full=0; best_step_diff = tmp_step_diff; best_full_rra=i; } } else { /* best partial match */ tmp_match = full_match; if (cal_start>*start) tmp_match -= (cal_start-*start); if (cal_end<*end) tmp_match -= (*end-cal_end); if (first_part || (best_match < tmp_match) || (best_match == tmp_match && tmp_step_diff < best_step_diff)){ first_part=0; best_match = tmp_match; best_step_diff = tmp_step_diff; best_part_rra =i; } } } } /* lets see how the matching went. */ if (first_full==0) chosen_rra = best_full_rra; else if (first_part==0) chosen_rra = best_part_rra; else { rrd_set_error("the RRD does not contain an RRA matching the chosen CF"); rrd_free(&rrd); fclose(in_file); return(-1); } /* set the wish parameters to their real values */ *step = rrd.stat_head->pdp_step * rrd.rra_def[chosen_rra].pdp_cnt; *start -= (*start % *step); if (*end % *step) *end += (*step - *end % *step); rows = (*end - *start) / *step +1; #ifdef DEBUG fprintf(stderr,"start %lu end %lu step %lu rows %lu\n", *start,*end,*step,rows); #endif *ds_cnt = rrd.stat_head->ds_cnt; if (((*data) = malloc(*ds_cnt * rows * sizeof(rrd_value_t)))==NULL){ rrd_set_error("malloc fetch data area"); for (i=0;i<*ds_cnt;i++) free((*ds_namv)[i]); free(*ds_namv); rrd_free(&rrd); fclose(in_file); return(-1); } data_ptr=(*data); /* find base address of rra */ rra_base=ftell(in_file); for(i=0;ilast_up - (rrd.live_head->last_up % *step)); rra_start_time = (rra_end_time - ( *step * (rrd.rra_def[chosen_rra].row_cnt-1))); start_offset = (long)(*start - rra_start_time) / (long)*step; end_offset = (long)(rra_end_time - *end ) / (long)*step; #ifdef DEBUG fprintf(stderr,"rra_start %lu, rra_end %lu, start_off %li, end_off %li\n", rra_start_time,rra_end_time,start_offset,end_offset); #endif /* fill the gap at the start if needs be */ if (start_offset <= 0) rra_pointer = rrd.rra_ptr[chosen_rra].cur_row+1; else rra_pointer = rrd.rra_ptr[chosen_rra].cur_row+1+start_offset; if(fseek(in_file,(rra_base + (rra_pointer * *ds_cnt * sizeof(rrd_value_t))),SEEK_SET) != 0){ rrd_set_error("seek error in RRA"); for (i=0;i<*ds_cnt;i++) free((*ds_namv)[i]); free(*ds_namv); rrd_free(&rrd); free(*data); *data = NULL; fclose(in_file); return(-1); } #ifdef DEBUG fprintf(stderr,"First Seek: rra_base %lu rra_pointer %lu\n", rra_base, rra_pointer); #endif /* step trough the array */ for (i=start_offset; i<(long)(rrd.rra_def[chosen_rra].row_cnt-end_offset); i++){ /* no valid data yet */ if (i<0) { #ifdef DEBUG fprintf(stderr,"pre fetch %li -- ",i); #endif for(ii=0;ii<*ds_cnt;ii++){ *(data_ptr++) = DNAN; #ifdef DEBUG fprintf(stderr,"%10.2f ",*(data_ptr-1)); #endif } } /* past the valid data area */ else if (i>=rrd.rra_def[chosen_rra].row_cnt) { #ifdef DEBUG fprintf(stderr,"post fetch %li -- ",i); #endif for(ii=0;ii<*ds_cnt;ii++){ *(data_ptr++) = DNAN; #ifdef DEBUG fprintf(stderr,"%10.2f ",*(data_ptr-1)); #endif } } else { /* OK we are inside the valid area but the pointer has to * be wrapped*/ if (rra_pointer >= rrd.rra_def[chosen_rra].row_cnt) { rra_pointer -= rrd.rra_def[chosen_rra].row_cnt; if(fseek(in_file,(rra_base+rra_pointer * *ds_cnt * sizeof(rrd_value_t)),SEEK_SET) != 0){ rrd_set_error("wrap seek in RRA did fail"); for (ii=0;ii<*ds_cnt;ii++) free((*ds_namv)[ii]); free(*ds_namv); rrd_free(&rrd); free(*data); *data = NULL; fclose(in_file); return(-1); } #ifdef DEBUG fprintf(stderr,"wrap seek ...\n"); #endif } if(fread(data_ptr, sizeof(rrd_value_t), *ds_cnt,in_file) != rrd.stat_head->ds_cnt){ rrd_set_error("fetching cdp from rra"); for (ii=0;ii<*ds_cnt;ii++) free((*ds_namv)[ii]); free(*ds_namv); rrd_free(&rrd); free(*data); *data = NULL; fclose(in_file); return(-1); } #ifdef DEBUG fprintf(stderr,"post fetch %li -- ",i); for(ii=0;ii<*ds_cnt;ii++) fprintf(stderr,"%10.2f ",*(data_ptr+ii)); #endif data_ptr += *ds_cnt; rra_pointer ++; } #ifdef DEBUG fprintf(stderr,"\n"); #endif } rrd_free(&rrd); fclose(in_file); return(0); }