package agent import ( "encoding/base64" "encoding/json" "fmt" "github.com/hashicorp/consul/consul" "github.com/mitchellh/mapstructure" "io" "net" "os" "path/filepath" "sort" "strings" "time" ) // Ports is used to simplify the configuration by // providing default ports, and allowing the addresses // to only be specified once type PortConfig struct { DNS int // DNS Query interface HTTP int // HTTP API RPC int // CLI RPC SerfLan int `mapstructure:"serf_lan"` // LAN gossip (Client + Server) SerfWan int `mapstructure:"serf_wan"` // WAN gossip (Server onlyg) Server int // Server internal RPC } // DNSConfig is used to fine tune the DNS sub-system. // It can be used to control cache values, and stale // reads type DNSConfig struct { // NodeTTL provides the TTL value for a node query NodeTTL time.Duration `mapstructure:"-"` NodeTTLRaw string `mapstructure:"node_ttl" json:"-"` // ServiceTTL provides the TTL value for a service // query for given service. The "*" wildcard can be used // to set a default for all services. ServiceTTL map[string]time.Duration `mapstructure:"-"` ServiceTTLRaw map[string]string `mapstructure:"service_ttl" json:"-"` // AllowStale is used to enable lookups with stale // data. This gives horizontal read scalability since // any Consul server can service the query instead of // only the leader. AllowStale bool `mapstructure:"allow_stale"` // MaxStale is used to bound how stale of a result is // accepted for a DNS lookup. This can be used with // AllowStale to limit how old of a value is served up. // If the stale result exceeds this, another non-stale // stale read is performed. MaxStale time.Duration `mapstructure:"-"` MaxStaleRaw string `mapstructure:"max_stale" json:"-"` } // Config is the configuration that can be set for an Agent. // Some of this is configurable as CLI flags, but most must // be set using a configuration file. type Config struct { // Bootstrap is used to bring up the first Consul server, and // permits that node to elect itself leader Bootstrap bool `mapstructure:"bootstrap"` // Server controls if this agent acts like a Consul server, // or merely as a client. Servers have more state, take part // in leader election, etc. Server bool `mapstructure:"server"` // Datacenter is the datacenter this node is in. Defaults to dc1 Datacenter string `mapstructure:"datacenter"` // DataDir is the directory to store our state in DataDir string `mapstructure:"data_dir"` // DNSRecursor can be set to allow the DNS server to recursively // resolve non-consul domains DNSRecursor string `mapstructure:"recursor"` // DNS configuration DNSConfig DNSConfig `mapstructure:"dns_config"` // Domain is the DNS domain for the records. Defaults to "consul." Domain string `mapstructure:"domain"` // Encryption key to use for the Serf communication EncryptKey string `mapstructure:"encrypt" json:"-"` // LogLevel is the level of the logs to putout LogLevel string `mapstructure:"log_level"` // Node name is the name we use to advertise. Defaults to hostname. NodeName string `mapstructure:"node_name"` // ClientAddr is used to control the address we bind to for // client services (DNS, HTTP, RPC) ClientAddr string `mapstructure:"client_addr"` // BindAddr is used to control the address we bind to. // If not specified, the first private IP we find is used. // This controls the address we use for cluster facing // services (Gossip, Server RPC) BindAddr string `mapstructure:"bind_addr"` // AdvertiseAddr is the address we use for advertising our Serf, // and Consul RPC IP. If not specified, bind address is used. AdvertiseAddr string `mapstructure:"advertise_addr"` // Port configurations Ports PortConfig // LeaveOnTerm controls if Serf does a graceful leave when receiving // the TERM signal. Defaults false. This can be changed on reload. LeaveOnTerm bool `mapstructure:"leave_on_terminate"` // SkipLeaveOnInt controls if Serf skips a graceful leave when receiving // the INT signal. Defaults false. This can be changed on reload. SkipLeaveOnInt bool `mapstructure:"skip_leave_on_interrupt"` // StatsiteAddr is the address of a statsite instance. If provided, // metrics will be streamed to that instance. StatsiteAddr string `mapstructure:"statsite_addr"` // Protocol is the Consul protocol version to use. Protocol int `mapstructure:"protocol"` // EnableDebug is used to enable various debugging features EnableDebug bool `mapstructure:"enable_debug"` // VerifyIncoming is used to verify the authenticity of incoming connections. // This means that TCP requests are forbidden, only allowing for TLS. TLS connections // must match a provided certificate authority. This can be used to force client auth. VerifyIncoming bool `mapstructure:"verify_incoming"` // VerifyOutgoing is used to verify the authenticity of outgoing connections. // This means that TLS requests are used. TLS connections must match a provided // certificate authority. This is used to verify authenticity of server nodes. VerifyOutgoing bool `mapstructure:"verify_outgoing"` // CAFile is a path to a certificate authority file. This is used with VerifyIncoming // or VerifyOutgoing to verify the TLS connection. CAFile string `mapstructure:"ca_file"` // CertFile is used to provide a TLS certificate that is used for serving TLS connections. // Must be provided to serve TLS connections. CertFile string `mapstructure:"cert_file"` // KeyFile is used to provide a TLS key that is used for serving TLS connections. // Must be provided to serve TLS connections. KeyFile string `mapstructure:"key_file"` // StartJoin is a list of addresses to attempt to join when the // agent starts. If Serf is unable to communicate with any of these // addresses, then the agent will error and exit. StartJoin []string `mapstructure:"start_join"` // UiDir is the directory containing the Web UI resources. // If provided, the UI endpoints will be enabled. UiDir string `mapstructure:"ui_dir"` // PidFile is the file to store our PID in PidFile string `mapstructure:"pid_file"` // EnableSyslog is used to also tee all the logs over to syslog. Only supported // on linux and OSX. Other platforms will generate an error. EnableSyslog bool `mapstructure:"enable_syslog"` // SyslogFacility is used to control where the syslog messages go // By default, goes to LOCAL0 SyslogFacility string `mapstructure:"syslog_facility"` // RejoinAfterLeave controls our interaction with the cluster after leave. // When set to false (default), a leave causes Consul to not rejoin // the cluster until an explicit join is received. If this is set to // true, we ignore the leave, and rejoin the cluster on start. RejoinAfterLeave bool `mapstructure:"rejoin_after_leave"` // CheckUpdateInterval controls the interval on which the output of a health check // is updated if there is no change to the state. For example, a check in a steady // state may run every 5 second generating a unique output (timestamp, etc), forcing // constant writes. This allows Consul to defer the write for some period of time, // reducing the write pressure when the state is steady. CheckUpdateInterval time.Duration `mapstructure:"-"` CheckUpdateIntervalRaw string `mapstructure:"check_update_interval" json:"-"` // AEInterval controls the anti-entropy interval. This is how often // the agent attempts to reconcile it's local state with the server' // representation of our state. Defaults to every 60s. AEInterval time.Duration `mapstructure:"-" json:"-"` // Checks holds the provided check definitions Checks []*CheckDefinition `mapstructure:"-" json:"-"` // Services holds the provided service definitions Services []*ServiceDefinition `mapstructure:"-" json:"-"` // ConsulConfig can either be provided or a default one created ConsulConfig *consul.Config `mapstructure:"-" json:"-"` // Revision is the GitCommit this maps to Revision string `mapstructure:"-"` // Version is the release version number Version string `mapstructure:"-"` // VersionPrerelease is a label for pre-release builds VersionPrerelease string `mapstructure:"-"` } type dirEnts []os.FileInfo // DefaultConfig is used to return a sane default configuration func DefaultConfig() *Config { return &Config{ Bootstrap: false, Server: false, Datacenter: consul.DefaultDC, Domain: "consul.", LogLevel: "INFO", ClientAddr: "127.0.0.1", BindAddr: "0.0.0.0", Ports: PortConfig{ DNS: 8600, HTTP: 8500, RPC: 8400, SerfLan: consul.DefaultLANSerfPort, SerfWan: consul.DefaultWANSerfPort, Server: 8300, }, DNSConfig: DNSConfig{ MaxStale: 5 * time.Second, }, SyslogFacility: "LOCAL0", Protocol: consul.ProtocolVersionMax, CheckUpdateInterval: 5 * time.Minute, AEInterval: time.Minute, } } // EncryptBytes returns the encryption key configured. func (c *Config) EncryptBytes() ([]byte, error) { return base64.StdEncoding.DecodeString(c.EncryptKey) } // ClientListener is used to format a listener for a // port on a ClientAddr func (c *Config) ClientListener(port int) (*net.TCPAddr, error) { ip := net.ParseIP(c.ClientAddr) if ip == nil { return nil, fmt.Errorf("Failed to parse IP: %v", c.ClientAddr) } return &net.TCPAddr{IP: ip, Port: port}, nil } // DecodeConfig reads the configuration from the given reader in JSON // format and decodes it into a proper Config structure. func DecodeConfig(r io.Reader) (*Config, error) { var raw interface{} var result Config dec := json.NewDecoder(r) if err := dec.Decode(&raw); err != nil { return nil, err } // Check the result type if obj, ok := raw.(map[string]interface{}); ok { // Check for a "service" or "check" key, meaning // this is actually a definition entry if sub, ok := obj["service"]; ok { service, err := DecodeServiceDefinition(sub) result.Services = append(result.Services, service) return &result, err } else if sub, ok := obj["check"]; ok { check, err := DecodeCheckDefinition(sub) result.Checks = append(result.Checks, check) return &result, err } } // Decode var md mapstructure.Metadata msdec, err := mapstructure.NewDecoder(&mapstructure.DecoderConfig{ Metadata: &md, Result: &result, }) if err != nil { return nil, err } if err := msdec.Decode(raw); err != nil { return nil, err } // Handle time conversions if raw := result.DNSConfig.NodeTTLRaw; raw != "" { dur, err := time.ParseDuration(raw) if err != nil { return nil, fmt.Errorf("NodeTTL invalid: %v", err) } result.DNSConfig.NodeTTL = dur } if raw := result.DNSConfig.MaxStaleRaw; raw != "" { dur, err := time.ParseDuration(raw) if err != nil { return nil, fmt.Errorf("MaxStale invalid: %v", err) } result.DNSConfig.MaxStale = dur } if len(result.DNSConfig.ServiceTTLRaw) != 0 { if result.DNSConfig.ServiceTTL == nil { result.DNSConfig.ServiceTTL = make(map[string]time.Duration) } for service, raw := range result.DNSConfig.ServiceTTLRaw { dur, err := time.ParseDuration(raw) if err != nil { return nil, fmt.Errorf("ServiceTTL %s invalid: %v", service, err) } result.DNSConfig.ServiceTTL[service] = dur } } if raw := result.CheckUpdateIntervalRaw; raw != "" { dur, err := time.ParseDuration(raw) if err != nil { return nil, fmt.Errorf("CheckUpdateInterval invalid: %v", err) } result.CheckUpdateInterval = dur } return &result, nil } // DecodeServiceDefinition is used to decode a service definition func DecodeServiceDefinition(raw interface{}) (*ServiceDefinition, error) { var sub interface{} rawMap, ok := raw.(map[string]interface{}) if !ok { goto AFTER_FIX } // If no 'tags', handle the deprecated 'tag' value. if _, ok := rawMap["tags"]; !ok { if tag, ok := rawMap["tag"]; ok { rawMap["tags"] = []interface{}{tag} } } sub, ok = rawMap["check"] if !ok { goto AFTER_FIX } if err := FixupCheckType(sub); err != nil { return nil, err } AFTER_FIX: var md mapstructure.Metadata var result ServiceDefinition msdec, err := mapstructure.NewDecoder(&mapstructure.DecoderConfig{ Metadata: &md, Result: &result, }) if err != nil { return nil, err } if err := msdec.Decode(raw); err != nil { return nil, err } return &result, nil } func FixupCheckType(raw interface{}) error { // Handle decoding of time durations rawMap, ok := raw.(map[string]interface{}) if !ok { return nil } var ttlKey string for k, _ := range rawMap { if strings.ToLower(k) == "ttl" { ttlKey = k } } var intervalKey string for k, _ := range rawMap { if strings.ToLower(k) == "interval" { intervalKey = k } } if ttl, ok := rawMap[ttlKey]; ok { ttlS, ok := ttl.(string) if ok { if dur, err := time.ParseDuration(ttlS); err != nil { return err } else { rawMap[ttlKey] = dur } } } if interval, ok := rawMap[intervalKey]; ok { intervalS, ok := interval.(string) if ok { if dur, err := time.ParseDuration(intervalS); err != nil { return err } else { rawMap[intervalKey] = dur } } } return nil } // DecodeCheckDefinition is used to decode a check definition func DecodeCheckDefinition(raw interface{}) (*CheckDefinition, error) { if err := FixupCheckType(raw); err != nil { return nil, err } var md mapstructure.Metadata var result CheckDefinition msdec, err := mapstructure.NewDecoder(&mapstructure.DecoderConfig{ Metadata: &md, Result: &result, }) if err != nil { return nil, err } if err := msdec.Decode(raw); err != nil { return nil, err } return &result, nil } // MergeConfig merges two configurations together to make a single new // configuration. func MergeConfig(a, b *Config) *Config { var result Config = *a // Copy the strings if they're set if b.Bootstrap { result.Bootstrap = true } if b.Datacenter != "" { result.Datacenter = b.Datacenter } if b.DataDir != "" { result.DataDir = b.DataDir } if b.DNSRecursor != "" { result.DNSRecursor = b.DNSRecursor } if b.Domain != "" { result.Domain = b.Domain } if b.EncryptKey != "" { result.EncryptKey = b.EncryptKey } if b.LogLevel != "" { result.LogLevel = b.LogLevel } if b.Protocol > 0 { result.Protocol = b.Protocol } if b.NodeName != "" { result.NodeName = b.NodeName } if b.ClientAddr != "" { result.ClientAddr = b.ClientAddr } if b.BindAddr != "" { result.BindAddr = b.BindAddr } if b.AdvertiseAddr != "" { result.AdvertiseAddr = b.AdvertiseAddr } if b.Server == true { result.Server = b.Server } if b.LeaveOnTerm == true { result.LeaveOnTerm = true } if b.SkipLeaveOnInt == true { result.SkipLeaveOnInt = true } if b.EnableDebug { result.EnableDebug = true } if b.VerifyIncoming { result.VerifyIncoming = true } if b.VerifyOutgoing { result.VerifyOutgoing = true } if b.CAFile != "" { result.CAFile = b.CAFile } if b.CertFile != "" { result.CertFile = b.CertFile } if b.KeyFile != "" { result.KeyFile = b.KeyFile } if b.Checks != nil { result.Checks = append(result.Checks, b.Checks...) } if b.Services != nil { result.Services = append(result.Services, b.Services...) } if b.Ports.DNS != 0 { result.Ports.DNS = b.Ports.DNS } if b.Ports.HTTP != 0 { result.Ports.HTTP = b.Ports.HTTP } if b.Ports.RPC != 0 { result.Ports.RPC = b.Ports.RPC } if b.Ports.SerfLan != 0 { result.Ports.SerfLan = b.Ports.SerfLan } if b.Ports.SerfWan != 0 { result.Ports.SerfWan = b.Ports.SerfWan } if b.Ports.Server != 0 { result.Ports.Server = b.Ports.Server } if b.UiDir != "" { result.UiDir = b.UiDir } if b.PidFile != "" { result.PidFile = b.PidFile } if b.EnableSyslog { result.EnableSyslog = true } if b.RejoinAfterLeave { result.RejoinAfterLeave = true } if b.DNSConfig.NodeTTL != 0 { result.DNSConfig.NodeTTL = b.DNSConfig.NodeTTL } if len(b.DNSConfig.ServiceTTL) != 0 { if result.DNSConfig.ServiceTTL == nil { result.DNSConfig.ServiceTTL = make(map[string]time.Duration) } for service, dur := range b.DNSConfig.ServiceTTL { result.DNSConfig.ServiceTTL[service] = dur } } if b.DNSConfig.AllowStale { result.DNSConfig.AllowStale = true } if b.DNSConfig.MaxStale != 0 { result.DNSConfig.MaxStale = b.DNSConfig.MaxStale } if b.CheckUpdateIntervalRaw != "" || b.CheckUpdateInterval != 0 { result.CheckUpdateInterval = b.CheckUpdateInterval } if b.SyslogFacility != "" { result.SyslogFacility = b.SyslogFacility } // Copy the start join addresses result.StartJoin = make([]string, 0, len(a.StartJoin)+len(b.StartJoin)) result.StartJoin = append(result.StartJoin, a.StartJoin...) result.StartJoin = append(result.StartJoin, b.StartJoin...) return &result } // ReadConfigPaths reads the paths in the given order to load configurations. // The paths can be to files or directories. If the path is a directory, // we read one directory deep and read any files ending in ".json" as // configuration files. func ReadConfigPaths(paths []string) (*Config, error) { result := new(Config) for _, path := range paths { f, err := os.Open(path) if err != nil { return nil, fmt.Errorf("Error reading '%s': %s", path, err) } fi, err := f.Stat() if err != nil { f.Close() return nil, fmt.Errorf("Error reading '%s': %s", path, err) } if !fi.IsDir() { config, err := DecodeConfig(f) f.Close() if err != nil { return nil, fmt.Errorf("Error decoding '%s': %s", path, err) } result = MergeConfig(result, config) continue } contents, err := f.Readdir(-1) f.Close() if err != nil { return nil, fmt.Errorf("Error reading '%s': %s", path, err) } // Sort the contents, ensures lexical order sort.Sort(dirEnts(contents)) for _, fi := range contents { // Don't recursively read contents if fi.IsDir() { continue } // If it isn't a JSON file, ignore it if !strings.HasSuffix(fi.Name(), ".json") { continue } subpath := filepath.Join(path, fi.Name()) f, err := os.Open(subpath) if err != nil { return nil, fmt.Errorf("Error reading '%s': %s", subpath, err) } config, err := DecodeConfig(f) f.Close() if err != nil { return nil, fmt.Errorf("Error decoding '%s': %s", subpath, err) } result = MergeConfig(result, config) } } return result, nil } // Implement the sort interface for dirEnts func (d dirEnts) Len() int { return len(d) } func (d dirEnts) Less(i, j int) bool { return d[i].Name() < d[j].Name() } func (d dirEnts) Swap(i, j int) { d[i], d[j] = d[j], d[i] }