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Published: Sep 13, 2018 License: MPL-2.0 Imports: 15 Imported by: 0

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Constants

This section is empty.

Variables

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var (
	// ErrMissingNode is the error returned when trying an operation
	// which requires a node registration but none exists.
	ErrMissingNode = errors.New("Missing node registration")

	// ErrMissingService is the error we return if trying an
	// operation which requires a service but none exists.
	ErrMissingService = errors.New("Missing service registration")

	// ErrMissingSessionID is returned when a session registration
	// is attempted with an empty session ID.
	ErrMissingSessionID = errors.New("Missing session ID")

	// ErrMissingACLID is returned when an ACL set is called on
	// an ACL with an empty ID.
	ErrMissingACLID = errors.New("Missing ACL ID")

	// ErrMissingQueryID is returned when a Query set is called on
	// a Query with an empty ID.
	ErrMissingQueryID = errors.New("Missing Query ID")

	// ErrMissingCARootID is returned when an CARoot set is called
	// with an CARoot with an empty ID.
	ErrMissingCARootID = errors.New("Missing CA Root ID")

	// ErrMissingIntentionID is returned when an Intention set is called
	// with an Intention with an empty ID.
	ErrMissingIntentionID = errors.New("Missing Intention ID")
)

Functions

This section is empty.

Types

type Delay

type Delay struct {
	// contains filtered or unexported fields
}

Delay is used to mark certain locks as unacquirable. When a lock is forcefully released (failing health check, destroyed session, etc.), it is subject to the LockDelay imposed by the session. This prevents another session from acquiring the lock for some period of time as a protection against split-brains. This is inspired by the lock-delay in Chubby. Because this relies on wall-time, we cannot assume all peers perceive time as flowing uniformly. This means KVSLock MUST ignore lockDelay, since the lockDelay may have expired on the leader, but not on the follower. Rejecting the lock could result in inconsistencies in the FSMs due to the rate time progresses. Instead, only the opinion of the leader is respected, and the Raft log is never questioned.

func NewDelay

func NewDelay() *Delay

NewDelay returns a new delay manager.

func (*Delay) GetExpiration

func (d *Delay) GetExpiration(key string) time.Time

GetExpiration returns the expiration time of a key lock delay. This must be checked on the leader node, and not in KVSLock due to the variability of clocks.

func (*Delay) SetExpiration

func (d *Delay) SetExpiration(key string, now time.Time, delay time.Duration)

SetExpiration sets the expiration time for the lock delay to the given delay from the given now time.

type Graveyard

type Graveyard struct {
	// contains filtered or unexported fields
}

Graveyard manages a set of tombstones.

func NewGraveyard

func NewGraveyard(gc *TombstoneGC) *Graveyard

NewGraveyard returns a new graveyard.

func (*Graveyard) DumpTxn

func (g *Graveyard) DumpTxn(tx *memdb.Txn) (memdb.ResultIterator, error)

DumpTxn returns all the tombstones.

func (*Graveyard) GetMaxIndexTxn

func (g *Graveyard) GetMaxIndexTxn(tx *memdb.Txn, prefix string) (uint64, error)

GetMaxIndexTxn returns the highest index tombstone whose key matches the given context, using a prefix match.

func (*Graveyard) InsertTxn

func (g *Graveyard) InsertTxn(tx *memdb.Txn, key string, idx uint64) error

InsertTxn adds a new tombstone.

func (*Graveyard) ReapTxn

func (g *Graveyard) ReapTxn(tx *memdb.Txn, idx uint64) error

ReapTxn cleans out all tombstones whose index values are less than or equal to the given idx. This prevents unbounded storage growth of the tombstones.

func (*Graveyard) RestoreTxn

func (g *Graveyard) RestoreTxn(tx *memdb.Txn, stone *Tombstone) error

RestoreTxn is used when restoring from a snapshot. For general inserts, use InsertTxn.

type IndexConnectService added in v1.2.0

type IndexConnectService struct{}

IndexConnectService indexes a *struct.ServiceNode for querying by services that support Connect to some target service. This will properly index the proxy destination for proxies and the service name for native services.

func (*IndexConnectService) FromArgs added in v1.2.0

func (idx *IndexConnectService) FromArgs(args ...interface{}) ([]byte, error)

func (*IndexConnectService) FromObject added in v1.2.0

func (idx *IndexConnectService) FromObject(obj interface{}) (bool, []byte, error)

type IndexEntry

type IndexEntry struct {
	Key   string
	Value uint64
}

IndexEntry keeps a record of the last index per-table.

type PreparedQueryIndex

type PreparedQueryIndex struct {
}

PreparedQueryIndex is a custom memdb indexer used to manage index prepared query templates. None of the built-in indexers do what we need, and our use case is pretty specific so it's better to put the logic here.

func (*PreparedQueryIndex) FromArgs

func (p *PreparedQueryIndex) FromArgs(args ...interface{}) ([]byte, error)

FromArgs is used when querying for an exact match. Since we don't add any suffix we can just call the prefix version.

func (*PreparedQueryIndex) FromObject

func (*PreparedQueryIndex) FromObject(obj interface{}) (bool, []byte, error)

FromObject is used to compute the index key when inserting or updating an object.

func (*PreparedQueryIndex) PrefixFromArgs

func (*PreparedQueryIndex) PrefixFromArgs(args ...interface{}) ([]byte, error)

PrefixFromArgs is used when doing a prefix scan for an object.

type Restore

type Restore struct {
	// contains filtered or unexported fields
}

Restore is used to efficiently manage restoring a large amount of data to a state store.

func (*Restore) ACL

func (s *Restore) ACL(acl *structs.ACL) error

ACL is used when restoring from a snapshot. For general inserts, use ACLSet.

func (*Restore) ACLBootstrap added in v0.9.1

func (s *Restore) ACLBootstrap(bs *structs.ACLBootstrap) error

ACLBootstrap is used to restore the ACL bootstrap info from the snapshot.

func (*Restore) Abort

func (s *Restore) Abort()

Abort abandons the changes made by a restore. This or Commit should always be called.

func (*Restore) Autopilot

func (s *Restore) Autopilot(config *autopilot.Config) error

Autopilot is used when restoring from a snapshot.

func (*Restore) CAConfig added in v1.2.0

func (s *Restore) CAConfig(config *structs.CAConfiguration) error

CAConfig is used when restoring from a snapshot.

func (*Restore) CAProviderState added in v1.2.0

func (s *Restore) CAProviderState(state *structs.CAConsulProviderState) error

CAProviderState is used when restoring from a snapshot.

func (*Restore) CARoot added in v1.2.0

func (s *Restore) CARoot(r *structs.CARoot) error

CARoots is used when restoring from a snapshot.

func (*Restore) Commit

func (s *Restore) Commit()

Commit commits the changes made by a restore. This or Abort should always be called.

func (*Restore) Coordinates

func (s *Restore) Coordinates(idx uint64, updates structs.Coordinates) error

Coordinates is used when restoring from a snapshot. For general inserts, use CoordinateBatchUpdate. We do less vetting of the updates here because they already got checked on the way in during a batch update.

func (*Restore) Intention added in v1.2.0

func (s *Restore) Intention(ixn *structs.Intention) error

Intention is used when restoring from a snapshot.

func (*Restore) KVS

func (s *Restore) KVS(entry *structs.DirEntry) error

KVS is used when restoring from a snapshot. Use KVSSet for general inserts.

func (*Restore) PreparedQuery

func (s *Restore) PreparedQuery(query *structs.PreparedQuery) error

PreparedQuery is used when restoring from a snapshot. For general inserts, use PreparedQuerySet.

func (*Restore) Registration

func (s *Restore) Registration(idx uint64, req *structs.RegisterRequest) error

Registration is used to make sure a node, service, and check registration is performed within a single transaction to avoid race conditions on state updates.

func (*Restore) Session

func (s *Restore) Session(sess *structs.Session) error

Session is used when restoring from a snapshot. For general inserts, use SessionCreate.

func (*Restore) Tombstone

func (s *Restore) Tombstone(stone *Tombstone) error

Tombstone is used when restoring from a snapshot. For general inserts, use Graveyard.InsertTxn.

type Snapshot

type Snapshot struct {
	// contains filtered or unexported fields
}

Snapshot is used to provide a point-in-time snapshot. It works by starting a read transaction against the whole state store.

func (*Snapshot) ACLBootstrap added in v0.9.1

func (s *Snapshot) ACLBootstrap() (*structs.ACLBootstrap, error)

ACLBootstrap is used to pull the ACL bootstrap info from the snapshot. This might return nil, in which case nothing should be saved to the snapshot.

func (*Snapshot) ACLs

func (s *Snapshot) ACLs() (memdb.ResultIterator, error)

ACLs is used to pull all the ACLs from the snapshot.

func (*Snapshot) Autopilot

func (s *Snapshot) Autopilot() (*autopilot.Config, error)

Autopilot is used to pull the autopilot config from the snapshot.

func (*Snapshot) CAConfig added in v1.2.0

func (s *Snapshot) CAConfig() (*structs.CAConfiguration, error)

CAConfig is used to pull the CA config from the snapshot.

func (*Snapshot) CAProviderState added in v1.2.0

func (s *Snapshot) CAProviderState() ([]*structs.CAConsulProviderState, error)

CAProviderState is used to pull the built-in provider states from the snapshot.

func (*Snapshot) CARoots added in v1.2.0

func (s *Snapshot) CARoots() (structs.CARoots, error)

CARoots is used to pull all the CA roots for the snapshot.

func (*Snapshot) Checks

func (s *Snapshot) Checks(node string) (memdb.ResultIterator, error)

Checks is used to pull the full list of checks for a given node for use during snapshots.

func (*Snapshot) Close

func (s *Snapshot) Close()

Close performs cleanup of a state snapshot.

func (*Snapshot) Coordinates

func (s *Snapshot) Coordinates() (memdb.ResultIterator, error)

Coordinates is used to pull all the coordinates from the snapshot.

func (*Snapshot) Intentions added in v1.2.0

func (s *Snapshot) Intentions() (structs.Intentions, error)

Intentions is used to pull all the intentions from the snapshot.

func (*Snapshot) KVs

func (s *Snapshot) KVs() (memdb.ResultIterator, error)

KVs is used to pull the full list of KVS entries for use during snapshots.

func (*Snapshot) LastIndex

func (s *Snapshot) LastIndex() uint64

LastIndex returns that last index that affects the snapshotted data.

func (*Snapshot) Nodes

func (s *Snapshot) Nodes() (memdb.ResultIterator, error)

Nodes is used to pull the full list of nodes for use during snapshots.

func (*Snapshot) PreparedQueries

func (s *Snapshot) PreparedQueries() (structs.PreparedQueries, error)

PreparedQueries is used to pull all the prepared queries from the snapshot.

func (*Snapshot) Services

func (s *Snapshot) Services(node string) (memdb.ResultIterator, error)

Services is used to pull the full list of services for a given node for use during snapshots.

func (*Snapshot) Sessions

func (s *Snapshot) Sessions() (memdb.ResultIterator, error)

Sessions is used to pull the full list of sessions for use during snapshots.

func (*Snapshot) Tombstones

func (s *Snapshot) Tombstones() (memdb.ResultIterator, error)

Tombstones is used to pull all the tombstones from the graveyard.

type Store

type Store struct {
	// contains filtered or unexported fields
}

Store is where we store all of Consul's state, including records of node registrations, services, checks, key/value pairs and more. The DB is entirely in-memory and is constructed from the Raft log through the FSM.

func NewStateStore

func NewStateStore(gc *TombstoneGC) (*Store, error)

NewStateStore creates a new in-memory state storage layer.

func (*Store) ACLBootstrap added in v0.9.1

func (s *Store) ACLBootstrap(idx uint64, acl *structs.ACL) error

ACLBootstrap is used to perform a one-time ACL bootstrap operation on a cluster to get the first management token.

func (*Store) ACLBootstrapInit added in v0.9.1

func (s *Store) ACLBootstrapInit(idx uint64) (bool, error)

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. This is because the state store snapshots would become incompatible with older agents if we added this on the fly, so we rely on the leader to determine a safe time to add this so we can start tracking whether bootstrap is enabled. This will return an error if bootstrap is already initialized.

This returns a boolean indicating if ACL boostrapping is enabled.

func (*Store) ACLDelete

func (s *Store) ACLDelete(idx uint64, aclID string) error

ACLDelete is used to remove an existing ACL from the state store. If the ACL does not exist this is a no-op and no error is returned.

func (*Store) ACLGet

func (s *Store) ACLGet(ws memdb.WatchSet, aclID string) (uint64, *structs.ACL, error)

ACLGet is used to look up an existing ACL by ID.

func (*Store) ACLGetBootstrap added in v0.9.1

func (s *Store) ACLGetBootstrap() (*structs.ACLBootstrap, error)

ACLGetBootstrap returns the ACL bootstrap status for the cluster, which might be nil if it hasn't yet been initialized.

func (*Store) ACLList

func (s *Store) ACLList(ws memdb.WatchSet) (uint64, structs.ACLs, error)

ACLList is used to list out all of the ACLs in the state store.

func (*Store) ACLSet

func (s *Store) ACLSet(idx uint64, acl *structs.ACL) error

ACLSet is used to insert an ACL rule into the state store.

func (*Store) Abandon

func (s *Store) Abandon()

Abandon is used to signal that the given state store has been abandoned. Calling this more than one time will panic.

func (*Store) AbandonCh

func (s *Store) AbandonCh() <-chan struct{}

AbandonCh returns a channel you can wait on to know if the state store was abandoned.

func (*Store) AutopilotCASConfig

func (s *Store) AutopilotCASConfig(idx, cidx uint64, config *autopilot.Config) (bool, error)

AutopilotCASConfig is used to try updating the Autopilot configuration with a given Raft index. If the CAS index specified is not equal to the last observed index for the config, then the call is a noop,

func (*Store) AutopilotConfig

func (s *Store) AutopilotConfig() (uint64, *autopilot.Config, error)

AutopilotConfig is used to get the current Autopilot configuration.

func (*Store) AutopilotSetConfig

func (s *Store) AutopilotSetConfig(idx uint64, config *autopilot.Config) error

AutopilotSetConfig is used to set the current Autopilot configuration.

func (*Store) CACheckAndSetConfig added in v1.2.0

func (s *Store) CACheckAndSetConfig(idx, cidx uint64, config *structs.CAConfiguration) (bool, error)

CACheckAndSetConfig is used to try updating the CA configuration with a given Raft index. If the CAS index specified is not equal to the last observed index for the config, then the call is a noop,

func (*Store) CAConfig added in v1.2.0

func (s *Store) CAConfig() (uint64, *structs.CAConfiguration, error)

CAConfig is used to get the current CA configuration.

func (*Store) CADeleteProviderState added in v1.2.0

func (s *Store) CADeleteProviderState(id string) error

CADeleteProviderState is used to remove the built-in Consul CA provider state for the given ID.

func (*Store) CAProviderState added in v1.2.0

func (s *Store) CAProviderState(id string) (uint64, *structs.CAConsulProviderState, error)

CAProviderState is used to get the Consul CA provider state for the given ID.

func (*Store) CARootActive added in v1.2.0

func (s *Store) CARootActive(ws memdb.WatchSet) (uint64, *structs.CARoot, error)

CARootActive returns the currently active CARoot.

func (*Store) CARootSetCAS added in v1.2.0

func (s *Store) CARootSetCAS(idx, cidx uint64, rs []*structs.CARoot) (bool, error)

CARootSetCAS sets the current CA root state using a check-and-set operation. On success, this will replace the previous set of CARoots completely with the given set of roots.

The first boolean result returns whether the transaction succeeded or not.

func (*Store) CARoots added in v1.2.0

func (s *Store) CARoots(ws memdb.WatchSet) (uint64, structs.CARoots, error)

CARoots returns the list of all CA roots.

func (*Store) CASetConfig added in v1.2.0

func (s *Store) CASetConfig(idx uint64, config *structs.CAConfiguration) error

CASetConfig is used to set the current CA configuration.

func (*Store) CASetProviderState added in v1.2.0

func (s *Store) CASetProviderState(idx uint64, state *structs.CAConsulProviderState) (bool, error)

CASetProviderState is used to set the current built-in CA provider state.

func (*Store) CheckConnectServiceNodes added in v1.2.0

func (s *Store) CheckConnectServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.CheckServiceNodes, error)

CheckConnectServiceNodes is used to query all nodes and checks for Connect compatible endpoints for a given service.

func (*Store) CheckServiceNodes

func (s *Store) CheckServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.CheckServiceNodes, error)

CheckServiceNodes is used to query all nodes and checks for a given service.

func (*Store) CheckServiceTagNodes

func (s *Store) CheckServiceTagNodes(ws memdb.WatchSet, serviceName, tag string) (uint64, structs.CheckServiceNodes, error)

CheckServiceTagNodes is used to query all nodes and checks for a given service, filtering out services that don't contain the given tag.

func (*Store) ChecksInState

func (s *Store) ChecksInState(ws memdb.WatchSet, state string) (uint64, structs.HealthChecks, error)

ChecksInState is used to query the state store for all checks which are in the provided state.

func (*Store) ChecksInStateByNodeMeta

func (s *Store) ChecksInStateByNodeMeta(ws memdb.WatchSet, state string, filters map[string]string) (uint64, structs.HealthChecks, error)

ChecksInStateByNodeMeta is used to query the state store for all checks which are in the provided state, filtered by the given node metadata values.

func (*Store) ConnectServiceNodes added in v1.2.0

func (s *Store) ConnectServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.ServiceNodes, error)

ConnectServiceNodes returns the nodes associated with a Connect compatible destination for the given service name. This will include both proxies and native integrations.

func (*Store) Coordinate added in v0.9.3

func (s *Store) Coordinate(node string, ws memdb.WatchSet) (uint64, lib.CoordinateSet, error)

Coordinate returns a map of coordinates for the given node, indexed by network segment.

func (*Store) CoordinateBatchUpdate

func (s *Store) CoordinateBatchUpdate(idx uint64, updates structs.Coordinates) error

CoordinateBatchUpdate processes a batch of coordinate updates and applies them in a single transaction.

func (*Store) Coordinates

func (s *Store) Coordinates(ws memdb.WatchSet) (uint64, structs.Coordinates, error)

Coordinates queries for all nodes with coordinates.

func (*Store) DeleteCheck

func (s *Store) DeleteCheck(idx uint64, node string, checkID types.CheckID) error

DeleteCheck is used to delete a health check registration.

func (*Store) DeleteNode

func (s *Store) DeleteNode(idx uint64, nodeName string) error

DeleteNode is used to delete a given node by its ID.

func (*Store) DeleteService

func (s *Store) DeleteService(idx uint64, nodeName, serviceID string) error

DeleteService is used to delete a given service associated with a node.

func (*Store) EnsureCheck

func (s *Store) EnsureCheck(idx uint64, hc *structs.HealthCheck) error

EnsureCheck is used to store a check registration in the db.

func (*Store) EnsureNode

func (s *Store) EnsureNode(idx uint64, node *structs.Node) error

EnsureNode is used to upsert node registration or modification.

func (*Store) EnsureRegistration

func (s *Store) EnsureRegistration(idx uint64, req *structs.RegisterRequest) error

EnsureRegistration is used to make sure a node, service, and check registration is performed within a single transaction to avoid race conditions on state updates.

func (*Store) EnsureService

func (s *Store) EnsureService(idx uint64, node string, svc *structs.NodeService) error

EnsureService is called to upsert creation of a given NodeService.

func (*Store) GetNode

func (s *Store) GetNode(id string) (uint64, *structs.Node, error)

GetNode is used to retrieve a node registration by node name ID.

func (*Store) GetNodeID

func (s *Store) GetNodeID(id types.NodeID) (uint64, *structs.Node, error)

GetNodeID is used to retrieve a node registration by node ID.

func (*Store) IntentionDelete added in v1.2.0

func (s *Store) IntentionDelete(idx uint64, id string) error

IntentionDelete deletes the given intention by ID.

func (*Store) IntentionGet added in v1.2.0

func (s *Store) IntentionGet(ws memdb.WatchSet, id string) (uint64, *structs.Intention, error)

IntentionGet returns the given intention by ID.

func (*Store) IntentionMatch added in v1.2.0

func (s *Store) IntentionMatch(ws memdb.WatchSet, args *structs.IntentionQueryMatch) (uint64, []structs.Intentions, error)

IntentionMatch returns the list of intentions that match the namespace and name for either a source or destination. This applies the resolution rules so wildcards will match any value.

The returned value is the list of intentions in the same order as the entries in args. The intentions themselves are sorted based on the intention precedence rules. i.e. result[0][0] is the highest precedent rule to match for the first entry.

func (*Store) IntentionSet added in v1.2.0

func (s *Store) IntentionSet(idx uint64, ixn *structs.Intention) error

IntentionSet creates or updates an intention.

func (*Store) Intentions added in v1.2.0

func (s *Store) Intentions(ws memdb.WatchSet) (uint64, structs.Intentions, error)

Intentions returns the list of all intentions.

func (*Store) KVSDelete

func (s *Store) KVSDelete(idx uint64, key string) error

KVSDelete is used to perform a shallow delete on a single key in the the state store.

func (*Store) KVSDeleteCAS

func (s *Store) KVSDeleteCAS(idx, cidx uint64, key string) (bool, error)

KVSDeleteCAS is used to try doing a KV delete operation with a given raft index. If the CAS index specified is not equal to the last observed index for the given key, then the call is a noop, otherwise a normal KV delete is invoked.

func (*Store) KVSDeleteTree

func (s *Store) KVSDeleteTree(idx uint64, prefix string) error

KVSDeleteTree is used to do a recursive delete on a key prefix in the state store. If any keys are modified, the last index is set, otherwise this is a no-op.

func (*Store) KVSGet

func (s *Store) KVSGet(ws memdb.WatchSet, key string) (uint64, *structs.DirEntry, error)

KVSGet is used to retrieve a key/value pair from the state store.

func (*Store) KVSList

func (s *Store) KVSList(ws memdb.WatchSet, prefix string) (uint64, structs.DirEntries, error)

KVSList is used to list out all keys under a given prefix. If the prefix is left empty, all keys in the KVS will be returned. The returned is the max index of the returned kvs entries or applicable tombstones, or else it's the full table indexes for kvs and tombstones.

func (*Store) KVSListKeys

func (s *Store) KVSListKeys(ws memdb.WatchSet, prefix, sep string) (uint64, []string, error)

KVSListKeys is used to query the KV store for keys matching the given prefix. An optional separator may be specified, which can be used to slice off a part of the response so that only a subset of the prefix is returned. In this mode, the keys which are omitted are still counted in the returned index.

func (*Store) KVSLock

func (s *Store) KVSLock(idx uint64, entry *structs.DirEntry) (bool, error)

KVSLock is similar to KVSSet but only performs the set if the lock can be acquired.

func (*Store) KVSLockDelay

func (s *Store) KVSLockDelay(key string) time.Time

KVSLockDelay returns the expiration time for any lock delay associated with the given key.

func (*Store) KVSSet

func (s *Store) KVSSet(idx uint64, entry *structs.DirEntry) error

KVSSet is used to store a key/value pair.

func (*Store) KVSSetCAS

func (s *Store) KVSSetCAS(idx uint64, entry *structs.DirEntry) (bool, error)

KVSSetCAS is used to do a check-and-set operation on a KV entry. The ModifyIndex in the provided entry is used to determine if we should write the entry to the state store or bail. Returns a bool indicating if a write happened and any error.

func (*Store) KVSUnlock

func (s *Store) KVSUnlock(idx uint64, entry *structs.DirEntry) (bool, error)

KVSUnlock is similar to KVSSet but only performs the set if the lock can be unlocked (the key must already exist and be locked).

func (*Store) NodeCheck

func (s *Store) NodeCheck(nodeName string, checkID types.CheckID) (uint64, *structs.HealthCheck, error)

NodeCheck is used to retrieve a specific check associated with the given node.

func (*Store) NodeChecks

func (s *Store) NodeChecks(ws memdb.WatchSet, nodeName string) (uint64, structs.HealthChecks, error)

NodeChecks is used to retrieve checks associated with the given node from the state store.

func (*Store) NodeDump

func (s *Store) NodeDump(ws memdb.WatchSet) (uint64, structs.NodeDump, error)

NodeDump is used to generate a dump of all nodes. This call is expensive as it has to query every node, service, and check. The response can also be quite large since there is currently no filtering applied.

func (*Store) NodeInfo

func (s *Store) NodeInfo(ws memdb.WatchSet, node string) (uint64, structs.NodeDump, error)

NodeInfo is used to generate a dump of a single node. The dump includes all services and checks which are registered against the node.

func (*Store) NodeService

func (s *Store) NodeService(nodeName string, serviceID string) (uint64, *structs.NodeService, error)

NodeService is used to retrieve a specific service associated with the given node.

func (*Store) NodeServices

func (s *Store) NodeServices(ws memdb.WatchSet, nodeNameOrID string) (uint64, *structs.NodeServices, error)

NodeServices is used to query service registrations by node name or UUID.

func (*Store) NodeSessions

func (s *Store) NodeSessions(ws memdb.WatchSet, nodeID string) (uint64, structs.Sessions, error)

NodeSessions returns a set of active sessions associated with the given node ID. The returned index is the highest index seen from the result set.

func (*Store) Nodes

func (s *Store) Nodes(ws memdb.WatchSet) (uint64, structs.Nodes, error)

Nodes is used to return all of the known nodes.

func (*Store) NodesByMeta

func (s *Store) NodesByMeta(ws memdb.WatchSet, filters map[string]string) (uint64, structs.Nodes, error)

NodesByMeta is used to return all nodes with the given metadata key/value pairs.

func (*Store) PreparedQueryDelete

func (s *Store) PreparedQueryDelete(idx uint64, queryID string) error

PreparedQueryDelete deletes the given query by ID.

func (*Store) PreparedQueryGet

func (s *Store) PreparedQueryGet(ws memdb.WatchSet, queryID string) (uint64, *structs.PreparedQuery, error)

PreparedQueryGet returns the given prepared query by ID.

func (*Store) PreparedQueryList

func (s *Store) PreparedQueryList(ws memdb.WatchSet) (uint64, structs.PreparedQueries, error)

PreparedQueryList returns all the prepared queries.

func (*Store) PreparedQueryResolve

func (s *Store) PreparedQueryResolve(queryIDOrName string, source structs.QuerySource) (uint64, *structs.PreparedQuery, error)

PreparedQueryResolve returns the given prepared query by looking up an ID or Name. If the query was looked up by name and it's a template, then the template will be rendered before it is returned.

func (*Store) PreparedQuerySet

func (s *Store) PreparedQuerySet(idx uint64, query *structs.PreparedQuery) error

PreparedQuerySet is used to create or update a prepared query.

func (*Store) ReapTombstones

func (s *Store) ReapTombstones(index uint64) error

ReapTombstones is used to delete all the tombstones with an index less than or equal to the given index. This is used to prevent unbounded storage growth of the tombstones.

func (*Store) Restore

func (s *Store) Restore() *Restore

Restore is used to efficiently manage restoring a large amount of data into the state store. It works by doing all the restores inside of a single transaction.

func (*Store) ServiceAddressNodes added in v1.2.0

func (s *Store) ServiceAddressNodes(ws memdb.WatchSet, address string) (uint64, structs.ServiceNodes, error)

ServiceAddressNodes returns the nodes associated with a given service, filtering out services that don't match the given serviceAddress

func (*Store) ServiceChecks

func (s *Store) ServiceChecks(ws memdb.WatchSet, serviceName string) (uint64, structs.HealthChecks, error)

ServiceChecks is used to get all checks associated with a given service ID. The query is performed against a service _name_ instead of a service ID.

func (*Store) ServiceChecksByNodeMeta

func (s *Store) ServiceChecksByNodeMeta(ws memdb.WatchSet, serviceName string,
	filters map[string]string) (uint64, structs.HealthChecks, error)

ServiceChecksByNodeMeta is used to get all checks associated with a given service ID, filtered by the given node metadata values. The query is performed against a service _name_ instead of a service ID.

func (*Store) ServiceNodes

func (s *Store) ServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.ServiceNodes, error)

ServiceNodes returns the nodes associated with a given service name.

func (*Store) ServiceTagNodes

func (s *Store) ServiceTagNodes(ws memdb.WatchSet, service string, tag string) (uint64, structs.ServiceNodes, error)

ServiceTagNodes returns the nodes associated with a given service, filtering out services that don't contain the given tag.

func (*Store) Services

func (s *Store) Services(ws memdb.WatchSet) (uint64, structs.Services, error)

Services returns all services along with a list of associated tags.

func (*Store) ServicesByNodeMeta

func (s *Store) ServicesByNodeMeta(ws memdb.WatchSet, filters map[string]string) (uint64, structs.Services, error)

ServicesByNodeMeta returns all services, filtered by the given node metadata.

func (*Store) SessionCreate

func (s *Store) SessionCreate(idx uint64, sess *structs.Session) error

SessionCreate is used to register a new session in the state store.

func (*Store) SessionDestroy

func (s *Store) SessionDestroy(idx uint64, sessionID string) error

SessionDestroy is used to remove an active session. This will implicitly invalidate the session and invoke the specified session destroy behavior.

func (*Store) SessionGet

func (s *Store) SessionGet(ws memdb.WatchSet, sessionID string) (uint64, *structs.Session, error)

SessionGet is used to retrieve an active session from the state store.

func (*Store) SessionList

func (s *Store) SessionList(ws memdb.WatchSet) (uint64, structs.Sessions, error)

SessionList returns a slice containing all of the active sessions.

func (*Store) Snapshot

func (s *Store) Snapshot() *Snapshot

Snapshot is used to create a point-in-time snapshot of the entire db.

func (*Store) TxnRO

TxnRO runs the given operations inside a single read transaction in the state store. You must verify outside this function that no write operations are present, otherwise you'll get an error from the state store.

func (*Store) TxnRW

func (s *Store) TxnRW(idx uint64, ops structs.TxnOps) (structs.TxnResults, structs.TxnErrors)

TxnRW tries to run the given operations all inside a single transaction. If any of the operations fail, the entire transaction will be rolled back. This is done in a full write transaction on the state store, so reads and writes are possible

type Tombstone

type Tombstone struct {
	Key   string
	Index uint64
}

Tombstone is the internal type used to track tombstones.

type TombstoneGC

type TombstoneGC struct {
	sync.Mutex
	// contains filtered or unexported fields
}

TombstoneGC is used to track creation of tombstones so that they can be garbage collected after their TTL expires. The tombstones allow queries to provide monotonic index values within the TTL window. The GC is used to prevent monotonic growth in storage usage. This is a trade off between the length of the TTL and the storage overhead.

In practice, this is required to fix the issue of delete visibility. When data is deleted from the KV store, the "latest" row can go backwards if the newest row is removed. The tombstones provide a way to ensure time doesn't move backwards within some interval.

func NewTombstoneGC

func NewTombstoneGC(ttl, granularity time.Duration) (*TombstoneGC, error)

NewTombstoneGC is used to construct a new TombstoneGC given a TTL for tombstones and a tracking granularity. Longer TTLs ensure correct behavior for more time, but use more storage. A shorter granularity increases the number of Raft transactions and reduce how far past the TTL we perform GC.

func (*TombstoneGC) ExpireCh

func (t *TombstoneGC) ExpireCh() <-chan uint64

ExpireCh is used to return a channel that streams the next index that should be expired.

func (*TombstoneGC) Hint

func (t *TombstoneGC) Hint(index uint64)

Hint is used to indicate that keys at the given index have been deleted, and that their GC should be scheduled.

func (*TombstoneGC) PendingExpiration

func (t *TombstoneGC) PendingExpiration() bool

PendingExpiration is used to check if any expirations are pending.

func (*TombstoneGC) SetEnabled

func (t *TombstoneGC) SetEnabled(enabled bool)

SetEnabled is used to control if the tombstone GC is enabled. Should only be enabled by the leader node.

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