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// Copyright 2015 The etcd Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package mvcc
import (
"go.etcd.io/etcd/lease"
"go.etcd.io/etcd/mvcc/backend"
"go.etcd.io/etcd/mvcc/mvccpb"
)
type RangeOptions struct {
Limit int64
Rev int64
Count bool
}
type RangeResult struct {
KVs []mvccpb.KeyValue
Rev int64
Count int
}
type ReadView interface {
// FirstRev returns the first KV revision at the time of opening the txn.
// After a compaction, the first revision increases to the compaction
// revision.
FirstRev() int64
// Rev returns the revision of the KV at the time of opening the txn.
Rev() int64
// Range gets the keys in the range at rangeRev.
// The returned rev is the current revision of the KV when the operation is executed.
// If rangeRev <=0, range gets the keys at currentRev.
// If `end` is nil, the request returns the key.
// If `end` is not nil and not empty, it gets the keys in range [key, range_end).
// If `end` is not nil and empty, it gets the keys greater than or equal to key.
// Limit limits the number of keys returned.
// If the required rev is compacted, ErrCompacted will be returned.
Range(key, end []byte, ro RangeOptions) (r *RangeResult, err error)
}
// TxnRead represents a read-only transaction with operations that will not
// block other read transactions.
type TxnRead interface {
ReadView
// End marks the transaction is complete and ready to commit.
End()
}
type WriteView interface {
// DeleteRange deletes the given range from the store.
// A deleteRange increases the rev of the store if any key in the range exists.
// The number of key deleted will be returned.
// The returned rev is the current revision of the KV when the operation is executed.
// It also generates one event for each key delete in the event history.
// if the `end` is nil, deleteRange deletes the key.
// if the `end` is not nil, deleteRange deletes the keys in range [key, range_end).
DeleteRange(key, end []byte) (n, rev int64)
// Put puts the given key, value into the store. Put also takes additional argument lease to
// attach a lease to a key-value pair as meta-data. KV implementation does not validate the lease
// id.
// A put also increases the rev of the store, and generates one event in the event history.
// The returned rev is the current revision of the KV when the operation is executed.
Put(key, value []byte, lease lease.LeaseID) (rev int64)
}
// TxnWrite represents a transaction that can modify the store.
type TxnWrite interface {
TxnRead
WriteView
// Changes gets the changes made since opening the write txn.
Changes() []mvccpb.KeyValue
}
// txnReadWrite coerces a read txn to a write, panicking on any write operation.
type txnReadWrite struct{ TxnRead }
func (trw *txnReadWrite) DeleteRange(key, end []byte) (n, rev int64) { panic("unexpected DeleteRange") }
func (trw *txnReadWrite) Put(key, value []byte, lease lease.LeaseID) (rev int64) {
panic("unexpected Put")
}
func (trw *txnReadWrite) Changes() []mvccpb.KeyValue { return nil }
func NewReadOnlyTxnWrite(txn TxnRead) TxnWrite { return &txnReadWrite{txn} }
type KV interface {
ReadView
WriteView
// Read creates a read transaction.
Read() TxnRead
// Write creates a write transaction.
Write() TxnWrite
// Hash computes the hash of the KV's backend.
Hash() (hash uint32, revision int64, err error)
// HashByRev computes the hash of all MVCC revisions up to a given revision.
HashByRev(rev int64) (hash uint32, revision int64, compactRev int64, err error)
// Compact frees all superseded keys with revisions less than rev.
Compact(rev int64) (<-chan struct{}, error)
// Commit commits outstanding txns into the underlying backend.
Commit()
// Restore restores the KV store from a backend.
Restore(b backend.Backend) error
Close() error
}
// WatchableKV is a KV that can be watched.
type WatchableKV interface {
KV
Watchable
}
// Watchable is the interface that wraps the NewWatchStream function.
type Watchable interface {
// NewWatchStream returns a WatchStream that can be used to
// watch events happened or happening on the KV.
NewWatchStream() WatchStream
}
// ConsistentWatchableKV is a WatchableKV that understands the consistency
// algorithm and consistent index.
// If the consistent index of executing entry is not larger than the
// consistent index of ConsistentWatchableKV, all operations in
// this entry are skipped and return empty response.
type ConsistentWatchableKV interface {
WatchableKV
// ConsistentIndex returns the current consistent index of the KV.
ConsistentIndex() uint64
}