use std::sync::{Arc, RwLock}; use std::time::{Duration, Instant}; use opentelemetry::{global, metrics::*, KeyValue}; use crate::system::{ClusterHealthStatus, System}; /// TableMetrics reference all counter used for metrics pub struct SystemMetrics { // Static values pub(crate) _garage_build_info: ValueObserver, pub(crate) _replication_factor: ValueObserver, // Disk space values from System::local_status pub(crate) _disk_avail: ValueObserver, pub(crate) _disk_total: ValueObserver, // Health report from System::health() pub(crate) _cluster_healthy: ValueObserver, pub(crate) _cluster_available: ValueObserver, pub(crate) _known_nodes: ValueObserver, pub(crate) _connected_nodes: ValueObserver, pub(crate) _storage_nodes: ValueObserver, pub(crate) _storage_nodes_ok: ValueObserver, pub(crate) _partitions: ValueObserver, pub(crate) _partitions_quorum: ValueObserver, pub(crate) _partitions_all_ok: ValueObserver, // Status report for individual cluster nodes pub(crate) _layout_node_connected: ValueObserver, pub(crate) _layout_node_disconnected_time: ValueObserver, } impl SystemMetrics { pub fn new(system: Arc) -> Self { let meter = global::meter("garage_system"); let health_cache = RwLock::new((Instant::now(), system.health())); let system2 = system.clone(); let get_health = Arc::new(move || { { let cache = health_cache.read().unwrap(); if cache.0 > Instant::now() - Duration::from_secs(1) { return cache.1; } } let health = system2.health(); *health_cache.write().unwrap() = (Instant::now(), health); health }); Self { // Static values _garage_build_info: meter .u64_value_observer("garage_build_info", move |observer| { observer.observe( 1, &[ KeyValue::new("rustversion", garage_util::version::rust_version()), KeyValue::new("version", garage_util::version::garage_version()), ], ) }) .with_description("Garage build info") .init(), _replication_factor: { let replication_factor = system.replication_factor; meter .u64_value_observer("garage_replication_factor", move |observer| { observer.observe(replication_factor as u64, &[]) }) .with_description("Garage replication factor setting") .init() }, // Disk space values from System::local_status _disk_avail: { let system = system.clone(); meter .u64_value_observer("garage_local_disk_avail", move |observer| { let st = system.local_status.read().unwrap(); if let Some((avail, _total)) = st.data_disk_avail { observer.observe(avail, &[KeyValue::new("volume", "data")]); } if let Some((avail, _total)) = st.meta_disk_avail { observer.observe(avail, &[KeyValue::new("volume", "metadata")]); } }) .with_description("Garage available disk space on each node") .init() }, _disk_total: { let system = system.clone(); meter .u64_value_observer("garage_local_disk_total", move |observer| { let st = system.local_status.read().unwrap(); if let Some((_avail, total)) = st.data_disk_avail { observer.observe(total, &[KeyValue::new("volume", "data")]); } if let Some((_avail, total)) = st.meta_disk_avail { observer.observe(total, &[KeyValue::new("volume", "metadata")]); } }) .with_description("Garage total disk space on each node") .init() }, // Health report from System::() _cluster_healthy: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_healthy", move |observer| { let h = get_health(); if h.status == ClusterHealthStatus::Healthy { observer.observe(1, &[]); } else { observer.observe(0, &[]); } }) .with_description("Whether all storage nodes are connected") .init() }, _cluster_available: { let get_health = get_health.clone(); meter.u64_value_observer("cluster_available", move |observer| { let h = get_health(); if h.status != ClusterHealthStatus::Unavailable { observer.observe(1, &[]); } else { observer.observe(0, &[]); } }) .with_description("Whether all requests can be served, even if some storage nodes are disconnected") .init() }, _known_nodes: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_known_nodes", move |observer| { let h = get_health(); observer.observe(h.known_nodes as u64, &[]); }) .with_description("Number of nodes already seen once in the cluster") .init() }, _connected_nodes: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_connected_nodes", move |observer| { let h = get_health(); observer.observe(h.connected_nodes as u64, &[]); }) .with_description("Number of nodes currently connected") .init() }, _storage_nodes: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_storage_nodes", move |observer| { let h = get_health(); observer.observe(h.storage_nodes as u64, &[]); }) .with_description("Number of storage nodes declared in the current layout") .init() }, _storage_nodes_ok: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_storage_nodes_ok", move |observer| { let h = get_health(); observer.observe(h.storage_nodes_ok as u64, &[]); }) .with_description("Number of storage nodes currently connected") .init() }, _partitions: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_partitions", move |observer| { let h = get_health(); observer.observe(h.partitions as u64, &[]); }) .with_description("Number of partitions in the layout") .init() }, _partitions_quorum: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_partitions_quorum", move |observer| { let h = get_health(); observer.observe(h.partitions_quorum as u64, &[]); }) .with_description( "Number of partitions for which we have a quorum of connected nodes", ) .init() }, _partitions_all_ok: { let get_health = get_health.clone(); meter .u64_value_observer("cluster_partitions_all_ok", move |observer| { let h = get_health(); observer.observe(h.partitions_all_ok as u64, &[]); }) .with_description( "Number of partitions for which all storage nodes are connected", ) .init() }, // Status report for individual cluster nodes _layout_node_connected: { let system = system.clone(); meter .u64_value_observer("cluster_layout_node_connected", move |observer| { let layout = system.cluster_layout(); let nodes = system.get_known_nodes(); for id in layout.all_nodes().iter() { let mut kv = vec![KeyValue::new("id", format!("{:?}", id))]; if let Some(role) = layout.current().roles.get(id).and_then(|r| r.0.as_ref()) { kv.push(KeyValue::new("role_zone", role.zone.clone())); match role.capacity { Some(cap) => { kv.push(KeyValue::new("role_capacity", cap as i64)); kv.push(KeyValue::new("role_gateway", 0)); } None => { kv.push(KeyValue::new("role_gateway", 1)); } } } let value; if let Some(node) = nodes.iter().find(|n| n.id == *id) { // TODO: if we add address and hostname, and those change, we // get duplicate metrics, due to bad otel aggregation :( // Can probably be fixed when we upgrade opentelemetry // kv.push(KeyValue::new("address", node.addr.to_string())); // kv.push(KeyValue::new( // "hostname", // node.status.hostname.clone(), // )); value = if node.is_up { 1 } else { 0 }; } else { value = 0; } observer.observe(value, &kv); } }) .with_description("Connection status for nodes in the cluster layout") .init() }, _layout_node_disconnected_time: { let system = system.clone(); meter .u64_value_observer("cluster_layout_node_disconnected_time", move |observer| { let layout = system.cluster_layout(); let nodes = system.get_known_nodes(); for id in layout.all_nodes().iter() { let mut kv = vec![KeyValue::new("id", format!("{:?}", id))]; if let Some(role) = layout.current().roles.get(id).and_then(|r| r.0.as_ref()) { kv.push(KeyValue::new("role_zone", role.zone.clone())); match role.capacity { Some(cap) => { kv.push(KeyValue::new("role_capacity", cap as i64)); kv.push(KeyValue::new("role_gateway", 0)); } None => { kv.push(KeyValue::new("role_gateway", 1)); } } } if let Some(node) = nodes.iter().find(|n| n.id == *id) { // TODO: see comment above // kv.push(KeyValue::new("address", node.addr.to_string())); // kv.push(KeyValue::new( // "hostname", // node.status.hostname.clone(), // )); if node.is_up { observer.observe(0, &kv); } else if let Some(secs) = node.last_seen_secs_ago { observer.observe(secs, &kv); } } } }) .with_description( "Time (in seconds) since last connection to nodes in the cluster layout", ) .init() }, } } }