package config import ( "crypto/tls" "fmt" "net" "reflect" "strings" "time" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/lib" "github.com/hashicorp/consul/tlsutil" "github.com/hashicorp/consul/types" "golang.org/x/time/rate" ) // RuntimeConfig specifies the configuration the consul agent actually // uses. Is is derived from one or more Config structures which can come // from files, flags and/or environment variables. type RuntimeConfig struct { // non-user configurable values AEInterval time.Duration // ACLDisabledTTL is used by clients to determine how long they will // wait to check again with the servers if they discover ACLs are not // enabled. (not user configurable) // // hcl: acl_disabled_ttl = "duration" ACLDisabledTTL time.Duration CheckDeregisterIntervalMin time.Duration CheckReapInterval time.Duration SegmentLimit int SegmentNameLimit int SyncCoordinateRateTarget float64 SyncCoordinateIntervalMin time.Duration Revision string Version string VersionPrerelease string // consul config ConsulCoordinateUpdateMaxBatches int ConsulCoordinateUpdateBatchSize int ConsulCoordinateUpdatePeriod time.Duration ConsulRaftElectionTimeout time.Duration ConsulRaftHeartbeatTimeout time.Duration ConsulRaftLeaderLeaseTimeout time.Duration ConsulSerfLANGossipInterval time.Duration ConsulSerfLANProbeInterval time.Duration ConsulSerfLANProbeTimeout time.Duration ConsulSerfLANSuspicionMult int ConsulSerfWANGossipInterval time.Duration ConsulSerfWANProbeInterval time.Duration ConsulSerfWANProbeTimeout time.Duration ConsulSerfWANSuspicionMult int ConsulServerHealthInterval time.Duration // ACLAgentMasterToken is a special token that has full read and write // privileges for this agent, and can be used to call agent endpoints // when no servers are available. // // hcl: acl_agent_master_token = string ACLAgentMasterToken string // ACLAgentToken is the default token used to make requests for the agent // itself, such as for registering itself with the catalog. If not // configured, the 'acl_token' will be used. // // hcl: acl_agent_token = string ACLAgentToken string // ACLDatacenter is the central datacenter that holds authoritative // ACL records. This must be the same for the entire cluster. // If this is not set, ACLs are not enabled. Off by default. // // hcl: acl_datacenter = string ACLDatacenter string // ACLDefaultPolicy is used to control the ACL interaction when // there is no defined policy. This can be "allow" which means // ACLs are used to black-list, or "deny" which means ACLs are // white-lists. // // hcl: acl_default_policy = ("allow"|"deny") ACLDefaultPolicy string // ACLDownPolicy is used to control the ACL interaction when we cannot // reach the ACLDatacenter and the token is not in the cache. // There are the following modes: // * allow - Allow all requests // * deny - Deny all requests // * extend-cache - Ignore the cache expiration, and allow cached // ACL's to be used to service requests. This // is the default. If the ACL is not in the cache, // this acts like deny. // // hcl: acl_down_policy = ("allow"|"deny"|"extend-cache") ACLDownPolicy string // ACLEnforceVersion8 is used to gate a set of ACL policy features that // are opt-in prior to Consul 0.8 and opt-out in Consul 0.8 and later. // // hcl: acl_enforce_version_8 = (true|false) ACLEnforceVersion8 bool // ACLEnableKeyListPolicy is used to opt-in to the "list" policy added to // KV ACLs in Consul 1.0. // // See https://www.consul.io/docs/guides/acl.html#list-policy-for-keys for // more details. // // hcl: acl_enable_key_list_policy = (true|false) ACLEnableKeyListPolicy bool // ACLMasterToken is used to bootstrap the ACL system. It should be specified // on the servers in the ACLDatacenter. When the leader comes online, it ensures // that the Master token is available. This provides the initial token. // // hcl: acl_master_token = string ACLMasterToken string // ACLReplicationToken is used to fetch ACLs from the ACLDatacenter in // order to replicate them locally. Setting this to a non-empty value // also enables replication. Replication is only available in datacenters // other than the ACLDatacenter. // // hcl: acl_replication_token = string ACLReplicationToken string // ACLTTL is used to control the time-to-live of cached ACLs . This has // a major impact on performance. By default, it is set to 30 seconds. // // hcl: acl_ttl = "duration" ACLTTL time.Duration // ACLToken is the default token used to make requests if a per-request // token is not provided. If not configured the 'anonymous' token is used. // // hcl: acl_token = string ACLToken string // AutopilotCleanupDeadServers enables the automatic cleanup of dead servers when new ones // are added to the peer list. Defaults to true. // // hcl: autopilot { cleanup_dead_servers = (true|false) } AutopilotCleanupDeadServers bool // AutopilotDisableUpgradeMigration will disable Autopilot's upgrade migration // strategy of waiting until enough newer-versioned servers have been added to the // cluster before promoting them to voters. (Enterprise-only) // // hcl: autopilot { disable_upgrade_migration = (true|false) AutopilotDisableUpgradeMigration bool // AutopilotLastContactThreshold is the limit on the amount of time a server can go // without leader contact before being considered unhealthy. // // hcl: autopilot { last_contact_threshold = "duration" } AutopilotLastContactThreshold time.Duration // AutopilotMaxTrailingLogs is the amount of entries in the Raft Log that a server can // be behind before being considered unhealthy. The value must be positive. // // hcl: autopilot { max_trailing_logs = int } AutopilotMaxTrailingLogs int // AutopilotRedundancyZoneTag is the Meta tag to use for separating servers // into zones for redundancy. If left blank, this feature will be disabled. // (Enterprise-only) // // hcl: autopilot { redundancy_zone_tag = string } AutopilotRedundancyZoneTag string // AutopilotServerStabilizationTime is the minimum amount of time a server must be // in a stable, healthy state before it can be added to the cluster. Only // applicable with Raft protocol version 3 or higher. // // hcl: autopilot { server_stabilization_time = "duration" } AutopilotServerStabilizationTime time.Duration // AutopilotUpgradeVersionTag is the node tag to use for version info when // performing upgrade migrations. If left blank, the Consul version will be used. // // (Enterprise-only) // // hcl: autopilot { upgrade_version_tag = string } AutopilotUpgradeVersionTag string // DNSAllowStale is used to enable lookups with stale // data. This gives horizontal read scalability since // any Consul server can service the query instead of // only the leader. // // hcl: dns_config { allow_stale = (true|false) } DNSAllowStale bool // DNSARecordLimit is used to limit the maximum number of DNS Resource // Records returned in the ANSWER section of a DNS response for A or AAAA // records for both UDP and TCP queries. // // This is not normally useful and will be limited based on the querying // protocol, however systems that implemented §6 Rule 9 in RFC3484 // may want to set this to `1` in order to subvert §6 Rule 9 and // re-obtain the effect of randomized resource records (i.e. each // answer contains only one IP, but the IP changes every request). // RFC3484 sorts answers in a deterministic order, which defeats the // purpose of randomized DNS responses. This RFC has been obsoleted // by RFC6724 and restores the desired behavior of randomized // responses, however a large number of Linux hosts using glibc(3) // implemented §6 Rule 9 and may need this option (e.g. CentOS 5-6, // Debian Squeeze, etc). // // hcl: dns_config { a_record_limit = int } DNSARecordLimit int // DNSDisableCompression is used to control whether DNS responses are // compressed. In Consul 0.7 this was turned on by default and this // config was added as an opt-out. // // hcl: dns_config { disable_compression = (true|false) } DNSDisableCompression bool // DNSDomain is the DNS domain for the records. Should end with a dot. // Defaults to "consul." // // hcl: domain = string // flag: -domain string DNSDomain string // DNSEnableTruncate is used to enable setting the truncate // flag for UDP DNS queries. This allows unmodified // clients to re-query the consul server using TCP // when the total number of records exceeds the number // returned by default for UDP. // // hcl: dns_config { enable_truncate = (true|false) } DNSEnableTruncate bool // DNSMaxStale is used to bound how stale of a result is // accepted for a DNS lookup. This can be used with // AllowStale to limit how old of a value is served up. // If the stale result exceeds this, another non-stale // stale read is performed. // // hcl: dns_config { max_stale = "duration" } DNSMaxStale time.Duration // DNSNodeTTL provides the TTL value for a node query. // // hcl: dns_config { node_ttl = "duration" } DNSNodeTTL time.Duration // DNSOnlyPassing is used to determine whether to filter nodes // whose health checks are in any non-passing state. By // default, only nodes in a critical state are excluded. // // hcl: dns_config { only_passing = "duration" } DNSOnlyPassing bool // DNSRecursorTimeout specifies the timeout in seconds // for Consul's internal dns client used for recursion. // This value is used for the connection, read and write timeout. // // hcl: dns_config { recursor_timeout = "duration" } DNSRecursorTimeout time.Duration // DNSServiceTTL provides the TTL value for a service // query for given service. The "*" wildcard can be used // to set a default for all services. // // hcl: dns_config { service_ttl = map[string]"duration" } DNSServiceTTL map[string]time.Duration // DNSUDPAnswerLimit is used to limit the maximum number of DNS Resource // Records returned in the ANSWER section of a DNS response for UDP // responses without EDNS support (limited to 512 bytes). // This parameter is deprecated, if you want to limit the number of // records returned by A or AAAA questions, please use DNSARecordLimit // instead. // // hcl: dns_config { udp_answer_limit = int } DNSUDPAnswerLimit int // DNSRecursors can be set to allow the DNS servers to recursively // resolve non-consul domains. // // hcl: recursors = []string // flag: -recursor string [-recursor string] DNSRecursors []string // HTTPBlockEndpoints is a list of endpoint prefixes to block in the // HTTP API. Any requests to these will get a 403 response. // // hcl: http_config { block_endpoints = []string } HTTPBlockEndpoints []string // HTTPResponseHeaders are used to add HTTP header response fields to the HTTP API responses. // // hcl: http_config { response_headers = map[string]string } HTTPResponseHeaders map[string]string // Embed Telemetry Config Telemetry lib.TelemetryConfig // Datacenter is the datacenter this node is in. Defaults to "dc1". // // Datacenter is exposed via /v1/agent/self from here and // used in lots of places like CLI commands. Treat this as an interface // that must be stable. // // hcl: datacenter = string // flag: -datacenter string Datacenter string // Defines the maximum stale value for discovery path. Defauls to "0s". // Discovery paths are /v1/heath/ paths // // If not set to 0, it will try to perform stale read and perform only a // consistent read whenever the value is too old. // hcl: discovery_max_stale = "duration" DiscoveryMaxStale time.Duration // Node name is the name we use to advertise. Defaults to hostname. // // NodeName is exposed via /v1/agent/self from here and // used in lots of places like CLI commands. Treat this as an interface // that must be stable. // // hcl: node_name = string // flag: -node string NodeName string // AdvertiseAddrLAN is the address we use for advertising our Serf, and // Consul RPC IP. The address can be specified as an ip address or as a // go-sockaddr template which resolves to a single ip address. If not // specified, the bind address is used. // // hcl: advertise_addr = string AdvertiseAddrLAN *net.IPAddr // AdvertiseAddrWAN is the address we use for advertising our Serf, and // Consul RPC IP. The address can be specified as an ip address or as a // go-sockaddr template which resolves to a single ip address. If not // specified, the bind address is used. // // hcl: advertise_addr_wan = string AdvertiseAddrWAN *net.IPAddr // BindAddr is used to control the address we bind to. // If not specified, the first private IP we find is used. // This controls the address we use for cluster facing // services (Gossip, Server RPC) // // The value can be either an ip address or a go-sockaddr // template which resolves to a single ip address. // // hcl: bind_addr = string // flag: -bind string BindAddr *net.IPAddr // Bootstrap is used to bring up the first Consul server, and // permits that node to elect itself leader // // hcl: bootstrap = (true|false) // flag: -bootstrap Bootstrap bool // BootstrapExpect tries to automatically bootstrap the Consul cluster, by // having servers wait to bootstrap until enough servers join, and then // performing the bootstrap process automatically. They will disable their // automatic bootstrap process if they detect any servers that are part of // an existing cluster, so it's safe to leave this set to a non-zero value. // // hcl: bootstrap_expect = int // flag: -bootstrap-expect=int BootstrapExpect int // CAFile is a path to a certificate authority file. This is used with // VerifyIncoming or VerifyOutgoing to verify the TLS connection. // // hcl: ca_file = string CAFile string // CAPath is a path to a directory of certificate authority files. This is // used with VerifyIncoming or VerifyOutgoing to verify the TLS connection. // // hcl: ca_path = string CAPath string // CertFile is used to provide a TLS certificate that is used for serving // TLS connections. Must be provided to serve TLS connections. // // hcl: cert_file = string CertFile string // CheckUpdateInterval controls the interval on which the output of a health check // is updated if there is no change to the state. For example, a check in a steady // state may run every 5 second generating a unique output (timestamp, etc), forcing // constant writes. This allows Consul to defer the write for some period of time, // reducing the write pressure when the state is steady. // // See also: DiscardCheckOutput // // hcl: check_update_interval = "duration" CheckUpdateInterval time.Duration // Checks contains the provided check definitions. // // hcl: checks = [ // { // id = string // name = string // notes = string // service_id = string // token = string // status = string // script = string // args = string // http = string // header = map[string][]string // method = string // tcp = string // interval = string // docker_container_id = string // shell = string // tls_skip_verify = (true|false) // timeout = "duration" // ttl = "duration" // deregister_critical_service_after = "duration" // }, // ... // ] Checks []*structs.CheckDefinition // ClientAddrs contains the list of ip addresses the DNS, HTTP and HTTPS // endpoints will bind to if the endpoints are enabled (ports > 0) and the // addresses are not overwritten. // // The ip addresses must be provided as a space separated list of ip // addresses and go-sockaddr templates. // // Client addresses cannot contain UNIX socket addresses since a socket // cannot be shared across multiple endpoints (no ports). To use UNIX // sockets configure it in 'addresses'. // // hcl: client_addr = string // flag: -client string ClientAddrs []*net.IPAddr // ConnectEnabled opts the agent into connect. It should be set on all clients // and servers in a cluster for correct connect operation. ConnectEnabled bool // ConnectProxyBindMinPort is the inclusive start of the range of ports // allocated to the agent for starting proxy listeners on where no explicit // port is specified. ConnectProxyBindMinPort int // ConnectProxyBindMaxPort is the inclusive end of the range of ports // allocated to the agent for starting proxy listeners on where no explicit // port is specified. ConnectProxyBindMaxPort int // ConnectProxyAllowManagedRoot is true if Consul can execute managed // proxies when running as root (EUID == 0). ConnectProxyAllowManagedRoot bool // ConnectProxyAllowManagedAPIRegistration enables managed proxy registration // via the agent HTTP API. If this is false, only file configurations // can be used. ConnectProxyAllowManagedAPIRegistration bool // ConnectProxyDefaultExecMode is used where a registration doesn't include an // exec_mode. Defaults to daemon. ConnectProxyDefaultExecMode string // ConnectProxyDefaultDaemonCommand is used to start proxy in exec_mode = // daemon if not specified at registration time. ConnectProxyDefaultDaemonCommand []string // ConnectProxyDefaultScriptCommand is used to start proxy in exec_mode = // script if not specified at registration time. ConnectProxyDefaultScriptCommand []string // ConnectProxyDefaultConfig is merged with any config specified at // registration time to allow global control of defaults. ConnectProxyDefaultConfig map[string]interface{} // ConnectCAProvider is the type of CA provider to use with Connect. ConnectCAProvider string // ConnectCAConfig is the config to use for the CA provider. ConnectCAConfig map[string]interface{} // ConnectTestDisableManagedProxies is not exposed to public config but us // used by TestAgent to prevent self-executing the test binary in the // background if a managed proxy is created for a test. The only place we // actually want to test processes really being spun up and managed is in // `agent/proxy` and it does it at a lower level. Note that this still allows // registering managed proxies via API and other methods, and still creates // all the agent state for them, just doesn't actually start external // processes up. ConnectTestDisableManagedProxies bool // DNSAddrs contains the list of TCP and UDP addresses the DNS server will // bind to. If the DNS endpoint is disabled (ports.dns <= 0) the list is // empty. // // The ip addresses are taken from 'addresses.dns' which should contain a // space separated list of ip addresses and/or go-sockaddr templates. // // If 'addresses.dns' was not provided the 'client_addr' addresses are // used. // // The DNS server cannot be bound to UNIX sockets. // // hcl: client_addr = string addresses { dns = string } ports { dns = int } DNSAddrs []net.Addr // DNSPort is the port the DNS server listens on. The default is 8600. // Setting this to a value <= 0 disables the endpoint. // // hcl: ports { dns = int } // flags: -dns-port int DNSPort int // DataDir is the path to the directory where the local state is stored. // // hcl: data_dir = string // flag: -data-dir string DataDir string // DevMode enables a fast-path mode of operation to bring up an in-memory // server with minimal configuration. Useful for developing Consul. // // flag: -dev DevMode bool // DisableAnonymousSignature is used to turn off the anonymous signature // send with the update check. This is used to deduplicate messages. // // hcl: disable_anonymous_signature = (true|false) DisableAnonymousSignature bool // DisableCoordinates controls features related to network coordinates. // // hcl: disable_coordinates = (true|false) DisableCoordinates bool // DisableHostNodeID will prevent Consul from using information from the // host to generate a node ID, and will cause Consul to generate a // random ID instead. // // hcl: disable_host_node_id = (true|false) // flag: -disable-host-node-id DisableHostNodeID bool // DisableKeyringFile disables writing the keyring to a file. // // hcl: disable_keyring_file = (true|false) // flag: -disable-keyring-file DisableKeyringFile bool // DisableRemoteExec is used to turn off the remote execution // feature. This is for security to prevent unknown scripts from running. // // hcl: disable_remote_exec = (true|false) DisableRemoteExec bool // DisableUpdateCheck is used to turn off the automatic update and // security bulletin checking. // // hcl: disable_update_check = (true|false) DisableUpdateCheck bool // DiscardCheckOutput is used to turn off storing and comparing the // output of health checks. This reduces the write rate on the server // for checks with highly volatile output. (reloadable) // // See also: CheckUpdateInterval // // hcl: discard_check_output = (true|false) DiscardCheckOutput bool // EnableACLReplication is used to turn on ACL replication when using // /v1/agent/token/acl_replication_token to introduce the token, instead // of setting acl_replication_token in the config. Setting the token via // config will also set this to true for backward compatibility. // // hcl: enable_acl_replication = (true|false) // todo(fs): rename to ACLEnableReplication EnableACLReplication bool // EnableAgentTLSForChecks is used to apply the agent's TLS settings in // order to configure the HTTP client used for health checks. Enabling // this allows HTTP checks to present a client certificate and verify // the server using the same TLS configuration as the agent (CA, cert, // and key). EnableAgentTLSForChecks bool // EnableDebug is used to enable various debugging features. // // hcl: enable_debug = (true|false) EnableDebug bool // EnableScriptChecks controls whether health checks which execute // scripts are enabled. This includes regular script checks and Docker // checks. // // hcl: enable_script_checks = (true|false) // flag: -enable-script-checks EnableScriptChecks bool // EnableSyslog is used to also tee all the logs over to syslog. Only supported // on linux and OSX. Other platforms will generate an error. // // hcl: enable_syslog = (true|false) // flag: -syslog EnableSyslog bool // EnableUI enables the statically-compiled assets for the Consul web UI and // serves them at the default /ui/ endpoint automatically. // // hcl: enable_ui = (true|false) // flag: -ui EnableUI bool // EncryptKey contains the encryption key to use for the Serf communication. // // hcl: encrypt = string // flag: -encrypt string EncryptKey string // EncryptVerifyIncoming enforces incoming gossip encryption and can be // used to upshift to encrypted gossip on a running cluster. // // hcl: encrypt_verify_incoming = (true|false) EncryptVerifyIncoming bool // EncryptVerifyOutgoing enforces outgoing gossip encryption and can be // used to upshift to encrypted gossip on a running cluster. // // hcl: encrypt_verify_outgoing = (true|false) EncryptVerifyOutgoing bool // HTTPAddrs contains the list of TCP addresses and UNIX sockets the HTTP // server will bind to. If the HTTP endpoint is disabled (ports.http <= 0) // the list is empty. // // The addresses are taken from 'addresses.http' which should contain a // space separated list of ip addresses, UNIX socket paths and/or // go-sockaddr templates. UNIX socket paths must be written as // 'unix://', e.g. 'unix:///var/run/consul-http.sock'. // // If 'addresses.http' was not provided the 'client_addr' addresses are // used. // // hcl: client_addr = string addresses { http = string } ports { http = int } HTTPAddrs []net.Addr // HTTPPort is the port the HTTP server listens on. The default is 8500. // Setting this to a value <= 0 disables the endpoint. // // hcl: ports { http = int } // flags: -http-port int HTTPPort int // HTTPSAddrs contains the list of TCP addresses and UNIX sockets the HTTPS // server will bind to. If the HTTPS endpoint is disabled (ports.https <= // 0) the list is empty. // // The addresses are taken from 'addresses.https' which should contain a // space separated list of ip addresses, UNIX socket paths and/or // go-sockaddr templates. UNIX socket paths must be written as // 'unix://', e.g. 'unix:///var/run/consul-https.sock'. // // If 'addresses.https' was not provided the 'client_addr' addresses are // used. // // hcl: client_addr = string addresses { https = string } ports { https = int } HTTPSAddrs []net.Addr // HTTPSPort is the port the HTTP server listens on. The default is -1. // Setting this to a value <= 0 disables the endpoint. // // hcl: ports { https = int } HTTPSPort int // KeyFile is used to provide a TLS key that is used for serving TLS // connections. Must be provided to serve TLS connections. // // hcl: key_file = string KeyFile string // LeaveDrainTime is used to wait after a server has left the LAN Serf // pool for RPCs to drain and new requests to be sent to other servers. // // hcl: performance { leave_drain_time = "duration" } LeaveDrainTime time.Duration // LeaveOnTerm controls if Serf does a graceful leave when receiving // the TERM signal. Defaults true on clients, false on servers. (reloadable) // // hcl: leave_on_terminate = (true|false) LeaveOnTerm bool // LogLevel is the level of the logs to write. Defaults to "INFO". // // hcl: log_level = string LogLevel string // Node ID is a unique ID for this node across space and time. Defaults // to a randomly-generated ID that persists in the data-dir. // // todo(fs): don't we have a requirement for this to be a UUID in a specific format? // // hcl: node_id = string // flag: -node-id string NodeID types.NodeID // NodeMeta contains metadata key/value pairs. These are excluded from JSON output // because they can be reloaded and might be stale when shown from the // config instead of the local state. // todo(fs): should the sanitizer omit them from output as well since they could be stale? // // hcl: node_meta = map[string]string // flag: -node-meta "key:value" -node-meta "key:value" ... NodeMeta map[string]string // NonVotingServer is whether this server will act as a non-voting member // of the cluster to help provide read scalability. (Enterprise-only) // // hcl: non_voting_server = (true|false) // flag: -non-voting-server NonVotingServer bool // PidFile is the file to store our PID in. // // hcl: pid_file = string PidFile string // RPCAdvertiseAddr is the TCP address Consul advertises for its RPC endpoint. // By default this is the bind address on the default RPC Server port. If the // advertise address is specified then it is used. // // hcl: bind_addr = string advertise_addr = string ports { server = int } RPCAdvertiseAddr *net.TCPAddr // RPCBindAddr is the TCP address Consul will bind to for its RPC endpoint. // By default this is the bind address on the default RPC Server port. // // hcl: bind_addr = string ports { server = int } RPCBindAddr *net.TCPAddr // RPCHoldTimeout is how long an RPC can be "held" before it is errored. // This is used to paper over a loss of leadership by instead holding RPCs, // so that the caller experiences a slow response rather than an error. // This period is meant to be long enough for a leader election to take // place, and a small jitter is applied to avoid a thundering herd. // // hcl: performance { rpc_hold_timeout = "duration" } RPCHoldTimeout time.Duration // RPCRateLimit and RPCMaxBurst control how frequently RPC calls are allowed // to happen. In any large enough time interval, rate limiter limits the // rate to RPCRate tokens per second, with a maximum burst size of // RPCMaxBurst events. As a special case, if RPCRate == Inf (the infinite // rate), RPCMaxBurst is ignored. // // See https://en.wikipedia.org/wiki/Token_bucket for more about token // buckets. // // hcl: limit { rpc_rate = (float64|MaxFloat64) rpc_max_burst = int } RPCRateLimit rate.Limit RPCMaxBurst int // RPCProtocol is the Consul protocol version to use. // // hcl: protocol = int RPCProtocol int // RaftProtocol sets the Raft protocol version to use on this server. // Defaults to 3. // // hcl: raft_protocol = int RaftProtocol int // RaftSnapshotThreshold sets the minimum threshold of raft commits after which // a snapshot is created. Defaults to 8192 // // hcl: raft_snapshot_threshold = int RaftSnapshotThreshold int // RaftSnapshotInterval sets the interval to use when checking whether to create // a new snapshot. Defaults to 5 seconds. // hcl: raft_snapshot_threshold = int RaftSnapshotInterval time.Duration // ReconnectTimeoutLAN specifies the amount of time to wait to reconnect with // another agent before deciding it's permanently gone. This can be used to // control the time it takes to reap failed nodes from the cluster. // // hcl: reconnect_timeout = "duration" ReconnectTimeoutLAN time.Duration // ReconnectTimeoutWAN specifies the amount of time to wait to reconnect with // another agent before deciding it's permanently gone. This can be used to // control the time it takes to reap failed nodes from the cluster. // // hcl: reconnect_timeout = "duration" ReconnectTimeoutWAN time.Duration // RejoinAfterLeave controls our interaction with the cluster after leave. // When set to false (default), a leave causes Consul to not rejoin // the cluster until an explicit join is received. If this is set to // true, we ignore the leave, and rejoin the cluster on start. // // hcl: rejoin_after_leave = (true|false) // flag: -rejoin RejoinAfterLeave bool // RetryJoinIntervalLAN specifies the amount of time to wait in between join // attempts on agent start. The minimum allowed value is 1 second and // the default is 30s. // // hcl: retry_join = "duration" RetryJoinIntervalLAN time.Duration // RetryJoinIntervalWAN specifies the amount of time to wait in between join // attempts on agent start. The minimum allowed value is 1 second and // the default is 30s. // // hcl: retry_join_wan = "duration" RetryJoinIntervalWAN time.Duration // RetryJoinLAN is a list of addresses and/or go-discover expressions to // join with retry enabled. See // https://www.consul.io/docs/agent/options.html#cloud-auto-joining for // details. // // hcl: retry_join = []string // flag: -retry-join string -retry-join string RetryJoinLAN []string // RetryJoinMaxAttemptsLAN specifies the maximum number of times to retry // joining a host on startup. This is useful for cases where we know the // node will be online eventually. // // hcl: retry_max = int // flag: -retry-max int RetryJoinMaxAttemptsLAN int // RetryJoinMaxAttemptsWAN specifies the maximum number of times to retry // joining a host on startup. This is useful for cases where we know the // node will be online eventually. // // hcl: retry_max_wan = int // flag: -retry-max-wan int RetryJoinMaxAttemptsWAN int // RetryJoinWAN is a list of addresses and/or go-discover expressions to // join -wan with retry enabled. See // https://www.consul.io/docs/agent/options.html#cloud-auto-joining for // details. // // hcl: retry_join_wan = []string // flag: -retry-join-wan string -retry-join-wan string RetryJoinWAN []string // SegmentName is the network segment for this client to join. // (Enterprise-only) // // hcl: segment = string SegmentName string // Segments is the list of network segments for this server to // initialize. // // hcl: segment = [ // { // # name is the name of the segment // name = string // // # bind is the bind ip address for this segment. // bind = string // // # port is the bind port for this segment. // port = int // // # advertise is the advertise ip address for this segment. // # Defaults to the bind address if not set. // advertise = string // // # rpc_listener controls whether or not to bind a separate // # RPC listener to the bind address. // rpc_listener = (true|false) // }, // ... // ] Segments []structs.NetworkSegment // SerfAdvertiseAddrLAN is the TCP address which is used for advertising // the LAN Gossip pool for both client and server. The address is the // combination of AdvertiseAddrLAN and the SerfPortLAN. If the advertise // address is not given the bind address is used. // // hcl: bind_addr = string advertise_addr = string ports { serf_lan = int } SerfAdvertiseAddrLAN *net.TCPAddr // SerfAdvertiseAddrWAN is the TCP address which is used for advertising // the WAN Gossip pool on the server only. The address is the combination // of AdvertiseAddrWAN and the SerfPortWAN. If the advertise address is not // given the bind address is used. // // hcl: bind_addr = string advertise_addr_wan = string ports { serf_wan = int } SerfAdvertiseAddrWAN *net.TCPAddr // SerfBindAddrLAN is the address to bind the Serf LAN TCP and UDP // listeners to. The ip address is either the default bind address or the // 'serf_lan' address which can be either an ip address or a go-sockaddr // template which resolves to a single ip address. // // hcl: bind_addr = string serf_lan = string ports { serf_lan = int } // flag: -serf-lan string SerfBindAddrLAN *net.TCPAddr // SerfBindAddrWAN is the address to bind the Serf WAN TCP and UDP // listeners to. The ip address is either the default bind address or the // 'serf_wan' address which can be either an ip address or a go-sockaddr // template which resolves to a single ip address. // // hcl: bind_addr = string serf_wan = string ports { serf_wan = int } // flag: -serf-wan string SerfBindAddrWAN *net.TCPAddr // SerfPortLAN is the port used for the LAN Gossip pool for both client and server. // The default is 8301. // // hcl: ports { serf_lan = int } SerfPortLAN int // SerfPortWAN is the port used for the WAN Gossip pool for the server only. // The default is 8302. // // hcl: ports { serf_wan = int } SerfPortWAN int // ServerMode controls if this agent acts like a Consul server, // or merely as a client. Servers have more state, take part // in leader election, etc. // // hcl: server = (true|false) // flag: -server ServerMode bool // ServerName is used with the TLS certificates to ensure the name we // provide matches the certificate. // // hcl: server_name = string ServerName string // ServerPort is the port the RPC server will bind to. // The default is 8300. // // hcl: ports { server = int } ServerPort int // Services contains the provided service definitions: // // hcl: services = [ // { // id = string // name = string // tags = []string // address = string // check = { check definition } // checks = [ { check definition}, ... ] // token = string // enable_tag_override = (true|false) // }, // ... // ] Services []*structs.ServiceDefinition // Minimum Session TTL. // // hcl: session_ttl_min = "duration" SessionTTLMin time.Duration // SkipLeaveOnInt controls if Serf skips a graceful leave when // receiving the INT signal. Defaults false on clients, true on // servers. (reloadable) // // hcl: skip_leave_on_interrupt = (true|false) SkipLeaveOnInt bool // StartJoinLAN is a list of addresses to attempt to join -wan when the // agent starts. If Serf is unable to communicate with any of these // addresses, then the agent will error and exit. // // hcl: start_join = []string // flag: -join string -join string StartJoinAddrsLAN []string // StartJoinWAN is a list of addresses to attempt to join -wan when the // agent starts. If Serf is unable to communicate with any of these // addresses, then the agent will error and exit. // // hcl: start_join_wan = []string // flag: -join-wan string -join-wan string StartJoinAddrsWAN []string // SyslogFacility is used to control where the syslog messages go // By default, goes to LOCAL0 // // hcl: syslog_facility = string SyslogFacility string // TLSCipherSuites is used to specify the list of supported ciphersuites. // // The values should be a list of the following values: // // TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305 // TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305 // TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 // TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 // TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 // TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 // TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 // TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA // TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 // TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA // TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA // TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA // TLS_RSA_WITH_AES_128_GCM_SHA256 // TLS_RSA_WITH_AES_256_GCM_SHA384 // TLS_RSA_WITH_AES_128_CBC_SHA256 // TLS_RSA_WITH_AES_128_CBC_SHA // TLS_RSA_WITH_AES_256_CBC_SHA // TLS_ECDHE_RSA_WITH_3DES_EDE_CBC_SHA // TLS_RSA_WITH_3DES_EDE_CBC_SHA // TLS_RSA_WITH_RC4_128_SHA // TLS_ECDHE_RSA_WITH_RC4_128_SHA // TLS_ECDHE_ECDSA_WITH_RC4_128_SHA // // todo(fs): IMHO, we should also support the raw 0xNNNN values from // todo(fs): https://golang.org/pkg/crypto/tls/#pkg-constants // todo(fs): since they are standardized by IANA. // // hcl: tls_cipher_suites = []string TLSCipherSuites []uint16 // TLSMinVersion is used to set the minimum TLS version used for TLS // connections. Should be either "tls10", "tls11", or "tls12". // // hcl: tls_min_version = string TLSMinVersion string // TLSPreferServerCipherSuites specifies whether to prefer the server's // cipher suite over the client cipher suites. // // hcl: tls_prefer_server_cipher_suites = (true|false) TLSPreferServerCipherSuites bool // TaggedAddresses are used to publish a set of addresses for // for a node, which can be used by the remote agent. We currently // populate only the "wan" tag based on the SerfWan advertise address, // but this structure is here for possible future features with other // user-defined tags. The "wan" tag will be used by remote agents if // they are configured with TranslateWANAddrs set to true. // // hcl: tagged_addresses = map[string]string TaggedAddresses map[string]string // TranslateWANAddrs controls whether or not Consul should prefer // the "wan" tagged address when doing lookups in remote datacenters. // See TaggedAddresses below for more details. // // hcl: translate_wan_addrs = (true|false) TranslateWANAddrs bool // UIDir is the directory containing the Web UI resources. // If provided, the UI endpoints will be enabled. // // hcl: ui_dir = string // flag: -ui-dir string UIDir string // UnixSocketGroup contains the group of the file permissions when // Consul binds to UNIX sockets. // // hcl: unix_sockets { group = string } UnixSocketGroup string // UnixSocketMode contains the mode of the file permissions when // Consul binds to UNIX sockets. // // hcl: unix_sockets { mode = string } UnixSocketMode string // UnixSocketUser contains the user of the file permissions when // Consul binds to UNIX sockets. // // hcl: unix_sockets { user = string } UnixSocketUser string // VerifyIncoming is used to verify the authenticity of incoming // connections. This means that TCP requests are forbidden, only allowing // for TLS. TLS connections must match a provided certificate authority. // This can be used to force client auth. // // hcl: verify_incoming = (true|false) VerifyIncoming bool // VerifyIncomingHTTPS is used to verify the authenticity of incoming HTTPS // connections. This means that TCP requests are forbidden, only allowing // for TLS. TLS connections must match a provided certificate authority. // This can be used to force client auth. // // hcl: verify_incoming_https = (true|false) VerifyIncomingHTTPS bool // VerifyIncomingRPC is used to verify the authenticity of incoming RPC // connections. This means that TCP requests are forbidden, only allowing // for TLS. TLS connections must match a provided certificate authority. // This can be used to force client auth. // // hcl: verify_incoming_rpc = (true|false) VerifyIncomingRPC bool // VerifyOutgoing is used to verify the authenticity of outgoing // connections. This means that TLS requests are used. TLS connections must // match a provided certificate authority. This is used to verify // authenticity of server nodes. // // hcl: verify_outgoing = (true|false) VerifyOutgoing bool // VerifyServerHostname is used to enable hostname verification of servers. // This ensures that the certificate presented is valid for // server... This prevents a compromised client from // being restarted as a server, and then intercepting request traffic as // well as being added as a raft peer. This should be enabled by default // with VerifyOutgoing, but for legacy reasons we cannot break existing // clients. // // hcl: verify_server_hostname = (true|false) VerifyServerHostname bool // Watches are used to monitor various endpoints and to invoke a // handler to act appropriately. These are managed entirely in the // agent layer using the standard APIs. // // See https://www.consul.io/docs/agent/watches.html for details. // // hcl: watches = [ // { type=string ... }, // { type=string ... }, // ... // ] // Watches []map[string]interface{} } // IncomingHTTPSConfig returns the TLS configuration for HTTPS // connections to consul. func (c *RuntimeConfig) IncomingHTTPSConfig() (*tls.Config, error) { tc := &tlsutil.Config{ VerifyIncoming: c.VerifyIncoming || c.VerifyIncomingHTTPS, VerifyOutgoing: c.VerifyOutgoing, CAFile: c.CAFile, CAPath: c.CAPath, CertFile: c.CertFile, KeyFile: c.KeyFile, NodeName: c.NodeName, ServerName: c.ServerName, TLSMinVersion: c.TLSMinVersion, CipherSuites: c.TLSCipherSuites, PreferServerCipherSuites: c.TLSPreferServerCipherSuites, } return tc.IncomingTLSConfig() } // Sanitized returns a JSON/HCL compatible representation of the runtime // configuration where all fields with potential secrets had their // values replaced by 'hidden'. In addition, network addresses and // time.Duration values are formatted to improve readability. func (c *RuntimeConfig) Sanitized() map[string]interface{} { return sanitize("rt", reflect.ValueOf(c)).Interface().(map[string]interface{}) } // isSecret determines whether a field name represents a field which // may contain a secret. func isSecret(name string) bool { name = strings.ToLower(name) return strings.Contains(name, "key") || strings.Contains(name, "token") || strings.Contains(name, "secret") } // cleanRetryJoin sanitizes the go-discover config strings key=val key=val... // by scrubbing the individual key=val combinations. func cleanRetryJoin(a string) string { var fields []string for _, f := range strings.Fields(a) { if isSecret(f) { kv := strings.SplitN(f, "=", 2) fields = append(fields, kv[0]+"=hidden") } else { fields = append(fields, f) } } return strings.Join(fields, " ") } func sanitize(name string, v reflect.Value) reflect.Value { typ := v.Type() switch { // check before isStruct and isPtr case isNetAddr(typ): if v.IsNil() { return reflect.ValueOf("") } switch x := v.Interface().(type) { case *net.TCPAddr: return reflect.ValueOf("tcp://" + x.String()) case *net.UDPAddr: return reflect.ValueOf("udp://" + x.String()) case *net.UnixAddr: return reflect.ValueOf("unix://" + x.String()) case *net.IPAddr: return reflect.ValueOf(x.IP.String()) default: return v } // check before isNumber case isDuration(typ): x := v.Interface().(time.Duration) return reflect.ValueOf(x.String()) case isString(typ): if strings.HasPrefix(name, "RetryJoinLAN[") || strings.HasPrefix(name, "RetryJoinWAN[") { x := v.Interface().(string) return reflect.ValueOf(cleanRetryJoin(x)) } if isSecret(name) { return reflect.ValueOf("hidden") } return v case isNumber(typ) || isBool(typ): return v case isPtr(typ): if v.IsNil() { return v } return sanitize(name, v.Elem()) case isStruct(typ): m := map[string]interface{}{} for i := 0; i < typ.NumField(); i++ { key := typ.Field(i).Name m[key] = sanitize(key, v.Field(i)).Interface() } return reflect.ValueOf(m) case isArray(typ) || isSlice(typ): ma := make([]interface{}, 0) for i := 0; i < v.Len(); i++ { ma = append(ma, sanitize(fmt.Sprintf("%s[%d]", name, i), v.Index(i)).Interface()) } return reflect.ValueOf(ma) case isMap(typ): m := map[string]interface{}{} for _, k := range v.MapKeys() { key := k.String() m[key] = sanitize(key, v.MapIndex(k)).Interface() } return reflect.ValueOf(m) default: return v } } func isDuration(t reflect.Type) bool { return t == reflect.TypeOf(time.Second) } func isMap(t reflect.Type) bool { return t.Kind() == reflect.Map } func isNetAddr(t reflect.Type) bool { return t.Implements(reflect.TypeOf((*net.Addr)(nil)).Elem()) } func isPtr(t reflect.Type) bool { return t.Kind() == reflect.Ptr } func isArray(t reflect.Type) bool { return t.Kind() == reflect.Array } func isSlice(t reflect.Type) bool { return t.Kind() == reflect.Slice } func isString(t reflect.Type) bool { return t.Kind() == reflect.String } func isStruct(t reflect.Type) bool { return t.Kind() == reflect.Struct } func isBool(t reflect.Type) bool { return t.Kind() == reflect.Bool } func isNumber(t reflect.Type) bool { return isInt(t) || isUint(t) || isFloat(t) || isComplex(t) } func isInt(t reflect.Type) bool { return t.Kind() == reflect.Int || t.Kind() == reflect.Int8 || t.Kind() == reflect.Int16 || t.Kind() == reflect.Int32 || t.Kind() == reflect.Int64 } func isUint(t reflect.Type) bool { return t.Kind() == reflect.Uint || t.Kind() == reflect.Uint8 || t.Kind() == reflect.Uint16 || t.Kind() == reflect.Uint32 || t.Kind() == reflect.Uint64 } func isFloat(t reflect.Type) bool { return t.Kind() == reflect.Float32 || t.Kind() == reflect.Float64 } func isComplex(t reflect.Type) bool { return t.Kind() == reflect.Complex64 || t.Kind() == reflect.Complex128 }