TxTypeBond = byte(0x11) TxTypeUnbond = byte(0x12) TxTypeRebond = byte(0x13) TxTypeDupeout = byte(0x14) // Admin transactions TxTypePermissions = byte(0x20) ) // for wire.readReflect var _ = wire.RegisterInterface( struct{ Tx }{}, wire.ConcreteType{&SendTx{}, TxTypeSend}, wire.ConcreteType{&CallTx{}, TxTypeCall}, wire.ConcreteType{&NameTx{}, TxTypeName}, wire.ConcreteType{&BondTx{}, TxTypeBond}, wire.ConcreteType{&UnbondTx{}, TxTypeUnbond}, wire.ConcreteType{&RebondTx{}, TxTypeRebond}, wire.ConcreteType{&DupeoutTx{}, TxTypeDupeout}, wire.ConcreteType{&PermissionsTx{}, TxTypePermissions}, ) //----------------------------------------------------------------------------- type TxInput struct { Address []byte `json:"address"` // Hash of the PubKey Amount int64 `json:"amount"` // Must not exceed account balance Sequence int `json:"sequence"` // Must be 1 greater than the last committed TxInput Signature acm.Signature `json:"signature"` // Depends on the PubKey type and the whole Tx PubKey acm.PubKey `json:"pub_key"` // Must not be nil, may be nil }
msgTypeNewRoundStep = byte(0x01) msgTypeCommitStep = byte(0x02) msgTypeProposal = byte(0x11) msgTypeProposalPOL = byte(0x12) msgTypeBlockPart = byte(0x13) // both block & POL msgTypeVote = byte(0x14) msgTypeHasVote = byte(0x15) ) type ConsensusMessage interface{} var _ = wire.RegisterInterface( struct{ ConsensusMessage }{}, wire.ConcreteType{&NewRoundStepMessage{}, msgTypeNewRoundStep}, wire.ConcreteType{&CommitStepMessage{}, msgTypeCommitStep}, wire.ConcreteType{&ProposalMessage{}, msgTypeProposal}, wire.ConcreteType{&ProposalPOLMessage{}, msgTypeProposalPOL}, wire.ConcreteType{&BlockPartMessage{}, msgTypeBlockPart}, wire.ConcreteType{&VoteMessage{}, msgTypeVote}, wire.ConcreteType{&HasVoteMessage{}, msgTypeHasVote}, ) // TODO: check for unnecessary extra bytes at the end. func DecodeMessage(bz []byte) (msgType byte, msg ConsensusMessage, err error) { msgType = bz[0] n := new(int64) r := bytes.NewReader(bz) msg = wire.ReadBinary(struct{ ConsensusMessage }{}, r, n, &err).(struct{ ConsensusMessage }).ConsensusMessage return } //-------------------------------------
. "github.com/eris-ltd/eris-db/Godeps/_workspace/src/github.com/tendermint/tendermint/common" "github.com/eris-ltd/eris-db/Godeps/_workspace/src/github.com/tendermint/tendermint/wire" ) // Signature is a part of Txs and consensus Votes. type Signature interface { IsZero() bool String() string } // Types of Signature implementations const ( SignatureTypeEd25519 = byte(0x01) ) // for wire.readReflect var _ = wire.RegisterInterface( struct{ Signature }{}, wire.ConcreteType{SignatureEd25519{}, SignatureTypeEd25519}, ) //------------------------------------- // Implements Signature type SignatureEd25519 [64]byte func (sig SignatureEd25519) IsZero() bool { return len(sig) == 0 } func (sig SignatureEd25519) String() string { return fmt.Sprintf("/%X.../", Fingerprint(sig[:])) }
) // PubKey is part of Account and Validator. type PubKey interface { Address() []byte VerifyBytes(msg []byte, sig Signature) bool } // Types of PubKey implementations const ( PubKeyTypeEd25519 = byte(0x01) ) // for wire.readReflect var _ = wire.RegisterInterface( struct{ PubKey }{}, wire.ConcreteType{PubKeyEd25519{}, PubKeyTypeEd25519}, ) //------------------------------------- // Implements PubKey type PubKeyEd25519 [32]byte // TODO: Slicing the array gives us length prefixing but loses the type byte. // Revisit if we add more pubkey types. // For now, we artificially append the type byte in front to give us backwards // compatibility for when the pubkey wasn't fixed length array func (pubKey PubKeyEd25519) Address() []byte { w, n, err := new(bytes.Buffer), new(int64), new(error) wire.WriteBinary(pubKey[:], w, n, err) if *err != nil {
// implements events.Eventable func (memR *MempoolReactor) SetFireable(evsw events.Fireable) { memR.evsw = evsw } //----------------------------------------------------------------------------- // Messages const ( msgTypeTx = byte(0x01) ) type MempoolMessage interface{} var _ = wire.RegisterInterface( struct{ MempoolMessage }{}, wire.ConcreteType{&TxMessage{}, msgTypeTx}, ) func DecodeMessage(bz []byte) (msgType byte, msg MempoolMessage, err error) { msgType = bz[0] n := new(int64) r := bytes.NewReader(bz) msg = wire.ReadBinary(struct{ MempoolMessage }{}, r, n, &err).(struct{ MempoolMessage }).MempoolMessage return } //------------------------------------- type TxMessage struct { Tx types.Tx }
//----------------------------------------------------------------------------- // Messages const ( msgTypeBlockRequest = byte(0x10) msgTypeBlockResponse = byte(0x11) msgTypeStatusResponse = byte(0x20) msgTypeStatusRequest = byte(0x21) ) type BlockchainMessage interface{} var _ = wire.RegisterInterface( struct{ BlockchainMessage }{}, wire.ConcreteType{&bcBlockRequestMessage{}, msgTypeBlockRequest}, wire.ConcreteType{&bcBlockResponseMessage{}, msgTypeBlockResponse}, wire.ConcreteType{&bcStatusResponseMessage{}, msgTypeStatusResponse}, wire.ConcreteType{&bcStatusRequestMessage{}, msgTypeStatusRequest}, ) // TODO: ensure that bz is completely read. func DecodeMessage(bz []byte) (msgType byte, msg BlockchainMessage, err error) { msgType = bz[0] n := int64(0) r := bytes.NewReader(bz) msg = wire.ReadBinary(struct{ BlockchainMessage }{}, r, &n, &err).(struct{ BlockchainMessage }).BlockchainMessage if err != nil && n != int64(len(bz)) { err = errors.New("DecodeMessage() had bytes left over.") } return }
EventDataTypeCall = byte(0x04) EventDataTypeLog = byte(0x05) EventDataTypeRoundState = byte(0x11) EventDataTypeVote = byte(0x12) ) type EventData interface { AssertIsEventData() } var _ = wire.RegisterInterface( struct{ EventData }{}, wire.ConcreteType{EventDataNewBlock{}, EventDataTypeNewBlock}, // wire.ConcreteType{EventDataFork{}, EventDataTypeFork }, wire.ConcreteType{EventDataTx{}, EventDataTypeTx}, wire.ConcreteType{EventDataCall{}, EventDataTypeCall}, wire.ConcreteType{EventDataLog{}, EventDataTypeLog}, wire.ConcreteType{EventDataRoundState{}, EventDataTypeRoundState}, wire.ConcreteType{EventDataVote{}, EventDataTypeVote}, ) // Most event messages are basic types (a block, a transaction) // but some (an input to a call tx or a receive) are more exotic type EventDataNewBlock struct { Block *Block `json:"block"` } // All txs fire EventDataTx, but only CallTx might have Return or Exception type EventDataTx struct { Tx Tx `json:"tx"`
ResultTypeGenesis = byte(0x11) ResultTypeSignTx = byte(0x12) ResultTypeEvent = byte(0x13) // so websockets can respond to rpc functions ) type Result interface{} // for wire.readReflect var _ = wire.RegisterInterface( struct{ Result }{}, wire.ConcreteType{&ResultGetStorage{}, ResultTypeGetStorage}, wire.ConcreteType{&ResultCall{}, ResultTypeCall}, wire.ConcreteType{&ResultListAccounts{}, ResultTypeListAccounts}, wire.ConcreteType{&ResultDumpStorage{}, ResultTypeDumpStorage}, wire.ConcreteType{&ResultBlockchainInfo{}, ResultTypeBlockchainInfo}, wire.ConcreteType{&ResultGetBlock{}, ResultTypeGetBlock}, wire.ConcreteType{&ResultStatus{}, ResultTypeStatus}, wire.ConcreteType{&ResultNetInfo{}, ResultTypeNetInfo}, wire.ConcreteType{&ResultListValidators{}, ResultTypeListValidators}, wire.ConcreteType{&ResultDumpConsensusState{}, ResultTypeDumpConsensusState}, wire.ConcreteType{&ResultListNames{}, ResultTypeListNames}, wire.ConcreteType{&ResultGenPrivAccount{}, ResultTypeGenPrivAccount}, wire.ConcreteType{&ResultGetAccount{}, ResultTypeGetAccount}, wire.ConcreteType{&ResultBroadcastTx{}, ResultTypeBroadcastTx}, wire.ConcreteType{&ResultListUnconfirmedTxs{}, ResultTypeListUnconfirmedTxs}, wire.ConcreteType{&ResultGetName{}, ResultTypeGetName}, wire.ConcreteType{&ResultGenesis{}, ResultTypeGenesis}, wire.ConcreteType{&ResultSignTx{}, ResultTypeSignTx}, wire.ConcreteType{&ResultEvent{}, ResultTypeEvent}, )
pexR.evsw = evsw } //----------------------------------------------------------------------------- // Messages const ( msgTypeRequest = byte(0x01) msgTypeAddrs = byte(0x02) ) type PexMessage interface{} var _ = wire.RegisterInterface( struct{ PexMessage }{}, wire.ConcreteType{&pexRequestMessage{}, msgTypeRequest}, wire.ConcreteType{&pexAddrsMessage{}, msgTypeAddrs}, ) func DecodeMessage(bz []byte) (msgType byte, msg PexMessage, err error) { msgType = bz[0] n := new(int64) r := bytes.NewReader(bz) msg = wire.ReadBinary(struct{ PexMessage }{}, r, n, &err).(struct{ PexMessage }).PexMessage return } /* A pexRequestMessage requests additional peer addresses. */ type pexRequestMessage struct {
const ( PermArgsTypeHasBase = byte(0x01) PermArgsTypeSetBase = byte(0x02) PermArgsTypeUnsetBase = byte(0x03) PermArgsTypeSetGlobal = byte(0x04) PermArgsTypeHasRole = byte(0x05) PermArgsTypeAddRole = byte(0x06) PermArgsTypeRmRole = byte(0x07) ) // for wire.readReflect var _ = wire.RegisterInterface( struct{ PermArgs }{}, wire.ConcreteType{&HasBaseArgs{}, PermArgsTypeHasBase}, wire.ConcreteType{&SetBaseArgs{}, PermArgsTypeSetBase}, wire.ConcreteType{&UnsetBaseArgs{}, PermArgsTypeUnsetBase}, wire.ConcreteType{&SetGlobalArgs{}, PermArgsTypeSetGlobal}, wire.ConcreteType{&HasRoleArgs{}, PermArgsTypeHasRole}, wire.ConcreteType{&AddRoleArgs{}, PermArgsTypeAddRole}, wire.ConcreteType{&RmRoleArgs{}, PermArgsTypeRmRole}, ) type HasBaseArgs struct { Address []byte `json:"address"` Permission PermFlag `json:"permission"` } func (*HasBaseArgs) PermFlag() PermFlag { return HasBase } type SetBaseArgs struct {