forked from TrueCloudLab/neoneo-go
96c4e61063
Don't use storage.* types in rpc/response/result.
164 lines
5.2 KiB
Go
164 lines
5.2 KiB
Go
package storage
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import (
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"errors"
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"fmt"
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"github.com/nspcc-dev/neo-go/pkg/core/storage/dbconfig"
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"github.com/nspcc-dev/neo-go/pkg/core/storage/dboper"
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"github.com/syndtr/goleveldb/leveldb/util"
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)
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// KeyPrefix constants.
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const (
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DataExecutable KeyPrefix = 0x01
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// DataMPT is used for MPT node entries identified by Uint256.
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DataMPT KeyPrefix = 0x03
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// DataMPTAux is used to store additional MPT data like height-root
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// mappings and local/validated heights.
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DataMPTAux KeyPrefix = 0x04
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STContractID KeyPrefix = 0x51
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STStorage KeyPrefix = 0x70
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// STTempStorage is used to store contract storage items during state sync process
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// in order not to mess up the previous state which has its own items stored by
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// STStorage prefix. Once state exchange process is completed, all items with
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// STStorage prefix will be replaced with STTempStorage-prefixed ones.
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STTempStorage KeyPrefix = 0x71
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STNEP11Transfers KeyPrefix = 0x72
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STNEP17Transfers KeyPrefix = 0x73
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STTokenTransferInfo KeyPrefix = 0x74
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IXHeaderHashList KeyPrefix = 0x80
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SYSCurrentBlock KeyPrefix = 0xc0
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SYSCurrentHeader KeyPrefix = 0xc1
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SYSStateSyncCurrentBlockHeight KeyPrefix = 0xc2
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SYSStateSyncPoint KeyPrefix = 0xc3
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SYSStateJumpStage KeyPrefix = 0xc4
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SYSVersion KeyPrefix = 0xf0
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)
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// Executable subtypes.
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const (
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ExecBlock byte = 1
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ExecTransaction byte = 2
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)
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// SeekRange represents options for Store.Seek operation.
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type SeekRange struct {
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// Prefix denotes the Seek's lookup key.
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// Empty Prefix is not supported.
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Prefix []byte
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// Start denotes value appended to the Prefix to start Seek from.
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// Seeking starting from some key includes this key to the result;
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// if no matching key was found then next suitable key is picked up.
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// Start may be empty. Empty Start means seeking through all keys in
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// the DB with matching Prefix.
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// Empty Prefix and empty Start can be combined, which means seeking
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// through all keys in the DB.
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Start []byte
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// Backwards denotes whether Seek direction should be reversed, i.e.
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// whether seeking should be performed in a descending way.
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// Backwards can be safely combined with Prefix and Start.
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Backwards bool
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}
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// ErrKeyNotFound is an error returned by Store implementations
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// when a certain key is not found.
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var ErrKeyNotFound = errors.New("key not found")
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type (
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// Store is the underlying KV backend for the blockchain data, it's
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// not intended to be used directly, you wrap it with some memory cache
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// layer most of the time.
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Store interface {
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Get([]byte) ([]byte, error)
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// PutChangeSet allows to push prepared changeset to the Store.
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PutChangeSet(puts map[string][]byte, stor map[string][]byte) error
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// Seek can guarantee that provided key (k) and value (v) are the only valid until the next call to f.
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// Seek continues iteration until false is returned from f.
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// Key and value slices should not be modified.
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// Seek can guarantee that key-value items are sorted by key in ascending way.
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Seek(rng SeekRange, f func(k, v []byte) bool)
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// SeekGC is similar to Seek, but the function should return true if current
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// KV pair should be kept and false if it's to be deleted; there is no way to
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// do an early exit here. SeekGC only works with the current Store, it won't
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// go down to layers below and it takes a full write lock, so use it carefully.
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SeekGC(rng SeekRange, keep func(k, v []byte) bool) error
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Close() error
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}
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// KeyPrefix is a constant byte added as a prefix for each key
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// stored.
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KeyPrefix uint8
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)
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func seekRangeToPrefixes(sr SeekRange) *util.Range {
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var (
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rang *util.Range
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start = make([]byte, len(sr.Prefix)+len(sr.Start))
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)
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copy(start, sr.Prefix)
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copy(start[len(sr.Prefix):], sr.Start)
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if !sr.Backwards {
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rang = util.BytesPrefix(sr.Prefix)
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rang.Start = start
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} else {
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rang = util.BytesPrefix(start)
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rang.Start = sr.Prefix
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}
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return rang
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}
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// NewStore creates storage with preselected in configuration database type.
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func NewStore(cfg dbconfig.DBConfiguration) (Store, error) {
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var store Store
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var err error
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switch cfg.Type {
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case "leveldb":
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store, err = NewLevelDBStore(cfg.LevelDBOptions)
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case "inmemory":
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store = NewMemoryStore()
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case "boltdb":
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store, err = NewBoltDBStore(cfg.BoltDBOptions)
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default:
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return nil, fmt.Errorf("unknown storage: %s", cfg.Type)
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}
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return store, err
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}
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// BatchToOperations converts a batch of changes into array of dboper.Operation.
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func BatchToOperations(batch *MemBatch) []dboper.Operation {
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size := len(batch.Put) + len(batch.Deleted)
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ops := make([]dboper.Operation, 0, size)
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for i := range batch.Put {
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key := batch.Put[i].Key
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if len(key) == 0 || key[0] != byte(STStorage) && key[0] != byte(STTempStorage) {
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continue
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}
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op := "Added"
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if batch.Put[i].Exists {
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op = "Changed"
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}
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ops = append(ops, dboper.Operation{
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State: op,
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Key: key[1:],
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Value: batch.Put[i].Value,
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})
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}
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for i := range batch.Deleted {
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key := batch.Deleted[i].Key
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if len(key) == 0 || !batch.Deleted[i].Exists ||
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key[0] != byte(STStorage) && key[0] != byte(STTempStorage) {
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continue
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}
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ops = append(ops, dboper.Operation{
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State: "Deleted",
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Key: key[1:],
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})
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}
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return ops
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}
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