package telegraf import ( "errors" "fmt" "io/ioutil" "log" "path/filepath" "reflect" "sort" "strings" "time" "github.com/influxdb/telegraf/outputs" "github.com/influxdb/telegraf/plugins" "github.com/naoina/toml" "github.com/naoina/toml/ast" ) // Config specifies the URL/user/password for the database that telegraf // will be logging to, as well as all the plugins that the user has // specified type Config struct { // This lives outside the agent because mergeStruct doesn't need to handle // maps normally. We just copy the elements manually in ApplyAgent. Tags map[string]string agent *Agent plugins map[string]plugins.Plugin pluginConfigurations map[string]*ConfiguredPlugin outputs map[string]outputs.Output agentFieldsSet []string pluginFieldsSet map[string][]string pluginConfigurationFieldsSet map[string][]string outputFieldsSet map[string][]string } // Returns a new, empty config object. func NewConfig() *Config { c := &Config{ Tags: make(map[string]string), plugins: make(map[string]plugins.Plugin), pluginConfigurations: make(map[string]*ConfiguredPlugin), outputs: make(map[string]outputs.Output), pluginFieldsSet: make(map[string][]string), pluginConfigurationFieldsSet: make(map[string][]string), outputFieldsSet: make(map[string][]string), } return c } // Plugins returns the configured plugins as a map of name -> plugins.Plugin func (c *Config) Plugins() map[string]plugins.Plugin { return c.plugins } // Outputs returns the configured outputs as a map of name -> outputs.Output func (c *Config) Outputs() map[string]outputs.Output { return c.outputs } // TagFilter is the name of a tag, and the values on which to filter type TagFilter struct { Name string Filter []string } // ConfiguredPlugin containing a name, interval, and drop/pass prefix lists // Also lists the tags to filter type ConfiguredPlugin struct { Name string Drop []string Pass []string TagDrop []TagFilter TagPass []TagFilter Interval time.Duration } // ShouldPass returns true if the metric should pass, false if should drop func (cp *ConfiguredPlugin) ShouldPass(measurement string, tags map[string]string) bool { if cp.Pass != nil { for _, pat := range cp.Pass { if strings.HasPrefix(measurement, pat) { return true } } return false } if cp.Drop != nil { for _, pat := range cp.Drop { if strings.HasPrefix(measurement, pat) { return false } } return true } if cp.TagPass != nil { for _, pat := range cp.TagPass { if tagval, ok := tags[pat.Name]; ok { for _, filter := range pat.Filter { if filter == tagval { return true } } } } return false } if cp.TagDrop != nil { for _, pat := range cp.TagDrop { if tagval, ok := tags[pat.Name]; ok { for _, filter := range pat.Filter { if filter == tagval { return false } } } } return true } return true } // ApplyOutput loads the Output struct built from the config into the given Output struct. // Overrides only values in the given struct that were set in the config. func (c *Config) ApplyOutput(name string, v interface{}) error { if c.outputs[name] != nil { return mergeStruct(v, c.outputs[name], c.outputFieldsSet[name]) } return nil } // ApplyAgent loads the Agent struct built from the config into the given Agent struct. // Overrides only values in the given struct that were set in the config. func (c *Config) ApplyAgent(a *Agent) error { if c.agent != nil { for key, value := range c.Tags { a.Tags[key] = value } return mergeStruct(a, c.agent, c.agentFieldsSet) } return nil } func (c *Config) GetPluginConfig(name string) *ConfiguredPlugin { return c.pluginConfigurations[name] } // Couldn't figure out how to get this to work with the declared function. // PluginsDeclared returns the name of all plugins declared in the config. func (c *Config) PluginsDeclared() map[string]plugins.Plugin { return c.plugins } // OutputsDeclared returns the name of all outputs declared in the config. func (c *Config) OutputsDeclared() map[string]outputs.Output { return c.outputs } // ListTags returns a string of tags specified in the config, // line-protocol style func (c *Config) ListTags() string { var tags []string for k, v := range c.Tags { tags = append(tags, fmt.Sprintf("%s=%s", k, v)) } sort.Strings(tags) return strings.Join(tags, " ") } type hasConfig interface { BasicConfig() string } type hasDescr interface { Description() string } var header = `# Telegraf configuration # Telegraf is entirely plugin driven. All metrics are gathered from the # declared plugins. # Even if a plugin has no configuration, it must be declared in here # to be active. Declaring a plugin means just specifying the name # as a section with no variables. To deactivate a plugin, comment # out the name and any variables. # Use 'telegraf -config telegraf.toml -test' to see what metrics a config # file would generate. # One rule that plugins conform to is wherever a connection string # can be passed, the values '' and 'localhost' are treated specially. # They indicate to the plugin to use their own builtin configuration to # connect to the local system. # NOTE: The configuration has a few required parameters. They are marked # with 'required'. Be sure to edit those to make this configuration work. # Tags can also be specified via a normal map, but only one form at a time: [tags] # dc = "us-east-1" # Configuration for telegraf agent [agent] # Default data collection interval for all plugins interval = "10s" # Rounds collection interval to 'interval' # ie, if interval="10s" then always collect on :00, :10, :20, etc. round_interval = true # Default data flushing interval for all outputs. You should not set this below # interval. Maximum flush_interval will be flush_interval + flush_jitter flush_interval = "10s" # Jitter the flush interval by a random amount. This is primarily to avoid # large write spikes for users running a large number of telegraf instances. # ie, a jitter of 5s and interval 10s means flushes will happen every 10-15s flush_jitter = "0s" # Run telegraf in debug mode debug = false # Override default hostname, if empty use os.Hostname() hostname = "" ############################################################################### # OUTPUTS # ############################################################################### [outputs] ` var pluginHeader = ` ############################################################################### # PLUGINS # ############################################################################### [plugins] ` var servicePluginHeader = ` ############################################################################### # SERVICE PLUGINS # ############################################################################### ` // PrintSampleConfig prints the sample config func PrintSampleConfig(pluginFilters []string, outputFilters []string) { fmt.Printf(header) // Filter outputs var onames []string for oname := range outputs.Outputs { if len(outputFilters) == 0 || sliceContains(oname, outputFilters) { onames = append(onames, oname) } } sort.Strings(onames) // Print Outputs for _, oname := range onames { creator := outputs.Outputs[oname] output := creator() fmt.Printf("\n# %s\n[[outputs.%s]]", output.Description(), oname) config := output.SampleConfig() if config == "" { fmt.Printf("\n # no configuration\n") } else { fmt.Printf(config) } } // Filter plugins var pnames []string for pname := range plugins.Plugins { if len(pluginFilters) == 0 || sliceContains(pname, pluginFilters) { pnames = append(pnames, pname) } } sort.Strings(pnames) // Print Plugins fmt.Printf(pluginHeader) servPlugins := make(map[string]plugins.ServicePlugin) for _, pname := range pnames { creator := plugins.Plugins[pname] plugin := creator() switch p := plugin.(type) { case plugins.ServicePlugin: servPlugins[pname] = p continue } printConfig(pname, plugin) } // Print Service Plugins fmt.Printf(servicePluginHeader) for name, plugin := range servPlugins { printConfig(name, plugin) } } type printer interface { Description() string SampleConfig() string } func printConfig(name string, p printer) { fmt.Printf("\n# %s\n[[plugins.%s]]", p.Description(), name) config := p.SampleConfig() if config == "" { fmt.Printf("\n # no configuration\n") } else { fmt.Printf(config) } } func sliceContains(name string, list []string) bool { for _, b := range list { if b == name { return true } } return false } // PrintPluginConfig prints the config usage of a single plugin. func PrintPluginConfig(name string) error { if creator, ok := plugins.Plugins[name]; ok { printConfig(name, creator()) } else { return errors.New(fmt.Sprintf("Plugin %s not found", name)) } return nil } // PrintOutputConfig prints the config usage of a single output. func PrintOutputConfig(name string) error { if creator, ok := outputs.Outputs[name]; ok { printConfig(name, creator()) } else { return errors.New(fmt.Sprintf("Output %s not found", name)) } return nil } // Find the field with a name matching fieldName, respecting the struct tag and ignoring case and underscores. // If no field is found, return the zero reflect.Value, which should be checked for with .IsValid(). func findField(fieldName string, value reflect.Value) reflect.Value { r := strings.NewReplacer("_", "") vType := value.Type() for i := 0; i < vType.NumField(); i++ { fieldType := vType.Field(i) // if we have toml tag, use it if tag := fieldType.Tag.Get("toml"); tag != "" { if tag == "-" { // omit continue } if tag == fieldName { return value.Field(i) } } else { if strings.ToLower(fieldType.Name) == strings.ToLower(r.Replace(fieldName)) { return value.Field(i) } } } return reflect.Value{} } // A very limited merge. Merges the fields named in the fields parameter, // replacing most values, but appending to arrays. func mergeStruct(base, overlay interface{}, fields []string) error { baseValue := reflect.ValueOf(base).Elem() overlayValue := reflect.ValueOf(overlay).Elem() if baseValue.Kind() != reflect.Struct { return fmt.Errorf("Tried to merge something that wasn't a struct: type %v was %v", baseValue.Type(), baseValue.Kind()) } if baseValue.Type() != overlayValue.Type() { return fmt.Errorf("Tried to merge two different types: %v and %v", baseValue.Type(), overlayValue.Type()) } for _, field := range fields { overlayFieldValue := findField(field, overlayValue) if !overlayFieldValue.IsValid() { return fmt.Errorf("could not find field in %v matching %v", overlayValue.Type(), field) } baseFieldValue := findField(field, baseValue) baseFieldValue.Set(overlayFieldValue) } return nil } func (c *Config) LoadDirectory(path string) error { directoryEntries, err := ioutil.ReadDir(path) if err != nil { return err } for _, entry := range directoryEntries { if entry.IsDir() { continue } name := entry.Name() if name[len(name)-5:] != ".conf" { continue } err := c.LoadConfig(filepath.Join(path, name)) if err != nil { return err } } return nil } // hazmat area. Keeping the ast parsing here. // LoadConfig loads the given config file and returns a *Config pointer func (c *Config) LoadConfig(path string) error { data, err := ioutil.ReadFile(path) if err != nil { return err } tbl, err := toml.Parse(data) if err != nil { return err } for name, val := range tbl.Fields { subTable, ok := val.(*ast.Table) if !ok { return errors.New("invalid configuration") } switch name { case "agent": err := c.parseAgent(subTable) if err != nil { log.Printf("Could not parse [agent] config\n") return err } case "tags": if err = toml.UnmarshalTable(subTable, c.Tags); err != nil { log.Printf("Could not parse [tags] config\n") return err } case "outputs": for outputName, outputVal := range subTable.Fields { switch outputSubTable := outputVal.(type) { case *ast.Table: err = c.parseOutput(outputName, outputSubTable, 0) if err != nil { log.Printf("Could not parse config for output: %s\n", outputName) return err } case []*ast.Table: for id, t := range outputSubTable { err = c.parseOutput(outputName, t, id) if err != nil { log.Printf("Could not parse config for output: %s\n", outputName) return err } } default: return fmt.Errorf("Unsupported config format: %s", outputName) } } case "plugins": for pluginName, pluginVal := range subTable.Fields { switch pluginSubTable := pluginVal.(type) { case *ast.Table: err = c.parsePlugin(pluginName, pluginSubTable, 0) if err != nil { log.Printf("Could not parse config for plugin: %s\n", pluginName) return err } case []*ast.Table: for id, t := range pluginSubTable { err = c.parsePlugin(pluginName, t, id) if err != nil { log.Printf("Could not parse config for plugin: %s\n", pluginName) return err } } default: return fmt.Errorf("Unsupported config format: %s", pluginName) } } // Assume it's a plugin for legacy config file support if no other // identifiers are present default: err = c.parsePlugin(name, subTable, 0) if err != nil { return err } } } return nil } // Needs to have the field names, for merging later. func extractFieldNames(ast *ast.Table) []string { // A reasonable capacity? var names []string for name := range ast.Fields { names = append(names, name) } return names } // Parse the agent config out of the given *ast.Table. func (c *Config) parseAgent(agentAst *ast.Table) error { c.agentFieldsSet = extractFieldNames(agentAst) agent := &Agent{} err := toml.UnmarshalTable(agentAst, agent) if err != nil { return err } c.agent = agent return nil } // Parse an output config out of the given *ast.Table. func (c *Config) parseOutput(name string, outputAst *ast.Table, id int) error { c.outputFieldsSet[name] = extractFieldNames(outputAst) creator, ok := outputs.Outputs[name] if !ok { return fmt.Errorf("Undefined but requested output: %s", name) } output := creator() err := toml.UnmarshalTable(outputAst, output) if err != nil { return err } c.outputs[fmt.Sprintf("%s-%d", name, id)] = output return nil } // Parse a plugin config, plus plugin meta-config, out of the given *ast.Table. func (c *Config) parsePlugin(name string, pluginAst *ast.Table, id int) error { creator, ok := plugins.Plugins[name] if !ok { return fmt.Errorf("Undefined but requested plugin: %s", name) } plugin := creator() cp := &ConfiguredPlugin{Name: name} cpFields := make([]string, 0, 5) if node, ok := pluginAst.Fields["pass"]; ok { if kv, ok := node.(*ast.KeyValue); ok { if ary, ok := kv.Value.(*ast.Array); ok { for _, elem := range ary.Value { if str, ok := elem.(*ast.String); ok { cp.Pass = append(cp.Pass, str.Value) } } cpFields = append(cpFields, "pass") } } } if node, ok := pluginAst.Fields["drop"]; ok { if kv, ok := node.(*ast.KeyValue); ok { if ary, ok := kv.Value.(*ast.Array); ok { for _, elem := range ary.Value { if str, ok := elem.(*ast.String); ok { cp.Drop = append(cp.Drop, str.Value) } } cpFields = append(cpFields, "drop") } } } if node, ok := pluginAst.Fields["interval"]; ok { if kv, ok := node.(*ast.KeyValue); ok { if str, ok := kv.Value.(*ast.String); ok { dur, err := time.ParseDuration(str.Value) if err != nil { return err } cp.Interval = dur cpFields = append(cpFields, "interval") } } } if node, ok := pluginAst.Fields["tagpass"]; ok { if subtbl, ok := node.(*ast.Table); ok { for name, val := range subtbl.Fields { if kv, ok := val.(*ast.KeyValue); ok { tagfilter := &TagFilter{Name: name} if ary, ok := kv.Value.(*ast.Array); ok { for _, elem := range ary.Value { if str, ok := elem.(*ast.String); ok { tagfilter.Filter = append(tagfilter.Filter, str.Value) } } } cp.TagPass = append(cp.TagPass, *tagfilter) cpFields = append(cpFields, "tagpass") } } } } if node, ok := pluginAst.Fields["tagdrop"]; ok { if subtbl, ok := node.(*ast.Table); ok { for name, val := range subtbl.Fields { if kv, ok := val.(*ast.KeyValue); ok { tagfilter := &TagFilter{Name: name} if ary, ok := kv.Value.(*ast.Array); ok { for _, elem := range ary.Value { if str, ok := elem.(*ast.String); ok { tagfilter.Filter = append(tagfilter.Filter, str.Value) } } } cp.TagDrop = append(cp.TagDrop, *tagfilter) cpFields = append(cpFields, "tagdrop") } } } } delete(pluginAst.Fields, "drop") delete(pluginAst.Fields, "pass") delete(pluginAst.Fields, "interval") delete(pluginAst.Fields, "tagdrop") delete(pluginAst.Fields, "tagpass") nameID := fmt.Sprintf("%s-%d", name, id) c.pluginFieldsSet[nameID] = extractFieldNames(pluginAst) c.pluginConfigurationFieldsSet[nameID] = cpFields err := toml.UnmarshalTable(pluginAst, plugin) if err != nil { return err } c.plugins[nameID] = plugin c.pluginConfigurations[nameID] = cp return nil }