int req_sent;
int req_rcvd;
- double latency_min;
- double latency_max;
double latency_total;
-/* 1000 + one "infinity" bucket. */
-#define OPING_HISTOGRAM_BUCKETS 1001
- uint32_t *histogram_counters;
- uint32_t *histogram_accumulated;
- double *histogram_ratio;
- size_t latency_histogram_size;
+#ifndef HISTORY_SIZE_MAX
+# define HISTORY_SIZE_MAX 900
+#endif
+ /* The last n RTTs in the order they were sent. */
+ double history_by_time[HISTORY_SIZE_MAX];
+ /* Current size of the history. This is a value between 0 and
+ * HISTORY_SIZE_MAX. */
+ size_t history_size;
+ /* Index of the next RTT to be written to history_by_time. This wraps
+ * around to 0 once the histroty has grown to HISTORY_SIZE_MAX. */
+ size_t history_index;
+ /* Number received replies, i.e. non-NAN entries. */
+ size_t history_received;
+ /* The last n RTTs sorted by value. timed out packets are sorted to the
+ * back. */
+ double history_by_value[HISTORY_SIZE_MAX];
+ /* If set to true, history_by_value has to be re-calculated. */
+ _Bool history_dirty;
#if USE_NCURSES
WINDOW *window;
memset (ret, '\0', sizeof (ping_context_t));
- ret->latency_min = -1.0;
- ret->latency_max = -1.0;
ret->latency_total = 0.0;
- ret->latency_histogram_size = (size_t) OPING_HISTOGRAM_BUCKETS;
- ret->histogram_counters = calloc (ret->latency_histogram_size,
- sizeof (*ret->histogram_counters));
- ret->histogram_accumulated = calloc (ret->latency_histogram_size,
- sizeof (*ret->histogram_accumulated));
- ret->histogram_ratio = calloc (ret->latency_histogram_size,
- sizeof (*ret->histogram_ratio));
-
#if USE_NCURSES
ret->window = NULL;
#endif
}
#endif
- free (context->histogram_counters);
- context->histogram_counters = NULL;
+ free (context);
+} /* }}} void context_destroy */
- free (context->histogram_accumulated);
- context->histogram_accumulated = NULL;
+static int compare_double (void const *arg0, void const *arg1) /* {{{ */
+{
+ double dbl0 = *((double *) arg0);
+ double dbl1 = *((double *) arg1);
- free (context->histogram_ratio);
- context->histogram_ratio = NULL;
+ if (isnan (dbl0))
+ {
+ if (isnan (dbl1))
+ return 0;
+ else
+ return 1;
+ }
+ else if (isnan (dbl1))
+ return -1;
+ else if (dbl0 < dbl1)
+ return -1;
+ else if (dbl0 > dbl1)
+ return 1;
+ else
+ return 0;
+} /* }}} int compare_double */
- free (context);
-} /* }}} void context_destroy */
+static void clean_history (ping_context_t *ctx) /* {{{ */
+{
+ size_t i;
+
+ if (!ctx->history_dirty)
+ return;
-static double context_get_percentile (ping_context_t *ctx, /* {{{ */
+ /* Copy all values from by_time to by_value. */
+ memcpy (ctx->history_by_value, ctx->history_by_time,
+ sizeof (ctx->history_by_time));
+ /* Sort all RTTs. */
+ qsort (ctx->history_by_value, ctx->history_size, sizeof
+ (ctx->history_by_value[0]), compare_double);
+
+ ctx->history_received = 0;
+ for (i = 0; i < ctx->history_size; i++)
+ if (!isnan (ctx->history_by_value[i]))
+ ctx->history_received++;
+
+ /* Mark as clean. */
+ ctx->history_dirty = 0;
+} /* }}} void clean_history */
+
+static double percentile_to_latency (ping_context_t *ctx, /* {{{ */
double percentile)
{
- double threshold = percentile / 100.0;
- double index_to_ms_factor;
- size_t i;
- double ret;
+ size_t index;
- if (ctx->histogram_ratio == NULL)
- return (NAN);
+ clean_history (ctx);
- for (i = 0; i < ctx->latency_histogram_size; i++)
- if (ctx->histogram_ratio[i] >= threshold)
- break;
+ if (ctx->history_received == 0)
+ return NAN;
+
+ if (percentile <= 0.0)
+ index = 0;
+ else if (percentile >= 100.0)
+ index = ctx->history_received - 1;
+ else
+ {
+ index = (size_t) ceil ((percentile / 100.0) * ((double) ctx->history_received));
+ assert (index > 0);
+ index--;
+ }
- if (i >= ctx->latency_histogram_size)
- return (NAN);
- else if (i == (ctx->latency_histogram_size - 1))
- return (INFINITY);
+ return (ctx->history_by_value[index]);
+} /* }}} double percentile_to_latency */
- index_to_ms_factor = (1000.0 * opt_interval) / (ctx->latency_histogram_size - 1);
+#if USE_NCURSES
+static double latency_to_percentile (ping_context_t *ctx, /* {{{ */
+ double latency)
+{
+ size_t low;
+ size_t high;
+ size_t index;
- /* Multiply with i+1, because we're interested in the _upper_ bound of
- * each bucket. */
- ret = (index_to_ms_factor * ((double) (i + 1)));
+ clean_history (ctx);
- /* Avoid reporting a higher latency than latency_max. */
- if (ret > ctx->latency_max)
- ret = ctx->latency_max;
+ if (ctx->history_received == 0)
+ return NAN;
- return (ret);
-} /* }}} double context_get_percentile */
+ low = 0;
+ high = ctx->history_received - 1;
+
+ if (latency < ctx->history_by_value[low])
+ return 0.0;
+ else if (latency >= ctx->history_by_value[high])
+ return 100.0;
+
+ while ((high - low) > 1)
+ {
+ index = (high + low) / 2;
+
+ if (ctx->history_by_value[index] > latency)
+ high = index;
+ else
+ low = index;
+ }
+
+ assert (ctx->history_by_value[high] > latency);
+ assert (ctx->history_by_value[low] <= latency);
+
+ if (ctx->history_by_value[low] == latency)
+ index = low;
+ else
+ index = high;
+
+ return (100.0 * ((double) (index + 1)) / ((double) ctx->history_received));
+} /* }}} double latency_to_percentile */
+#endif
static double context_get_packet_loss (const ping_context_t *ctx) /* {{{ */
{
static int update_graph_boxplot (ping_context_t *ctx) /* {{{ */
{
+ uint32_t *counters;
double *ratios;
size_t i;
size_t x_max;
size_t x;
+ clean_history (ctx);
+
+ if (ctx->history_received == 0)
+ return (ENOENT);
+
x_max = (size_t) getmaxx (ctx->window);
if (x_max <= 8)
return (EINVAL);
x_max -= 4;
+ counters = calloc (x_max, sizeof (*counters));
ratios = calloc (x_max, sizeof (*ratios));
- /* Downsample */
- for (i = 0; i < ctx->latency_histogram_size; i++)
+ /* Bucketize */
+ for (i = 0; i < ctx->history_received; i++)
{
- x = i * x_max / ctx->latency_histogram_size;
- ratios[x] = ctx->histogram_ratio[i];
+ double latency = ctx->history_by_value[i] / 1000.0;
+ size_t index = (size_t) (((double) x_max) * latency / opt_interval);
+
+ if (index >= x_max)
+ index = x_max - 1;
+
+ counters[index]++;
+ }
+
+ /* Sum and calc ratios */
+ ratios[0] = ((double) counters[0]) / ((double) ctx->history_received);
+ for (x = 1; x < x_max; x++)
+ {
+ counters[x] += counters[x - 1];
+ ratios[x] = ((double) counters[x]) / ((double) ctx->history_received);
}
for (x = 0; x < x_max; x++)
wattroff (ctx->window, A_REVERSE);
}
+ free (counters);
free (ratios);
return (0);
} /* }}} int update_graph_boxplot */
static int update_graph_prettyping (ping_context_t *ctx, /* {{{ */
double latency, unsigned int sequence)
{
- int color = OPING_RED;
- char const *symbol = "!";
- int symbolc = '!';
-
- int x_max;
- int x_pos;
+ size_t x;
+ size_t x_max;
+ size_t history_offset;
- x_max = getmaxx (ctx->window);
- x_pos = ((sequence - 1) % (x_max - 4)) + 2;
+ x_max = (size_t) getmaxx (ctx->window);
+ if (x_max <= 4)
+ return (EINVAL);
+ x_max -= 4;
- if (latency >= 0.0)
+ history_offset = 0;
+ if (((size_t) x_max) < ctx->history_size)
{
- double ratio;
+ if (ctx->history_index > x_max)
+ history_offset = ctx->history_index - x_max;
+ else /* wrap around */
+ history_offset = ctx->history_index + x_max - ctx->history_size;
+ }
- size_t symbols_num = hist_symbols_acs_num;
- size_t colors_num = 1;
+ for (x = 0; x < x_max; x++)
+ {
+ size_t index;
+ double latency;
- size_t index_symbols;
- size_t index_colors;
- size_t intensity;
+ int color = OPING_RED;
+ char const *symbol = "!";
+ int symbolc = '!';
- /* latency is in milliseconds, opt_interval is in seconds. */
- ratio = (latency * 0.001) / opt_interval;
- if (ratio > 1) {
- ratio = 1.0;
+ if (x >= ctx->history_size)
+ {
+ mvwaddch (ctx->window, /* y = */ 3, /* x = */ x + 2, ' ');
+ continue;
}
- if (has_utf8 ())
- symbols_num = hist_symbols_utf8_num;
+ index = (history_offset + x) % ctx->history_size;
+ latency = ctx->history_by_time[index];
- if (has_colors () == TRUE)
- colors_num = hist_colors_num;
+ if (latency >= 0.0)
+ {
+ double ratio;
- intensity = (size_t) (ratio * ((double) (symbols_num * colors_num)));
- if (intensity >= (symbols_num * colors_num))
- intensity = (symbols_num * colors_num) - 1;
+ size_t symbols_num = hist_symbols_acs_num;
+ size_t colors_num = 1;
- index_symbols = intensity % symbols_num;
- assert (index_symbols < symbols_num);
+ size_t index_symbols;
+ size_t index_colors;
+ size_t intensity;
- index_colors = intensity / symbols_num;
- assert (index_colors < colors_num);
+ /* latency is in milliseconds, opt_interval is in seconds. */
+ ratio = (latency * 0.001) / opt_interval;
+ if (ratio > 1) {
+ ratio = 1.0;
+ }
- if (has_utf8())
- {
- color = hist_colors_utf8[index_colors];
- symbol = hist_symbols_utf8[index_symbols];
- }
- else
- {
- color = hist_colors_acs[index_colors];
- symbolc = hist_symbols_acs[index_symbols] | A_ALTCHARSET;
+ if (has_utf8 ())
+ symbols_num = hist_symbols_utf8_num;
+
+ if (has_colors () == TRUE)
+ colors_num = hist_colors_num;
+
+ intensity = (size_t) (ratio * ((double) (symbols_num * colors_num)));
+ if (intensity >= (symbols_num * colors_num))
+ intensity = (symbols_num * colors_num) - 1;
+
+ index_symbols = intensity % symbols_num;
+ assert (index_symbols < symbols_num);
+
+ index_colors = intensity / symbols_num;
+ assert (index_colors < colors_num);
+
+ if (has_utf8())
+ {
+ color = hist_colors_utf8[index_colors];
+ symbol = hist_symbols_utf8[index_symbols];
+ }
+ else
+ {
+ color = hist_colors_acs[index_colors];
+ symbolc = hist_symbols_acs[index_symbols] | A_ALTCHARSET;
+ }
}
- }
- else /* if (!(latency >= 0.0)) */
- wattron (ctx->window, A_BOLD);
+ else /* if (!(latency >= 0.0)) */
+ wattron (ctx->window, A_BOLD);
- if (has_colors () == TRUE)
- wattron (ctx->window, COLOR_PAIR(color));
+ if (has_colors () == TRUE)
+ wattron (ctx->window, COLOR_PAIR(color));
- if (has_utf8())
- mvwprintw (ctx->window, /* y = */ 3, /* x = */ x_pos, symbol);
- else
- mvwaddch (ctx->window, /* y = */ 3, /* x = */ x_pos, symbolc);
+ if (has_utf8())
+ mvwprintw (ctx->window, /* y = */ 3, /* x = */ x + 2, symbol);
+ else
+ mvwaddch (ctx->window, /* y = */ 3, /* x = */ x + 2, symbolc);
- if (has_colors () == TRUE)
- wattroff (ctx->window, COLOR_PAIR(color));
+ if (has_colors () == TRUE)
+ wattroff (ctx->window, COLOR_PAIR(color));
- /* Use negation here to handle NaN correctly. */
- if (!(latency >= 0.0))
- wattroff (ctx->window, A_BOLD);
+ /* Use negation here to handle NaN correctly. */
+ if (!(latency >= 0.0))
+ wattroff (ctx->window, A_BOLD);
+ } /* for (x) */
- wprintw (ctx->window, " ");
return (0);
} /* }}} int update_graph_prettyping */
{
uint32_t *counters;
uint32_t *accumulated;
- uint32_t num;
uint32_t max;
size_t i;
size_t x_max;
size_t symbols_num = hist_symbols_acs_num;
+ clean_history (ctx);
+
+ if (ctx->history_received == 0)
+ return (ENOENT);
+
if (has_utf8 ())
symbols_num = hist_symbols_utf8_num;
counters = calloc (x_max, sizeof (*counters));
accumulated = calloc (x_max, sizeof (*accumulated));
- /* Downsample */
+ /* Bucketize */
max = 0;
- for (i = 0; i < ctx->latency_histogram_size; i++)
+ for (i = 0; i < ctx->history_received; i++)
{
- x = i * x_max / ctx->latency_histogram_size;
- counters[x] += ctx->histogram_counters[i];
- accumulated[x] = counters[x];
+ double latency = ctx->history_by_value[i] / 1000.0;
+ size_t index = (size_t) (((double) x_max) * latency / opt_interval);
+
+ if (index >= x_max)
+ index = x_max - 1;
- if (max < counters[x])
- max = counters[x];
+ counters[index]++;
+ if (max < counters[index])
+ max = counters[index];
}
/* Sum */
+ accumulated[0] = counters[0];
for (x = 1; x < x_max; x++)
- accumulated[x] += accumulated[x - 1];
- num = accumulated[x_max - 1];
+ accumulated[x] = counters[x] + accumulated[x - 1];
/* Calculate ratios */
for (x = 0; x < x_max; x++)
{
double height = ((double) counters[x]) / ((double) max);
- double ratio_this = ((double) accumulated[x]) / ((double) num);
+ double ratio_this = ((double) accumulated[x]) / ((double) ctx->history_received);
double ratio_prev = 0.0;
size_t index;
int color = 0;
index = symbols_num - 1;
if (x > 0)
- ratio_prev = ((double) accumulated[x - 1]) / ((double) num);
+ ratio_prev = ((double) accumulated[x - 1]) / ((double) ctx->history_received);
if (has_colors () == TRUE)
{
ctx->latency_total);
if (ctx->req_rcvd != 0)
{
+ double min;
double median;
+ double max;
double percentile;
- median = context_get_percentile (ctx, 50.0);
- percentile = context_get_percentile (ctx, opt_percentile);
+ min = percentile_to_latency (ctx, 0.0);
+ median = percentile_to_latency (ctx, 50.0);
+ max = percentile_to_latency (ctx, 100.0);
+ percentile = percentile_to_latency (ctx, opt_percentile);
mvwprintw (ctx->window, /* y = */ 2, /* x = */ 2,
"RTT[ms]: min = %.0f, median = %.0f, p(%.0f) = %.0f, max = %.0f",
- ctx->latency_min, median,
- opt_percentile, percentile,
- ctx->latency_max);
+ min, median, opt_percentile, percentile, max);
}
if (opt_show_graph == 1)
} /* }}} int post_sleep_hook */
#endif
-static size_t latency_to_bucket (ping_context_t *ctx, double latency) /* {{{ */
+static void update_context (ping_context_t *ctx, double latency) /* {{{ */
{
- size_t bucket;
+ ctx->req_sent++;
- /* latency is in ms, opt_interval is in s. */
- bucket = (size_t) ((latency * (ctx->latency_histogram_size - 1))
- / (1000.0 * opt_interval));
- if (bucket >= ctx->latency_histogram_size)
- bucket = ctx->latency_histogram_size - 1;
-
- return (bucket);
-} /* }}} size_t latency_to_bucket */
-
-static void update_context (ping_context_t *context, double latency) /* {{{ */
-{
- size_t bucket;
- size_t i;
- double num;
-
- context->req_rcvd++;
- context->latency_total += latency;
-
- if ((context->latency_max < 0.0) || (context->latency_max < latency))
- context->latency_max = latency;
- if ((context->latency_min < 0.0) || (context->latency_min > latency))
- context->latency_min = latency;
+ if (latency > 0.0)
+ {
+ ctx->req_rcvd++;
+ ctx->latency_total += latency;
+ }
+ else
+ {
+ latency = NAN;
+ }
- bucket = latency_to_bucket (context, latency);
- num = (double) context->req_rcvd;
+ ctx->history_by_time[ctx->history_index] = latency;
- context->histogram_counters[bucket]++;
+ ctx->history_dirty = 1;
- context->histogram_accumulated[0] = context->histogram_counters[0];
- context->histogram_ratio[0] = ((double) context->histogram_accumulated[0]) / num;
- for (i = 1; i < context->latency_histogram_size; i++)
- {
- context->histogram_accumulated[i] = context->histogram_accumulated[i - 1]
- + context->histogram_counters[i];
- context->histogram_ratio[i] = ((double) context->histogram_accumulated[i]) / num;
- }
+ /* Update index and size. */
+ ctx->history_index = (ctx->history_index + 1) % HISTORY_SIZE_MAX;
+ if (ctx->history_size < HISTORY_SIZE_MAX)
+ ctx->history_size++;
} /* }}} void update_context */
static void update_host_hook (pingobj_iter_t *iter, /* {{{ */
# define HOST_PRINTF(...) printf(__VA_ARGS__)
#endif
- context->req_sent++;
+ update_context (context, latency);
+
if (latency > 0.0)
{
- update_context (context, latency);
-
#if USE_NCURSES
if (has_colors () == TRUE)
{
- size_t bucket;
- double ratio_this;
- double ratio_prev;
+ double percentile;
int color = OPING_GREEN;
- bucket = latency_to_bucket (context, latency);
- ratio_this = context->histogram_ratio[bucket];
- if (bucket > 0)
- ratio_prev = context->histogram_ratio[bucket - 1];
+ percentile = latency_to_percentile (context, latency);
+ if (percentile < (100.0 * threshold_green))
+ color = OPING_GREEN;
+ else if (percentile < (100.0 * threshold_yellow))
+ color = OPING_YELLOW;
else
- ratio_prev = 0.0;
+ color = OPING_RED;
+#if 0
if ((ratio_this <= threshold_green)
|| ((ratio_prev < threshold_green)
&& (ratio_this > threshold_green)))
color = OPING_YELLOW;
else
color = OPING_RED;
+#endif
HOST_PRINTF ("%zu bytes from %s (%s): icmp_seq=%u ttl=%i ",
data_len, context->host, context->addr,
if (context->req_rcvd != 0)
{
+ double min;
double median;
+ double max;
double percentile;
- median = context_get_percentile (context, 50.0);
- percentile = context_get_percentile (context, opt_percentile);
+ min = percentile_to_latency (context, 0.0);
+ median = percentile_to_latency (context, 50.0);
+ max = percentile_to_latency (context, 100.0);
+ percentile = percentile_to_latency (context, opt_percentile);
printf ("RTT[ms]: min = %.0f, median = %.0f, p(%.0f) = %.0f, max = %.0f\n",
- context->latency_min, median,
- opt_percentile, percentile,
- context->latency_max);
+ min, median, opt_percentile, percentile, max);
}
ping_iterator_set_context (iter, NULL);
projects / liboping.git / commitdiff