package types import ( // for registering TMEventData as events.EventData abci "github.com/tendermint/abci/types" "github.com/tendermint/go-wire" "github.com/tendermint/go-wire/data" cmn "github.com/tendermint/tmlibs/common" "github.com/tendermint/tmlibs/events" ) // Functions to generate eventId strings // Reserved func EventStringBond() string { return "Bond" } func EventStringUnbond() string { return "Unbond" } func EventStringRebond() string { return "Rebond" } func EventStringDupeout() string { return "Dupeout" } func EventStringFork() string { return "Fork" } func EventStringTx(tx Tx) string { return cmn.Fmt("Tx:%X", tx.Hash()) } func EventStringNewBlock() string { return "NewBlock" } func EventStringNewBlockHeader() string { return "NewBlockHeader" } func EventStringNewRound() string { return "NewRound" } func EventStringNewRoundStep() string { return "NewRoundStep" } func EventStringTimeoutPropose() string { return "TimeoutPropose" } func EventStringCompleteProposal() string { return "CompleteProposal" } func EventStringPolka() string { return "Polka" } func EventStringUnlock() string { return "Unlock" } func EventStringLock() string { return "Lock" } func EventStringRelock() string { return "Relock" } func EventStringTimeoutWait() string { return "TimeoutWait" } func EventStringVote() string { return "Vote" } //---------------------------------------- // implements events.EventData type TMEventData interface { events.EventData AssertIsTMEventData() } const ( EventDataTypeNewBlock = byte(0x01) EventDataTypeFork = byte(0x02) EventDataTypeTx = byte(0x03) EventDataTypeNewBlockHeader = byte(0x04) EventDataTypeRoundState = byte(0x11) EventDataTypeVote = byte(0x12) ) var _ = wire.RegisterInterface( struct{ TMEventData }{}, wire.ConcreteType{EventDataNewBlock{}, EventDataTypeNewBlock}, wire.ConcreteType{EventDataNewBlockHeader{}, EventDataTypeNewBlockHeader}, // wire.ConcreteType{EventDataFork{}, EventDataTypeFork }, wire.ConcreteType{EventDataTx{}, EventDataTypeTx}, 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"` } // light weight event for benchmarking type EventDataNewBlockHeader struct { Header *Header `json:"header"` } // All txs fire EventDataTx type EventDataTx struct { Height int `json:"height"` Tx Tx `json:"tx"` Data data.Bytes `json:"data"` Log string `json:"log"` Code abci.CodeType `json:"code"` Error string `json:"error"` // this is redundant information for now } // NOTE: This goes into the replay WAL type EventDataRoundState struct { Height int `json:"height"` Round int `json:"round"` Step string `json:"step"` // private, not exposed to websockets RoundState interface{} `json:"-"` } type EventDataVote struct { Vote *Vote } func (_ EventDataNewBlock) AssertIsTMEventData() {} func (_ EventDataNewBlockHeader) AssertIsTMEventData() {} func (_ EventDataTx) AssertIsTMEventData() {} func (_ EventDataRoundState) AssertIsTMEventData() {} func (_ EventDataVote) AssertIsTMEventData() {} //---------------------------------------- // Wrappers for type safety type Fireable interface { events.Fireable } type Eventable interface { SetEventSwitch(EventSwitch) } type EventSwitch interface { events.EventSwitch } type EventCache interface { Fireable Flush() } func NewEventSwitch() EventSwitch { return events.NewEventSwitch() } func NewEventCache(evsw EventSwitch) EventCache { return events.NewEventCache(evsw) } // All events should be based on this FireEvent to ensure they are TMEventData func fireEvent(fireable events.Fireable, event string, data TMEventData) { if fireable != nil { fireable.FireEvent(event, data) } } func AddListenerForEvent(evsw EventSwitch, id, event string, cb func(data TMEventData)) { evsw.AddListenerForEvent(id, event, func(data events.EventData) { cb(data.(TMEventData)) }) } //--- block, tx, and vote events func FireEventNewBlock(fireable events.Fireable, block EventDataNewBlock) { fireEvent(fireable, EventStringNewBlock(), block) } func FireEventNewBlockHeader(fireable events.Fireable, header EventDataNewBlockHeader) { fireEvent(fireable, EventStringNewBlockHeader(), header) } func FireEventVote(fireable events.Fireable, vote EventDataVote) { fireEvent(fireable, EventStringVote(), vote) } func FireEventTx(fireable events.Fireable, tx EventDataTx) { fireEvent(fireable, EventStringTx(tx.Tx), tx) } //--- EventDataRoundState events func FireEventNewRoundStep(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringNewRoundStep(), rs) } func FireEventTimeoutPropose(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringTimeoutPropose(), rs) } func FireEventTimeoutWait(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringTimeoutWait(), rs) } func FireEventNewRound(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringNewRound(), rs) } func FireEventCompleteProposal(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringCompleteProposal(), rs) } func FireEventPolka(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringPolka(), rs) } func FireEventUnlock(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringUnlock(), rs) } func FireEventRelock(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringRelock(), rs) } func FireEventLock(fireable events.Fireable, rs EventDataRoundState) { fireEvent(fireable, EventStringLock(), rs) }