* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
+ *
+ * This source code is part of the near-RT RIC (RAN Intelligent Controller)
+ * platform project (RICP).
+ *
*/
package main
import (
"encoding/json"
+ "fmt"
"io"
"io/ioutil"
"os"
const defaultReportingEntityID = "00000000-0000-0000-0000-000000000000"
const defaultVNFName = "Vespa"
+const defaultNFNamingCode = "ricp"
func readSystemUUID() string {
data, err := ioutil.ReadFile("/sys/class/dmi/id/product_uuid")
return VNFName
}
+func getNFNamingCode() string {
+ NFNamingCode := os.Getenv("VESMGR_NFNAMINGCODE")
+ if NFNamingCode == "" {
+ return defaultNFNamingCode
+ }
+ return NFNamingCode
+}
+
func basicVespaConf() VESAgentConfiguration {
var vespaconf = VESAgentConfiguration{
DataDir: "/tmp/data",
ReportingEntityName: "Vespa",
ReportingEntityID: readSystemUUID(),
MaxSize: 2000000,
- NfNamingCode: "hsxp",
- NfcNamingCodes: []NfcNamingCode{
- NfcNamingCode{
- Type: "oam",
- Vnfcs: []string{"lr-ope-0", "lr-ope-1", "lr-ope-2"},
- },
- NfcNamingCode{
- Type: "etl",
- Vnfcs: []string{"lr-pro-0", "lr-pro-1"},
- },
- },
- RetryInterval: time.Second * 5,
- MaxMissed: 2,
+ NfNamingCode: getNFNamingCode(),
+ NfcNamingCodes: []NfcNamingCode{},
+ RetryInterval: time.Second * 5,
+ MaxMissed: 2,
},
Measurement: MeasurementConfiguration{
// Domain abbreviation has to be set to “Mvfs” for VES 5.3,
// AppMetricsStruct contains xapplication metrics definition
type AppMetricsStruct struct {
+ MoId string
+ MeasType string
+ MeasId string
+ MeasInterval string
ObjectName string
ObjectInstance string
+ CounterId string
}
// AppMetrics contains metrics definitions for all Xapps
//
// { ...
// "config" : {
-// "metrics": [
-// { "name": "...", "objectName": "...", "objectInstamce": "..." },
+// "measurements": [
+// {
+// "metrics": [
+// { "name": "...", "objectName": "...", "objectInstamce": "..." },
+// ...
+// ]
+// }
// ...
// ]
-// }
+// }
// }
func parseMetricsFromXAppDescriptor(descriptor []byte, appMetrics AppMetrics) AppMetrics {
var desc []map[string]interface{}
for _, app := range desc {
config, configOk := app["config"]
- if configOk {
- metrics, metricsOk := config.(map[string]interface{})["metrics"]
- if metricsOk {
- parseMetricsRules(metrics.([]interface{}), appMetrics)
+ if !configOk {
+ logger.Info("No xApp config found!")
+ continue
+ }
+ measurements, measurementsOk := config.(map[string]interface{})["measurements"]
+ if !measurementsOk {
+ logger.Info("No xApp metrics found!")
+ continue
+ }
+
+ for _, m := range measurements.([]interface{}) {
+ moId, moIdOk := m.(map[string]interface{})["moId"].(string)
+ measType, measTypeOk := m.(map[string]interface{})["measType"].(string)
+ measId, measIdOk := m.(map[string]interface{})["measId"].(string)
+ measInterval, measIntervalOk := m.(map[string]interface{})["measInterval"].(string)
+ metrics, metricsOk := m.(map[string]interface{})["metrics"]
+ if !metricsOk || !measTypeOk || !measIdOk || !moIdOk || !measIntervalOk {
+ logger.Info("No metrics found for moId=%s measType=%s measId=%s measInterval=%s", moId, measId, measType, measInterval)
+ continue
}
+ logger.Info("Parsed measurement: moId=%s type=%s id=%s interval=%s", moId, measType, measId, measInterval)
+
+ parseMetricsRules(metrics.([]interface{}), appMetrics, moId, measType, measId, measInterval)
}
}
return appMetrics
// of the following format:
// { "name": xxx, "objectName": yyy, "objectInstance": zzz }
// Entries, which do not have all the necessary fields, are ignored.
-func parseMetricsRules(metricsMap []interface{}, appMetrics AppMetrics) AppMetrics {
+func parseMetricsRules(metricsMap []interface{}, appMetrics AppMetrics, moId, measType, measId, measInterval string) AppMetrics {
for _, element := range metricsMap {
name, nameOk := element.(map[string]interface{})["name"].(string)
if nameOk {
_, alreadyFound := appMetrics[name]
objectName, objectNameOk := element.(map[string]interface{})["objectName"].(string)
objectInstance, objectInstanceOk := element.(map[string]interface{})["objectInstance"].(string)
- if !alreadyFound && objectNameOk && objectInstanceOk {
- appMetrics[name] = AppMetricsStruct{objectName, objectInstance}
- logger.Info("parsed counter %s %s %s", name, objectName, objectInstance)
+ counterId, counterIdOk := element.(map[string]interface{})["counterId"].(string)
+ if !alreadyFound && objectNameOk && objectInstanceOk && counterIdOk {
+ appMetrics[name] = AppMetricsStruct{moId, measType, measId, measInterval, objectName, objectInstance, counterId}
+ logger.Info("Parsed counter name=%s %s/%s M%sC%s", name, objectName, objectInstance, measId, counterId)
}
if alreadyFound {
logger.Info("skipped duplicate counter %s", name)
return appMetrics
}
-func getRules(vespaconf *VESAgentConfiguration, xAppConfig []byte) {
- appMetrics := make(AppMetrics)
- parseMetricsFromXAppDescriptor(xAppConfig, appMetrics)
-
- makeRule := func(expr string, objName string, objInstance string) MetricRule {
+func getRules(vespaconf *VESAgentConfiguration, xAppConfig []byte) bool {
+ makeRule := func(expr string, value AppMetricsStruct) MetricRule {
return MetricRule{
Target: "AdditionalObjects",
Expr: expr,
- ObjectInstance: objInstance,
- ObjectName: objName,
+ ObjectInstance: fmt.Sprintf("%s:%s", value.ObjectInstance, value.CounterId),
+ ObjectName: value.ObjectName,
ObjectKeys: []Label{
- Label{
- Name: "ricComponentName",
- Expr: "'{{.labels.kubernetes_name}}'",
- },
+ {Name: "ricComponentName", Expr: "'{{.labels.kubernetes_name}}'"},
+ {Name: "moId", Expr: value.MoId},
+ {Name: "measType", Expr: value.MeasType},
+ {Name: "measId", Expr: value.MeasId},
+ {Name: "measInterval", Expr: value.MeasInterval},
},
}
}
- var metricsMap map[string][]interface{}
- json.Unmarshal(xAppConfig, &metricsMap)
- metrics := parseMetricsRules(metricsMap["metrics"], appMetrics)
+ appMetrics := make(AppMetrics)
+ metrics := parseMetricsFromXAppDescriptor(xAppConfig, appMetrics)
vespaconf.Measurement.Prometheus.Rules.Metrics = make([]MetricRule, 0, len(metrics))
for key, value := range metrics {
- vespaconf.Measurement.Prometheus.Rules.Metrics = append(vespaconf.Measurement.Prometheus.Rules.Metrics, makeRule(key, value.ObjectName, value.ObjectInstance))
+ vespaconf.Measurement.Prometheus.Rules.Metrics = append(vespaconf.Measurement.Prometheus.Rules.Metrics, makeRule(key, value))
}
if len(vespaconf.Measurement.Prometheus.Rules.Metrics) == 0 {
logger.Info("vespa config with empty metrics")
}
+
+ return len(vespaconf.Measurement.Prometheus.Rules.Metrics) > 0
}
func getCollectorConfiguration(vespaconf *VESAgentConfiguration) {
vespaconf.PrimaryCollector.ServerRoot = os.Getenv("VESMGR_PRICOLLECTOR_SERVERROOT")
vespaconf.PrimaryCollector.Topic = os.Getenv("VESMGR_PRICOLLECTOR_TOPIC")
portStr := os.Getenv("VESMGR_PRICOLLECTOR_PORT")
+
if portStr == "" {
vespaconf.PrimaryCollector.Port = 8443
} else {
port, _ := strconv.Atoi(portStr)
vespaconf.PrimaryCollector.Port = port
}
+
secureStr := os.Getenv("VESMGR_PRICOLLECTOR_SECURE")
if secureStr == "true" {
vespaconf.PrimaryCollector.Secure = true
func createVespaConfig(writer io.Writer, xAppStatus []byte) {
vespaconf := basicVespaConf()
+
getRules(&vespaconf, xAppStatus)
+
getCollectorConfiguration(&vespaconf)
+
err := yaml.NewEncoder(writer).Encode(vespaconf)
if err != nil {
logger.Error("Cannot write vespa conf file: %s", err.Error())