zolfa
/
tendermint


								package consensus


								import (

									"encoding/binary"

									"fmt"

									"hash/crc32"

									"io"

									"path/filepath"

									"time"


									"github.com/pkg/errors"


									amino "github.com/tendermint/go-amino"

									auto "github.com/tendermint/tendermint/libs/autofile"

									cmn "github.com/tendermint/tendermint/libs/common"

									"github.com/tendermint/tendermint/types"

									tmtime "github.com/tendermint/tendermint/types/time"

								)


								const (

									// must be greater than types.BlockPartSizeBytes + a few bytes

									maxMsgSizeBytes = 1024 * 1024 // 1MB

								)


								//--------------------------------------------------------

								// types and functions for savings consensus messages


								type TimedWALMessage struct {

									Time time.Time  `json:"time"` // for debugging purposes

									Msg  WALMessage `json:"msg"`

								}


								// EndHeightMessage marks the end of the given height inside WAL.

								// @internal used by scripts/wal2json util.

								type EndHeightMessage struct {

									Height int64 `json:"height"`

								}


								type WALMessage interface{}


								func RegisterWALMessages(cdc *amino.Codec) {

									cdc.RegisterInterface((*WALMessage)(nil), nil)

									cdc.RegisterConcrete(types.EventDataRoundState{}, "tendermint/wal/EventDataRoundState", nil)

									cdc.RegisterConcrete(msgInfo{}, "tendermint/wal/MsgInfo", nil)

									cdc.RegisterConcrete(timeoutInfo{}, "tendermint/wal/TimeoutInfo", nil)

									cdc.RegisterConcrete(EndHeightMessage{}, "tendermint/wal/EndHeightMessage", nil)

								}


								//--------------------------------------------------------

								// Simple write-ahead logger


								// WAL is an interface for any write-ahead logger.

								type WAL interface {

									Write(WALMessage)

									WriteSync(WALMessage)

									Group() *auto.Group

									SearchForEndHeight(height int64, options *WALSearchOptions) (gr *auto.GroupReader, found bool, err error)


									Start() error

									Stop() error

									Wait()

								}


								// Write ahead logger writes msgs to disk before they are processed.

								// Can be used for crash-recovery and deterministic replay

								// TODO: currently the wal is overwritten during replay catchup

								//   give it a mode so it's either reading or appending - must read to end to start appending again

								type baseWAL struct {

									cmn.BaseService


									group *auto.Group


									enc *WALEncoder

								}


								func NewWAL(walFile string) (*baseWAL, error) {

									err := cmn.EnsureDir(filepath.Dir(walFile), 0700)

									if err != nil {

										return nil, errors.Wrap(err, "failed to ensure WAL directory is in place")

									}


									group, err := auto.OpenGroup(walFile)

									if err != nil {

										return nil, err

									}

									wal := &baseWAL{

										group: group,

										enc:   NewWALEncoder(group),

									}

									wal.BaseService = *cmn.NewBaseService(nil, "baseWAL", wal)

									return wal, nil

								}


								func (wal *baseWAL) Group() *auto.Group {

									return wal.group

								}


								func (wal *baseWAL) OnStart() error {

									size, err := wal.group.Head.Size()

									if err != nil {

										return err

									} else if size == 0 {

										wal.WriteSync(EndHeightMessage{0})

									}

									err = wal.group.Start()

									return err

								}


								func (wal *baseWAL) OnStop() {

									wal.group.Stop()

									wal.group.Close()

								}


								// Write is called in newStep and for each receive on the

								// peerMsgQueue and the timeoutTicker.

								// NOTE: does not call fsync()

								func (wal *baseWAL) Write(msg WALMessage) {

									if wal == nil {

										return

									}


									// Write the wal message

									if err := wal.enc.Encode(&TimedWALMessage{tmtime.Now(), msg}); err != nil {

										panic(fmt.Sprintf("Error writing msg to consensus wal: %v \n\nMessage: %v", err, msg))

									}

								}


								// WriteSync is called when we receive a msg from ourselves

								// so that we write to disk before sending signed messages.

								// NOTE: calls fsync()

								func (wal *baseWAL) WriteSync(msg WALMessage) {

									if wal == nil {

										return

									}


									wal.Write(msg)

									if err := wal.group.Flush(); err != nil {

										panic(fmt.Sprintf("Error flushing consensus wal buf to file. Error: %v \n", err))

									}

								}


								// WALSearchOptions are optional arguments to SearchForEndHeight.

								type WALSearchOptions struct {

									// IgnoreDataCorruptionErrors set to true will result in skipping data corruption errors.

									IgnoreDataCorruptionErrors bool

								}


								// SearchForEndHeight searches for the EndHeightMessage with the given height

								// and returns an auto.GroupReader, whenever it was found or not and an error.

								// Group reader will be nil if found equals false.

								//

								// CONTRACT: caller must close group reader.

								func (wal *baseWAL) SearchForEndHeight(height int64, options *WALSearchOptions) (gr *auto.GroupReader, found bool, err error) {

									var msg *TimedWALMessage

									lastHeightFound := int64(-1)


									// NOTE: starting from the last file in the group because we're usually

									// searching for the last height. See replay.go

									min, max := wal.group.MinIndex(), wal.group.MaxIndex()

									wal.Logger.Debug("Searching for height", "height", height, "min", min, "max", max)

									for index := max; index >= min; index-- {

										gr, err = wal.group.NewReader(index)

										if err != nil {

											return nil, false, err

										}


										dec := NewWALDecoder(gr)

										for {

											msg, err = dec.Decode()

											if err == io.EOF {

												// OPTIMISATION: no need to look for height in older files if we've seen h < height

												if lastHeightFound > 0 && lastHeightFound < height {

													gr.Close()

													return nil, false, nil

												}

												// check next file

												break

											}

											if options.IgnoreDataCorruptionErrors && IsDataCorruptionError(err) {

												wal.Logger.Debug("Corrupted entry. Skipping...", "err", err)

												// do nothing

												continue

											} else if err != nil {

												gr.Close()

												return nil, false, err

											}


											if m, ok := msg.Msg.(EndHeightMessage); ok {

												lastHeightFound = m.Height

												if m.Height == height { // found

													wal.Logger.Debug("Found", "height", height, "index", index)

													return gr, true, nil

												}

											}

										}

										gr.Close()

									}


									return nil, false, nil

								}


								///////////////////////////////////////////////////////////////////////////////


								// A WALEncoder writes custom-encoded WAL messages to an output stream.

								//

								// Format: 4 bytes CRC sum + 4 bytes length + arbitrary-length value (go-amino encoded)

								type WALEncoder struct {

									wr io.Writer

								}


								// NewWALEncoder returns a new encoder that writes to wr.

								func NewWALEncoder(wr io.Writer) *WALEncoder {

									return &WALEncoder{wr}

								}


								// Encode writes the custom encoding of v to the stream.

								func (enc *WALEncoder) Encode(v *TimedWALMessage) error {

									data := cdc.MustMarshalBinaryBare(v)


									crc := crc32.Checksum(data, crc32c)

									length := uint32(len(data))

									totalLength := 8 + int(length)


									msg := make([]byte, totalLength)

									binary.BigEndian.PutUint32(msg[0:4], crc)

									binary.BigEndian.PutUint32(msg[4:8], length)

									copy(msg[8:], data)


									_, err := enc.wr.Write(msg)


									return err

								}


								///////////////////////////////////////////////////////////////////////////////


								// IsDataCorruptionError returns true if data has been corrupted inside WAL.

								func IsDataCorruptionError(err error) bool {

									_, ok := err.(DataCorruptionError)

									return ok

								}


								// DataCorruptionError is an error that occures if data on disk was corrupted.

								type DataCorruptionError struct {

									cause error

								}


								func (e DataCorruptionError) Error() string {

									return fmt.Sprintf("DataCorruptionError[%v]", e.cause)

								}


								func (e DataCorruptionError) Cause() error {

									return e.cause

								}


								// A WALDecoder reads and decodes custom-encoded WAL messages from an input

								// stream. See WALEncoder for the format used.

								//

								// It will also compare the checksums and make sure data size is equal to the

								// length from the header. If that is not the case, error will be returned.

								type WALDecoder struct {

									rd io.Reader

								}


								// NewWALDecoder returns a new decoder that reads from rd.

								func NewWALDecoder(rd io.Reader) *WALDecoder {

									return &WALDecoder{rd}

								}


								// Decode reads the next custom-encoded value from its reader and returns it.

								func (dec *WALDecoder) Decode() (*TimedWALMessage, error) {

									b := make([]byte, 4)


									_, err := dec.rd.Read(b)

									if err == io.EOF {

										return nil, err

									}

									if err != nil {

										return nil, fmt.Errorf("failed to read checksum: %v", err)

									}

									crc := binary.BigEndian.Uint32(b)


									b = make([]byte, 4)

									_, err = dec.rd.Read(b)

									if err != nil {

										return nil, fmt.Errorf("failed to read length: %v", err)

									}

									length := binary.BigEndian.Uint32(b)


									if length > maxMsgSizeBytes {

										return nil, fmt.Errorf("length %d exceeded maximum possible value of %d bytes", length, maxMsgSizeBytes)

									}


									data := make([]byte, length)

									_, err = dec.rd.Read(data)

									if err != nil {

										return nil, fmt.Errorf("failed to read data: %v", err)

									}


									// check checksum before decoding data

									actualCRC := crc32.Checksum(data, crc32c)

									if actualCRC != crc {

										return nil, DataCorruptionError{fmt.Errorf("checksums do not match: (read: %v, actual: %v)", crc, actualCRC)}

									}


									var res = new(TimedWALMessage) // nolint: gosimple

									err = cdc.UnmarshalBinaryBare(data, res)

									if err != nil {

										return nil, DataCorruptionError{fmt.Errorf("failed to decode data: %v", err)}

									}


									return res, err

								}


								type nilWAL struct{}


								func (nilWAL) Write(m WALMessage)     {}

								func (nilWAL) WriteSync(m WALMessage) {}

								func (nilWAL) Group() *auto.Group     { return nil }

								func (nilWAL) SearchForEndHeight(height int64, options *WALSearchOptions) (gr *auto.GroupReader, found bool, err error) {

									return nil, false, nil

								}

								func (nilWAL) Start() error { return nil }

								func (nilWAL) Stop() error  { return nil }

								func (nilWAL) Wait()        {}