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Index ¶
Constants ¶
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const ( DefaultConfigFileName = "nri-kubernetes" DefaultConfigFolderName = "/etc/newrelic-infra" DefaultTimeout = 10 * time.Second DefaultRetries = 3 DefaultScraperMaxReruns = 4 DefaultAgentTimeout = 3 * time.Second DefaultProbeTimeout = 90 * time.Second DefaultProbeBackoff = 5 * time.Second DefaultNetworkRouteFile = "/proc/net/route" SinkTypeHTTP = "http" SinkTypeStdout = "stdout" )
Variables ¶
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var ( ErrInvalidMatchExpressionsValue = errors.New("invalid matchExpressions value") ErrInvalidMatchLabelsValue = errors.New("invalid matchLabels value") )
Functions ¶
This section is empty.
Types ¶
type Auth ¶
type Auth struct {
// Type specifies which authentication mechanism will be used. Supported values are `mtls` and `token`.
// If `token` is specified, connection will be performed using the ServiceAccount bearer token mounted in the pod.
// If `mtls` is specified, tls certificates will be pulled from secrets as sefined in the MTLS struct.
Type string `mapstructure:"type"`
// MTLS contains instructions on where to fetch TLS certificates from when connecting to control plane endpoints.
// These secrets are fetched using the Kubernetes API and the pod must have a ServiceAccount token holding the
// appropriate RBAC roles to perform this operation.
MTLS *MTLS `mapstructure:"mtls"`
}
Auth specifies if authentication will be attempted against this endpoint.
type AutodiscoverControlPlane ¶
type AutodiscoverControlPlane struct {
// Namespace restrict matching pods to a certain namespace.
// If empty, all namespaces will be considered.
Namespace string `mapstructure:"namespace"`
// Selector is a string-encoded label selector to match pods for a particular component.
Selector string `mapstructure:"selector"`
// MatchNode is a flag that when set, will discard pods discovered that are not running in the same node as the
// integration. This flag is useful when running the control plane scraper as a DaemonSet with `hostNetwork`, where
// the components will be contacted through `localhost`.
MatchNode bool `mapstructure:"matchNode"`
// Endpoints is a list of endpoints to try if a pod matching the above criteria is found.
Endpoints []Endpoint `mapstructure:"endpoints"`
}
AutodiscoverControlPlane stores criteria for matching a control plane pod.
type Config ¶
type Config struct {
// Verbose is a shortcut flag to LogLevel=Debug
Verbose bool `mapstructure:"verbose"`
// LogLevel defines the logrus.Logger log level used by the integration.
LogLevel string `mapstructure:"logLevel"`
// ClusterName is a unique, human-readable name for the cluster. Will be used to qualify entities and displayNames.
ClusterName string `mapstructure:"clusterName"`
// KubeconfigPath is the path to a local kube/config file. If empty, in-cluster config will be used.
KubeconfigPath string `mapstructure:"kubeconfigPath"`
// NodeIP is the main IP for the node where the integration is running. Used to connect to the Kubelet.
NodeIP string `mapstructure:"nodeIP"`
// NodeName is the name of the node where the integration is running. Used to retrieve node info from the API
// Server, and to connect to the Kubelet through the API Server proxy if direct connection fails.
NodeName string `mapstructure:"nodeName"`
// Interval is the time the integration will wait between metric collection runs.
Interval time.Duration `mapstructure:"interval"`
// Sink defines where the integration will report the metrics to.
Sink struct {
// Type allows selecting which of the supported sinks will be used by the integration.
// Supported values are `http` and `stdout`.
Type string `mapstructure:"type"`
// HTTP stores the configuration for the HTTP sink.
HTTP HTTPSink `mapstructure:"http"`
} `mapstructure:"sink"`
// ControlPlane defines config options for the control plane scraper.
ControlPlane `mapstructure:"controlPlane"`
// Kubelet defines config options for the kubelet scraper.
Kubelet `mapstructure:"kubelet"`
// KSM defines config options for the kube-state-metrics scraper.
KSM `mapstructure:"ksm"`
// NamespaceSelector defines custom monitoring filtering for namespaces.
NamespaceSelector *NamespaceSelector `mapstructure:"namespaceSelector"`
}
type ControlPlane ¶
type ControlPlane struct {
// Enabled controls whether control plane scraping will be attempted, for any component.
Enabled bool `mapstructure:"enabled"`
// ETCD contains configuration for the etcd scraper.
ETCD ControlPlaneComponent `mapstructure:"etcd"`
// APIServer contains configuration for the API server scraper.
APIServer ControlPlaneComponent `mapstructure:"apiServer"`
// ControllerManager contains configuration for the controller manager scraper.
ControllerManager ControlPlaneComponent `mapstructure:"controllerManager"`
// Scheduler contains configuration for the scheduler scraper.
Scheduler ControlPlaneComponent `mapstructure:"scheduler"`
// Timeout controls the timeout for the requests to control plane endpoints.
Timeout time.Duration `mapstructure:"timeout"`
// Retries controls how many times the integration will attempt to connect to control plane components before giving up.
Retries int `mapstructure:"retries"`
}
ControlPlane contains config options for the control plane scraper.
type ControlPlaneComponent ¶
type ControlPlaneComponent struct {
// Enabled controls whether this particular component should be scraped.
Enabled bool `mapstructure:"enabled"`
// StaticEndpoint contains an Endpoint configuration. If set, Autodiscover will not be attempted and the integration
// will contact this endpoint directly instead.
// Please note that failure to connect to a StaticEndpoint is considered a fatal error and will cause the
// integration to exit with a non-zero code.
StaticEndpoint *Endpoint `mapstructure:"staticEndpoint"`
// Autodiscover contains one or more criteria for discovering control plane endpoints. Entries will be iterated in
// order, with the following rules:
// 1. If an entry's criteria (Selector, Namespace, MatchNode) does not match any pod, the next entry will be tried.
// 2. If none of the entries matches any pod, the integration will not error but keep probing in case matching pods appear.
// 3. If an entry's criteria more than one pod, only the first match will be considered.
// 4. Endpoints are tried in order for a matching pod, until metrics can be read successfully from one of them.
// 5. If all endpoints for a matching fail, no more entries will be processed, and the integration will keep probing in case matching pods appear..
Autodiscover []AutodiscoverControlPlane `mapstructure:"autodiscover"`
}
ControlPlaneComponent contains the config for a control plane component.
type Endpoint ¶
type Endpoint struct {
// URL is the full URL (with scheme and port) to attempt the connection to.
URL string `mapstructure:"url"`
// Auth specifies if authentication will be attempted against this endpoint.
Auth *Auth `mapstructure:"auth"`
// InsecureSkipVerify allows to skip verification of TLS certificates.
// If URL scheme is not https, this field is ignored.
InsecureSkipVerify bool `mapstructure:"insecureSkipVerify"`
}
Endpoint contains information about how to perform a request to a component.
type Expression ¶ added in v3.3.0
type Expression struct {
// Key it the key of the label.
Key string `mapstructure:"key"`
// Operator holds either an inclusion (NotIn) or exclusion (In) value.
Operator string `mapstructure:"operator"`
// Values is a slice of values related to the key.
Values []interface{} `mapstructure:"values"`
}
Expression hold the values to generate an expression to filter namespaces by MatchExpressions.
func (*Expression) String ¶ added in v3.3.0
func (e *Expression) String() (string, error)
type HTTPSink ¶
type HTTPSink struct {
// Port to be used for the HTTP sink.
Port int `mapstructure:"port"`
// Timeout is the amount of time to wait before giving up the connection to the HTTP sink.
Timeout time.Duration `mapstructure:"timeout"`
// Retries is the maximum number of attempts to connect to the HTTP sink if the connection fails before giving up
// and exiting.
Retries int `mapstructure:"retries"`
// TLS allows to configure TLS encryption and authentication for the HTTP sink.
TLS TLSConfig `mapstructure:"tls"`
// ProbeTimeout is the amount of time the main func to probe infra agent sidecar before giving up and restarting during scraper agent starting.
ProbeTimeout time.Duration `mapstructure:"probeTimeout"`
// ProbeBackoff is the amount of time the main func to backoff when it fails to probe infra agent sidecar.
ProbeBackoff time.Duration `mapstructure:"probeBackoff"`
}
HTTPSink stores the configuration for the HTTP sink.
type KSM ¶
type KSM struct {
// Enabled controls whether KSM scraping will be attempted.
Enabled bool `mapstructure:"enabled"`
// StaticURL overrides KSM autodiscovery and forces the integration to just connect to this URL instead.
StaticURL string `mapstructure:"staticURL"`
// Scheme is the scheme that will be used for autodiscovered KSM service endpoints.
// If empty, ksm.defaultScheme (`http`) will be assumed.
Scheme string `mapstructure:"scheme"`
// Port allows to filter autodiscovered endpoints. If non-zero, only endpoints using Port will be considered.
Port int `mapstructure:"port"`
// Selector is a string-encoded label selector to narrow KSM service discovery.
// If empty, ksm.defaultLabelSelector is used.
Selector string `mapstructure:"selector"`
// Namespace allows limiting KSM autodiscovery to a particular namespace.
// If empty, the integration will look for KSM service endpoints matching the Selector above on all namespaces.
Namespace string `mapstructure:"namespace"`
// Distributed is an EXPERIMENTAL flag that will cause the integration to collect metrics from all autodiscovered
// KSM endpoints, instead of just the first one.
Distributed bool `mapstructure:"distributed"`
// Timeout controls the timeout for the requests to the KSM service.
Timeout time.Duration `mapstructure:"timeout"`
// Retries controls how many times the integration will attempt to connect to the KSM endpoint before giving up.
Retries int `mapstructure:"retries"`
// Discovery allows to configure timing aspects of KSM discovery.
Discovery struct {
// BackoffDelay controls how much time to wait between attempts to find the KSM service in the cluster.
BackoffDelay time.Duration `mapstructure:"backoffDelay"`
// Timeout controls how much time the integration will wait for a KSM service to appear before giving up.
Timeout time.Duration `mapstructure:"timeout"`
} `mapstructure:"discovery"`
}
KSM contains configuration options for the KSM scraper.
type Kubelet ¶
type Kubelet struct {
// Enabled controls whether Kubelet scraping will be attempted.
Enabled bool `mapstructure:"enabled"`
// Port controls which port will be used to connect to the kubelet.
// If zero, the kubelet port will be discovered from the status of the Node object in the API Server.
Port int32 `mapstructure:"port"`
// Scheme controls the scheme to be used to connect to the kubelet.
// If empty, the integration will try to guess the scheme based on the port number, by checking if this number is
// either the well-known http or https port for the kubelet.
// If Scheme is not specified and the Port is non-standard, the integration will fail to connect.
Scheme string `mapstructure:"scheme"`
// Path to the file containing the network routes of the system, used to figure out the default network interface
// for which metrics will be collected.
// Defaults to /proc/net/route.
NetworkRouteFile string `mapstructure:"networkRouteFile"`
// Timeout controls the timeout for the requests to the kubelet.
Timeout time.Duration `mapstructure:"timeout"`
// Retries controls how many times the integration will attempt to connect to the kubelet before giving up.
Retries int `mapstructure:"retries"`
// ScraperMaxReruns controls how many times the integration will attempt to
// run kubelet scraper when runtime error happens before giving up.
ScraperMaxReruns int `mapstructure:"scraperMaxReruns"`
}
Kubelet contains config options for the Kubelet scraper.
type MTLS ¶
type MTLS struct {
// TLSSecretName is the name of the secret containing TLS certificate, private key, and CA certificate that will be
// used to perform mutual TLS authentication with the endpoint.
// It is recommended for this secret to be of type: kubernetes.io/tls.
TLSSecretName string `mapstructure:"secretName"`
// TLSSecretNamespace is the namespace where the secret above is located.
TLSSecretNamespace string `mapstructure:"secretNamespace"`
}
type NamespaceSelector ¶ added in v3.3.0
type NamespaceSelector struct {
// MatchLabels is a list of labels to filter namespaces with.
MatchLabels map[string]interface{} `mapstructure:"matchLabels"`
// MatchExpressions is a list of namespaces selector requirements.
MatchExpressions []Expression `mapstructure:"matchExpressions"`
}
NamespaceSelector contains config options for filtering namespaces.
type TLSConfig ¶ added in v3.2.0
type TLSConfig struct {
// Enabled dictates whether TLS is used to connect to the HTTP sink.
Enabled bool `mapstructure:"enabled"`
// CertPath is the path to a PEM-encoded TLS certificate that will be presented to the server.
CertPath string `mapstructure:"certPath"`
// KeyPath is the path to the PEM-encoded private key for CertPath.
KeyPath string `mapstructure:"keyPath"`
// CAPath is the path to the PEM-encoded CA certificate that will be used to validate the server certificate.
CAPath string `mapstructure:"caPath"`
}
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