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// SPDX-License-Identifier: GPL-3.0-or-later
#ifndef NETDATA_RRD_H
#define NETDATA_RRD_H 1
// forward typedefs
typedef struct rrdhost RRDHOST;
typedef struct rrddim RRDDIM;
typedef struct rrdset RRDSET;
typedef struct rrdvar RRDVAR;
typedef struct rrdsetvar RRDSETVAR;
typedef struct rrddimvar RRDDIMVAR;
typedef struct rrdcalc RRDCALC;
typedef struct rrdcalctemplate RRDCALCTEMPLATE;
typedef struct alarm_entry ALARM_ENTRY;
typedef struct context_param CONTEXT_PARAM;
typedef void *ml_host_t;
typedef void *ml_dimension_t;
// forward declarations
struct rrddim_volatile;
struct rrdset_volatile;
struct context_param;
struct label;
#ifdef ENABLE_DBENGINE
struct rrdeng_page_descr;
struct rrdengine_instance;
struct pg_cache_page_index;
#endif
#include "daemon/common.h"
#include "web/api/queries/query.h"
#include "rrdvar.h"
#include "rrdsetvar.h"
#include "rrddimvar.h"
#include "rrdcalc.h"
#include "rrdcalctemplate.h"
#include "streaming/rrdpush.h"
#include "aclk/aclk_rrdhost_state.h"
#include "sqlite/sqlite_health.h"
enum {
CONTEXT_FLAGS_ARCHIVE = 0x01,
CONTEXT_FLAGS_CHART = 0x02,
CONTEXT_FLAGS_CONTEXT = 0x04
};
struct context_param {
RRDDIM *rd;
time_t first_entry_t;
time_t last_entry_t;
uint8_t flags;
};
#define RRDSET_MINIMUM_LIVE_COUNT 3
#define META_CHART_UPDATED 1
#define META_PLUGIN_UPDATED 2
#define META_MODULE_UPDATED 4
#define META_CHART_ACTIVATED 8
#define UPDATE_EVERY 1
#define UPDATE_EVERY_MAX 3600
#define RRD_DEFAULT_HISTORY_ENTRIES 3600
#define RRD_HISTORY_ENTRIES_MAX (86400*365)
extern int default_rrd_update_every;
extern int default_rrd_history_entries;
extern int gap_when_lost_iterations_above;
extern time_t rrdset_free_obsolete_time;
#define RRD_ID_LENGTH_MAX 200
#define RRDSET_MAGIC "NETDATA RRD SET FILE V019"
#define RRDDIMENSION_MAGIC "NETDATA RRD DIMENSION FILE V019"
typedef long long total_number;
#define TOTAL_NUMBER_FORMAT "%lld"
// ----------------------------------------------------------------------------
// chart types
typedef enum rrdset_type {
RRDSET_TYPE_LINE = 0,
RRDSET_TYPE_AREA = 1,
RRDSET_TYPE_STACKED = 2
} RRDSET_TYPE;
#define RRDSET_TYPE_LINE_NAME "line"
#define RRDSET_TYPE_AREA_NAME "area"
#define RRDSET_TYPE_STACKED_NAME "stacked"
RRDSET_TYPE rrdset_type_id(const char *name);
const char *rrdset_type_name(RRDSET_TYPE chart_type);
// ----------------------------------------------------------------------------
// memory mode
typedef enum rrd_memory_mode {
RRD_MEMORY_MODE_NONE = 0,
RRD_MEMORY_MODE_RAM = 1,
RRD_MEMORY_MODE_MAP = 2,
RRD_MEMORY_MODE_SAVE = 3,
RRD_MEMORY_MODE_ALLOC = 4,
RRD_MEMORY_MODE_DBENGINE = 5
} RRD_MEMORY_MODE;
#define RRD_MEMORY_MODE_NONE_NAME "none"
#define RRD_MEMORY_MODE_RAM_NAME "ram"
#define RRD_MEMORY_MODE_MAP_NAME "map"
#define RRD_MEMORY_MODE_SAVE_NAME "save"
#define RRD_MEMORY_MODE_ALLOC_NAME "alloc"
#define RRD_MEMORY_MODE_DBENGINE_NAME "dbengine"
extern RRD_MEMORY_MODE default_rrd_memory_mode;
extern const char *rrd_memory_mode_name(RRD_MEMORY_MODE id);
extern RRD_MEMORY_MODE rrd_memory_mode_id(const char *name);
// ----------------------------------------------------------------------------
// algorithms types
typedef enum rrd_algorithm {
RRD_ALGORITHM_ABSOLUTE = 0,
RRD_ALGORITHM_INCREMENTAL = 1,
RRD_ALGORITHM_PCENT_OVER_DIFF_TOTAL = 2,
RRD_ALGORITHM_PCENT_OVER_ROW_TOTAL = 3
} RRD_ALGORITHM;
#define RRD_ALGORITHM_ABSOLUTE_NAME "absolute"
#define RRD_ALGORITHM_INCREMENTAL_NAME "incremental"
#define RRD_ALGORITHM_PCENT_OVER_DIFF_TOTAL_NAME "percentage-of-incremental-row"
#define RRD_ALGORITHM_PCENT_OVER_ROW_TOTAL_NAME "percentage-of-absolute-row"
extern RRD_ALGORITHM rrd_algorithm_id(const char *name);
extern const char *rrd_algorithm_name(RRD_ALGORITHM algorithm);
// ----------------------------------------------------------------------------
// RRD FAMILY
struct rrdfamily {
avl_t avl;
const char *family;
uint32_t hash_family;
size_t use_count;
avl_tree_lock rrdvar_root_index;
};
typedef struct rrdfamily RRDFAMILY;
// ----------------------------------------------------------------------------
// flags
// use this for configuration flags, not for state control
// flags are set/unset in a manner that is not thread safe
// and may lead to missing information.
typedef enum rrddim_flags {
RRDDIM_FLAG_NONE = 0,
RRDDIM_FLAG_HIDDEN = (1 << 0), // this dimension will not be offered to callers
RRDDIM_FLAG_DONT_DETECT_RESETS_OR_OVERFLOWS = (1 << 1), // do not offer RESET or OVERFLOW info to callers
RRDDIM_FLAG_OBSOLETE = (1 << 2), // this is marked by the collector/module as obsolete
// No new values have been collected for this dimension since agent start or it was marked RRDDIM_FLAG_OBSOLETE at
// least rrdset_free_obsolete_time seconds ago.
RRDDIM_FLAG_ARCHIVED = (1 << 3),
RRDDIM_FLAG_ACLK = (1 << 4)
} RRDDIM_FLAGS;
#ifdef HAVE_C___ATOMIC
#define rrddim_flag_check(rd, flag) (__atomic_load_n(&((rd)->flags), __ATOMIC_SEQ_CST) & (flag))
#define rrddim_flag_set(rd, flag) __atomic_or_fetch(&((rd)->flags), (flag), __ATOMIC_SEQ_CST)
#define rrddim_flag_clear(rd, flag) __atomic_and_fetch(&((rd)->flags), ~(flag), __ATOMIC_SEQ_CST)
#else
#define rrddim_flag_check(rd, flag) ((rd)->flags & (flag))
#define rrddim_flag_set(rd, flag) (rd)->flags |= (flag)
#define rrddim_flag_clear(rd, flag) (rd)->flags &= ~(flag)
#endif
typedef enum label_source {
LABEL_SOURCE_AUTO = 0,
LABEL_SOURCE_NETDATA_CONF = 1,
LABEL_SOURCE_DOCKER = 2,
LABEL_SOURCE_ENVIRONMENT = 3,
LABEL_SOURCE_KUBERNETES = 4
} LABEL_SOURCE;
#define LABEL_FLAG_UPDATE_STREAM 1
#define LABEL_FLAG_STOP_STREAM 2
struct label {
char *key, *value;
uint32_t key_hash;
LABEL_SOURCE label_source;
struct label *next;
};
struct label_index {
struct label *head; // Label list
netdata_rwlock_t labels_rwlock; // lock for the label list
uint32_t labels_flag; // Flags for labels
};
typedef enum strip_quotes {
DO_NOT_STRIP_QUOTES,
STRIP_QUOTES
} STRIP_QUOTES_OPTION;
typedef enum skip_escaped_characters {
DO_NOT_SKIP_ESCAPED_CHARACTERS,
SKIP_ESCAPED_CHARACTERS
} SKIP_ESCAPED_CHARACTERS_OPTION;
char *translate_label_source(LABEL_SOURCE l);
struct label *create_label(char *key, char *value, LABEL_SOURCE label_source);
extern struct label *add_label_to_list(struct label *l, char *key, char *value, LABEL_SOURCE label_source);
extern void update_label_list(struct label **labels, struct label *new_labels);
extern void replace_label_list(struct label_index *labels, struct label *new_labels);
extern int is_valid_label_value(char *value);
extern int is_valid_label_key(char *key);
extern void free_label_list(struct label *labels);
extern struct label *label_list_lookup_key(struct label *head, char *key, uint32_t key_hash);
extern struct label *label_list_lookup_keylist(struct label *head, char *keylist);
extern int label_list_contains_keylist(struct label *head, char *keylist);
extern int label_list_contains_key(struct label *head, char *key, uint32_t key_hash);
extern int label_list_contains(struct label *head, struct label *check);
extern struct label *merge_label_lists(struct label *lo_pri, struct label *hi_pri);
extern void strip_last_symbol(
char *str,
char symbol,
SKIP_ESCAPED_CHARACTERS_OPTION skip_escaped_characters);
extern char *strip_double_quotes(char *str, SKIP_ESCAPED_CHARACTERS_OPTION skip_escaped_characters);
void reload_host_labels(void);
extern void rrdset_add_label_to_new_list(RRDSET *st, char *key, char *value, LABEL_SOURCE source);
extern void rrdset_finalize_labels(RRDSET *st);
extern void rrdset_update_labels(RRDSET *st, struct label *labels);
extern int rrdset_contains_label_keylist(RRDSET *st, char *key);
extern struct label *rrdset_lookup_label_key(RRDSET *st, char *key, uint32_t key_hash);
// ----------------------------------------------------------------------------
// RRD DIMENSION - this is a metric
struct rrddim {
// ------------------------------------------------------------------------
// binary indexing structures
avl_t avl; // the binary index - this has to be first member!
// ------------------------------------------------------------------------
// the dimension definition
const char *id; // the id of this dimension (for internal identification)
const char *name; // the name of this dimension (as presented to user)
// this is a pointer to the config structure
// since the config always has a higher priority
// (the user overwrites the name of the charts)
// DO NOT FREE THIS - IT IS ALLOCATED IN CONFIG
RRD_ALGORITHM algorithm; // the algorithm that is applied to add new collected values
RRD_MEMORY_MODE rrd_memory_mode; // the memory mode for this dimension
collected_number multiplier; // the multiplier of the collected values
collected_number divisor; // the divider of the collected values
uint32_t flags; // configuration flags for the dimension
// ------------------------------------------------------------------------
// members for temporary data we need for calculations
uint32_t hash; // a simple hash of the id, to speed up searching / indexing
// instead of strcmp() every item in the binary index
// we first compare the hashes
uint32_t hash_name; // a simple hash of the name
char *cache_filename; // the filename we load/save from/to this set
size_t collections_counter; // the number of times we added values to this rrdim
struct rrddim_volatile *state; // volatile state that is not persistently stored
size_t unused[8];
collected_number collected_value_max; // the absolute maximum of the collected value
unsigned int updated:1; // 1 when the dimension has been updated since the last processing
unsigned int exposed:1; // 1 when set what have sent this dimension to the central netdata
struct timeval last_collected_time; // when was this dimension last updated
// this is actual date time we updated the last_collected_value
// THIS IS DIFFERENT FROM THE SAME MEMBER OF RRDSET
calculated_number calculated_value; // the current calculated value, after applying the algorithm - resets to zero after being used
calculated_number last_calculated_value; // the last calculated value processed
calculated_number last_stored_value; // the last value as stored in the database (after interpolation)
collected_number collected_value; // the current value, as collected - resets to 0 after being used
collected_number last_collected_value; // the last value that was collected, after being processed
// the *_volume members are used to calculate the accuracy of the rounding done by the
// storage number - they are printed to debug.log when debug is enabled for a set.
calculated_number collected_volume; // the sum of all collected values so far
calculated_number stored_volume; // the sum of all stored values so far
struct rrddim *next; // linking of dimensions within the same data set
struct rrdset *rrdset;
// ------------------------------------------------------------------------
// members for checking the data when loading from disk
long entries; // how many entries this dimension has in ram
// this is the same to the entries of the data set
// we set it here, to check the data when we load it from disk.
int update_every; // every how many seconds is this updated
size_t memsize; // the memory allocated for this dimension
char magic[sizeof(RRDDIMENSION_MAGIC) + 1]; // a string to be saved, used to identify our data file
struct rrddimvar *variables;
// ------------------------------------------------------------------------
// the values stored in this dimension, using our floating point numbers
storage_number values[]; // the array of values - THIS HAS TO BE THE LAST MEMBER
};
// ----------------------------------------------------------------------------
// iterator state for RRD dimension data collection
union rrddim_collect_handle {
struct {
long slot;
long entries;
} slotted; // state the legacy code uses
#ifdef ENABLE_DBENGINE
struct rrdeng_collect_handle {
struct rrdeng_page_descr *descr, *prev_descr;
unsigned long page_correlation_id;
struct rrdengine_instance *ctx;
// set to 1 when this dimension is not page aligned with the other dimensions in the chart
uint8_t unaligned_page;
} rrdeng; // state the database engine uses
#endif
};
// ----------------------------------------------------------------------------
// iterator state for RRD dimension data queries
#ifdef ENABLE_DBENGINE
struct rrdeng_query_handle {
struct rrdeng_page_descr *descr;
struct rrdengine_instance *ctx;
struct pg_cache_page_index *page_index;
time_t next_page_time;
time_t now;
unsigned position;
};
#endif
struct rrddim_query_handle {
RRDDIM *rd;
time_t start_time;
time_t end_time;
union {
struct {
long slot;
long last_slot;
uint8_t finished;
} slotted; // state the legacy code uses
#ifdef ENABLE_DBENGINE
struct rrdeng_query_handle rrdeng; // state the database engine uses
#endif
};
};
// ----------------------------------------------------------------------------
// volatile state per RRD dimension
struct rrddim_volatile {
#ifdef ENABLE_DBENGINE
uuid_t *rrdeng_uuid; // database engine metric UUID
struct pg_cache_page_index *page_index;
#endif
#ifdef ENABLE_ACLK
int aclk_live_status;
#endif
uuid_t metric_uuid; // global UUID for this metric (unique_across hosts)
union rrddim_collect_handle handle;
// ------------------------------------------------------------------------
// function pointers that handle data collection
struct rrddim_collect_ops {
// an initialization function to run before starting collection
void (*init)(RRDDIM *rd);
// run this to store each metric into the database
void (*store_metric)(RRDDIM *rd, usec_t point_in_time, storage_number number);
// an finalization function to run after collection is over
// returns 1 if it's safe to delete the dimension
int (*finalize)(RRDDIM *rd);
} collect_ops;
// function pointers that handle database queries
struct rrddim_query_ops {
// run this before starting a series of next_metric() database queries
void (*init)(RRDDIM *rd, struct rrddim_query_handle *handle, time_t start_time, time_t end_time);
// run this to load each metric number from the database
storage_number (*next_metric)(struct rrddim_query_handle *handle, time_t *current_time);
// run this to test if the series of next_metric() database queries is finished
int (*is_finished)(struct rrddim_query_handle *handle);
// run this after finishing a series of load_metric() database queries
void (*finalize)(struct rrddim_query_handle *handle);
// get the timestamp of the last entry of this metric
time_t (*latest_time)(RRDDIM *rd);
// get the timestamp of the first entry of this metric
time_t (*oldest_time)(RRDDIM *rd);
} query_ops;
ml_dimension_t ml_dimension;
};
// ----------------------------------------------------------------------------
// volatile state per chart
struct rrdset_volatile {
char *old_title;
char *old_context;
uuid_t hash_id;
struct label *new_labels;
struct label_index labels;
};
// ----------------------------------------------------------------------------
// these loop macros make sure the linked list is accessed with the right lock
#define rrddim_foreach_read(rd, st) \
for((rd) = (st)->dimensions, rrdset_check_rdlock(st); (rd) ; (rd) = (rd)->next)
#define rrddim_foreach_write(rd, st) \
for((rd) = (st)->dimensions, rrdset_check_wrlock(st); (rd) ; (rd) = (rd)->next)
// ----------------------------------------------------------------------------
// RRDSET - this is a chart
// use this for configuration flags, not for state control
// flags are set/unset in a manner that is not thread safe
// and may lead to missing information.
typedef enum rrdset_flags {
RRDSET_FLAG_ENABLED = 1 << 0, // enables or disables a chart
RRDSET_FLAG_DETAIL = 1 << 1, // if set, the data set should be considered as a detail of another
// (the master data set should be the one that has the same family and is not detail)
RRDSET_FLAG_DEBUG = 1 << 2, // enables or disables debugging for a chart
RRDSET_FLAG_OBSOLETE = 1 << 3, // this is marked by the collector/module as obsolete
RRDSET_FLAG_EXPORTING_SEND = 1 << 4, // if set, this chart should be sent to Prometheus web API
RRDSET_FLAG_EXPORTING_IGNORE = 1 << 5, // if set, this chart should not be sent to Prometheus web API
RRDSET_FLAG_UPSTREAM_SEND = 1 << 6, // if set, this chart should be sent upstream (streaming)
RRDSET_FLAG_UPSTREAM_IGNORE = 1 << 7, // if set, this chart should not be sent upstream (streaming)
RRDSET_FLAG_UPSTREAM_EXPOSED = 1 << 8, // if set, we have sent this chart definition to netdata parent (streaming)
RRDSET_FLAG_STORE_FIRST = 1 << 9, // if set, do not eliminate the first collection during interpolation
RRDSET_FLAG_HETEROGENEOUS = 1 << 10, // if set, the chart is not homogeneous (dimensions in it have multiple algorithms, multipliers or dividers)
RRDSET_FLAG_HOMOGENEOUS_CHECK = 1 << 11, // if set, the chart should be checked to determine if the dimensions are homogeneous
RRDSET_FLAG_HIDDEN = 1 << 12, // if set, do not show this chart on the dashboard, but use it for backends
RRDSET_FLAG_SYNC_CLOCK = 1 << 13, // if set, microseconds on next data collection will be ignored (the chart will be synced to now)
RRDSET_FLAG_OBSOLETE_DIMENSIONS = 1 << 14, // this is marked by the collector/module when a chart has obsolete dimensions
// No new values have been collected for this chart since agent start or it was marked RRDSET_FLAG_OBSOLETE at
// least rrdset_free_obsolete_time seconds ago.
RRDSET_FLAG_ARCHIVED = 1 << 15,
RRDSET_FLAG_ACLK = 1 << 16,
RRDSET_FLAG_BACKEND_SEND = 1 << 17, // if set, this chart should be sent to backends
RRDSET_FLAG_BACKEND_IGNORE = 1 << 18 // if set, this chart should not be sent to backends
} RRDSET_FLAGS;
#ifdef HAVE_C___ATOMIC
#define rrdset_flag_check(st, flag) (__atomic_load_n(&((st)->flags), __ATOMIC_SEQ_CST) & (flag))
#define rrdset_flag_set(st, flag) __atomic_or_fetch(&((st)->flags), flag, __ATOMIC_SEQ_CST)
#define rrdset_flag_clear(st, flag) __atomic_and_fetch(&((st)->flags), ~flag, __ATOMIC_SEQ_CST)
#else
#define rrdset_flag_check(st, flag) ((st)->flags & (flag))
#define rrdset_flag_set(st, flag) (st)->flags |= (flag)
#define rrdset_flag_clear(st, flag) (st)->flags &= ~(flag)
#endif
#define rrdset_flag_check_noatomic(st, flag) ((st)->flags & (flag))
struct rrdset {
// ------------------------------------------------------------------------
// binary indexing structures
avl_t avl; // the index, with key the id - this has to be first!
avl_t avlname; // the index, with key the name
// ------------------------------------------------------------------------
// the set configuration
char id[RRD_ID_LENGTH_MAX + 1]; // id of the data set
const char *name; // the name of this dimension (as presented to user)
// this is a pointer to the config structure
// since the config always has a higher priority
// (the user overwrites the name of the charts)
char *config_section; // the config section for the chart
char *type; // the type of graph RRD_TYPE_* (a category, for determining graphing options)
char *family; // grouping sets under the same family
char *title; // title shown to user
char *units; // units of measurement
char *context; // the template of this data set
uint32_t hash_context; // the hash of the chart's context
RRDSET_TYPE chart_type; // line, area, stacked
int update_every; // every how many seconds is this updated?
long entries; // total number of entries in the data set
long current_entry; // the entry that is currently being updated
// it goes around in a round-robin fashion
RRDSET_FLAGS flags; // configuration flags
RRDSET_FLAGS *exporting_flags; // array of flags for exporting connector instances
int gap_when_lost_iterations_above; // after how many lost iterations a gap should be stored
// netdata will interpolate values for gaps lower than this
long priority; // the sorting priority of this chart
// ------------------------------------------------------------------------
// members for temporary data we need for calculations
RRD_MEMORY_MODE rrd_memory_mode; // if set to 1, this is memory mapped
char *cache_dir; // the directory to store dimensions
char cache_filename[FILENAME_MAX+1]; // the filename to store this set
netdata_rwlock_t rrdset_rwlock; // protects dimensions linked list
size_t counter; // the number of times we added values to this database
size_t counter_done; // the number of times rrdset_done() has been called
union {
time_t last_accessed_time; // the last time this RRDSET has been accessed
time_t last_entry_t; // the last_entry_t computed for transient RRDSET
};
time_t upstream_resync_time; // the timestamp up to which we should resync clock upstream
char *plugin_name; // the name of the plugin that generated this
char *module_name; // the name of the plugin module that generated this
uuid_t *chart_uuid; // Store the global GUID for this chart
// this object.
struct rrdset_volatile *state; // volatile state that is not persistently stored
size_t unused[3];
size_t rrddim_page_alignment; // keeps metric pages in alignment when using dbengine
uint32_t hash; // a simple hash on the id, to speed up searching
// we first compare hashes, and only if the hashes are equal we do string comparisons
uint32_t hash_name; // a simple hash on the name
usec_t usec_since_last_update; // the time in microseconds since the last collection of data
struct timeval last_updated; // when this data set was last updated (updated every time the rrd_stats_done() function)
struct timeval last_collected_time; // when did this data set last collected values
total_number collected_total; // used internally to calculate percentages
total_number last_collected_total; // used internally to calculate percentages
RRDFAMILY *rrdfamily; // pointer to RRDFAMILY this chart belongs to
RRDHOST *rrdhost; // pointer to RRDHOST this chart belongs to
struct rrdset *next; // linking of rrdsets
// ------------------------------------------------------------------------
// local variables
calculated_number green; // green threshold for this chart
calculated_number red; // red threshold for this chart
avl_tree_lock rrdvar_root_index; // RRDVAR index for this chart
RRDSETVAR *variables; // RRDSETVAR linked list for this chart (one RRDSETVAR, many RRDVARs)
RRDCALC *alarms; // RRDCALC linked list for this chart
// ------------------------------------------------------------------------
// members for checking the data when loading from disk
unsigned long memsize; // how much mem we have allocated for this (without dimensions)
char magic[sizeof(RRDSET_MAGIC) + 1]; // our magic
// ------------------------------------------------------------------------
// the dimensions
avl_tree_lock dimensions_index; // the root of the dimensions index
RRDDIM *dimensions; // the actual data for every dimension
};
#define rrdset_rdlock(st) netdata_rwlock_rdlock(&((st)->rrdset_rwlock))
#define rrdset_wrlock(st) netdata_rwlock_wrlock(&((st)->rrdset_rwlock))
#define rrdset_unlock(st) netdata_rwlock_unlock(&((st)->rrdset_rwlock))
// ----------------------------------------------------------------------------
// these loop macros make sure the linked list is accessed with the right lock
#define rrdset_foreach_read(st, host) \
for((st) = (host)->rrdset_root, rrdhost_check_rdlock(host); st ; (st) = (st)->next)
#define rrdset_foreach_write(st, host) \
for((st) = (host)->rrdset_root, rrdhost_check_wrlock(host); st ; (st) = (st)->next)
// ----------------------------------------------------------------------------
// RRDHOST flags
// use this for configuration flags, not for state control
// flags are set/unset in a manner that is not thread safe
// and may lead to missing information.
typedef enum rrdhost_flags {
RRDHOST_FLAG_ORPHAN = 1 << 0, // this host is orphan (not receiving data)
RRDHOST_FLAG_DELETE_OBSOLETE_CHARTS = 1 << 1, // delete files of obsolete charts
RRDHOST_FLAG_DELETE_ORPHAN_HOST = 1 << 2, // delete the entire host when orphan
RRDHOST_FLAG_BACKEND_SEND = 1 << 3, // send it to backends
RRDHOST_FLAG_BACKEND_DONT_SEND = 1 << 4, // don't send it to backends
RRDHOST_FLAG_ARCHIVED = 1 << 5, // The host is archived, no collected charts yet
RRDHOST_FLAG_MULTIHOST = 1 << 6, // Host belongs to localhost/megadb
} RRDHOST_FLAGS;
#ifdef HAVE_C___ATOMIC
#define rrdhost_flag_check(host, flag) (__atomic_load_n(&((host)->flags), __ATOMIC_SEQ_CST) & (flag))
#define rrdhost_flag_set(host, flag) __atomic_or_fetch(&((host)->flags), flag, __ATOMIC_SEQ_CST)
#define rrdhost_flag_clear(host, flag) __atomic_and_fetch(&((host)->flags), ~flag, __ATOMIC_SEQ_CST)
#else
#define rrdhost_flag_check(host, flag) ((host)->flags & (flag))
#define rrdhost_flag_set(host, flag) (host)->flags |= (flag)
#define rrdhost_flag_clear(host, flag) (host)->flags &= ~(flag)
#endif
#ifdef NETDATA_INTERNAL_CHECKS
#define rrdset_debug(st, fmt, args...) do { if(unlikely(debug_flags & D_RRD_STATS && rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) \
debug_int(__FILE__, __FUNCTION__, __LINE__, "%s: " fmt, st->name, ##args); } while(0)
#else
#define rrdset_debug(st, fmt, args...) debug_dummy()
#endif
// ----------------------------------------------------------------------------
// Health data
struct alarm_entry {
uint32_t unique_id;
uint32_t alarm_id;
uint32_t alarm_event_id;
uuid_t config_hash_id;
time_t when;
time_t duration;
time_t non_clear_duration;
char *name;
uint32_t hash_name;
char *chart;
uint32_t hash_chart;
char *family;
char *classification;
char *component;
char *type;
char *exec;
char *recipient;
time_t exec_run_timestamp;
int exec_code;
uint64_t exec_spawn_serial;
char *source;
char *units;
char *info;
calculated_number old_value;
calculated_number new_value;
char *old_value_string;
char *new_value_string;
RRDCALC_STATUS old_status;
RRDCALC_STATUS new_status;
uint32_t flags;
int delay;
time_t delay_up_to_timestamp;
uint32_t updated_by_id;
uint32_t updates_id;
time_t last_repeat;
struct alarm_entry *next;
struct alarm_entry *next_in_progress;
struct alarm_entry *prev_in_progress;
};
typedef struct alarm_log {
uint32_t next_log_id;
uint32_t next_alarm_id;
unsigned int count;
unsigned int max;
ALARM_ENTRY *alarms;
netdata_rwlock_t alarm_log_rwlock;
} ALARM_LOG;
// ----------------------------------------------------------------------------
// RRD HOST
struct rrdhost_system_info {
char *host_os_name;
char *host_os_id;
char *host_os_id_like;
char *host_os_version;
char *host_os_version_id;
char *host_os_detection;
char *host_cores;
char *host_cpu_freq;
char *host_ram_total;
char *host_disk_space;
char *container_os_name;
char *container_os_id;
char *container_os_id_like;
char *container_os_version;
char *container_os_version_id;
char *container_os_detection;
char *kernel_name;
char *kernel_version;
char *architecture;
char *virtualization;
char *virt_detection;
char *container;
char *container_detection;
char *is_k8s_node;
uint16_t hops;
};
struct rrdhost {
avl_t avl; // the index of hosts
// ------------------------------------------------------------------------
// host information
char *hostname; // the hostname of this host
uint32_t hash_hostname; // the hostname hash
char *registry_hostname; // the registry hostname for this host
char machine_guid[GUID_LEN + 1]; // the unique ID of this host
uint32_t hash_machine_guid; // the hash of the unique ID
const char *os; // the O/S type of the host
const char *tags; // tags for this host
const char *timezone; // the timezone of the host
#ifdef ENABLE_ACLK
long deleted_charts_count;
#endif
const char *abbrev_timezone; // the abbriviated timezone of the host
int32_t utc_offset; // the offset in seconds from utc
RRDHOST_FLAGS flags; // flags about this RRDHOST
RRDHOST_FLAGS *exporting_flags; // array of flags for exporting connector instances
int rrd_update_every; // the update frequency of the host
long rrd_history_entries; // the number of history entries for the host's charts
RRD_MEMORY_MODE rrd_memory_mode; // the memory more for the charts of this host
char *cache_dir; // the directory to save RRD cache files
char *varlib_dir; // the directory to save health log
char *program_name; // the program name that collects metrics for this host
char *program_version; // the program version that collects metrics for this host
struct rrdhost_system_info *system_info; // information collected from the host environment
// ------------------------------------------------------------------------
// streaming of data to remote hosts - rrdpush
unsigned int rrdpush_send_enabled:1; // 1 when this host sends metrics to another netdata
char *rrdpush_send_destination; // where to send metrics to
char *rrdpush_send_api_key; // the api key at the receiving netdata
// the following are state information for the threading
// streaming metrics from this netdata to an upstream netdata
struct sender_state *sender;
volatile unsigned int rrdpush_sender_spawn:1; // 1 when the sender thread has been spawn
netdata_thread_t rrdpush_sender_thread; // the sender thread
void *dbsync_worker;
volatile unsigned int rrdpush_sender_connected:1; // 1 when the sender is ready to push metrics
int rrdpush_sender_socket; // the fd of the socket to the remote host, or -1
volatile unsigned int rrdpush_sender_error_shown:1; // 1 when we have logged a communication error
volatile unsigned int rrdpush_sender_join:1; // 1 when we have to join the sending thread
SIMPLE_PATTERN *rrdpush_send_charts_matching; // pattern to match the charts to be sent
int rrdpush_sender_pipe[2]; // collector to sender thread signaling
//BUFFER *rrdpush_sender_buffer; // collector fills it, sender sends it
//uint32_t stream_version; //Set the current version of the stream.
// ------------------------------------------------------------------------
// streaming of data from remote hosts - rrdpush
volatile size_t connected_senders; // when remote hosts are streaming to this
// host, this is the counter of connected clients
time_t senders_disconnected_time; // the time the last sender was disconnected
struct receiver_state *receiver;
netdata_mutex_t receiver_lock;
// ------------------------------------------------------------------------
// health monitoring options
unsigned int health_enabled:1; // 1 when this host has health enabled
time_t health_delay_up_to; // a timestamp to delay alarms processing up to
char *health_default_exec; // the full path of the alarms notifications program
char *health_default_recipient; // the default recipient for all alarms
char *health_log_filename; // the alarms event log filename
size_t health_log_entries_written; // the number of alarm events written to the alarms event log
FILE *health_log_fp; // the FILE pointer to the open alarms event log file
uint32_t health_default_warn_repeat_every; // the default value for the interval between repeating warning notifications
uint32_t health_default_crit_repeat_every; // the default value for the interval between repeating critical notifications
// all RRDCALCs are primarily allocated and linked here
// RRDCALCs may be linked to charts at any point
// (charts may or may not exist when these are loaded)
RRDCALC *alarms;
RRDCALC *alarms_with_foreach;
avl_tree_lock alarms_idx_health_log;
avl_tree_lock alarms_idx_name;
ALARM_LOG health_log; // alarms historical events (event log)
uint32_t health_last_processed_id; // the last processed health id from the log
uint32_t health_max_unique_id; // the max alarm log unique id given for the host
uint32_t health_max_alarm_id; // the max alarm id given for the host
// templates of alarms
// these are used to create alarms when charts
// are created or renamed, that match them
RRDCALCTEMPLATE *templates;
RRDCALCTEMPLATE *alarms_template_with_foreach;
// ------------------------------------------------------------------------
// the charts of the host
RRDSET *rrdset_root; // the host charts
unsigned int obsolete_charts_count;
// ------------------------------------------------------------------------
// locks
netdata_rwlock_t rrdhost_rwlock; // lock for this RRDHOST (protects rrdset_root linked list)
// ------------------------------------------------------------------------
// ML handle
ml_host_t ml_host;
// ------------------------------------------------------------------------
// Support for host-level labels
struct label_index labels;
// ------------------------------------------------------------------------
// indexes
avl_tree_lock rrdset_root_index; // the host's charts index (by id)
avl_tree_lock rrdset_root_index_name; // the host's charts index (by name)
avl_tree_lock rrdfamily_root_index; // the host's chart families index
avl_tree_lock rrdvar_root_index; // the host's chart variables index
#ifdef ENABLE_DBENGINE
struct rrdengine_instance *rrdeng_ctx; // DB engine instance for this host
#endif
uuid_t host_uuid; // Global GUID for this host
uuid_t *node_id; // Cloud node_id
#ifdef ENABLE_HTTPS
struct netdata_ssl ssl; //Structure used to encrypt the connection
struct netdata_ssl stream_ssl; //Structure used to encrypt the stream
#endif
netdata_mutex_t aclk_state_lock;
aclk_rrdhost_state aclk_state;
struct rrdhost *next;
};
extern RRDHOST *localhost;
#define rrdhost_rdlock(host) netdata_rwlock_rdlock(&((host)->rrdhost_rwlock))
#define rrdhost_wrlock(host) netdata_rwlock_wrlock(&((host)->rrdhost_rwlock))
#define rrdhost_unlock(host) netdata_rwlock_unlock(&((host)->rrdhost_rwlock))
#define rrdhost_aclk_state_lock(host) netdata_mutex_lock(&((host)->aclk_state_lock))
#define rrdhost_aclk_state_unlock(host) netdata_mutex_unlock(&((host)->aclk_state_lock))
// ----------------------------------------------------------------------------
// these loop macros make sure the linked list is accessed with the right lock
#define rrdhost_foreach_read(var) \
for((var) = localhost, rrd_check_rdlock(); var ; (var) = (var)->next)
#define rrdhost_foreach_write(var) \
for((var) = localhost, rrd_check_wrlock(); var ; (var) = (var)->next)
// ----------------------------------------------------------------------------
// global lock for all RRDHOSTs
extern netdata_rwlock_t rrd_rwlock;
#define rrd_rdlock() netdata_rwlock_rdlock(&rrd_rwlock)
#define rrd_wrlock() netdata_rwlock_wrlock(&rrd_rwlock)
#define rrd_unlock() netdata_rwlock_unlock(&rrd_rwlock)
// ----------------------------------------------------------------------------
extern size_t rrd_hosts_available;
extern time_t rrdhost_free_orphan_time;
extern int rrd_init(char *hostname, struct rrdhost_system_info *system_info);
extern RRDHOST *rrdhost_find_by_hostname(const char *hostname, uint32_t hash);
extern RRDHOST *rrdhost_find_by_guid(const char *guid, uint32_t hash);
extern RRDHOST *rrdhost_find_or_create(
const char *hostname
, const char *registry_hostname
, const char *guid
, const char *os
, const char *timezone
, const char *abbrev_timezone
, int32_t utc_offset
, const char *tags
, const char *program_name
, const char *program_version
, int update_every
, long history
, RRD_MEMORY_MODE mode
, unsigned int health_enabled
, unsigned int rrdpush_enabled
, char *rrdpush_destination
, char *rrdpush_api_key
, char *rrdpush_send_charts_matching
, struct rrdhost_system_info *system_info
);
extern void rrdhost_update(RRDHOST *host
, const char *hostname
, const char *registry_hostname
, const char *guid
, const char *os
, const char *timezone
, const char *abbrev_timezone
, int32_t utc_offset
, const char *tags
, const char *program_name
, const char *program_version
, int update_every
, long history
, RRD_MEMORY_MODE mode
, unsigned int health_enabled
, unsigned int rrdpush_enabled
, char *rrdpush_destination
, char *rrdpush_api_key
, char *rrdpush_send_charts_matching
, struct rrdhost_system_info *system_info
);
extern int rrdhost_set_system_info_variable(struct rrdhost_system_info *system_info, char *name, char *value);
#if defined(NETDATA_INTERNAL_CHECKS) && defined(NETDATA_VERIFY_LOCKS)
extern void __rrdhost_check_wrlock(RRDHOST *host, const char *file, const char *function, const unsigned long line);
extern void __rrdhost_check_rdlock(RRDHOST *host, const char *file, const char *function, const unsigned long line);
extern void __rrdset_check_rdlock(RRDSET *st, const char *file, const char *function, const unsigned long line);
extern void __rrdset_check_wrlock(RRDSET *st, const char *file, const char *function, const unsigned long line);
extern void __rrd_check_rdlock(const char *file, const char *function, const unsigned long line);
extern void __rrd_check_wrlock(const char *file, const char *function, const unsigned long line);
#define rrdhost_check_rdlock(host) __rrdhost_check_rdlock(host, __FILE__, __FUNCTION__, __LINE__)
#define rrdhost_check_wrlock(host) __rrdhost_check_wrlock(host, __FILE__, __FUNCTION__, __LINE__)
#define rrdset_check_rdlock(st) __rrdset_check_rdlock(st, __FILE__, __FUNCTION__, __LINE__)
#define rrdset_check_wrlock(st) __rrdset_check_wrlock(st, __FILE__, __FUNCTION__, __LINE__)
#define rrd_check_rdlock() __rrd_check_rdlock(__FILE__, __FUNCTION__, __LINE__)
#define rrd_check_wrlock() __rrd_check_wrlock(__FILE__, __FUNCTION__, __LINE__)
#else
#define rrdhost_check_rdlock(host) (void)0
#define rrdhost_check_wrlock(host) (void)0
#define rrdset_check_rdlock(st) (void)0
#define rrdset_check_wrlock(st) (void)0
#define rrd_check_rdlock() (void)0
#define rrd_check_wrlock() (void)0
#endif
// ----------------------------------------------------------------------------
// RRDSET functions
extern int rrdset_set_name(RRDSET *st, const char *name);
extern RRDSET *rrdset_create_custom(RRDHOST *host
, const char *type
, const char *id
, const char *name
, const char *family
, const char *context
, const char *title
, const char *units
, const char *plugin
, const char *module
, long priority
, int update_every
, RRDSET_TYPE chart_type
, RRD_MEMORY_MODE memory_mode
, long history_entries);
#define rrdset_create(host, type, id, name, family, context, title, units, plugin, module, priority, update_every, chart_type) \
rrdset_create_custom(host, type, id, name, family, context, title, units, plugin, module, priority, update_every, chart_type, (host)->rrd_memory_mode, (host)->rrd_history_entries)
#define rrdset_create_localhost(type, id, name, family, context, title, units, plugin, module, priority, update_every, chart_type) \
rrdset_create(localhost, type, id, name, family, context, title, units, plugin, module, priority, update_every, chart_type)
extern void rrdhost_free_all(void);
extern void rrdhost_save_all(void);
extern void rrdhost_cleanup_all(void);
extern void rrdhost_cleanup_orphan_hosts_nolock(RRDHOST *protected_host);
extern void rrdhost_system_info_free(struct rrdhost_system_info *system_info);
extern void rrdhost_free(RRDHOST *host);
extern void rrdhost_save_charts(RRDHOST *host);
extern void rrdhost_delete_charts(RRDHOST *host);
extern void rrd_cleanup_obsolete_charts();
extern int rrdhost_should_be_removed(RRDHOST *host, RRDHOST *protected_host, time_t now);
extern void rrdset_update_heterogeneous_flag(RRDSET *st);
extern RRDSET *rrdset_find(RRDHOST *host, const char *id);
#define rrdset_find_localhost(id) rrdset_find(localhost, id)
/* This will not return charts that are archived */
static inline RRDSET *rrdset_find_active_localhost(const char *id)
{
RRDSET *st = rrdset_find_localhost(id);
if (unlikely(st && rrdset_flag_check(st, RRDSET_FLAG_ARCHIVED)))
return NULL;
return st;
}
extern RRDSET *rrdset_find_bytype(RRDHOST *host, const char *type, const char *id);
#define rrdset_find_bytype_localhost(type, id) rrdset_find_bytype(localhost, type, id)
/* This will not return charts that are archived */
static inline RRDSET *rrdset_find_active_bytype_localhost(const char *type, const char *id)
{
RRDSET *st = rrdset_find_bytype_localhost(type, id);
if (unlikely(st && rrdset_flag_check(st, RRDSET_FLAG_ARCHIVED)))
return NULL;
return st;
}
extern RRDSET *rrdset_find_byname(RRDHOST *host, const char *name);
#define rrdset_find_byname_localhost(name) rrdset_find_byname(localhost, name)
/* This will not return charts that are archived */
static inline RRDSET *rrdset_find_active_byname_localhost(const char *name)
{
RRDSET *st = rrdset_find_byname_localhost(name);
if (unlikely(st && rrdset_flag_check(st, RRDSET_FLAG_ARCHIVED)))
return NULL;
return st;
}
extern void rrdset_next_usec_unfiltered(RRDSET *st, usec_t microseconds);
extern void rrdset_next_usec(RRDSET *st, usec_t microseconds);
#define rrdset_next(st) rrdset_next_usec(st, 0ULL)
extern void rrdset_done(RRDSET *st);
extern void rrdset_is_obsolete(RRDSET *st);
extern void rrdset_isnot_obsolete(RRDSET *st);
// checks if the RRDSET should be offered to viewers
#define rrdset_is_available_for_viewers(st) (rrdset_flag_check(st, RRDSET_FLAG_ENABLED) && !rrdset_flag_check(st, RRDSET_FLAG_HIDDEN) && !rrdset_flag_check(st, RRDSET_FLAG_OBSOLETE) && !rrdset_flag_check(st, RRDSET_FLAG_ARCHIVED) && (st)->dimensions && (st)->rrd_memory_mode != RRD_MEMORY_MODE_NONE)
#define rrdset_is_available_for_exporting_and_alarms(st) (rrdset_flag_check(st, RRDSET_FLAG_ENABLED) && !rrdset_flag_check(st, RRDSET_FLAG_OBSOLETE) && !rrdset_flag_check(st, RRDSET_FLAG_ARCHIVED) && (st)->dimensions)
#define rrdset_is_archived(st) (rrdset_flag_check(st, RRDSET_FLAG_ARCHIVED) && (st)->dimensions)
// get the total duration in seconds of the round robin database
#define rrdset_duration(st) ((time_t)( (((st)->counter >= ((unsigned long)(st)->entries))?(unsigned long)(st)->entries:(st)->counter) * (st)->update_every ))
// get the timestamp of the last entry in the round robin database
static inline time_t rrdset_last_entry_t_nolock(RRDSET *st)
{
if (st->rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE) {
RRDDIM *rd;
time_t last_entry_t = 0;
rrddim_foreach_read(rd, st) {
last_entry_t = MAX(last_entry_t, rd->state->query_ops.latest_time(rd));
}
return last_entry_t;
} else {
return (time_t)st->last_updated.tv_sec;
}
}
static inline time_t rrdset_last_entry_t(RRDSET *st)
{
time_t last_entry_t;
netdata_rwlock_rdlock(&st->rrdset_rwlock);
last_entry_t = rrdset_last_entry_t_nolock(st);
netdata_rwlock_unlock(&st->rrdset_rwlock);
return last_entry_t;
}
// get the timestamp of first entry in the round robin database
static inline time_t rrdset_first_entry_t_nolock(RRDSET *st)
{
if (st->rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE) {
RRDDIM *rd;
time_t first_entry_t = LONG_MAX;
rrddim_foreach_read(rd, st) {
first_entry_t = MIN(first_entry_t, rd->state->query_ops.oldest_time(rd));
}
if (unlikely(LONG_MAX == first_entry_t)) return 0;
return first_entry_t;
} else {
return (time_t)(rrdset_last_entry_t_nolock(st) - rrdset_duration(st));
}
}
static inline time_t rrdset_first_entry_t(RRDSET *st)
{
time_t first_entry_t;
netdata_rwlock_rdlock(&st->rrdset_rwlock);
first_entry_t = rrdset_first_entry_t_nolock(st);
netdata_rwlock_unlock(&st->rrdset_rwlock);
return first_entry_t;
}
// get the timestamp of the last entry in the round robin database
static inline time_t rrddim_last_entry_t(RRDDIM *rd) {
if (rd->rrdset->rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
return rd->state->query_ops.latest_time(rd);
return (time_t)rd->rrdset->last_updated.tv_sec;
}
static inline time_t rrddim_first_entry_t(RRDDIM *rd) {
if (rd->rrdset->rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
return rd->state->query_ops.oldest_time(rd);
return (time_t)(rd->rrdset->last_updated.tv_sec - rrdset_duration(rd->rrdset));
}
time_t rrdhost_last_entry_t(RRDHOST *h);
// get the last slot updated in the round robin database
#define rrdset_last_slot(st) ((size_t)(((st)->current_entry == 0) ? (st)->entries - 1 : (st)->current_entry - 1))
// get the first / oldest slot updated in the round robin database
// #define rrdset_first_slot(st) ((size_t)( (((st)->counter >= ((unsigned long)(st)->entries)) ? (unsigned long)( ((unsigned long)(st)->current_entry > 0) ? ((unsigned long)(st)->current_entry) : ((unsigned long)(st)->entries) ) - 1 : 0) ))
// return the slot that has the oldest value
static inline size_t rrdset_first_slot(RRDSET *st) {
if(st->counter >= (size_t)st->entries) {
// the database has been rotated at least once
// the oldest entry is the one that will be next
// overwritten by data collection
return (size_t)st->current_entry;
}
// we do not have rotated the db yet
// so 0 is the first entry
return 0;
}
// get the slot of the round robin database, for the given timestamp (t)
// it always returns a valid slot, although may not be for the time requested if the time is outside the round robin database
// only valid when not using dbengine
static inline size_t rrdset_time2slot(RRDSET *st, time_t t) {
size_t ret = 0;
time_t last_entry_t = rrdset_last_entry_t_nolock(st);
time_t first_entry_t = rrdset_first_entry_t_nolock(st);
if(t >= last_entry_t) {
// the requested time is after the last entry we have
ret = rrdset_last_slot(st);
}
else {
if(t <= first_entry_t) {
// the requested time is before the first entry we have
ret = rrdset_first_slot(st);
}
else {
if(rrdset_last_slot(st) >= ((last_entry_t - t) / (size_t)(st->update_every)))
ret = rrdset_last_slot(st) - ((last_entry_t - t) / (size_t)(st->update_every));
else
ret = rrdset_last_slot(st) - ((last_entry_t - t) / (size_t)(st->update_every)) + (unsigned long)st->entries;
}
}
if(unlikely(ret >= (size_t)st->entries)) {
error("INTERNAL ERROR: rrdset_time2slot() on %s returns values outside entries", st->name);
ret = (size_t)(st->entries - 1);
}
return ret;
}
// get the timestamp of a specific slot in the round robin database
// only valid when not using dbengine
static inline time_t rrdset_slot2time(RRDSET *st, size_t slot) {
time_t ret;
time_t last_entry_t = rrdset_last_entry_t_nolock(st);
time_t first_entry_t = rrdset_first_entry_t_nolock(st);
if(slot >= (size_t)st->entries) {
error("INTERNAL ERROR: caller of rrdset_slot2time() gives invalid slot %zu", slot);
slot = (size_t)st->entries - 1;
}
if(slot > rrdset_last_slot(st)) {
ret = last_entry_t - (size_t)st->update_every * (rrdset_last_slot(st) - slot + (size_t)st->entries);
}
else {
ret = last_entry_t - (size_t)st->update_every;
}
if(unlikely(ret < first_entry_t)) {
error("INTERNAL ERROR: rrdset_slot2time() on %s returns time too far in the past", st->name);
ret = first_entry_t;
}
if(unlikely(ret > last_entry_t)) {
error("INTERNAL ERROR: rrdset_slot2time() on %s returns time into the future", st->name);
ret = last_entry_t;
}
return ret;
}
// ----------------------------------------------------------------------------
// RRD DIMENSION functions
extern void rrdcalc_link_to_rrddim(RRDDIM *rd, RRDSET *st, RRDHOST *host);
extern RRDDIM *rrddim_add_custom(RRDSET *st, const char *id, const char *name, collected_number multiplier,
collected_number divisor, RRD_ALGORITHM algorithm, RRD_MEMORY_MODE memory_mode);//,
//int is_archived, uuid_t *dim_uuid);
#define rrddim_add(st, id, name, multiplier, divisor, algorithm) rrddim_add_custom(st, id, name, multiplier, divisor, \
algorithm, (st)->rrd_memory_mode)//, 0, NULL)
extern int rrddim_set_name(RRDSET *st, RRDDIM *rd, const char *name);
extern int rrddim_set_algorithm(RRDSET *st, RRDDIM *rd, RRD_ALGORITHM algorithm);
extern int rrddim_set_multiplier(RRDSET *st, RRDDIM *rd, collected_number multiplier);
extern int rrddim_set_divisor(RRDSET *st, RRDDIM *rd, collected_number divisor);
extern RRDDIM *rrddim_find(RRDSET *st, const char *id);
/* This will not return dimensions that are archived */
static inline RRDDIM *rrddim_find_active(RRDSET *st, const char *id)
{
RRDDIM *rd = rrddim_find(st, id);
if (unlikely(rd && rrddim_flag_check(rd, RRDDIM_FLAG_ARCHIVED)))
return NULL;
return rd;
}
extern int rrddim_hide(RRDSET *st, const char *id);
extern int rrddim_unhide(RRDSET *st, const char *id);
extern void rrddim_is_obsolete(RRDSET *st, RRDDIM *rd);
extern void rrddim_isnot_obsolete(RRDSET *st, RRDDIM *rd);
extern collected_number rrddim_set_by_pointer(RRDSET *st, RRDDIM *rd, collected_number value);
extern collected_number rrddim_set(RRDSET *st, const char *id, collected_number value);
extern long align_entries_to_pagesize(RRD_MEMORY_MODE mode, long entries);
// ----------------------------------------------------------------------------
// Miscellaneous functions
extern int alarm_compare_id(void *a, void *b);
extern int alarm_compare_name(void *a, void *b);
// ----------------------------------------------------------------------------
// RRD internal functions
#ifdef NETDATA_RRD_INTERNALS
extern avl_tree_lock rrdhost_root_index;
extern char *rrdset_strncpyz_name(char *to, const char *from, size_t length);
extern char *rrdset_cache_dir(RRDHOST *host, const char *id, const char *config_section);
#define rrddim_free(st, rd) rrddim_free_custom(st, rd, 0)
extern void rrddim_free_custom(RRDSET *st, RRDDIM *rd, int db_rotated);
extern int rrddim_compare(void* a, void* b);
extern int rrdset_compare(void* a, void* b);
extern int rrdset_compare_name(void* a, void* b);
extern int rrdfamily_compare(void *a, void *b);
extern RRDFAMILY *rrdfamily_create(RRDHOST *host, const char *id);
extern void rrdfamily_free(RRDHOST *host, RRDFAMILY *rc);
#define rrdset_index_add(host, st) (RRDSET *)avl_insert_lock(&((host)->rrdset_root_index), (avl_t *)(st))
#define rrdset_index_del(host, st) (RRDSET *)avl_remove_lock(&((host)->rrdset_root_index), (avl_t *)(st))
extern RRDSET *rrdset_index_del_name(RRDHOST *host, RRDSET *st);
extern void rrdset_free(RRDSET *st);
extern void rrdset_reset(RRDSET *st);
extern void rrdset_save(RRDSET *st);
#define rrdset_delete(st) rrdset_delete_custom(st, 0)
extern void rrdset_delete_custom(RRDSET *st, int db_rotated);
extern void rrdset_delete_obsolete_dimensions(RRDSET *st);
extern RRDHOST *rrdhost_create(
const char *hostname, const char *registry_hostname, const char *guid, const char *os, const char *timezone,
const char *abbrev_timezone, int32_t utc_offset,const char *tags, const char *program_name, const char *program_version,
int update_every, long entries, RRD_MEMORY_MODE memory_mode, unsigned int health_enabled, unsigned int rrdpush_enabled,
char *rrdpush_destination, char *rrdpush_api_key, char *rrdpush_send_charts_matching, struct rrdhost_system_info *system_info,
int is_localhost); //TODO: Remove , int is_archived);
#endif /* NETDATA_RRD_INTERNALS */
extern void set_host_properties(
RRDHOST *host, int update_every, RRD_MEMORY_MODE memory_mode, const char *hostname, const char *registry_hostname,
const char *guid, const char *os, const char *tags, const char *tzone, const char *abbrev_tzone, int32_t utc_offset,
const char *program_name, const char *program_version);
// ----------------------------------------------------------------------------
// RRD DB engine declarations
#ifdef ENABLE_DBENGINE
#include "database/engine/rrdengineapi.h"
#endif
#include "sqlite/sqlite_functions.h"
#include "sqlite/sqlite_aclk.h"
#include "sqlite/sqlite_aclk_chart.h"
#include "sqlite/sqlite_aclk_alert.h"
#include "sqlite/sqlite_aclk_node.h"
#include "sqlite/sqlite_health.h"
#endif /* NETDATA_RRD_H */
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