package promscrape import ( "encoding/json" "flag" "fmt" "net/url" "path/filepath" "sort" "strconv" "strings" "sync" "sync/atomic" "time" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/cgroup" "github.com/VictoriaMetrics/VictoriaMetrics/lib/envtemplate" "github.com/VictoriaMetrics/VictoriaMetrics/lib/fs" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promauth" "github.com/VictoriaMetrics/VictoriaMetrics/lib/prompbmarshal" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promrelabel" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/azure" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/consul" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/digitalocean" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/dns" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/docker" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/dockerswarm" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/ec2" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/eureka" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/gce" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/http" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/kubernetes" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/openstack" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promscrape/discovery/yandexcloud" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils" "github.com/VictoriaMetrics/VictoriaMetrics/lib/proxy" "github.com/VictoriaMetrics/metrics" "github.com/cespare/xxhash/v2" "gopkg.in/yaml.v2" ) var ( strictParse = flag.Bool("promscrape.config.strictParse", true, "Whether to deny unsupported fields in -promscrape.config . Set to false in order to silently skip unsupported fields") dryRun = flag.Bool("promscrape.config.dryRun", false, "Checks -promscrape.config file for errors and unsupported fields and then exits. "+ "Returns non-zero exit code on parsing errors and emits these errors to stderr. "+ "See also -promscrape.config.strictParse command-line flag. "+ "Pass -loggerLevel=ERROR if you don't need to see info messages in the output.") dropOriginalLabels = flag.Bool("promscrape.dropOriginalLabels", false, "Whether to drop original labels for scrape targets at /targets and /api/v1/targets pages. "+ "This may be needed for reducing memory usage when original labels for big number of scrape targets occupy big amounts of memory. "+ "Note that this reduces debuggability for improper per-target relabeling configs") clusterMembersCount = flag.Int("promscrape.cluster.membersCount", 0, "The number of members in a cluster of scrapers. "+ "Each member must have an unique -promscrape.cluster.memberNum in the range 0 ... promscrape.cluster.membersCount-1 . "+ "Each member then scrapes roughly 1/N of all the targets. By default cluster scraping is disabled, i.e. a single scraper scrapes all the targets") clusterMemberNum = flag.String("promscrape.cluster.memberNum", "0", "The number of number in the cluster of scrapers. "+ "It must be an unique value in the range 0 ... promscrape.cluster.membersCount-1 across scrapers in the cluster. "+ "Can be specified as pod name of Kubernetes StatefulSet - pod-name-Num, where Num is a numeric part of pod name") clusterReplicationFactor = flag.Int("promscrape.cluster.replicationFactor", 1, "The number of members in the cluster, which scrape the same targets. "+ "If the replication factor is greater than 1, then the deduplication must be enabled at remote storage side. See https://docs.victoriametrics.com/#deduplication") clusterName = flag.String("promscrape.cluster.name", "", "Optional name of the cluster. If multiple vmagent clusters scrape the same targets, "+ "then each cluster must have unique name in order to properly de-duplicate samples received from these clusters. "+ "See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2679") ) var clusterMemberID int func mustInitClusterMemberID() { s := *clusterMemberNum // special case for kubernetes deployment, where pod-name formatted at some-pod-name-1 // obtain memberNum from last segment // https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2359 if idx := strings.LastIndexByte(s, '-'); idx >= 0 { s = s[idx+1:] } n, err := strconv.Atoi(s) if err != nil { logger.Fatalf("cannot parse -promscrape.cluster.memberNum=%q: %s", *clusterMemberNum, err) } clusterMemberID = n } // Config represents essential parts from Prometheus config defined at https://prometheus.io/docs/prometheus/latest/configuration/configuration/ type Config struct { Global GlobalConfig `yaml:"global,omitempty"` ScrapeConfigs []*ScrapeConfig `yaml:"scrape_configs,omitempty"` ScrapeConfigFiles []string `yaml:"scrape_config_files,omitempty"` // This is set to the directory from where the config has been loaded. baseDir string } func (cfg *Config) unmarshal(data []byte, isStrict bool) error { data = envtemplate.Replace(data) var err error if isStrict { if err = yaml.UnmarshalStrict(data, cfg); err != nil { err = fmt.Errorf("%w; pass -promscrape.config.strictParse=false command-line flag for ignoring unknown fields in yaml config", err) } } else { err = yaml.Unmarshal(data, cfg) } return err } func (cfg *Config) marshal() []byte { data, err := yaml.Marshal(cfg) if err != nil { logger.Panicf("BUG: cannot marshal Config: %s", err) } return data } func (cfg *Config) mustStart() { startTime := time.Now() logger.Infof("starting service discovery routines...") for _, sc := range cfg.ScrapeConfigs { sc.mustStart(cfg.baseDir) } jobNames := cfg.getJobNames() tsmGlobal.registerJobNames(jobNames) logger.Infof("started service discovery routines in %.3f seconds", time.Since(startTime).Seconds()) } func (cfg *Config) mustRestart(prevCfg *Config) { startTime := time.Now() logger.Infof("restarting service discovery routines...") prevScrapeCfgByName := make(map[string]*ScrapeConfig, len(prevCfg.ScrapeConfigs)) for _, scPrev := range prevCfg.ScrapeConfigs { prevScrapeCfgByName[scPrev.JobName] = scPrev } // Restart all the scrape jobs on Global config change. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2884 needGlobalRestart := !areEqualGlobalConfigs(&cfg.Global, &prevCfg.Global) // Loop over the the new jobs, start new ones and restart updated ones. var started, stopped, restarted int currentJobNames := make(map[string]struct{}, len(cfg.ScrapeConfigs)) for i, sc := range cfg.ScrapeConfigs { currentJobNames[sc.JobName] = struct{}{} scPrev := prevScrapeCfgByName[sc.JobName] if scPrev == nil { // New scrape config has been appeared. Start it. sc.mustStart(cfg.baseDir) started++ continue } if !needGlobalRestart && areEqualScrapeConfigs(scPrev, sc) { // The scrape config didn't change, so no need to restart it. // Use the reference to the previous job, so it could be stopped properly later. cfg.ScrapeConfigs[i] = scPrev } else { // The scrape config has been changed. Stop the previous scrape config and start new one. scPrev.mustStop() sc.mustStart(cfg.baseDir) restarted++ } } // Stop preious jobs which weren't found in the current configuration. for _, scPrev := range prevCfg.ScrapeConfigs { if _, ok := currentJobNames[scPrev.JobName]; !ok { scPrev.mustStop() stopped++ } } jobNames := cfg.getJobNames() tsmGlobal.registerJobNames(jobNames) logger.Infof("restarted service discovery routines in %.3f seconds, stopped=%d, started=%d, restarted=%d", time.Since(startTime).Seconds(), stopped, started, restarted) } func areEqualGlobalConfigs(a, b *GlobalConfig) bool { sa := a.marshalJSON() sb := b.marshalJSON() return string(sa) == string(sb) } func areEqualScrapeConfigs(a, b *ScrapeConfig) bool { sa := a.marshalJSON() sb := b.marshalJSON() return string(sa) == string(sb) } func (sc *ScrapeConfig) unmarshalJSON(data []byte) error { return json.Unmarshal(data, sc) } func (sc *ScrapeConfig) marshalJSON() []byte { data, err := json.Marshal(sc) if err != nil { logger.Panicf("BUG: cannot marshal ScrapeConfig: %s", err) } return data } func (gc *GlobalConfig) marshalJSON() []byte { data, err := json.Marshal(gc) if err != nil { logger.Panicf("BUG: cannot marshal GlobalConfig: %s", err) } return data } func (cfg *Config) mustStop() { startTime := time.Now() logger.Infof("stopping service discovery routines...") for _, sc := range cfg.ScrapeConfigs { sc.mustStop() } logger.Infof("stopped service discovery routines in %.3f seconds", time.Since(startTime).Seconds()) } // getJobNames returns all the scrape job names from the cfg. func (cfg *Config) getJobNames() []string { a := make([]string, 0, len(cfg.ScrapeConfigs)) for _, sc := range cfg.ScrapeConfigs { a = append(a, sc.JobName) } return a } // GlobalConfig represents essential parts for `global` section of Prometheus config. // // See https://prometheus.io/docs/prometheus/latest/configuration/configuration/ type GlobalConfig struct { ScrapeInterval *promutils.Duration `yaml:"scrape_interval,omitempty"` ScrapeTimeout *promutils.Duration `yaml:"scrape_timeout,omitempty"` ExternalLabels map[string]string `yaml:"external_labels,omitempty"` } // ScrapeConfig represents essential parts for `scrape_config` section of Prometheus config. // // See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#scrape_config type ScrapeConfig struct { JobName string `yaml:"job_name"` ScrapeInterval *promutils.Duration `yaml:"scrape_interval,omitempty"` ScrapeTimeout *promutils.Duration `yaml:"scrape_timeout,omitempty"` MetricsPath string `yaml:"metrics_path,omitempty"` HonorLabels bool `yaml:"honor_labels,omitempty"` HonorTimestamps *bool `yaml:"honor_timestamps,omitempty"` FollowRedirects *bool `yaml:"follow_redirects,omitempty"` Scheme string `yaml:"scheme,omitempty"` Params map[string][]string `yaml:"params,omitempty"` HTTPClientConfig promauth.HTTPClientConfig `yaml:",inline"` ProxyURL *proxy.URL `yaml:"proxy_url,omitempty"` RelabelConfigs []promrelabel.RelabelConfig `yaml:"relabel_configs,omitempty"` MetricRelabelConfigs []promrelabel.RelabelConfig `yaml:"metric_relabel_configs,omitempty"` SampleLimit int `yaml:"sample_limit,omitempty"` AzureSDConfigs []azure.SDConfig `yaml:"azure_sd_configs,omitempty"` ConsulSDConfigs []consul.SDConfig `yaml:"consul_sd_configs,omitempty"` DigitaloceanSDConfigs []digitalocean.SDConfig `yaml:"digitalocean_sd_configs,omitempty"` DNSSDConfigs []dns.SDConfig `yaml:"dns_sd_configs,omitempty"` DockerSDConfigs []docker.SDConfig `yaml:"docker_sd_configs,omitempty"` DockerSwarmSDConfigs []dockerswarm.SDConfig `yaml:"dockerswarm_sd_configs,omitempty"` EC2SDConfigs []ec2.SDConfig `yaml:"ec2_sd_configs,omitempty"` EurekaSDConfigs []eureka.SDConfig `yaml:"eureka_sd_configs,omitempty"` FileSDConfigs []FileSDConfig `yaml:"file_sd_configs,omitempty"` GCESDConfigs []gce.SDConfig `yaml:"gce_sd_configs,omitempty"` HTTPSDConfigs []http.SDConfig `yaml:"http_sd_configs,omitempty"` KubernetesSDConfigs []kubernetes.SDConfig `yaml:"kubernetes_sd_configs,omitempty"` OpenStackSDConfigs []openstack.SDConfig `yaml:"openstack_sd_configs,omitempty"` StaticConfigs []StaticConfig `yaml:"static_configs,omitempty"` YandexCloudSDConfigs []yandexcloud.SDConfig `yaml:"yandexcloud_sd_configs,omitempty"` // These options are supported only by lib/promscrape. RelabelDebug bool `yaml:"relabel_debug,omitempty"` MetricRelabelDebug bool `yaml:"metric_relabel_debug,omitempty"` DisableCompression bool `yaml:"disable_compression,omitempty"` DisableKeepAlive bool `yaml:"disable_keepalive,omitempty"` StreamParse bool `yaml:"stream_parse,omitempty"` ScrapeAlignInterval *promutils.Duration `yaml:"scrape_align_interval,omitempty"` ScrapeOffset *promutils.Duration `yaml:"scrape_offset,omitempty"` SeriesLimit int `yaml:"series_limit,omitempty"` ProxyClientConfig promauth.ProxyClientConfig `yaml:",inline"` // This is set in loadConfig swc *scrapeWorkConfig } func (sc *ScrapeConfig) mustStart(baseDir string) { swosFunc := func(metaLabels map[string]string) interface{} { target := metaLabels["__address__"] sw, err := sc.swc.getScrapeWork(target, nil, metaLabels) if err != nil { logger.Errorf("cannot create kubernetes_sd_config target %q for job_name %q: %s", target, sc.swc.jobName, err) return nil } return sw } for i := range sc.KubernetesSDConfigs { sc.KubernetesSDConfigs[i].MustStart(baseDir, swosFunc) } } func (sc *ScrapeConfig) mustStop() { for i := range sc.AzureSDConfigs { sc.AzureSDConfigs[i].MustStop() } for i := range sc.ConsulSDConfigs { sc.ConsulSDConfigs[i].MustStop() } for i := range sc.DigitaloceanSDConfigs { sc.DigitaloceanSDConfigs[i].MustStop() } for i := range sc.DNSSDConfigs { sc.DNSSDConfigs[i].MustStop() } for i := range sc.DockerSDConfigs { sc.DockerSDConfigs[i].MustStop() } for i := range sc.DockerSwarmSDConfigs { sc.DockerSwarmSDConfigs[i].MustStop() } for i := range sc.EC2SDConfigs { sc.EC2SDConfigs[i].MustStop() } for i := range sc.EurekaSDConfigs { sc.EurekaSDConfigs[i].MustStop() } for i := range sc.GCESDConfigs { sc.GCESDConfigs[i].MustStop() } for i := range sc.HTTPSDConfigs { sc.HTTPSDConfigs[i].MustStop() } for i := range sc.KubernetesSDConfigs { sc.KubernetesSDConfigs[i].MustStop() } for i := range sc.OpenStackSDConfigs { sc.OpenStackSDConfigs[i].MustStop() } } // FileSDConfig represents file-based service discovery config. // // See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#file_sd_config type FileSDConfig struct { Files []string `yaml:"files"` // `refresh_interval` is ignored. See `-promscrape.fileSDCheckInterval` } // StaticConfig represents essential parts for `static_config` section of Prometheus config. // // See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#static_config type StaticConfig struct { Targets []string `yaml:"targets"` Labels map[string]string `yaml:"labels,omitempty"` } func loadStaticConfigs(path string) ([]StaticConfig, error) { data, err := fs.ReadFileOrHTTP(path) if err != nil { return nil, fmt.Errorf("cannot read `static_configs` from %q: %w", path, err) } data = envtemplate.Replace(data) var stcs []StaticConfig if err := yaml.UnmarshalStrict(data, &stcs); err != nil { return nil, fmt.Errorf("cannot unmarshal `static_configs` from %q: %w", path, err) } return stcs, nil } // loadConfig loads Prometheus config from the given path. func loadConfig(path string) (*Config, []byte, error) { data, err := fs.ReadFileOrHTTP(path) if err != nil { return nil, nil, fmt.Errorf("cannot read Prometheus config from %q: %w", path, err) } var c Config dataNew, err := c.parseData(data, path) if err != nil { return nil, nil, fmt.Errorf("cannot parse Prometheus config from %q: %w", path, err) } return &c, dataNew, nil } func loadScrapeConfigFiles(baseDir string, scrapeConfigFiles []string) ([]*ScrapeConfig, []byte, error) { var scrapeConfigs []*ScrapeConfig var scsData []byte for _, filePath := range scrapeConfigFiles { filePath := fs.GetFilepath(baseDir, filePath) paths := []string{filePath} if strings.Contains(filePath, "*") { ps, err := filepath.Glob(filePath) if err != nil { return nil, nil, fmt.Errorf("invalid pattern %q: %w", filePath, err) } sort.Strings(ps) paths = ps } for _, path := range paths { data, err := fs.ReadFileOrHTTP(path) if err != nil { return nil, nil, fmt.Errorf("cannot load %q: %w", path, err) } data = envtemplate.Replace(data) var scs []*ScrapeConfig if err = yaml.UnmarshalStrict(data, &scs); err != nil { return nil, nil, fmt.Errorf("cannot parse %q: %w", path, err) } scrapeConfigs = append(scrapeConfigs, scs...) scsData = append(scsData, '\n') scsData = append(scsData, data...) } } return scrapeConfigs, scsData, nil } // IsDryRun returns true if -promscrape.config.dryRun command-line flag is set func IsDryRun() bool { return *dryRun } func (cfg *Config) parseData(data []byte, path string) ([]byte, error) { if err := cfg.unmarshal(data, *strictParse); err != nil { return nil, fmt.Errorf("cannot unmarshal data: %w", err) } absPath, err := filepath.Abs(path) if err != nil { return nil, fmt.Errorf("cannot obtain abs path for %q: %w", path, err) } cfg.baseDir = filepath.Dir(absPath) // Load cfg.ScrapeConfigFiles into c.ScrapeConfigs scs, scsData, err := loadScrapeConfigFiles(cfg.baseDir, cfg.ScrapeConfigFiles) if err != nil { return nil, fmt.Errorf("cannot load `scrape_config_files` from %q: %w", path, err) } cfg.ScrapeConfigFiles = nil cfg.ScrapeConfigs = append(cfg.ScrapeConfigs, scs...) dataNew := append(data, scsData...) // Check that all the scrape configs have unique JobName m := make(map[string]struct{}, len(cfg.ScrapeConfigs)) for _, sc := range cfg.ScrapeConfigs { jobName := sc.JobName if _, ok := m[jobName]; ok { return nil, fmt.Errorf("duplicate `job_name` in `scrape_configs` loaded from %q: %q", path, jobName) } m[jobName] = struct{}{} } // Initialize cfg.ScrapeConfigs for i, sc := range cfg.ScrapeConfigs { // Make a copy of sc in order to remove references to `data` memory. // This should prevent from memory leaks on config reload. sc = sc.clone() cfg.ScrapeConfigs[i] = sc swc, err := getScrapeWorkConfig(sc, cfg.baseDir, &cfg.Global) if err != nil { return nil, fmt.Errorf("cannot parse `scrape_config`: %w", err) } sc.swc = swc } return dataNew, nil } func (sc *ScrapeConfig) clone() *ScrapeConfig { data := sc.marshalJSON() var scCopy ScrapeConfig if err := scCopy.unmarshalJSON(data); err != nil { logger.Panicf("BUG: cannot unmarshal scrape config: %s", err) } return &scCopy } func getSWSByJob(sws []*ScrapeWork) map[string][]*ScrapeWork { m := make(map[string][]*ScrapeWork) for _, sw := range sws { m[sw.jobNameOriginal] = append(m[sw.jobNameOriginal], sw) } return m } // getAzureSDScrapeWork returns `azure_sd_configs` ScrapeWork from cfg. func (cfg *Config) getAzureSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.AzureSDConfigs { sdc := &sc.AzureSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "azure_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering azure targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getConsulSDScrapeWork returns `consul_sd_configs` ScrapeWork from cfg. func (cfg *Config) getConsulSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.ConsulSDConfigs { sdc := &sc.ConsulSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "consul_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering consul targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getDigitalOceanDScrapeWork returns `digitalocean_sd_configs` ScrapeWork from cfg. func (cfg *Config) getDigitalOceanDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.DigitaloceanSDConfigs { sdc := &sc.DigitaloceanSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "digitalocean_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering digitalocean targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getDNSSDScrapeWork returns `dns_sd_configs` ScrapeWork from cfg. func (cfg *Config) getDNSSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.DNSSDConfigs { sdc := &sc.DNSSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "dns_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering dns targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getDockerSDScrapeWork returns `docker_sd_configs` ScrapeWork from cfg. func (cfg *Config) getDockerSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.DockerSDConfigs { sdc := &sc.DockerSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "docker_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering docker targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getDockerSwarmSDScrapeWork returns `dockerswarm_sd_configs` ScrapeWork from cfg. func (cfg *Config) getDockerSwarmSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.DockerSwarmSDConfigs { sdc := &sc.DockerSwarmSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "dockerswarm_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering dockerswarm targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getEC2SDScrapeWork returns `ec2_sd_configs` ScrapeWork from cfg. func (cfg *Config) getEC2SDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.EC2SDConfigs { sdc := &sc.EC2SDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "ec2_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering ec2 targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getEurekaSDScrapeWork returns `eureka_sd_configs` ScrapeWork from cfg. func (cfg *Config) getEurekaSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.EurekaSDConfigs { sdc := &sc.EurekaSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "eureka_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering eureka targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getFileSDScrapeWork returns `file_sd_configs` ScrapeWork from cfg. func (cfg *Config) getFileSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { // Create a map for the previous scrape work. swsMapPrev := make(map[string][]*ScrapeWork) for _, sw := range prev { filepath := promrelabel.GetLabelValueByName(sw.Labels, "__vm_filepath") if len(filepath) == 0 { logger.Panicf("BUG: missing `__vm_filepath` label") } else { swsMapPrev[filepath] = append(swsMapPrev[filepath], sw) } } dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { for j := range sc.FileSDConfigs { sdc := &sc.FileSDConfigs[j] dst = sdc.appendScrapeWork(dst, swsMapPrev, cfg.baseDir, sc.swc) } } return dst } // getGCESDScrapeWork returns `gce_sd_configs` ScrapeWork from cfg. func (cfg *Config) getGCESDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.GCESDConfigs { sdc := &sc.GCESDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "gce_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering gce targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getHTTPDScrapeWork returns `http_sd_configs` ScrapeWork from cfg. func (cfg *Config) getHTTPDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.HTTPSDConfigs { sdc := &sc.HTTPSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "http_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering http targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getKubernetesSDScrapeWork returns `kubernetes_sd_configs` ScrapeWork from cfg. func (cfg *Config) getKubernetesSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.KubernetesSDConfigs { sdc := &sc.KubernetesSDConfigs[j] swos, err := sdc.GetScrapeWorkObjects() if err != nil { logger.Errorf("skipping kubernetes_sd_config targets for job_name %q because of error: %s", sc.swc.jobName, err) ok = false break } for _, swo := range swos { sw := swo.(*ScrapeWork) dst = append(dst, sw) } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering kubernetes_sd_config targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getOpenStackSDScrapeWork returns `openstack_sd_configs` ScrapeWork from cfg. func (cfg *Config) getOpenStackSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.OpenStackSDConfigs { sdc := &sc.OpenStackSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "openstack_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering openstack targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getYandexCloudSDScrapeWork returns `yandexcloud_sd_configs` ScrapeWork from cfg. func (cfg *Config) getYandexCloudSDScrapeWork(prev []*ScrapeWork) []*ScrapeWork { swsPrevByJob := getSWSByJob(prev) dst := make([]*ScrapeWork, 0, len(prev)) for _, sc := range cfg.ScrapeConfigs { dstLen := len(dst) ok := true for j := range sc.YandexCloudSDConfigs { sdc := &sc.YandexCloudSDConfigs[j] var okLocal bool dst, okLocal = appendSDScrapeWork(dst, sdc, cfg.baseDir, sc.swc, "yandexcloud_sd_config") if ok { ok = okLocal } } if ok { continue } swsPrev := swsPrevByJob[sc.swc.jobName] if len(swsPrev) > 0 { logger.Errorf("there were errors when discovering yandexcloud targets for job %q, so preserving the previous targets", sc.swc.jobName) dst = append(dst[:dstLen], swsPrev...) } } return dst } // getStaticScrapeWork returns `static_configs` ScrapeWork from from cfg. func (cfg *Config) getStaticScrapeWork() []*ScrapeWork { var dst []*ScrapeWork for _, sc := range cfg.ScrapeConfigs { for j := range sc.StaticConfigs { stc := &sc.StaticConfigs[j] dst = stc.appendScrapeWork(dst, sc.swc, nil) } } return dst } func getScrapeWorkConfig(sc *ScrapeConfig, baseDir string, globalCfg *GlobalConfig) (*scrapeWorkConfig, error) { jobName := sc.JobName if jobName == "" { return nil, fmt.Errorf("missing `job_name` field in `scrape_config`") } scrapeInterval := sc.ScrapeInterval.Duration() if scrapeInterval <= 0 { scrapeInterval = globalCfg.ScrapeInterval.Duration() if scrapeInterval <= 0 { scrapeInterval = defaultScrapeInterval } } scrapeTimeout := sc.ScrapeTimeout.Duration() if scrapeTimeout <= 0 { scrapeTimeout = globalCfg.ScrapeTimeout.Duration() if scrapeTimeout <= 0 { scrapeTimeout = defaultScrapeTimeout } } if scrapeTimeout > scrapeInterval { // Limit the `scrape_timeout` with `scrape_interval` like Prometheus does. // This guarantees that the scraper can miss only a single scrape if the target sometimes responds slowly. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1281#issuecomment-840538907 scrapeTimeout = scrapeInterval } honorLabels := sc.HonorLabels honorTimestamps := true if sc.HonorTimestamps != nil { honorTimestamps = *sc.HonorTimestamps } denyRedirects := false if sc.FollowRedirects != nil { denyRedirects = !*sc.FollowRedirects } metricsPath := sc.MetricsPath if metricsPath == "" { metricsPath = "/metrics" } scheme := sc.Scheme if scheme == "" { scheme = "http" } if scheme != "http" && scheme != "https" { return nil, fmt.Errorf("unexpected `scheme` for `job_name` %q: %q; supported values: http or https", jobName, scheme) } params := sc.Params ac, err := sc.HTTPClientConfig.NewConfig(baseDir) if err != nil { return nil, fmt.Errorf("cannot parse auth config for `job_name` %q: %w", jobName, err) } proxyAC, err := sc.ProxyClientConfig.NewConfig(baseDir) if err != nil { return nil, fmt.Errorf("cannot parse proxy auth config for `job_name` %q: %w", jobName, err) } relabelConfigs, err := promrelabel.ParseRelabelConfigs(sc.RelabelConfigs, sc.RelabelDebug) if err != nil { return nil, fmt.Errorf("cannot parse `relabel_configs` for `job_name` %q: %w", jobName, err) } metricRelabelConfigs, err := promrelabel.ParseRelabelConfigs(sc.MetricRelabelConfigs, sc.MetricRelabelDebug) if err != nil { return nil, fmt.Errorf("cannot parse `metric_relabel_configs` for `job_name` %q: %w", jobName, err) } if (*streamParse || sc.StreamParse) && sc.SampleLimit > 0 { return nil, fmt.Errorf("cannot use stream parsing mode when `sample_limit` is set for `job_name` %q", jobName) } if (*streamParse || sc.StreamParse) && sc.SeriesLimit > 0 { return nil, fmt.Errorf("cannot use stream parsing mode when `series_limit` is set for `job_name` %q", jobName) } swc := &scrapeWorkConfig{ scrapeInterval: scrapeInterval, scrapeIntervalString: scrapeInterval.String(), scrapeTimeout: scrapeTimeout, scrapeTimeoutString: scrapeTimeout.String(), jobName: jobName, metricsPath: metricsPath, scheme: scheme, params: params, proxyURL: sc.ProxyURL, proxyAuthConfig: proxyAC, authConfig: ac, honorLabels: honorLabels, honorTimestamps: honorTimestamps, denyRedirects: denyRedirects, externalLabels: globalCfg.ExternalLabels, relabelConfigs: relabelConfigs, metricRelabelConfigs: metricRelabelConfigs, sampleLimit: sc.SampleLimit, disableCompression: sc.DisableCompression, disableKeepAlive: sc.DisableKeepAlive, streamParse: sc.StreamParse, scrapeAlignInterval: sc.ScrapeAlignInterval.Duration(), scrapeOffset: sc.ScrapeOffset.Duration(), seriesLimit: sc.SeriesLimit, } return swc, nil } type scrapeWorkConfig struct { scrapeInterval time.Duration scrapeIntervalString string scrapeTimeout time.Duration scrapeTimeoutString string jobName string metricsPath string scheme string params map[string][]string proxyURL *proxy.URL proxyAuthConfig *promauth.Config authConfig *promauth.Config honorLabels bool honorTimestamps bool denyRedirects bool externalLabels map[string]string relabelConfigs *promrelabel.ParsedConfigs metricRelabelConfigs *promrelabel.ParsedConfigs sampleLimit int disableCompression bool disableKeepAlive bool streamParse bool scrapeAlignInterval time.Duration scrapeOffset time.Duration seriesLimit int } type targetLabelsGetter interface { GetLabels(baseDir string) ([]map[string]string, error) } func appendSDScrapeWork(dst []*ScrapeWork, sdc targetLabelsGetter, baseDir string, swc *scrapeWorkConfig, discoveryType string) ([]*ScrapeWork, bool) { targetLabels, err := sdc.GetLabels(baseDir) if err != nil { logger.Errorf("skipping %s targets for job_name %q because of error: %s", discoveryType, swc.jobName, err) return dst, false } return appendScrapeWorkForTargetLabels(dst, swc, targetLabels, discoveryType), true } func appendScrapeWorkForTargetLabels(dst []*ScrapeWork, swc *scrapeWorkConfig, targetLabels []map[string]string, discoveryType string) []*ScrapeWork { startTime := time.Now() // Process targetLabels in parallel in order to reduce processing time for big number of targetLabels. type result struct { sw *ScrapeWork err error } goroutines := cgroup.AvailableCPUs() resultCh := make(chan result, len(targetLabels)) workCh := make(chan map[string]string, goroutines) for i := 0; i < goroutines; i++ { go func() { for metaLabels := range workCh { target := metaLabels["__address__"] sw, err := swc.getScrapeWork(target, nil, metaLabels) if err != nil { err = fmt.Errorf("skipping %s target %q for job_name %q because of error: %w", discoveryType, target, swc.jobName, err) } resultCh <- result{ sw: sw, err: err, } } }() } for _, metaLabels := range targetLabels { workCh <- metaLabels } close(workCh) for range targetLabels { r := <-resultCh if r.err != nil { logger.Errorf("%s", r.err) continue } if r.sw != nil { dst = append(dst, r.sw) } } metrics.GetOrCreateHistogram(fmt.Sprintf("vm_promscrape_target_relabel_duration_seconds{type=%q}", discoveryType)).UpdateDuration(startTime) return dst } func (sdc *FileSDConfig) appendScrapeWork(dst []*ScrapeWork, swsMapPrev map[string][]*ScrapeWork, baseDir string, swc *scrapeWorkConfig) []*ScrapeWork { for _, file := range sdc.Files { pathPattern := fs.GetFilepath(baseDir, file) paths := []string{pathPattern} if strings.Contains(pathPattern, "*") { var err error paths, err = filepath.Glob(pathPattern) if err != nil { // Do not return this error, since other files may contain valid scrape configs. logger.Errorf("invalid pattern %q in `files` section: %s; skipping it", file, err) continue } } for _, path := range paths { stcs, err := loadStaticConfigs(path) if err != nil { // Do not return this error, since other paths may contain valid scrape configs. if sws := swsMapPrev[path]; sws != nil { // Re-use the previous valid scrape work for this path. logger.Errorf("keeping the previously loaded `static_configs` from %q because of error when re-loading the file: %s", path, err) dst = append(dst, sws...) } else { logger.Errorf("skipping loading `static_configs` from %q because of error: %s", path, err) } continue } pathShort := path if strings.HasPrefix(pathShort, baseDir) { pathShort = path[len(baseDir):] if len(pathShort) > 0 && pathShort[0] == filepath.Separator { pathShort = pathShort[1:] } } metaLabels := map[string]string{ "__meta_filepath": pathShort, "__vm_filepath": path, // This label is needed for internal promscrape logic } for i := range stcs { dst = stcs[i].appendScrapeWork(dst, swc, metaLabels) } } } return dst } func (stc *StaticConfig) appendScrapeWork(dst []*ScrapeWork, swc *scrapeWorkConfig, metaLabels map[string]string) []*ScrapeWork { for _, target := range stc.Targets { if target == "" { // Do not return this error, since other targets may be valid logger.Errorf("`static_configs` target for `job_name` %q cannot be empty; skipping it", swc.jobName) continue } sw, err := swc.getScrapeWork(target, stc.Labels, metaLabels) if err != nil { // Do not return this error, since other targets may be valid logger.Errorf("error when parsing `static_configs` target %q for `job_name` %q: %s; skipping it", target, swc.jobName, err) continue } if sw != nil { dst = append(dst, sw) } } return dst } func appendScrapeWorkKey(dst []byte, labels []prompbmarshal.Label) []byte { for _, label := range labels { // Do not use strconv.AppendQuote, since it is slow according to CPU profile. dst = append(dst, label.Name...) dst = append(dst, '=') dst = append(dst, label.Value...) dst = append(dst, ',') } return dst } func needSkipScrapeWork(key string, membersCount, replicasCount, memberNum int) bool { if membersCount <= 1 { return false } h := xxhash.Sum64(bytesutil.ToUnsafeBytes(key)) idx := int(h % uint64(membersCount)) if replicasCount < 1 { replicasCount = 1 } for i := 0; i < replicasCount; i++ { if idx == memberNum { return false } idx++ if idx >= membersCount { idx = 0 } } return true } type labelsContext struct { labels []prompbmarshal.Label } func getLabelsContext() *labelsContext { v := labelsContextPool.Get() if v == nil { return &labelsContext{} } return v.(*labelsContext) } func putLabelsContext(lctx *labelsContext) { labels := lctx.labels for i := range labels { labels[i].Name = "" labels[i].Value = "" } lctx.labels = lctx.labels[:0] labelsContextPool.Put(lctx) } var labelsContextPool sync.Pool var scrapeWorkKeyBufPool bytesutil.ByteBufferPool func (swc *scrapeWorkConfig) getScrapeWork(target string, extraLabels, metaLabels map[string]string) (*ScrapeWork, error) { lctx := getLabelsContext() lctx.labels = mergeLabels(lctx.labels[:0], swc, target, extraLabels, metaLabels) var originalLabels []prompbmarshal.Label if !*dropOriginalLabels { originalLabels = append([]prompbmarshal.Label{}, lctx.labels...) } lctx.labels = swc.relabelConfigs.Apply(lctx.labels, 0, false) lctx.labels = promrelabel.RemoveMetaLabels(lctx.labels[:0], lctx.labels) // Remove references to already deleted labels, so GC could clean strings for label name and label value past len(labels). // This should reduce memory usage when relabeling creates big number of temporary labels with long names and/or values. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/825 for details. labels := append([]prompbmarshal.Label{}, lctx.labels...) putLabelsContext(lctx) // Verify whether the scrape work must be skipped because of `-promscrape.cluster.*` configs. // Perform the verification on labels after the relabeling in order to guarantee that targets with the same set of labels // go to the same vmagent shard. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1687#issuecomment-940629495 if *clusterMembersCount > 1 { bb := scrapeWorkKeyBufPool.Get() bb.B = appendScrapeWorkKey(bb.B[:0], labels) needSkip := needSkipScrapeWork(bytesutil.ToUnsafeString(bb.B), *clusterMembersCount, *clusterReplicationFactor, clusterMemberID) scrapeWorkKeyBufPool.Put(bb) if needSkip { return nil, nil } } if !*dropOriginalLabels { promrelabel.SortLabels(originalLabels) // Reduce memory usage by interning all the strings in originalLabels. internLabelStrings(originalLabels) } if len(labels) == 0 { // Drop target without labels. droppedTargetsMap.Register(originalLabels) return nil, nil } // See https://www.robustperception.io/life-of-a-label schemeRelabeled := promrelabel.GetLabelValueByName(labels, "__scheme__") if len(schemeRelabeled) == 0 { schemeRelabeled = "http" } addressRelabeled := promrelabel.GetLabelValueByName(labels, "__address__") if len(addressRelabeled) == 0 { // Drop target without scrape address. droppedTargetsMap.Register(originalLabels) return nil, nil } if strings.Contains(addressRelabeled, "/") { // Drop target with '/' droppedTargetsMap.Register(originalLabels) return nil, nil } addressRelabeled = addMissingPort(addressRelabeled, schemeRelabeled == "https") metricsPathRelabeled := promrelabel.GetLabelValueByName(labels, "__metrics_path__") if metricsPathRelabeled == "" { metricsPathRelabeled = "/metrics" } if !strings.HasPrefix(metricsPathRelabeled, "/") { metricsPathRelabeled = "/" + metricsPathRelabeled } paramsRelabeled := getParamsFromLabels(labels, swc.params) optionalQuestion := "?" if len(paramsRelabeled) == 0 || strings.Contains(metricsPathRelabeled, "?") { optionalQuestion = "" } paramsStr := url.Values(paramsRelabeled).Encode() scrapeURL := fmt.Sprintf("%s://%s%s%s%s", schemeRelabeled, addressRelabeled, metricsPathRelabeled, optionalQuestion, paramsStr) if _, err := url.Parse(scrapeURL); err != nil { return nil, fmt.Errorf("invalid url %q for scheme=%q (%q), target=%q (%q), metrics_path=%q (%q) for `job_name` %q: %w", scrapeURL, swc.scheme, schemeRelabeled, target, addressRelabeled, swc.metricsPath, metricsPathRelabeled, swc.jobName, err) } // Set missing "instance" label according to https://www.robustperception.io/life-of-a-label if promrelabel.GetLabelByName(labels, "instance") == nil { labels = append(labels, prompbmarshal.Label{ Name: "instance", Value: addressRelabeled, }) promrelabel.SortLabels(labels) } // Read __scrape_interval__ and __scrape_timeout__ from labels. scrapeInterval := swc.scrapeInterval if s := promrelabel.GetLabelValueByName(labels, "__scrape_interval__"); len(s) > 0 { d, err := promutils.ParseDuration(s) if err != nil { return nil, fmt.Errorf("cannot parse __scrape_interval__=%q: %w", s, err) } scrapeInterval = d } scrapeTimeout := swc.scrapeTimeout if s := promrelabel.GetLabelValueByName(labels, "__scrape_timeout__"); len(s) > 0 { d, err := promutils.ParseDuration(s) if err != nil { return nil, fmt.Errorf("cannot parse __scrape_timeout__=%q: %w", s, err) } scrapeTimeout = d } // Read series_limit option from __series_limit__ label. // See https://docs.victoriametrics.com/vmagent.html#cardinality-limiter seriesLimit := swc.seriesLimit if s := promrelabel.GetLabelValueByName(labels, "__series_limit__"); len(s) > 0 { n, err := strconv.Atoi(s) if err != nil { return nil, fmt.Errorf("cannot parse __series_limit__=%q: %w", s, err) } seriesLimit = n } // Read stream_parse option from __stream_parse__ label. // See https://docs.victoriametrics.com/vmagent.html#stream-parsing-mode streamParse := swc.streamParse if s := promrelabel.GetLabelValueByName(labels, "__stream_parse__"); len(s) > 0 { b, err := strconv.ParseBool(s) if err != nil { return nil, fmt.Errorf("cannot parse __stream_parse__=%q: %w", s, err) } streamParse = b } // Reduce memory usage by interning all the strings in labels. internLabelStrings(labels) sw := &ScrapeWork{ ScrapeURL: scrapeURL, ScrapeInterval: scrapeInterval, ScrapeTimeout: scrapeTimeout, HonorLabels: swc.honorLabels, HonorTimestamps: swc.honorTimestamps, DenyRedirects: swc.denyRedirects, OriginalLabels: originalLabels, Labels: labels, ProxyURL: swc.proxyURL, ProxyAuthConfig: swc.proxyAuthConfig, AuthConfig: swc.authConfig, MetricRelabelConfigs: swc.metricRelabelConfigs, SampleLimit: swc.sampleLimit, DisableCompression: swc.disableCompression, DisableKeepAlive: swc.disableKeepAlive, StreamParse: streamParse, ScrapeAlignInterval: swc.scrapeAlignInterval, ScrapeOffset: swc.scrapeOffset, SeriesLimit: seriesLimit, jobNameOriginal: swc.jobName, } return sw, nil } func internLabelStrings(labels []prompbmarshal.Label) { for i := range labels { label := &labels[i] label.Name = internString(label.Name) label.Value = internString(label.Value) } } func internString(s string) string { m := internStringsMap.Load().(*sync.Map) if v, ok := m.Load(s); ok { sp := v.(*string) return *sp } // Make a new copy for s in order to remove references from possible bigger string s refers to. sCopy := string(append([]byte{}, s...)) m.Store(sCopy, &sCopy) n := atomic.AddUint64(&internStringsMapLen, 1) if n > 100e3 { atomic.StoreUint64(&internStringsMapLen, 0) internStringsMap.Store(&sync.Map{}) } return sCopy } var ( internStringsMap atomic.Value internStringsMapLen uint64 ) func init() { internStringsMap.Store(&sync.Map{}) } func getParamsFromLabels(labels []prompbmarshal.Label, paramsOrig map[string][]string) map[string][]string { // See https://www.robustperception.io/life-of-a-label m := make(map[string][]string) for i := range labels { label := &labels[i] if !strings.HasPrefix(label.Name, "__param_") { continue } name := label.Name[len("__param_"):] values := []string{label.Value} if p := paramsOrig[name]; len(p) > 1 { values = append(values, p[1:]...) } m[name] = values } return m } func mergeLabels(dst []prompbmarshal.Label, swc *scrapeWorkConfig, target string, extraLabels, metaLabels map[string]string) []prompbmarshal.Label { if len(dst) > 0 { logger.Panicf("BUG: len(dst) must be 0; got %d", len(dst)) } // See https://prometheus.io/docs/prometheus/latest/configuration/configuration/#relabel_config for k, v := range swc.externalLabels { dst = appendLabel(dst, k, v) } dst = appendLabel(dst, "job", swc.jobName) dst = appendLabel(dst, "__address__", target) dst = appendLabel(dst, "__scheme__", swc.scheme) dst = appendLabel(dst, "__metrics_path__", swc.metricsPath) dst = appendLabel(dst, "__scrape_interval__", swc.scrapeIntervalString) dst = appendLabel(dst, "__scrape_timeout__", swc.scrapeTimeoutString) for k, args := range swc.params { if len(args) == 0 { continue } k = "__param_" + k v := args[0] dst = appendLabel(dst, k, v) } for k, v := range extraLabels { dst = appendLabel(dst, k, v) } for k, v := range metaLabels { dst = appendLabel(dst, k, v) } if len(dst) < 2 { return dst } // Remove duplicate labels if any. // Stable sorting is needed in order to preserve the order for labels with identical names. // This is needed in order to remove labels with duplicate names other than the last one. promrelabel.SortLabelsStable(dst) prevName := dst[0].Name hasDuplicateLabels := false for _, label := range dst[1:] { if label.Name == prevName { hasDuplicateLabels = true break } prevName = label.Name } if !hasDuplicateLabels { return dst } prevName = dst[0].Name tmp := dst[:1] for _, label := range dst[1:] { if label.Name == prevName { tmp[len(tmp)-1] = label } else { tmp = append(tmp, label) prevName = label.Name } } tail := dst[len(tmp):] for i := range tail { label := &tail[i] label.Name = "" label.Value = "" } return tmp } func appendLabel(dst []prompbmarshal.Label, name, value string) []prompbmarshal.Label { return append(dst, prompbmarshal.Label{ Name: name, Value: value, }) } const ( defaultScrapeInterval = time.Minute defaultScrapeTimeout = 10 * time.Second )