Documentation ¶
Index ¶
- Constants
- func CallCodeSim(reader acmstate.Reader, blockchain bcm.BlockchainInfo, ...) (*exec.TxExecution, error)
- func CallSim(reader acmstate.Reader, blockchain bcm.BlockchainInfo, ...) (*exec.TxExecution, error)
- func HeightAtVersion(version int64) uint64
- func VMOptions(vmOptions engine.Options) func(*executor)
- func VersionAtHeight(height uint64) int64
- type Accounts
- type BatchCommitter
- type BatchExecutor
- type ExecutionConfig
- type Executor
- type ExecutorFunc
- type ExecutorState
- type Option
- type Params
- type SequentialSigningAccount
- type SigningAccount
- type Transactor
- func (trans *Transactor) BroadcastTxAsync(ctx context.Context, txEnv *txs.Envelope) (*txs.Receipt, error)
- func (trans *Transactor) BroadcastTxSync(ctx context.Context, txEnv *txs.Envelope) (*exec.TxExecution, error)
- func (trans *Transactor) CheckTxAsync(txEnv *txs.Envelope, callback func(res *abciTypes.Response)) error
- func (trans *Transactor) CheckTxAsyncRaw(txBytes []byte, callback func(res *abciTypes.Response)) error
- func (trans *Transactor) CheckTxSync(ctx context.Context, txEnv *txs.Envelope) (*txs.Receipt, error)
- func (trans *Transactor) CheckTxSyncRaw(ctx context.Context, txBytes []byte) (*txs.Receipt, error)
- func (trans *Transactor) MaybeSignTxMempool(txEnv *txs.Envelope) (UnlockFunc, error)
- func (trans *Transactor) SignTx(txEnv *txs.Envelope) (*txs.Envelope, error)
- func (trans *Transactor) SignTxMempool(txEnv *txs.Envelope) (*txs.Envelope, UnlockFunc, error)
- type UnlockFunc
- type VMOption
Constants ¶
const (
SubscribeBufferSize = 10
)
const VersionOffset = int64(1)
Since we have an initial save of our state forest we start one version ahead of the block height, but from then on we should track height by this offset.
Variables ¶
This section is empty.
Functions ¶
func CallCodeSim ¶
func CallCodeSim(reader acmstate.Reader, blockchain bcm.BlockchainInfo, fromAddress, address crypto.Address, code, data []byte, logger *logging.Logger) (*exec.TxExecution, error)
Run the given code on an isolated and unpersisted state Cannot be used to create new contracts.
func CallSim ¶
func CallSim(reader acmstate.Reader, blockchain bcm.BlockchainInfo, fromAddress, address crypto.Address, data []byte, logger *logging.Logger) (*exec.TxExecution, error)
Run a contract's code on an isolated and unpersisted state Cannot be used to create new contracts
func HeightAtVersion ¶
func VersionAtHeight ¶
Types ¶
type Accounts ¶
type Accounts struct { hsc_sync.RingMutex acmstate.Reader // contains filtered or unexported fields }
Accounts pairs an underlying state.Reader with a KeyClient to provide a signing variant of an account it also maintains a lock over addresses to provide a linearisation of signing events using SequentialSigningAccount
func NewAccounts ¶
func (*Accounts) SequentialSigningAccount ¶
func (accs *Accounts) SequentialSigningAccount(address crypto.Address) (*SequentialSigningAccount, error)
func (*Accounts) SigningAccount ¶
func (accs *Accounts) SigningAccount(address crypto.Address) (*SigningAccount, error)
type BatchCommitter ¶
type BatchCommitter interface { BatchExecutor // Commit execution results to underlying State and provide opportunity to mutate state before it is saved Commit(header *types.Header) (stateHash []byte, err error) }
Executes transactions
func NewBatchCommitter ¶
func NewBatchCommitter(backend ExecutorState, params Params, blockchain engine.Blockchain, emitter *event.Emitter, logger *logging.Logger, options ...Option) (BatchCommitter, error)
type BatchExecutor ¶
type BatchExecutor interface { // Provides access to write lock for a BatchExecutor so reads can be prevented for the duration of a commit sync.Locker // Used by execution.Accounts to implement memory pool signing acmstate.Reader // Execute transaction against block cache (i.e. block buffer) Executor // Reset executor to underlying State Reset() error }
func NewBatchChecker ¶
func NewBatchChecker(backend ExecutorState, params Params, blockchain engine.Blockchain, logger *logging.Logger, options ...Option) (BatchExecutor, error)
Wraps a cache of what is variously known as the 'check cache' and 'mempool'
type ExecutionConfig ¶
type ExecutionConfig struct { // This parameter scales the default Tendermint timeouts. A value of 1 gives the Tendermint defaults designed to // work for 100 node + public network. Smaller networks should be able to sustain lower values. // When running in no-consensus mode (Tendermint.Enabled = false) this scales the block duration with 1.0 meaning 1 second // and 0 meaning commit immediately TimeoutFactor float64 CallStackMaxDepth uint64 DataStackInitialCapacity uint64 DataStackMaxDepth uint64 VMOptions []VMOption `json:",omitempty" toml:",omitempty"` }
func DefaultExecutionConfig ¶
func DefaultExecutionConfig() *ExecutionConfig
func (*ExecutionConfig) ExecutionOptions ¶
func (ec *ExecutionConfig) ExecutionOptions() ([]Option, error)
type ExecutorFunc ¶
type ExecutorFunc func(txEnv *txs.Envelope) (*exec.TxExecution, error)
func (ExecutorFunc) Execute ¶
func (f ExecutorFunc) Execute(txEnv *txs.Envelope) (*exec.TxExecution, error)
type ExecutorState ¶
type Params ¶
func ParamsFromGenesis ¶
func ParamsFromGenesis(genesisDoc *genesis.GenesisDoc) Params
type SequentialSigningAccount ¶
type SequentialSigningAccount struct { Address crypto.Address // contains filtered or unexported fields }
func (*SequentialSigningAccount) Lock ¶
func (ssa *SequentialSigningAccount) Lock() (*SigningAccount, UnlockFunc, error)
type Transactor ¶
type Transactor struct { BlockchainInfo bcm.BlockchainInfo Emitter *event.Emitter MempoolAccounts *Accounts // contains filtered or unexported fields }
Transactor is responsible for helping to formulate, sign, and broadcast transactions to tendermint
The BroadcastTx* methods are able to work against the mempool Accounts (pending) state rather than the committed (final) Accounts state and can assign a sequence number based on all of the txs seen since the last block - provided these transactions are successfully committed (via DeliverTx) then subsequent transactions will have valid sequence numbers. This allows HiveSmartChain to coordinate sequencing and signing for a key it holds or is provided - it is down to the key-holder to manage the mutual information between transactions concurrent within a new block window.
func NewTransactor ¶
func (*Transactor) BroadcastTxAsync ¶
func (trans *Transactor) BroadcastTxAsync(ctx context.Context, txEnv *txs.Envelope) (*txs.Receipt, error)
Broadcast a transaction without waiting for confirmation - will attempt to sign server-side and set sequence numbers if no signatures are provided
func (*Transactor) BroadcastTxSync ¶
func (trans *Transactor) BroadcastTxSync(ctx context.Context, txEnv *txs.Envelope) (*exec.TxExecution, error)
func (*Transactor) CheckTxAsync ¶
func (*Transactor) CheckTxAsyncRaw ¶
func (trans *Transactor) CheckTxAsyncRaw(txBytes []byte, callback func(res *abciTypes.Response)) error
func (*Transactor) CheckTxSync ¶
func (trans *Transactor) CheckTxSync(ctx context.Context, txEnv *txs.Envelope) (*txs.Receipt, error)
Broadcast a transaction and waits for a response from the mempool. Transactions to BroadcastTx will block during various mempool operations (managed by Tendermint) including mempool Reap, Commit, and recheckTx.
func (*Transactor) CheckTxSyncRaw ¶
func (*Transactor) MaybeSignTxMempool ¶
func (trans *Transactor) MaybeSignTxMempool(txEnv *txs.Envelope) (UnlockFunc, error)
func (*Transactor) SignTxMempool ¶
func (trans *Transactor) SignTxMempool(txEnv *txs.Envelope) (*txs.Envelope, UnlockFunc, error)
type UnlockFunc ¶
type UnlockFunc func()