mirror of https://github.com/status-im/consul.git
223 lines
6.4 KiB
Go
223 lines
6.4 KiB
Go
package state
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import (
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"errors"
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"fmt"
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"github.com/hashicorp/consul/types"
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"github.com/hashicorp/go-memdb"
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)
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var (
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// ErrMissingNode is the error returned when trying an operation
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// which requires a node registration but none exists.
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ErrMissingNode = errors.New("Missing node registration")
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// ErrMissingService is the error we return if trying an
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// operation which requires a service but none exists.
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ErrMissingService = errors.New("Missing service registration")
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// ErrMissingSessionID is returned when a session registration
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// is attempted with an empty session ID.
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ErrMissingSessionID = errors.New("Missing session ID")
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// ErrMissingACLID is returned when an ACL set is called on
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// an ACL with an empty ID.
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ErrMissingACLID = errors.New("Missing ACL ID")
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// ErrMissingQueryID is returned when a Query set is called on
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// a Query with an empty ID.
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ErrMissingQueryID = errors.New("Missing Query ID")
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// ErrMissingCARootID is returned when an CARoot set is called
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// with an CARoot with an empty ID.
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ErrMissingCARootID = errors.New("Missing CA Root ID")
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// ErrMissingIntentionID is returned when an Intention set is called
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// with an Intention with an empty ID.
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ErrMissingIntentionID = errors.New("Missing Intention ID")
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)
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const (
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// watchLimit is used as a soft limit to cap how many watches we allow
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// for a given blocking query. If this is exceeded, then we will use a
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// higher-level watch that's less fine-grained. This isn't as bad as it
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// seems since we have made the main culprits (nodes and services) more
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// efficient by diffing before we update via register requests.
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//
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// Given the current size of aFew == 32 in memdb's watch_few.go, this
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// will allow for up to ~64 goroutines per blocking query.
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watchLimit = 2048
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)
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// Store is where we store all of Consul's state, including
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// records of node registrations, services, checks, key/value
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// pairs and more. The DB is entirely in-memory and is constructed
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// from the Raft log through the FSM.
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type Store struct {
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schema *memdb.DBSchema
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db *memdb.MemDB
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// abandonCh is used to signal watchers that this state store has been
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// abandoned (usually during a restore). This is only ever closed.
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abandonCh chan struct{}
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// kvsGraveyard manages tombstones for the key value store.
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kvsGraveyard *Graveyard
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// lockDelay holds expiration times for locks associated with keys.
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lockDelay *Delay
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}
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// Snapshot is used to provide a point-in-time snapshot. It
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// works by starting a read transaction against the whole state store.
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type Snapshot struct {
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store *Store
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tx *memdb.Txn
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lastIndex uint64
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}
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// Restore is used to efficiently manage restoring a large amount of
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// data to a state store.
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type Restore struct {
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store *Store
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tx *memdb.Txn
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}
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// IndexEntry keeps a record of the last index per-table.
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type IndexEntry struct {
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Key string
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Value uint64
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}
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// sessionCheck is used to create a many-to-one table such that
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// each check registered by a session can be mapped back to the
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// session table. This is only used internally in the state
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// store and thus it is not exported.
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type sessionCheck struct {
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Node string
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CheckID types.CheckID
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Session string
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}
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// NewStateStore creates a new in-memory state storage layer.
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func NewStateStore(gc *TombstoneGC) (*Store, error) {
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// Create the in-memory DB.
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schema := stateStoreSchema()
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db, err := memdb.NewMemDB(schema)
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if err != nil {
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return nil, fmt.Errorf("Failed setting up state store: %s", err)
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}
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// Create and return the state store.
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s := &Store{
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schema: schema,
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db: db,
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abandonCh: make(chan struct{}),
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kvsGraveyard: NewGraveyard(gc),
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lockDelay: NewDelay(),
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}
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return s, nil
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}
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// Snapshot is used to create a point-in-time snapshot of the entire db.
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func (s *Store) Snapshot() *Snapshot {
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tx := s.db.Txn(false)
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var tables []string
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for table := range s.schema.Tables {
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tables = append(tables, table)
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}
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idx := maxIndexTxn(tx, tables...)
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return &Snapshot{s, tx, idx}
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}
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// LastIndex returns that last index that affects the snapshotted data.
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func (s *Snapshot) LastIndex() uint64 {
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return s.lastIndex
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}
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// Close performs cleanup of a state snapshot.
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func (s *Snapshot) Close() {
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s.tx.Abort()
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}
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// Restore is used to efficiently manage restoring a large amount of data into
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// the state store. It works by doing all the restores inside of a single
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// transaction.
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func (s *Store) Restore() *Restore {
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tx := s.db.Txn(true)
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return &Restore{s, tx}
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}
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// Abort abandons the changes made by a restore. This or Commit should always be
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// called.
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func (s *Restore) Abort() {
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s.tx.Abort()
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}
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// Commit commits the changes made by a restore. This or Abort should always be
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// called.
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func (s *Restore) Commit() {
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s.tx.Commit()
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}
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// AbandonCh returns a channel you can wait on to know if the state store was
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// abandoned.
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func (s *Store) AbandonCh() <-chan struct{} {
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return s.abandonCh
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}
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// Abandon is used to signal that the given state store has been abandoned.
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// Calling this more than one time will panic.
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func (s *Store) Abandon() {
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close(s.abandonCh)
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}
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// maxIndex is a helper used to retrieve the highest known index
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// amongst a set of tables in the db.
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func (s *Store) maxIndex(tables ...string) uint64 {
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tx := s.db.Txn(false)
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defer tx.Abort()
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return maxIndexTxn(tx, tables...)
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}
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// maxIndexTxn is a helper used to retrieve the highest known index
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// amongst a set of tables in the db.
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func maxIndexTxn(tx *memdb.Txn, tables ...string) uint64 {
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var lindex uint64
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for _, table := range tables {
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ti, err := tx.First("index", "id", table)
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if err != nil {
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panic(fmt.Sprintf("unknown index: %s err: %s", table, err))
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}
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if idx, ok := ti.(*IndexEntry); ok && idx.Value > lindex {
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lindex = idx.Value
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}
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}
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return lindex
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}
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// indexUpdateMaxTxn is used when restoring entries and sets the table's index to
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// the given idx only if it's greater than the current index.
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func indexUpdateMaxTxn(tx *memdb.Txn, idx uint64, table string) error {
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ti, err := tx.First("index", "id", table)
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if err != nil {
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return fmt.Errorf("failed to retrieve existing index: %s", err)
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}
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// Always take the first update, otherwise do the > check.
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if ti == nil {
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if err := tx.Insert("index", &IndexEntry{table, idx}); err != nil {
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return fmt.Errorf("failed updating index %s", err)
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}
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} else if cur, ok := ti.(*IndexEntry); ok && idx > cur.Value {
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if err := tx.Insert("index", &IndexEntry{table, idx}); err != nil {
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return fmt.Errorf("failed updating index %s", err)
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}
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}
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return nil
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}
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