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|
// SPDX-License-Identifier: GPL-3.0-or-later
#ifndef NETDATA_RRDCONTEXT_H
#define NETDATA_RRDCONTEXT_H 1
// ----------------------------------------------------------------------------
// RRDMETRIC
typedef struct rrdmetric_acquired RRDMETRIC_ACQUIRED;
// ----------------------------------------------------------------------------
// RRDINSTANCE
typedef struct rrdinstance_acquired RRDINSTANCE_ACQUIRED;
// ----------------------------------------------------------------------------
// RRDCONTEXT
typedef struct rrdcontext_acquired RRDCONTEXT_ACQUIRED;
// ----------------------------------------------------------------------------
#include "../rrd.h"
bool rrdinstance_acquired_id_and_name_are_same(RRDINSTANCE_ACQUIRED *ria);
const char *rrdmetric_acquired_id(RRDMETRIC_ACQUIRED *rma);
const char *rrdmetric_acquired_name(RRDMETRIC_ACQUIRED *rma);
bool rrdmetric_acquired_has_name(RRDMETRIC_ACQUIRED *rma);
STRING *rrdmetric_acquired_id_dup(RRDMETRIC_ACQUIRED *rma);
STRING *rrdmetric_acquired_name_dup(RRDMETRIC_ACQUIRED *rma);
NETDATA_DOUBLE rrdmetric_acquired_last_stored_value(RRDMETRIC_ACQUIRED *rma);
time_t rrdmetric_acquired_first_entry(RRDMETRIC_ACQUIRED *rma);
time_t rrdmetric_acquired_last_entry(RRDMETRIC_ACQUIRED *rma);
bool rrdmetric_acquired_belongs_to_instance(RRDMETRIC_ACQUIRED *rma, RRDINSTANCE_ACQUIRED *ria);
const char *rrdinstance_acquired_id(RRDINSTANCE_ACQUIRED *ria);
const char *rrdinstance_acquired_name(RRDINSTANCE_ACQUIRED *ria);
bool rrdinstance_acquired_has_name(RRDINSTANCE_ACQUIRED *ria);
const char *rrdinstance_acquired_units(RRDINSTANCE_ACQUIRED *ria);
STRING *rrdinstance_acquired_units_dup(RRDINSTANCE_ACQUIRED *ria);
DICTIONARY *rrdinstance_acquired_labels(RRDINSTANCE_ACQUIRED *ria);
DICTIONARY *rrdinstance_acquired_functions(RRDINSTANCE_ACQUIRED *ria);
RRDHOST *rrdinstance_acquired_rrdhost(RRDINSTANCE_ACQUIRED *ria);
RRDSET *rrdinstance_acquired_rrdset(RRDINSTANCE_ACQUIRED *ria);
bool rrdinstance_acquired_belongs_to_context(RRDINSTANCE_ACQUIRED *ria, RRDCONTEXT_ACQUIRED *rca);
time_t rrdinstance_acquired_update_every(RRDINSTANCE_ACQUIRED *ria);
const char *rrdcontext_acquired_units(RRDCONTEXT_ACQUIRED *rca);
const char *rrdcontext_acquired_title(RRDCONTEXT_ACQUIRED *rca);
RRDSET_TYPE rrdcontext_acquired_chart_type(RRDCONTEXT_ACQUIRED *rca);
// ----------------------------------------------------------------------------
// public API for rrdhost
void rrdhost_load_rrdcontext_data(RRDHOST *host);
void rrdhost_create_rrdcontexts(RRDHOST *host);
void rrdhost_destroy_rrdcontexts(RRDHOST *host);
void rrdcontext_host_child_connected(RRDHOST *host);
void rrdcontext_host_child_disconnected(RRDHOST *host);
int rrdcontext_foreach_instance_with_rrdset_in_context(RRDHOST *host, const char *context, int (*callback)(RRDSET *st, void *data), void *data);
typedef enum {
RRDCONTEXT_OPTION_NONE = 0,
RRDCONTEXT_OPTION_SHOW_METRICS = (1 << 0),
RRDCONTEXT_OPTION_SHOW_INSTANCES = (1 << 1),
RRDCONTEXT_OPTION_SHOW_LABELS = (1 << 2),
RRDCONTEXT_OPTION_SHOW_QUEUED = (1 << 3),
RRDCONTEXT_OPTION_SHOW_FLAGS = (1 << 4),
RRDCONTEXT_OPTION_SHOW_DELETED = (1 << 5),
RRDCONTEXT_OPTION_DEEPSCAN = (1 << 6),
RRDCONTEXT_OPTION_SHOW_UUIDS = (1 << 7),
RRDCONTEXT_OPTION_SHOW_HIDDEN = (1 << 8),
RRDCONTEXT_OPTION_SKIP_ID = (1 << 31), // internal use
} RRDCONTEXT_TO_JSON_OPTIONS;
#define RRDCONTEXT_OPTIONS_ALL (RRDCONTEXT_OPTION_SHOW_METRICS|RRDCONTEXT_OPTION_SHOW_INSTANCES|RRDCONTEXT_OPTION_SHOW_LABELS|RRDCONTEXT_OPTION_SHOW_QUEUED|RRDCONTEXT_OPTION_SHOW_FLAGS|RRDCONTEXT_OPTION_SHOW_DELETED|RRDCONTEXT_OPTION_SHOW_UUIDS|RRDCONTEXT_OPTION_SHOW_HIDDEN)
int rrdcontext_to_json(RRDHOST *host, BUFFER *wb, time_t after, time_t before, RRDCONTEXT_TO_JSON_OPTIONS options, const char *context, SIMPLE_PATTERN *chart_label_key, SIMPLE_PATTERN *chart_labels_filter, SIMPLE_PATTERN *chart_dimensions);
int rrdcontexts_to_json(RRDHOST *host, BUFFER *wb, time_t after, time_t before, RRDCONTEXT_TO_JSON_OPTIONS options, SIMPLE_PATTERN *chart_label_key, SIMPLE_PATTERN *chart_labels_filter, SIMPLE_PATTERN *chart_dimensions);
// ----------------------------------------------------------------------------
// public API for rrdcontexts
const char *rrdcontext_acquired_id(RRDCONTEXT_ACQUIRED *rca);
bool rrdcontext_acquired_belongs_to_host(RRDCONTEXT_ACQUIRED *rca, RRDHOST *host);
// ----------------------------------------------------------------------------
// public API for rrddims
void rrdcontext_updated_rrddim(RRDDIM *rd);
void rrdcontext_removed_rrddim(RRDDIM *rd);
void rrdcontext_updated_rrddim_algorithm(RRDDIM *rd);
void rrdcontext_updated_rrddim_multiplier(RRDDIM *rd);
void rrdcontext_updated_rrddim_divisor(RRDDIM *rd);
void rrdcontext_updated_rrddim_flags(RRDDIM *rd);
void rrdcontext_collected_rrddim(RRDDIM *rd);
int rrdcontext_find_dimension_uuid(RRDSET *st, const char *id, uuid_t *store_uuid);
// ----------------------------------------------------------------------------
// public API for rrdsets
void rrdcontext_updated_rrdset(RRDSET *st);
void rrdcontext_removed_rrdset(RRDSET *st);
void rrdcontext_updated_rrdset_name(RRDSET *st);
void rrdcontext_updated_rrdset_flags(RRDSET *st);
void rrdcontext_updated_retention_rrdset(RRDSET *st);
void rrdcontext_collected_rrdset(RRDSET *st);
int rrdcontext_find_chart_uuid(RRDSET *st, uuid_t *store_uuid);
// ----------------------------------------------------------------------------
// public API for ACLK
void rrdcontext_hub_checkpoint_command(void *cmd);
void rrdcontext_hub_stop_streaming_command(void *cmd);
// ----------------------------------------------------------------------------
// public API for threads
void rrdcontext_db_rotation(void);
void *rrdcontext_main(void *);
// ----------------------------------------------------------------------------
// public API for queries
typedef enum __attribute__ ((__packed__)) {
QUERY_STATUS_NONE = 0,
QUERY_STATUS_QUERIED = (1 << 0),
QUERY_STATUS_DIMENSION_HIDDEN = (1 << 1),
QUERY_STATUS_EXCLUDED = (1 << 2),
QUERY_STATUS_FAILED = (1 << 3),
} QUERY_STATUS;
typedef struct query_plan_entry {
size_t tier;
time_t after;
time_t before;
} QUERY_PLAN_ENTRY;
#define QUERY_PLANS_MAX (RRD_STORAGE_TIERS)
typedef struct query_metrics_counts { // counts the number of metrics related to an object
size_t selected; // selected to be queried
size_t excluded; // not selected to be queried
size_t queried; // successfully queried
size_t failed; // failed to be queried
} QUERY_METRICS_COUNTS;
typedef struct query_instances_counts { // counts the number of instances related to an object
size_t selected; // selected to be queried
size_t excluded; // not selected to be queried
size_t queried; // successfully queried
size_t failed; // failed to be queried
} QUERY_INSTANCES_COUNTS;
typedef struct query_alerts_counts { // counts the number of alerts related to an object
size_t clear; // number of alerts in clear state
size_t warning; // number of alerts in warning state
size_t critical; // number of alerts in critical state
size_t other; // number of alerts in any other state
} QUERY_ALERTS_COUNTS;
typedef struct query_node {
uint32_t slot;
RRDHOST *rrdhost;
char node_id[UUID_STR_LEN];
usec_t duration_ut;
STORAGE_POINT query_points;
QUERY_INSTANCES_COUNTS instances;
QUERY_METRICS_COUNTS metrics;
QUERY_ALERTS_COUNTS alerts;
} QUERY_NODE;
typedef struct query_context {
uint32_t slot;
RRDCONTEXT_ACQUIRED *rca;
STORAGE_POINT query_points;
QUERY_INSTANCES_COUNTS instances;
QUERY_METRICS_COUNTS metrics;
QUERY_ALERTS_COUNTS alerts;
} QUERY_CONTEXT;
typedef struct query_instance {
uint32_t slot;
uint32_t query_host_id;
RRDINSTANCE_ACQUIRED *ria;
STRING *id_fqdn; // never access this directly - it is created on demand via query_instance_id_fqdn()
STRING *name_fqdn; // never access this directly - it is created on demand via query_instance_name_fqdn()
STORAGE_POINT query_points;
QUERY_METRICS_COUNTS metrics;
QUERY_ALERTS_COUNTS alerts;
} QUERY_INSTANCE;
typedef struct query_dimension {
uint32_t slot;
uint32_t priority;
RRDMETRIC_ACQUIRED *rma;
QUERY_STATUS status;
} QUERY_DIMENSION;
typedef struct query_metric {
RRDR_DIMENSION_FLAGS status;
struct query_metric_tier {
STORAGE_METRIC_HANDLE *db_metric_handle;
time_t db_first_time_s; // the oldest timestamp available for this tier
time_t db_last_time_s; // the latest timestamp available for this tier
time_t db_update_every_s; // latest update every for this tier
long weight;
} tiers[RRD_STORAGE_TIERS];
struct {
size_t used;
QUERY_PLAN_ENTRY array[QUERY_PLANS_MAX];
} plan;
struct {
uint32_t query_node_id;
uint32_t query_context_id;
uint32_t query_instance_id;
uint32_t query_dimension_id;
} link;
STORAGE_POINT query_points;
struct {
uint32_t slot;
uint32_t first_slot;
STRING *id;
STRING *name;
STRING *units;
} grouped_as;
usec_t duration_ut;
} QUERY_METRIC;
#define MAX_QUERY_TARGET_ID_LENGTH 255
#define MAX_QUERY_GROUP_BY_PASSES 2
typedef bool (*qt_interrupt_callback_t)(void *data);
struct group_by_pass {
RRDR_GROUP_BY group_by;
char *group_by_label;
RRDR_GROUP_BY_FUNCTION aggregation;
};
typedef struct query_target_request {
size_t version;
const char *scope_nodes;
const char *scope_contexts;
// selecting / filtering metrics to be queried
RRDHOST *host; // the host to be queried (can be NULL, hosts will be used)
RRDCONTEXT_ACQUIRED *rca; // the context to be queried (can be NULL)
RRDINSTANCE_ACQUIRED *ria; // the instance to be queried (can be NULL)
RRDMETRIC_ACQUIRED *rma; // the metric to be queried (can be NULL)
RRDSET *st; // the chart to be queried (NULL, for context queries)
const char *nodes; // hosts simple pattern
const char *contexts; // contexts simple pattern (context queries)
const char *instances; // charts simple pattern (for context queries)
const char *dimensions; // dimensions simple pattern
const char *chart_label_key; // select only the chart having this label key
const char *labels; // select only the charts having this combo of label key:value
const char *alerts; // select only the charts having this combo of alert name:status
time_t after; // the requested timeframe
time_t before; // the requested timeframe
size_t points; // the requested number of points to be returned
uint32_t format; // DATASOURCE_FORMAT
RRDR_OPTIONS options;
time_t timeout_ms; // the timeout of the query in milliseconds
size_t tier;
QUERY_SOURCE query_source;
STORAGE_PRIORITY priority;
// resampling metric values across time
time_t resampling_time;
// grouping metric values across time
RRDR_TIME_GROUPING time_group_method;
const char *time_group_options;
// group by across multiple time-series
struct group_by_pass group_by[MAX_QUERY_GROUP_BY_PASSES];
usec_t received_ut;
qt_interrupt_callback_t interrupt_callback;
void *interrupt_callback_data;
} QUERY_TARGET_REQUEST;
#define GROUP_BY_MAX_LABEL_KEYS 10
struct query_tier_statistics {
size_t queries;
size_t points;
time_t update_every;
struct {
time_t first_time_s;
time_t last_time_s;
} retention;
};
struct query_versions {
uint64_t contexts_hard_hash;
uint64_t contexts_soft_hash;
uint64_t alerts_hard_hash;
uint64_t alerts_soft_hash;
};
struct query_timings {
usec_t received_ut;
usec_t preprocessed_ut;
usec_t executed_ut;
usec_t finished_ut;
};
#define query_view_update_every(qt) ((qt)->window.group * (qt)->window.query_granularity)
typedef struct query_target {
char id[MAX_QUERY_TARGET_ID_LENGTH + 1]; // query identifier (for logging)
QUERY_TARGET_REQUEST request;
struct {
time_t now; // the current timestamp, the absolute max for any query timestamp
bool relative; // true when the request made with relative timestamps, true if it was absolute
bool aligned;
time_t after; // the absolute timestamp this query is about
time_t before; // the absolute timestamp this query is about
time_t query_granularity;
size_t points; // the number of points the query will return (maybe different from the request)
size_t group;
RRDR_TIME_GROUPING time_group_method;
const char *time_group_options;
size_t resampling_group;
NETDATA_DOUBLE resampling_divisor;
RRDR_OPTIONS options;
size_t tier;
} window;
struct {
size_t queries[RRD_STORAGE_TIERS];
time_t first_time_s; // the combined first_time_t of all metrics in the query, across all tiers
time_t last_time_s; // the combined last_time_T of all metrics in the query, across all tiers
time_t minimum_latest_update_every_s; // the min update every of the metrics in the query
struct query_tier_statistics tiers[RRD_STORAGE_TIERS];
} db;
struct {
QUERY_METRIC *array; // the metrics to be queried (all of them should be queried, no exceptions)
uint32_t used; // how many items of the array are used
uint32_t size; // the size of the array
SIMPLE_PATTERN *pattern;
} query;
struct {
QUERY_DIMENSION *array;
uint32_t used; // how many items of the array are used
uint32_t size; // the size of the array
} dimensions;
struct {
QUERY_INSTANCE *array;
uint32_t used; // how many items of the array are used
uint32_t size; // the size of the array
SIMPLE_PATTERN *pattern;
SIMPLE_PATTERN *labels_pattern;
SIMPLE_PATTERN *alerts_pattern;
SIMPLE_PATTERN *chart_label_key_pattern;
} instances;
struct {
QUERY_CONTEXT *array;
uint32_t used; // how many items of the array are used
uint32_t size; // the size of the array
SIMPLE_PATTERN *pattern;
SIMPLE_PATTERN *scope_pattern;
} contexts;
struct {
QUERY_NODE *array;
uint32_t used; // how many items of the array are used
uint32_t size; // the size of the array
SIMPLE_PATTERN *pattern;
SIMPLE_PATTERN *scope_pattern;
} nodes;
struct {
size_t used;
char *label_keys[GROUP_BY_MAX_LABEL_KEYS * MAX_QUERY_GROUP_BY_PASSES];
} group_by[MAX_QUERY_GROUP_BY_PASSES];
STORAGE_POINT query_points;
struct query_versions versions;
struct query_timings timings;
struct {
SPINLOCK spinlock;
bool used; // when true, this query is currently being used
bool relative; // when true, this query uses relative timestamps
size_t queries; // how many query we have done so far with this QUERY_TARGET - not related to database queries
struct query_target *prev;
struct query_target *next;
} internal;
} QUERY_TARGET;
struct sql_alert_transition_data {
usec_t global_id;
uuid_t *transition_id;
uuid_t *host_id;
uuid_t *config_hash_id;
uint32_t alarm_id;
const char *alert_name;
const char *chart;
const char *chart_name;
const char *chart_context;
const char *family;
const char *recipient;
const char *units;
const char *exec;
const char *info;
const char *classification;
const char *type;
const char *component;
time_t when_key;
time_t duration;
time_t non_clear_duration;
uint64_t flags;
time_t delay_up_to_timestamp;
time_t exec_run_timestamp;
int exec_code;
int new_status;
int old_status;
int delay;
time_t last_repeat;
NETDATA_DOUBLE new_value;
NETDATA_DOUBLE old_value;
};
struct sql_alert_config_data {
uuid_t *config_hash_id;
const char *name;
struct {
const char *on_template;
const char *on_key;
const char *os;
const char *hosts;
const char *families;
const char *plugin;
const char *module;
const char *host_labels;
const char *chart_labels;
const char *charts;
} selectors;
const char *info;
const char *classification;
const char *component;
const char *type;
struct {
struct {
const char *dimensions;
const char *method;
uint32_t options;
int32_t after;
int32_t before;
const char *lookup; // the lookup line, unparsed
} db;
const char *calc; // the calculation expression, unparsed
const char *units;
int32_t update_every; // the update frequency of the alert, in seconds
const char *every; // the every line, unparsed
} value;
struct {
const char *green; // the green threshold, unparsed
const char *red; // the red threshold, unparsed
const char *warn; // the warning expression, unparsed
const char *crit; // the critical expression, unparsed
} status;
struct {
const char *exec; // the script to execute, or NULL to execute the default script
const char *to_key; // the recipient, or NULL for the default recipient
const char *delay; // the delay line, unparsed
const char *repeat; // the repeat line, unparsed
const char *options; // FIXME what is this?
} notification;
const char *source; // the configuration file and line this alert came from
};
int contexts_v2_alert_config_to_json(struct web_client *w, const char *config_hash_id);
struct sql_alert_instance_v2_entry {
RRDCALC *tmp;
size_t ati;
STRING *context;
STRING *chart_id;
STRING *chart_name;
STRING *name;
STRING *family;
STRING *units;
STRING *source;
STRING *classification;
STRING *type;
STRING *component;
STRING *recipient;
RRDCALC_STATUS status;
RRDCALC_FLAGS flags;
STRING *info;
NETDATA_DOUBLE value;
time_t last_updated;
time_t last_status_change;
NETDATA_DOUBLE last_status_change_value;
uuid_t config_hash_id;
usec_t global_id;
uuid_t last_transition_id;
uint32_t alarm_id;
RRDHOST *host;
size_t ni;
};
static inline NEVERNULL QUERY_NODE *query_node(QUERY_TARGET *qt, size_t id) {
internal_fatal(id >= qt->nodes.used, "QUERY: invalid query host id");
return &qt->nodes.array[id];
}
static inline NEVERNULL QUERY_CONTEXT *query_context(QUERY_TARGET *qt, size_t query_context_id) {
internal_fatal(query_context_id >= qt->contexts.used, "QUERY: invalid query context id");
return &qt->contexts.array[query_context_id];
}
static inline NEVERNULL QUERY_INSTANCE *query_instance(QUERY_TARGET *qt, size_t query_instance_id) {
internal_fatal(query_instance_id >= qt->instances.used, "QUERY: invalid query instance id");
return &qt->instances.array[query_instance_id];
}
static inline NEVERNULL QUERY_DIMENSION *query_dimension(QUERY_TARGET *qt, size_t query_dimension_id) {
internal_fatal(query_dimension_id >= qt->dimensions.used, "QUERY: invalid query dimension id");
return &qt->dimensions.array[query_dimension_id];
}
static inline NEVERNULL QUERY_METRIC *query_metric(QUERY_TARGET *qt, size_t id) {
internal_fatal(id >= qt->query.used, "QUERY: invalid query metric id");
return &qt->query.array[id];
}
static inline const char *query_metric_id(QUERY_TARGET *qt, QUERY_METRIC *qm) {
QUERY_DIMENSION *qd = query_dimension(qt, qm->link.query_dimension_id);
return rrdmetric_acquired_id(qd->rma);
}
static inline const char *query_metric_name(QUERY_TARGET *qt, QUERY_METRIC *qm) {
QUERY_DIMENSION *qd = query_dimension(qt, qm->link.query_dimension_id);
return rrdmetric_acquired_name(qd->rma);
}
struct storage_engine *query_metric_storage_engine(QUERY_TARGET *qt, QUERY_METRIC *qm, size_t tier);
STRING *query_instance_id_fqdn(QUERY_INSTANCE *qi, size_t version);
STRING *query_instance_name_fqdn(QUERY_INSTANCE *qi, size_t version);
void query_target_free(void);
void query_target_release(QUERY_TARGET *qt);
QUERY_TARGET *query_target_create(QUERY_TARGET_REQUEST *qtr);
typedef enum __attribute__((packed)) {
ATF_STATUS = 0,
ATF_CLASS,
ATF_TYPE,
ATF_COMPONENT,
ATF_ROLE,
ATF_NODE,
ATF_ALERT_NAME,
ATF_CHART_NAME,
ATF_CONTEXT,
// total
ATF_TOTAL_ENTRIES,
} ALERT_TRANSITION_FACET;
struct alert_transitions_facets {
const char *name;
const char *query_param;
const char *id;
size_t order;
};
extern struct alert_transitions_facets alert_transition_facets[];
struct api_v2_contexts_request {
char *scope_nodes;
char *scope_contexts;
char *nodes;
char *contexts;
char *q;
CONTEXTS_V2_OPTIONS options;
struct {
CONTEXTS_V2_ALERT_STATUS status;
char *alert;
char *transition;
uint32_t last;
const char *facets[ATF_TOTAL_ENTRIES];
usec_t global_id_anchor;
} alerts;
time_t after;
time_t before;
time_t timeout_ms;
qt_interrupt_callback_t interrupt_callback;
void *interrupt_callback_data;
};
typedef enum __attribute__ ((__packed__)) {
CONTEXTS_V2_SEARCH = (1 << 1),
CONTEXTS_V2_NODES = (1 << 2),
CONTEXTS_V2_NODES_INFO = (1 << 3),
CONTEXTS_V2_NODE_INSTANCES = (1 << 4),
CONTEXTS_V2_CONTEXTS = (1 << 5),
CONTEXTS_V2_AGENTS = (1 << 6),
CONTEXTS_V2_AGENTS_INFO = (1 << 7),
CONTEXTS_V2_VERSIONS = (1 << 8),
CONTEXTS_V2_FUNCTIONS = (1 << 9),
CONTEXTS_V2_ALERTS = (1 << 10),
CONTEXTS_V2_ALERT_TRANSITIONS = (1 << 11),
} CONTEXTS_V2_MODE;
int rrdcontext_to_json_v2(BUFFER *wb, struct api_v2_contexts_request *req, CONTEXTS_V2_MODE mode);
RRDCONTEXT_TO_JSON_OPTIONS rrdcontext_to_json_parse_options(char *o);
void buffer_json_agents_v2(BUFFER *wb, struct query_timings *timings, time_t now_s, bool info, bool array);
void buffer_json_node_add_v2(BUFFER *wb, RRDHOST *host, size_t ni, usec_t duration_ut, bool status);
void buffer_json_query_timings(BUFFER *wb, const char *key, struct query_timings *timings);
void buffer_json_cloud_timings(BUFFER *wb, const char *key, struct query_timings *timings);
// ----------------------------------------------------------------------------
// scope
typedef ssize_t (*foreach_host_cb_t)(void *data, RRDHOST *host, bool queryable);
ssize_t query_scope_foreach_host(SIMPLE_PATTERN *scope_hosts_sp, SIMPLE_PATTERN *hosts_sp,
foreach_host_cb_t cb, void *data,
struct query_versions *versions,
char *host_node_id_str);
typedef ssize_t (*foreach_context_cb_t)(void *data, RRDCONTEXT_ACQUIRED *rca, bool queryable_context);
ssize_t query_scope_foreach_context(RRDHOST *host, const char *scope_contexts, SIMPLE_PATTERN *scope_contexts_sp, SIMPLE_PATTERN *contexts_sp, foreach_context_cb_t cb, bool queryable_host, void *data);
// ----------------------------------------------------------------------------
// public API for weights
typedef ssize_t (*weights_add_metric_t)(void *data, RRDHOST *host, RRDCONTEXT_ACQUIRED *rca, RRDINSTANCE_ACQUIRED *ria, RRDMETRIC_ACQUIRED *rma);
ssize_t weights_foreach_rrdmetric_in_context(RRDCONTEXT_ACQUIRED *rca,
SIMPLE_PATTERN *instances_sp,
SIMPLE_PATTERN *chart_label_key_sp,
SIMPLE_PATTERN *labels_sp,
SIMPLE_PATTERN *alerts_sp,
SIMPLE_PATTERN *dimensions_sp,
bool match_ids, bool match_names,
size_t version,
weights_add_metric_t cb,
void *data);
bool rrdcontext_retention_match(RRDCONTEXT_ACQUIRED *rca, time_t after, time_t before);
#define query_matches_retention(after, before, first_entry_s, last_entry_s, update_every_s) \
(((first_entry_s) - ((update_every_s) * 2) <= (before)) && \
((last_entry_s) + ((update_every_s) * 2) >= (after)))
#define query_target_aggregatable(qt) ((qt)->window.options & RRDR_OPTION_RETURN_RAW)
static inline bool query_has_group_by_aggregation_percentage(QUERY_TARGET *qt) {
// backwards compatibility
// If the request was made with group_by = "percentage-of-instance"
// we need to send back "raw" output with "count"
// otherwise, we need to send back "raw" output with "hidden"
bool last_is_percentage = false;
for(int g = 0; g < MAX_QUERY_GROUP_BY_PASSES ;g++) {
if(qt->request.group_by[g].group_by == RRDR_GROUP_BY_NONE)
break;
if(qt->request.group_by[g].group_by & RRDR_GROUP_BY_PERCENTAGE_OF_INSTANCE)
// backwards compatibility
return false;
if(qt->request.group_by[g].aggregation == RRDR_GROUP_BY_FUNCTION_PERCENTAGE)
last_is_percentage = true;
else
last_is_percentage = false;
}
return last_is_percentage;
}
static inline bool query_target_has_percentage_of_group(QUERY_TARGET *qt) {
for(size_t g = 0; g < MAX_QUERY_GROUP_BY_PASSES ;g++) {
if (qt->request.group_by[g].group_by & RRDR_GROUP_BY_PERCENTAGE_OF_INSTANCE)
return true;
if (qt->request.group_by[g].aggregation == RRDR_GROUP_BY_FUNCTION_PERCENTAGE)
return true;
}
return false;
}
static inline bool query_target_needs_all_dimensions(QUERY_TARGET *qt) {
if(qt->request.options & RRDR_OPTION_PERCENTAGE)
return true;
return query_target_has_percentage_of_group(qt);
}
static inline bool query_target_has_percentage_units(QUERY_TARGET *qt) {
if(qt->window.time_group_method == RRDR_GROUPING_CV)
return true;
if((qt->request.options & RRDR_OPTION_PERCENTAGE) && !(qt->window.options & RRDR_OPTION_RETURN_RAW))
return true;
return query_target_has_percentage_of_group(qt);
}
#endif // NETDATA_RRDCONTEXT_H
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