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- package costmodel
- import (
- "github.com/kubecost/cost-model/pkg/cloud"
- "time"
- "github.com/kubecost/cost-model/pkg/env"
- "github.com/kubecost/cost-model/pkg/log"
- "github.com/kubecost/cost-model/pkg/prom"
- )
- // mergeTypeMaps takes two maps of (cluster name, node name) -> node type
- // and combines them into a single map, preferring the k/v pairs in
- // the first map.
- func mergeTypeMaps(clusterAndNameToType1, clusterAndNameToType2 map[nodeIdentifierNoProviderID]string) map[nodeIdentifierNoProviderID]string {
- merged := map[nodeIdentifierNoProviderID]string{}
- for k, v := range clusterAndNameToType2 {
- merged[k] = v
- }
- // This ordering ensures the mappings in the first arg are preferred.
- for k, v := range clusterAndNameToType1 {
- merged[k] = v
- }
- return merged
- }
- func buildCPUCostMap(
- resNodeCPUCost []*prom.QueryResult,
- ) (
- map[NodeIdentifier]float64,
- map[nodeIdentifierNoProviderID]string,
- ) {
- cpuCostMap := make(map[NodeIdentifier]float64)
- clusterAndNameToType := make(map[nodeIdentifierNoProviderID]string)
- for _, result := range resNodeCPUCost {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: CPU cost data missing node")
- continue
- }
- nodeType, _ := result.GetString("instance_type")
- providerID, _ := result.GetString("provider_id")
- cpuCost := result.Values[0].Value
- key := NodeIdentifier{
- Cluster: cluster,
- Name: name,
- ProviderID: cloud.ParseID(providerID),
- }
- keyNon := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- clusterAndNameToType[keyNon] = nodeType
- cpuCostMap[key] = cpuCost
- }
- return cpuCostMap, clusterAndNameToType
- }
- func buildRAMCostMap(
- resNodeRAMCost []*prom.QueryResult,
- ) (
- map[NodeIdentifier]float64,
- map[nodeIdentifierNoProviderID]string,
- ) {
- ramCostMap := make(map[NodeIdentifier]float64)
- clusterAndNameToType := make(map[nodeIdentifierNoProviderID]string)
- for _, result := range resNodeRAMCost {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: RAM cost data missing node")
- continue
- }
- nodeType, _ := result.GetString("instance_type")
- providerID, _ := result.GetString("provider_id")
- ramCost := result.Values[0].Value
- key := NodeIdentifier{
- Cluster: cluster,
- Name: name,
- ProviderID: cloud.ParseID(providerID),
- }
- keyNon := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- clusterAndNameToType[keyNon] = nodeType
- ramCostMap[key] = ramCost
- }
- return ramCostMap, clusterAndNameToType
- }
- func buildGPUCostMap(
- resNodeGPUCost []*prom.QueryResult,
- gpuCountMap map[NodeIdentifier]float64,
- ) (
- map[NodeIdentifier]float64,
- map[nodeIdentifierNoProviderID]string,
- ) {
- gpuCostMap := make(map[NodeIdentifier]float64)
- clusterAndNameToType := make(map[nodeIdentifierNoProviderID]string)
- for _, result := range resNodeGPUCost {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: GPU cost data missing node")
- continue
- }
- nodeType, _ := result.GetString("instance_type")
- providerID, _ := result.GetString("provider_id")
- gpuCost := result.Values[0].Value
- key := NodeIdentifier{
- Cluster: cluster,
- Name: name,
- ProviderID: cloud.ParseID(providerID),
- }
- keyNon := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- clusterAndNameToType[keyNon] = nodeType
- // If gpu count is available use it to multiply gpu cost
- if value, ok := gpuCountMap[key]; ok && value != 0 {
- gpuCostMap[key] = gpuCost * value
- } else {
- gpuCostMap[key] = gpuCost
- }
- }
- return gpuCostMap, clusterAndNameToType
- }
- func buildGPUCountMap(
- resNodeGPUCount []*prom.QueryResult,
- ) map[NodeIdentifier]float64 {
- gpuCountMap := make(map[NodeIdentifier]float64)
- for _, result := range resNodeGPUCount {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: GPU count data missing node")
- continue
- }
- gpuCount := result.Values[0].Value
- providerID, _ := result.GetString("provider_id")
- key := NodeIdentifier{
- Cluster: cluster,
- Name: name,
- ProviderID: cloud.ParseID(providerID),
- }
- gpuCountMap[key] = gpuCount
- }
- return gpuCountMap
- }
- func buildCPUCoresMap(
- resNodeCPUCores []*prom.QueryResult,
- ) map[nodeIdentifierNoProviderID]float64 {
- m := make(map[nodeIdentifierNoProviderID]float64)
- for _, result := range resNodeCPUCores {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: CPU cores data missing node")
- continue
- }
- cpuCores := result.Values[0].Value
- key := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- m[key] = cpuCores
- }
- return m
- }
- func buildRAMBytesMap(resNodeRAMBytes []*prom.QueryResult) map[nodeIdentifierNoProviderID]float64 {
- m := make(map[nodeIdentifierNoProviderID]float64)
- for _, result := range resNodeRAMBytes {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: RAM bytes data missing node")
- continue
- }
- ramBytes := result.Values[0].Value
- key := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- m[key] = ramBytes
- }
- return m
- }
- // Mapping of cluster/node=cpu for computing resource efficiency
- func buildCPUBreakdownMap(resNodeCPUModeTotal []*prom.QueryResult) map[nodeIdentifierNoProviderID]*ClusterCostsBreakdown {
- cpuBreakdownMap := make(map[nodeIdentifierNoProviderID]*ClusterCostsBreakdown)
- // Mapping of cluster/node=cpu for computing resource efficiency
- clusterNodeCPUTotal := map[nodeIdentifierNoProviderID]float64{}
- // Mapping of cluster/node:mode=cpu for computing resource efficiency
- clusterNodeModeCPUTotal := map[nodeIdentifierNoProviderID]map[string]float64{}
- // Build intermediate structures for CPU usage by (cluster, node) and by
- // (cluster, node, mode) for computing resouce efficiency
- for _, result := range resNodeCPUModeTotal {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- node, err := result.GetString("kubernetes_node")
- if err != nil {
- log.DedupedWarningf(5, "ClusterNodes: CPU mode data missing node")
- continue
- }
- mode, err := result.GetString("mode")
- if err != nil {
- log.Warningf("ClusterNodes: unable to read CPU mode: %s", err)
- mode = "other"
- }
- key := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: node,
- }
- total := result.Values[0].Value
- // Increment total
- clusterNodeCPUTotal[key] += total
- // Increment mode
- if _, ok := clusterNodeModeCPUTotal[key]; !ok {
- clusterNodeModeCPUTotal[key] = map[string]float64{}
- }
- clusterNodeModeCPUTotal[key][mode] += total
- }
- // Compute resource efficiency from intermediate structures
- for key, total := range clusterNodeCPUTotal {
- if modeTotals, ok := clusterNodeModeCPUTotal[key]; ok {
- for mode, subtotal := range modeTotals {
- // Compute percentage for the current cluster, node, mode
- pct := 0.0
- if total > 0 {
- pct = subtotal / total
- }
- if _, ok := cpuBreakdownMap[key]; !ok {
- cpuBreakdownMap[key] = &ClusterCostsBreakdown{}
- }
- switch mode {
- case "idle":
- cpuBreakdownMap[key].Idle += pct
- case "system":
- cpuBreakdownMap[key].System += pct
- case "user":
- cpuBreakdownMap[key].User += pct
- default:
- cpuBreakdownMap[key].Other += pct
- }
- }
- }
- }
- return cpuBreakdownMap
- }
- func buildRAMUserPctMap(resNodeRAMUserPct []*prom.QueryResult) map[nodeIdentifierNoProviderID]float64 {
- m := make(map[nodeIdentifierNoProviderID]float64)
- for _, result := range resNodeRAMUserPct {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("instance")
- if err != nil {
- log.Warningf("ClusterNodes: RAM user percent missing node")
- continue
- }
- pct := result.Values[0].Value
- key := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- m[key] = pct
- }
- return m
- }
- func buildRAMSystemPctMap(resNodeRAMSystemPct []*prom.QueryResult) map[nodeIdentifierNoProviderID]float64 {
- m := make(map[nodeIdentifierNoProviderID]float64)
- for _, result := range resNodeRAMSystemPct {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("instance")
- if err != nil {
- log.Warningf("ClusterNodes: RAM system percent missing node")
- continue
- }
- pct := result.Values[0].Value
- key := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: name,
- }
- m[key] = pct
- }
- return m
- }
- type activeData struct {
- start time.Time
- end time.Time
- minutes float64
- }
- func buildActiveDataMap(resActiveMins []*prom.QueryResult, resolution time.Duration) map[NodeIdentifier]activeData {
- m := make(map[NodeIdentifier]activeData)
- for _, result := range resActiveMins {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- name, err := result.GetString("node")
- if err != nil {
- log.Warningf("ClusterNodes: active mins missing node")
- continue
- }
- providerID, _ := result.GetString("provider_id")
- key := NodeIdentifier{
- Cluster: cluster,
- Name: name,
- ProviderID: cloud.ParseID(providerID),
- }
- if len(result.Values) == 0 {
- continue
- }
- s := time.Unix(int64(result.Values[0].Timestamp), 0)
- e := time.Unix(int64(result.Values[len(result.Values)-1].Timestamp), 0).Add(resolution)
- mins := e.Sub(s).Minutes()
- // TODO niko/assets if mins >= threshold, interpolate for missing data?
- m[key] = activeData{
- start: s,
- end: e,
- minutes: mins,
- }
- }
- return m
- }
- // Determine preemptibility with node labels
- // node id -> is preemptible?
- func buildPreemptibleMap(
- resIsSpot []*prom.QueryResult,
- ) map[NodeIdentifier]bool {
- m := make(map[NodeIdentifier]bool)
- for _, result := range resIsSpot {
- nodeName, err := result.GetString("node")
- if err != nil {
- continue
- }
- // GCP preemptible label
- pre := result.Values[0].Value
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- providerID, _ := result.GetString("provider_id")
- key := NodeIdentifier{
- Cluster: cluster,
- Name: nodeName,
- ProviderID: cloud.ParseID(providerID),
- }
- // TODO(michaelmdresser): check this condition at merge time?
- // if node, ok := nodeMap[key]; pre > 0.0 && ok {
- // node.Preemptible = true
- // }
- m[key] = pre > 0.0
- // TODO AWS preemptible
- // TODO Azure preemptible
- }
- return m
- }
- func buildLabelsMap(
- resLabels []*prom.QueryResult,
- ) map[nodeIdentifierNoProviderID]map[string]string {
- m := make(map[nodeIdentifierNoProviderID]map[string]string)
- // Copy labels into node
- for _, result := range resLabels {
- cluster, err := result.GetString(env.GetPromClusterLabel())
- if err != nil {
- cluster = env.GetClusterID()
- }
- node, err := result.GetString("node")
- if err != nil {
- log.DedupedWarningf(5, "ClusterNodes: label data missing node")
- continue
- }
- key := nodeIdentifierNoProviderID{
- Cluster: cluster,
- Name: node,
- }
- m[key] = make(map[string]string)
- for name, value := range result.Metric {
- if val, ok := value.(string); ok {
- m[key][name] = val
- }
- }
- }
- return m
- }
- // checkForKeyAndInitIfMissing inits a key in the provided nodemap if
- // it does not exist. Intended to be called ONLY by buildNodeMap
- func checkForKeyAndInitIfMissing(
- nodeMap map[NodeIdentifier]*Node,
- key NodeIdentifier,
- clusterAndNameToType map[nodeIdentifierNoProviderID]string,
- ) {
- if _, ok := nodeMap[key]; !ok {
- // default nodeType in case we don't have the mapping
- var nodeType string
- if t, ok := clusterAndNameToType[nodeIdentifierNoProviderID{
- Cluster: key.Cluster,
- Name: key.Name,
- }]; ok {
- nodeType = t
- } else {
- log.Warningf("ClusterNodes: Type does not exist for node identifier %s", key)
- }
- nodeMap[key] = &Node{
- Cluster: key.Cluster,
- Name: key.Name,
- NodeType: nodeType,
- ProviderID: key.ProviderID,
- CPUBreakdown: &ClusterCostsBreakdown{},
- RAMBreakdown: &ClusterCostsBreakdown{},
- }
- }
- }
- // buildNodeMap creates the main set of node data for ClusterNodes from
- // the data maps built from Prometheus queries. Some of the Prometheus
- // data has access to the provider_id field and some does not. To get
- // around this problem, we use the data that includes provider_id
- // to build up the definitive set of nodes and then use the data
- // with less-specific identifiers (i.e. without provider_id) to fill
- // in the remaining fields.
- //
- // For example, let's say we have nodes identified like so:
- // cluster name/node name/provider_id. For the sake of the example,
- // we will also limit data to CPU cost, CPU cores, and preemptibility.
- //
- // We have CPU cost data that looks like this:
- // cluster1/node1/prov_node1_A: $10
- // cluster1/node1/prov_node1_B: $8
- // cluster1/node2/prov_node2: $15
- //
- // We have Preemptible data that looks like this:
- // cluster1/node1/prov_node1_A: true
- // cluster1/node1/prov_node1_B: false
- // cluster1/node2/prov_node2_B: false
- //
- // We have CPU cores data that looks like this:
- // cluster1/node1: 4
- // cluster1/node2: 6
- //
- // This function first combines the data that is fully identified,
- // creating the following:
- // cluster1/node1/prov_node1_A: CPUCost($10), Preemptible(true)
- // cluster1/node1/prov_node1_B: CPUCost($8), Preemptible(false)
- // cluster1/node2/prov_node2: CPUCost($15), Preemptible(false)
- //
- // It then uses the less-specific data to extend the specific data,
- // making the following:
- // cluster1/node1/prov_node1_A: CPUCost($10), Preemptible(true), Cores(4)
- // cluster1/node1/prov_node1_B: CPUCost($8), Preemptible(false), Cores(4)
- // cluster1/node2/prov_node2: CPUCost($15), Preemptible(false), Cores(6)
- //
- // In the situation where provider_id doesn't exist for any metrics,
- // that is the same as all provider_ids being empty strings. If
- // provider_id doesn't exist at all, then we (without having to do
- // extra work) easily fall back on identifying nodes only by cluster name
- // and node name because the provider_id part of the key will always
- // be the empty string.
- //
- // It is worth nothing that, in this approach, if a node is not present
- // in the more specific data but is present in the less-specific data,
- // that data is never processed into the final node map. For example,
- // let's say the CPU cores map has the following entry:
- // cluster1/node8: 6
- // But none of the maps with provider_id (CPU cost, RAM cost, etc.)
- // have an identifier for cluster1/node8 (regardless of provider_id).
- // In this situation, the final node map will not have a cluster1/node8
- // entry. This could be fixed by iterating over all of the less specific
- // identifiers and, inside that iteration, all of the identifiers in
- // the node map, but this would introduce a roughly quadratic time
- // complexity.
- func buildNodeMap(
- cpuCostMap, ramCostMap, gpuCostMap, gpuCountMap map[NodeIdentifier]float64,
- cpuCoresMap, ramBytesMap, ramUserPctMap,
- ramSystemPctMap map[nodeIdentifierNoProviderID]float64,
- cpuBreakdownMap map[nodeIdentifierNoProviderID]*ClusterCostsBreakdown,
- activeDataMap map[NodeIdentifier]activeData,
- preemptibleMap map[NodeIdentifier]bool,
- labelsMap map[nodeIdentifierNoProviderID]map[string]string,
- clusterAndNameToType map[nodeIdentifierNoProviderID]string,
- ) map[NodeIdentifier]*Node {
- nodeMap := make(map[NodeIdentifier]*Node)
- // Initialize the map with the most-specific data:
- for id, cost := range cpuCostMap {
- checkForKeyAndInitIfMissing(nodeMap, id, clusterAndNameToType)
- nodeMap[id].CPUCost = cost
- }
- for id, cost := range ramCostMap {
- checkForKeyAndInitIfMissing(nodeMap, id, clusterAndNameToType)
- nodeMap[id].RAMCost = cost
- }
- for id, cost := range gpuCostMap {
- checkForKeyAndInitIfMissing(nodeMap, id, clusterAndNameToType)
- nodeMap[id].GPUCost = cost
- }
- for id, count := range gpuCountMap {
- checkForKeyAndInitIfMissing(nodeMap, id, clusterAndNameToType)
- nodeMap[id].GPUCount = count
- }
- for id, preemptible := range preemptibleMap {
- checkForKeyAndInitIfMissing(nodeMap, id, clusterAndNameToType)
- nodeMap[id].Preemptible = preemptible
- }
- for id, activeData := range activeDataMap {
- checkForKeyAndInitIfMissing(nodeMap, id, clusterAndNameToType)
- nodeMap[id].Start = activeData.start
- nodeMap[id].End = activeData.end
- nodeMap[id].Minutes = activeData.minutes
- }
- // We now merge in data that doesn't have a provider id by looping over
- // all keys already added and inserting data according to their
- // cluster name/node name combos.
- for id, nodePtr := range nodeMap {
- clusterAndNameID := nodeIdentifierNoProviderID{
- Cluster: id.Cluster,
- Name: id.Name,
- }
- if cores, ok := cpuCoresMap[clusterAndNameID]; ok {
- nodePtr.CPUCores = cores
- if v, ok := partialCPUMap[nodePtr.NodeType]; ok {
- if cores > 0 {
- nodePtr.CPUCores = v
- adjustmentFactor := v / cores
- nodePtr.CPUCost = nodePtr.CPUCost * adjustmentFactor
- }
- }
- }
- if ramBytes, ok := ramBytesMap[clusterAndNameID]; ok {
- nodePtr.RAMBytes = ramBytes
- }
- if ramUserPct, ok := ramUserPctMap[clusterAndNameID]; ok {
- nodePtr.RAMBreakdown.User = ramUserPct
- }
- if ramSystemPct, ok := ramSystemPctMap[clusterAndNameID]; ok {
- nodePtr.RAMBreakdown.System = ramSystemPct
- }
- if cpuBreakdown, ok := cpuBreakdownMap[clusterAndNameID]; ok {
- nodePtr.CPUBreakdown = cpuBreakdown
- }
- if labels, ok := labelsMap[clusterAndNameID]; ok {
- nodePtr.Labels = labels
- }
- }
- return nodeMap
- }
|
