X-Git-Url: https://git.octo.it/?p=collectd.git;a=blobdiff_plain;f=src%2Futils_latency.c;h=1a82eab6c8a3cba9e12907452c1edfca582df6da;hp=30f13c70d1d869cc056c70879801e1fab25bc018;hb=8c61dbce195987d352034663204d5df32776e9cb;hpb=e7aa9832d25a98f78bb5af45a90ec404359537df diff --git a/src/utils_latency.c b/src/utils_latency.c index 30f13c70..1a82eab6 100644 --- a/src/utils_latency.c +++ b/src/utils_latency.c @@ -37,10 +37,6 @@ # define LLONG_MAX 9223372036854775807LL #endif -#ifndef HISTOGRAM_NUM_BINS -# define HISTOGRAM_NUM_BINS 1000 -#endif - #ifndef HISTOGRAM_DEFAULT_BIN_WIDTH /* 1048576 = 2^20 ^= 1/1024 s */ # define HISTOGRAM_DEFAULT_BIN_WIDTH 1048576 @@ -302,15 +298,6 @@ cdtime_t latency_counter_get_start_time (const latency_counter_t *lc) /* {{{ */ return lc->start_time; } /* }}} cdtime_t latency_counter_get_start_time */ -/* - * NAME - * latency_counter_get_rate(counter,lower,upper,now) - * - * DESCRIPTION - * Calculates rate of latency values fall within requested interval. - * Interval specified as [lower,upper] (including boundaries). - * When upper value is equal to 0 then interval is [lower, infinity). - */ double latency_counter_get_rate (const latency_counter_t *lc, /* {{{ */ cdtime_t lower, cdtime_t upper, const cdtime_t now) @@ -322,17 +309,16 @@ double latency_counter_get_rate (const latency_counter_t *lc, /* {{{ */ if ((lc == NULL) || (lc->num == 0)) return (0); - if (lower < 1) { - //sum += lc->zero; - //lower = 1; - return (0); - } - if (upper && (upper < lower)) return (0); - /* A latency of _exactly_ 1.0 ms is stored in the buffer 0 */ - lower_bin = (lower - 1) / lc->bin_width; + /* Buckets have an exclusive lower bound and an inclusive upper bound. That + * means that the first bucket, index 0, represents (0-bin_width]. That means + * that lower==bin_width needs to result in lower_bin=0, hence the -1. */ + if (lower) + lower_bin = (lower - 1) / lc->bin_width; + else + lower_bin = 0; if (upper) upper_bin = (upper - 1) / lc->bin_width; @@ -353,22 +339,21 @@ double latency_counter_get_rate (const latency_counter_t *lc, /* {{{ */ sum += lc->histogram[i]; } - /* Approximate ratio of requests below "lower" */ - cdtime_t lower_bin_boundary = lower_bin * lc->bin_width; - - /* When bin width is 0.125 (for example), then bin 0 stores - * values for interval [0, 0.124) (excluding). - * With lower = 0.100, the ratio should be 0.099 / 0.125. - * I.e. ratio = 0.100 - 0.000 - 0.001 - */ - double ratio = (double)(lower - lower_bin_boundary - DOUBLE_TO_CDTIME_T(0.001)) - / (double)lc->bin_width; - sum -= ratio * lc->histogram[lower_bin]; + if (lower) { + /* Approximate ratio of requests in lower_bin, that fall between + * lower_bin_boundary and lower. This ratio is then subtracted from sum to + * increase accuracy. */ + cdtime_t lower_bin_boundary = lower_bin * lc->bin_width; + assert (lower > lower_bin_boundary); + double lower_ratio = (double)(lower - lower_bin_boundary - 1) / ((double) lc->bin_width); + sum -= lower_ratio * lc->histogram[lower_bin]; + } - /* Approximate ratio of requests above "upper" */ - cdtime_t upper_bin_boundary = (upper_bin + 1) * lc->bin_width; if (upper) { + /* As above: approximate ratio of requests in upper_bin, that fall between + * upper and upper_bin_boundary. */ + cdtime_t upper_bin_boundary = (upper_bin + 1) * lc->bin_width; assert (upper <= upper_bin_boundary); double ratio = (double)(upper_bin_boundary - upper) / (double)lc->bin_width; sum -= ratio * lc->histogram[upper_bin];