From 40cc8b00296079815f08c2ff55f134efae83ea69 Mon Sep 17 00:00:00 2001 From: oetiker Date: Thu, 15 Nov 2007 14:39:56 +0000 Subject: [PATCH] re-indented files that have gone out of indent-style over the last few weeks git-svn-id: svn://svn.oetiker.ch/rrdtool/trunk/program@1228 a5681a0c-68f1-0310-ab6d-d61299d08faa --- bindings/ruby/main.c | 1 + src/rrd.h | 6 +- src/rrd_create.c | 24 +- src/rrd_dump.c | 3 +- src/rrd_format.h | 2 +- src/rrd_graph.c | 12 +- src/rrd_hw.c | 4 +- src/rrd_info.c | 8 +- src/rrd_open.c | 19 +- src/rrd_restore.c | 4 +- src/rrd_tune.c | 7 +- src/rrd_update.c | 1225 +++++++++++++++++++++++++++++--------------------- src/rrd_xport.c | 2 +- 13 files changed, 763 insertions(+), 554 deletions(-) diff --git a/bindings/ruby/main.c b/bindings/ruby/main.c index 90f883b..ff747f7 100644 --- a/bindings/ruby/main.c +++ b/bindings/ruby/main.c @@ -198,6 +198,7 @@ VALUE rb_rrd_info( string_arr_delete(a); RRD_CHECK_ERROR result = rb_hash_new(); + while (data) { VALUE key = rb_str_new2(data->key); diff --git a/src/rrd.h b/src/rrd.h index 3030788..978ad1c 100644 --- a/src/rrd.h +++ b/src/rrd.h @@ -66,8 +66,10 @@ extern "C" { #ifndef DINF # define DINF set_to_DINF() #endif -double set_to_DNAN(void); -double set_to_DINF(void); + double set_to_DNAN( + void); + double set_to_DINF( + void); /* end of rrd_nan_inf.h */ /* Transplanted from rrd_format.h */ diff --git a/src/rrd_create.c b/src/rrd_create.c index b6dd08f..f636961 100644 --- a/src/rrd_create.c +++ b/src/rrd_create.c @@ -425,17 +425,21 @@ int rrd_create_r( case CF_DEVSEASONAL: case CF_SEASONAL: /* optional smoothing window */ - if (sscanf(token, "smoothing-window=%lf", - &(rrd.rra_def[rrd.stat_head->rra_cnt]. - par[RRA_seasonal_smoothing_window].u_val))) { - strcpy(rrd.stat_head->version, RRD_VERSION); /* smoothing-window causes Version 4 */ + if (sscanf(token, "smoothing-window=%lf", + &(rrd.rra_def[rrd.stat_head->rra_cnt]. + par[RRA_seasonal_smoothing_window]. + u_val))) { + strcpy(rrd.stat_head->version, RRD_VERSION); /* smoothing-window causes Version 4 */ if (rrd.rra_def[rrd.stat_head->rra_cnt]. - par[RRA_seasonal_smoothing_window].u_val < 0.0 - || rrd.rra_def[rrd.stat_head->rra_cnt]. - par[RRA_seasonal_smoothing_window].u_val > 1.0) { - rrd_set_error("Invalid smoothing-window %f: must be between 0 and 1", - rrd.rra_def[rrd.stat_head->rra_cnt]. - par[RRA_seasonal_smoothing_window].u_val); + par[RRA_seasonal_smoothing_window].u_val < 0.0 + || rrd.rra_def[rrd.stat_head->rra_cnt]. + par[RRA_seasonal_smoothing_window].u_val > + 1.0) { + rrd_set_error + ("Invalid smoothing-window %f: must be between 0 and 1", + rrd.rra_def[rrd.stat_head->rra_cnt]. + par[RRA_seasonal_smoothing_window]. + u_val); } } else { rrd_set_error("Invalid option %s", token); diff --git a/src/rrd_dump.c b/src/rrd_dump.c index 6343e1d..baf560c 100644 --- a/src/rrd_dump.c +++ b/src/rrd_dump.c @@ -200,7 +200,8 @@ int rrd_dump_r( if (atoi(rrd.stat_head->version) >= 4) { fprintf(out_file, "\t\t %0.10e \n", - rrd.rra_def[i].par[RRA_seasonal_smoothing_window].u_val); + rrd.rra_def[i].par[RRA_seasonal_smoothing_window]. + u_val); } fprintf(out_file, "\t\t %lu \n", diff --git a/src/rrd_format.h b/src/rrd_format.h index 3eb46ae..65d5649 100644 --- a/src/rrd_format.h +++ b/src/rrd_format.h @@ -231,7 +231,7 @@ enum rra_par_en { RRA_cdp_xff_val = 0, /* what part of the consolidated * the period smoother. */ /* CF_FAILURES: */ - RRA_delta_pos = 1, /* confidence bound scaling parameters */ + RRA_delta_pos = 1, /* confidence bound scaling parameters */ RRA_delta_neg = 2, /* RRA_dependent_rra_idx = 3, */ RRA_window_len = 4, diff --git a/src/rrd_graph.c b/src/rrd_graph.c index b624171..f04a2b3 100644 --- a/src/rrd_graph.c +++ b/src/rrd_graph.c @@ -4431,19 +4431,19 @@ int vdef_calc( if (dst->vf.op == VDEF_TOTAL) { dst->vf.val = sum * src->step; dst->vf.when = 0; /* no time component */ - } else if (dst->vf.op == VDEF_AVERAGE){ + } else if (dst->vf.op == VDEF_AVERAGE) { dst->vf.val = sum / cnt; dst->vf.when = 0; /* no time component */ } else { average = sum / cnt; sum = 0.0; - for (step=0;stepds_cnt])) { - sum += pow((data[step*src->ds_cnt] - average),2.0); + for (step = 0; step < steps; step++) { + if (finite(data[step * src->ds_cnt])) { + sum += pow((data[step * src->ds_cnt] - average), 2.0); }; } - dst->vf.val = pow(sum / cnt,0.5); - dst->vf.when = 0; /* no time component */ + dst->vf.val = pow(sum / cnt, 0.5); + dst->vf.when = 0; /* no time component */ }; } else { dst->vf.val = DNAN; diff --git a/src/rrd_hw.c b/src/rrd_hw.c index e802412..3b1ba7c 100644 --- a/src/rrd_hw.c +++ b/src/rrd_hw.c @@ -141,8 +141,8 @@ int apply_smoother( if (atoi(rrd->stat_head->version) >= 4) { offset = floor(rrd->rra_def[rra_idx]. - par[RRA_seasonal_smoothing_window]. - u_val / 2 * row_count); + par[RRA_seasonal_smoothing_window]. + u_val / 2 * row_count); } else { offset = floor(0.05 / 2 * row_count); } diff --git a/src/rrd_info.c b/src/rrd_info.c index 8f88d68..239a7ab 100644 --- a/src/rrd_info.c +++ b/src/rrd_info.c @@ -206,9 +206,11 @@ info_t *rrd_info_r( cd = info_push(cd, sprintf_alloc("rra[%d].gamma", i), RD_I_VAL, info); if (atoi(rrd.stat_head->version) >= 4) { - info.u_val = rrd.rra_def[i].par[RRA_seasonal_smoothing_window].u_val; - cd = info_push(cd, sprintf_alloc("rra[%d].smoothing_window", i), RD_I_VAL, - info); + info.u_val = + rrd.rra_def[i].par[RRA_seasonal_smoothing_window].u_val; + cd = info_push(cd, + sprintf_alloc("rra[%d].smoothing_window", i), + RD_I_VAL, info); } break; case CF_FAILURES: diff --git a/src/rrd_open.c b/src/rrd_open.c index 60151ba..87fd766 100644 --- a/src/rrd_open.c +++ b/src/rrd_open.c @@ -182,7 +182,8 @@ rrd_file_t *rrd_open( } #endif - __rrd_read(rrd->stat_head, stat_head_t, 1); + __rrd_read(rrd->stat_head, stat_head_t, + 1); /* lets do some test if we are on track ... */ if (memcmp(rrd->stat_head->cookie, RRD_COOKIE, sizeof(RRD_COOKIE)) != 0) { @@ -348,7 +349,7 @@ void rrd_dontneed( } dontneed_start = active_block; /* do not release 'hot' block if update for this RAA will occur - * within 10 minutes */ + * within 10 minutes */ if (rrd->stat_head->pdp_step * rrd->rra_def[i].pdp_cnt - rrd->live_head->last_up % (rrd->stat_head->pdp_step * rrd->rra_def[i].pdp_cnt) < 10 * 60) { @@ -377,7 +378,7 @@ int rrd_close( int ret; #ifdef HAVE_MMAP - ret = msync(rrd_file->file_start, rrd_file->file_len,MS_ASYNC); + ret = msync(rrd_file->file_start, rrd_file->file_len, MS_ASYNC); if (ret != 0) rrd_set_error("msync rrd_file: %s", rrd_strerror(errno)); ret = munmap(rrd_file->file_start, rrd_file->file_len); @@ -416,7 +417,7 @@ off_t rrd_seek( rrd_file->pos = ret; #endif /* mimic fseek, which returns 0 upon success */ - return ret < 0; //XXX: or just ret to mimic lseek + return ret < 0; //XXX: or just ret to mimic lseek } @@ -441,10 +442,10 @@ inline ssize_t rrd_read( size_t _cnt = count; ssize_t _surplus; - if (rrd_file->pos > rrd_file->file_len || _cnt == 0) /* EOF */ - return 0; + if (rrd_file->pos > rrd_file->file_len || _cnt == 0) /* EOF */ + return 0; if (buf == NULL) - return -1; /* EINVAL */ + return -1; /* EINVAL */ _surplus = rrd_file->pos + _cnt - rrd_file->file_len; if (_surplus > 0) { /* short read */ _cnt -= _surplus; @@ -477,9 +478,9 @@ inline ssize_t rrd_write( { #ifdef HAVE_MMAP if (count == 0) - return 0; + return 0; if (buf == NULL) - return -1; /* EINVAL */ + return -1; /* EINVAL */ memcpy(rrd_file->file_start + rrd_file->pos, buf, count); rrd_file->pos += count; return count; /* mimmic write() semantics */ diff --git a/src/rrd_restore.c b/src/rrd_restore.c index c301736..d3a2c8a 100644 --- a/src/rrd_restore.c +++ b/src/rrd_restore.c @@ -385,8 +385,8 @@ int xml2rrd( par[RRA_seasonal_smooth_idx].u_cnt)); if (atoi(rrd->stat_head->version) >= 4) { read_tag(&ptr2, "smoothing_window", "%lf", - &(rrd->rra_def[rra_index]. - par[RRA_seasonal_smoothing_window].u_val)); + &(rrd->rra_def[rra_index]. + par[RRA_seasonal_smoothing_window].u_val)); } read_tag(&ptr2, "dependent_rra_idx", "%lu", &(rrd->rra_def[rra_index]. diff --git a/src/rrd_tune.c b/src/rrd_tune.c index 36b2bb0..1c80e98 100644 --- a/src/rrd_tune.c +++ b/src/rrd_tune.c @@ -300,14 +300,17 @@ int rrd_tune( break; case 's': strcpy(rrd.stat_head->version, RRD_VERSION); /* smoothing_window causes Version 4 */ - if (set_hwarg(&rrd, CF_SEASONAL, RRA_seasonal_smoothing_window, optarg)) { + if (set_hwarg + (&rrd, CF_SEASONAL, RRA_seasonal_smoothing_window, optarg)) { rrd_free(&rrd); return -1; } break; case 'S': strcpy(rrd.stat_head->version, RRD_VERSION); /* smoothing_window causes Version 4 */ - if (set_hwarg(&rrd, CF_DEVSEASONAL, RRA_seasonal_smoothing_window, optarg)) { + if (set_hwarg + (&rrd, CF_DEVSEASONAL, RRA_seasonal_smoothing_window, + optarg)) { rrd_free(&rrd); return -1; } diff --git a/src/rrd_update.c b/src/rrd_update.c index d015cb2..b3cc86c 100644 --- a/src/rrd_update.c +++ b/src/rrd_update.c @@ -73,112 +73,210 @@ int _rrd_update( info_t *); static int allocate_data_structures( - rrd_t *rrd, char ***updvals, rrd_value_t **pdp_temp, const char *tmplt, - long **tmpl_idx, unsigned long *tmpl_cnt, unsigned long **rra_step_cnt, - unsigned long **skip_update, rrd_value_t **pdp_new); + rrd_t *rrd, + char ***updvals, + rrd_value_t **pdp_temp, + const char *tmplt, + long **tmpl_idx, + unsigned long *tmpl_cnt, + unsigned long **rra_step_cnt, + unsigned long **skip_update, + rrd_value_t **pdp_new); -static int parse_template(rrd_t *rrd, const char *tmplt, - unsigned long *tmpl_cnt, long *tmpl_idx); +static int parse_template( + rrd_t *rrd, + const char *tmplt, + unsigned long *tmpl_cnt, + long *tmpl_idx); static int process_arg( - char *step_start, - rrd_t *rrd, - rrd_file_t *rrd_file, - unsigned long rra_begin, + char *step_start, + rrd_t *rrd, + rrd_file_t *rrd_file, + unsigned long rra_begin, unsigned long *rra_current, - time_t *current_time, + time_t *current_time, unsigned long *current_time_usec, - rrd_value_t *pdp_temp, - rrd_value_t *pdp_new, + rrd_value_t *pdp_temp, + rrd_value_t *pdp_new, unsigned long *rra_step_cnt, - char **updvals, - long *tmpl_idx, - unsigned long tmpl_cnt, - info_t **pcdp_summary, - int version, + char **updvals, + long *tmpl_idx, + unsigned long tmpl_cnt, + info_t **pcdp_summary, + int version, unsigned long *skip_update, - int *schedule_smooth); + int *schedule_smooth); -static int parse_ds(rrd_t *rrd, char **updvals, long *tmpl_idx, char *input, - unsigned long tmpl_cnt, time_t *current_time, unsigned long *current_time_usec, +static int parse_ds( + rrd_t *rrd, + char **updvals, + long *tmpl_idx, + char *input, + unsigned long tmpl_cnt, + time_t *current_time, + unsigned long *current_time_usec, int version); -static int get_time_from_reading(rrd_t *rrd, char timesyntax, char **updvals, - time_t *current_time, unsigned long *current_time_usec, int version); +static int get_time_from_reading( + rrd_t *rrd, + char timesyntax, + char **updvals, + time_t *current_time, + unsigned long *current_time_usec, + int version); -static int update_pdp_prep(rrd_t *rrd, char **updvals, - rrd_value_t *pdp_new, double interval); +static int update_pdp_prep( + rrd_t *rrd, + char **updvals, + rrd_value_t *pdp_new, + double interval); -static int calculate_elapsed_steps(rrd_t *rrd, - unsigned long current_time, unsigned long current_time_usec, - double interval, double *pre_int, double *post_int, +static int calculate_elapsed_steps( + rrd_t *rrd, + unsigned long current_time, + unsigned long current_time_usec, + double interval, + double *pre_int, + double *post_int, unsigned long *proc_pdp_cnt); -static void simple_update(rrd_t *rrd, double interval, rrd_value_t *pdp_new); +static void simple_update( + rrd_t *rrd, + double interval, + rrd_value_t *pdp_new); -static int process_all_pdp_st(rrd_t *rrd, double interval, - double pre_int, double post_int, unsigned long elapsed_pdp_st, - rrd_value_t *pdp_new, rrd_value_t *pdp_temp); +static int process_all_pdp_st( + rrd_t *rrd, + double interval, + double pre_int, + double post_int, + unsigned long elapsed_pdp_st, + rrd_value_t *pdp_new, + rrd_value_t *pdp_temp); -static int process_pdp_st(rrd_t *rrd, unsigned long ds_idx, double interval, - double pre_int, double post_int, long diff_pdp_st, rrd_value_t *pdp_new, +static int process_pdp_st( + rrd_t *rrd, + unsigned long ds_idx, + double interval, + double pre_int, + double post_int, + long diff_pdp_st, + rrd_value_t *pdp_new, rrd_value_t *pdp_temp); static int update_all_cdp_prep( - rrd_t *rrd, unsigned long *rra_step_cnt, unsigned long rra_begin, - rrd_file_t *rrd_file, unsigned long elapsed_pdp_st, unsigned long proc_pdp_cnt, - rrd_value_t **last_seasonal_coef, rrd_value_t **seasonal_coef, - rrd_value_t *pdp_temp, unsigned long *rra_current, - unsigned long *skip_update, int *schedule_smooth); + rrd_t *rrd, + unsigned long *rra_step_cnt, + unsigned long rra_begin, + rrd_file_t *rrd_file, + unsigned long elapsed_pdp_st, + unsigned long proc_pdp_cnt, + rrd_value_t **last_seasonal_coef, + rrd_value_t **seasonal_coef, + rrd_value_t *pdp_temp, + unsigned long *rra_current, + unsigned long *skip_update, + int *schedule_smooth); -static int do_schedule_smooth(rrd_t *rrd, unsigned long rra_idx, +static int do_schedule_smooth( + rrd_t *rrd, + unsigned long rra_idx, unsigned long elapsed_pdp_st); -static int update_cdp_prep(rrd_t *rrd, unsigned long elapsed_pdp_st, - unsigned long start_pdp_offset, unsigned long *rra_step_cnt, - int rra_idx, rrd_value_t *pdp_temp, rrd_value_t *last_seasonal_coef, - rrd_value_t *seasonal_coef, int current_cf); +static int update_cdp_prep( + rrd_t *rrd, + unsigned long elapsed_pdp_st, + unsigned long start_pdp_offset, + unsigned long *rra_step_cnt, + int rra_idx, + rrd_value_t *pdp_temp, + rrd_value_t *last_seasonal_coef, + rrd_value_t *seasonal_coef, + int current_cf); -static void update_cdp(unival *scratch, int current_cf, - rrd_value_t pdp_temp_val, unsigned long rra_step_cnt, - unsigned long elapsed_pdp_st, unsigned long start_pdp_offset, - unsigned long pdp_cnt, rrd_value_t xff, int i, int ii); +static void update_cdp( + unival *scratch, + int current_cf, + rrd_value_t pdp_temp_val, + unsigned long rra_step_cnt, + unsigned long elapsed_pdp_st, + unsigned long start_pdp_offset, + unsigned long pdp_cnt, + rrd_value_t xff, + int i, + int ii); -static void initialize_cdp_val(unival *scratch, int current_cf, - rrd_value_t pdp_temp_val, unsigned long elapsed_pdp_st, - unsigned long start_pdp_offset, unsigned long pdp_cnt); +static void initialize_cdp_val( + unival *scratch, + int current_cf, + rrd_value_t pdp_temp_val, + unsigned long elapsed_pdp_st, + unsigned long start_pdp_offset, + unsigned long pdp_cnt); -static void reset_cdp(rrd_t *rrd, unsigned long elapsed_pdp_st, - rrd_value_t *pdp_temp, rrd_value_t *last_seasonal_coef, - rrd_value_t *seasonal_coef, - int rra_idx, int ds_idx, int cdp_idx, enum cf_en current_cf); +static void reset_cdp( + rrd_t *rrd, + unsigned long elapsed_pdp_st, + rrd_value_t *pdp_temp, + rrd_value_t *last_seasonal_coef, + rrd_value_t *seasonal_coef, + int rra_idx, + int ds_idx, + int cdp_idx, + enum cf_en current_cf); -static rrd_value_t initialize_average_carry_over(rrd_value_t pdp_temp_val, - unsigned long elapsed_pdp_st, unsigned long start_pdp_offset, +static rrd_value_t initialize_average_carry_over( + rrd_value_t pdp_temp_val, + unsigned long elapsed_pdp_st, + unsigned long start_pdp_offset, unsigned long pdp_cnt); static rrd_value_t calculate_cdp_val( - rrd_value_t cdp_val, rrd_value_t pdp_temp_val, - unsigned long elapsed_pdp_st, int current_cf, int i, int ii); + rrd_value_t cdp_val, + rrd_value_t pdp_temp_val, + unsigned long elapsed_pdp_st, + int current_cf, + int i, + int ii); -static int update_aberrant_cdps(rrd_t *rrd, rrd_file_t *rrd_file, - unsigned long rra_begin, unsigned long *rra_current, - unsigned long elapsed_pdp_st, rrd_value_t *pdp_temp, rrd_value_t **seasonal_coef); +static int update_aberrant_cdps( + rrd_t *rrd, + rrd_file_t *rrd_file, + unsigned long rra_begin, + unsigned long *rra_current, + unsigned long elapsed_pdp_st, + rrd_value_t *pdp_temp, + rrd_value_t **seasonal_coef); -static int write_to_rras(rrd_t *rrd, rrd_file_t *rrd_file, - unsigned long *rra_step_cnt, unsigned long rra_begin, - unsigned long *rra_current, time_t current_time, - unsigned long *skip_update, info_t **pcdp_summary); +static int write_to_rras( + rrd_t *rrd, + rrd_file_t *rrd_file, + unsigned long *rra_step_cnt, + unsigned long rra_begin, + unsigned long *rra_current, + time_t current_time, + unsigned long *skip_update, + info_t **pcdp_summary); -static int write_RRA_row(rrd_file_t *rrd_file, rrd_t *rrd, unsigned long rra_idx, - unsigned long *rra_current, unsigned short CDP_scratch_idx, info_t **pcdp_summary, +static int write_RRA_row( + rrd_file_t *rrd_file, + rrd_t *rrd, + unsigned long rra_idx, + unsigned long *rra_current, + unsigned short CDP_scratch_idx, + info_t **pcdp_summary, time_t rra_time); -static int smooth_all_rras(rrd_t *rrd, rrd_file_t *rrd_file, +static int smooth_all_rras( + rrd_t *rrd, + rrd_file_t *rrd_file, unsigned long rra_begin); #ifndef HAVE_MMAP -static int write_changes_to_disk(rrd_t *rrd, rrd_file_t *rrd_file, +static int write_changes_to_disk( + rrd_t *rrd, + rrd_file_t *rrd_file, int version); #endif @@ -200,8 +298,9 @@ static inline void normalize_time( * current_time_usec is set to 0 if the version number is 1 or 2. */ static inline void initialize_time( - time_t *current_time, unsigned long *current_time_usec, - int version) + time_t *current_time, + unsigned long *current_time_usec, + int version) { struct timeval tmp_time; /* used for time conversion */ @@ -309,7 +408,7 @@ int rrd_update( rc = rrd_update_r(argv[optind], tmplt, argc - optind - 1, (const char **) (argv + optind + 1)); -out: + out: free(tmplt); return rc; } @@ -331,33 +430,33 @@ int _rrd_update( info_t *pcdp_summary) { - int arg_i = 2; + int arg_i = 2; unsigned long rra_begin; /* byte pointer to the rra * area in the rrd file. this * pointer never changes value */ unsigned long rra_current; /* byte pointer to the current write * spot in the rrd file. */ - rrd_value_t *pdp_new; /* prepare the incoming data to be added - * to the existing entry */ - rrd_value_t *pdp_temp; /* prepare the pdp values to be added - * to the cdp values */ + rrd_value_t *pdp_new; /* prepare the incoming data to be added + * to the existing entry */ + rrd_value_t *pdp_temp; /* prepare the pdp values to be added + * to the cdp values */ - long *tmpl_idx; /* index representing the settings - * transported by the tmplt index */ + long *tmpl_idx; /* index representing the settings + * transported by the tmplt index */ unsigned long tmpl_cnt = 2; /* time and data */ - rrd_t rrd; - time_t current_time = 0; + rrd_t rrd; + time_t current_time = 0; unsigned long current_time_usec = 0; /* microseconds part of current time */ - char **updvals; - int schedule_smooth = 0; + char **updvals; + int schedule_smooth = 0; /* number of elapsed PDP steps since last update */ unsigned long *rra_step_cnt = NULL; - int version; /* rrd version */ - rrd_file_t *rrd_file; - char *arg_copy; /* for processing the argv */ + int version; /* rrd version */ + rrd_file_t *rrd_file; + char *arg_copy; /* for processing the argv */ unsigned long *skip_update; /* RRAs to advance but not write */ /* need at least 1 arguments: data. */ @@ -384,9 +483,10 @@ int _rrd_update( goto err_close; } - if (allocate_data_structures(&rrd, &updvals, - &pdp_temp, tmplt, &tmpl_idx, &tmpl_cnt, - &rra_step_cnt, &skip_update, &pdp_new) == -1) { + if (allocate_data_structures(&rrd, &updvals, + &pdp_temp, tmplt, &tmpl_idx, &tmpl_cnt, + &rra_step_cnt, &skip_update, + &pdp_new) == -1) { goto err_close; } @@ -396,10 +496,11 @@ int _rrd_update( rrd_set_error("failed duplication argv entry"); break; } - if (process_arg(arg_copy, &rrd, rrd_file, rra_begin, &rra_current, + if (process_arg(arg_copy, &rrd, rrd_file, rra_begin, &rra_current, ¤t_time, ¤t_time_usec, pdp_temp, pdp_new, - rra_step_cnt, updvals, tmpl_idx, tmpl_cnt, &pcdp_summary, - version, skip_update, &schedule_smooth) == -1) { + rra_step_cnt, updvals, tmpl_idx, tmpl_cnt, + &pcdp_summary, version, skip_update, + &schedule_smooth) == -1) { free(arg_copy); break; } @@ -413,7 +514,6 @@ int _rrd_update( if (rrd_test_error()) { goto err_free_structures; } - #ifndef HAVE_MMAP if (write_changes_to_disk(&rrd, rrd_file, version) == -1) { goto err_free_structures; @@ -497,39 +597,44 @@ int LockRRD( * Returns 0 on success, -1 on error. */ static int allocate_data_structures( - rrd_t *rrd, - char ***updvals, - rrd_value_t **pdp_temp, - const char *tmplt, - long **tmpl_idx, - unsigned long *tmpl_cnt, - unsigned long **rra_step_cnt, + rrd_t *rrd, + char ***updvals, + rrd_value_t **pdp_temp, + const char *tmplt, + long **tmpl_idx, + unsigned long *tmpl_cnt, + unsigned long **rra_step_cnt, unsigned long **skip_update, - rrd_value_t **pdp_new) + rrd_value_t **pdp_new) { - unsigned i, ii; - if ((*updvals = (char **)malloc(sizeof(char *) - * (rrd->stat_head->ds_cnt + 1))) == NULL) { + unsigned i, ii; + if ((*updvals = (char **) malloc(sizeof(char *) + * (rrd->stat_head->ds_cnt + 1))) == NULL) { rrd_set_error("allocating updvals pointer array."); return -1; } - if ((*pdp_temp = (rrd_value_t *)malloc(sizeof(rrd_value_t) - * rrd->stat_head->ds_cnt)) == NULL) { + if ((*pdp_temp = (rrd_value_t *) malloc(sizeof(rrd_value_t) + * rrd->stat_head->ds_cnt)) == + NULL) { rrd_set_error("allocating pdp_temp."); goto err_free_updvals; } - if ((*skip_update = (unsigned long *)malloc(sizeof(unsigned long) - * rrd->stat_head->rra_cnt)) == NULL) { + if ((*skip_update = (unsigned long *) malloc(sizeof(unsigned long) + * + rrd->stat_head->rra_cnt)) == + NULL) { rrd_set_error("allocating skip_update."); goto err_free_pdp_temp; } - if ((*tmpl_idx = (long *)malloc(sizeof(unsigned long) - * (rrd->stat_head->ds_cnt + 1))) == NULL) { + if ((*tmpl_idx = (long *) malloc(sizeof(unsigned long) + * (rrd->stat_head->ds_cnt + 1))) == NULL) { rrd_set_error("allocating tmpl_idx."); goto err_free_skip_update; } - if ((*rra_step_cnt = (unsigned long *)malloc(sizeof(unsigned long) - * (rrd->stat_head->rra_cnt))) == NULL) { + if ((*rra_step_cnt = (unsigned long *) malloc(sizeof(unsigned long) + * + (rrd->stat_head-> + rra_cnt))) == NULL) { rrd_set_error("allocating rra_step_cnt."); goto err_free_tmpl_idx; } @@ -540,9 +645,9 @@ static int allocate_data_structures( tmpl_idx[1] -> 1; (DS 0) tmpl_idx[2] -> 3; (DS 2) tmpl_idx[3] -> 4; (DS 3) */ - (*tmpl_idx)[0] = 0; /* time */ + (*tmpl_idx)[0] = 0; /* time */ for (i = 1, ii = 1; i <= rrd->stat_head->ds_cnt; i++) { - if (dst_conv(rrd->ds_def[i-1].dst) != DST_CDEF) + if (dst_conv(rrd->ds_def[i - 1].dst) != DST_CDEF) (*tmpl_idx)[ii++] = i; } *tmpl_cnt = ii; @@ -553,23 +658,23 @@ static int allocate_data_structures( } } - if ((*pdp_new = (rrd_value_t *)malloc(sizeof(rrd_value_t) - * rrd->stat_head->ds_cnt)) == NULL) { + if ((*pdp_new = (rrd_value_t *) malloc(sizeof(rrd_value_t) + * rrd->stat_head->ds_cnt)) == NULL) { rrd_set_error("allocating pdp_new."); goto err_free_rra_step_cnt; } return 0; -err_free_rra_step_cnt: + err_free_rra_step_cnt: free(*rra_step_cnt); -err_free_tmpl_idx: + err_free_tmpl_idx: free(*tmpl_idx); -err_free_skip_update: + err_free_skip_update: free(*skip_update); -err_free_pdp_temp: + err_free_pdp_temp: free(*pdp_temp); -err_free_updvals: + err_free_updvals: free(*updvals); return -1; } @@ -580,20 +685,22 @@ err_free_updvals: * Returns 0 on success. */ static int parse_template( - rrd_t *rrd, const char *tmplt, - unsigned long *tmpl_cnt, long *tmpl_idx) + rrd_t *rrd, + const char *tmplt, + unsigned long *tmpl_cnt, + long *tmpl_idx) { - char *dsname, *tmplt_copy; - unsigned int tmpl_len, i; - int ret = 0; + char *dsname, *tmplt_copy; + unsigned int tmpl_len, i; + int ret = 0; - *tmpl_cnt = 1; /* the first entry is the time */ + *tmpl_cnt = 1; /* the first entry is the time */ /* we should work on a writeable copy here */ if ((tmplt_copy = strdup(tmplt)) == NULL) { rrd_set_error("error copying tmplt '%s'", tmplt); ret = -1; - goto out; + goto out; } dsname = tmplt_copy; @@ -606,19 +713,19 @@ static int parse_template( ret = -1; goto out_free_tmpl_copy; } - if ((tmpl_idx[(*tmpl_cnt)++] = ds_match(rrd, dsname)+1) == 0) { + if ((tmpl_idx[(*tmpl_cnt)++] = ds_match(rrd, dsname) + 1) == 0) { rrd_set_error("unknown DS name '%s'", dsname); ret = -1; goto out_free_tmpl_copy; - } + } /* go to the next entry on the tmplt_copy */ if (i < tmpl_len) - dsname = &tmplt_copy[i+1]; + dsname = &tmplt_copy[i + 1]; } } -out_free_tmpl_copy: + out_free_tmpl_copy: free(tmplt_copy); -out: + out: return ret; } @@ -629,23 +736,23 @@ out: * Returns 0 on success, -1 on error. */ static int process_arg( - char *step_start, - rrd_t *rrd, - rrd_file_t *rrd_file, - unsigned long rra_begin, + char *step_start, + rrd_t *rrd, + rrd_file_t *rrd_file, + unsigned long rra_begin, unsigned long *rra_current, - time_t *current_time, + time_t *current_time, unsigned long *current_time_usec, - rrd_value_t *pdp_temp, - rrd_value_t *pdp_new, + rrd_value_t *pdp_temp, + rrd_value_t *pdp_new, unsigned long *rra_step_cnt, - char **updvals, - long *tmpl_idx, - unsigned long tmpl_cnt, - info_t **pcdp_summary, - int version, + char **updvals, + long *tmpl_idx, + unsigned long tmpl_cnt, + info_t **pcdp_summary, + int version, unsigned long *skip_update, - int *schedule_smooth) + int *schedule_smooth) { rrd_value_t *seasonal_coef = NULL, *last_seasonal_coef = NULL; @@ -657,8 +764,8 @@ static int process_arg( unsigned long proc_pdp_cnt; unsigned long rra_start; - if (parse_ds(rrd, updvals, tmpl_idx, step_start, tmpl_cnt, - current_time, current_time_usec, version) == -1) { + if (parse_ds(rrd, updvals, tmpl_idx, step_start, tmpl_cnt, + current_time, current_time_usec, version) == -1) { return -1; } /* seek to the beginning of the rra's */ @@ -674,8 +781,8 @@ static int process_arg( rra_start = rra_begin; interval = (double) (*current_time - rrd->live_head->last_up) - + (double) ((long) *current_time_usec - - (long) rrd->live_head->last_up_usec) / 1e6f; + + (double) ((long) *current_time_usec - + (long) rrd->live_head->last_up_usec) / 1e6f; /* process the data sources and update the pdp_prep * area accordingly */ @@ -683,10 +790,11 @@ static int process_arg( return -1; } - elapsed_pdp_st = calculate_elapsed_steps(rrd, - *current_time, *current_time_usec, - interval, &pre_int, &post_int, - &proc_pdp_cnt); + elapsed_pdp_st = calculate_elapsed_steps(rrd, + *current_time, + *current_time_usec, interval, + &pre_int, &post_int, + &proc_pdp_cnt); /* has a pdp_st moment occurred since the last run ? */ if (elapsed_pdp_st == 0) { @@ -694,35 +802,32 @@ static int process_arg( simple_update(rrd, interval, pdp_new); } else { /* an pdp_st has occurred. */ - if (process_all_pdp_st(rrd, interval, + if (process_all_pdp_st(rrd, interval, pre_int, post_int, - elapsed_pdp_st, - pdp_new, pdp_temp) == -1) - { + elapsed_pdp_st, pdp_new, pdp_temp) == -1) { return -1; } - if (update_all_cdp_prep(rrd, rra_step_cnt, + if (update_all_cdp_prep(rrd, rra_step_cnt, rra_begin, rrd_file, elapsed_pdp_st, proc_pdp_cnt, &last_seasonal_coef, &seasonal_coef, pdp_temp, rra_current, - skip_update, schedule_smooth) == -1) - { + skip_update, schedule_smooth) == -1) { goto err_free_coefficients; } - if (update_aberrant_cdps(rrd, rrd_file, rra_begin, rra_current, - elapsed_pdp_st, pdp_temp, &seasonal_coef) == -1) - { + if (update_aberrant_cdps(rrd, rrd_file, rra_begin, rra_current, + elapsed_pdp_st, pdp_temp, + &seasonal_coef) == -1) { goto err_free_coefficients; } - if (write_to_rras(rrd, rrd_file, rra_step_cnt, rra_begin, - rra_current, *current_time, skip_update, pcdp_summary) == -1) - { + if (write_to_rras(rrd, rrd_file, rra_step_cnt, rra_begin, + rra_current, *current_time, skip_update, + pcdp_summary) == -1) { goto err_free_coefficients; } - } /* endif a pdp_st has occurred */ + } /* endif a pdp_st has occurred */ rrd->live_head->last_up = *current_time; rrd->live_head->last_up_usec = *current_time_usec; @@ -730,7 +835,7 @@ static int process_arg( free(last_seasonal_coef); return 0; -err_free_coefficients: + err_free_coefficients: free(seasonal_coef); free(last_seasonal_coef); return -1; @@ -743,13 +848,18 @@ err_free_coefficients: * Returns 0 on success, -1 on error. */ static int parse_ds( - rrd_t *rrd, char **updvals, long *tmpl_idx, char *input, - unsigned long tmpl_cnt, time_t *current_time, - unsigned long *current_time_usec, int version) + rrd_t *rrd, + char **updvals, + long *tmpl_idx, + char *input, + unsigned long tmpl_cnt, + time_t *current_time, + unsigned long *current_time_usec, + int version) { - char *p; + char *p; unsigned long i; - char timesyntax; + char timesyntax; updvals[0] = input; /* initialize all ds input to unknown except the first one @@ -765,30 +875,30 @@ static int parse_ds( timesyntax = ':'; } else { rrd_set_error("expected timestamp not found in data source from %s", - input); + input); return -1; } *p = '\0'; i = 1; - updvals[tmpl_idx[i++]] = p+1; + updvals[tmpl_idx[i++]] = p + 1; while (*(++p)) { if (*p == ':') { *p = '\0'; if (i < tmpl_cnt) { - updvals[tmpl_idx[i++]] = p+1; + updvals[tmpl_idx[i++]] = p + 1; } } } if (i != tmpl_cnt) { rrd_set_error("expected %lu data source readings (got %lu) from %s", - tmpl_cnt - 1, i, input); + tmpl_cnt - 1, i, input); return -1; } - if (get_time_from_reading(rrd, timesyntax, updvals, - current_time, current_time_usec, - version) == -1) { + if (get_time_from_reading(rrd, timesyntax, updvals, + current_time, current_time_usec, + version) == -1) { return -1; } return 0; @@ -802,8 +912,11 @@ static int parse_ds( * Returns 0 on success, -1 on error. */ static int get_time_from_reading( - rrd_t *rrd, char timesyntax, char **updvals, - time_t *current_time, unsigned long *current_time_usec, + rrd_t *rrd, + char timesyntax, + char **updvals, + time_t *current_time, + unsigned long *current_time_usec, int version) { double tmp; @@ -813,19 +926,19 @@ static int get_time_from_reading( struct timeval tmp_time; /* used for time conversion */ /* get the time from the reading ... handle N */ - if (timesyntax == '@') { /* at-style */ + if (timesyntax == '@') { /* at-style */ if ((parsetime_error = parsetime(updvals[0], &ds_tv))) { rrd_set_error("ds time: %s: %s", updvals[0], parsetime_error); return -1; } if (ds_tv.type == RELATIVE_TO_END_TIME || - ds_tv.type == RELATIVE_TO_START_TIME) { + ds_tv.type == RELATIVE_TO_START_TIME) { rrd_set_error("specifying time relative to the 'start' " - "or 'end' makes no sense here: %s", updvals[0]); + "or 'end' makes no sense here: %s", updvals[0]); return -1; } - *current_time = mktime(&ds_tv.tm) + ds_tv.offset; - *current_time_usec = 0; /* FIXME: how to handle usecs here ? */ + *current_time = mktime(&ds_tv.tm) +ds_tv.offset; + *current_time_usec = 0; /* FIXME: how to handle usecs here ? */ } else if (strcmp(updvals[0], "N") == 0) { gettimeofday(&tmp_time, 0); normalize_time(&tmp_time); @@ -843,12 +956,11 @@ static int get_time_from_reading( *current_time_usec = 0; if (*current_time < rrd->live_head->last_up || - (*current_time == rrd->live_head->last_up && - (long) *current_time_usec <= - (long) rrd->live_head->last_up_usec)) { + (*current_time == rrd->live_head->last_up && + (long) *current_time_usec <= (long) rrd->live_head->last_up_usec)) { rrd_set_error("illegal attempt to update using time %ld when " - "last update time is %ld (minimum one second step)", - *current_time, rrd->live_head->last_up); + "last update time is %ld (minimum one second step)", + *current_time, rrd->live_head->last_up); return -1; } return 0; @@ -861,13 +973,15 @@ static int get_time_from_reading( * Returns 0 on success, -1 on error. */ static int update_pdp_prep( - rrd_t *rrd, char **updvals, - rrd_value_t *pdp_new, double interval) + rrd_t *rrd, + char **updvals, + rrd_value_t *pdp_new, + double interval) { - unsigned long ds_idx; - int ii; + unsigned long ds_idx; + int ii; char *endptr; /* used in the conversion */ - double rate; + double rate; char *old_locale; enum dst_en dst_idx; @@ -885,79 +999,86 @@ static int update_pdp_prep( * accidently specified a value for the DST_CDEF. To handle this case, * an extra check is required. */ - if ((updvals[ds_idx+1][0] != 'U') && - (dst_idx != DST_CDEF) && - rrd->ds_def[ds_idx].par[DS_mrhb_cnt].u_cnt >= interval) { + if ((updvals[ds_idx + 1][0] != 'U') && + (dst_idx != DST_CDEF) && + rrd->ds_def[ds_idx].par[DS_mrhb_cnt].u_cnt >= interval) { rate = DNAN; /* pdp_new contains rate * time ... eg the bytes transferred during * the interval. Doing it this way saves a lot of math operations */ switch (dst_idx) { - case DST_COUNTER: - case DST_DERIVE: - for (ii = 0; updvals[ds_idx + 1][ii] != '\0'; ii++) { - if ((updvals[ds_idx + 1][ii] < '0' || updvals[ds_idx + 1][ii] > '9') - && (ii != 0 && updvals[ds_idx + 1][ii] != '-')) { - rrd_set_error("not a simple integer: '%s'", updvals[ds_idx + 1]); - return -1; - } - } - if (rrd->pdp_prep[ds_idx].last_ds[0] != 'U') { - pdp_new[ds_idx] = rrd_diff(updvals[ds_idx+1], rrd->pdp_prep[ds_idx].last_ds); - if (dst_idx == DST_COUNTER) { - /* simple overflow catcher. This will fail - * terribly for non 32 or 64 bit counters - * ... are there any others in SNMP land? - */ - if (pdp_new[ds_idx] < (double) 0.0) - pdp_new[ds_idx] += (double) 4294967296.0; /* 2^32 */ - if (pdp_new[ds_idx] < (double) 0.0) - pdp_new[ds_idx] += (double) 18446744069414584320.0; /* 2^64-2^32 */ - } - rate = pdp_new[ds_idx] / interval; - } else { - pdp_new[ds_idx] = DNAN; - } - break; - case DST_ABSOLUTE: - old_locale = setlocale(LC_NUMERIC, "C"); - errno = 0; - pdp_new[ds_idx] = strtod(updvals[ds_idx + 1], &endptr); - setlocale(LC_NUMERIC, old_locale); - if (errno > 0) { - rrd_set_error("converting '%s' to float: %s", - updvals[ds_idx + 1], rrd_strerror(errno)); - return -1; - }; - if (endptr[0] != '\0') { - rrd_set_error("conversion of '%s' to float not complete: tail '%s'", - updvals[ds_idx + 1], endptr); - return -1; - } - rate = pdp_new[ds_idx] / interval; - break; - case DST_GAUGE: - errno = 0; - old_locale = setlocale(LC_NUMERIC, "C"); - pdp_new[ds_idx] = strtod(updvals[ds_idx + 1], &endptr) * interval; - setlocale(LC_NUMERIC, old_locale); - if (errno) { - rrd_set_error("converting '%s' to float: %s", - updvals[ds_idx + 1], rrd_strerror(errno)); - return -1; - }; - if (endptr[0] != '\0') { - rrd_set_error("conversion of '%s' to float not complete: tail '%s'", - updvals[ds_idx + 1], endptr); - return -1; - } - rate = pdp_new[ds_idx] / interval; - break; - default: - rrd_set_error("rrd contains unknown DS type : '%s'", - rrd->ds_def[ds_idx].dst); - return -1; + case DST_COUNTER: + case DST_DERIVE: + for (ii = 0; updvals[ds_idx + 1][ii] != '\0'; ii++) { + if ((updvals[ds_idx + 1][ii] < '0' + || updvals[ds_idx + 1][ii] > '9') + && (ii != 0 && updvals[ds_idx + 1][ii] != '-')) { + rrd_set_error("not a simple integer: '%s'", + updvals[ds_idx + 1]); + return -1; + } + } + if (rrd->pdp_prep[ds_idx].last_ds[0] != 'U') { + pdp_new[ds_idx] = + rrd_diff(updvals[ds_idx + 1], + rrd->pdp_prep[ds_idx].last_ds); + if (dst_idx == DST_COUNTER) { + /* simple overflow catcher. This will fail + * terribly for non 32 or 64 bit counters + * ... are there any others in SNMP land? + */ + if (pdp_new[ds_idx] < (double) 0.0) + pdp_new[ds_idx] += (double) 4294967296.0; /* 2^32 */ + if (pdp_new[ds_idx] < (double) 0.0) + pdp_new[ds_idx] += (double) 18446744069414584320.0; /* 2^64-2^32 */ + } + rate = pdp_new[ds_idx] / interval; + } else { + pdp_new[ds_idx] = DNAN; + } + break; + case DST_ABSOLUTE: + old_locale = setlocale(LC_NUMERIC, "C"); + errno = 0; + pdp_new[ds_idx] = strtod(updvals[ds_idx + 1], &endptr); + setlocale(LC_NUMERIC, old_locale); + if (errno > 0) { + rrd_set_error("converting '%s' to float: %s", + updvals[ds_idx + 1], rrd_strerror(errno)); + return -1; + }; + if (endptr[0] != '\0') { + rrd_set_error + ("conversion of '%s' to float not complete: tail '%s'", + updvals[ds_idx + 1], endptr); + return -1; + } + rate = pdp_new[ds_idx] / interval; + break; + case DST_GAUGE: + errno = 0; + old_locale = setlocale(LC_NUMERIC, "C"); + pdp_new[ds_idx] = + strtod(updvals[ds_idx + 1], &endptr) * interval; + setlocale(LC_NUMERIC, old_locale); + if (errno) { + rrd_set_error("converting '%s' to float: %s", + updvals[ds_idx + 1], rrd_strerror(errno)); + return -1; + }; + if (endptr[0] != '\0') { + rrd_set_error + ("conversion of '%s' to float not complete: tail '%s'", + updvals[ds_idx + 1], endptr); + return -1; + } + rate = pdp_new[ds_idx] / interval; + break; + default: + rrd_set_error("rrd contains unknown DS type : '%s'", + rrd->ds_def[ds_idx].dst); + return -1; } /* break out of this for loop if the error string is set */ if (rrd_test_error()) { @@ -967,10 +1088,10 @@ static int update_pdp_prep( * if any of these occur it becomes unknown ... * sorry folks ... */ if (!isnan(rate) && - ((!isnan(rrd->ds_def[ds_idx].par[DS_max_val].u_val) && - rate > rrd->ds_def[ds_idx].par[DS_max_val].u_val) || - (!isnan(rrd->ds_def[ds_idx].par[DS_min_val].u_val) && - rate < rrd->ds_def[ds_idx].par[DS_min_val].u_val))) { + ((!isnan(rrd->ds_def[ds_idx].par[DS_max_val].u_val) && + rate > rrd->ds_def[ds_idx].par[DS_max_val].u_val) || + (!isnan(rrd->ds_def[ds_idx].par[DS_min_val].u_val) && + rate < rrd->ds_def[ds_idx].par[DS_min_val].u_val))) { pdp_new[ds_idx] = DNAN; } } else { @@ -982,13 +1103,15 @@ static int update_pdp_prep( /* make a copy of the command line argument for the next run */ #ifdef DEBUG fprintf(stderr, "prep ds[%lu]\t" - "last_arg '%s'\t" - "this_arg '%s'\t" - "pdp_new %10.2f\n", - ds_idx, rrd->pdp_prep[ds_idx].last_ds, updvals[ds_idx+1], pdp_new[ds_idx]); + "last_arg '%s'\t" + "this_arg '%s'\t" + "pdp_new %10.2f\n", + ds_idx, rrd->pdp_prep[ds_idx].last_ds, updvals[ds_idx + 1], + pdp_new[ds_idx]); #endif - strncpy(rrd->pdp_prep[ds_idx].last_ds, updvals[ds_idx+1], LAST_DS_LEN - 1); - rrd->pdp_prep[ds_idx].last_ds[LAST_DS_LEN-1] = '\0'; + strncpy(rrd->pdp_prep[ds_idx].last_ds, updvals[ds_idx + 1], + LAST_DS_LEN - 1); + rrd->pdp_prep[ds_idx].last_ds[LAST_DS_LEN - 1] = '\0'; } return 0; } @@ -999,13 +1122,13 @@ static int update_pdp_prep( * and the time between the last PDP and the current time in post_int. */ static int calculate_elapsed_steps( - rrd_t *rrd, - unsigned long current_time, + rrd_t *rrd, + unsigned long current_time, unsigned long current_time_usec, double interval, double *pre_int, double *post_int, - unsigned long *proc_pdp_cnt) + unsigned long *proc_pdp_cnt) { unsigned long proc_pdp_st; /* which pdp_st was the last to be processed */ unsigned long occu_pdp_st; /* when was the pdp_st before the last update @@ -1024,11 +1147,11 @@ static int calculate_elapsed_steps( if (occu_pdp_st > proc_pdp_st) { /* OK we passed the pdp_st moment */ - *pre_int = (long) occu_pdp_st - rrd->live_head->last_up; /* how much of the input data - * occurred before the latest - * pdp_st moment*/ - *pre_int -= ((double) rrd->live_head->last_up_usec) / 1e6f; /* adjust usecs */ - *post_int = occu_pdp_age; /* how much after it */ + *pre_int = (long) occu_pdp_st - rrd->live_head->last_up; /* how much of the input data + * occurred before the latest + * pdp_st moment*/ + *pre_int -= ((double) rrd->live_head->last_up_usec) / 1e6f; /* adjust usecs */ + *post_int = occu_pdp_age; /* how much after it */ *post_int += ((double) current_time_usec) / 1e6f; /* adjust usecs */ } else { *pre_int = interval; @@ -1039,13 +1162,13 @@ static int calculate_elapsed_steps( #ifdef DEBUG printf("proc_pdp_age %lu\t" - "proc_pdp_st %lu\t" - "occu_pfp_age %lu\t" - "occu_pdp_st %lu\t" - "int %lf\t" - "pre_int %lf\t" - "post_int %lf\n", proc_pdp_age, proc_pdp_st, - occu_pdp_age, occu_pdp_st, interval, *pre_int, *post_int); + "proc_pdp_st %lu\t" + "occu_pfp_age %lu\t" + "occu_pdp_st %lu\t" + "int %lf\t" + "pre_int %lf\t" + "post_int %lf\n", proc_pdp_age, proc_pdp_st, + occu_pdp_age, occu_pdp_st, interval, *pre_int, *post_int); #endif /* compute the number of elapsed pdp_st moments */ @@ -1056,15 +1179,19 @@ static int calculate_elapsed_steps( * Increment the PDP values by the values in pdp_new, or else initialize them. */ static void simple_update( - rrd_t *rrd, double interval, rrd_value_t *pdp_new) + rrd_t *rrd, + double interval, + rrd_value_t *pdp_new) { - int i; - for (i = 0; i < (signed)rrd->stat_head->ds_cnt; i++) { + int i; + + for (i = 0; i < (signed) rrd->stat_head->ds_cnt; i++) { if (isnan(pdp_new[i])) { /* this is not really accurate if we use subsecond data arrival time should have thought of it when going subsecond resolution ... sorry next format change we will have it! */ - rrd->pdp_prep[i].scratch[PDP_unkn_sec_cnt].u_cnt += floor(interval); + rrd->pdp_prep[i].scratch[PDP_unkn_sec_cnt].u_cnt += + floor(interval); } else { if (isnan(rrd->pdp_prep[i].scratch[PDP_val].u_val)) { rrd->pdp_prep[i].scratch[PDP_val].u_val = pdp_new[i]; @@ -1074,12 +1201,12 @@ static void simple_update( } #ifdef DEBUG fprintf(stderr, - "NO PDP ds[%i]\t" - "value %10.2f\t" - "unkn_sec %5lu\n", - i, - rrd->pdp_prep[i].scratch[PDP_val].u_val, - rrd->pdp_prep[i].scratch[PDP_unkn_sec_cnt].u_cnt); + "NO PDP ds[%i]\t" + "value %10.2f\t" + "unkn_sec %5lu\n", + i, + rrd->pdp_prep[i].scratch[PDP_val].u_val, + rrd->pdp_prep[i].scratch[PDP_unkn_sec_cnt].u_cnt); #endif } } @@ -1090,10 +1217,16 @@ static void simple_update( * Returns 0 on success, -1 on error. */ static int process_all_pdp_st( - rrd_t *rrd, double interval, double pre_int, double post_int, - unsigned long elapsed_pdp_st, rrd_value_t *pdp_new, rrd_value_t *pdp_temp) + rrd_t *rrd, + double interval, + double pre_int, + double post_int, + unsigned long elapsed_pdp_st, + rrd_value_t *pdp_new, + rrd_value_t *pdp_temp) { unsigned long ds_idx; + /* in pdp_prep[].scratch[PDP_val].u_val we have collected rate*seconds which occurred up to the last run. pdp_new[] contains rate*seconds from the latest run. @@ -1101,18 +1234,18 @@ static int process_all_pdp_st( for (ds_idx = 0; ds_idx < rrd->stat_head->ds_cnt; ds_idx++) { if (process_pdp_st(rrd, ds_idx, interval, pre_int, post_int, - elapsed_pdp_st * rrd->stat_head->pdp_step, - pdp_new, pdp_temp) == -1) { + elapsed_pdp_st * rrd->stat_head->pdp_step, + pdp_new, pdp_temp) == -1) { return -1; } #ifdef DEBUG fprintf(stderr, "PDP UPD ds[%lu]\t" - "pdp_temp %10.2f\t" - "new_prep %10.2f\t" - "new_unkn_sec %5lu\n", - ds_idx, pdp_temp[ds_idx], - rrd->pdp_prep[ds_idx].scratch[PDP_val].u_val, - rrd->pdp_prep[ds_idx].scratch[PDP_unkn_sec_cnt].u_cnt); + "pdp_temp %10.2f\t" + "new_prep %10.2f\t" + "new_unkn_sec %5lu\n", + ds_idx, pdp_temp[ds_idx], + rrd->pdp_prep[ds_idx].scratch[PDP_val].u_val, + rrd->pdp_prep[ds_idx].scratch[PDP_unkn_sec_cnt].u_cnt); #endif } return 0; @@ -1125,17 +1258,25 @@ static int process_all_pdp_st( * * Returns 0 on success, -1 on error. */ -static int process_pdp_st(rrd_t *rrd, unsigned long ds_idx, double interval, - double pre_int, double post_int, long diff_pdp_st, - rrd_value_t *pdp_new, rrd_value_t *pdp_temp) +static int process_pdp_st( + rrd_t *rrd, + unsigned long ds_idx, + double interval, + double pre_int, + double post_int, + long diff_pdp_st, + rrd_value_t *pdp_new, + rrd_value_t *pdp_temp) { - int i; + int i; + /* update pdp_prep to the current pdp_st. */ double pre_unknown = 0.0; - unival *scratch = rrd->pdp_prep[ds_idx].scratch; + unival *scratch = rrd->pdp_prep[ds_idx].scratch; unsigned long mrhb = rrd->ds_def[ds_idx].par[DS_mrhb_cnt].u_cnt; - rpnstack_t rpnstack; /* used for COMPUTE DS */ + rpnstack_t rpnstack; /* used for COMPUTE DS */ + rpnstack_init(&rpnstack); @@ -1147,18 +1288,19 @@ static int process_pdp_st(rrd_t *rrd, unsigned long ds_idx, double interval, } else { if (isnan(scratch[PDP_val].u_val)) { scratch[PDP_val].u_val = 0; - } + } scratch[PDP_val].u_val += pdp_new[ds_idx] / interval * pre_int; } /* if too much of the pdp_prep is unknown we dump it */ /* if the interval is larger thatn mrhb we get NAN */ if ((interval > mrhb) || - (diff_pdp_st <= (signed)scratch[PDP_unkn_sec_cnt].u_cnt)) { + (diff_pdp_st <= (signed) scratch[PDP_unkn_sec_cnt].u_cnt)) { pdp_temp[ds_idx] = DNAN; } else { - pdp_temp[ds_idx] = scratch[PDP_val].u_val / - ((double) (diff_pdp_st - scratch[PDP_unkn_sec_cnt].u_cnt) - pre_unknown); + pdp_temp[ds_idx] = scratch[PDP_val].u_val / + ((double) (diff_pdp_st - scratch[PDP_unkn_sec_cnt].u_cnt) - + pre_unknown); } /* process CDEF data sources; remember each CDEF DS can @@ -1166,7 +1308,8 @@ static int process_pdp_st(rrd_t *rrd, unsigned long ds_idx, double interval, if (dst_conv(rrd->ds_def[ds_idx].dst) == DST_CDEF) { rpnp_t *rpnp; - rpnp = rpn_expand((rpn_cdefds_t *)&(rrd->ds_def[ds_idx].par[DS_cdef])); + rpnp = + rpn_expand((rpn_cdefds_t *) &(rrd->ds_def[ds_idx].par[DS_cdef])); /* substitute data values for OP_VARIABLE nodes */ for (i = 0; rpnp[i].op != OP_END; i++) { if (rpnp[i].op == OP_VARIABLE) { @@ -1206,27 +1349,38 @@ static int process_pdp_st(rrd_t *rrd, unsigned long ds_idx, double interval, * Returns 0 on success, -1 on error */ static int update_all_cdp_prep( - rrd_t *rrd, unsigned long *rra_step_cnt, unsigned long rra_begin, - rrd_file_t *rrd_file, unsigned long elapsed_pdp_st, unsigned long proc_pdp_cnt, - rrd_value_t **last_seasonal_coef, rrd_value_t **seasonal_coef, - rrd_value_t *pdp_temp, unsigned long *rra_current, - unsigned long *skip_update, int *schedule_smooth) + rrd_t *rrd, + unsigned long *rra_step_cnt, + unsigned long rra_begin, + rrd_file_t *rrd_file, + unsigned long elapsed_pdp_st, + unsigned long proc_pdp_cnt, + rrd_value_t **last_seasonal_coef, + rrd_value_t **seasonal_coef, + rrd_value_t *pdp_temp, + unsigned long *rra_current, + unsigned long *skip_update, + int *schedule_smooth) { unsigned long rra_idx; + /* index into the CDP scratch array */ enum cf_en current_cf; unsigned long rra_start; + /* number of rows to be updated in an RRA for a data value. */ unsigned long start_pdp_offset; rra_start = rra_begin; for (rra_idx = 0; rra_idx < rrd->stat_head->rra_cnt; rra_idx++) { current_cf = cf_conv(rrd->rra_def[rra_idx].cf_nam); - start_pdp_offset = rrd->rra_def[rra_idx].pdp_cnt - proc_pdp_cnt % rrd->rra_def[rra_idx].pdp_cnt; + start_pdp_offset = + rrd->rra_def[rra_idx].pdp_cnt - + proc_pdp_cnt % rrd->rra_def[rra_idx].pdp_cnt; skip_update[rra_idx] = 0; if (start_pdp_offset <= elapsed_pdp_st) { rra_step_cnt[rra_idx] = (elapsed_pdp_st - start_pdp_offset) / - rrd->rra_def[rra_idx].pdp_cnt + 1; + rrd->rra_def[rra_idx].pdp_cnt + 1; } else { rra_step_cnt[rra_idx] = 0; } @@ -1246,9 +1400,11 @@ static int update_all_cdp_prep( /* periodically run a smoother for seasonal effects */ if (do_schedule_smooth(rrd, rra_idx, elapsed_pdp_st)) { #ifdef DEBUG - fprintf(stderr, "schedule_smooth: cur_row %lu, elapsed_pdp_st %lu, smooth idx %lu\n", - rrd->rra_ptr[rra_idx].cur_row, elapsed_pdp_st, - rrd->rra_def[rra_idx].par[RRA_seasonal_smooth_idx].u_cnt); + fprintf(stderr, + "schedule_smooth: cur_row %lu, elapsed_pdp_st %lu, smooth idx %lu\n", + rrd->rra_ptr[rra_idx].cur_row, elapsed_pdp_st, + rrd->rra_def[rra_idx].par[RRA_seasonal_smooth_idx]. + u_cnt); #endif *schedule_smooth = 1; } @@ -1257,12 +1413,15 @@ static int update_all_cdp_prep( if (rrd_test_error()) return -1; - if (update_cdp_prep(rrd, elapsed_pdp_st, start_pdp_offset, rra_step_cnt, - rra_idx, pdp_temp, *last_seasonal_coef, *seasonal_coef, - current_cf) == -1) { + if (update_cdp_prep + (rrd, elapsed_pdp_st, start_pdp_offset, rra_step_cnt, rra_idx, + pdp_temp, *last_seasonal_coef, *seasonal_coef, + current_cf) == -1) { return -1; } - rra_start += rrd->rra_def[rra_idx].row_cnt * rrd->stat_head->ds_cnt * sizeof(rrd_value_t); + rra_start += + rrd->rra_def[rra_idx].row_cnt * rrd->stat_head->ds_cnt * + sizeof(rrd_value_t); } return 0; } @@ -1271,14 +1430,17 @@ static int update_all_cdp_prep( * Are we due for a smooth? Also increments our position in the burn-in cycle. */ static int do_schedule_smooth( - rrd_t *rrd, unsigned long rra_idx, + rrd_t *rrd, + unsigned long rra_idx, unsigned long elapsed_pdp_st) { unsigned long cdp_idx = rra_idx * (rrd->stat_head->ds_cnt); unsigned long cur_row = rrd->rra_ptr[rra_idx].cur_row; unsigned long row_cnt = rrd->rra_def[rra_idx].row_cnt; - unsigned long seasonal_smooth_idx = rrd->rra_def[rra_idx].par[RRA_seasonal_smooth_idx].u_cnt; - unsigned long *init_seasonal = &(rrd->cdp_prep[cdp_idx].scratch[CDP_init_seasonal].u_cnt); + unsigned long seasonal_smooth_idx = + rrd->rra_def[rra_idx].par[RRA_seasonal_smooth_idx].u_cnt; + unsigned long *init_seasonal = + &(rrd->cdp_prep[cdp_idx].scratch[CDP_init_seasonal].u_cnt); /* Need to use first cdp parameter buffer to track burnin (burnin requires * a specific smoothing schedule). The CDP_init_seasonal parameter is @@ -1291,12 +1453,12 @@ static int do_schedule_smooth( /* here elapsed_pdp_st = rra_step_cnt[rra_idx] because of 1-1 mapping * between PDP and CDP */ return (cur_row + elapsed_pdp_st >= seasonal_smooth_idx); - } + } /* can't rely on negative numbers because we are working with * unsigned values */ return (cur_row + elapsed_pdp_st >= row_cnt - && cur_row + elapsed_pdp_st >= row_cnt + seasonal_smooth_idx); - } + && cur_row + elapsed_pdp_st >= row_cnt + seasonal_smooth_idx); + } /* mark off one of the burn-in cycles */ return (cur_row + elapsed_pdp_st >= row_cnt && ++(*init_seasonal)); } @@ -1308,17 +1470,18 @@ static int do_schedule_smooth( * Returns 0 on success, -1 on error. */ static int update_cdp_prep( - rrd_t *rrd, - unsigned long elapsed_pdp_st, - unsigned long start_pdp_offset, - unsigned long *rra_step_cnt, - int rra_idx, - rrd_value_t *pdp_temp, - rrd_value_t *last_seasonal_coef, - rrd_value_t *seasonal_coef, - int current_cf) + rrd_t *rrd, + unsigned long elapsed_pdp_st, + unsigned long start_pdp_offset, + unsigned long *rra_step_cnt, + int rra_idx, + rrd_value_t *pdp_temp, + rrd_value_t *last_seasonal_coef, + rrd_value_t *seasonal_coef, + int current_cf) { unsigned long ds_idx, cdp_idx; + /* update CDP_PREP areas */ /* loop over data soures within each RRA */ for (ds_idx = 0; ds_idx < rrd->stat_head->ds_cnt; ds_idx++) { @@ -1326,23 +1489,25 @@ static int update_cdp_prep( cdp_idx = rra_idx * rrd->stat_head->ds_cnt + ds_idx; if (rrd->rra_def[rra_idx].pdp_cnt > 1) { - update_cdp(rrd->cdp_prep[cdp_idx].scratch, current_cf, - pdp_temp[ds_idx], rra_step_cnt[rra_idx], - elapsed_pdp_st, start_pdp_offset, - rrd->rra_def[rra_idx].pdp_cnt, - rrd->rra_def[rra_idx].par[RRA_cdp_xff_val].u_val, rra_idx, ds_idx); - } else { + update_cdp(rrd->cdp_prep[cdp_idx].scratch, current_cf, + pdp_temp[ds_idx], rra_step_cnt[rra_idx], + elapsed_pdp_st, start_pdp_offset, + rrd->rra_def[rra_idx].pdp_cnt, + rrd->rra_def[rra_idx].par[RRA_cdp_xff_val].u_val, + rra_idx, ds_idx); + } else { /* Nothing to consolidate if there's one PDP per CDP. However, if * we've missed some PDPs, let's update null counters etc. */ if (elapsed_pdp_st > 2) { - reset_cdp(rrd, elapsed_pdp_st, pdp_temp, last_seasonal_coef, seasonal_coef, - rra_idx, ds_idx, cdp_idx, current_cf); + reset_cdp(rrd, elapsed_pdp_st, pdp_temp, last_seasonal_coef, + seasonal_coef, rra_idx, ds_idx, cdp_idx, + current_cf); } } if (rrd_test_error()) return -1; - } /* endif data sources loop */ + } /* endif data sources loop */ return 0; } @@ -1359,12 +1524,13 @@ static void update_cdp( unsigned long start_pdp_offset, unsigned long pdp_cnt, rrd_value_t xff, - int i, int ii) + int i, + int ii) { /* shorthand variables */ - rrd_value_t *cdp_val = &scratch[CDP_val].u_val; - rrd_value_t *cdp_primary_val = &scratch[CDP_primary_val].u_val; - rrd_value_t *cdp_secondary_val = &scratch[CDP_secondary_val].u_val; + rrd_value_t *cdp_val = &scratch[CDP_val].u_val; + rrd_value_t *cdp_primary_val = &scratch[CDP_primary_val].u_val; + rrd_value_t *cdp_secondary_val = &scratch[CDP_secondary_val].u_val; unsigned long *cdp_unkn_pdp_cnt = &scratch[CDP_unkn_pdp_cnt].u_cnt; if (rra_step_cnt) { @@ -1386,36 +1552,40 @@ static void update_cdp( if (*cdp_unkn_pdp_cnt > pdp_cnt * xff) { *cdp_primary_val = DNAN; if (current_cf == CF_AVERAGE) { - *cdp_val = initialize_average_carry_over(pdp_temp_val, elapsed_pdp_st, - start_pdp_offset, pdp_cnt); + *cdp_val = + initialize_average_carry_over(pdp_temp_val, + elapsed_pdp_st, + start_pdp_offset, pdp_cnt); } else { *cdp_val = pdp_temp_val; } } else { - initialize_cdp_val(scratch, current_cf, pdp_temp_val, - elapsed_pdp_st, start_pdp_offset, pdp_cnt); - } /* endif meets xff value requirement for a valid value */ + initialize_cdp_val(scratch, current_cf, pdp_temp_val, + elapsed_pdp_st, start_pdp_offset, pdp_cnt); + } /* endif meets xff value requirement for a valid value */ /* initialize carry over CDP_unkn_pdp_cnt, this must after CDP_primary_val * is set because CDP_unkn_pdp_cnt is required to compute that value. */ if (isnan(pdp_temp_val)) *cdp_unkn_pdp_cnt = (elapsed_pdp_st - start_pdp_offset) % pdp_cnt; else *cdp_unkn_pdp_cnt = 0; - } else { /* rra_step_cnt[i] == 0 */ + } else { /* rra_step_cnt[i] == 0 */ #ifdef DEBUG if (isnan(*cdp_val)) { fprintf(stderr, "schedule CDP_val update, RRA %d DS %d, DNAN\n", - i, ii); + i, ii); } else { fprintf(stderr, "schedule CDP_val update, RRA %d DS %d, %10.2f\n", - i, ii, *cdp_val); + i, ii, *cdp_val); } #endif if (isnan(pdp_temp_val)) { *cdp_unkn_pdp_cnt += elapsed_pdp_st; } else { - *cdp_val = calculate_cdp_val(*cdp_val, pdp_temp_val, elapsed_pdp_st, current_cf, i, ii); + *cdp_val = + calculate_cdp_val(*cdp_val, pdp_temp_val, elapsed_pdp_st, + current_cf, i, ii); } } } @@ -1425,70 +1595,72 @@ static void update_cdp( * on the type of consolidation function. */ static void initialize_cdp_val( - unival *scratch, + unival *scratch, int current_cf, rrd_value_t pdp_temp_val, - unsigned long elapsed_pdp_st, + unsigned long elapsed_pdp_st, unsigned long start_pdp_offset, - unsigned long pdp_cnt) + unsigned long pdp_cnt) { rrd_value_t cum_val, cur_val; switch (current_cf) { - case CF_AVERAGE: - cum_val = IFDNAN(scratch[CDP_val].u_val, 0.0); - cur_val = IFDNAN(pdp_temp_val, 0.0); - scratch[CDP_primary_val].u_val = - (cum_val + cur_val * start_pdp_offset) / - (pdp_cnt - scratch[CDP_unkn_pdp_cnt].u_cnt); - scratch[CDP_val].u_val = initialize_average_carry_over( - pdp_temp_val, elapsed_pdp_st, start_pdp_offset, pdp_cnt); - break; - case CF_MAXIMUM: - cum_val = IFDNAN(scratch[CDP_val].u_val, -DINF); - cur_val = IFDNAN(pdp_temp_val, -DINF); + case CF_AVERAGE: + cum_val = IFDNAN(scratch[CDP_val].u_val, 0.0); + cur_val = IFDNAN(pdp_temp_val, 0.0); + scratch[CDP_primary_val].u_val = + (cum_val + cur_val * start_pdp_offset) / + (pdp_cnt - scratch[CDP_unkn_pdp_cnt].u_cnt); + scratch[CDP_val].u_val = + initialize_average_carry_over(pdp_temp_val, elapsed_pdp_st, + start_pdp_offset, pdp_cnt); + break; + case CF_MAXIMUM: + cum_val = IFDNAN(scratch[CDP_val].u_val, -DINF); + cur_val = IFDNAN(pdp_temp_val, -DINF); #if 0 #ifdef DEBUG - if (isnan(scratch[CDP_val].u_val) && isnan(pdp_temp)) { - fprintf(stderr, - "RRA %lu, DS %lu, both CDP_val and pdp_temp are DNAN!", - i, ii); - exit(-1); - } + if (isnan(scratch[CDP_val].u_val) && isnan(pdp_temp)) { + fprintf(stderr, + "RRA %lu, DS %lu, both CDP_val and pdp_temp are DNAN!", + i, ii); + exit(-1); + } #endif #endif - if (cur_val > cum_val) - scratch[CDP_primary_val].u_val = cur_val; - else - scratch[CDP_primary_val].u_val = cum_val; - /* initialize carry over value */ - scratch[CDP_val].u_val = pdp_temp_val; - break; - case CF_MINIMUM: - cum_val = IFDNAN(scratch[CDP_val].u_val, DINF); - cur_val = IFDNAN(pdp_temp_val, DINF); + if (cur_val > cum_val) + scratch[CDP_primary_val].u_val = cur_val; + else + scratch[CDP_primary_val].u_val = cum_val; + /* initialize carry over value */ + scratch[CDP_val].u_val = pdp_temp_val; + break; + case CF_MINIMUM: + cum_val = IFDNAN(scratch[CDP_val].u_val, DINF); + cur_val = IFDNAN(pdp_temp_val, DINF); #if 0 #ifdef DEBUG - if (isnan(scratch[CDP_val].u_val) && isnan(pdp_temp)) { - fprintf(stderr, "RRA %lu, DS %lu, both CDP_val and pdp_temp are DNAN!", - i, ii); - exit(-1); - } + if (isnan(scratch[CDP_val].u_val) && isnan(pdp_temp)) { + fprintf(stderr, + "RRA %lu, DS %lu, both CDP_val and pdp_temp are DNAN!", i, + ii); + exit(-1); + } #endif #endif - if (cur_val < cum_val) - scratch[CDP_primary_val].u_val = cur_val; - else - scratch[CDP_primary_val].u_val = cum_val; - /* initialize carry over value */ - scratch[CDP_val].u_val = pdp_temp_val; - break; - case CF_LAST: - default: - scratch[CDP_primary_val].u_val = pdp_temp_val; - /* initialize carry over value */ - scratch[CDP_val].u_val = pdp_temp_val; - break; + if (cur_val < cum_val) + scratch[CDP_primary_val].u_val = cur_val; + else + scratch[CDP_primary_val].u_val = cum_val; + /* initialize carry over value */ + scratch[CDP_val].u_val = pdp_temp_val; + break; + case CF_LAST: + default: + scratch[CDP_primary_val].u_val = pdp_temp_val; + /* initialize carry over value */ + scratch[CDP_val].u_val = pdp_temp_val; + break; } } @@ -1499,56 +1671,58 @@ static void initialize_cdp_val( */ static void reset_cdp( rrd_t *rrd, - unsigned long elapsed_pdp_st, + unsigned long elapsed_pdp_st, rrd_value_t *pdp_temp, rrd_value_t *last_seasonal_coef, rrd_value_t *seasonal_coef, - int rra_idx, int ds_idx, int cdp_idx, + int rra_idx, + int ds_idx, + int cdp_idx, enum cf_en current_cf) { - unival *scratch = rrd->cdp_prep[cdp_idx].scratch; + unival *scratch = rrd->cdp_prep[cdp_idx].scratch; switch (current_cf) { - case CF_AVERAGE: - default: - scratch[CDP_primary_val].u_val = pdp_temp[ds_idx]; - scratch[CDP_secondary_val].u_val = pdp_temp[ds_idx]; - break; - case CF_SEASONAL: - case CF_DEVSEASONAL: - /* need to update cached seasonal values, so they are consistent - * with the bulk update */ - /* WARNING: code relies on the fact that CDP_hw_last_seasonal and - * CDP_last_deviation are the same. */ - scratch[CDP_hw_last_seasonal].u_val = last_seasonal_coef[ds_idx]; - scratch[CDP_hw_seasonal].u_val = seasonal_coef[ds_idx]; - break; - case CF_HWPREDICT: - case CF_MHWPREDICT: - /* need to update the null_count and last_null_count. - * even do this for non-DNAN pdp_temp because the - * algorithm is not learning from batch updates. */ - scratch[CDP_null_count].u_cnt += elapsed_pdp_st; - scratch[CDP_last_null_count].u_cnt += elapsed_pdp_st - 1; - /* fall through */ - case CF_DEVPREDICT: - scratch[CDP_primary_val].u_val = DNAN; - scratch[CDP_secondary_val].u_val = DNAN; - break; - case CF_FAILURES: - /* do not count missed bulk values as failures */ - scratch[CDP_primary_val].u_val = 0; - scratch[CDP_secondary_val].u_val = 0; - /* need to reset violations buffer. - * could do this more carefully, but for now, just - * assume a bulk update wipes away all violations. */ - erase_violations(rrd, cdp_idx, rra_idx); - break; + case CF_AVERAGE: + default: + scratch[CDP_primary_val].u_val = pdp_temp[ds_idx]; + scratch[CDP_secondary_val].u_val = pdp_temp[ds_idx]; + break; + case CF_SEASONAL: + case CF_DEVSEASONAL: + /* need to update cached seasonal values, so they are consistent + * with the bulk update */ + /* WARNING: code relies on the fact that CDP_hw_last_seasonal and + * CDP_last_deviation are the same. */ + scratch[CDP_hw_last_seasonal].u_val = last_seasonal_coef[ds_idx]; + scratch[CDP_hw_seasonal].u_val = seasonal_coef[ds_idx]; + break; + case CF_HWPREDICT: + case CF_MHWPREDICT: + /* need to update the null_count and last_null_count. + * even do this for non-DNAN pdp_temp because the + * algorithm is not learning from batch updates. */ + scratch[CDP_null_count].u_cnt += elapsed_pdp_st; + scratch[CDP_last_null_count].u_cnt += elapsed_pdp_st - 1; + /* fall through */ + case CF_DEVPREDICT: + scratch[CDP_primary_val].u_val = DNAN; + scratch[CDP_secondary_val].u_val = DNAN; + break; + case CF_FAILURES: + /* do not count missed bulk values as failures */ + scratch[CDP_primary_val].u_val = 0; + scratch[CDP_secondary_val].u_val = 0; + /* need to reset violations buffer. + * could do this more carefully, but for now, just + * assume a bulk update wipes away all violations. */ + erase_violations(rrd, cdp_idx, rra_idx); + break; } } static rrd_value_t initialize_average_carry_over( - rrd_value_t pdp_temp_val, + rrd_value_t pdp_temp_val, unsigned long elapsed_pdp_st, unsigned long start_pdp_offset, unsigned long pdp_cnt) @@ -1556,7 +1730,7 @@ static rrd_value_t initialize_average_carry_over( /* initialize carry over value */ if (isnan(pdp_temp_val)) { return DNAN; - } + } return pdp_temp_val * ((elapsed_pdp_st - start_pdp_offset) % pdp_cnt); } @@ -1570,7 +1744,9 @@ static rrd_value_t calculate_cdp_val( rrd_value_t cdp_val, rrd_value_t pdp_temp_val, unsigned long elapsed_pdp_st, - int current_cf, int i, int ii) + int current_cf, + int i, + int ii) { if (isnan(cdp_val)) { if (current_cf == CF_AVERAGE) { @@ -1578,11 +1754,11 @@ static rrd_value_t calculate_cdp_val( } #ifdef DEBUG fprintf(stderr, "Initialize CDP_val for RRA %d DS %d: %10.2f\n", - i, ii, pdp_temp_val); + i, ii, pdp_temp_val); #endif return pdp_temp_val; - } - if (current_cf == CF_AVERAGE) + } + if (current_cf == CF_AVERAGE) return cdp_val + pdp_temp_val * elapsed_pdp_st; if (current_cf == CF_MINIMUM) return (pdp_temp_val < cdp_val) ? pdp_temp_val : cdp_val; @@ -1599,9 +1775,13 @@ static rrd_value_t calculate_cdp_val( * Return 0 on success, -1 on error. */ static int update_aberrant_cdps( - rrd_t *rrd, rrd_file_t *rrd_file, unsigned long rra_begin, - unsigned long *rra_current, unsigned long elapsed_pdp_st, - rrd_value_t *pdp_temp, rrd_value_t **seasonal_coef) + rrd_t *rrd, + rrd_file_t *rrd_file, + unsigned long rra_begin, + unsigned long *rra_current, + unsigned long elapsed_pdp_st, + rrd_value_t *pdp_temp, + rrd_value_t **seasonal_coef) { unsigned long rra_idx, ds_idx, j; @@ -1609,12 +1789,12 @@ static int update_aberrant_cdps( * are assigned to the first CDP to be generated * since the last update. */ unsigned short scratch_idx; - unsigned long rra_start; - enum cf_en current_cf; + unsigned long rra_start; + enum cf_en current_cf; /* this loop is only entered if elapsed_pdp_st < 3 */ for (j = elapsed_pdp_st, scratch_idx = CDP_primary_val; - j > 0 && j < 3; j--, scratch_idx = CDP_secondary_val) { + j > 0 && j < 3; j--, scratch_idx = CDP_secondary_val) { rra_start = rra_begin; for (rra_idx = 0; rra_idx < rrd->stat_head->rra_cnt; rra_idx++) { if (rrd->rra_def[rra_idx].pdp_cnt == 1) { @@ -1634,13 +1814,13 @@ static int update_aberrant_cdps( /* loop over data soures within each RRA */ for (ds_idx = 0; ds_idx < rrd->stat_head->ds_cnt; ds_idx++) { update_aberrant_CF(rrd, pdp_temp[ds_idx], current_cf, - rra_idx * (rrd->stat_head->ds_cnt) + ds_idx, - rra_idx, ds_idx, scratch_idx, *seasonal_coef); + rra_idx * (rrd->stat_head->ds_cnt) + + ds_idx, rra_idx, ds_idx, scratch_idx, + *seasonal_coef); } } - rra_start += rrd->rra_def[rra_idx].row_cnt - * rrd->stat_head->ds_cnt - * sizeof(rrd_value_t); + rra_start += rrd->rra_def[rra_idx].row_cnt + * rrd->stat_head->ds_cnt * sizeof(rrd_value_t); } } return 0; @@ -1654,17 +1834,17 @@ static int update_aberrant_cdps( * Return 0 on success, -1 on error. */ static int write_to_rras( - rrd_t *rrd, - rrd_file_t *rrd_file, + rrd_t *rrd, + rrd_file_t *rrd_file, unsigned long *rra_step_cnt, - unsigned long rra_begin, + unsigned long rra_begin, unsigned long *rra_current, time_t current_time, unsigned long *skip_update, info_t **pcdp_summary) { unsigned long rra_idx; - unsigned long rra_start; + unsigned long rra_start; unsigned long rra_pos_tmp; /* temporary byte pointer. */ time_t rra_time = 0; /* time of update for a RRA */ @@ -1678,12 +1858,13 @@ static int write_to_rras( fprintf(stderr, " -- RRA Preseek %ld\n", rrd_file->pos); #endif rrd->rra_ptr[rra_idx].cur_row++; - if (rrd->rra_ptr[rra_idx].cur_row >= rrd->rra_def[rra_idx].row_cnt) - rrd->rra_ptr[rra_idx].cur_row = 0; /* wrap around */ + if (rrd->rra_ptr[rra_idx].cur_row >= + rrd->rra_def[rra_idx].row_cnt) + rrd->rra_ptr[rra_idx].cur_row = 0; /* wrap around */ /* position on the first row */ rra_pos_tmp = rra_start + - (rrd->stat_head->ds_cnt) * (rrd->rra_ptr[rra_idx].cur_row) * - sizeof(rrd_value_t); + (rrd->stat_head->ds_cnt) * (rrd->rra_ptr[rra_idx].cur_row) * + sizeof(rrd_value_t); if (rra_pos_tmp != *rra_current) { if (rrd_seek(rrd_file, rra_pos_tmp, SEEK_SET) != 0) { rrd_set_error("seek error in rrd"); @@ -1697,23 +1878,28 @@ static int write_to_rras( if (!skip_update[rra_idx]) { if (*pcdp_summary != NULL) { rra_time = (current_time - current_time - % (rrd->rra_def[rra_idx].pdp_cnt * - rrd->stat_head->pdp_step)) - - ((rra_step_cnt[rra_idx] - 1) * rrd->rra_def[rra_idx].pdp_cnt * - rrd->stat_head->pdp_step); + % (rrd->rra_def[rra_idx].pdp_cnt * + rrd->stat_head->pdp_step)) + - + ((rra_step_cnt[rra_idx] - + 1) * rrd->rra_def[rra_idx].pdp_cnt * + rrd->stat_head->pdp_step); } - if (write_RRA_row(rrd_file, rrd, rra_idx, rra_current, CDP_primary_val, - pcdp_summary, rra_time) == -1) + if (write_RRA_row + (rrd_file, rrd, rra_idx, rra_current, CDP_primary_val, + pcdp_summary, rra_time) == -1) return -1; } /* write other rows of the bulk update, if any */ for (; rra_step_cnt[rra_idx] > 1; rra_step_cnt[rra_idx]--) { - if (++rrd->rra_ptr[rra_idx].cur_row == rrd->rra_def[rra_idx].row_cnt) { + if (++rrd->rra_ptr[rra_idx].cur_row == + rrd->rra_def[rra_idx].row_cnt) { #ifdef DEBUG fprintf(stderr, - "Wraparound for RRA %s, %lu updates left\n", - rrd->rra_def[rra_idx].cf_nam, rra_step_cnt[rra_idx] - 1); + "Wraparound for RRA %s, %lu updates left\n", + rrd->rra_def[rra_idx].cf_nam, + rra_step_cnt[rra_idx] - 1); #endif /* wrap */ rrd->rra_ptr[rra_idx].cur_row = 0; @@ -1724,28 +1910,30 @@ static int write_to_rras( } #ifdef DEBUG fprintf(stderr, " -- Wraparound Postseek %ld\n", - rrd_file->pos); + rrd_file->pos); #endif *rra_current = rra_start; } if (!skip_update[rra_idx]) { if (*pcdp_summary != NULL) { rra_time = (current_time - current_time - % (rrd->rra_def[rra_idx].pdp_cnt * - rrd->stat_head->pdp_step)) - - - ((rra_step_cnt[rra_idx] - 2) * rrd->rra_def[rra_idx].pdp_cnt * - rrd->stat_head->pdp_step); + % (rrd->rra_def[rra_idx].pdp_cnt * + rrd->stat_head->pdp_step)) + - + ((rra_step_cnt[rra_idx] - + 2) * rrd->rra_def[rra_idx].pdp_cnt * + rrd->stat_head->pdp_step); } if (write_RRA_row(rrd_file, rrd, rra_idx, rra_current, - CDP_secondary_val, pcdp_summary, rra_time) == -1) + CDP_secondary_val, pcdp_summary, + rra_time) == -1) return -1; } } } rra_start += rrd->rra_def[rra_idx].row_cnt * rrd->stat_head->ds_cnt * - sizeof(rrd_value_t); - } /* RRA LOOP */ + sizeof(rrd_value_t); + } /* RRA LOOP */ return 0; } @@ -1779,14 +1967,18 @@ static int write_RRA_row( iv.u_val = rrd->cdp_prep[cdp_idx].scratch[CDP_scratch_idx].u_val; /* append info to the return hash */ *pcdp_summary = info_push(*pcdp_summary, - sprintf_alloc("[%d]RRA[%s][%lu]DS[%s]", rra_time, - rrd->rra_def[rra_idx].cf_nam, - rrd->rra_def[rra_idx].pdp_cnt, - rrd->ds_def[ds_idx].ds_nam), RD_I_VAL, iv); + sprintf_alloc("[%d]RRA[%s][%lu]DS[%s]", + rra_time, + rrd->rra_def[rra_idx]. + cf_nam, + rrd->rra_def[rra_idx]. + pdp_cnt, + rrd->ds_def[ds_idx]. + ds_nam), RD_I_VAL, iv); } if (rrd_write(rrd_file, - &(rrd->cdp_prep[cdp_idx].scratch[CDP_scratch_idx].u_val), - sizeof(rrd_value_t)) != sizeof(rrd_value_t)) { + &(rrd->cdp_prep[cdp_idx].scratch[CDP_scratch_idx]. + u_val), sizeof(rrd_value_t)) != sizeof(rrd_value_t)) { rrd_set_error("writing rrd: %s", rrd_strerror(errno)); return -1; } @@ -1801,15 +1993,16 @@ static int write_RRA_row( * Returns 0 on success, -1 otherwise */ static int smooth_all_rras( - rrd_t *rrd, - rrd_file_t *rrd_file, - unsigned long rra_begin) + rrd_t *rrd, + rrd_file_t *rrd_file, + unsigned long rra_begin) { unsigned long rra_start = rra_begin; unsigned long rra_idx; + for (rra_idx = 0; rra_idx < rrd->stat_head->rra_cnt; ++rra_idx) { if (cf_conv(rrd->rra_def[rra_idx].cf_nam) == CF_DEVSEASONAL || - cf_conv(rrd->rra_def[rra_idx].cf_nam) == CF_SEASONAL) { + cf_conv(rrd->rra_def[rra_idx].cf_nam) == CF_SEASONAL) { #ifdef DEBUG fprintf(stderr, "Running smoother for rra %lu\n", rra_idx); #endif @@ -1818,7 +2011,7 @@ static int smooth_all_rras( return -1; } rra_start += rrd->rra_def[rra_idx].row_cnt - * rrd->stat_head->ds_cnt * sizeof(rrd_value_t); + * rrd->stat_head->ds_cnt * sizeof(rrd_value_t); } return 0; } @@ -1830,9 +2023,11 @@ static int smooth_all_rras( * Returns 0 on success, -1 otherwise */ static int write_changes_to_disk( - rrd_t *rrd, rrd_file_t *rrd_file, int version) + rrd_t *rrd, + rrd_file_t *rrd_file, + int version) { - /* we just need to write back the live header portion now*/ + /* we just need to write back the live header portion now */ if (rrd_seek(rrd_file, (sizeof(stat_head_t) + sizeof(ds_def_t) * rrd->stat_head->ds_cnt + sizeof(rra_def_t) * rrd->stat_head->rra_cnt), diff --git a/src/rrd_xport.c b/src/rrd_xport.c index a0bae22..efdceab 100644 --- a/src/rrd_xport.c +++ b/src/rrd_xport.c @@ -177,7 +177,7 @@ int rrd_xport_fn( unsigned long nof_xports = 0; unsigned long xport_counter = 0; - int *ref_list; + int *ref_list; rrd_value_t **srcptr_list; char **legend_list; int ii = 0; -- 2.11.0