164 lines
5.3 KiB
Go
164 lines
5.3 KiB
Go
package state
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import (
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"github.com/hashicorp/go-memdb"
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"github.com/hashicorp/nomad/nomad/stream"
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"github.com/hashicorp/nomad/nomad/structs"
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)
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// ReadTxn is implemented by memdb.Txn to perform read operations.
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type ReadTxn interface {
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Get(table, index string, args ...interface{}) (memdb.ResultIterator, error)
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First(table, index string, args ...interface{}) (interface{}, error)
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FirstWatch(table, index string, args ...interface{}) (<-chan struct{}, interface{}, error)
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Abort()
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}
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// Changes wraps a memdb.Changes to include the index at which these changes
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// were made.
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type Changes struct {
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// Index is the latest index at the time these changes were committed.
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Index uint64
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Changes memdb.Changes
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MsgType structs.MessageType
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}
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// changeTrackerDB is a thin wrapper around memdb.DB which enables TrackChanges on
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// all write transactions. When the transaction is committed the changes are
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// sent to the EventBroker which will create and emit change events.
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type changeTrackerDB struct {
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memdb *memdb.MemDB
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publisher *stream.EventBroker
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processChanges changeProcessor
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}
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func NewChangeTrackerDB(db *memdb.MemDB, publisher *stream.EventBroker, changesFn changeProcessor) *changeTrackerDB {
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return &changeTrackerDB{
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memdb: db,
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publisher: publisher,
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processChanges: changesFn,
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}
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}
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type changeProcessor func(ReadTxn, Changes) *structs.Events
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func noOpProcessChanges(ReadTxn, Changes) *structs.Events { return nil }
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// ReadTxn returns a read-only transaction which behaves exactly the same as
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// memdb.Txn
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//
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// TODO: this could return a regular memdb.Txn if all the state functions accepted
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// the ReadTxn interface
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func (c *changeTrackerDB) ReadTxn() *txn {
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return &txn{Txn: c.memdb.Txn(false)}
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}
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// WriteTxn returns a wrapped memdb.Txn suitable for writes to the state store.
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// It will track changes and publish events for the changes when Commit
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// is called.
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//
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// The idx argument must be the index of the current Raft operation. Almost
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// all mutations to state should happen as part of a raft apply so the index of
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// the log being applied can be passed to WriteTxn.
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// The exceptional cases are transactions that are executed on an empty
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// memdb.DB as part of Restore, and those executed by tests where we insert
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// data directly into the DB. These cases may use WriteTxnRestore.
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func (c *changeTrackerDB) WriteTxn(idx uint64) *txn {
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t := &txn{
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Txn: c.memdb.Txn(true),
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Index: idx,
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publish: c.publish,
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msgType: structs.IgnoreUnknownTypeFlag, // The zero value of structs.MessageType is noderegistration.
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}
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t.Txn.TrackChanges()
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return t
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}
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func (c *changeTrackerDB) WriteTxnMsgT(msgType structs.MessageType, idx uint64) *txn {
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t := &txn{
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msgType: msgType,
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Txn: c.memdb.Txn(true),
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Index: idx,
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publish: c.publish,
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}
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t.Txn.TrackChanges()
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return t
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}
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func (c *changeTrackerDB) publish(changes Changes) (*structs.Events, error) {
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readOnlyTx := c.memdb.Txn(false)
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defer readOnlyTx.Abort()
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events := c.processChanges(readOnlyTx, changes)
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if events != nil {
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c.publisher.Publish(events)
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}
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return events, nil
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}
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// WriteTxnRestore returns a wrapped RW transaction that does NOT have change
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// tracking enabled. This should only be used in Restore where we need to
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// replace the entire contents of the Store without a need to track the changes.
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// WriteTxnRestore uses a zero index since the whole restore doesn't really occur
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// at one index - the effect is to write many values that were previously
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// written across many indexes.
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func (c *changeTrackerDB) WriteTxnRestore() *txn {
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return &txn{
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Txn: c.memdb.Txn(true),
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Index: 0,
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}
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}
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// txn wraps a memdb.Txn to capture changes and send them to the EventBroker.
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//
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// This can not be done with txn.Defer because the callback passed to Defer is
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// invoked after commit completes, and because the callback can not return an
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// error. Any errors from the callback would be lost, which would result in a
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// missing change event, even though the state store had changed.
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type txn struct {
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// msgType is used to inform event sourcing which type of event to create
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msgType structs.MessageType
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*memdb.Txn
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// Index in raft where the write is occurring. The value is zero for a
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// read-only, or WriteTxnRestore transaction.
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// Index is stored so that it may be passed along to any subscribers as part
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// of a change event.
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Index uint64
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publish func(changes Changes) (*structs.Events, error)
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}
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// Commit first pushes changes to EventBroker, then calls Commit on the
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// underlying transaction.
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//
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// Note that this function, unlike memdb.Txn, returns an error which must be checked
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// by the caller. A non-nil error indicates that a commit failed and was not
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// applied.
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func (tx *txn) Commit() error {
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// publish may be nil if this is a read-only or WriteTxnRestore transaction.
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// In those cases changes should also be empty, and there will be nothing
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// to publish.
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if tx.publish != nil {
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changes := Changes{
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Index: tx.Index,
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Changes: tx.Txn.Changes(),
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MsgType: tx.MsgType(),
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}
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_, err := tx.publish(changes)
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if err != nil {
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return err
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}
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}
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tx.Txn.Commit()
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return nil
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}
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// MsgType returns a MessageType from the txn's context.
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// If the context is empty or the value isn't set IgnoreUnknownTypeFlag will
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// be returned to signal that the MsgType is unknown.
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func (tx *txn) MsgType() structs.MessageType {
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return tx.msgType
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}
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