Documentation ¶
Index ¶
- Constants
- Variables
- func Decode(buf []byte, out interface{}) error
- func Encode(t MessageType, msg interface{}) ([]byte, error)
- func IsErrNoLeader(err error) bool
- func IsErrRPCRateExceeded(err error) bool
- func SatisfiesMetaFilters(meta map[string]string, filters map[string]string) bool
- func ValidStatus(s string) bool
- func ValidateMetadata(meta map[string]string, allowConsulPrefix bool) error
- type ACL
- type ACLBootstrap
- type ACLOp
- type ACLPolicy
- type ACLPolicyRequest
- type ACLReplicationStatus
- type ACLRequest
- type ACLRequests
- type ACLSpecificRequest
- type ACLs
- type AutopilotConfig
- type AutopilotSetConfigRequest
- type CheckDefinition
- type CheckServiceNode
- type CheckServiceNodes
- type CheckType
- type CheckTypes
- type ChecksInStateRequest
- type CompoundResponse
- type Coordinate
- type CoordinateUpdateRequest
- type Coordinates
- type DCSpecificRequest
- type DatacenterMap
- type DeregisterRequest
- type DirEntries
- type DirEntry
- type EventFireRequest
- type EventFireResponse
- type HealthCheck
- type HealthChecks
- type IndexedACLs
- type IndexedCheckServiceNodes
- type IndexedCoordinate
- type IndexedCoordinates
- type IndexedDirEntries
- type IndexedHealthChecks
- type IndexedKeyList
- type IndexedNodeDump
- type IndexedNodeServices
- type IndexedNodes
- type IndexedPreparedQueries
- type IndexedServiceNodes
- type IndexedServices
- type IndexedSessions
- type KVSRequest
- type KeyListRequest
- type KeyRequest
- type KeyringOp
- type KeyringRequest
- type KeyringResponse
- type KeyringResponses
- type MessageType
- type NetworkSegment
- type Node
- type NodeDump
- type NodeInfo
- type NodeService
- type NodeServices
- type NodeSpecificRequest
- type Nodes
- type OperatorHealthReply
- type PreparedQueries
- type PreparedQuery
- type PreparedQueryExecuteRemoteRequest
- type PreparedQueryExecuteRequest
- type PreparedQueryExecuteResponse
- type PreparedQueryExplainResponse
- type PreparedQueryOp
- type PreparedQueryRequest
- type PreparedQuerySpecificRequest
- type QueryDNSOptions
- type QueryDatacenterOptions
- type QueryMeta
- type QueryOptions
- type QuerySource
- type QueryTemplateOptions
- type RPCInfo
- type RaftConfigurationResponse
- type RaftIndex
- type RaftRemovePeerRequest
- type RaftServer
- type RegisterRequest
- type ServerHealth
- type ServerStats
- type ServiceDefinition
- type ServiceNode
- type ServiceNodes
- type ServiceQuery
- type ServiceSpecificRequest
- type Services
- type Session
- type SessionBehavior
- type SessionOp
- type SessionRequest
- type SessionSpecificRequest
- type Sessions
- type SnapshotOp
- type SnapshotReplyFn
- type SnapshotRequest
- type SnapshotResponse
- type TombstoneOp
- type TombstoneRequest
- type TxnError
- type TxnErrors
- type TxnKVOp
- type TxnKVResult
- type TxnOp
- type TxnOps
- type TxnReadRequest
- type TxnReadResponse
- type TxnRequest
- type TxnResponse
- type TxnResult
- type TxnResults
- type WriteRequest
Constants ¶
const ( // ACLBootstrapInit is used to perform a scan for existing tokens which // will decide whether bootstrapping is allowed for a cluster. This is // initiated by the leader when it steps up, if necessary. ACLBootstrapInit = "bootstrap-init" // ACLBootstrapNow is used to perform a one-time ACL bootstrap operation on // a cluster to get the first management token. ACLBootstrapNow = "bootstrap-now" // ACLSet creates or updates a token. ACLSet ACLOp = "set" // ACLForceSet is deprecated, but left for backwards compatibility. ACLForceSet = "force-set" // ACLDelete deletes a token. ACLDelete = "delete" )
const ( // ACLTypeClient tokens have rules applied ACLTypeClient = "client" // ACLTypeManagement tokens have an always allow policy, so they can // make other tokens and can access all resources. ACLTypeManagement = "management" )
const ( SerfCheckID types.CheckID = "serfHealth" SerfCheckName = "Serf Health Status" SerfCheckAliveOutput = "Agent alive and reachable" SerfCheckFailedOutput = "Agent not live or unreachable" )
These are used to manage the built-in "serfHealth" check that's attached to every node in the catalog.
const ( ConsulServiceID = "consul" ConsulServiceName = "consul" )
These are used to manage the "consul" service that's attached to every Consul server node in the catalog.
const ( RegisterRequestType MessageType = 0 DeregisterRequestType = 1 KVSRequestType = 2 SessionRequestType = 3 ACLRequestType = 4 TombstoneRequestType = 5 CoordinateBatchUpdateType = 6 PreparedQueryRequestType = 7 TxnRequestType = 8 AutopilotRequestType = 9 AreaRequestType = 10 ACLBootstrapRequestType = 11 // FSM snapshots only. )
These are serialized between Consul servers and stored in Consul snapshots, so entries must only ever be added.
const ( // IgnoreUnknownTypeFlag is set along with a MessageType // to indicate that the message type can be safely ignored // if it is not recognized. This is for future proofing, so // that new commands can be added in a way that won't cause // old servers to crash when the FSM attempts to process them. IgnoreUnknownTypeFlag MessageType = 128 // NodeMaint is the special key set by a node in maintenance mode. NodeMaint = "_node_maintenance" // ServiceMaintPrefix is the prefix for a service in maintenance mode. ServiceMaintPrefix = "_service_maintenance:" // MetaSegmentKey is the node metadata key used to store the node's network segment MetaSegmentKey = "consul-network-segment" // MaxLockDelay provides a maximum LockDelay value for // a session. Any value above this will not be respected. MaxLockDelay = 60 * time.Second )
const ( SessionTTLMax = 24 * time.Hour SessionTTLMultiplier = 2 )
const ( KeyringList KeyringOp = "list" KeyringInstall = "install" KeyringUse = "use" KeyringRemove = "remove" )
const ( // QueryTemplateTypeNamePrefixMatch uses the Name field of the query as // a prefix to select the template. QueryTemplateTypeNamePrefixMatch = "name_prefix_match" )
Variables ¶
var ( ErrNoLeader = errors.New(errNoLeader) ErrNoDCPath = errors.New(errNoDCPath) ErrNoServers = errors.New(errNoServers) ErrNotReadyForConsistentReads = errors.New(errNotReadyForConsistentReads) ErrSegmentsNotSupported = errors.New(errSegmentsNotSupported) ErrRPCRateExceeded = errors.New(errRPCRateExceeded) )
var ACLBootstrapNotAllowedErr = errors.New("ACL bootstrap no longer allowed")
ACLBootstrapNotAllowedErr is returned once we know that a bootstrap can no longer be done since the cluster was bootstrapped, or a management token was created manually.
var ACLBootstrapNotInitializedErr = errors.New("ACL bootstrap not initialized, need to force a leader election and ensure all Consul servers support this feature")
ACLBootstrapNotInitializedErr is returned when a bootstrap is attempted but we haven't yet initialized ACL bootstrap. It provides some guidance to operators on how to proceed.
Functions ¶
func Encode ¶
func Encode(t MessageType, msg interface{}) ([]byte, error)
Encode is used to encode a MsgPack object with type prefix
func IsErrNoLeader ¶ added in v1.0.0
func IsErrRPCRateExceeded ¶ added in v0.9.3
func SatisfiesMetaFilters ¶
SatisfiesMetaFilters returns true if the metadata map contains the given filters
func ValidStatus ¶
Types ¶
type ACLBootstrap ¶
type ACLBootstrap struct { // AllowBootstrap will only be true if no existing management tokens // have been found. AllowBootstrap bool RaftIndex }
ACLBootstrap keeps track of whether bootstrapping ACLs is allowed for a cluster.
type ACLPolicyRequest ¶
type ACLPolicyRequest struct { Datacenter string ACL string ETag string QueryOptions }
ACLPolicyRequest is used to request an ACL by ID, conditionally filtering on an ID
func (*ACLPolicyRequest) RequestDatacenter ¶
func (r *ACLPolicyRequest) RequestDatacenter() string
RequestDatacenter returns the DC this request is targeted to.
type ACLReplicationStatus ¶
type ACLReplicationStatus struct { Enabled bool Running bool SourceDatacenter string ReplicatedIndex uint64 LastSuccess time.Time LastError time.Time }
ACLReplicationStatus provides information about the health of the ACL replication system.
type ACLRequest ¶
type ACLRequest struct { Datacenter string Op ACLOp ACL ACL WriteRequest }
ACLRequest is used to create, update or delete an ACL
func (*ACLRequest) RequestDatacenter ¶
func (r *ACLRequest) RequestDatacenter() string
type ACLSpecificRequest ¶
type ACLSpecificRequest struct { Datacenter string ACL string QueryOptions }
ACLSpecificRequest is used to request an ACL by ID
func (*ACLSpecificRequest) RequestDatacenter ¶
func (r *ACLSpecificRequest) RequestDatacenter() string
RequestDatacenter returns the DC this request is targeted to.
type AutopilotConfig ¶
type AutopilotConfig struct { // CleanupDeadServers controls whether to remove dead servers when a new // server is added to the Raft peers. CleanupDeadServers bool // LastContactThreshold is the limit on the amount of time a server can go // without leader contact before being considered unhealthy. LastContactThreshold time.Duration // MaxTrailingLogs is the amount of entries in the Raft Log that a server can // be behind before being considered unhealthy. MaxTrailingLogs uint64 // ServerStabilizationTime 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. ServerStabilizationTime time.Duration // (Enterprise-only) RedundancyZoneTag is the node tag to use for separating // servers into zones for redundancy. If left blank, this feature will be disabled. RedundancyZoneTag string // (Enterprise-only) DisableUpgradeMigration 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. DisableUpgradeMigration bool // (Enterprise-only) UpgradeVersionTag is the node tag to use for version info when // performing upgrade migrations. If left blank, the Consul version will be used. UpgradeVersionTag string // RaftIndex stores the create/modify indexes of this configuration. RaftIndex }
AutopilotConfig holds the Autopilot configuration for a cluster.
type AutopilotSetConfigRequest ¶
type AutopilotSetConfigRequest struct { // Datacenter is the target this request is intended for. Datacenter string // Config is the new Autopilot configuration to use. Config AutopilotConfig // CAS controls whether to use check-and-set semantics for this request. CAS bool // WriteRequest holds the ACL token to go along with this request. WriteRequest }
AutopilotSetConfigRequest is used by the Operator endpoint to update the current Autopilot configuration of the cluster.
func (*AutopilotSetConfigRequest) RequestDatacenter ¶
func (op *AutopilotSetConfigRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given request.
type CheckDefinition ¶
type CheckDefinition struct { ID types.CheckID Name string Notes string ServiceID string Token string Status string // Copied fields from CheckType without the fields // already present in CheckDefinition: // // ID (CheckID), Name, Status, Notes // Script string ScriptArgs []string HTTP string Header map[string][]string Method string TCP string Interval time.Duration DockerContainerID string Shell string TLSSkipVerify bool Timeout time.Duration TTL time.Duration DeregisterCriticalServiceAfter time.Duration }
CheckDefinition is used to JSON decode the Check definitions
func (*CheckDefinition) CheckType ¶
func (c *CheckDefinition) CheckType() *CheckType
func (*CheckDefinition) HealthCheck ¶
func (c *CheckDefinition) HealthCheck(node string) *HealthCheck
type CheckServiceNode ¶
type CheckServiceNode struct { Node *Node Service *NodeService Checks HealthChecks }
CheckServiceNode is used to provide the node, its service definition, as well as a HealthCheck that is associated.
type CheckServiceNodes ¶
type CheckServiceNodes []CheckServiceNode
func (CheckServiceNodes) Filter ¶
func (nodes CheckServiceNodes) Filter(onlyPassing bool) CheckServiceNodes
Filter removes nodes that are failing health checks (and any non-passing check if that option is selected). Note that this returns the filtered results AND modifies the receiver for performance.
func (CheckServiceNodes) Shuffle ¶
func (nodes CheckServiceNodes) Shuffle()
Shuffle does an in-place random shuffle using the Fisher-Yates algorithm.
type CheckType ¶
type CheckType struct { CheckID types.CheckID Name string Status string Notes string Script string ScriptArgs []string HTTP string Header map[string][]string Method string TCP string Interval time.Duration DockerContainerID string Shell string TLSSkipVerify bool Timeout time.Duration TTL time.Duration // DeregisterCriticalServiceAfter, if >0, will cause the associated // service, if any, to be deregistered if this check is critical for // longer than this duration. DeregisterCriticalServiceAfter time.Duration }
CheckType is used to create either the CheckMonitor or the CheckTTL. Five types are supported: Script, HTTP, TCP, Docker and TTL. Script, HTTP, Docker and TCP all require Interval. Only one of the types may to be provided: TTL or Script/Interval or HTTP/Interval or TCP/Interval or Docker/Interval.
func (*CheckType) Empty ¶ added in v1.0.0
Empty checks if the CheckType has no fields defined. Empty checks parsed from json configs are filtered out
type CheckTypes ¶
type CheckTypes []*CheckType
type ChecksInStateRequest ¶
type ChecksInStateRequest struct { Datacenter string NodeMetaFilters map[string]string State string Source QuerySource QueryOptions }
ChecksInStateRequest is used to query for nodes in a state
func (*ChecksInStateRequest) RequestDatacenter ¶
func (r *ChecksInStateRequest) RequestDatacenter() string
type CompoundResponse ¶
type CompoundResponse interface { // Add adds a new response to the compound response Add(interface{}) // New returns an empty response object which can be passed around by // reference, and then passed to Add() later on. New() interface{} }
CompoundResponse is an interface for gathering multiple responses. It is used in cross-datacenter RPC calls where more than 1 datacenter is expected to reply.
type Coordinate ¶
type Coordinate struct { Node string Segment string Coord *coordinate.Coordinate }
Coordinate stores a node name with its associated network coordinate.
type CoordinateUpdateRequest ¶
type CoordinateUpdateRequest struct { Datacenter string Node string Segment string Coord *coordinate.Coordinate WriteRequest }
CoordinateUpdateRequest is used to update the network coordinate of a given node.
func (*CoordinateUpdateRequest) RequestDatacenter ¶
func (c *CoordinateUpdateRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given update request.
type Coordinates ¶
type Coordinates []*Coordinate
type DCSpecificRequest ¶
type DCSpecificRequest struct { Datacenter string NodeMetaFilters map[string]string Source QuerySource QueryOptions }
DCSpecificRequest is used to query about a specific DC
func (*DCSpecificRequest) RequestDatacenter ¶
func (r *DCSpecificRequest) RequestDatacenter() string
type DatacenterMap ¶
type DatacenterMap struct { Datacenter string AreaID types.AreaID Coordinates Coordinates }
DatacenterMap is used to represent a list of nodes with their raw coordinates, associated with a datacenter. Coordinates are only compatible between nodes in the same area.
type DeregisterRequest ¶
type DeregisterRequest struct { Datacenter string Node string ServiceID string CheckID types.CheckID WriteRequest }
DeregisterRequest is used for the Catalog.Deregister endpoint to deregister a node as providing a service. If no service is provided the entire node is deregistered.
func (*DeregisterRequest) RequestDatacenter ¶
func (r *DeregisterRequest) RequestDatacenter() string
type DirEntries ¶
type DirEntries []*DirEntry
type DirEntry ¶
type DirEntry struct { LockIndex uint64 Key string Flags uint64 Value []byte Session string `json:",omitempty"` RaftIndex }
DirEntry is used to represent a directory entry. This is used for values in our Key-Value store.
type EventFireRequest ¶
type EventFireRequest struct { Datacenter string Name string Payload []byte // Not using WriteRequest so that any server can process // the request. It is a bit unusual... QueryOptions }
EventFireRequest is used to ask a server to fire a Serf event. It is a bit odd, since it doesn't depend on the catalog or leader. Any node can respond, so it's not quite like a standard write request. This is used only internally.
func (*EventFireRequest) RequestDatacenter ¶
func (r *EventFireRequest) RequestDatacenter() string
type EventFireResponse ¶
type EventFireResponse struct {
QueryMeta
}
EventFireResponse is used to respond to a fire request.
type HealthCheck ¶
type HealthCheck struct { Node string CheckID types.CheckID // Unique per-node ID Name string // Check name Status string // The current check status Notes string // Additional notes with the status Output string // Holds output of script runs ServiceID string // optional associated service ServiceName string // optional service name ServiceTags []string // optional service tags RaftIndex }
HealthCheck represents a single check on a given node
func (*HealthCheck) Clone ¶
func (c *HealthCheck) Clone() *HealthCheck
Clone returns a distinct clone of the HealthCheck.
func (*HealthCheck) IsSame ¶
func (c *HealthCheck) IsSame(other *HealthCheck) bool
IsSame checks if one HealthCheck is the same as another, without looking at the Raft information (that's why we didn't call it IsEqual). This is useful for seeing if an update would be idempotent for all the functional parts of the structure.
type HealthChecks ¶
type HealthChecks []*HealthCheck
HealthChecks is a collection of HealthCheck structs.
type IndexedACLs ¶
IndexedACLs has tokens along with the Raft metadata about them.
type IndexedCheckServiceNodes ¶
type IndexedCheckServiceNodes struct { Nodes CheckServiceNodes QueryMeta }
type IndexedCoordinate ¶
type IndexedCoordinate struct { Coord *coordinate.Coordinate QueryMeta }
IndexedCoordinate is used to represent a single node's coordinate from the state store.
type IndexedCoordinates ¶
type IndexedCoordinates struct { Coordinates Coordinates QueryMeta }
IndexedCoordinates is used to represent a list of nodes and their corresponding raw coordinates.
type IndexedDirEntries ¶
type IndexedDirEntries struct { Entries DirEntries QueryMeta }
type IndexedHealthChecks ¶
type IndexedHealthChecks struct { HealthChecks HealthChecks QueryMeta }
type IndexedKeyList ¶
type IndexedNodeDump ¶
type IndexedNodeServices ¶
type IndexedNodeServices struct { NodeServices *NodeServices QueryMeta }
type IndexedNodes ¶
type IndexedPreparedQueries ¶
type IndexedPreparedQueries struct { Queries PreparedQueries QueryMeta }
type IndexedServiceNodes ¶
type IndexedServiceNodes struct { ServiceNodes ServiceNodes QueryMeta }
type IndexedServices ¶
type IndexedSessions ¶
type KVSRequest ¶
type KVSRequest struct { Datacenter string Op api.KVOp // Which operation are we performing DirEnt DirEntry // Which directory entry WriteRequest }
KVSRequest is used to operate on the Key-Value store
func (*KVSRequest) RequestDatacenter ¶
func (r *KVSRequest) RequestDatacenter() string
type KeyListRequest ¶
type KeyListRequest struct { Datacenter string Prefix string Seperator string QueryOptions }
KeyListRequest is used to list keys
func (*KeyListRequest) RequestDatacenter ¶
func (r *KeyListRequest) RequestDatacenter() string
type KeyRequest ¶
type KeyRequest struct { Datacenter string Key string QueryOptions }
KeyRequest is used to request a key, or key prefix
func (*KeyRequest) RequestDatacenter ¶
func (r *KeyRequest) RequestDatacenter() string
type KeyringRequest ¶
type KeyringRequest struct { Operation KeyringOp Key string Datacenter string Forwarded bool RelayFactor uint8 QueryOptions }
KeyringRequest encapsulates a request to modify an encryption keyring. It can be used for install, remove, or use key type operations.
func (*KeyringRequest) RequestDatacenter ¶
func (r *KeyringRequest) RequestDatacenter() string
type KeyringResponse ¶
type KeyringResponse struct { WAN bool Datacenter string Segment string Messages map[string]string `json:",omitempty"` Keys map[string]int NumNodes int Error string `json:",omitempty"` }
KeyringResponse is a unified key response and can be used for install, remove, use, as well as listing key queries.
type KeyringResponses ¶
type KeyringResponses struct { Responses []*KeyringResponse QueryMeta }
KeyringResponses holds multiple responses to keyring queries. Each datacenter replies independently, and KeyringResponses is used as a container for the set of all responses.
func (*KeyringResponses) Add ¶
func (r *KeyringResponses) Add(v interface{})
func (*KeyringResponses) New ¶
func (r *KeyringResponses) New() interface{}
type MessageType ¶
type MessageType uint8
type NetworkSegment ¶ added in v1.0.0
type NetworkSegment struct { // Name is the name of the segment. Name string // Bind is the bind address for this segment. Bind *net.TCPAddr // Advertise is the advertise address of this segment. Advertise *net.TCPAddr // RPCListener is whether to bind a separate RPC listener on the bind address // for this segment. RPCListener bool }
(Enterprise-only) NetworkSegment is the configuration for a network segment, which is an isolated serf group on the LAN.
type Node ¶
type Node struct { ID types.NodeID Node string Address string Datacenter string TaggedAddresses map[string]string Meta map[string]string RaftIndex }
Used to return information about a node
type NodeDump ¶
type NodeDump []*NodeInfo
NodeDump is used to dump all the nodes with all their associated data. This is currently used for the UI only, as it is rather expensive to generate.
type NodeInfo ¶
type NodeInfo struct { ID types.NodeID Node string Address string TaggedAddresses map[string]string Meta map[string]string Services []*NodeService Checks HealthChecks }
NodeInfo is used to dump all associated information about a node. This is currently used for the UI only, as it is rather expensive to generate.
type NodeService ¶
type NodeService struct { ID string Service string Tags []string Address string Port int EnableTagOverride bool RaftIndex }
NodeService is a service provided by a node
func (*NodeService) IsSame ¶
func (s *NodeService) IsSame(other *NodeService) bool
IsSame checks if one NodeService is the same as another, without looking at the Raft information (that's why we didn't call it IsEqual). This is useful for seeing if an update would be idempotent for all the functional parts of the structure.
func (*NodeService) ToServiceNode ¶
func (s *NodeService) ToServiceNode(node string) *ServiceNode
ToServiceNode converts the given node service to a service node.
type NodeServices ¶
type NodeServices struct { Node *Node Services map[string]*NodeService }
type NodeSpecificRequest ¶
type NodeSpecificRequest struct { Datacenter string Node string QueryOptions }
NodeSpecificRequest is used to request the information about a single node
func (*NodeSpecificRequest) RequestDatacenter ¶
func (r *NodeSpecificRequest) RequestDatacenter() string
type OperatorHealthReply ¶
type OperatorHealthReply struct { // Healthy is true if all the servers in the cluster are healthy. Healthy bool // FailureTolerance is the number of healthy servers that could be lost without // an outage occurring. FailureTolerance int // Servers holds the health of each server. Servers []ServerHealth }
OperatorHealthReply is a representation of the overall health of the cluster
type PreparedQueries ¶
type PreparedQueries []*PreparedQuery
type PreparedQuery ¶
type PreparedQuery struct { // ID is this UUID-based ID for the query, always generated by Consul. ID string // Name is an optional friendly name for the query supplied by the // user. NOTE - if this feature is used then it will reduce the security // of any read ACL associated with this query/service since this name // can be used to locate nodes with supplying any ACL. Name string // Session is an optional session to tie this query's lifetime to. If // this is omitted then the query will not expire. Session string // Token is the ACL token used when the query was created, and it is // used when a query is subsequently executed. This token, or a token // with management privileges, must be used to change the query later. Token string // Template is used to configure this query as a template, which will // respond to queries based on the Name, and then will be rendered // before it is executed. Template QueryTemplateOptions // Service defines a service query (leaving things open for other types // later). Service ServiceQuery // DNS has options that control how the results of this query are // served over DNS. DNS QueryDNSOptions RaftIndex }
PreparedQuery defines a complete prepared query, and is the structure we maintain in the state store.
func (*PreparedQuery) GetACLPrefix ¶
func (pq *PreparedQuery) GetACLPrefix() (string, bool)
GetACLPrefix returns the prefix to look up the prepared_query ACL policy for this query, and whether the prefix applies to this query. You always need to check the ok value before using the prefix.
type PreparedQueryExecuteRemoteRequest ¶
type PreparedQueryExecuteRemoteRequest struct { // Datacenter is the target this request is intended for. Datacenter string // Query is a copy of the query to execute. We have to ship the entire // query over since it won't be present in the remote state store. Query PreparedQuery // Limit will trim the resulting list down to the given limit. Limit int // QueryOptions (unfortunately named here) controls the consistency // settings for the the service lookups. QueryOptions }
PreparedQueryExecuteRemoteRequest is used when running a local query in a remote datacenter.
func (*PreparedQueryExecuteRemoteRequest) RequestDatacenter ¶
func (q *PreparedQueryExecuteRemoteRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given request.
type PreparedQueryExecuteRequest ¶
type PreparedQueryExecuteRequest struct { // Datacenter is the target this request is intended for. Datacenter string // QueryIDOrName is the ID of a query _or_ the name of one, either can // be provided. QueryIDOrName string // Limit will trim the resulting list down to the given limit. Limit int // Source is used to sort the results relative to a given node using // network coordinates. Source QuerySource // Agent is used to carry around a reference to the agent which initiated // the execute request. Used to distance-sort relative to the local node. Agent QuerySource // QueryOptions (unfortunately named here) controls the consistency // settings for the query lookup itself, as well as the service lookups. QueryOptions }
PreparedQueryExecuteRequest is used to execute a prepared query.
func (*PreparedQueryExecuteRequest) RequestDatacenter ¶
func (q *PreparedQueryExecuteRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given request.
type PreparedQueryExecuteResponse ¶
type PreparedQueryExecuteResponse struct { // Service is the service that was queried. Service string // Nodes has the nodes that were output by the query. Nodes CheckServiceNodes // DNS has the options for serving these results over DNS. DNS QueryDNSOptions // Datacenter is the datacenter that these results came from. Datacenter string // Failovers is a count of how many times we had to query a remote // datacenter. Failovers int // QueryMeta has freshness information about the query. QueryMeta }
PreparedQueryExecuteResponse has the results of executing a query.
type PreparedQueryExplainResponse ¶
type PreparedQueryExplainResponse struct { // Query has the fully-rendered query. Query PreparedQuery // QueryMeta has freshness information about the query. QueryMeta }
PreparedQueryExplainResponse has the results when explaining a query/
type PreparedQueryOp ¶
type PreparedQueryOp string
const ( PreparedQueryCreate PreparedQueryOp = "create" PreparedQueryUpdate PreparedQueryOp = "update" PreparedQueryDelete PreparedQueryOp = "delete" )
type PreparedQueryRequest ¶
type PreparedQueryRequest struct { // Datacenter is the target this request is intended for. Datacenter string // Op is the operation to apply. Op PreparedQueryOp // Query is the query itself. Query *PreparedQuery // WriteRequest holds the ACL token to go along with this request. WriteRequest }
QueryRequest is used to create or change prepared queries.
func (*PreparedQueryRequest) RequestDatacenter ¶
func (q *PreparedQueryRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given request.
type PreparedQuerySpecificRequest ¶
type PreparedQuerySpecificRequest struct { // Datacenter is the target this request is intended for. Datacenter string // QueryID is the ID of a query. QueryID string // QueryOptions (unfortunately named here) controls the consistency // settings for the query lookup itself, as well as the service lookups. QueryOptions }
PreparedQuerySpecificRequest is used to get information about a prepared query.
func (*PreparedQuerySpecificRequest) RequestDatacenter ¶
func (q *PreparedQuerySpecificRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given request.
type QueryDNSOptions ¶
type QueryDNSOptions struct { // TTL is the time to live for the served DNS results. TTL string }
QueryDNSOptions controls settings when query results are served over DNS.
type QueryDatacenterOptions ¶
type QueryDatacenterOptions struct { // NearestN is set to the number of remote datacenters to try, based on // network coordinates. NearestN int // Datacenters is a fixed list of datacenters to try after NearestN. We // never try a datacenter multiple times, so those are subtracted from // this list before proceeding. Datacenters []string }
QueryDatacenterOptions sets options about how we fail over if there are no healthy nodes in the local datacenter.
type QueryMeta ¶
type QueryMeta struct { // This is the index associated with the read Index uint64 // If AllowStale is used, this is time elapsed since // last contact between the follower and leader. This // can be used to gauge staleness. LastContact time.Duration // Used to indicate if there is a known leader node KnownLeader bool }
QueryMeta allows a query response to include potentially useful metadata about a query
type QueryOptions ¶
type QueryOptions struct { // Token is the ACL token ID. If not provided, the 'anonymous' // token is assumed for backwards compatibility. Token string // If set, wait until query exceeds given index. Must be provided // with MaxQueryTime. MinQueryIndex uint64 // Provided with MinQueryIndex to wait for change. MaxQueryTime time.Duration // If set, any follower can service the request. Results // may be arbitrarily stale. AllowStale bool // If set, the leader must verify leadership prior to // servicing the request. Prevents a stale read. RequireConsistent bool }
QueryOptions is used to specify various flags for read queries
func (QueryOptions) ACLToken ¶
func (q QueryOptions) ACLToken() string
func (QueryOptions) AllowStaleRead ¶
func (q QueryOptions) AllowStaleRead() bool
func (QueryOptions) IsRead ¶
func (q QueryOptions) IsRead() bool
IsRead is always true for QueryOption.
type QuerySource ¶
QuerySource is used to pass along information about the source node in queries so that we can adjust the response based on its network coordinates.
type QueryTemplateOptions ¶
type QueryTemplateOptions struct { // Type, if non-empty, means that this query is a template. This is // set to one of the QueryTemplateType* constants above. Type string // Regexp is an optional regular expression to use to parse the full // name, once the prefix match has selected a template. This can be // used to extract parts of the name and choose a service name, set // tags, etc. Regexp string // RemoveEmptyTags, if true, removes empty tags from matched tag list RemoveEmptyTags bool }
QueryTemplateOptions controls settings if this query is a template.
type RPCInfo ¶
type RPCInfo interface { RequestDatacenter() string IsRead() bool AllowStaleRead() bool ACLToken() string }
RPCInfo is used to describe common information about query
type RaftConfigurationResponse ¶
type RaftConfigurationResponse struct { // Servers has the list of servers in the Raft configuration. Servers []*RaftServer // Index has the Raft index of this configuration. Index uint64 }
RaftConfigurationResponse is returned when querying for the current Raft configuration.
type RaftIndex ¶
RaftIndex is used to track the index used while creating or modifying a given struct type.
type RaftRemovePeerRequest ¶
type RaftRemovePeerRequest struct { // Datacenter is the target this request is intended for. Datacenter string // Address is the peer to remove, in the form "IP:port". Address raft.ServerAddress // ID is the peer ID to remove. ID raft.ServerID // WriteRequest holds the ACL token to go along with this request. WriteRequest }
RaftRemovePeerRequest is used by the Operator endpoint to apply a Raft operation on a specific Raft peer by address in the form of "IP:port".
func (*RaftRemovePeerRequest) RequestDatacenter ¶
func (op *RaftRemovePeerRequest) RequestDatacenter() string
RequestDatacenter returns the datacenter for a given request.
type RaftServer ¶
type RaftServer struct { // ID is the unique ID for the server. These are currently the same // as the address, but they will be changed to a real GUID in a future // release of Consul. ID raft.ServerID // Node is the node name of the server, as known by Consul, or this // will be set to "(unknown)" otherwise. Node string // Address is the IP:port of the server, used for Raft communications. Address raft.ServerAddress // Leader is true if this server is the current cluster leader. Leader bool // Protocol version is the raft protocol version used by the server ProtocolVersion string // Voter is true if this server has a vote in the cluster. This might // be false if the server is staging and still coming online, or if // it's a non-voting server, which will be added in a future release of // Consul. Voter bool }
RaftServer has information about a server in the Raft configuration.
type RegisterRequest ¶
type RegisterRequest struct { Datacenter string ID types.NodeID Node string Address string TaggedAddresses map[string]string NodeMeta map[string]string Service *NodeService Check *HealthCheck Checks HealthChecks // SkipNodeUpdate can be used when a register request is intended for // updating a service and/or checks, but doesn't want to overwrite any // node information if the node is already registered. If the node // doesn't exist, it will still be created, but if the node exists, any // node portion of this update will not apply. SkipNodeUpdate bool WriteRequest }
RegisterRequest is used for the Catalog.Register endpoint to register a node as providing a service. If no service is provided, the node is registered.
func (*RegisterRequest) ChangesNode ¶
func (r *RegisterRequest) ChangesNode(node *Node) bool
ChangesNode returns true if the given register request changes the given node, which can be nil. This only looks for changes to the node record itself, not any of the health checks.
func (*RegisterRequest) RequestDatacenter ¶
func (r *RegisterRequest) RequestDatacenter() string
type ServerHealth ¶
type ServerHealth struct { // ID is the raft ID of the server. ID string // Name is the node name of the server. Name string // Address is the address of the server. Address string // The status of the SerfHealth check for the server. SerfStatus serf.MemberStatus // Version is the Consul version of the server. Version string // Leader is whether this server is currently the leader. Leader bool // LastContact is the time since this node's last contact with the leader. LastContact time.Duration // LastTerm is the highest leader term this server has a record of in its Raft log. LastTerm uint64 // LastIndex is the last log index this server has a record of in its Raft log. LastIndex uint64 // Healthy is whether or not the server is healthy according to the current // Autopilot config. Healthy bool // Voter is whether this is a voting server. Voter bool // StableSince is the last time this server's Healthy value changed. StableSince time.Time }
ServerHealth is the health (from the leader's point of view) of a server.
func (*ServerHealth) IsHealthy ¶
func (h *ServerHealth) IsHealthy(lastTerm uint64, leaderLastIndex uint64, autopilotConf *AutopilotConfig) bool
IsHealthy determines whether this ServerHealth is considered healthy based on the given Autopilot config
func (*ServerHealth) IsStable ¶
func (h *ServerHealth) IsStable(now time.Time, conf *AutopilotConfig) bool
IsStable returns true if the ServerHealth is in a stable, passing state according to the given AutopilotConfig
type ServerStats ¶
type ServerStats struct { // LastContact is the time since this node's last contact with the leader. LastContact string // LastTerm is the highest leader term this server has a record of in its Raft log. LastTerm uint64 // LastIndex is the last log index this server has a record of in its Raft log. LastIndex uint64 }
ServerStats holds miscellaneous Raft metrics for a server
type ServiceDefinition ¶
type ServiceDefinition struct { ID string Name string Tags []string Address string Port int Check CheckType Checks CheckTypes Token string EnableTagOverride bool }
ServiceDefinition is used to JSON decode the Service definitions
func (*ServiceDefinition) CheckTypes ¶
func (s *ServiceDefinition) CheckTypes() (checks CheckTypes, err error)
func (*ServiceDefinition) NodeService ¶
func (s *ServiceDefinition) NodeService() *NodeService
type ServiceNode ¶
type ServiceNode struct { ID types.NodeID Node string Address string Datacenter string TaggedAddresses map[string]string NodeMeta map[string]string ServiceID string ServiceName string ServiceTags []string ServiceAddress string ServicePort int ServiceEnableTagOverride bool RaftIndex }
ServiceNode represents a node that is part of a service. ID, Address, TaggedAddresses, and NodeMeta are node-related fields that are always empty in the state store and are filled in on the way out by parseServiceNodes(). This is also why PartialClone() skips them, because we know they are blank already so it would be a waste of time to copy them.
func (*ServiceNode) PartialClone ¶
func (s *ServiceNode) PartialClone() *ServiceNode
PartialClone() returns a clone of the given service node, minus the node- related fields that get filled in later, Address and TaggedAddresses.
func (*ServiceNode) ToNodeService ¶
func (s *ServiceNode) ToNodeService() *NodeService
ToNodeService converts the given service node to a node service.
type ServiceNodes ¶
type ServiceNodes []*ServiceNode
type ServiceQuery ¶
type ServiceQuery struct { // Service is the service to query. Service string // Failover controls what we do if there are no healthy nodes in the // local datacenter. Failover QueryDatacenterOptions // If OnlyPassing is true then we will only include nodes with passing // health checks (critical AND warning checks will cause a node to be // discarded) OnlyPassing bool // Near allows the query to always prefer the node nearest the given // node. If the node does not exist, results are returned in their // normal randomly-shuffled order. Supplying the magic "_agent" value // is supported to sort near the agent which initiated the request. Near string // Tags are a set of required and/or disallowed tags. If a tag is in // this list it must be present. If the tag is preceded with "!" then // it is disallowed. Tags []string // NodeMeta is a map of required node metadata fields. If a key/value // pair is in this map it must be present on the node in order for the // service entry to be returned. NodeMeta map[string]string }
ServiceQuery is used to query for a set of healthy nodes offering a specific service.
type ServiceSpecificRequest ¶
type ServiceSpecificRequest struct { Datacenter string NodeMetaFilters map[string]string ServiceName string ServiceTag string TagFilter bool // Controls tag filtering Source QuerySource QueryOptions }
ServiceSpecificRequest is used to query about a specific service
func (*ServiceSpecificRequest) RequestDatacenter ¶
func (r *ServiceSpecificRequest) RequestDatacenter() string
type Services ¶
Used to return information about a provided services. Maps service name to available tags
type Session ¶
type Session struct { ID string Name string Node string Checks []types.CheckID LockDelay time.Duration Behavior SessionBehavior // What to do when session is invalidated TTL string RaftIndex }
Session is used to represent an open session in the KV store. This issued to associate node checks with acquired locks.
type SessionBehavior ¶
type SessionBehavior string
const ( SessionKeysRelease SessionBehavior = "release" SessionKeysDelete = "delete" )
type SessionOp ¶
type SessionOp string
const ( SessionCreate SessionOp = "create" SessionDestroy = "destroy" )
type SessionRequest ¶
type SessionRequest struct { Datacenter string Op SessionOp // Which operation are we performing Session Session // Which session WriteRequest }
SessionRequest is used to operate on sessions
func (*SessionRequest) RequestDatacenter ¶
func (r *SessionRequest) RequestDatacenter() string
type SessionSpecificRequest ¶
type SessionSpecificRequest struct { Datacenter string Session string QueryOptions }
SessionSpecificRequest is used to request a session by ID
func (*SessionSpecificRequest) RequestDatacenter ¶
func (r *SessionSpecificRequest) RequestDatacenter() string
type SnapshotReplyFn ¶
type SnapshotReplyFn func(reply *SnapshotResponse) error
SnapshotReplyFn gets a peek at the reply before the snapshot streams, which is useful for setting headers.
type SnapshotRequest ¶
type SnapshotRequest struct { // Datacenter is the target datacenter for this request. The request // will be forwarded if necessary. Datacenter string // Token is the ACL token to use for the operation. If ACLs are enabled // then all operations require a management token. Token string // If set, any follower can service the request. Results may be // arbitrarily stale. Only applies to SnapshotSave. AllowStale bool // Op is the operation code for the RPC. Op SnapshotOp }
SnapshotRequest is used as a header for a snapshot RPC request. This will precede any streaming data that's part of the request and is JSON-encoded on the wire.
type SnapshotResponse ¶
type SnapshotResponse struct { // Error is the overall error status of the RPC request. Error string // QueryMeta has freshness information about the server that handled the // request. It is only filled in for a SnapshotSave. QueryMeta }
SnapshotResponse is used header for a snapshot RPC response. This will precede any streaming data that's part of the request and is JSON-encoded on the wire.
type TombstoneRequest ¶
type TombstoneRequest struct { Datacenter string Op TombstoneOp ReapIndex uint64 WriteRequest }
TombstoneRequest is used to trigger a reaping of the tombstones
func (*TombstoneRequest) RequestDatacenter ¶
func (r *TombstoneRequest) RequestDatacenter() string
type TxnKVResult ¶
type TxnKVResult *DirEntry
TxnKVResult is used to define the result of a single operation on the KVS inside a transaction.
type TxnOp ¶
type TxnOp struct {
KV *TxnKVOp
}
TxnOp is used to define a single operation inside a transaction. Only one of the types should be filled out per entry.
type TxnReadRequest ¶
type TxnReadRequest struct { Datacenter string Ops TxnOps QueryOptions }
TxnReadRequest is used as a fast path for read-only transactions that don't modify the state store.
func (*TxnReadRequest) RequestDatacenter ¶
func (r *TxnReadRequest) RequestDatacenter() string
type TxnReadResponse ¶
type TxnReadResponse struct { TxnResponse QueryMeta }
TxnReadResponse is the structure returned by a TxnReadRequest.
type TxnRequest ¶
type TxnRequest struct { Datacenter string Ops TxnOps WriteRequest }
TxnRequest is used to apply multiple operations to the state store in a single transaction
func (*TxnRequest) RequestDatacenter ¶
func (r *TxnRequest) RequestDatacenter() string
type TxnResponse ¶
type TxnResponse struct { Results TxnResults Errors TxnErrors }
TxnResponse is the structure returned by a TxnRequest.
type TxnResult ¶
type TxnResult struct {
KV TxnKVResult
}
TxnResult is used to define the result of a given operation inside a transaction. Only one of the types should be filled out per entry.
type WriteRequest ¶
type WriteRequest struct { // Token is the ACL token ID. If not provided, the 'anonymous' // token is assumed for backwards compatibility. Token string }
func (WriteRequest) ACLToken ¶
func (w WriteRequest) ACLToken() string
func (WriteRequest) AllowStaleRead ¶
func (w WriteRequest) AllowStaleRead() bool
func (WriteRequest) IsRead ¶
func (w WriteRequest) IsRead() bool
WriteRequest only applies to writes, always false