package config import ( "encoding/base64" "encoding/json" "fmt" "io/ioutil" "net" "os" "path/filepath" "reflect" "regexp" "sort" "strings" "time" "github.com/hashicorp/consul/agent/checks" "github.com/hashicorp/consul/agent/connect/ca" "github.com/hashicorp/consul/agent/consul" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/ipaddr" "github.com/hashicorp/consul/lib" "github.com/hashicorp/consul/tlsutil" "github.com/hashicorp/consul/types" "github.com/hashicorp/go-multierror" "github.com/hashicorp/go-sockaddr/template" "golang.org/x/time/rate" ) // Builder constructs a valid runtime configuration from multiple // configuration sources. // // To build the runtime configuration first call Build() which merges // the sources in a pre-defined order, converts the data types and // structures into their final form and performs the syntactic // validation. // // The sources are merged in the following order: // // * default configuration // * config files in alphabetical order // * command line arguments // // The config sources are merged sequentially and later values // overwrite previously set values. Slice values are merged by // concatenating the two slices. Map values are merged by over- // laying the later maps on top of earlier ones. // // Then call Validate() to perform the semantic validation to ensure // that the configuration is ready to be used. // // Splitting the construction into two phases greatly simplifies testing // since not all pre-conditions have to be satisfied when performing // syntactical tests. type Builder struct { // Flags contains the parsed command line arguments. Flags Flags // Head, Sources, and Tail are used to manage the order of the // config sources, as described in the comments above. Head []Source Sources []Source Tail []Source // Warnings contains the warnings encountered when // parsing the configuration. Warnings []string // Hostname returns the hostname of the machine. If nil, os.Hostname // is called. Hostname func() (string, error) // GetPrivateIPv4 and GetPublicIPv6 return suitable default addresses // for cases when the user doesn't supply them. GetPrivateIPv4 func() ([]*net.IPAddr, error) GetPublicIPv6 func() ([]*net.IPAddr, error) // err contains the first error that occurred during // building the runtime configuration. err error } // NewBuilder returns a new configuration builder based on the given command // line flags. func NewBuilder(flags Flags) (*Builder, error) { // We expect all flags to be parsed and flags.Args to be empty. // Therefore, we bail if we find unparsed args. if len(flags.Args) > 0 { return nil, fmt.Errorf("config: Unknown extra arguments: %v", flags.Args) } newSource := func(name string, v interface{}) Source { b, err := json.MarshalIndent(v, "", " ") if err != nil { panic(err) } return Source{Name: name, Format: "json", Data: string(b)} } b := &Builder{ Flags: flags, Head: []Source{DefaultSource()}, } if b.boolVal(b.Flags.DevMode) { b.Head = append(b.Head, DevSource()) } // Since the merge logic is to overwrite all fields with later // values except slices which are merged by appending later values // we need to merge all slice values defined in flags before we // merge the config files since the flag values for slices are // otherwise appended instead of prepended. slices, values := b.splitSlicesAndValues(b.Flags.Config) b.Head = append(b.Head, newSource("flags.slices", slices)) for _, path := range b.Flags.ConfigFiles { sources, err := b.ReadPath(path) if err != nil { return nil, err } b.Sources = append(b.Sources, sources...) } b.Tail = append(b.Tail, newSource("flags.values", values)) for i, s := range b.Flags.HCL { b.Tail = append(b.Tail, Source{ Name: fmt.Sprintf("flags-%d.hcl", i), Format: "hcl", Data: s, }) } b.Tail = append(b.Tail, NonUserSource(), DefaultConsulSource(), DefaultEnterpriseSource(), DefaultVersionSource()) if b.boolVal(b.Flags.DevMode) { b.Tail = append(b.Tail, DevConsulSource()) } return b, nil } // ReadPath reads a single config file or all files in a directory (but // not its sub-directories) and appends them to the list of config // sources. func (b *Builder) ReadPath(path string) ([]Source, error) { f, err := os.Open(path) if err != nil { return nil, fmt.Errorf("config: Open failed on %s. %s", path, err) } defer f.Close() fi, err := f.Stat() if err != nil { return nil, fmt.Errorf("config: Stat failed on %s. %s", path, err) } if !fi.IsDir() { src, err := b.ReadFile(path) if err != nil { return nil, err } return []Source{src}, nil } fis, err := f.Readdir(-1) if err != nil { return nil, fmt.Errorf("config: Readdir failed on %s. %s", path, err) } // sort files by name sort.Sort(byName(fis)) var sources []Source for _, fi := range fis { fp := filepath.Join(path, fi.Name()) // check for a symlink and resolve the path if fi.Mode()&os.ModeSymlink > 0 { var err error fp, err = filepath.EvalSymlinks(fp) if err != nil { return nil, err } fi, err = os.Stat(fp) if err != nil { return nil, err } } // do not recurse into sub dirs if fi.IsDir() { continue } if b.shouldParseFile(fp) { src, err := b.ReadFile(fp) if err != nil { return nil, err } sources = append(sources, src) } } return sources, nil } // ReadFile parses a JSON or HCL config file and appends it to the list of // config sources. func (b *Builder) ReadFile(path string) (Source, error) { data, err := ioutil.ReadFile(path) if err != nil { return Source{}, fmt.Errorf("config: ReadFile failed on %s: %s", path, err) } return Source{Name: path, Data: string(data)}, nil } // shouldParse file determines whether the file to be read is of a supported extension func (b *Builder) shouldParseFile(path string) bool { configFormat := b.stringVal(b.Flags.ConfigFormat) srcFormat := FormatFrom(path) // If config-format is not set, only read files with supported extensions if configFormat == "" && srcFormat != "hcl" && srcFormat != "json" { return false } return true } type byName []os.FileInfo func (a byName) Len() int { return len(a) } func (a byName) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a byName) Less(i, j int) bool { return a[i].Name() < a[j].Name() } func (b *Builder) BuildAndValidate() (RuntimeConfig, error) { rt, err := b.Build() if err != nil { return RuntimeConfig{}, err } if err := b.Validate(rt); err != nil { return RuntimeConfig{}, err } return rt, nil } // Build constructs the runtime configuration from the config sources // and the command line flags. The config sources are processed in the // order they were added with the flags being processed last to give // precedence over the other sources. If the error is nil then // warnings can still contain deprecation or format warnings that should // be presented to the user. func (b *Builder) Build() (rt RuntimeConfig, err error) { b.err = nil b.Warnings = nil // ---------------------------------------------------------------- // merge config sources as follows // configFormat := b.stringVal(b.Flags.ConfigFormat) if configFormat != "" && configFormat != "json" && configFormat != "hcl" { return RuntimeConfig{}, fmt.Errorf("config: -config-format must be either 'hcl' or 'json'") } // build the list of config sources var srcs []Source srcs = append(srcs, b.Head...) for _, src := range b.Sources { // skip file if it should not be parsed if !b.shouldParseFile(src.Name) { continue } // if config-format is set, files of any extension will be interpreted in that format src.Format = FormatFrom(src.Name) if configFormat != "" { src.Format = configFormat } srcs = append(srcs, src) } srcs = append(srcs, b.Tail...) // parse the config sources into a configuration var c Config for _, s := range srcs { if s.Name == "" || s.Data == "" { continue } c2, err := Parse(s.Data, s.Format) if err != nil { return RuntimeConfig{}, fmt.Errorf("Error parsing %s: %s", s.Name, err) } // if we have a single 'check' or 'service' we need to add them to the // list of checks and services first since we cannot merge them // generically and later values would clobber earlier ones. if c2.Check != nil { c2.Checks = append(c2.Checks, *c2.Check) c2.Check = nil } if c2.Service != nil { c2.Services = append(c2.Services, *c2.Service) c2.Service = nil } c = Merge(c, c2) } // ---------------------------------------------------------------- // process/merge some complex values // var dnsServiceTTL = map[string]time.Duration{} for k, v := range c.DNS.ServiceTTL { dnsServiceTTL[k] = b.durationVal(fmt.Sprintf("dns_config.service_ttl[%q]", k), &v) } soa := RuntimeSOAConfig{Refresh: 3600, Retry: 600, Expire: 86400, Minttl: 0} if c.DNS.SOA != nil { if c.DNS.SOA.Expire != nil { soa.Expire = *c.DNS.SOA.Expire } if c.DNS.SOA.Minttl != nil { soa.Minttl = *c.DNS.SOA.Minttl } if c.DNS.SOA.Refresh != nil { soa.Refresh = *c.DNS.SOA.Refresh } if c.DNS.SOA.Retry != nil { soa.Retry = *c.DNS.SOA.Retry } } leaveOnTerm := !b.boolVal(c.ServerMode) if c.LeaveOnTerm != nil { leaveOnTerm = b.boolVal(c.LeaveOnTerm) } skipLeaveOnInt := b.boolVal(c.ServerMode) if c.SkipLeaveOnInt != nil { skipLeaveOnInt = b.boolVal(c.SkipLeaveOnInt) } // ---------------------------------------------------------------- // checks and services // var checks []*structs.CheckDefinition if c.Check != nil { checks = append(checks, b.checkVal(c.Check)) } for _, check := range c.Checks { checks = append(checks, b.checkVal(&check)) } var services []*structs.ServiceDefinition for _, service := range c.Services { services = append(services, b.serviceVal(&service)) } if c.Service != nil { services = append(services, b.serviceVal(c.Service)) } // ---------------------------------------------------------------- // addresses // // determine port values and replace values <= 0 and > 65535 with -1 dnsPort := b.portVal("ports.dns", c.Ports.DNS) httpPort := b.portVal("ports.http", c.Ports.HTTP) httpsPort := b.portVal("ports.https", c.Ports.HTTPS) serverPort := b.portVal("ports.server", c.Ports.Server) grpcPort := b.portVal("ports.grpc", c.Ports.GRPC) serfPortLAN := b.portVal("ports.serf_lan", c.Ports.SerfLAN) serfPortWAN := b.portVal("ports.serf_wan", c.Ports.SerfWAN) proxyMinPort := b.portVal("ports.proxy_min_port", c.Ports.ProxyMinPort) proxyMaxPort := b.portVal("ports.proxy_max_port", c.Ports.ProxyMaxPort) sidecarMinPort := b.portVal("ports.sidecar_min_port", c.Ports.SidecarMinPort) sidecarMaxPort := b.portVal("ports.sidecar_max_port", c.Ports.SidecarMaxPort) exposeMinPort := b.portVal("ports.expose_min_port", c.Ports.ExposeMinPort) exposeMaxPort := b.portVal("ports.expose_max_port", c.Ports.ExposeMaxPort) if proxyMaxPort < proxyMinPort { return RuntimeConfig{}, fmt.Errorf( "proxy_min_port must be less than proxy_max_port. To disable, set both to zero.") } if sidecarMaxPort < sidecarMinPort { return RuntimeConfig{}, fmt.Errorf( "sidecar_min_port must be less than sidecar_max_port. To disable, set both to zero.") } if exposeMaxPort < exposeMinPort { return RuntimeConfig{}, fmt.Errorf( "expose_min_port must be less than expose_max_port. To disable, set both to zero.") } // determine the default bind and advertise address // // First check whether the user provided an ANY address or whether // the expanded template results in an ANY address. In that case we // derive an advertise address from the current network // configuration since we can listen on an ANY address for incoming // traffic but cannot advertise it as the address on which the // server can be reached. bindAddrs := b.expandAddrs("bind_addr", c.BindAddr) if len(bindAddrs) == 0 { return RuntimeConfig{}, fmt.Errorf("bind_addr cannot be empty") } if len(bindAddrs) > 1 { return RuntimeConfig{}, fmt.Errorf("bind_addr cannot contain multiple addresses. Use 'addresses.{dns,http,https}' instead.") } if isUnixAddr(bindAddrs[0]) { return RuntimeConfig{}, fmt.Errorf("bind_addr cannot be a unix socket") } if !isIPAddr(bindAddrs[0]) { return RuntimeConfig{}, fmt.Errorf("bind_addr must be an ip address") } if ipaddr.IsAny(b.stringVal(c.AdvertiseAddrLAN)) { return RuntimeConfig{}, fmt.Errorf("Advertise address cannot be 0.0.0.0, :: or [::]") } if ipaddr.IsAny(b.stringVal(c.AdvertiseAddrWAN)) { return RuntimeConfig{}, fmt.Errorf("Advertise WAN address cannot be 0.0.0.0, :: or [::]") } bindAddr := bindAddrs[0].(*net.IPAddr) advertiseAddr := b.makeIPAddr(b.expandFirstIP("advertise_addr", c.AdvertiseAddrLAN), bindAddr) if ipaddr.IsAny(advertiseAddr) { var addrtyp string var detect func() ([]*net.IPAddr, error) switch { case ipaddr.IsAnyV4(advertiseAddr): addrtyp = "private IPv4" detect = b.GetPrivateIPv4 if detect == nil { detect = ipaddr.GetPrivateIPv4 } case ipaddr.IsAnyV6(advertiseAddr): addrtyp = "public IPv6" detect = b.GetPublicIPv6 if detect == nil { detect = ipaddr.GetPublicIPv6 } } advertiseAddrs, err := detect() if err != nil { return RuntimeConfig{}, fmt.Errorf("Error detecting %s address: %s", addrtyp, err) } if len(advertiseAddrs) == 0 { return RuntimeConfig{}, fmt.Errorf("No %s address found", addrtyp) } if len(advertiseAddrs) > 1 { return RuntimeConfig{}, fmt.Errorf("Multiple %s addresses found. Please configure one with 'bind' and/or 'advertise'.", addrtyp) } advertiseAddr = advertiseAddrs[0] } // derive other bind addresses from the bindAddr rpcBindAddr := b.makeTCPAddr(bindAddr, nil, serverPort) serfBindAddrLAN := b.makeTCPAddr(b.expandFirstIP("serf_lan", c.SerfBindAddrLAN), bindAddr, serfPortLAN) // Only initialize serf WAN bind address when its enabled var serfBindAddrWAN *net.TCPAddr if serfPortWAN >= 0 { serfBindAddrWAN = b.makeTCPAddr(b.expandFirstIP("serf_wan", c.SerfBindAddrWAN), bindAddr, serfPortWAN) } // derive other advertise addresses from the advertise address advertiseAddrLAN := b.makeIPAddr(b.expandFirstIP("advertise_addr", c.AdvertiseAddrLAN), advertiseAddr) advertiseAddrWAN := b.makeIPAddr(b.expandFirstIP("advertise_addr_wan", c.AdvertiseAddrWAN), advertiseAddrLAN) rpcAdvertiseAddr := &net.TCPAddr{IP: advertiseAddrLAN.IP, Port: serverPort} serfAdvertiseAddrLAN := &net.TCPAddr{IP: advertiseAddrLAN.IP, Port: serfPortLAN} // Only initialize serf WAN advertise address when its enabled var serfAdvertiseAddrWAN *net.TCPAddr if serfPortWAN >= 0 { serfAdvertiseAddrWAN = &net.TCPAddr{IP: advertiseAddrWAN.IP, Port: serfPortWAN} } // determine client addresses clientAddrs := b.expandIPs("client_addr", c.ClientAddr) dnsAddrs := b.makeAddrs(b.expandAddrs("addresses.dns", c.Addresses.DNS), clientAddrs, dnsPort) httpAddrs := b.makeAddrs(b.expandAddrs("addresses.http", c.Addresses.HTTP), clientAddrs, httpPort) httpsAddrs := b.makeAddrs(b.expandAddrs("addresses.https", c.Addresses.HTTPS), clientAddrs, httpsPort) grpcAddrs := b.makeAddrs(b.expandAddrs("addresses.grpc", c.Addresses.GRPC), clientAddrs, grpcPort) for _, a := range dnsAddrs { if x, ok := a.(*net.TCPAddr); ok { dnsAddrs = append(dnsAddrs, &net.UDPAddr{IP: x.IP, Port: x.Port}) } } // expand dns recursors uniq := map[string]bool{} dnsRecursors := []string{} for _, r := range c.DNSRecursors { x, err := template.Parse(r) if err != nil { return RuntimeConfig{}, fmt.Errorf("Invalid DNS recursor template %q: %s", r, err) } for _, addr := range strings.Fields(x) { if strings.HasPrefix(addr, "unix://") { return RuntimeConfig{}, fmt.Errorf("DNS Recursors cannot be unix sockets: %s", addr) } if uniq[addr] { continue } uniq[addr] = true dnsRecursors = append(dnsRecursors, addr) } } datacenter := strings.ToLower(b.stringVal(c.Datacenter)) altDomain := b.stringVal(c.DNSAltDomain) // Create the default set of tagged addresses. if c.TaggedAddresses == nil { c.TaggedAddresses = make(map[string]string) } c.TaggedAddresses["lan"] = advertiseAddrLAN.IP.String() c.TaggedAddresses["wan"] = advertiseAddrWAN.IP.String() // segments var segments []structs.NetworkSegment for _, s := range c.Segments { name := b.stringVal(s.Name) port := b.portVal(fmt.Sprintf("segments[%s].port", name), s.Port) if port <= 0 { return RuntimeConfig{}, fmt.Errorf("Port for segment %q cannot be <= 0", name) } bind := b.makeTCPAddr( b.expandFirstIP(fmt.Sprintf("segments[%s].bind", name), s.Bind), bindAddr, port, ) advertise := b.makeTCPAddr( b.expandFirstIP(fmt.Sprintf("segments[%s].advertise", name), s.Advertise), advertiseAddrLAN, port, ) segments = append(segments, structs.NetworkSegment{ Name: name, Bind: bind, Advertise: advertise, RPCListener: b.boolVal(s.RPCListener), }) } // Parse the metric filters var telemetryAllowedPrefixes, telemetryBlockedPrefixes []string for _, rule := range c.Telemetry.PrefixFilter { if rule == "" { b.warn("Cannot have empty filter rule in prefix_filter") continue } switch rule[0] { case '+': telemetryAllowedPrefixes = append(telemetryAllowedPrefixes, rule[1:]) case '-': telemetryBlockedPrefixes = append(telemetryBlockedPrefixes, rule[1:]) default: b.warn("Filter rule must begin with either '+' or '-': %q", rule) } } // raft performance scaling performanceRaftMultiplier := b.intVal(c.Performance.RaftMultiplier) if performanceRaftMultiplier < 1 || uint(performanceRaftMultiplier) > consul.MaxRaftMultiplier { return RuntimeConfig{}, fmt.Errorf("performance.raft_multiplier cannot be %d. Must be between 1 and %d", performanceRaftMultiplier, consul.MaxRaftMultiplier) } consulRaftElectionTimeout := b.durationVal("consul.raft.election_timeout", c.Consul.Raft.ElectionTimeout) * time.Duration(performanceRaftMultiplier) consulRaftHeartbeatTimeout := b.durationVal("consul.raft.heartbeat_timeout", c.Consul.Raft.HeartbeatTimeout) * time.Duration(performanceRaftMultiplier) consulRaftLeaderLeaseTimeout := b.durationVal("consul.raft.leader_lease_timeout", c.Consul.Raft.LeaderLeaseTimeout) * time.Duration(performanceRaftMultiplier) // Connect proxy defaults. connectEnabled := b.boolVal(c.Connect.Enabled) connectCAProvider := b.stringVal(c.Connect.CAProvider) connectCAConfig := c.Connect.CAConfig if connectCAConfig != nil { lib.TranslateKeys(connectCAConfig, map[string]string{ // Consul CA config "private_key": "PrivateKey", "root_cert": "RootCert", "rotation_period": "RotationPeriod", // Vault CA config "address": "Address", "token": "Token", "root_pki_path": "RootPKIPath", "intermediate_pki_path": "IntermediatePKIPath", "ca_file": "CAFile", "ca_path": "CAPath", "cert_file": "CertFile", "key_file": "KeyFile", "tls_server_name": "TLSServerName", "tls_skip_verify": "TLSSkipVerify", // Common CA config "leaf_cert_ttl": "LeafCertTTL", "csr_max_per_second": "CSRMaxPerSecond", "csr_max_concurrent": "CSRMaxConcurrent", "private_key_type": "PrivateKeyType", "private_key_bits": "PrivateKeyBits", }) } autoEncryptTLS := b.boolVal(c.AutoEncrypt.TLS) autoEncryptAllowTLS := b.boolVal(c.AutoEncrypt.AllowTLS) if autoEncryptAllowTLS { connectEnabled = true } aclsEnabled := false primaryDatacenter := strings.ToLower(b.stringVal(c.PrimaryDatacenter)) if c.ACLDatacenter != nil { b.warn("The 'acl_datacenter' field is deprecated. Use the 'primary_datacenter' field instead.") if primaryDatacenter == "" { primaryDatacenter = strings.ToLower(b.stringVal(c.ACLDatacenter)) } // when the acl_datacenter config is used it implicitly enables acls aclsEnabled = true } if c.ACL.Enabled != nil { aclsEnabled = b.boolVal(c.ACL.Enabled) } aclDC := primaryDatacenter if aclsEnabled && aclDC == "" { aclDC = datacenter } enableTokenReplication := false if c.ACLReplicationToken != nil { enableTokenReplication = true } b.boolValWithDefault(c.ACL.TokenReplication, b.boolValWithDefault(c.EnableACLReplication, enableTokenReplication)) enableRemoteScriptChecks := b.boolVal(c.EnableScriptChecks) enableLocalScriptChecks := b.boolValWithDefault(c.EnableLocalScriptChecks, enableRemoteScriptChecks) // VerifyServerHostname implies VerifyOutgoing verifyServerName := b.boolVal(c.VerifyServerHostname) verifyOutgoing := b.boolVal(c.VerifyOutgoing) if verifyServerName { // Setting only verify_server_hostname is documented to imply // verify_outgoing. If it doesn't then we risk sending communication over TCP // when we documented it as forcing TLS for RPCs. Enforce this here rather // than in several different places through the code that need to reason // about it. (See CVE-2018-19653) verifyOutgoing = true } var configEntries []structs.ConfigEntry if len(c.ConfigEntries.Bootstrap) > 0 { for i, rawEntry := range c.ConfigEntries.Bootstrap { entry, err := structs.DecodeConfigEntry(rawEntry) if err != nil { return RuntimeConfig{}, fmt.Errorf("config_entries.bootstrap[%d]: %s", i, err) } if err := entry.Validate(); err != nil { return RuntimeConfig{}, fmt.Errorf("config_entries.bootstrap[%d]: %s", i, err) } configEntries = append(configEntries, entry) } } // ---------------------------------------------------------------- // build runtime config // rt = RuntimeConfig{ // non-user configurable values ACLDisabledTTL: b.durationVal("acl.disabled_ttl", c.ACL.DisabledTTL), AEInterval: b.durationVal("ae_interval", c.AEInterval), CheckDeregisterIntervalMin: b.durationVal("check_deregister_interval_min", c.CheckDeregisterIntervalMin), CheckReapInterval: b.durationVal("check_reap_interval", c.CheckReapInterval), Revision: b.stringVal(c.Revision), SegmentLimit: b.intVal(c.SegmentLimit), SegmentNameLimit: b.intVal(c.SegmentNameLimit), SyncCoordinateIntervalMin: b.durationVal("sync_coordinate_interval_min", c.SyncCoordinateIntervalMin), SyncCoordinateRateTarget: b.float64Val(c.SyncCoordinateRateTarget), Version: b.stringVal(c.Version), VersionPrerelease: b.stringVal(c.VersionPrerelease), // consul configuration ConsulCoordinateUpdateBatchSize: b.intVal(c.Consul.Coordinate.UpdateBatchSize), ConsulCoordinateUpdateMaxBatches: b.intVal(c.Consul.Coordinate.UpdateMaxBatches), ConsulCoordinateUpdatePeriod: b.durationVal("consul.coordinate.update_period", c.Consul.Coordinate.UpdatePeriod), ConsulRaftElectionTimeout: consulRaftElectionTimeout, ConsulRaftHeartbeatTimeout: consulRaftHeartbeatTimeout, ConsulRaftLeaderLeaseTimeout: consulRaftLeaderLeaseTimeout, ConsulServerHealthInterval: b.durationVal("consul.server.health_interval", c.Consul.Server.HealthInterval), // gossip configuration GossipLANGossipInterval: b.durationVal("gossip_lan..gossip_interval", c.GossipLAN.GossipInterval), GossipLANGossipNodes: b.intVal(c.GossipLAN.GossipNodes), GossipLANProbeInterval: b.durationVal("gossip_lan..probe_interval", c.GossipLAN.ProbeInterval), GossipLANProbeTimeout: b.durationVal("gossip_lan..probe_timeout", c.GossipLAN.ProbeTimeout), GossipLANSuspicionMult: b.intVal(c.GossipLAN.SuspicionMult), GossipLANRetransmitMult: b.intVal(c.GossipLAN.RetransmitMult), GossipWANGossipInterval: b.durationVal("gossip_wan..gossip_interval", c.GossipWAN.GossipInterval), GossipWANGossipNodes: b.intVal(c.GossipWAN.GossipNodes), GossipWANProbeInterval: b.durationVal("gossip_wan..probe_interval", c.GossipWAN.ProbeInterval), GossipWANProbeTimeout: b.durationVal("gossip_wan..probe_timeout", c.GossipWAN.ProbeTimeout), GossipWANSuspicionMult: b.intVal(c.GossipWAN.SuspicionMult), GossipWANRetransmitMult: b.intVal(c.GossipWAN.RetransmitMult), // ACL ACLEnforceVersion8: b.boolValWithDefault(c.ACLEnforceVersion8, true), ACLsEnabled: aclsEnabled, ACLAgentMasterToken: b.stringValWithDefault(c.ACL.Tokens.AgentMaster, b.stringVal(c.ACLAgentMasterToken)), ACLAgentToken: b.stringValWithDefault(c.ACL.Tokens.Agent, b.stringVal(c.ACLAgentToken)), ACLDatacenter: aclDC, ACLDefaultPolicy: b.stringValWithDefault(c.ACL.DefaultPolicy, b.stringVal(c.ACLDefaultPolicy)), ACLDownPolicy: b.stringValWithDefault(c.ACL.DownPolicy, b.stringVal(c.ACLDownPolicy)), ACLEnableKeyListPolicy: b.boolValWithDefault(c.ACL.EnableKeyListPolicy, b.boolVal(c.ACLEnableKeyListPolicy)), ACLMasterToken: b.stringValWithDefault(c.ACL.Tokens.Master, b.stringVal(c.ACLMasterToken)), ACLReplicationToken: b.stringValWithDefault(c.ACL.Tokens.Replication, b.stringVal(c.ACLReplicationToken)), ACLTokenTTL: b.durationValWithDefault("acl.token_ttl", c.ACL.TokenTTL, b.durationVal("acl_ttl", c.ACLTTL)), ACLPolicyTTL: b.durationVal("acl.policy_ttl", c.ACL.PolicyTTL), ACLRoleTTL: b.durationVal("acl.role_ttl", c.ACL.RoleTTL), ACLToken: b.stringValWithDefault(c.ACL.Tokens.Default, b.stringVal(c.ACLToken)), ACLTokenReplication: b.boolValWithDefault(c.ACL.TokenReplication, b.boolValWithDefault(c.EnableACLReplication, enableTokenReplication)), ACLEnableTokenPersistence: b.boolValWithDefault(c.ACL.EnableTokenPersistence, false), // Autopilot AutopilotCleanupDeadServers: b.boolVal(c.Autopilot.CleanupDeadServers), AutopilotDisableUpgradeMigration: b.boolVal(c.Autopilot.DisableUpgradeMigration), AutopilotLastContactThreshold: b.durationVal("autopilot.last_contact_threshold", c.Autopilot.LastContactThreshold), AutopilotMaxTrailingLogs: b.intVal(c.Autopilot.MaxTrailingLogs), AutopilotRedundancyZoneTag: b.stringVal(c.Autopilot.RedundancyZoneTag), AutopilotServerStabilizationTime: b.durationVal("autopilot.server_stabilization_time", c.Autopilot.ServerStabilizationTime), AutopilotUpgradeVersionTag: b.stringVal(c.Autopilot.UpgradeVersionTag), // DNS DNSAddrs: dnsAddrs, DNSAllowStale: b.boolVal(c.DNS.AllowStale), DNSARecordLimit: b.intVal(c.DNS.ARecordLimit), DNSDisableCompression: b.boolVal(c.DNS.DisableCompression), DNSDomain: b.stringVal(c.DNSDomain), DNSAltDomain: altDomain, DNSEnableTruncate: b.boolVal(c.DNS.EnableTruncate), DNSMaxStale: b.durationVal("dns_config.max_stale", c.DNS.MaxStale), DNSNodeTTL: b.durationVal("dns_config.node_ttl", c.DNS.NodeTTL), DNSOnlyPassing: b.boolVal(c.DNS.OnlyPassing), DNSPort: dnsPort, DNSRecursorTimeout: b.durationVal("recursor_timeout", c.DNS.RecursorTimeout), DNSRecursors: dnsRecursors, DNSServiceTTL: dnsServiceTTL, DNSSOA: soa, DNSUDPAnswerLimit: b.intVal(c.DNS.UDPAnswerLimit), DNSNodeMetaTXT: b.boolValWithDefault(c.DNS.NodeMetaTXT, true), DNSUseCache: b.boolVal(c.DNS.UseCache), DNSCacheMaxAge: b.durationVal("dns_config.cache_max_age", c.DNS.CacheMaxAge), // HTTP HTTPPort: httpPort, HTTPSPort: httpsPort, HTTPAddrs: httpAddrs, HTTPSAddrs: httpsAddrs, HTTPBlockEndpoints: c.HTTPConfig.BlockEndpoints, HTTPResponseHeaders: c.HTTPConfig.ResponseHeaders, AllowWriteHTTPFrom: b.cidrsVal("allow_write_http_from", c.HTTPConfig.AllowWriteHTTPFrom), // Telemetry Telemetry: lib.TelemetryConfig{ CirconusAPIApp: b.stringVal(c.Telemetry.CirconusAPIApp), CirconusAPIToken: b.stringVal(c.Telemetry.CirconusAPIToken), CirconusAPIURL: b.stringVal(c.Telemetry.CirconusAPIURL), CirconusBrokerID: b.stringVal(c.Telemetry.CirconusBrokerID), CirconusBrokerSelectTag: b.stringVal(c.Telemetry.CirconusBrokerSelectTag), CirconusCheckDisplayName: b.stringVal(c.Telemetry.CirconusCheckDisplayName), CirconusCheckForceMetricActivation: b.stringVal(c.Telemetry.CirconusCheckForceMetricActivation), CirconusCheckID: b.stringVal(c.Telemetry.CirconusCheckID), CirconusCheckInstanceID: b.stringVal(c.Telemetry.CirconusCheckInstanceID), CirconusCheckSearchTag: b.stringVal(c.Telemetry.CirconusCheckSearchTag), CirconusCheckTags: b.stringVal(c.Telemetry.CirconusCheckTags), CirconusSubmissionInterval: b.stringVal(c.Telemetry.CirconusSubmissionInterval), CirconusSubmissionURL: b.stringVal(c.Telemetry.CirconusSubmissionURL), DisableHostname: b.boolVal(c.Telemetry.DisableHostname), DogstatsdAddr: b.stringVal(c.Telemetry.DogstatsdAddr), DogstatsdTags: c.Telemetry.DogstatsdTags, PrometheusRetentionTime: b.durationVal("prometheus_retention_time", c.Telemetry.PrometheusRetentionTime), FilterDefault: b.boolVal(c.Telemetry.FilterDefault), AllowedPrefixes: telemetryAllowedPrefixes, BlockedPrefixes: telemetryBlockedPrefixes, MetricsPrefix: b.stringVal(c.Telemetry.MetricsPrefix), StatsdAddr: b.stringVal(c.Telemetry.StatsdAddr), StatsiteAddr: b.stringVal(c.Telemetry.StatsiteAddr), }, // Agent AdvertiseAddrLAN: advertiseAddrLAN, AdvertiseAddrWAN: advertiseAddrWAN, BindAddr: bindAddr, Bootstrap: b.boolVal(c.Bootstrap), BootstrapExpect: b.intVal(c.BootstrapExpect), CAFile: b.stringVal(c.CAFile), CAPath: b.stringVal(c.CAPath), CertFile: b.stringVal(c.CertFile), CheckUpdateInterval: b.durationVal("check_update_interval", c.CheckUpdateInterval), CheckOutputMaxSize: b.intValWithDefault(c.CheckOutputMaxSize, 4096), Checks: checks, ClientAddrs: clientAddrs, ConfigEntryBootstrap: configEntries, AutoEncryptTLS: autoEncryptTLS, AutoEncryptAllowTLS: autoEncryptAllowTLS, ConnectEnabled: connectEnabled, ConnectCAProvider: connectCAProvider, ConnectCAConfig: connectCAConfig, ConnectSidecarMinPort: sidecarMinPort, ConnectSidecarMaxPort: sidecarMaxPort, ExposeMinPort: exposeMinPort, ExposeMaxPort: exposeMaxPort, DataDir: b.stringVal(c.DataDir), Datacenter: datacenter, DevMode: b.boolVal(b.Flags.DevMode), DisableAnonymousSignature: b.boolVal(c.DisableAnonymousSignature), DisableCoordinates: b.boolVal(c.DisableCoordinates), DisableHostNodeID: b.boolVal(c.DisableHostNodeID), DisableHTTPUnprintableCharFilter: b.boolVal(c.DisableHTTPUnprintableCharFilter), DisableKeyringFile: b.boolVal(c.DisableKeyringFile), DisableRemoteExec: b.boolVal(c.DisableRemoteExec), DisableUpdateCheck: b.boolVal(c.DisableUpdateCheck), DiscardCheckOutput: b.boolVal(c.DiscardCheckOutput), DiscoveryMaxStale: b.durationVal("discovery_max_stale", c.DiscoveryMaxStale), EnableAgentTLSForChecks: b.boolVal(c.EnableAgentTLSForChecks), EnableCentralServiceConfig: b.boolVal(c.EnableCentralServiceConfig), EnableDebug: b.boolVal(c.EnableDebug), EnableRemoteScriptChecks: enableRemoteScriptChecks, EnableLocalScriptChecks: enableLocalScriptChecks, EnableSyslog: b.boolVal(c.EnableSyslog), EnableUI: b.boolVal(c.UI), EncryptKey: b.stringVal(c.EncryptKey), EncryptVerifyIncoming: b.boolVal(c.EncryptVerifyIncoming), EncryptVerifyOutgoing: b.boolVal(c.EncryptVerifyOutgoing), GRPCPort: grpcPort, GRPCAddrs: grpcAddrs, KeyFile: b.stringVal(c.KeyFile), KVMaxValueSize: b.uint64Val(c.Limits.KVMaxValueSize), LeaveDrainTime: b.durationVal("performance.leave_drain_time", c.Performance.LeaveDrainTime), LeaveOnTerm: leaveOnTerm, LogLevel: b.stringVal(c.LogLevel), LogFile: b.stringVal(c.LogFile), LogRotateBytes: b.intVal(c.LogRotateBytes), LogRotateDuration: b.durationVal("log_rotate_duration", c.LogRotateDuration), LogRotateMaxFiles: b.intVal(c.LogRotateMaxFiles), NodeID: types.NodeID(b.stringVal(c.NodeID)), NodeMeta: c.NodeMeta, NodeName: b.nodeName(c.NodeName), NonVotingServer: b.boolVal(c.NonVotingServer), PidFile: b.stringVal(c.PidFile), PrimaryDatacenter: primaryDatacenter, RPCAdvertiseAddr: rpcAdvertiseAddr, RPCBindAddr: rpcBindAddr, RPCHoldTimeout: b.durationVal("performance.rpc_hold_timeout", c.Performance.RPCHoldTimeout), RPCMaxBurst: b.intVal(c.Limits.RPCMaxBurst), RPCProtocol: b.intVal(c.RPCProtocol), RPCRateLimit: rate.Limit(b.float64Val(c.Limits.RPCRate)), RaftProtocol: b.intVal(c.RaftProtocol), RaftSnapshotThreshold: b.intVal(c.RaftSnapshotThreshold), RaftSnapshotInterval: b.durationVal("raft_snapshot_interval", c.RaftSnapshotInterval), RaftTrailingLogs: b.intVal(c.RaftTrailingLogs), ReconnectTimeoutLAN: b.durationVal("reconnect_timeout", c.ReconnectTimeoutLAN), ReconnectTimeoutWAN: b.durationVal("reconnect_timeout_wan", c.ReconnectTimeoutWAN), RejoinAfterLeave: b.boolVal(c.RejoinAfterLeave), RetryJoinIntervalLAN: b.durationVal("retry_interval", c.RetryJoinIntervalLAN), RetryJoinIntervalWAN: b.durationVal("retry_interval_wan", c.RetryJoinIntervalWAN), RetryJoinLAN: b.expandAllOptionalAddrs("retry_join", c.RetryJoinLAN), RetryJoinMaxAttemptsLAN: b.intVal(c.RetryJoinMaxAttemptsLAN), RetryJoinMaxAttemptsWAN: b.intVal(c.RetryJoinMaxAttemptsWAN), RetryJoinWAN: b.expandAllOptionalAddrs("retry_join_wan", c.RetryJoinWAN), SegmentName: b.stringVal(c.SegmentName), Segments: segments, SerfAdvertiseAddrLAN: serfAdvertiseAddrLAN, SerfAdvertiseAddrWAN: serfAdvertiseAddrWAN, SerfBindAddrLAN: serfBindAddrLAN, SerfBindAddrWAN: serfBindAddrWAN, SerfPortLAN: serfPortLAN, SerfPortWAN: serfPortWAN, ServerMode: b.boolVal(c.ServerMode), ServerName: b.stringVal(c.ServerName), ServerPort: serverPort, Services: services, SessionTTLMin: b.durationVal("session_ttl_min", c.SessionTTLMin), SkipLeaveOnInt: skipLeaveOnInt, StartJoinAddrsLAN: b.expandAllOptionalAddrs("start_join", c.StartJoinAddrsLAN), StartJoinAddrsWAN: b.expandAllOptionalAddrs("start_join_wan", c.StartJoinAddrsWAN), SyslogFacility: b.stringVal(c.SyslogFacility), TLSCipherSuites: b.tlsCipherSuites("tls_cipher_suites", c.TLSCipherSuites), TLSMinVersion: b.stringVal(c.TLSMinVersion), TLSPreferServerCipherSuites: b.boolVal(c.TLSPreferServerCipherSuites), TaggedAddresses: c.TaggedAddresses, TranslateWANAddrs: b.boolVal(c.TranslateWANAddrs), UIDir: b.stringVal(c.UIDir), UIContentPath: UIPathBuilder(b.stringVal(b.Flags.Config.UIContentPath)), UnixSocketGroup: b.stringVal(c.UnixSocket.Group), UnixSocketMode: b.stringVal(c.UnixSocket.Mode), UnixSocketUser: b.stringVal(c.UnixSocket.User), VerifyIncoming: b.boolVal(c.VerifyIncoming), VerifyIncomingHTTPS: b.boolVal(c.VerifyIncomingHTTPS), VerifyIncomingRPC: b.boolVal(c.VerifyIncomingRPC), VerifyOutgoing: verifyOutgoing, VerifyServerHostname: verifyServerName, Watches: c.Watches, } if rt.BootstrapExpect == 1 { rt.Bootstrap = true rt.BootstrapExpect = 0 b.warn(`BootstrapExpect is set to 1; this is the same as Bootstrap mode.`) } return rt, nil } // Validate performs semantical validation of the runtime configuration. func (b *Builder) Validate(rt RuntimeConfig) error { // reDatacenter defines a regexp for a valid datacenter name var reDatacenter = regexp.MustCompile("^[a-z0-9_-]+$") // validContentPath defines a regexp for a valid content path name. var validContentPath = regexp.MustCompile(`^[A-Za-z0-9/_-]+$`) var hasVersion = regexp.MustCompile(`^/v\d+/$`) // ---------------------------------------------------------------- // check required params we cannot recover from first // if rt.Datacenter == "" { return fmt.Errorf("datacenter cannot be empty") } if !reDatacenter.MatchString(rt.Datacenter) { return fmt.Errorf("datacenter cannot be %q. Please use only [a-z0-9-_]", rt.Datacenter) } if rt.DataDir == "" && !rt.DevMode { return fmt.Errorf("data_dir cannot be empty") } if !validContentPath.MatchString(rt.UIContentPath) { return fmt.Errorf("ui-content-path can only contain alphanumeric, -, _, or /. received: %s", rt.UIContentPath) } if hasVersion.MatchString(rt.UIContentPath) { return fmt.Errorf("ui-content-path cannot have 'v[0-9]'. received: %s", rt.UIContentPath) } if !rt.DevMode { fi, err := os.Stat(rt.DataDir) switch { case err != nil && !os.IsNotExist(err): return fmt.Errorf("Error getting info on data_dir: %s", err) case err == nil && !fi.IsDir(): return fmt.Errorf("data_dir %q is not a directory", rt.DataDir) } } if rt.NodeName == "" { return fmt.Errorf("node_name cannot be empty") } if ipaddr.IsAny(rt.AdvertiseAddrLAN.IP) { return fmt.Errorf("Advertise address cannot be 0.0.0.0, :: or [::]") } if ipaddr.IsAny(rt.AdvertiseAddrWAN.IP) { return fmt.Errorf("Advertise WAN address cannot be 0.0.0.0, :: or [::]") } if err := b.validateSegments(rt); err != nil { return err } for _, a := range rt.DNSAddrs { if _, ok := a.(*net.UnixAddr); ok { return fmt.Errorf("DNS address cannot be a unix socket") } } for _, a := range rt.DNSRecursors { if ipaddr.IsAny(a) { return fmt.Errorf("DNS recursor address cannot be 0.0.0.0, :: or [::]") } } if !isValidAltDomain(rt.DNSAltDomain, rt.Datacenter) { return fmt.Errorf("alt_domain cannot start with {service,connect,node,query,addr,%s}", rt.Datacenter) } if rt.Bootstrap && !rt.ServerMode { return fmt.Errorf("'bootstrap = true' requires 'server = true'") } if rt.BootstrapExpect < 0 { return fmt.Errorf("bootstrap_expect cannot be %d. Must be greater than or equal to zero", rt.BootstrapExpect) } if rt.BootstrapExpect > 0 && !rt.ServerMode { return fmt.Errorf("'bootstrap_expect > 0' requires 'server = true'") } if rt.BootstrapExpect > 0 && rt.DevMode { return fmt.Errorf("'bootstrap_expect > 0' not allowed in dev mode") } if rt.BootstrapExpect > 0 && rt.Bootstrap { return fmt.Errorf("'bootstrap_expect > 0' and 'bootstrap = true' are mutually exclusive") } if rt.CheckOutputMaxSize < 1 { return fmt.Errorf("check_output_max_size must be positive, to discard check output use the discard_check_output flag") } if rt.AEInterval <= 0 { return fmt.Errorf("ae_interval cannot be %s. Must be positive", rt.AEInterval) } if rt.AutopilotMaxTrailingLogs < 0 { return fmt.Errorf("autopilot.max_trailing_logs cannot be %d. Must be greater than or equal to zero", rt.AutopilotMaxTrailingLogs) } if rt.ACLDatacenter != "" && !reDatacenter.MatchString(rt.ACLDatacenter) { return fmt.Errorf("acl_datacenter cannot be %q. Please use only [a-z0-9-_]", rt.ACLDatacenter) } if rt.EnableUI && rt.UIDir != "" { return fmt.Errorf( "Both the ui and ui-dir flags were specified, please provide only one.\n" + "If trying to use your own web UI resources, use the ui-dir flag.\n" + "If using Consul version 0.7.0 or later, the web UI is included in the binary so use ui to enable it") } if rt.DNSUDPAnswerLimit < 0 { return fmt.Errorf("dns_config.udp_answer_limit cannot be %d. Must be greater than or equal to zero", rt.DNSUDPAnswerLimit) } if rt.DNSARecordLimit < 0 { return fmt.Errorf("dns_config.a_record_limit cannot be %d. Must be greater than or equal to zero", rt.DNSARecordLimit) } if err := structs.ValidateMetadata(rt.NodeMeta, false); err != nil { return fmt.Errorf("node_meta invalid: %v", err) } if rt.EncryptKey != "" { if _, err := decodeBytes(rt.EncryptKey); err != nil { return fmt.Errorf("encrypt has invalid key: %s", err) } keyfileLAN := filepath.Join(rt.DataDir, SerfLANKeyring) if _, err := os.Stat(keyfileLAN); err == nil { b.warn("WARNING: LAN keyring exists but -encrypt given, using keyring") } if rt.ServerMode { keyfileWAN := filepath.Join(rt.DataDir, SerfWANKeyring) if _, err := os.Stat(keyfileWAN); err == nil { b.warn("WARNING: WAN keyring exists but -encrypt given, using keyring") } } } // Check the data dir for signs of an un-migrated Consul 0.5.x or older // server. Consul refuses to start if this is present to protect a server // with existing data from starting on a fresh data set. if rt.ServerMode { mdbPath := filepath.Join(rt.DataDir, "mdb") if _, err := os.Stat(mdbPath); !os.IsNotExist(err) { if os.IsPermission(err) { return fmt.Errorf( "CRITICAL: Permission denied for data folder at %q!\n"+ "Consul will refuse to boot without access to this directory.\n"+ "Please correct permissions and try starting again.", mdbPath) } return fmt.Errorf("CRITICAL: Deprecated data folder found at %q!\n"+ "Consul will refuse to boot with this directory present.\n"+ "See https://www.consul.io/docs/upgrade-specific.html for more information.", mdbPath) } } inuse := map[string]string{} if err := addrsUnique(inuse, "DNS", rt.DNSAddrs); err != nil { // cannot happen since this is the first address // we leave this for consistency return err } if err := addrsUnique(inuse, "HTTP", rt.HTTPAddrs); err != nil { return err } if err := addrsUnique(inuse, "HTTPS", rt.HTTPSAddrs); err != nil { return err } if err := addrUnique(inuse, "RPC Advertise", rt.RPCAdvertiseAddr); err != nil { return err } if err := addrUnique(inuse, "Serf Advertise LAN", rt.SerfAdvertiseAddrLAN); err != nil { return err } // Validate serf WAN advertise address only when its set if rt.SerfAdvertiseAddrWAN != nil { if err := addrUnique(inuse, "Serf Advertise WAN", rt.SerfAdvertiseAddrWAN); err != nil { return err } } if b.err != nil { return b.err } // Check for errors in the service definitions for _, s := range rt.Services { if err := s.Validate(); err != nil { return fmt.Errorf("service %q: %s", s.Name, err) } } // Validate the given Connect CA provider config validCAProviders := map[string]bool{ "": true, structs.ConsulCAProvider: true, structs.VaultCAProvider: true, } if _, ok := validCAProviders[rt.ConnectCAProvider]; !ok { return fmt.Errorf("%s is not a valid CA provider", rt.ConnectCAProvider) } else { switch rt.ConnectCAProvider { case structs.ConsulCAProvider: if _, err := ca.ParseConsulCAConfig(rt.ConnectCAConfig); err != nil { return err } case structs.VaultCAProvider: if _, err := ca.ParseVaultCAConfig(rt.ConnectCAConfig); err != nil { return err } } } if rt.AutoEncryptAllowTLS { if !rt.VerifyIncoming && !rt.VerifyIncomingRPC { return fmt.Errorf("if auto_encrypt.allow_tls is turned on, either verify_incoming or verify_incoming_rpc must be enabled.") } } // ---------------------------------------------------------------- // warnings // if rt.ServerMode && !rt.DevMode && !rt.Bootstrap && rt.BootstrapExpect == 2 { b.warn(`bootstrap_expect = 2: A cluster with 2 servers will provide no failure tolerance. See https://www.consul.io/docs/internals/consensus.html#deployment-table`) } if rt.ServerMode && !rt.Bootstrap && rt.BootstrapExpect > 2 && rt.BootstrapExpect%2 == 0 { b.warn(`bootstrap_expect is even number: A cluster with an even number of servers does not achieve optimum fault tolerance. See https://www.consul.io/docs/internals/consensus.html#deployment-table`) } if rt.ServerMode && rt.Bootstrap && rt.BootstrapExpect == 0 { b.warn(`bootstrap = true: do not enable unless necessary`) } if rt.ServerMode && !rt.DevMode && !rt.Bootstrap && rt.BootstrapExpect > 1 { b.warn("bootstrap_expect > 0: expecting %d servers", rt.BootstrapExpect) } return nil } // addrUnique checks if the given address is already in use for another // protocol. func addrUnique(inuse map[string]string, name string, addr net.Addr) error { key := addr.Network() + ":" + addr.String() if other, ok := inuse[key]; ok { return fmt.Errorf("%s address %s already configured for %s", name, addr.String(), other) } inuse[key] = name return nil } // addrsUnique checks if any of the give addresses is already in use for // another protocol. func addrsUnique(inuse map[string]string, name string, addrs []net.Addr) error { for _, a := range addrs { if err := addrUnique(inuse, name, a); err != nil { return err } } return nil } // splitSlicesAndValues moves all slice values defined in c to 'slices' // and all other values to 'values'. func (b *Builder) splitSlicesAndValues(c Config) (slices, values Config) { v, t := reflect.ValueOf(c), reflect.TypeOf(c) rs, rv := reflect.New(t), reflect.New(t) for i := 0; i < t.NumField(); i++ { f := t.Field(i) if f.Type.Kind() == reflect.Slice { rs.Elem().Field(i).Set(v.Field(i)) } else { rv.Elem().Field(i).Set(v.Field(i)) } } return rs.Elem().Interface().(Config), rv.Elem().Interface().(Config) } func (b *Builder) warn(msg string, args ...interface{}) { b.Warnings = append(b.Warnings, fmt.Sprintf(msg, args...)) } func (b *Builder) checkVal(v *CheckDefinition) *structs.CheckDefinition { if v == nil { return nil } id := types.CheckID(b.stringVal(v.ID)) return &structs.CheckDefinition{ ID: id, Name: b.stringVal(v.Name), Notes: b.stringVal(v.Notes), ServiceID: b.stringVal(v.ServiceID), Token: b.stringVal(v.Token), Status: b.stringVal(v.Status), ScriptArgs: v.ScriptArgs, HTTP: b.stringVal(v.HTTP), Header: v.Header, Method: b.stringVal(v.Method), TCP: b.stringVal(v.TCP), Interval: b.durationVal(fmt.Sprintf("check[%s].interval", id), v.Interval), DockerContainerID: b.stringVal(v.DockerContainerID), Shell: b.stringVal(v.Shell), GRPC: b.stringVal(v.GRPC), GRPCUseTLS: b.boolVal(v.GRPCUseTLS), TLSSkipVerify: b.boolVal(v.TLSSkipVerify), AliasNode: b.stringVal(v.AliasNode), AliasService: b.stringVal(v.AliasService), Timeout: b.durationVal(fmt.Sprintf("check[%s].timeout", id), v.Timeout), TTL: b.durationVal(fmt.Sprintf("check[%s].ttl", id), v.TTL), DeregisterCriticalServiceAfter: b.durationVal(fmt.Sprintf("check[%s].deregister_critical_service_after", id), v.DeregisterCriticalServiceAfter), OutputMaxSize: b.intValWithDefault(v.OutputMaxSize, checks.DefaultBufSize), } } func (b *Builder) svcTaggedAddresses(v map[string]ServiceAddress) map[string]structs.ServiceAddress { if len(v) <= 0 { return nil } svcAddrs := make(map[string]structs.ServiceAddress) for addrName, addrConf := range v { addr := structs.ServiceAddress{} if addrConf.Address != nil { addr.Address = *addrConf.Address } if addrConf.Port != nil { addr.Port = *addrConf.Port } svcAddrs[addrName] = addr } return svcAddrs } func (b *Builder) serviceVal(v *ServiceDefinition) *structs.ServiceDefinition { if v == nil { return nil } var checks structs.CheckTypes for _, check := range v.Checks { checks = append(checks, b.checkVal(&check).CheckType()) } if v.Check != nil { checks = append(checks, b.checkVal(v.Check).CheckType()) } meta := make(map[string]string) if err := structs.ValidateMetadata(v.Meta, false); err != nil { b.err = multierror.Append(fmt.Errorf("invalid meta for service %s: %v", b.stringVal(v.Name), err)) } else { meta = v.Meta } serviceWeights := &structs.Weights{Passing: 1, Warning: 1} if v.Weights != nil { if v.Weights.Passing != nil { serviceWeights.Passing = *v.Weights.Passing } if v.Weights.Warning != nil { serviceWeights.Warning = *v.Weights.Warning } } if err := structs.ValidateWeights(serviceWeights); err != nil { b.err = multierror.Append(fmt.Errorf("Invalid weight definition for service %s: %s", b.stringVal(v.Name), err)) } return &structs.ServiceDefinition{ Kind: b.serviceKindVal(v.Kind), ID: b.stringVal(v.ID), Name: b.stringVal(v.Name), Tags: v.Tags, Address: b.stringVal(v.Address), TaggedAddresses: b.svcTaggedAddresses(v.TaggedAddresses), Meta: meta, Port: b.intVal(v.Port), Token: b.stringVal(v.Token), EnableTagOverride: b.boolVal(v.EnableTagOverride), Weights: serviceWeights, Checks: checks, Proxy: b.serviceProxyVal(v.Proxy), Connect: b.serviceConnectVal(v.Connect), } } func (b *Builder) serviceKindVal(v *string) structs.ServiceKind { if v == nil { return structs.ServiceKindTypical } switch *v { case string(structs.ServiceKindConnectProxy): return structs.ServiceKindConnectProxy case string(structs.ServiceKindMeshGateway): return structs.ServiceKindMeshGateway default: return structs.ServiceKindTypical } } func (b *Builder) serviceProxyVal(v *ServiceProxy) *structs.ConnectProxyConfig { if v == nil { return nil } return &structs.ConnectProxyConfig{ DestinationServiceName: b.stringVal(v.DestinationServiceName), DestinationServiceID: b.stringVal(v.DestinationServiceID), LocalServiceAddress: b.stringVal(v.LocalServiceAddress), LocalServicePort: b.intVal(v.LocalServicePort), Config: v.Config, Upstreams: b.upstreamsVal(v.Upstreams), MeshGateway: b.meshGatewayConfVal(v.MeshGateway), Expose: b.exposeConfVal(v.Expose), } } func (b *Builder) upstreamsVal(v []Upstream) structs.Upstreams { ups := make(structs.Upstreams, len(v)) for i, u := range v { ups[i] = structs.Upstream{ DestinationType: b.stringVal(u.DestinationType), DestinationNamespace: b.stringVal(u.DestinationNamespace), DestinationName: b.stringVal(u.DestinationName), Datacenter: b.stringVal(u.Datacenter), LocalBindAddress: b.stringVal(u.LocalBindAddress), LocalBindPort: b.intVal(u.LocalBindPort), Config: u.Config, MeshGateway: b.meshGatewayConfVal(u.MeshGateway), } if ups[i].DestinationType == "" { ups[i].DestinationType = structs.UpstreamDestTypeService } } return ups } func (b *Builder) meshGatewayConfVal(mgConf *MeshGatewayConfig) structs.MeshGatewayConfig { cfg := structs.MeshGatewayConfig{Mode: structs.MeshGatewayModeDefault} if mgConf == nil || mgConf.Mode == nil { // return defaults return cfg } mode, err := structs.ValidateMeshGatewayMode(*mgConf.Mode) if err != nil { b.err = multierror.Append(b.err, err) return cfg } cfg.Mode = mode return cfg } func (b *Builder) exposeConfVal(v *ExposeConfig) structs.ExposeConfig { var out structs.ExposeConfig if v == nil { return out } out.Checks = b.boolVal(v.Checks) out.Paths = b.pathsVal(v.Paths) return out } func (b *Builder) pathsVal(v []ExposePath) []structs.ExposePath { paths := make([]structs.ExposePath, len(v)) for i, p := range v { paths[i] = structs.ExposePath{ ListenerPort: b.intVal(p.ListenerPort), Path: b.stringVal(p.Path), LocalPathPort: b.intVal(p.LocalPathPort), Protocol: b.stringVal(p.Protocol), } } return paths } func (b *Builder) serviceConnectVal(v *ServiceConnect) *structs.ServiceConnect { if v == nil { return nil } sidecar := b.serviceVal(v.SidecarService) if sidecar != nil { // Sanity checks if sidecar.ID != "" { b.err = multierror.Append(b.err, fmt.Errorf("sidecar_service can't specify an ID")) sidecar.ID = "" } if sidecar.Connect != nil { if sidecar.Connect.SidecarService != nil { b.err = multierror.Append(b.err, fmt.Errorf("sidecar_service can't have a nested sidecar_service")) sidecar.Connect.SidecarService = nil } } } return &structs.ServiceConnect{ Native: b.boolVal(v.Native), SidecarService: sidecar, } } func (b *Builder) boolValWithDefault(v *bool, defaultVal bool) bool { if v == nil { return defaultVal } return *v } func (b *Builder) boolVal(v *bool) bool { return b.boolValWithDefault(v, false) } func (b *Builder) durationValWithDefault(name string, v *string, defaultVal time.Duration) (d time.Duration) { if v == nil { return defaultVal } d, err := time.ParseDuration(*v) if err != nil { b.err = multierror.Append(fmt.Errorf("%s: invalid duration: %q: %s", name, *v, err)) } return d } func (b *Builder) durationVal(name string, v *string) (d time.Duration) { return b.durationValWithDefault(name, v, 0) } func (b *Builder) intValWithDefault(v *int, defaultVal int) int { if v == nil { return defaultVal } return *v } func (b *Builder) intVal(v *int) int { return b.intValWithDefault(v, 0) } func (b *Builder) uint64ValWithDefault(v *uint64, defaultVal uint64) uint64 { if v == nil { return defaultVal } return *v } func (b *Builder) uint64Val(v *uint64) uint64 { return b.uint64ValWithDefault(v, 0) } func (b *Builder) portVal(name string, v *int) int { if v == nil || *v <= 0 { return -1 } if *v > 65535 { b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid port: %d", name, *v)) } return *v } func (b *Builder) stringValWithDefault(v *string, defaultVal string) string { if v == nil { return defaultVal } return *v } func (b *Builder) stringVal(v *string) string { return b.stringValWithDefault(v, "") } func (b *Builder) float64Val(v *float64) float64 { if v == nil { return 0 } return *v } func (b *Builder) cidrsVal(name string, v []string) (nets []*net.IPNet) { if v == nil { return } for _, p := range v { _, net, err := net.ParseCIDR(strings.TrimSpace(p)) if err != nil { b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid cidr: %s", name, p)) } nets = append(nets, net) } return } func (b *Builder) tlsCipherSuites(name string, v *string) []uint16 { if v == nil { return nil } var a []uint16 a, err := tlsutil.ParseCiphers(*v) if err != nil { b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid tls cipher suites: %s", name, err)) } return a } func (b *Builder) nodeName(v *string) string { nodeName := b.stringVal(v) if nodeName == "" { fn := b.Hostname if fn == nil { fn = os.Hostname } name, err := fn() if err != nil { b.err = multierror.Append(b.err, fmt.Errorf("node_name: %s", err)) return "" } nodeName = name } return strings.TrimSpace(nodeName) } // expandAddrs expands the go-sockaddr template in s and returns the // result as a list of *net.IPAddr and *net.UnixAddr. func (b *Builder) expandAddrs(name string, s *string) []net.Addr { if s == nil || *s == "" { return nil } x, err := template.Parse(*s) if err != nil { b.err = multierror.Append(b.err, fmt.Errorf("%s: error parsing %q: %s", name, *s, err)) return nil } var addrs []net.Addr for _, a := range strings.Fields(x) { switch { case strings.HasPrefix(a, "unix://"): addrs = append(addrs, &net.UnixAddr{Name: a[len("unix://"):], Net: "unix"}) default: // net.ParseIP does not like '[::]' ip := net.ParseIP(a) if a == "[::]" { ip = net.ParseIP("::") } if ip == nil { b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid ip address: %s", name, a)) return nil } addrs = append(addrs, &net.IPAddr{IP: ip}) } } return addrs } // expandOptionalAddrs expands the go-sockaddr template in s and returns the // result as a list of strings. If s does not contain a go-sockaddr template, // the result list will contain the input string as a single element with no // error set. In contrast to expandAddrs, expandOptionalAddrs does not validate // if the result contains valid addresses and returns a list of strings. // However, if the expansion of the go-sockaddr template fails an error is set. func (b *Builder) expandOptionalAddrs(name string, s *string) []string { if s == nil || *s == "" { return nil } x, err := template.Parse(*s) if err != nil { b.err = multierror.Append(b.err, fmt.Errorf("%s: error parsing %q: %s", name, *s, err)) return nil } if x != *s { // A template has been expanded, split the results from go-sockaddr return strings.Fields(x) } else { // No template has been expanded, pass through the input return []string{*s} } } func (b *Builder) expandAllOptionalAddrs(name string, addrs []string) []string { out := make([]string, 0, len(addrs)) for _, a := range addrs { expanded := b.expandOptionalAddrs(name, &a) if expanded != nil { out = append(out, expanded...) } } return out } // expandIPs expands the go-sockaddr template in s and returns a list of // *net.IPAddr. If one of the expanded addresses is a unix socket // address an error is set and nil is returned. func (b *Builder) expandIPs(name string, s *string) []*net.IPAddr { if s == nil || *s == "" { return nil } addrs := b.expandAddrs(name, s) var x []*net.IPAddr for _, addr := range addrs { switch a := addr.(type) { case *net.IPAddr: x = append(x, a) case *net.UnixAddr: b.err = multierror.Append(b.err, fmt.Errorf("%s cannot be a unix socket", name)) return nil default: b.err = multierror.Append(b.err, fmt.Errorf("%s has invalid address type %T", name, a)) return nil } } return x } // expandFirstAddr expands the go-sockaddr template in s and returns the // first address which is either a *net.IPAddr or a *net.UnixAddr. If // the template expands to multiple addresses an error is set and nil // is returned. func (b *Builder) expandFirstAddr(name string, s *string) net.Addr { if s == nil || *s == "" { return nil } addrs := b.expandAddrs(name, s) if len(addrs) == 0 { return nil } if len(addrs) > 1 { var x []string for _, a := range addrs { x = append(x, a.String()) } b.err = multierror.Append(b.err, fmt.Errorf("%s: multiple addresses found: %s", name, strings.Join(x, " "))) return nil } return addrs[0] } // expandFirstIP expands the go-sockaddr template in s and returns the // first address if it is not a unix socket address. If the template // expands to multiple addresses an error is set and nil is returned. func (b *Builder) expandFirstIP(name string, s *string) *net.IPAddr { if s == nil || *s == "" { return nil } addr := b.expandFirstAddr(name, s) if addr == nil { return nil } switch a := addr.(type) { case *net.IPAddr: return a case *net.UnixAddr: b.err = multierror.Append(b.err, fmt.Errorf("%s cannot be a unix socket", name)) return nil default: b.err = multierror.Append(b.err, fmt.Errorf("%s has invalid address type %T", name, a)) return nil } } func (b *Builder) makeIPAddr(pri *net.IPAddr, sec *net.IPAddr) *net.IPAddr { if pri != nil { return pri } return sec } func (b *Builder) makeTCPAddr(pri *net.IPAddr, sec net.Addr, port int) *net.TCPAddr { if pri == nil && reflect.ValueOf(sec).IsNil() || port <= 0 { return nil } addr := pri if addr == nil { switch a := sec.(type) { case *net.IPAddr: addr = a case *net.TCPAddr: addr = &net.IPAddr{IP: a.IP} default: panic(fmt.Sprintf("makeTCPAddr requires a net.IPAddr or a net.TCPAddr. Got %T", a)) } } return &net.TCPAddr{IP: addr.IP, Port: port} } // makeAddr creates an *net.TCPAddr or a *net.UnixAddr from either the // primary or secondary address and the given port. If the port is <= 0 // then the address is considered to be disabled and nil is returned. func (b *Builder) makeAddr(pri, sec net.Addr, port int) net.Addr { if reflect.ValueOf(pri).IsNil() && reflect.ValueOf(sec).IsNil() || port <= 0 { return nil } addr := pri if addr == nil { addr = sec } switch a := addr.(type) { case *net.IPAddr: return &net.TCPAddr{IP: a.IP, Port: port} case *net.UnixAddr: return a default: panic(fmt.Sprintf("invalid address type %T", a)) } } // makeAddrs creates a list of *net.TCPAddr or *net.UnixAddr entries // from either the primary or secondary addresses and the given port. // If the port is <= 0 then the address is considered to be disabled // and nil is returned. func (b *Builder) makeAddrs(pri []net.Addr, sec []*net.IPAddr, port int) []net.Addr { if len(pri) == 0 && len(sec) == 0 || port <= 0 { return nil } addrs := pri if len(addrs) == 0 { addrs = []net.Addr{} for _, a := range sec { addrs = append(addrs, a) } } var x []net.Addr for _, a := range addrs { x = append(x, b.makeAddr(a, nil, port)) } return x } // isUnixAddr returns true when the given address is a unix socket address type. func (b *Builder) isUnixAddr(a net.Addr) bool { _, ok := a.(*net.UnixAddr) return a != nil && ok } // decodeBytes returns the encryption key decoded. func decodeBytes(key string) ([]byte, error) { return base64.StdEncoding.DecodeString(key) } func isIPAddr(a net.Addr) bool { _, ok := a.(*net.IPAddr) return ok } func isUnixAddr(a net.Addr) bool { _, ok := a.(*net.UnixAddr) return ok } // isValidAltDomain returns true if the given domain is not prefixed // by keywords used when dispatching DNS requests func isValidAltDomain(domain, datacenter string) bool { reAltDomain := regexp.MustCompile( fmt.Sprintf( "^(service|connect|node|query|addr|%s)\\.(%s\\.)?", datacenter, datacenter, ), ) return !reAltDomain.MatchString(domain) } // UIPathBuilder checks to see if there was a path set // If so, adds beginning and trailing slashes to UI path func UIPathBuilder(UIContentString string) string { if UIContentString != "" { var fmtedPath string fmtedPath = strings.Trim(UIContentString, "/") fmtedPath = "/" + fmtedPath + "/" return fmtedPath } return "/ui/" }