package config import ( "crypto/md5" "fmt" "hash/fnv" "io/ioutil" "path/filepath" "sort" "strings" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/datasource" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/notifier" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/utils" "github.com/VictoriaMetrics/VictoriaMetrics/lib/envtemplate" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "gopkg.in/yaml.v2" ) // Group contains list of Rules grouped into // entity with one name and evaluation interval type Group struct { Type datasource.Type `yaml:"type,omitempty"` File string Name string `yaml:"name"` Interval utils.PromDuration `yaml:"interval"` Rules []Rule `yaml:"rules"` Concurrency int `yaml:"concurrency"` // ExtraFilterLabels is a list label filters applied to every rule // request withing a group. Is compatible only with VM datasources. // See https://docs.victoriametrics.com#prometheus-querying-api-enhancements ExtraFilterLabels map[string]string `yaml:"extra_filter_labels"` // Labels is a set of label value pairs, that will be added to every rule. // It has priority over the external labels. Labels map[string]string `yaml:"labels"` // Checksum stores the hash of yaml definition for this group. // May be used to detect any changes like rules re-ordering etc. Checksum string // Catches all undefined fields and must be empty after parsing. XXX map[string]interface{} `yaml:",inline"` } // UnmarshalYAML implements the yaml.Unmarshaler interface. func (g *Group) UnmarshalYAML(unmarshal func(interface{}) error) error { type group Group if err := unmarshal((*group)(g)); err != nil { return err } b, err := yaml.Marshal(g) if err != nil { return fmt.Errorf("failed to marshal group configuration for checksum: %w", err) } // change default value to prometheus datasource. if g.Type.Get() == "" { g.Type.Set(datasource.NewPrometheusType()) } // update rules with empty type. for i, r := range g.Rules { if r.Type.Get() == "" { r.Type.Set(g.Type) r.ID = HashRule(r) g.Rules[i] = r } } h := md5.New() h.Write(b) g.Checksum = fmt.Sprintf("%x", h.Sum(nil)) return nil } // Validate check for internal Group or Rule configuration errors func (g *Group) Validate(validateAnnotations, validateExpressions bool) error { if g.Name == "" { return fmt.Errorf("group name must be set") } uniqueRules := map[uint64]struct{}{} for _, r := range g.Rules { ruleName := r.Record if r.Alert != "" { ruleName = r.Alert } if _, ok := uniqueRules[r.ID]; ok { return fmt.Errorf("rule %q duplicate", ruleName) } uniqueRules[r.ID] = struct{}{} if err := r.Validate(); err != nil { return fmt.Errorf("invalid rule %q.%q: %w", g.Name, ruleName, err) } if validateExpressions { // its needed only for tests. // because correct types must be inherited after unmarshalling. exprValidator := g.Type.ValidateExpr if r.Type.Get() != "" { exprValidator = r.Type.ValidateExpr } if err := exprValidator(r.Expr); err != nil { return fmt.Errorf("invalid expression for rule %q.%q: %w", g.Name, ruleName, err) } } if validateAnnotations { if err := notifier.ValidateTemplates(r.Annotations); err != nil { return fmt.Errorf("invalid annotations for rule %q.%q: %w", g.Name, ruleName, err) } if err := notifier.ValidateTemplates(r.Labels); err != nil { return fmt.Errorf("invalid labels for rule %q.%q: %w", g.Name, ruleName, err) } } } return checkOverflow(g.XXX, fmt.Sprintf("group %q", g.Name)) } // Rule describes entity that represent either // recording rule or alerting rule. type Rule struct { ID uint64 Type datasource.Type `yaml:"type,omitempty"` Record string `yaml:"record,omitempty"` Alert string `yaml:"alert,omitempty"` Expr string `yaml:"expr"` For utils.PromDuration `yaml:"for"` Labels map[string]string `yaml:"labels,omitempty"` Annotations map[string]string `yaml:"annotations,omitempty"` // Catches all undefined fields and must be empty after parsing. XXX map[string]interface{} `yaml:",inline"` } // UnmarshalYAML implements the yaml.Unmarshaler interface. func (r *Rule) UnmarshalYAML(unmarshal func(interface{}) error) error { type rule Rule if err := unmarshal((*rule)(r)); err != nil { return err } r.ID = HashRule(*r) return nil } // Name returns Rule name according to its type func (r *Rule) Name() string { if r.Record != "" { return r.Record } return r.Alert } // HashRule hashes significant Rule fields into // unique hash that supposed to define Rule uniqueness func HashRule(r Rule) uint64 { h := fnv.New64a() h.Write([]byte(r.Expr)) if r.Record != "" { h.Write([]byte("recording")) h.Write([]byte(r.Record)) } else { h.Write([]byte("alerting")) h.Write([]byte(r.Alert)) } h.Write([]byte(r.Type.Get())) kv := sortMap(r.Labels) for _, i := range kv { h.Write([]byte(i.key)) h.Write([]byte(i.value)) h.Write([]byte("\xff")) } return h.Sum64() } // Validate check for Rule configuration errors func (r *Rule) Validate() error { if (r.Record == "" && r.Alert == "") || (r.Record != "" && r.Alert != "") { return fmt.Errorf("either `record` or `alert` must be set") } if r.Expr == "" { return fmt.Errorf("expression can't be empty") } return checkOverflow(r.XXX, "rule") } // Parse parses rule configs from given file patterns func Parse(pathPatterns []string, validateAnnotations, validateExpressions bool) ([]Group, error) { var fp []string for _, pattern := range pathPatterns { matches, err := filepath.Glob(pattern) if err != nil { return nil, fmt.Errorf("error reading file pattern %s: %w", pattern, err) } fp = append(fp, matches...) } errGroup := new(utils.ErrGroup) var groups []Group for _, file := range fp { uniqueGroups := map[string]struct{}{} gr, err := parseFile(file) if err != nil { errGroup.Add(fmt.Errorf("failed to parse file %q: %w", file, err)) continue } for _, g := range gr { if err := g.Validate(validateAnnotations, validateExpressions); err != nil { errGroup.Add(fmt.Errorf("invalid group %q in file %q: %w", g.Name, file, err)) continue } if _, ok := uniqueGroups[g.Name]; ok { errGroup.Add(fmt.Errorf("group name %q duplicate in file %q", g.Name, file)) continue } uniqueGroups[g.Name] = struct{}{} g.File = file groups = append(groups, g) } } if err := errGroup.Err(); err != nil { return nil, err } if len(groups) < 1 { logger.Warnf("no groups found in %s", strings.Join(pathPatterns, ";")) } return groups, nil } func parseFile(path string) ([]Group, error) { data, err := ioutil.ReadFile(path) if err != nil { return nil, fmt.Errorf("error reading alert rule file: %w", err) } data = envtemplate.Replace(data) g := struct { Groups []Group `yaml:"groups"` // Catches all undefined fields and must be empty after parsing. XXX map[string]interface{} `yaml:",inline"` }{} err = yaml.Unmarshal(data, &g) if err != nil { return nil, err } return g.Groups, checkOverflow(g.XXX, "config") } func checkOverflow(m map[string]interface{}, ctx string) error { if len(m) > 0 { var keys []string for k := range m { keys = append(keys, k) } return fmt.Errorf("unknown fields in %s: %s", ctx, strings.Join(keys, ", ")) } return nil } type item struct { key, value string } func sortMap(m map[string]string) []item { var kv []item for k, v := range m { kv = append(kv, item{key: k, value: v}) } sort.Slice(kv, func(i, j int) bool { return kv[i].key < kv[j].key }) return kv }