package config import ( "encoding/json" "fmt" "strings" "github.com/hashicorp/consul/lib" multierror "github.com/hashicorp/go-multierror" "github.com/hashicorp/hcl" "github.com/mitchellh/mapstructure" ) const ( SerfLANKeyring = "serf/local.keyring" SerfWANKeyring = "serf/remote.keyring" ) type Source struct { Name string Format string Data string } func FormatFrom(name string) string { switch { case strings.HasSuffix(name, ".json"): return "json" case strings.HasSuffix(name, ".hcl"): return "hcl" default: return "" } } // Parse parses a config fragment in either JSON or HCL format. func Parse(data string, format string) (c Config, err error) { var raw map[string]interface{} switch format { case "json": err = json.Unmarshal([]byte(data), &raw) case "hcl": err = hcl.Decode(&raw, data) default: err = fmt.Errorf("invalid format: %s", format) } if err != nil { return Config{}, err } // We want to be able to report fields which we cannot map as an // error so that users find typos in their configuration quickly. To // achieve this we use the mapstructure library which maps a a raw // map[string]interface{} to a nested structure and reports unused // fields. The input for a mapstructure.Decode expects a // map[string]interface{} as produced by encoding/json. // // The HCL language allows to repeat map keys which forces it to // store nested structs as []map[string]interface{} instead of // map[string]interface{}. This is an ambiguity which makes the // generated structures incompatible with a corresponding JSON // struct. It also does not work well with the mapstructure library. // // In order to still use the mapstructure library to find unused // fields we patch instances of []map[string]interface{} to a // map[string]interface{} before we decode that into a Config // struct. // // However, Config has some fields which are either // []map[string]interface{} or are arrays of structs which // encoding/json will decode to []map[string]interface{}. Therefore, // we need to be able to specify exceptions for this mapping. The // PatchSliceOfMaps() implements that mapping. All fields of type // []map[string]interface{} are mapped to map[string]interface{} if // it contains at most one value. If there is more than one value it // panics. To define exceptions one can specify the nested field // names in dot notation. // // todo(fs): There might be an easier way to achieve the same thing // todo(fs): but this approach works for now. m := lib.PatchSliceOfMaps(raw, []string{ "checks", "segments", "service.checks", "services", "services.checks", "watches", "service.connect.proxy.config.upstreams", // Deprecated "services.connect.proxy.config.upstreams", // Deprecated "service.connect.proxy.upstreams", "services.connect.proxy.upstreams", "service.proxy.upstreams", "services.proxy.upstreams", // Need all the service(s) exceptions also for nested sidecar service except // managed proxy which is explicitly not supported there. "service.connect.sidecar_service.checks", "services.connect.sidecar_service.checks", "service.connect.sidecar_service.proxy.upstreams", "services.connect.sidecar_service.proxy.upstreams", }, []string{ "config_entries.bootstrap", // completely ignore this tree (fixed elsewhere) }) // There is a difference of representation of some fields depending on // where they are used. The HTTP API uses CamelCase whereas the config // files use snake_case and between the two there is no automatic mapping. // While the JSON and HCL parsers match keys without case (both `id` and // `ID` are mapped to an ID field) the same thing does not happen between // CamelCase and snake_case. Since changing either format would break // existing setups we have to support both and slowly transition to one of // the formats. Also, there is at least one case where we use the "wrong" // key and want to map that to the new key to support deprecation - // see [GH-3179]. TranslateKeys maps potentially CamelCased values to the // snake_case that is used in the config file parser. If both the CamelCase // and snake_case values are set the snake_case value is used and the other // value is discarded. lib.TranslateKeys(m, map[string]string{ "deregistercriticalserviceafter": "deregister_critical_service_after", "dockercontainerid": "docker_container_id", "scriptargs": "args", "serviceid": "service_id", "tlsskipverify": "tls_skip_verify", "config_entries.bootstrap": "", }) var md mapstructure.Metadata d, err := mapstructure.NewDecoder(&mapstructure.DecoderConfig{ Metadata: &md, Result: &c, }) if err != nil { return Config{}, err } if err := d.Decode(m); err != nil { return Config{}, err } for _, k := range md.Unused { err = multierror.Append(err, fmt.Errorf("invalid config key %s", k)) } return } // Config defines the format of a configuration file in either JSON or // HCL format. // // It must contain only pointer values, slices and maps to support // standardized merging of multiple Config structs into one. // // Since this is the format which users use to specify their // configuration it should be treated as an external API which cannot be // changed and refactored at will since this will break existing setups. type Config struct { // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl.tokens" stanza ACLAgentMasterToken *string `json:"acl_agent_master_token,omitempty" hcl:"acl_agent_master_token" mapstructure:"acl_agent_master_token"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl.tokens" stanza ACLAgentToken *string `json:"acl_agent_token,omitempty" hcl:"acl_agent_token" mapstructure:"acl_agent_token"` // DEPRECATED (ACL-Legacy-Compat) - moved to "primary_datacenter" ACLDatacenter *string `json:"acl_datacenter,omitempty" hcl:"acl_datacenter" mapstructure:"acl_datacenter"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl" stanza ACLDefaultPolicy *string `json:"acl_default_policy,omitempty" hcl:"acl_default_policy" mapstructure:"acl_default_policy"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl" stanza ACLDownPolicy *string `json:"acl_down_policy,omitempty" hcl:"acl_down_policy" mapstructure:"acl_down_policy"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl" stanza ACLEnableKeyListPolicy *bool `json:"acl_enable_key_list_policy,omitempty" hcl:"acl_enable_key_list_policy" mapstructure:"acl_enable_key_list_policy"` // DEPRECATED (ACL-Legacy-Compat) - pre-version8 enforcement is deprecated. ACLEnforceVersion8 *bool `json:"acl_enforce_version_8,omitempty" hcl:"acl_enforce_version_8" mapstructure:"acl_enforce_version_8"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl" stanza ACLMasterToken *string `json:"acl_master_token,omitempty" hcl:"acl_master_token" mapstructure:"acl_master_token"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl.tokens" stanza ACLReplicationToken *string `json:"acl_replication_token,omitempty" hcl:"acl_replication_token" mapstructure:"acl_replication_token"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl.tokens" stanza ACLTTL *string `json:"acl_ttl,omitempty" hcl:"acl_ttl" mapstructure:"acl_ttl"` // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl.tokens" stanza ACLToken *string `json:"acl_token,omitempty" hcl:"acl_token" mapstructure:"acl_token"` ACL ACL `json:"acl,omitempty" hcl:"acl" mapstructure:"acl"` Addresses Addresses `json:"addresses,omitempty" hcl:"addresses" mapstructure:"addresses"` AdvertiseAddrLAN *string `json:"advertise_addr,omitempty" hcl:"advertise_addr" mapstructure:"advertise_addr"` AdvertiseAddrWAN *string `json:"advertise_addr_wan,omitempty" hcl:"advertise_addr_wan" mapstructure:"advertise_addr_wan"` Autopilot Autopilot `json:"autopilot,omitempty" hcl:"autopilot" mapstructure:"autopilot"` BindAddr *string `json:"bind_addr,omitempty" hcl:"bind_addr" mapstructure:"bind_addr"` Bootstrap *bool `json:"bootstrap,omitempty" hcl:"bootstrap" mapstructure:"bootstrap"` BootstrapExpect *int `json:"bootstrap_expect,omitempty" hcl:"bootstrap_expect" mapstructure:"bootstrap_expect"` CAFile *string `json:"ca_file,omitempty" hcl:"ca_file" mapstructure:"ca_file"` CAPath *string `json:"ca_path,omitempty" hcl:"ca_path" mapstructure:"ca_path"` CertFile *string `json:"cert_file,omitempty" hcl:"cert_file" mapstructure:"cert_file"` Check *CheckDefinition `json:"check,omitempty" hcl:"check" mapstructure:"check"` // needs to be a pointer to avoid partial merges CheckOutputMaxSize *int `json:"check_output_max_size,omitempty" hcl:"check_output_max_size" mapstructure:"check_output_max_size"` CheckUpdateInterval *string `json:"check_update_interval,omitempty" hcl:"check_update_interval" mapstructure:"check_update_interval"` Checks []CheckDefinition `json:"checks,omitempty" hcl:"checks" mapstructure:"checks"` ClientAddr *string `json:"client_addr,omitempty" hcl:"client_addr" mapstructure:"client_addr"` ConfigEntries ConfigEntries `json:"config_entries,omitempty" hcl:"config_entries" mapstructure:"config_entries"` AutoEncrypt AutoEncrypt `json:"auto_encrypt,omitempty" hcl:"auto_encrypt" mapstructure:"auto_encrypt"` Connect Connect `json:"connect,omitempty" hcl:"connect" mapstructure:"connect"` DNS DNS `json:"dns_config,omitempty" hcl:"dns_config" mapstructure:"dns_config"` DNSDomain *string `json:"domain,omitempty" hcl:"domain" mapstructure:"domain"` DNSAltDomain *string `json:"alt_domain,omitempty" hcl:"alt_domain" mapstructure:"alt_domain"` DNSRecursors []string `json:"recursors,omitempty" hcl:"recursors" mapstructure:"recursors"` DataDir *string `json:"data_dir,omitempty" hcl:"data_dir" mapstructure:"data_dir"` Datacenter *string `json:"datacenter,omitempty" hcl:"datacenter" mapstructure:"datacenter"` DisableAnonymousSignature *bool `json:"disable_anonymous_signature,omitempty" hcl:"disable_anonymous_signature" mapstructure:"disable_anonymous_signature"` DisableCoordinates *bool `json:"disable_coordinates,omitempty" hcl:"disable_coordinates" mapstructure:"disable_coordinates"` DisableHostNodeID *bool `json:"disable_host_node_id,omitempty" hcl:"disable_host_node_id" mapstructure:"disable_host_node_id"` DisableHTTPUnprintableCharFilter *bool `json:"disable_http_unprintable_char_filter,omitempty" hcl:"disable_http_unprintable_char_filter" mapstructure:"disable_http_unprintable_char_filter"` DisableKeyringFile *bool `json:"disable_keyring_file,omitempty" hcl:"disable_keyring_file" mapstructure:"disable_keyring_file"` DisableRemoteExec *bool `json:"disable_remote_exec,omitempty" hcl:"disable_remote_exec" mapstructure:"disable_remote_exec"` DisableUpdateCheck *bool `json:"disable_update_check,omitempty" hcl:"disable_update_check" mapstructure:"disable_update_check"` DiscardCheckOutput *bool `json:"discard_check_output" hcl:"discard_check_output" mapstructure:"discard_check_output"` DiscoveryMaxStale *string `json:"discovery_max_stale" hcl:"discovery_max_stale" mapstructure:"discovery_max_stale"` EnableACLReplication *bool `json:"enable_acl_replication,omitempty" hcl:"enable_acl_replication" mapstructure:"enable_acl_replication"` EnableAgentTLSForChecks *bool `json:"enable_agent_tls_for_checks,omitempty" hcl:"enable_agent_tls_for_checks" mapstructure:"enable_agent_tls_for_checks"` EnableCentralServiceConfig *bool `json:"enable_central_service_config,omitempty" hcl:"enable_central_service_config" mapstructure:"enable_central_service_config"` EnableDebug *bool `json:"enable_debug,omitempty" hcl:"enable_debug" mapstructure:"enable_debug"` EnableScriptChecks *bool `json:"enable_script_checks,omitempty" hcl:"enable_script_checks" mapstructure:"enable_script_checks"` EnableLocalScriptChecks *bool `json:"enable_local_script_checks,omitempty" hcl:"enable_local_script_checks" mapstructure:"enable_local_script_checks"` EnableSyslog *bool `json:"enable_syslog,omitempty" hcl:"enable_syslog" mapstructure:"enable_syslog"` EncryptKey *string `json:"encrypt,omitempty" hcl:"encrypt" mapstructure:"encrypt"` EncryptVerifyIncoming *bool `json:"encrypt_verify_incoming,omitempty" hcl:"encrypt_verify_incoming" mapstructure:"encrypt_verify_incoming"` EncryptVerifyOutgoing *bool `json:"encrypt_verify_outgoing,omitempty" hcl:"encrypt_verify_outgoing" mapstructure:"encrypt_verify_outgoing"` GossipLAN GossipLANConfig `json:"gossip_lan,omitempty" hcl:"gossip_lan" mapstructure:"gossip_lan"` GossipWAN GossipWANConfig `json:"gossip_wan,omitempty" hcl:"gossip_wan" mapstructure:"gossip_wan"` HTTPConfig HTTPConfig `json:"http_config,omitempty" hcl:"http_config" mapstructure:"http_config"` KeyFile *string `json:"key_file,omitempty" hcl:"key_file" mapstructure:"key_file"` LeaveOnTerm *bool `json:"leave_on_terminate,omitempty" hcl:"leave_on_terminate" mapstructure:"leave_on_terminate"` Limits Limits `json:"limits,omitempty" hcl:"limits" mapstructure:"limits"` LogLevel *string `json:"log_level,omitempty" hcl:"log_level" mapstructure:"log_level"` LogFile *string `json:"log_file,omitempty" hcl:"log_file" mapstructure:"log_file"` LogRotateDuration *string `json:"log_rotate_duration,omitempty" hcl:"log_rotate_duration" mapstructure:"log_rotate_duration"` LogRotateBytes *int `json:"log_rotate_bytes,omitempty" hcl:"log_rotate_bytes" mapstructure:"log_rotate_bytes"` LogRotateMaxFiles *int `json:"log_rotate_max_files,omitempty" hcl:"log_rotate_max_files" mapstructure:"log_rotate_max_files"` NodeID *string `json:"node_id,omitempty" hcl:"node_id" mapstructure:"node_id"` NodeMeta map[string]string `json:"node_meta,omitempty" hcl:"node_meta" mapstructure:"node_meta"` NodeName *string `json:"node_name,omitempty" hcl:"node_name" mapstructure:"node_name"` NonVotingServer *bool `json:"non_voting_server,omitempty" hcl:"non_voting_server" mapstructure:"non_voting_server"` Performance Performance `json:"performance,omitempty" hcl:"performance" mapstructure:"performance"` PidFile *string `json:"pid_file,omitempty" hcl:"pid_file" mapstructure:"pid_file"` Ports Ports `json:"ports,omitempty" hcl:"ports" mapstructure:"ports"` PrimaryDatacenter *string `json:"primary_datacenter,omitempty" hcl:"primary_datacenter" mapstructure:"primary_datacenter"` RPCProtocol *int `json:"protocol,omitempty" hcl:"protocol" mapstructure:"protocol"` RaftProtocol *int `json:"raft_protocol,omitempty" hcl:"raft_protocol" mapstructure:"raft_protocol"` RaftSnapshotThreshold *int `json:"raft_snapshot_threshold,omitempty" hcl:"raft_snapshot_threshold" mapstructure:"raft_snapshot_threshold"` RaftSnapshotInterval *string `json:"raft_snapshot_interval,omitempty" hcl:"raft_snapshot_interval" mapstructure:"raft_snapshot_interval"` RaftTrailingLogs *int `json:"raft_trailing_logs,omitempty" hcl:"raft_trailing_logs" mapstructure:"raft_trailing_logs"` ReconnectTimeoutLAN *string `json:"reconnect_timeout,omitempty" hcl:"reconnect_timeout" mapstructure:"reconnect_timeout"` ReconnectTimeoutWAN *string `json:"reconnect_timeout_wan,omitempty" hcl:"reconnect_timeout_wan" mapstructure:"reconnect_timeout_wan"` RejoinAfterLeave *bool `json:"rejoin_after_leave,omitempty" hcl:"rejoin_after_leave" mapstructure:"rejoin_after_leave"` RetryJoinIntervalLAN *string `json:"retry_interval,omitempty" hcl:"retry_interval" mapstructure:"retry_interval"` RetryJoinIntervalWAN *string `json:"retry_interval_wan,omitempty" hcl:"retry_interval_wan" mapstructure:"retry_interval_wan"` RetryJoinLAN []string `json:"retry_join,omitempty" hcl:"retry_join" mapstructure:"retry_join"` RetryJoinMaxAttemptsLAN *int `json:"retry_max,omitempty" hcl:"retry_max" mapstructure:"retry_max"` RetryJoinMaxAttemptsWAN *int `json:"retry_max_wan,omitempty" hcl:"retry_max_wan" mapstructure:"retry_max_wan"` RetryJoinWAN []string `json:"retry_join_wan,omitempty" hcl:"retry_join_wan" mapstructure:"retry_join_wan"` SegmentName *string `json:"segment,omitempty" hcl:"segment" mapstructure:"segment"` Segments []Segment `json:"segments,omitempty" hcl:"segments" mapstructure:"segments"` SerfBindAddrLAN *string `json:"serf_lan,omitempty" hcl:"serf_lan" mapstructure:"serf_lan"` SerfBindAddrWAN *string `json:"serf_wan,omitempty" hcl:"serf_wan" mapstructure:"serf_wan"` ServerMode *bool `json:"server,omitempty" hcl:"server" mapstructure:"server"` ServerName *string `json:"server_name,omitempty" hcl:"server_name" mapstructure:"server_name"` Service *ServiceDefinition `json:"service,omitempty" hcl:"service" mapstructure:"service"` Services []ServiceDefinition `json:"services,omitempty" hcl:"services" mapstructure:"services"` SessionTTLMin *string `json:"session_ttl_min,omitempty" hcl:"session_ttl_min" mapstructure:"session_ttl_min"` SkipLeaveOnInt *bool `json:"skip_leave_on_interrupt,omitempty" hcl:"skip_leave_on_interrupt" mapstructure:"skip_leave_on_interrupt"` StartJoinAddrsLAN []string `json:"start_join,omitempty" hcl:"start_join" mapstructure:"start_join"` StartJoinAddrsWAN []string `json:"start_join_wan,omitempty" hcl:"start_join_wan" mapstructure:"start_join_wan"` SyslogFacility *string `json:"syslog_facility,omitempty" hcl:"syslog_facility" mapstructure:"syslog_facility"` TLSCipherSuites *string `json:"tls_cipher_suites,omitempty" hcl:"tls_cipher_suites" mapstructure:"tls_cipher_suites"` TLSMinVersion *string `json:"tls_min_version,omitempty" hcl:"tls_min_version" mapstructure:"tls_min_version"` TLSPreferServerCipherSuites *bool `json:"tls_prefer_server_cipher_suites,omitempty" hcl:"tls_prefer_server_cipher_suites" mapstructure:"tls_prefer_server_cipher_suites"` TaggedAddresses map[string]string `json:"tagged_addresses,omitempty" hcl:"tagged_addresses" mapstructure:"tagged_addresses"` Telemetry Telemetry `json:"telemetry,omitempty" hcl:"telemetry" mapstructure:"telemetry"` TranslateWANAddrs *bool `json:"translate_wan_addrs,omitempty" hcl:"translate_wan_addrs" mapstructure:"translate_wan_addrs"` UI *bool `json:"ui,omitempty" hcl:"ui" mapstructure:"ui"` UIContentPath *string `json:"ui_content_path,omitempty" hcl:"ui_content_path" mapstructure:"ui_content_path"` UIDir *string `json:"ui_dir,omitempty" hcl:"ui_dir" mapstructure:"ui_dir"` UnixSocket UnixSocket `json:"unix_sockets,omitempty" hcl:"unix_sockets" mapstructure:"unix_sockets"` VerifyIncoming *bool `json:"verify_incoming,omitempty" hcl:"verify_incoming" mapstructure:"verify_incoming"` VerifyIncomingHTTPS *bool `json:"verify_incoming_https,omitempty" hcl:"verify_incoming_https" mapstructure:"verify_incoming_https"` VerifyIncomingRPC *bool `json:"verify_incoming_rpc,omitempty" hcl:"verify_incoming_rpc" mapstructure:"verify_incoming_rpc"` VerifyOutgoing *bool `json:"verify_outgoing,omitempty" hcl:"verify_outgoing" mapstructure:"verify_outgoing"` VerifyServerHostname *bool `json:"verify_server_hostname,omitempty" hcl:"verify_server_hostname" mapstructure:"verify_server_hostname"` Watches []map[string]interface{} `json:"watches,omitempty" hcl:"watches" mapstructure:"watches"` // This isn't used by Consul but we've documented a feature where users // can deploy their snapshot agent configs alongside their Consul configs // so we have a placeholder here so it can be parsed but this doesn't // manifest itself in any way inside the runtime config. SnapshotAgent map[string]interface{} `json:"snapshot_agent,omitempty" hcl:"snapshot_agent" mapstructure:"snapshot_agent"` // non-user configurable values // DEPRECATED (ACL-Legacy-Compat) - moved into the "acl" stanza ACLDisabledTTL *string `json:"acl_disabled_ttl,omitempty" hcl:"acl_disabled_ttl" mapstructure:"acl_disabled_ttl"` AEInterval *string `json:"ae_interval,omitempty" hcl:"ae_interval" mapstructure:"ae_interval"` CheckDeregisterIntervalMin *string `json:"check_deregister_interval_min,omitempty" hcl:"check_deregister_interval_min" mapstructure:"check_deregister_interval_min"` CheckReapInterval *string `json:"check_reap_interval,omitempty" hcl:"check_reap_interval" mapstructure:"check_reap_interval"` Consul Consul `json:"consul,omitempty" hcl:"consul" mapstructure:"consul"` Revision *string `json:"revision,omitempty" hcl:"revision" mapstructure:"revision"` SegmentLimit *int `json:"segment_limit,omitempty" hcl:"segment_limit" mapstructure:"segment_limit"` SegmentNameLimit *int `json:"segment_name_limit,omitempty" hcl:"segment_name_limit" mapstructure:"segment_name_limit"` SyncCoordinateIntervalMin *string `json:"sync_coordinate_interval_min,omitempty" hcl:"sync_coordinate_interval_min" mapstructure:"sync_coordinate_interval_min"` SyncCoordinateRateTarget *float64 `json:"sync_coordinate_rate_target,omitempty" hcl:"sync_coordinate_rate_target" mapstructure:"sync_coordinate_rate_target"` Version *string `json:"version,omitempty" hcl:"version" mapstructure:"version"` VersionPrerelease *string `json:"version_prerelease,omitempty" hcl:"version_prerelease" mapstructure:"version_prerelease"` } type GossipLANConfig struct { GossipNodes *int `json:"gossip_nodes,omitempty" hcl:"gossip_nodes" mapstructure:"gossip_nodes"` GossipInterval *string `json:"gossip_interval,omitempty" hcl:"gossip_interval" mapstructure:"gossip_interval"` ProbeInterval *string `json:"probe_interval,omitempty" hcl:"probe_interval" mapstructure:"probe_interval"` ProbeTimeout *string `json:"probe_timeout,omitempty" hcl:"probe_timeout" mapstructure:"probe_timeout"` SuspicionMult *int `json:"suspicion_mult,omitempty" hcl:"suspicion_mult" mapstructure:"suspicion_mult"` RetransmitMult *int `json:"retransmit_mult,omitempty" hcl:"retransmit_mult" mapstructure:"retransmit_mult"` } type GossipWANConfig struct { GossipNodes *int `json:"gossip_nodes,omitempty" hcl:"gossip_nodes" mapstructure:"gossip_nodes"` GossipInterval *string `json:"gossip_interval,omitempty" hcl:"gossip_interval" mapstructure:"gossip_interval"` ProbeInterval *string `json:"probe_interval,omitempty" hcl:"probe_interval" mapstructure:"probe_interval"` ProbeTimeout *string `json:"probe_timeout,omitempty" hcl:"probe_timeout" mapstructure:"probe_timeout"` SuspicionMult *int `json:"suspicion_mult,omitempty" hcl:"suspicion_mult" mapstructure:"suspicion_mult"` RetransmitMult *int `json:"retransmit_mult,omitempty" hcl:"retransmit_mult" mapstructure:"retransmit_mult"` } type Consul struct { Coordinate struct { UpdateBatchSize *int `json:"update_batch_size,omitempty" hcl:"update_batch_size" mapstructure:"update_batch_size"` UpdateMaxBatches *int `json:"update_max_batches,omitempty" hcl:"update_max_batches" mapstructure:"update_max_batches"` UpdatePeriod *string `json:"update_period,omitempty" hcl:"update_period" mapstructure:"update_period"` } `json:"coordinate,omitempty" hcl:"coordinate" mapstructure:"coordinate"` Raft struct { ElectionTimeout *string `json:"election_timeout,omitempty" hcl:"election_timeout" mapstructure:"election_timeout"` HeartbeatTimeout *string `json:"heartbeat_timeout,omitempty" hcl:"heartbeat_timeout" mapstructure:"heartbeat_timeout"` LeaderLeaseTimeout *string `json:"leader_lease_timeout,omitempty" hcl:"leader_lease_timeout" mapstructure:"leader_lease_timeout"` } `json:"raft,omitempty" hcl:"raft" mapstructure:"raft"` Server struct { HealthInterval *string `json:"health_interval,omitempty" hcl:"health_interval" mapstructure:"health_interval"` } `json:"server,omitempty" hcl:"server" mapstructure:"server"` } type Addresses struct { DNS *string `json:"dns,omitempty" hcl:"dns" mapstructure:"dns"` HTTP *string `json:"http,omitempty" hcl:"http" mapstructure:"http"` HTTPS *string `json:"https,omitempty" hcl:"https" mapstructure:"https"` GRPC *string `json:"grpc,omitempty" hcl:"grpc" mapstructure:"grpc"` } type AdvertiseAddrsConfig struct { RPC *string `json:"rpc,omitempty" hcl:"rpc" mapstructure:"rpc"` SerfLAN *string `json:"serf_lan,omitempty" hcl:"serf_lan" mapstructure:"serf_lan"` SerfWAN *string `json:"serf_wan,omitempty" hcl:"serf_wan" mapstructure:"serf_wan"` } type Autopilot struct { CleanupDeadServers *bool `json:"cleanup_dead_servers,omitempty" hcl:"cleanup_dead_servers" mapstructure:"cleanup_dead_servers"` DisableUpgradeMigration *bool `json:"disable_upgrade_migration,omitempty" hcl:"disable_upgrade_migration" mapstructure:"disable_upgrade_migration"` LastContactThreshold *string `json:"last_contact_threshold,omitempty" hcl:"last_contact_threshold" mapstructure:"last_contact_threshold"` MaxTrailingLogs *int `json:"max_trailing_logs,omitempty" hcl:"max_trailing_logs" mapstructure:"max_trailing_logs"` RedundancyZoneTag *string `json:"redundancy_zone_tag,omitempty" hcl:"redundancy_zone_tag" mapstructure:"redundancy_zone_tag"` ServerStabilizationTime *string `json:"server_stabilization_time,omitempty" hcl:"server_stabilization_time" mapstructure:"server_stabilization_time"` UpgradeVersionTag *string `json:"upgrade_version_tag,omitempty" hcl:"upgrade_version_tag" mapstructure:"upgrade_version_tag"` } // ServiceWeights defines the registration of weights used in DNS for a Service type ServiceWeights struct { Passing *int `json:"passing,omitempty" hcl:"passing" mapstructure:"passing"` Warning *int `json:"warning,omitempty" hcl:"warning" mapstructure:"warning"` } type ServiceAddress struct { Address *string `json:"address,omitempty" hcl:"address" mapstructure:"address"` Port *int `json:"port,omitempty" hcl:"port" mapstructure:"port"` } type ServiceDefinition struct { Kind *string `json:"kind,omitempty" hcl:"kind" mapstructure:"kind"` ID *string `json:"id,omitempty" hcl:"id" mapstructure:"id"` Name *string `json:"name,omitempty" hcl:"name" mapstructure:"name"` Tags []string `json:"tags,omitempty" hcl:"tags" mapstructure:"tags"` Address *string `json:"address,omitempty" hcl:"address" mapstructure:"address"` TaggedAddresses map[string]ServiceAddress `json:"tagged_addresses,omitempty" hcl:"tagged_addresses" mapstructure:"tagged_addresses"` Meta map[string]string `json:"meta,omitempty" hcl:"meta" mapstructure:"meta"` Port *int `json:"port,omitempty" hcl:"port" mapstructure:"port"` Check *CheckDefinition `json:"check,omitempty" hcl:"check" mapstructure:"check"` Checks []CheckDefinition `json:"checks,omitempty" hcl:"checks" mapstructure:"checks"` Token *string `json:"token,omitempty" hcl:"token" mapstructure:"token"` Weights *ServiceWeights `json:"weights,omitempty" hcl:"weights" mapstructure:"weights"` EnableTagOverride *bool `json:"enable_tag_override,omitempty" hcl:"enable_tag_override" mapstructure:"enable_tag_override"` // DEPRECATED (ProxyDestination) - remove this when removing ProxyDestination ProxyDestination *string `json:"proxy_destination,omitempty" hcl:"proxy_destination" mapstructure:"proxy_destination"` Proxy *ServiceProxy `json:"proxy,omitempty" hcl:"proxy" mapstructure:"proxy"` Connect *ServiceConnect `json:"connect,omitempty" hcl:"connect" mapstructure:"connect"` } type CheckDefinition struct { ID *string `json:"id,omitempty" hcl:"id" mapstructure:"id"` Name *string `json:"name,omitempty" hcl:"name" mapstructure:"name"` Notes *string `json:"notes,omitempty" hcl:"notes" mapstructure:"notes"` ServiceID *string `json:"service_id,omitempty" hcl:"service_id" mapstructure:"service_id"` Token *string `json:"token,omitempty" hcl:"token" mapstructure:"token"` Status *string `json:"status,omitempty" hcl:"status" mapstructure:"status"` ScriptArgs []string `json:"args,omitempty" hcl:"args" mapstructure:"args"` HTTP *string `json:"http,omitempty" hcl:"http" mapstructure:"http"` Header map[string][]string `json:"header,omitempty" hcl:"header" mapstructure:"header"` Method *string `json:"method,omitempty" hcl:"method" mapstructure:"method"` OutputMaxSize *int `json:"output_max_size,omitempty" hcl:"output_max_size" mapstructure:"output_max_size"` TCP *string `json:"tcp,omitempty" hcl:"tcp" mapstructure:"tcp"` Interval *string `json:"interval,omitempty" hcl:"interval" mapstructure:"interval"` DockerContainerID *string `json:"docker_container_id,omitempty" hcl:"docker_container_id" mapstructure:"docker_container_id"` Shell *string `json:"shell,omitempty" hcl:"shell" mapstructure:"shell"` GRPC *string `json:"grpc,omitempty" hcl:"grpc" mapstructure:"grpc"` GRPCUseTLS *bool `json:"grpc_use_tls,omitempty" hcl:"grpc_use_tls" mapstructure:"grpc_use_tls"` TLSSkipVerify *bool `json:"tls_skip_verify,omitempty" hcl:"tls_skip_verify" mapstructure:"tls_skip_verify"` AliasNode *string `json:"alias_node,omitempty" hcl:"alias_node" mapstructure:"alias_node"` AliasService *string `json:"alias_service,omitempty" hcl:"alias_service" mapstructure:"alias_service"` Timeout *string `json:"timeout,omitempty" hcl:"timeout" mapstructure:"timeout"` TTL *string `json:"ttl,omitempty" hcl:"ttl" mapstructure:"ttl"` DeregisterCriticalServiceAfter *string `json:"deregister_critical_service_after,omitempty" hcl:"deregister_critical_service_after" mapstructure:"deregister_critical_service_after"` } // ServiceConnect is the connect block within a service registration type ServiceConnect struct { // Native is true when this service can natively understand Connect. Native *bool `json:"native,omitempty" hcl:"native" mapstructure:"native"` // Proxy configures a connect proxy instance for the service Proxy *ServiceConnectProxy `json:"proxy,omitempty" hcl:"proxy" mapstructure:"proxy"` // SidecarService is a nested Service Definition to register at the same time. // It's purely a convenience mechanism to allow specifying a sidecar service // along with the application service definition. It's nested nature allows // all of the fields to be defaulted which can reduce the amount of // boilerplate needed to register a sidecar service separately, but the end // result is identical to just making a second service registration via any // other means. SidecarService *ServiceDefinition `json:"sidecar_service,omitempty" hcl:"sidecar_service" mapstructure:"sidecar_service"` } type ServiceConnectProxy struct { Command []string `json:"command,omitempty" hcl:"command" mapstructure:"command"` ExecMode *string `json:"exec_mode,omitempty" hcl:"exec_mode" mapstructure:"exec_mode"` Config map[string]interface{} `json:"config,omitempty" hcl:"config" mapstructure:"config"` Upstreams []Upstream `json:"upstreams,omitempty" hcl:"upstreams" mapstructure:"upstreams"` } // ServiceProxy is the additional config needed for a Kind = connect-proxy // registration. type ServiceProxy struct { // DestinationServiceName is required and is the name of the service to accept // traffic for. DestinationServiceName *string `json:"destination_service_name,omitempty" hcl:"destination_service_name" mapstructure:"destination_service_name"` // DestinationServiceID is optional and should only be specified for // "side-car" style proxies where the proxy is in front of just a single // instance of the service. It should be set to the service ID of the instance // being represented which must be registered to the same agent. It's valid to // provide a service ID that does not yet exist to avoid timing issues when // bootstrapping a service with a proxy. DestinationServiceID *string `json:"destination_service_id,omitempty" hcl:"destination_service_id" mapstructure:"destination_service_id"` // LocalServiceAddress is the address of the local service instance. It is // optional and should only be specified for "side-car" style proxies. It will // default to 127.0.0.1 if the proxy is a "side-car" (DestinationServiceID is // set) but otherwise will be ignored. LocalServiceAddress *string `json:"local_service_address,omitempty" hcl:"local_service_address" mapstructure:"local_service_address"` // LocalServicePort is the port of the local service instance. It is optional // and should only be specified for "side-car" style proxies. It will default // to the registered port for the instance if the proxy is a "side-car" // (DestinationServiceID is set) but otherwise will be ignored. LocalServicePort *int `json:"local_service_port,omitempty" hcl:"local_service_port" mapstructure:"local_service_port"` // Config is the arbitrary configuration data provided with the proxy // registration. Config map[string]interface{} `json:"config,omitempty" hcl:"config" mapstructure:"config"` // Upstreams describes any upstream dependencies the proxy instance should // setup. Upstreams []Upstream `json:"upstreams,omitempty" hcl:"upstreams" mapstructure:"upstreams"` // Mesh Gateway Configuration MeshGateway *MeshGatewayConfig `json:"mesh_gateway,omitempty" hcl:"mesh_gateway" mapstructure:"mesh_gateway"` } // Upstream represents a single upstream dependency for a service or proxy. It // describes the mechanism used to discover instances to communicate with (the // Target) as well as any potential client configuration that may be useful such // as load balancer options, timeouts etc. type Upstream struct { // Destination fields are the required ones for determining what this upstream // points to. Depending on DestinationType some other fields below might // further restrict the set of instances allowable. // // DestinationType would be better as an int constant but even with custom // JSON marshallers it causes havoc with all the mapstructure mangling we do // on service definitions in various places. DestinationType *string `json:"destination_type,omitempty" hcl:"destination_type" mapstructure:"destination_type"` DestinationNamespace *string `json:"destination_namespace,omitempty" hcl:"destination_namespace" mapstructure:"destination_namespace"` DestinationName *string `json:"destination_name,omitempty" hcl:"destination_name" mapstructure:"destination_name"` // Datacenter that the service discovery request should be run against. Note // for prepared queries, the actual results might be from a different // datacenter. Datacenter *string `json:"datacenter,omitempty" hcl:"datacenter" mapstructure:"datacenter"` // LocalBindAddress is the ip address a side-car proxy should listen on for // traffic destined for this upstream service. Default if empty is 127.0.0.1. LocalBindAddress *string `json:"local_bind_address,omitempty" hcl:"local_bind_address" mapstructure:"local_bind_address"` // LocalBindPort is the ip address a side-car proxy should listen on for traffic // destined for this upstream service. Required. LocalBindPort *int `json:"local_bind_port,omitempty" hcl:"local_bind_port" mapstructure:"local_bind_port"` // Config is an opaque config that is specific to the proxy process being run. // It can be used to pass arbitrary configuration for this specific upstream // to the proxy. Config map[string]interface{} `json:"config,omitempty" hcl:"config" mapstructure:"config"` // Mesh Gateway Configuration MeshGateway *MeshGatewayConfig `json:"mesh_gateway,omitempty" hcl:"mesh_gateway" mapstructure:"mesh_gateway"` } type MeshGatewayConfig struct { // Mesh Gateway Mode Mode *string `json:"mode,omitempty" hcl:"mode" mapstructure:"mode"` } // AutoEncrypt is the agent-global auto_encrypt configuration. type AutoEncrypt struct { // TLS enables receiving certificates for clients from servers TLS *bool `json:"tls,omitempty" hcl:"tls" mapstructure:"tls"` // AllowTLS enables the RPC endpoint on the server to answer // AutoEncrypt.Sign requests. AllowTLS *bool `json:"allow_tls,omitempty" hcl:"allow_tls" mapstructure:"allow_tls"` } // Connect is the agent-global connect configuration. type Connect struct { // Enabled opts the agent into connect. It should be set on all clients and // servers in a cluster for correct connect operation. Enabled *bool `json:"enabled,omitempty" hcl:"enabled" mapstructure:"enabled"` Proxy ConnectProxy `json:"proxy,omitempty" hcl:"proxy" mapstructure:"proxy"` ProxyDefaults ConnectProxyDefaults `json:"proxy_defaults,omitempty" hcl:"proxy_defaults" mapstructure:"proxy_defaults"` CAProvider *string `json:"ca_provider,omitempty" hcl:"ca_provider" mapstructure:"ca_provider"` CAConfig map[string]interface{} `json:"ca_config,omitempty" hcl:"ca_config" mapstructure:"ca_config"` } // ConnectProxy is the agent-global connect proxy configuration. type ConnectProxy struct { // Consul will not execute managed proxies if its EUID is 0 (root). // If this is true, then Consul will execute proxies if Consul is // running as root. This is not recommended. AllowManagedRoot *bool `json:"allow_managed_root" hcl:"allow_managed_root" mapstructure:"allow_managed_root"` // AllowManagedAPIRegistration enables managed proxy registration // via the agent HTTP API. If this is false, only file configurations // can be used. AllowManagedAPIRegistration *bool `json:"allow_managed_api_registration" hcl:"allow_managed_api_registration" mapstructure:"allow_managed_api_registration"` } // ConnectProxyDefaults is the agent-global defaults for managed Connect proxies. type ConnectProxyDefaults struct { // ExecMode is used where a registration doesn't include an exec_mode. // Defaults to daemon. ExecMode *string `json:"exec_mode,omitempty" hcl:"exec_mode" mapstructure:"exec_mode"` // DaemonCommand is used to start proxy in exec_mode = daemon if not specified // at registration time. DaemonCommand []string `json:"daemon_command,omitempty" hcl:"daemon_command" mapstructure:"daemon_command"` // ScriptCommand is used to start proxy in exec_mode = script if not specified // at registration time. ScriptCommand []string `json:"script_command,omitempty" hcl:"script_command" mapstructure:"script_command"` // Config is merged into an Config specified at registration time. Config map[string]interface{} `json:"config,omitempty" hcl:"config" mapstructure:"config"` } // SOA is the configuration of SOA for DNS type SOA struct { Refresh *uint32 `json:"refresh,omitempty" hcl:"refresh" mapstructure:"refresh"` Retry *uint32 `json:"retry,omitempty" hcl:"retry" mapstructure:"retry"` Expire *uint32 `json:"expire,omitempty" hcl:"expire" mapstructure:"expire"` Minttl *uint32 `json:"min_ttl,omitempty" hcl:"min_ttl" mapstructure:"min_ttl"` } type DNS struct { AllowStale *bool `json:"allow_stale,omitempty" hcl:"allow_stale" mapstructure:"allow_stale"` ARecordLimit *int `json:"a_record_limit,omitempty" hcl:"a_record_limit" mapstructure:"a_record_limit"` DisableCompression *bool `json:"disable_compression,omitempty" hcl:"disable_compression" mapstructure:"disable_compression"` EnableTruncate *bool `json:"enable_truncate,omitempty" hcl:"enable_truncate" mapstructure:"enable_truncate"` MaxStale *string `json:"max_stale,omitempty" hcl:"max_stale" mapstructure:"max_stale"` NodeTTL *string `json:"node_ttl,omitempty" hcl:"node_ttl" mapstructure:"node_ttl"` OnlyPassing *bool `json:"only_passing,omitempty" hcl:"only_passing" mapstructure:"only_passing"` RecursorTimeout *string `json:"recursor_timeout,omitempty" hcl:"recursor_timeout" mapstructure:"recursor_timeout"` ServiceTTL map[string]string `json:"service_ttl,omitempty" hcl:"service_ttl" mapstructure:"service_ttl"` UDPAnswerLimit *int `json:"udp_answer_limit,omitempty" hcl:"udp_answer_limit" mapstructure:"udp_answer_limit"` NodeMetaTXT *bool `json:"enable_additional_node_meta_txt,omitempty" hcl:"enable_additional_node_meta_txt" mapstructure:"enable_additional_node_meta_txt"` SOA *SOA `json:"soa,omitempty" hcl:"soa" mapstructure:"soa"` UseCache *bool `json:"use_cache,omitempty" hcl:"use_cache" mapstructure:"use_cache"` CacheMaxAge *string `json:"cache_max_age,omitempty" hcl:"cache_max_age" mapstructure:"cache_max_age"` } type HTTPConfig struct { BlockEndpoints []string `json:"block_endpoints,omitempty" hcl:"block_endpoints" mapstructure:"block_endpoints"` AllowWriteHTTPFrom []string `json:"allow_write_http_from,omitempty" hcl:"allow_write_http_from" mapstructure:"allow_write_http_from"` ResponseHeaders map[string]string `json:"response_headers,omitempty" hcl:"response_headers" mapstructure:"response_headers"` } type Performance struct { LeaveDrainTime *string `json:"leave_drain_time,omitempty" hcl:"leave_drain_time" mapstructure:"leave_drain_time"` RaftMultiplier *int `json:"raft_multiplier,omitempty" hcl:"raft_multiplier" mapstructure:"raft_multiplier"` // todo(fs): validate as uint RPCHoldTimeout *string `json:"rpc_hold_timeout" hcl:"rpc_hold_timeout" mapstructure:"rpc_hold_timeout"` } type Telemetry struct { CirconusAPIApp *string `json:"circonus_api_app,omitempty" hcl:"circonus_api_app" mapstructure:"circonus_api_app"` CirconusAPIToken *string `json:"circonus_api_token,omitempty" json:"-" hcl:"circonus_api_token" mapstructure:"circonus_api_token" json:"-"` CirconusAPIURL *string `json:"circonus_api_url,omitempty" hcl:"circonus_api_url" mapstructure:"circonus_api_url"` CirconusBrokerID *string `json:"circonus_broker_id,omitempty" hcl:"circonus_broker_id" mapstructure:"circonus_broker_id"` CirconusBrokerSelectTag *string `json:"circonus_broker_select_tag,omitempty" hcl:"circonus_broker_select_tag" mapstructure:"circonus_broker_select_tag"` CirconusCheckDisplayName *string `json:"circonus_check_display_name,omitempty" hcl:"circonus_check_display_name" mapstructure:"circonus_check_display_name"` CirconusCheckForceMetricActivation *string `json:"circonus_check_force_metric_activation,omitempty" hcl:"circonus_check_force_metric_activation" mapstructure:"circonus_check_force_metric_activation"` CirconusCheckID *string `json:"circonus_check_id,omitempty" hcl:"circonus_check_id" mapstructure:"circonus_check_id"` CirconusCheckInstanceID *string `json:"circonus_check_instance_id,omitempty" hcl:"circonus_check_instance_id" mapstructure:"circonus_check_instance_id"` CirconusCheckSearchTag *string `json:"circonus_check_search_tag,omitempty" hcl:"circonus_check_search_tag" mapstructure:"circonus_check_search_tag"` CirconusCheckTags *string `json:"circonus_check_tags,omitempty" hcl:"circonus_check_tags" mapstructure:"circonus_check_tags"` CirconusSubmissionInterval *string `json:"circonus_submission_interval,omitempty" hcl:"circonus_submission_interval" mapstructure:"circonus_submission_interval"` CirconusSubmissionURL *string `json:"circonus_submission_url,omitempty" hcl:"circonus_submission_url" mapstructure:"circonus_submission_url"` DisableHostname *bool `json:"disable_hostname,omitempty" hcl:"disable_hostname" mapstructure:"disable_hostname"` DogstatsdAddr *string `json:"dogstatsd_addr,omitempty" hcl:"dogstatsd_addr" mapstructure:"dogstatsd_addr"` DogstatsdTags []string `json:"dogstatsd_tags,omitempty" hcl:"dogstatsd_tags" mapstructure:"dogstatsd_tags"` FilterDefault *bool `json:"filter_default,omitempty" hcl:"filter_default" mapstructure:"filter_default"` PrefixFilter []string `json:"prefix_filter,omitempty" hcl:"prefix_filter" mapstructure:"prefix_filter"` MetricsPrefix *string `json:"metrics_prefix,omitempty" hcl:"metrics_prefix" mapstructure:"metrics_prefix"` PrometheusRetentionTime *string `json:"prometheus_retention_time,omitempty" hcl:"prometheus_retention_time" mapstructure:"prometheus_retention_time"` StatsdAddr *string `json:"statsd_address,omitempty" hcl:"statsd_address" mapstructure:"statsd_address"` StatsiteAddr *string `json:"statsite_address,omitempty" hcl:"statsite_address" mapstructure:"statsite_address"` } type Ports struct { DNS *int `json:"dns,omitempty" hcl:"dns" mapstructure:"dns"` HTTP *int `json:"http,omitempty" hcl:"http" mapstructure:"http"` HTTPS *int `json:"https,omitempty" hcl:"https" mapstructure:"https"` SerfLAN *int `json:"serf_lan,omitempty" hcl:"serf_lan" mapstructure:"serf_lan"` SerfWAN *int `json:"serf_wan,omitempty" hcl:"serf_wan" mapstructure:"serf_wan"` Server *int `json:"server,omitempty" hcl:"server" mapstructure:"server"` GRPC *int `json:"grpc,omitempty" hcl:"grpc" mapstructure:"grpc"` ProxyMinPort *int `json:"proxy_min_port,omitempty" hcl:"proxy_min_port" mapstructure:"proxy_min_port"` ProxyMaxPort *int `json:"proxy_max_port,omitempty" hcl:"proxy_max_port" mapstructure:"proxy_max_port"` SidecarMinPort *int `json:"sidecar_min_port,omitempty" hcl:"sidecar_min_port" mapstructure:"sidecar_min_port"` SidecarMaxPort *int `json:"sidecar_max_port,omitempty" hcl:"sidecar_max_port" mapstructure:"sidecar_max_port"` } type UnixSocket struct { Group *string `json:"group,omitempty" hcl:"group" mapstructure:"group"` Mode *string `json:"mode,omitempty" hcl:"mode" mapstructure:"mode"` User *string `json:"user,omitempty" hcl:"user" mapstructure:"user"` } type Limits struct { RPCMaxBurst *int `json:"rpc_max_burst,omitempty" hcl:"rpc_max_burst" mapstructure:"rpc_max_burst"` RPCRate *float64 `json:"rpc_rate,omitempty" hcl:"rpc_rate" mapstructure:"rpc_rate"` KVMaxValueSize *uint64 `json:"kv_max_value_size,omitempty" hcl:"kv_max_value_size" mapstructure:"kv_max_value_size"` } type Segment struct { Advertise *string `json:"advertise,omitempty" hcl:"advertise" mapstructure:"advertise"` Bind *string `json:"bind,omitempty" hcl:"bind" mapstructure:"bind"` Name *string `json:"name,omitempty" hcl:"name" mapstructure:"name"` Port *int `json:"port,omitempty" hcl:"port" mapstructure:"port"` RPCListener *bool `json:"rpc_listener,omitempty" hcl:"rpc_listener" mapstructure:"rpc_listener"` } type ACL struct { Enabled *bool `json:"enabled,omitempty" hcl:"enabled" mapstructure:"enabled"` TokenReplication *bool `json:"enable_token_replication,omitempty" hcl:"enable_token_replication" mapstructure:"enable_token_replication"` PolicyTTL *string `json:"policy_ttl,omitempty" hcl:"policy_ttl" mapstructure:"policy_ttl"` RoleTTL *string `json:"role_ttl,omitempty" hcl:"role_ttl" mapstructure:"role_ttl"` TokenTTL *string `json:"token_ttl,omitempty" hcl:"token_ttl" mapstructure:"token_ttl"` DownPolicy *string `json:"down_policy,omitempty" hcl:"down_policy" mapstructure:"down_policy"` DefaultPolicy *string `json:"default_policy,omitempty" hcl:"default_policy" mapstructure:"default_policy"` EnableKeyListPolicy *bool `json:"enable_key_list_policy,omitempty" hcl:"enable_key_list_policy" mapstructure:"enable_key_list_policy"` Tokens Tokens `json:"tokens,omitempty" hcl:"tokens" mapstructure:"tokens"` DisabledTTL *string `json:"disabled_ttl,omitempty" hcl:"disabled_ttl" mapstructure:"disabled_ttl"` EnableTokenPersistence *bool `json:"enable_token_persistence" hcl:"enable_token_persistence" mapstructure:"enable_token_persistence"` } type Tokens struct { Master *string `json:"master,omitempty" hcl:"master" mapstructure:"master"` Replication *string `json:"replication,omitempty" hcl:"replication" mapstructure:"replication"` AgentMaster *string `json:"agent_master,omitempty" hcl:"agent_master" mapstructure:"agent_master"` Default *string `json:"default,omitempty" hcl:"default" mapstructure:"default"` Agent *string `json:"agent,omitempty" hcl:"agent" mapstructure:"agent"` } type ConfigEntries struct { // Bootstrap is the list of config_entries that should only be persisted to // cluster on initial startup of a new leader if no such config exists // already. The type is map not structs.ConfigEntry for decoding reasons - we // need to figure out the right concrete type before we can decode it // unabiguously. Bootstrap []map[string]interface{} `json:"bootstrap,omitempty" hcl:"bootstrap" mapstructure:"bootstrap"` }