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lens/src/main/prometheus/operator.ts
2022-02-21 10:45:47 +01:00

131 lines
8.4 KiB
TypeScript

/**
* Copyright (c) OpenLens Authors. All rights reserved.
* Licensed under MIT License. See LICENSE in root directory for more information.
*/
import { PrometheusProvider, PrometheusService } from "./provider-registry";
import type { CoreV1Api } from "@kubernetes/client-node";
import { inspect } from "util";
export class PrometheusOperator extends PrometheusProvider {
readonly rateAccuracy: string = "1m";
readonly id: string = "operator";
readonly name: string = "Prometheus Operator";
readonly isConfigurable: boolean = true;
public async getPrometheusService(client: CoreV1Api): Promise<PrometheusService> {
return this.getFirstNamespacedService(client, "operated-prometheus=true", "self-monitor=true");
}
public getQuery(opts: Record<string, string>, queryName: string): string {
switch(opts.category) {
case "cluster":
switch (queryName) {
case "memoryUsage":
return `sum(node_memory_MemTotal_bytes - (node_memory_MemFree_bytes + node_memory_Buffers_bytes + node_memory_Cached_bytes))`.replace(/_bytes/g, `_bytes * on (pod,namespace) group_left(node) kube_pod_info{node=~"${opts.nodes}"}`);
case "workloadMemoryUsage":
return `sum(container_memory_working_set_bytes{container!="", instance=~"${opts.nodes}"}) by (component)`;
case "memoryRequests":
return `sum(kube_pod_container_resource_requests{node=~"${opts.nodes}", resource="memory"})`;
case "memoryLimits":
return `sum(kube_pod_container_resource_limits{node=~"${opts.nodes}", resource="memory"})`;
case "memoryCapacity":
return `sum(kube_node_status_capacity{node=~"${opts.nodes}", resource="memory"})`;
case "memoryAllocatableCapacity":
return `sum(kube_node_status_allocatable{node=~"${opts.nodes}", resource="memory"})`;
case "cpuUsage":
return `sum(rate(node_cpu_seconds_total{mode=~"user|system"}[${this.rateAccuracy}])* on (pod,namespace) group_left(node) kube_pod_info{node=~"${opts.nodes}"})`;
case "cpuRequests":
return `sum(kube_pod_container_resource_requests{node=~"${opts.nodes}", resource="cpu"})`;
case "cpuLimits":
return `sum(kube_pod_container_resource_limits{node=~"${opts.nodes}", resource="cpu"})`;
case "cpuCapacity":
return `sum(kube_node_status_capacity{node=~"${opts.nodes}", resource="cpu"})`;
case "cpuAllocatableCapacity":
return `sum(kube_node_status_allocatable{node=~"${opts.nodes}", resource="cpu"})`;
case "podUsage":
return `sum({__name__=~"kubelet_running_pod_count|kubelet_running_pods", node=~"${opts.nodes}"})`;
case "podCapacity":
return `sum(kube_node_status_capacity{node=~"${opts.nodes}", resource="pods"})`;
case "podAllocatableCapacity":
return `sum(kube_node_status_allocatable{node=~"${opts.nodes}", resource="pods"})`;
case "fsSize":
return `sum(node_filesystem_size_bytes{mountpoint="/"} * on (pod,namespace) group_left(node) kube_pod_info{node=~"${opts.nodes}"})`;
case "fsUsage":
return `sum(node_filesystem_size_bytes{mountpoint="/"} * on (pod,namespace) group_left(node) kube_pod_info{node=~"${opts.nodes}"} - node_filesystem_avail_bytes{mountpoint="/"} * on (pod,namespace) group_left(node) kube_pod_info{node=~"${opts.nodes}"})`;
}
break;
case "nodes":
switch (queryName) {
case "memoryUsage":
return `sum((node_memory_MemTotal_bytes - (node_memory_MemFree_bytes + node_memory_Buffers_bytes + node_memory_Cached_bytes)) * on (pod, namespace) group_left(node) kube_pod_info) by (node)`;
case "workloadMemoryUsage":
return `sum(container_memory_working_set_bytes{container!="POD", container!=""}) by (node)`;
case "memoryCapacity":
return `sum(kube_node_status_capacity{resource="memory"}) by (node)`;
case "memoryAllocatableCapacity":
return `sum(kube_node_status_allocatable{resource="memory"}) by (node)`;
case "cpuUsage":
return `sum(rate(node_cpu_seconds_total{mode=~"user|system"}[${this.rateAccuracy}]) * on (pod, namespace) group_left(node) kube_pod_info) by (node)`;
case "cpuCapacity":
return `sum(kube_node_status_allocatable{resource="cpu"}) by (node)`;
case "cpuAllocatableCapacity":
return `sum(kube_node_status_allocatable{resource="cpu"}) by (node)`;
case "fsSize":
return `sum(node_filesystem_size_bytes{mountpoint="/"} * on (pod,namespace) group_left(node) kube_pod_info) by (node)`;
case "fsUsage":
return `sum((node_filesystem_size_bytes{mountpoint="/"} - node_filesystem_avail_bytes{mountpoint="/"}) * on (pod, namespace) group_left(node) kube_pod_info) by (node)`;
}
break;
case "pods":
switch (queryName) {
case "cpuUsage":
return `sum(rate(container_cpu_usage_seconds_total{container!="", image!="", pod=~"${opts.pods}", namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (${opts.selector})`;
case "cpuRequests":
return `sum(kube_pod_container_resource_requests{pod=~"${opts.pods}", resource="cpu", namespace="${opts.namespace}"}) by (${opts.selector})`;
case "cpuLimits":
return `sum(kube_pod_container_resource_limits{pod=~"${opts.pods}", resource="cpu", namespace="${opts.namespace}"}) by (${opts.selector})`;
case "memoryUsage":
return `sum(container_memory_working_set_bytes{container!="", image!="", pod=~"${opts.pods}", namespace="${opts.namespace}"}) by (${opts.selector})`;
case "memoryRequests":
return `sum(kube_pod_container_resource_requests{pod=~"${opts.pods}", resource="memory", namespace="${opts.namespace}"}) by (${opts.selector})`;
case "memoryLimits":
return `sum(kube_pod_container_resource_limits{pod=~"${opts.pods}", resource="memory", namespace="${opts.namespace}"}) by (${opts.selector})`;
case "fsUsage":
return `sum(container_fs_usage_bytes{container!="", pod=~"${opts.pods}", namespace="${opts.namespace}"}) by (${opts.selector})`;
case "fsWrites":
return `sum(rate(container_fs_writes_bytes_total{container!="", pod=~"${opts.pods}", namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (${opts.selector})`;
case "fsReads":
return `sum(rate(container_fs_reads_bytes_total{container!="", pod=~"${opts.pods}", namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (${opts.selector})`;
case "networkReceive":
return `sum(rate(container_network_receive_bytes_total{pod=~"${opts.pods}", namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (${opts.selector})`;
case "networkTransmit":
return `sum(rate(container_network_transmit_bytes_total{pod=~"${opts.pods}", namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (${opts.selector})`;
}
break;
case "pvc":
switch (queryName) {
case "diskUsage":
return `sum(kubelet_volume_stats_used_bytes{persistentvolumeclaim="${opts.pvc}", namespace="${opts.namespace}"}) by (persistentvolumeclaim, namespace)`;
case "diskCapacity":
return `sum(kubelet_volume_stats_capacity_bytes{persistentvolumeclaim="${opts.pvc}", namespace="${opts.namespace}"}) by (persistentvolumeclaim, namespace)`;
}
break;
case "ingress":
switch (queryName) {
case "bytesSentSuccess":
return this.bytesSent(opts.ingress, opts.namespace, "^2\\\\d*");
case "bytesSentFailure":
return this.bytesSent(opts.ingress, opts.namespace, "^5\\\\d*");
case "requestDurationSeconds":
return `sum(rate(nginx_ingress_controller_request_duration_seconds_sum{ingress="${opts.ingress}", exported_namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (ingress, namespace)`;
case "responseDurationSeconds":
return `sum(rate(nginx_ingress_controller_response_duration_seconds_sum{ingress="${opts.ingress}", exported_namespace="${opts.namespace}"}[${this.rateAccuracy}])) by (ingress, namespace)`;
}
break;
}
throw new Error(`Unknown query name ${inspect(queryName, false, undefined, false)} for category: ${inspect(opts.category, false, undefined, false)}`);
}
}