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// SPDX-License-Identifier: GPL-3.0-or-later
#include "exporting_engine.h"
/**
* Normalize chart and dimension names
*
* Substitute '_' for any special character except '.'.
*
* @param dst where to copy name to.
* @param src where to copy name from.
* @param max_len the maximum size of copied name.
* @return Returns the size of the copied name.
*/
size_t exporting_name_copy(char *dst, const char *src, size_t max_len)
{
size_t n;
for (n = 0; *src && n < max_len; dst++, src++, n++) {
char c = *src;
if (c != '.' && !isalnum(c))
*dst = '_';
else
*dst = c;
}
*dst = '\0';
return n;
}
/**
* Mark scheduled instances
*
* Any instance can have its own update interval. On every exporting engine update only those instances are picked,
* which are scheduled for the update.
*
* @param engine an engine data structure.
* @return Returns 1 if there are instances to process
*/
int mark_scheduled_instances(struct engine *engine)
{
int instances_were_scheduled = 0;
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (!instance->disabled && (engine->now % instance->config.update_every >=
instance->config.update_every - localhost->rrd_update_every)) {
instance->scheduled = 1;
instances_were_scheduled = 1;
instance->before = engine->now;
}
}
return instances_were_scheduled;
}
/**
* Calculate the SUM or AVERAGE of a dimension, for any timeframe
*
* May return NAN if the database does not have any value in the give timeframe.
*
* @param instance an instance data structure.
* @param rd a dimension(metric) in the Netdata database.
* @param last_timestamp the timestamp that should be reported to the exporting connector instance.
* @return Returns the value, calculated over the given period.
*/
calculated_number exporting_calculate_value_from_stored_data(
struct instance *instance,
RRDDIM *rd,
time_t *last_timestamp)
{
RRDSET *st = rd->rrdset;
RRDHOST *host = st->rrdhost;
time_t after = instance->after;
time_t before = instance->before;
// find the edges of the rrd database for this chart
time_t first_t = rd->state->query_ops.oldest_time(rd);
time_t last_t = rd->state->query_ops.latest_time(rd);
time_t update_every = st->update_every;
struct rrddim_query_handle handle;
storage_number n;
// step back a little, to make sure we have complete data collection
// for all metrics
after -= update_every * 2;
before -= update_every * 2;
// align the time-frame
after = after - (after % update_every);
before = before - (before % update_every);
// for before, loose another iteration
// the latest point will be reported the next time
before -= update_every;
if (unlikely(after > before))
// this can happen when update_every > before - after
after = before;
if (unlikely(after < first_t))
after = first_t;
if (unlikely(before > last_t))
before = last_t;
if (unlikely(before < first_t || after > last_t)) {
// the chart has not been updated in the wanted timeframe
debug(
D_BACKEND,
"EXPORTING: %s.%s.%s: aligned timeframe %lu to %lu is outside the chart's database range %lu to %lu",
host->hostname,
st->id,
rd->id,
(unsigned long)after,
(unsigned long)before,
(unsigned long)first_t,
(unsigned long)last_t);
return NAN;
}
*last_timestamp = before;
size_t counter = 0;
calculated_number sum = 0;
for (rd->state->query_ops.init(rd, &handle, after, before); !rd->state->query_ops.is_finished(&handle);) {
time_t curr_t;
n = rd->state->query_ops.next_metric(&handle, &curr_t);
if (unlikely(!does_storage_number_exist(n))) {
// not collected
continue;
}
calculated_number value = unpack_storage_number(n);
sum += value;
counter++;
}
rd->state->query_ops.finalize(&handle);
if (unlikely(!counter)) {
debug(
D_BACKEND,
"EXPORTING: %s.%s.%s: no values stored in database for range %lu to %lu",
host->hostname,
st->id,
rd->id,
(unsigned long)after,
(unsigned long)before);
return NAN;
}
if (unlikely(EXPORTING_OPTIONS_DATA_SOURCE(instance->config.options) == EXPORTING_SOURCE_DATA_SUM))
return sum;
return sum / (calculated_number)counter;
}
/**
* Start batch formatting for every connector instance's buffer
*
* @param engine an engine data structure.
*/
void start_batch_formatting(struct engine *engine)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled) {
uv_mutex_lock(&instance->mutex);
if (instance->start_batch_formatting && instance->start_batch_formatting(instance) != 0) {
error("EXPORTING: cannot start batch formatting for %s", instance->config.name);
disable_instance(instance);
}
}
}
}
/**
* Start host formatting for every connector instance's buffer
*
* @param engine an engine data structure.
* @param host a data collecting host.
*/
void start_host_formatting(struct engine *engine, RRDHOST *host)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled) {
if (rrdhost_is_exportable(instance, host)) {
if (instance->start_host_formatting && instance->start_host_formatting(instance, host) != 0) {
error("EXPORTING: cannot start host formatting for %s", instance->config.name);
disable_instance(instance);
}
} else {
instance->skip_host = 1;
}
}
}
}
/**
* Start chart formatting for every connector instance's buffer
*
* @param engine an engine data structure.
* @param st a chart.
*/
void start_chart_formatting(struct engine *engine, RRDSET *st)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled && !instance->skip_host) {
if (rrdset_is_exportable(instance, st)) {
if (instance->start_chart_formatting && instance->start_chart_formatting(instance, st) != 0) {
error("EXPORTING: cannot start chart formatting for %s", instance->config.name);
disable_instance(instance);
}
} else {
instance->skip_chart = 1;
}
}
}
}
/**
* Format metric for every connector instance's buffer
*
* @param engine an engine data structure.
* @param rd a dimension(metric) in the Netdata database.
*/
void metric_formatting(struct engine *engine, RRDDIM *rd)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled && !instance->skip_host && !instance->skip_chart) {
if (instance->metric_formatting && instance->metric_formatting(instance, rd) != 0) {
error("EXPORTING: cannot format metric for %s", instance->config.name);
disable_instance(instance);
continue;
}
instance->stats.buffered_metrics++;
}
}
}
/**
* End chart formatting for every connector instance's buffer
*
* @param engine an engine data structure.
* @param a chart.
*/
void end_chart_formatting(struct engine *engine, RRDSET *st)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled && !instance->skip_host && !instance->skip_chart) {
if (instance->end_chart_formatting && instance->end_chart_formatting(instance, st) != 0) {
error("EXPORTING: cannot end chart formatting for %s", instance->config.name);
disable_instance(instance);
continue;
}
}
instance->skip_chart = 0;
}
}
/**
* End host formatting for every connector instance's buffer
*
* @param engine an engine data structure.
* @param host a data collecting host.
*/
void end_host_formatting(struct engine *engine, RRDHOST *host)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled && !instance->skip_host) {
if (instance->end_host_formatting && instance->end_host_formatting(instance, host) != 0) {
error("EXPORTING: cannot end host formatting for %s", instance->config.name);
disable_instance(instance);
continue;
}
}
instance->skip_host = 0;
}
}
/**
* End batch formatting for every connector instance's buffer
*
* @param engine an engine data structure.
*/
void end_batch_formatting(struct engine *engine)
{
for (struct instance *instance = engine->instance_root; instance; instance = instance->next) {
if (instance->scheduled) {
if (instance->end_batch_formatting && instance->end_batch_formatting(instance) != 0) {
error("EXPORTING: cannot end batch formatting for %s", instance->config.name);
disable_instance(instance);
continue;
}
uv_mutex_unlock(&instance->mutex);
instance->data_is_ready = 1;
uv_cond_signal(&instance->cond_var);
instance->scheduled = 0;
instance->after = instance->before;
}
}
}
/**
* Prepare buffers
*
* Walk through the Netdata database and fill buffers for every scheduled exporting connector instance according to
* configured rules.
*
* @param engine an engine data structure.
*/
void prepare_buffers(struct engine *engine)
{
netdata_thread_disable_cancelability();
start_batch_formatting(engine);
rrd_rdlock();
RRDHOST *host;
rrdhost_foreach_read(host)
{
rrdhost_rdlock(host);
start_host_formatting(engine, host);
RRDSET *st;
rrdset_foreach_read(st, host)
{
rrdset_rdlock(st);
start_chart_formatting(engine, st);
RRDDIM *rd;
rrddim_foreach_read(rd, st)
metric_formatting(engine, rd);
end_chart_formatting(engine, st);
rrdset_unlock(st);
}
end_host_formatting(engine, host);
rrdhost_unlock(host);
}
rrd_unlock();
netdata_thread_enable_cancelability();
end_batch_formatting(engine);
}
/**
* Flush a buffer with host labels
*
* @param instance an instance data structure.
* @param host a data collecting host.
* @return Always returns 0.
*/
int flush_host_labels(struct instance *instance, RRDHOST *host)
{
(void)host;
if (instance->labels)
buffer_flush(instance->labels);
return 0;
}
/**
* End a batch for a simple connector
*
* @param instance an instance data structure.
* @return Returns 0 on success, 1 on failure.
*/
int simple_connector_end_batch(struct instance *instance)
{
struct simple_connector_data *simple_connector_data =
(struct simple_connector_data *)instance->connector_specific_data;
struct stats *stats = &instance->stats;
BUFFER *instance_buffer = (BUFFER *)instance->buffer;
struct simple_connector_buffer *last_buffer = simple_connector_data->last_buffer;
if (!last_buffer->buffer) {
last_buffer->buffer = buffer_create(0);
}
if (last_buffer->used) {
// ring buffer is full, reuse the oldest element
simple_connector_data->first_buffer = simple_connector_data->first_buffer->next;
stats->data_lost_events++;
stats->lost_metrics += last_buffer->buffered_metrics;
stats->lost_bytes += last_buffer->buffered_bytes;
}
// swap buffers
BUFFER *tmp_buffer = last_buffer->buffer;
last_buffer->buffer = instance_buffer;
instance->buffer = instance_buffer = tmp_buffer;
buffer_flush(instance_buffer);
if (last_buffer->header)
buffer_flush(last_buffer->header);
else
last_buffer->header = buffer_create(0);
if (instance->prepare_header)
instance->prepare_header(instance);
// The stats->buffered_metrics is used in the simple connector batch formatting as a variable for the number
// of metrics, added in the current iteration, so we are clearing it here. We will use the
// simple_connector_data->total_buffered_metrics in the worker to show the statistics.
size_t buffered_metrics = (size_t)stats->buffered_metrics;
stats->buffered_metrics = 0;
size_t buffered_bytes = buffer_strlen(last_buffer->buffer);
last_buffer->buffered_metrics = buffered_metrics;
last_buffer->buffered_bytes = buffered_bytes;
last_buffer->used++;
simple_connector_data->total_buffered_metrics += buffered_metrics;
stats->buffered_bytes += buffered_bytes;
simple_connector_data->last_buffer = simple_connector_data->last_buffer->next;
return 0;
}
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