package kubernetes import ( "encoding/json" "fmt" "io/ioutil" "net/http" "net/url" "sync" "time" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/internal" "github.com/influxdata/telegraf/plugins/inputs" ) // Kubernetes represents the config object for the plugin type Kubernetes struct { URL string // Bearer Token authorization file path BearerToken string `toml:"bearer_token"` // Path to CA file SSLCA string `toml:"ssl_ca"` // Path to host cert file SSLCert string `toml:"ssl_cert"` // Path to cert key file SSLKey string `toml:"ssl_key"` // Use SSL but skip chain & host verification InsecureSkipVerify bool RoundTripper http.RoundTripper } var sampleConfig = ` ## URL for the kubelet url = "http://1.1.1.1:10255" ## Use bearer token for authorization # bearer_token = /path/to/bearer/token ## Optional SSL Config # ssl_ca = /path/to/cafile # ssl_cert = /path/to/certfile # ssl_key = /path/to/keyfile ## Use SSL but skip chain & host verification # insecure_skip_verify = false ` const ( summaryEndpoint = `%s/stats/summary` ) func init() { inputs.Add("kubernetes", func() telegraf.Input { return &Kubernetes{} }) } //SampleConfig returns a sample config func (k *Kubernetes) SampleConfig() string { return sampleConfig } //Description returns the description of this plugin func (k *Kubernetes) Description() string { return "Read metrics from the kubernetes kubelet api" } //Gather collects kubernetes metrics from a given URL func (k *Kubernetes) Gather(acc telegraf.Accumulator) error { var wg sync.WaitGroup wg.Add(1) go func(k *Kubernetes) { defer wg.Done() acc.AddError(k.gatherSummary(k.URL, acc)) }(k) wg.Wait() return nil } func buildURL(endpoint string, base string) (*url.URL, error) { u := fmt.Sprintf(endpoint, base) addr, err := url.Parse(u) if err != nil { return nil, fmt.Errorf("Unable to parse address '%s': %s", u, err) } return addr, nil } func (k *Kubernetes) gatherSummary(baseURL string, acc telegraf.Accumulator) error { url := fmt.Sprintf("%s/stats/summary", baseURL) var req, err = http.NewRequest("GET", url, nil) var token []byte var resp *http.Response tlsCfg, err := internal.GetTLSConfig(k.SSLCert, k.SSLKey, k.SSLCA, k.InsecureSkipVerify) if err != nil { return err } if k.RoundTripper == nil { k.RoundTripper = &http.Transport{ TLSHandshakeTimeout: 5 * time.Second, TLSClientConfig: tlsCfg, ResponseHeaderTimeout: time.Duration(3 * time.Second), } } if k.BearerToken != "" { token, err = ioutil.ReadFile(k.BearerToken) if err != nil { return err } req.Header.Set("Authorization", "Bearer "+string(token)) } resp, err = k.RoundTripper.RoundTrip(req) if err != nil { return fmt.Errorf("error making HTTP request to %s: %s", url, err) } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return fmt.Errorf("%s returned HTTP status %s", url, resp.Status) } summaryMetrics := &SummaryMetrics{} err = json.NewDecoder(resp.Body).Decode(summaryMetrics) if err != nil { return fmt.Errorf(`Error parsing response: %s`, err) } buildSystemContainerMetrics(summaryMetrics, acc) buildNodeMetrics(summaryMetrics, acc) buildPodMetrics(summaryMetrics, acc) return nil } func buildSystemContainerMetrics(summaryMetrics *SummaryMetrics, acc telegraf.Accumulator) { for _, container := range summaryMetrics.Node.SystemContainers { tags := map[string]string{ "node_name": summaryMetrics.Node.NodeName, "container_name": container.Name, } fields := make(map[string]interface{}) fields["cpu_usage_nanocores"] = container.CPU.UsageNanoCores fields["cpu_usage_core_nanoseconds"] = container.CPU.UsageCoreNanoSeconds fields["memory_usage_bytes"] = container.Memory.UsageBytes fields["memory_working_set_bytes"] = container.Memory.WorkingSetBytes fields["memory_rss_bytes"] = container.Memory.RSSBytes fields["memory_page_faults"] = container.Memory.PageFaults fields["memory_major_page_faults"] = container.Memory.MajorPageFaults fields["rootfs_available_bytes"] = container.RootFS.AvailableBytes fields["rootfs_capacity_bytes"] = container.RootFS.CapacityBytes fields["logsfs_avaialble_bytes"] = container.LogsFS.AvailableBytes fields["logsfs_capacity_bytes"] = container.LogsFS.CapacityBytes acc.AddFields("kubernetes_system_container", fields, tags) } } func buildNodeMetrics(summaryMetrics *SummaryMetrics, acc telegraf.Accumulator) { tags := map[string]string{ "node_name": summaryMetrics.Node.NodeName, } fields := make(map[string]interface{}) fields["cpu_usage_nanocores"] = summaryMetrics.Node.CPU.UsageNanoCores fields["cpu_usage_core_nanoseconds"] = summaryMetrics.Node.CPU.UsageCoreNanoSeconds fields["memory_available_bytes"] = summaryMetrics.Node.Memory.AvailableBytes fields["memory_usage_bytes"] = summaryMetrics.Node.Memory.UsageBytes fields["memory_working_set_bytes"] = summaryMetrics.Node.Memory.WorkingSetBytes fields["memory_rss_bytes"] = summaryMetrics.Node.Memory.RSSBytes fields["memory_page_faults"] = summaryMetrics.Node.Memory.PageFaults fields["memory_major_page_faults"] = summaryMetrics.Node.Memory.MajorPageFaults fields["network_rx_bytes"] = summaryMetrics.Node.Network.RXBytes fields["network_rx_errors"] = summaryMetrics.Node.Network.RXErrors fields["network_tx_bytes"] = summaryMetrics.Node.Network.TXBytes fields["network_tx_errors"] = summaryMetrics.Node.Network.TXErrors fields["fs_available_bytes"] = summaryMetrics.Node.FileSystem.AvailableBytes fields["fs_capacity_bytes"] = summaryMetrics.Node.FileSystem.CapacityBytes fields["fs_used_bytes"] = summaryMetrics.Node.FileSystem.UsedBytes fields["runtime_image_fs_available_bytes"] = summaryMetrics.Node.Runtime.ImageFileSystem.AvailableBytes fields["runtime_image_fs_capacity_bytes"] = summaryMetrics.Node.Runtime.ImageFileSystem.CapacityBytes fields["runtime_image_fs_used_bytes"] = summaryMetrics.Node.Runtime.ImageFileSystem.UsedBytes acc.AddFields("kubernetes_node", fields, tags) } func buildPodMetrics(summaryMetrics *SummaryMetrics, acc telegraf.Accumulator) { for _, pod := range summaryMetrics.Pods { for _, container := range pod.Containers { tags := map[string]string{ "node_name": summaryMetrics.Node.NodeName, "namespace": pod.PodRef.Namespace, "container_name": container.Name, "pod_name": pod.PodRef.Name, } fields := make(map[string]interface{}) fields["cpu_usage_nanocores"] = container.CPU.UsageNanoCores fields["cpu_usage_core_nanoseconds"] = container.CPU.UsageCoreNanoSeconds fields["memory_usage_bytes"] = container.Memory.UsageBytes fields["memory_working_set_bytes"] = container.Memory.WorkingSetBytes fields["memory_rss_bytes"] = container.Memory.RSSBytes fields["memory_page_faults"] = container.Memory.PageFaults fields["memory_major_page_faults"] = container.Memory.MajorPageFaults fields["rootfs_available_bytes"] = container.RootFS.AvailableBytes fields["rootfs_capacity_bytes"] = container.RootFS.CapacityBytes fields["rootfs_used_bytes"] = container.RootFS.UsedBytes fields["logsfs_avaialble_bytes"] = container.LogsFS.AvailableBytes fields["logsfs_capacity_bytes"] = container.LogsFS.CapacityBytes fields["logsfs_used_bytes"] = container.LogsFS.UsedBytes acc.AddFields("kubernetes_pod_container", fields, tags) } for _, volume := range pod.Volumes { tags := map[string]string{ "node_name": summaryMetrics.Node.NodeName, "pod_name": pod.PodRef.Name, "namespace": pod.PodRef.Namespace, "volume_name": volume.Name, } fields := make(map[string]interface{}) fields["available_bytes"] = volume.AvailableBytes fields["capacity_bytes"] = volume.CapacityBytes fields["used_bytes"] = volume.UsedBytes acc.AddFields("kubernetes_pod_volume", fields, tags) } tags := map[string]string{ "node_name": summaryMetrics.Node.NodeName, "pod_name": pod.PodRef.Name, "namespace": pod.PodRef.Namespace, } fields := make(map[string]interface{}) fields["rx_bytes"] = pod.Network.RXBytes fields["rx_errors"] = pod.Network.RXErrors fields["tx_bytes"] = pod.Network.TXBytes fields["tx_errors"] = pod.Network.TXErrors acc.AddFields("kubernetes_pod_network", fields, tags) } }