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// SPDX-License-Identifier: GPL-3.0-or-later
#ifndef NETDATA_RRDPUSH_H
#define NETDATA_RRDPUSH_H 1
#include "database/rrd.h"
#include "libnetdata/libnetdata.h"
#include "web/server/web_client.h"
#include "daemon/common.h"
#define CONNECTED_TO_SIZE 100
// ----------------------------------------------------------------------------
// obsolete versions - do not use anymore
#define STREAM_OLD_VERSION_CLAIM 3
#define STREAM_OLD_VERSION_CLABELS 4
#define STREAM_OLD_VERSION_COMPRESSION 5 // this is production
// ----------------------------------------------------------------------------
// capabilities negotiation
typedef enum {
// do not use the first 3 bits
STREAM_CAP_V1 = (1 << 3), // v1 = the oldest protocol
STREAM_CAP_V2 = (1 << 4), // v2 = the second version of the protocol (with host labels)
STREAM_CAP_VN = (1 << 5), // version negotiation supported (for versions 3, 4, 5 of the protocol)
// v3 = claiming supported
// v4 = chart labels supported
// v5 = lz4 compression supported
STREAM_CAP_VCAPS = (1 << 6), // capabilities negotiation supported
STREAM_CAP_HLABELS = (1 << 7), // host labels supported
STREAM_CAP_CLAIM = (1 << 8), // claiming supported
STREAM_CAP_CLABELS = (1 << 9), // chart labels supported
STREAM_CAP_COMPRESSION = (1 << 10), // lz4 compression supported
STREAM_CAP_FUNCTIONS = (1 << 11), // plugin functions supported
STREAM_CAP_REPLICATION = (1 << 12), // replication supported
STREAM_CAP_BINARY = (1 << 13), // streaming supports binary data
// this must be signed int, so don't use the last bit
// needed for negotiating errors between parent and child
} STREAM_CAPABILITIES;
#ifdef ENABLE_COMPRESSION
#define STREAM_HAS_COMPRESSION STREAM_CAP_COMPRESSION
#else
#define STREAM_HAS_COMPRESSION 0
#endif // ENABLE_COMPRESSION
#define STREAM_OUR_CAPABILITIES ( \
STREAM_CAP_V1 | STREAM_CAP_V2 | STREAM_CAP_VN | STREAM_CAP_VCAPS | \
STREAM_CAP_HLABELS | STREAM_CAP_CLAIM | STREAM_CAP_CLABELS | \
STREAM_HAS_COMPRESSION | STREAM_CAP_FUNCTIONS | STREAM_CAP_REPLICATION | STREAM_CAP_BINARY )
#define stream_has_capability(rpt, capability) ((rpt) && ((rpt)->capabilities & (capability)))
// ----------------------------------------------------------------------------
// stream handshake
#define HTTP_HEADER_SIZE 8192
#define STREAMING_PROTOCOL_VERSION "1.1"
#define START_STREAMING_PROMPT_V1 "Hit me baby, push them over..."
#define START_STREAMING_PROMPT_V2 "Hit me baby, push them over and bring the host labels..."
#define START_STREAMING_PROMPT_VN "Hit me baby, push them over with the version="
#define START_STREAMING_ERROR_SAME_LOCALHOST "Don't hit me baby, you are trying to stream my localhost back"
#define START_STREAMING_ERROR_ALREADY_STREAMING "This GUID is already streaming to this server"
#define START_STREAMING_ERROR_NOT_PERMITTED "You are not permitted to access this. Check the logs for more info."
typedef enum {
STREAM_HANDSHAKE_OK_V5 = 5, // COMPRESSION
STREAM_HANDSHAKE_OK_V4 = 4, // CLABELS
STREAM_HANDSHAKE_OK_V3 = 3, // CLAIM
STREAM_HANDSHAKE_OK_V2 = 2, // HLABELS
STREAM_HANDSHAKE_OK_V1 = 1,
STREAM_HANDSHAKE_ERROR_BAD_HANDSHAKE = -1,
STREAM_HANDSHAKE_ERROR_LOCALHOST = -2,
STREAM_HANDSHAKE_ERROR_ALREADY_CONNECTED = -3,
STREAM_HANDSHAKE_ERROR_DENIED = -4,
STREAM_HANDSHAKE_ERROR_SEND_TIMEOUT = -5,
STREAM_HANDSHAKE_ERROR_RECEIVE_TIMEOUT = -6,
STREAM_HANDSHAKE_ERROR_INVALID_CERTIFICATE = -7,
STREAM_HANDSHAKE_ERROR_SSL_ERROR = -8,
STREAM_HANDSHAKE_ERROR_CANT_CONNECT = -9
} STREAM_HANDSHAKE;
// ----------------------------------------------------------------------------
typedef struct {
char *os_name;
char *os_id;
char *os_version;
char *kernel_name;
char *kernel_version;
} stream_encoded_t;
#ifdef ENABLE_COMPRESSION
struct compressor_state {
char *compression_result_buffer;
size_t compression_result_buffer_size;
struct compressor_data *data; // Compression API specific data
void (*reset)(struct compressor_state *state);
size_t (*compress)(struct compressor_state *state, const char *data, size_t size, char **buffer);
void (*destroy)(struct compressor_state **state);
};
struct decompressor_state {
size_t signature_size;
size_t total_compressed;
size_t total_uncompressed;
size_t packet_count;
struct decompressor_stream *stream; // Decompression API specific data
void (*reset)(struct decompressor_state *state);
size_t (*start)(struct decompressor_state *state, const char *header, size_t header_size);
size_t (*decompress)(struct decompressor_state *state, const char *compressed_data, size_t compressed_size);
size_t (*decompressed_bytes_in_buffer)(struct decompressor_state *state);
size_t (*get)(struct decompressor_state *state, char *data, size_t size);
void (*destroy)(struct decompressor_state **state);
};
#endif
// Thread-local storage
// Metric transmission: collector threads asynchronously fill the buffer, sender thread uses it.
typedef enum {
SENDER_FLAG_OVERFLOW = (1 << 0), // The buffer has been overflown
SENDER_FLAG_COMPRESSION = (1 << 1), // The stream needs to have and has compression
} SENDER_FLAGS;
struct sender_state {
RRDHOST *host;
pid_t tid; // the thread id of the sender, from gettid()
SENDER_FLAGS flags;
int timeout;
int default_port;
usec_t reconnect_delay;
char connected_to[CONNECTED_TO_SIZE + 1]; // We don't know which proxy we connect to, passed back from socket.c
size_t begin;
size_t reconnects_counter;
size_t sent_bytes;
size_t sent_bytes_on_this_connection;
size_t send_attempts;
time_t last_traffic_seen_t;
size_t not_connected_loops;
// Metrics are collected asynchronously by collector threads calling rrdset_done_push(). This can also trigger
// the lazy creation of the sender thread - both cases (buffer access and thread creation) are guarded here.
netdata_mutex_t mutex;
struct circular_buffer *buffer;
char read_buffer[PLUGINSD_LINE_MAX + 1];
int read_len;
STREAM_CAPABILITIES capabilities;
int rrdpush_sender_pipe[2]; // collector to sender thread signaling
int rrdpush_sender_socket;
#ifdef ENABLE_COMPRESSION
struct compressor_state *compressor;
#endif
#ifdef ENABLE_HTTPS
struct netdata_ssl ssl; // structure used to encrypt the connection
#endif
struct {
DICTIONARY *requests; // de-duplication of replication requests, per chart
struct {
size_t pending_requests; // the currently outstanding replication requests
size_t charts_replicating; // the number of unique charts having pending replication requests (on every request one is added and is removed when we finish it - it does not track completion of the replication for this chart)
} atomic;
struct {
bool reached_max; // used to avoid resetting the replication thread too frequently
} unsafe; // protected by sender mutex
} replication;
struct {
size_t buffer_used_percentage; // the current utilization of the sending buffer
usec_t last_flush_time_ut; // the last time the sender flushed the sending buffer in USEC
} atomic;
};
#define rrdpush_sender_set_buffer_used_percent(sender, value) __atomic_store_n(&((sender)->atomic.buffer_used_percentage), value, __ATOMIC_RELAXED);
#define rrdpush_sender_get_buffer_used_percent(sender) __atomic_load_n(&((sender)->atomic.buffer_used_percentage), __ATOMIC_RELAXED)
#define rrdpush_sender_set_flush_time(sender) __atomic_store_n(&((sender)->atomic.last_flush_time_ut), now_realtime_usec(), __ATOMIC_RELAXED);
#define rrdpush_sender_get_flush_time(sender) __atomic_load_n(&((sender)->atomic.last_flush_time_ut), __ATOMIC_RELAXED)
#define rrdpush_sender_replicating_charts(sender) __atomic_load_n(&((sender)->replication.atomic.charts_replicating), __ATOMIC_RELAXED)
#define rrdpush_sender_replicating_charts_plus_one(sender) __atomic_add_fetch(&((sender)->replication.atomic.charts_replicating), 1, __ATOMIC_RELAXED)
#define rrdpush_sender_replicating_charts_minus_one(sender) __atomic_sub_fetch(&((sender)->replication.atomic.charts_replicating), 1, __ATOMIC_RELAXED)
#define rrdpush_sender_replicating_charts_zero(sender) __atomic_store_n(&((sender)->replication.atomic.charts_replicating), 0, __ATOMIC_RELAXED)
#define rrdpush_sender_pending_replication_requests(sender) __atomic_load_n(&((sender)->replication.atomic.pending_requests), __ATOMIC_RELAXED)
#define rrdpush_sender_pending_replication_requests_plus_one(sender) __atomic_add_fetch(&((sender)->replication.atomic.pending_requests), 1, __ATOMIC_RELAXED)
#define rrdpush_sender_pending_replication_requests_minus_one(sender) __atomic_sub_fetch(&((sender)->replication.atomic.pending_requests), 1, __ATOMIC_RELAXED)
#define rrdpush_sender_pending_replication_requests_zero(sender) __atomic_store_n(&((sender)->replication.atomic.pending_requests), 0, __ATOMIC_RELAXED)
struct receiver_state {
RRDHOST *host;
netdata_thread_t thread;
int fd;
char *key;
char *hostname;
char *registry_hostname;
char *machine_guid;
char *os;
char *timezone; // Unused?
char *abbrev_timezone;
int32_t utc_offset;
char *tags;
char *client_ip; // Duplicated in pluginsd
char *client_port; // Duplicated in pluginsd
char *program_name; // Duplicated in pluginsd
char *program_version;
struct rrdhost_system_info *system_info;
int update_every;
STREAM_CAPABILITIES capabilities;
time_t last_msg_t;
char read_buffer[PLUGINSD_LINE_MAX + 1];
int read_len;
unsigned int shutdown:1; // Tell the thread to exit
unsigned int exited; // Indicates that the thread has exited (NOT A BITFIELD!)
#ifdef ENABLE_HTTPS
struct netdata_ssl ssl;
#endif
#ifdef ENABLE_COMPRESSION
unsigned int rrdpush_compression;
struct decompressor_state *decompressor;
#endif
time_t replication_first_time_t;
};
struct rrdpush_destinations {
STRING *destination;
const char *last_error;
time_t postpone_reconnection_until;
STREAM_HANDSHAKE last_handshake;
struct rrdpush_destinations *prev;
struct rrdpush_destinations *next;
};
extern unsigned int default_rrdpush_enabled;
#ifdef ENABLE_COMPRESSION
extern unsigned int default_compression_enabled;
#endif
extern char *default_rrdpush_destination;
extern char *default_rrdpush_api_key;
extern char *default_rrdpush_send_charts_matching;
extern bool default_rrdpush_enable_replication;
extern time_t default_rrdpush_seconds_to_replicate;
extern time_t default_rrdpush_replication_step;
extern unsigned int remote_clock_resync_iterations;
void rrdpush_destinations_init(RRDHOST *host);
void rrdpush_destinations_free(RRDHOST *host);
void sender_init(RRDHOST *host);
BUFFER *sender_start(struct sender_state *s);
void sender_commit(struct sender_state *s, BUFFER *wb);
void sender_cancel(struct sender_state *s);
int rrdpush_init();
bool rrdpush_receiver_needs_dbengine();
int configured_as_parent();
void rrdset_done_push(RRDSET *st);
bool rrdset_push_chart_definition_now(RRDSET *st);
void *rrdpush_sender_thread(void *ptr);
void rrdpush_send_host_labels(RRDHOST *host);
void rrdpush_claimed_id(RRDHOST *host);
int rrdpush_receiver_thread_spawn(struct web_client *w, char *url);
void rrdpush_sender_thread_stop(RRDHOST *host);
void rrdpush_sender_send_this_host_variable_now(RRDHOST *host, const RRDVAR_ACQUIRED *rva);
void log_stream_connection(const char *client_ip, const char *client_port, const char *api_key, const char *machine_guid, const char *host, const char *msg);
int connect_to_one_of_destinations(
RRDHOST *host,
int default_port,
struct timeval *timeout,
size_t *reconnects_counter,
char *connected_to,
size_t connected_to_size,
struct rrdpush_destinations **destination);
void rrdpush_signal_sender_to_wake_up(struct sender_state *s);
#ifdef ENABLE_COMPRESSION
struct compressor_state *create_compressor();
struct decompressor_state *create_decompressor();
#endif
void log_receiver_capabilities(struct receiver_state *rpt);
void log_sender_capabilities(struct sender_state *s);
STREAM_CAPABILITIES convert_stream_version_to_capabilities(int32_t version);
int32_t stream_capabilities_to_vn(uint32_t caps);
#include "replication.h"
#endif //NETDATA_RRDPUSH_H
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