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kv_encoding.go
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/
kv_encoding.go
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/*
Copyright IBM Corp. All Rights Reserved.
SPDX-License-Identifier: Apache-2.0
*/
package pvtdatastorage
import (
"bytes"
"math"
"github.com/golang/protobuf/proto"
"github.com/hyperledger/fabric/core/ledger/kvledger/txmgmt/version"
"github.com/hyperledger/fabric/core/ledger/util"
"github.com/hyperledger/fabric/protos/ledger/rwset"
"github.com/pkg/errors"
"github.com/willf/bitset"
)
var (
pendingCommitKey = []byte{0}
lastCommittedBlkkey = []byte{1}
pvtDataKeyPrefix = []byte{2}
expiryKeyPrefix = []byte{3}
eligibleMissingDataKeyPrefix = []byte{4}
ineligibleMissingDataKeyPrefix = []byte{5}
collElgKeyPrefix = []byte{6}
lastUpdatedOldBlocksKey = []byte{7}
nilByte = byte(0)
emptyValue = []byte{}
)
func getDataKeysForRangeScanByBlockNum(blockNum uint64) (startKey, endKey []byte) {
startKey = append(pvtDataKeyPrefix, version.NewHeight(blockNum, 0).ToBytes()...)
endKey = append(pvtDataKeyPrefix, version.NewHeight(blockNum+1, 0).ToBytes()...)
return
}
func getExpiryKeysForRangeScan(minBlkNum, maxBlkNum uint64) (startKey, endKey []byte) {
startKey = append(expiryKeyPrefix, version.NewHeight(minBlkNum, 0).ToBytes()...)
endKey = append(expiryKeyPrefix, version.NewHeight(maxBlkNum+1, 0).ToBytes()...)
return
}
func encodeLastCommittedBlockVal(blockNum uint64) []byte {
return proto.EncodeVarint(blockNum)
}
func decodeLastCommittedBlockVal(blockNumBytes []byte) uint64 {
s, _ := proto.DecodeVarint(blockNumBytes)
return s
}
func encodeDataKey(key *dataKey) []byte {
dataKeyBytes := append(pvtDataKeyPrefix, version.NewHeight(key.blkNum, key.txNum).ToBytes()...)
dataKeyBytes = append(dataKeyBytes, []byte(key.ns)...)
dataKeyBytes = append(dataKeyBytes, nilByte)
return append(dataKeyBytes, []byte(key.coll)...)
}
func encodeDataValue(collData *rwset.CollectionPvtReadWriteSet) ([]byte, error) {
return proto.Marshal(collData)
}
func encodeExpiryKey(expiryKey *expiryKey) []byte {
// reusing version encoding scheme here
return append(expiryKeyPrefix, version.NewHeight(expiryKey.expiringBlk, expiryKey.committingBlk).ToBytes()...)
}
func encodeExpiryValue(expiryData *ExpiryData) ([]byte, error) {
return proto.Marshal(expiryData)
}
func decodeExpiryKey(expiryKeyBytes []byte) (*expiryKey, error) {
height, _, err := version.NewHeightFromBytes(expiryKeyBytes[1:])
if err != nil {
return nil, err
}
return &expiryKey{expiringBlk: height.BlockNum, committingBlk: height.TxNum}, nil
}
func decodeExpiryValue(expiryValueBytes []byte) (*ExpiryData, error) {
expiryData := &ExpiryData{}
err := proto.Unmarshal(expiryValueBytes, expiryData)
return expiryData, err
}
func decodeDatakey(datakeyBytes []byte) (*dataKey, error) {
v, n, err := version.NewHeightFromBytes(datakeyBytes[1:])
if err != nil {
return nil, err
}
blkNum := v.BlockNum
tranNum := v.TxNum
remainingBytes := datakeyBytes[n+1:]
nilByteIndex := bytes.IndexByte(remainingBytes, nilByte)
ns := string(remainingBytes[:nilByteIndex])
coll := string(remainingBytes[nilByteIndex+1:])
return &dataKey{nsCollBlk{ns, coll, blkNum}, tranNum}, nil
}
func decodeDataValue(datavalueBytes []byte) (*rwset.CollectionPvtReadWriteSet, error) {
collPvtdata := &rwset.CollectionPvtReadWriteSet{}
err := proto.Unmarshal(datavalueBytes, collPvtdata)
return collPvtdata, err
}
func encodeMissingDataKey(key *missingDataKey) []byte {
if key.isEligible {
keyBytes := append(eligibleMissingDataKeyPrefix, util.EncodeReverseOrderVarUint64(key.blkNum)...)
keyBytes = append(keyBytes, []byte(key.ns)...)
keyBytes = append(keyBytes, nilByte)
return append(keyBytes, []byte(key.coll)...)
}
keyBytes := append(ineligibleMissingDataKeyPrefix, []byte(key.ns)...)
keyBytes = append(keyBytes, nilByte)
keyBytes = append(keyBytes, []byte(key.coll)...)
keyBytes = append(keyBytes, nilByte)
return append(keyBytes, []byte(util.EncodeReverseOrderVarUint64(key.blkNum))...)
}
func decodeMissingDataKey(keyBytes []byte) *missingDataKey {
key := &missingDataKey{nsCollBlk: nsCollBlk{}}
if keyBytes[0] == eligibleMissingDataKeyPrefix[0] {
blkNum, numBytesConsumed := util.DecodeReverseOrderVarUint64(keyBytes[1:])
splittedKey := bytes.Split(keyBytes[numBytesConsumed+1:], []byte{nilByte})
key.ns = string(splittedKey[0])
key.coll = string(splittedKey[1])
key.blkNum = blkNum
key.isEligible = true
return key
}
splittedKey := bytes.SplitN(keyBytes[1:], []byte{nilByte}, 3) //encoded bytes for blknum may contain empty bytes
key.ns = string(splittedKey[0])
key.coll = string(splittedKey[1])
key.blkNum, _ = util.DecodeReverseOrderVarUint64(splittedKey[2])
key.isEligible = false
return key
}
func encodeMissingDataValue(bitmap *bitset.BitSet) ([]byte, error) {
return bitmap.MarshalBinary()
}
func decodeMissingDataValue(bitmapBytes []byte) (*bitset.BitSet, error) {
bitmap := &bitset.BitSet{}
if err := bitmap.UnmarshalBinary(bitmapBytes); err != nil {
return nil, err
}
return bitmap, nil
}
func encodeCollElgKey(blkNum uint64) []byte {
return append(collElgKeyPrefix, util.EncodeReverseOrderVarUint64(blkNum)...)
}
func decodeCollElgKey(b []byte) uint64 {
blkNum, _ := util.DecodeReverseOrderVarUint64(b[1:])
return blkNum
}
func encodeCollElgVal(m *CollElgInfo) ([]byte, error) {
return proto.Marshal(m)
}
func decodeCollElgVal(b []byte) (*CollElgInfo, error) {
m := &CollElgInfo{}
if err := proto.Unmarshal(b, m); err != nil {
return nil, errors.WithStack(err)
}
return m, nil
}
func createRangeScanKeysForEligibleMissingDataEntries(blkNum uint64) (startKey, endKey []byte) {
startKey = append(eligibleMissingDataKeyPrefix, util.EncodeReverseOrderVarUint64(blkNum)...)
endKey = append(eligibleMissingDataKeyPrefix, util.EncodeReverseOrderVarUint64(0)...)
return startKey, endKey
}
func createRangeScanKeysForIneligibleMissingData(maxBlkNum uint64, ns, coll string) (startKey, endKey []byte) {
startKey = encodeMissingDataKey(
&missingDataKey{
nsCollBlk: nsCollBlk{ns: ns, coll: coll, blkNum: maxBlkNum},
isEligible: false,
},
)
endKey = encodeMissingDataKey(
&missingDataKey{
nsCollBlk: nsCollBlk{ns: ns, coll: coll, blkNum: 0},
isEligible: false,
},
)
return
}
func createRangeScanKeysForCollElg() (startKey, endKey []byte) {
return encodeCollElgKey(math.MaxUint64),
encodeCollElgKey(0)
}
func datakeyRange(blockNum uint64) (startKey, endKey []byte) {
startKey = append(pvtDataKeyPrefix, version.NewHeight(blockNum, 0).ToBytes()...)
endKey = append(pvtDataKeyPrefix, version.NewHeight(blockNum, math.MaxUint64).ToBytes()...)
return
}
func eligibleMissingdatakeyRange(blkNum uint64) (startKey, endKey []byte) {
startKey = append(eligibleMissingDataKeyPrefix, util.EncodeReverseOrderVarUint64(blkNum)...)
endKey = append(eligibleMissingDataKeyPrefix, util.EncodeReverseOrderVarUint64(blkNum-1)...)
return
}