Documentation ¶
Index ¶
- Constants
- Variables
- func CorethJSONFormat(alias string) log.Format
- func CorethTermFormat(alias string) log.Format
- func GetEthAddress(privKey *crypto.PrivateKeySECP256K1R) common.Address
- func IsSortedAndUniqueEVMInputs(inputs []EVMInput) bool
- func IsSortedAndUniqueEVMOutputs(outputs []EVMOutput) bool
- func IsSortedEVMOutputs(outputs []EVMOutput) bool
- func NewAtomicTxRepository(db *versiondb.Database, codec codec.Manager, lastAcceptedHeight uint64, ...) (*atomicTxRepository, error)
- func ParseEthAddress(addrStr string) (common.Address, error)
- func PublicKeyToEthAddress(pubKey *crypto.PublicKeySECP256K1R) common.Address
- func SortEVMInputsAndSigners(inputs []EVMInput, signers [][]*crypto.PrivateKeySECP256K1R)
- func SortEVMOutputs(outputs []EVMOutput)
- type Admin
- func (p *Admin) GetVMConfig(_ *http.Request, _ *struct{}, reply *ConfigReply) error
- func (p *Admin) LockProfile(_ *http.Request, _ *struct{}, _ *api.EmptyReply) error
- func (p *Admin) MemoryProfile(_ *http.Request, _ *struct{}, _ *api.EmptyReply) error
- func (p *Admin) SetLogLevel(_ *http.Request, args *SetLogLevelArgs, reply *api.EmptyReply) error
- func (p *Admin) StartCPUProfiler(_ *http.Request, _ *struct{}, _ *api.EmptyReply) error
- func (p *Admin) StopCPUProfiler(r *http.Request, _ *struct{}, _ *api.EmptyReply) error
- type AtomicBackend
- type AtomicState
- type AtomicTrie
- type AtomicTrieIterator
- type AtomicTxRepository
- type AvaxAPI
- func (service *AvaxAPI) Export(_ *http.Request, args *ExportArgs, response *api.JSONTxID) error
- func (service *AvaxAPI) ExportAVAX(_ *http.Request, args *ExportAVAXArgs, response *api.JSONTxID) error
- func (service *AvaxAPI) ExportKey(r *http.Request, args *ExportKeyArgs, reply *ExportKeyReply) error
- func (service *AvaxAPI) GetAtomicTx(r *http.Request, args *api.GetTxArgs, reply *FormattedTx) error
- func (service *AvaxAPI) GetAtomicTxStatus(r *http.Request, args *api.JSONTxID, reply *GetAtomicTxStatusReply) error
- func (service *AvaxAPI) GetUTXOs(r *http.Request, args *api.GetUTXOsArgs, reply *api.GetUTXOsReply) error
- func (service *AvaxAPI) Import(_ *http.Request, args *ImportArgs, response *api.JSONTxID) error
- func (service *AvaxAPI) ImportAVAX(_ *http.Request, args *ImportArgs, response *api.JSONTxID) error
- func (service *AvaxAPI) ImportKey(r *http.Request, args *ImportKeyArgs, reply *api.JSONAddress) error
- func (service *AvaxAPI) IssueTx(r *http.Request, args *api.FormattedTx, response *api.JSONTxID) error
- func (service *AvaxAPI) Version(r *http.Request, args *struct{}, reply *VersionReply) error
- type Batch
- type Block
- func (b *Block) Accept(context.Context) error
- func (b *Block) Bytes() []byte
- func (b *Block) Height() uint64
- func (b *Block) ID() ids.ID
- func (b *Block) Parent() ids.ID
- func (b *Block) Reject(context.Context) error
- func (b *Block) SetStatus(status choices.Status)
- func (b *Block) Status() choices.Status
- func (b *Block) String() string
- func (b *Block) Timestamp() time.Time
- func (b *Block) Verify(context.Context) error
- type BlockValidator
- type BuildGenesisReply
- type Client
- type Config
- type ConfigReply
- type CorethLogger
- type Database
- type Duration
- type EVMInput
- type EVMOutput
- type ExportAVAXArgs
- type ExportArgs
- type ExportKeyArgs
- type ExportKeyReply
- type Factory
- type FormattedTx
- type GetAcceptedFrontReply
- type GetAtomicTxStatusReply
- type GossipHandler
- type GossipReceivedStats
- type GossipSentStats
- type GossipStats
- type Gossiper
- type ImportArgs
- type ImportKeyArgs
- type Mempool
- func (m *Mempool) AddTx(tx *Tx) error
- func (m *Mempool) CancelCurrentTx(txID ids.ID)
- func (m *Mempool) CancelCurrentTxs()
- func (m *Mempool) DiscardCurrentTx(txID ids.ID)
- func (m *Mempool) DiscardCurrentTxs()
- func (m *Mempool) ForceAddTx(tx *Tx) error
- func (m *Mempool) GetNewTxs() []*Tx
- func (m *Mempool) GetPendingTx(txID ids.ID) (*Tx, bool)
- func (m *Mempool) GetTx(txID ids.ID) (*Tx, bool, bool)
- func (m *Mempool) IssueCurrentTxs()
- func (m *Mempool) Len() int
- func (m *Mempool) NextTx() (*Tx, bool)
- func (m *Mempool) RemoveTx(tx *Tx)
- type SetLogLevelArgs
- type SnowmanAPI
- type StateSyncClient
- type StateSyncServer
- type StaticService
- type Status
- type Syncer
- type TestUnsignedTx
- func (t *TestUnsignedTx) AtomicOps() (ids.ID, *atomic.Requests, error)
- func (t *TestUnsignedTx) Burned(assetID ids.ID) (uint64, error)
- func (t *TestUnsignedTx) Bytes() []byte
- func (t *TestUnsignedTx) EVMStateTransfer(ctx *snow.Context, state *state.StateDB) error
- func (t *TestUnsignedTx) GasUsed(fixedFee bool) (uint64, error)
- func (t *TestUnsignedTx) ID() ids.ID
- func (t *TestUnsignedTx) Initialize(unsignedBytes, signedBytes []byte)
- func (t *TestUnsignedTx) InputUTXOs() set.Set[ids.ID]
- func (t *TestUnsignedTx) SemanticVerify(vm *VM, stx *Tx, parent *Block, baseFee *big.Int, rules params.Rules) error
- func (t *TestUnsignedTx) SignedBytes() []byte
- func (t *TestUnsignedTx) Verify(ctx *snow.Context, rules params.Rules) error
- type Tx
- type UnsignedAtomicTx
- type UnsignedExportTx
- func (utx *UnsignedExportTx) AtomicOps() (ids.ID, *atomic.Requests, error)
- func (utx *UnsignedExportTx) Burned(assetID ids.ID) (uint64, error)
- func (utx *UnsignedExportTx) EVMStateTransfer(ctx *snow.Context, state *state.StateDB) error
- func (utx *UnsignedExportTx) GasUsed(fixedFee bool) (uint64, error)
- func (utx *UnsignedExportTx) InputUTXOs() set.Set[ids.ID]
- func (utx *UnsignedExportTx) SemanticVerify(vm *VM, stx *Tx, _ *Block, baseFee *big.Int, rules params.Rules) error
- func (utx *UnsignedExportTx) Verify(ctx *snow.Context, rules params.Rules) error
- type UnsignedImportTx
- func (utx *UnsignedImportTx) AtomicOps() (ids.ID, *atomic.Requests, error)
- func (utx *UnsignedImportTx) Burned(assetID ids.ID) (uint64, error)
- func (utx *UnsignedImportTx) EVMStateTransfer(ctx *snow.Context, state *state.StateDB) error
- func (utx *UnsignedImportTx) GasUsed(fixedFee bool) (uint64, error)
- func (utx *UnsignedImportTx) InputUTXOs() set.Set[ids.ID]
- func (utx *UnsignedImportTx) SemanticVerify(vm *VM, stx *Tx, parent *Block, baseFee *big.Int, rules params.Rules) error
- func (utx *UnsignedImportTx) Verify(ctx *snow.Context, rules params.Rules) error
- type UnsignedTx
- type VM
- func (vm *VM) Clock() *mockable.Clock
- func (vm *VM) Codec() codec.Manager
- func (vm *VM) CodecRegistry() codec.Registry
- func (vm *VM) CreateHandlers(context.Context) (map[string]*commonEng.HTTPHandler, error)
- func (vm *VM) CreateStaticHandlers(context.Context) (map[string]*commonEng.HTTPHandler, error)
- func (vm *VM) FormatAddress(chainID ids.ID, addr ids.ShortID) (string, error)
- func (vm *VM) FormatLocalAddress(addr ids.ShortID) (string, error)
- func (vm *VM) GetActivationTime() time.Time
- func (vm *VM) GetAtomicUTXOs(chainID ids.ID, addrs set.Set[ids.ShortID], startAddr ids.ShortID, ...) ([]*avax.UTXO, ids.ShortID, ids.ID, error)
- func (vm *VM) GetBlockIDAtHeight(_ context.Context, blkHeight uint64) (ids.ID, error)
- func (vm *VM) GetCurrentNonce(address common.Address) (uint64, error)
- func (vm *VM) GetSpendableAVAXWithFee(keys []*crypto.PrivateKeySECP256K1R, amount uint64, cost uint64, ...) ([]EVMInput, [][]*crypto.PrivateKeySECP256K1R, error)
- func (vm *VM) GetSpendableFunds(keys []*crypto.PrivateKeySECP256K1R, assetID ids.ID, amount uint64) ([]EVMInput, [][]*crypto.PrivateKeySECP256K1R, error)
- func (vm *VM) HealthCheck(context.Context) (interface{}, error)
- func (vm *VM) Initialize(_ context.Context, chainCtx *snow.Context, dbManager manager.Manager, ...) error
- func (vm *VM) Logger() logging.Logger
- func (vm *VM) NewBlockBuilder(notifyBuildBlockChan chan<- commonEng.Message) *blockBuilder
- func (vm *VM) ParseAddress(addrStr string) (ids.ID, ids.ShortID, error)
- func (vm *VM) ParseEthBlock(b []byte) (*types.Block, error)
- func (vm *VM) ParseLocalAddress(addrStr string) (ids.ShortID, error)
- func (vm *VM) SetPreference(ctx context.Context, blkID ids.ID) error
- func (vm *VM) SetState(_ context.Context, state snow.State) error
- func (vm *VM) Shutdown(context.Context) error
- func (vm *VM) VerifyHeightIndex(context.Context) error
- func (vm *VM) Version(context.Context) (string, error)
- type VersionReply
Constants ¶
const ( GenesisTestAddr = "0x751a0b96e1042bee789452ecb20253fba40dbe85" GenesisTestKey = "0xabd71b35d559563fea757f0f5edbde286fb8c043105b15abb7cd57189306d7d1" )
test constants
Variables ¶
var ( TxBytesGas uint64 = 1 EVMOutputGas uint64 = (common.AddressLength + wrappers.LongLen + hashing.HashLen) * TxBytesGas EVMInputGas uint64 = (common.AddressLength+wrappers.LongLen+hashing.HashLen+wrappers.LongLen)*TxBytesGas + secp256k1fx.CostPerSignature )
Constants for calculating the gas consumed by atomic transactions
var ( // GitCommit is set by the build script GitCommit string // Version is the version of Coreth Version string = "v0.11.5" )
var Codec codec.Manager
Codec does serialization and deserialization
var ( // ID this VM should be referenced by ID = ids.ID{'e', 'v', 'm'} )
Functions ¶
func CorethJSONFormat ¶
func CorethTermFormat ¶
func GetEthAddress ¶
func GetEthAddress(privKey *crypto.PrivateKeySECP256K1R) common.Address
GetEthAddress returns the ethereum address derived from [privKey]
func IsSortedAndUniqueEVMInputs ¶
IsSortedAndUniqueEVMInputs returns true if the EVM Inputs are sorted and unique based on the account addresses
func IsSortedAndUniqueEVMOutputs ¶
IsSortedAndUniqueEVMOutputs returns true if the EVMOutputs are sorted and unique based on the account addresses and assetIDs
func IsSortedEVMOutputs ¶
IsSortedEVMOutputs returns true if the EVMOutputs are sorted based on the account addresses and assetIDs
func NewAtomicTxRepository ¶
func ParseEthAddress ¶
ParseEthAddress parses [addrStr] and returns an Ethereum address
func PublicKeyToEthAddress ¶
func PublicKeyToEthAddress(pubKey *crypto.PublicKeySECP256K1R) common.Address
PublicKeyToEthAddress returns the ethereum address derived from [pubKey]
func SortEVMInputsAndSigners ¶
func SortEVMInputsAndSigners(inputs []EVMInput, signers [][]*crypto.PrivateKeySECP256K1R)
SortEVMInputsAndSigners sorts the list of EVMInputs based on the addresses and assetIDs
func SortEVMOutputs ¶
func SortEVMOutputs(outputs []EVMOutput)
SortEVMOutputs sorts the list of EVMOutputs based on the addresses and assetIDs of the outputs
Types ¶
type Admin ¶
type Admin struct {
// contains filtered or unexported fields
}
Admin is the API service for admin API calls
func NewAdminService ¶
func (*Admin) GetVMConfig ¶
func (p *Admin) GetVMConfig(_ *http.Request, _ *struct{}, reply *ConfigReply) error
func (*Admin) LockProfile ¶
LockProfile runs a mutex profile writing to the specified file
func (*Admin) MemoryProfile ¶
MemoryProfile runs a memory profile writing to the specified file
func (*Admin) SetLogLevel ¶
func (p *Admin) SetLogLevel(_ *http.Request, args *SetLogLevelArgs, reply *api.EmptyReply) error
func (*Admin) StartCPUProfiler ¶
StartCPUProfiler starts a cpu profile writing to the specified file
func (*Admin) StopCPUProfiler ¶
StopCPUProfiler stops the cpu profile
type AtomicBackend ¶
type AtomicBackend interface { // InsertTxs calculates the root of the atomic trie that would // result from applying [txs] to the atomic trie, starting at the state // corresponding to previously verified block [parentHash]. // If [blockHash] is provided, the modified atomic trie is pinned in memory // and it's the caller's responsibility to call either Accept or Reject on // the AtomicState which can be retreived from GetVerifiedAtomicState to commit the // changes or abort them and free memory. InsertTxs(blockHash common.Hash, blockHeight uint64, parentHash common.Hash, txs []*Tx) (common.Hash, error) // Returns an AtomicState corresponding to a block hash that has been inserted // but not Accepted or Rejected yet. GetVerifiedAtomicState(blockHash common.Hash) (AtomicState, error) // AtomicTrie returns the atomic trie managed by this backend. AtomicTrie() AtomicTrie // but not yet applied to shared memory for heights less than or equal to [lastAcceptedBlock]. // This executes operations in the range [cursorHeight+1, lastAcceptedBlock]. // The cursor is initially set by MarkApplyToSharedMemoryCursor to signal to the atomic trie // the range of operations that were added to the trie without being executed on shared memory. ApplyToSharedMemory(lastAcceptedBlock uint64) error // have not been executed on shared memory starting at [previousLastAcceptedHeight+1]. // This is used when state sync syncs the atomic trie, such that the atomic operations // from [previousLastAcceptedHeight+1] to the [lastAcceptedHeight] set by state sync // will not have been executed on shared memory. MarkApplyToSharedMemoryCursor(previousLastAcceptedHeight uint64) error // Syncer creates and returns a new Syncer object that can be used to sync the // state of the atomic trie from peers Syncer(client syncclient.LeafClient, targetRoot common.Hash, targetHeight uint64) (Syncer, error) // SetLastAccepted is used after state-sync to reset the last accepted block. SetLastAccepted(lastAcceptedHash common.Hash) // IsBonus returns true if the block for atomicState is a bonus block IsBonus(blockHeight uint64, blockHash common.Hash) bool }
AtomicBackend abstracts the verification and processing of atomic transactions
func NewAtomicBackend ¶
func NewAtomicBackend( db *versiondb.Database, sharedMemory atomic.SharedMemory, bonusBlocks map[uint64]ids.ID, repo AtomicTxRepository, lastAcceptedHeight uint64, lastAcceptedHash common.Hash, commitInterval uint64, ) (AtomicBackend, error)
NewAtomicBackend creates an AtomicBackend from the specified dependencies
type AtomicState ¶
type AtomicState interface { // Root of the atomic trie after applying the state change. Root() common.Hash // Accept applies the state change to VM's persistent storage // Changes are persisted atomically along with the provided [commitBatch]. Accept(commitBatch database.Batch) error // Reject frees memory associated with the state change. Reject() error }
AtomicState is an abstraction created through AtomicBackend and can be used to apply the VM's state change for atomic txs or reject them to free memory. The root of the atomic trie after applying the state change is accessible through this interface as well.
type AtomicTrie ¶
type AtomicTrie interface { // OpenTrie returns a modifiable instance of the atomic trie backed by trieDB // opened at hash. OpenTrie(hash common.Hash) (*trie.Trie, error) // UpdateTrie updates [tr] to inlude atomicOps for height. UpdateTrie(tr *trie.Trie, height uint64, atomicOps map[ids.ID]*atomic.Requests) error // Iterator returns an AtomicTrieIterator to iterate the trie at the given // root hash starting at [cursor]. Iterator(hash common.Hash, cursor []byte) (AtomicTrieIterator, error) // LastCommitted returns the last committed hash and corresponding block height LastCommitted() (common.Hash, uint64) // TrieDB returns the underlying trie database TrieDB() *trie.Database // Root returns hash if it exists at specified height // if trie was not committed at provided height, it returns // common.Hash{} instead Root(height uint64) (common.Hash, error) // LastAcceptedRoot returns the most recent accepted root of the atomic trie, // or the root it was initialized to if no new tries were accepted yet. LastAcceptedRoot() common.Hash // InsertTrie updates the trieDB with the provided node set and adds a reference // to root in the trieDB. Once InsertTrie is called, it is expected either // AcceptTrie or RejectTrie be called for the same root. InsertTrie(nodes *trie.NodeSet, root common.Hash) error // AcceptTrie marks root as the last accepted atomic trie root, and // commits the trie to persistent storage if height is divisible by // the commit interval. Returns true if the trie was committed. AcceptTrie(height uint64, root common.Hash) (bool, error) // RejectTrie dereferences root from the trieDB, freeing memory. RejectTrie(root common.Hash) error }
AtomicTrie maintains an index of atomic operations by blockchainIDs for every block height containing atomic transactions. The backing data structure for this index is a Trie. The keys of the trie are block heights and the values (leaf nodes) are the atomic operations applied to shared memory while processing the block accepted at the corresponding height.
type AtomicTrieIterator ¶
type AtomicTrieIterator interface { // Next advances the iterator to the next node in the atomic trie and // returns true if there are more leaves to iterate Next() bool // Key returns the current database key that the iterator is iterating // returned []byte can be freely modified Key() []byte // BlockNumber returns the current block number BlockNumber() uint64 // BlockchainID returns the current blockchain ID at the current block number BlockchainID() ids.ID // AtomicOps returns a map of blockchainIDs to the set of atomic requests // for that blockchainID at the current block number AtomicOps() *atomic.Requests // Error returns error, if any encountered during this iteration Error() error }
AtomicTrieIterator is a stateful iterator that iterates the leafs of an AtomicTrie
func NewAtomicTrieIterator ¶
func NewAtomicTrieIterator(trieIterator *trie.Iterator, codec codec.Manager) AtomicTrieIterator
type AtomicTxRepository ¶
type AtomicTxRepository interface { GetIndexHeight() (uint64, error) GetByTxID(txID ids.ID) (*Tx, uint64, error) GetByHeight(height uint64) ([]*Tx, error) Write(height uint64, txs []*Tx) error WriteBonus(height uint64, txs []*Tx) error IterateByHeight(start uint64) database.Iterator Codec() codec.Manager }
AtomicTxRepository defines an entity that manages storage and indexing of atomic transactions
type AvaxAPI ¶
type AvaxAPI struct {
// contains filtered or unexported fields
}
AvaxAPI offers Avalanche network related API methods
func (*AvaxAPI) Export ¶
Export exports an asset from the C-Chain to the X-Chain It must be imported on the X-Chain to complete the transfer
func (*AvaxAPI) ExportAVAX ¶
func (service *AvaxAPI) ExportAVAX(_ *http.Request, args *ExportAVAXArgs, response *api.JSONTxID) error
ExportAVAX exports AVAX from the C-Chain to the X-Chain It must be imported on the X-Chain to complete the transfer
func (*AvaxAPI) ExportKey ¶
func (service *AvaxAPI) ExportKey(r *http.Request, args *ExportKeyArgs, reply *ExportKeyReply) error
ExportKey returns a private key from the provided user
func (*AvaxAPI) GetAtomicTx ¶
GetAtomicTx returns the specified transaction
func (*AvaxAPI) GetAtomicTxStatus ¶
func (service *AvaxAPI) GetAtomicTxStatus(r *http.Request, args *api.JSONTxID, reply *GetAtomicTxStatusReply) error
GetAtomicTxStatus returns the status of the specified transaction
func (*AvaxAPI) GetUTXOs ¶
func (service *AvaxAPI) GetUTXOs(r *http.Request, args *api.GetUTXOsArgs, reply *api.GetUTXOsReply) error
GetUTXOs gets all utxos for passed in addresses
func (*AvaxAPI) Import ¶
Import issues a transaction to import AVAX from the X-chain. The AVAX must have already been exported from the X-Chain.
func (*AvaxAPI) ImportAVAX ¶
ImportAVAX is a deprecated name for Import.
func (*AvaxAPI) ImportKey ¶
func (service *AvaxAPI) ImportKey(r *http.Request, args *ImportKeyArgs, reply *api.JSONAddress) error
ImportKey adds a private key to the provided user
type Batch ¶
Batch implements ethdb.Batch
type Block ¶
type Block struct {
// contains filtered or unexported fields
}
Block implements the snowman.Block interface
func (*Block) Reject ¶
Reject implements the snowman.Block interface If [b] contains an atomic transaction, attempt to re-issue it
func (*Block) SetStatus ¶
SetStatus implements the InternalBlock interface allowing ChainState to set the status on an existing block
type BlockValidator ¶
func NewBlockValidator ¶
func NewBlockValidator(extDataHashes map[common.Hash]common.Hash) BlockValidator
type BuildGenesisReply ¶
type BuildGenesisReply struct { Bytes string `json:"bytes"` Encoding formatting.Encoding `json:"encoding"` }
BuildGenesisReply is the reply from BuildGenesis
type Client ¶
type Client interface { IssueTx(ctx context.Context, txBytes []byte) (ids.ID, error) GetAtomicTxStatus(ctx context.Context, txID ids.ID) (Status, error) GetAtomicTx(ctx context.Context, txID ids.ID) ([]byte, error) GetAtomicUTXOs(ctx context.Context, addrs []string, sourceChain string, limit uint32, startAddress, startUTXOID string) ([][]byte, api.Index, error) ListAddresses(ctx context.Context, userPass api.UserPass) ([]string, error) ExportKey(ctx context.Context, userPass api.UserPass, addr string) (*crypto.PrivateKeySECP256K1R, string, error) ImportKey(ctx context.Context, userPass api.UserPass, privateKey *crypto.PrivateKeySECP256K1R) (string, error) Import(ctx context.Context, userPass api.UserPass, to string, sourceChain string) (ids.ID, error) ExportAVAX(ctx context.Context, userPass api.UserPass, amount uint64, to string) (ids.ID, error) Export(ctx context.Context, userPass api.UserPass, amount uint64, to string, assetID string) (ids.ID, error) StartCPUProfiler(ctx context.Context) error StopCPUProfiler(ctx context.Context) error MemoryProfile(ctx context.Context) error LockProfile(ctx context.Context) error SetLogLevel(ctx context.Context, level log.Lvl) error GetVMConfig(ctx context.Context) (*Config, error) }
Client interface for interacting with EVM chain
func NewCChainClient ¶
NewCChainClient returns a Client for interacting with the C Chain
type Config ¶
type Config struct { // Coreth APIs SnowmanAPIEnabled bool `json:"snowman-api-enabled"` CorethAdminAPIEnabled bool `json:"coreth-admin-api-enabled"` CorethAdminAPIDir string `json:"coreth-admin-api-dir"` // EnabledEthAPIs is a list of Ethereum services that should be enabled // If none is specified, then we use the default list [defaultEnabledAPIs] EnabledEthAPIs []string `json:"eth-apis"` // Continuous Profiler ContinuousProfilerDir string `json:"continuous-profiler-dir"` // If set to non-empty string creates a continuous profiler ContinuousProfilerFrequency Duration `json:"continuous-profiler-frequency"` // Frequency to run continuous profiler if enabled ContinuousProfilerMaxFiles int `json:"continuous-profiler-max-files"` // Maximum number of files to maintain // Coreth API Gas/Price Caps RPCGasCap uint64 `json:"rpc-gas-cap"` RPCTxFeeCap float64 `json:"rpc-tx-fee-cap"` // Cache settings TrieCleanCache int `json:"trie-clean-cache"` // Size of the trie clean cache (MB) TrieCleanJournal string `json:"trie-clean-journal"` // Directory to use to save the trie clean cache (must be populated to enable journaling the trie clean cache) TrieCleanRejournal Duration `json:"trie-clean-rejournal"` // Frequency to re-journal the trie clean cache to disk (minimum 1 minute, must be populated to enable journaling the trie clean cache) TrieDirtyCache int `json:"trie-dirty-cache"` // Size of the trie dirty cache (MB) TrieDirtyCommitTarget int `json:"trie-dirty-commit-target"` // Memory limit to target in the dirty cache before performing a commit (MB) SnapshotCache int `json:"snapshot-cache"` // Size of the snapshot disk layer clean cache (MB) // Eth Settings Preimages bool `json:"preimages-enabled"` SnapshotAsync bool `json:"snapshot-async"` SnapshotVerify bool `json:"snapshot-verification-enabled"` // Pruning Settings Pruning bool `json:"pruning-enabled"` // If enabled, trie roots are only persisted every 4096 blocks AcceptorQueueLimit int `json:"accepted-queue-limit"` // Maximum blocks to queue before blocking during acceptance CommitInterval uint64 `json:"commit-interval"` // Specifies the commit interval at which to persist EVM and atomic tries. AllowMissingTries bool `json:"allow-missing-tries"` // If enabled, warnings preventing an incomplete trie index are suppressed PopulateMissingTries *uint64 `json:"populate-missing-tries,omitempty"` // Sets the starting point for re-populating missing tries. Disables re-generation if nil. PopulateMissingTriesParallelism int `json:"populate-missing-tries-parallelism"` // Number of concurrent readers to use when re-populating missing tries on startup. // Metric Settings MetricsExpensiveEnabled bool `json:"metrics-expensive-enabled"` // Debug-level metrics that might impact runtime performance // API Settings LocalTxsEnabled bool `json:"local-txs-enabled"` TxPoolJournal string `json:"tx-pool-journal"` TxPoolRejournal Duration `json:"tx-pool-rejournal"` TxPoolPriceLimit uint64 `json:"tx-pool-price-limit"` TxPoolPriceBump uint64 `json:"tx-pool-price-bump"` TxPoolAccountSlots uint64 `json:"tx-pool-account-slots"` TxPoolGlobalSlots uint64 `json:"tx-pool-global-slots"` TxPoolAccountQueue uint64 `json:"tx-pool-account-queue"` TxPoolGlobalQueue uint64 `json:"tx-pool-global-queue"` APIMaxDuration Duration `json:"api-max-duration"` WSCPURefillRate Duration `json:"ws-cpu-refill-rate"` WSCPUMaxStored Duration `json:"ws-cpu-max-stored"` MaxBlocksPerRequest int64 `json:"api-max-blocks-per-request"` AllowUnfinalizedQueries bool `json:"allow-unfinalized-queries"` AllowUnprotectedTxs bool `json:"allow-unprotected-txs"` AllowUnprotectedTxHashes []common.Hash `json:"allow-unprotected-tx-hashes"` // Keystore Settings KeystoreDirectory string `json:"keystore-directory"` // both absolute and relative supported KeystoreExternalSigner string `json:"keystore-external-signer"` KeystoreInsecureUnlockAllowed bool `json:"keystore-insecure-unlock-allowed"` // Gossip Settings RemoteTxGossipOnlyEnabled bool `json:"remote-tx-gossip-only-enabled"` TxRegossipFrequency Duration `json:"tx-regossip-frequency"` TxRegossipMaxSize int `json:"tx-regossip-max-size"` // Log LogLevel string `json:"log-level"` LogJSONFormat bool `json:"log-json-format"` // Offline Pruning Settings OfflinePruning bool `json:"offline-pruning-enabled"` OfflinePruningBloomFilterSize uint64 `json:"offline-pruning-bloom-filter-size"` OfflinePruningDataDirectory string `json:"offline-pruning-data-directory"` // VM2VM network MaxOutboundActiveRequests int64 `json:"max-outbound-active-requests"` MaxOutboundActiveCrossChainRequests int64 `json:"max-outbound-active-cross-chain-requests"` // Sync settings StateSyncEnabled bool `json:"state-sync-enabled"` StateSyncSkipResume bool `json:"state-sync-skip-resume"` // Forces state sync to use the highest available summary block StateSyncServerTrieCache int `json:"state-sync-server-trie-cache"` StateSyncIDs string `json:"state-sync-ids"` StateSyncCommitInterval uint64 `json:"state-sync-commit-interval"` StateSyncMinBlocks uint64 `json:"state-sync-min-blocks"` // Database Settings InspectDatabase bool `json:"inspect-database"` // Inspects the database on startup if enabled. // SkipUpgradeCheck disables checking that upgrades must take place before the last // accepted block. Skipping this check is useful when a node operator does not update // their node before the network upgrade and their node accepts blocks that have // identical state with the pre-upgrade ruleset. SkipUpgradeCheck bool `json:"skip-upgrade-check"` // AcceptedCacheSize is the depth to keep in the accepted headers cache and the // accepted logs cache at the accepted tip. // // This is particularly useful for improving the performance of eth_getLogs // on RPC nodes. AcceptedCacheSize int `json:"accepted-cache-size"` // TxLookupLimit is the maximum number of blocks from head whose tx indices // are reserved: // * 0: means no limit // * N: means N block limit [HEAD-N+1, HEAD] and delete extra indexes TxLookupLimit uint64 `json:"tx-lookup-limit"` }
Config ...
func (Config) EthAPIs ¶
EthAPIs returns an array of strings representing the Eth APIs that should be enabled
func (Config) EthBackendSettings ¶
func (*Config) SetDefaults ¶
func (c *Config) SetDefaults()
type ConfigReply ¶
type ConfigReply struct {
Config *Config `json:"config"`
}
type CorethLogger ¶
func InitLogger ¶
func InitLogger(alias string, level string, jsonFormat bool, writer io.Writer) (CorethLogger, error)
InitLogger initializes logger with alias and sets the log level and format with the original os.StdErr interface along with the context logger.
func (*CorethLogger) SetLogLevel ¶
func (c *CorethLogger) SetLogLevel(level string) error
SetLogLevel sets the log level of initialized log handler.
type Database ¶
Database implements ethdb.Database
func (Database) NewBatchWithSize ¶
NewBatchWithSize implements ethdb.Database TODO: propagate size through avalanchego Database interface
func (Database) NewIterator ¶
NewIterator implements ethdb.Database
Note: This method assumes that the prefix is NOT part of the start, so there's no need for the caller to prepend the prefix to the start.
func (Database) NewIteratorWithStart ¶
NewIteratorWithStart implements ethdb.Database
type Duration ¶
func (Duration) MarshalJSON ¶
String implements the stringer interface.
func (*Duration) UnmarshalJSON ¶
type EVMInput ¶
type EVMInput struct { Address common.Address `serialize:"true" json:"address"` Amount uint64 `serialize:"true" json:"amount"` AssetID ids.ID `serialize:"true" json:"assetID"` Nonce uint64 `serialize:"true" json:"nonce"` }
EVMInput defines an input created from the EVM state to fund export transactions
type EVMOutput ¶
type EVMOutput struct { Address common.Address `serialize:"true" json:"address"` Amount uint64 `serialize:"true" json:"amount"` AssetID ids.ID `serialize:"true" json:"assetID"` }
EVMOutput defines an output that is added to the EVM state created by import transactions
type ExportAVAXArgs ¶
type ExportAVAXArgs struct { api.UserPass // Fee that should be used when creating the tx BaseFee *hexutil.Big `json:"baseFee"` // Amount of asset to send Amount json.Uint64 `json:"amount"` // ID of the address that will receive the AVAX. This address includes the // chainID, which is used to determine what the destination chain is. To string `json:"to"` }
ExportAVAXArgs are the arguments to ExportAVAX
type ExportArgs ¶
type ExportArgs struct { ExportAVAXArgs // AssetID of the tokens AssetID string `json:"assetID"` }
ExportArgs are the arguments to Export
type ExportKeyArgs ¶
ExportKeyArgs are arguments for ExportKey
type ExportKeyReply ¶
type ExportKeyReply struct { // The decrypted PrivateKey for the Address provided in the arguments PrivateKey *crypto.PrivateKeySECP256K1R `json:"privateKey"` PrivateKeyHex string `json:"privateKeyHex"` }
ExportKeyReply is the response for ExportKey
type FormattedTx ¶
type FormattedTx struct { api.FormattedTx BlockHeight *json.Uint64 `json:"blockHeight,omitempty"` }
type GetAcceptedFrontReply ¶
type GetAcceptedFrontReply struct { Hash common.Hash `json:"hash"` Number *big.Int `json:"number"` }
GetAcceptedFrontReply defines the reply that will be sent from the GetAcceptedFront API call
type GetAtomicTxStatusReply ¶
type GetAtomicTxStatusReply struct { Status Status `json:"status"` BlockHeight *json.Uint64 `json:"blockHeight,omitempty"` }
GetAtomicTxStatusReply defines the GetAtomicTxStatus replies returned from the API
type GossipHandler ¶
type GossipHandler struct {
// contains filtered or unexported fields
}
GossipHandler handles incoming gossip messages
func NewGossipHandler ¶
func NewGossipHandler(vm *VM, stats GossipReceivedStats) *GossipHandler
func (*GossipHandler) HandleAtomicTx ¶
func (h *GossipHandler) HandleAtomicTx(nodeID ids.NodeID, msg message.AtomicTxGossip) error
func (*GossipHandler) HandleEthTxs ¶
func (h *GossipHandler) HandleEthTxs(nodeID ids.NodeID, msg message.EthTxsGossip) error
type GossipReceivedStats ¶
type GossipReceivedStats interface { IncAtomicGossipReceived() IncEthTxsGossipReceived() // new vs. known txs received IncAtomicGossipReceivedDropped() IncAtomicGossipReceivedError() IncAtomicGossipReceivedKnown() IncAtomicGossipReceivedNew() IncEthTxsGossipReceivedKnown() IncEthTxsGossipReceivedNew() }
GossipReceivedStats groups functions for incoming gossip stats.
type GossipSentStats ¶
type GossipSentStats interface { IncAtomicGossipSent() IncEthTxsGossipSent() // regossip IncEthTxsRegossipQueued() IncEthTxsRegossipQueuedLocal(count int) IncEthTxsRegossipQueuedRemote(count int) }
GossipSentStats groups functions for outgoing gossip stats.
type GossipStats ¶
type GossipStats interface { GossipReceivedStats GossipSentStats }
GossipStats contains methods for updating incoming and outgoing gossip stats.
func NewGossipStats ¶
func NewGossipStats() GossipStats
type Gossiper ¶
type Gossiper interface { // GossipAtomicTxs sends AppGossip message containing the given [txs] GossipAtomicTxs(txs []*Tx) error // GossipEthTxs sends AppGossip message containing the given [txs] GossipEthTxs(txs []*types.Transaction) error }
Gossiper handles outgoing gossip of transactions
type ImportArgs ¶
type ImportArgs struct { api.UserPass // Fee that should be used when creating the tx BaseFee *hexutil.Big `json:"baseFee"` // Chain the funds are coming from SourceChain string `json:"sourceChain"` // The address that will receive the imported funds To string `json:"to"` }
ImportArgs are arguments for passing into Import requests
type ImportKeyArgs ¶
type ImportKeyArgs struct { api.UserPass PrivateKey *crypto.PrivateKeySECP256K1R `json:"privateKey"` }
ImportKeyArgs are arguments for ImportKey
type Mempool ¶
type Mempool struct { // AVAXAssetID is the fee paying currency of any atomic transaction AVAXAssetID ids.ID // Pending is a channel of length one, which the mempool ensures has an item on // it as long as there is an unissued transaction remaining in [txs] Pending chan struct{} // contains filtered or unexported fields }
Mempool is a simple mempool for atomic transactions
func NewMempool ¶
NewMempool returns a Mempool with [maxSize]
func (*Mempool) AddTx ¶
Add attempts to add [tx] to the mempool and returns an error if it could not be addeed to the mempool.
func (*Mempool) CancelCurrentTx ¶
CancelCurrentTx marks the attempt to issue [txID] as being aborted. This should be called after NextTx returns [txID] and the transaction [txID] cannot be included in the block, but should not be discarded. For example, CancelCurrentTx should be called if including the transaction will put the block above the atomic tx gas limit.
func (*Mempool) CancelCurrentTxs ¶
func (m *Mempool) CancelCurrentTxs()
[CancelCurrentTxs] marks the attempt to issue [currentTxs] as being aborted. If this is called after a buildBlock error caused by the atomic transaction, then DiscardCurrentTx should have been called such that this call will have no effect and should not re-issue the invalid tx.
func (*Mempool) DiscardCurrentTx ¶
DiscardCurrentTx marks a [tx] in the [currentTxs] map as invalid and aborts the attempt to issue it since it failed verification.
func (*Mempool) DiscardCurrentTxs ¶
func (m *Mempool) DiscardCurrentTxs()
DiscardCurrentTxs marks all txs in [currentTxs] as discarded.
func (*Mempool) ForceAddTx ¶
forceAddTx forcibly adds a *Tx to the mempool and bypasses all verification.
func (*Mempool) GetNewTxs ¶
GetNewTxs returns the array of [newTxs] and replaces it with an empty array.
func (*Mempool) GetPendingTx ¶
GetPendingTx returns the transaction [txID] and true if it is currently in the [txHeap] waiting to be issued into a block. Returns nil, false otherwise.
func (*Mempool) GetTx ¶
GetTx returns the transaction [txID] if it was issued by this node and returns whether it was dropped and whether it exists.
func (*Mempool) IssueCurrentTxs ¶
func (m *Mempool) IssueCurrentTxs()
IssueCurrentTx marks [currentTx] as issued if there is one
type SetLogLevelArgs ¶
type SetLogLevelArgs struct {
Level string `json:"level"`
}
type SnowmanAPI ¶
type SnowmanAPI struct {
// contains filtered or unexported fields
}
SnowmanAPI introduces snowman specific functionality to the evm
func (*SnowmanAPI) GetAcceptedFront ¶
func (api *SnowmanAPI) GetAcceptedFront(ctx context.Context) (*GetAcceptedFrontReply, error)
GetAcceptedFront returns the last accepted block's hash and height
func (*SnowmanAPI) IssueBlock ¶
func (api *SnowmanAPI) IssueBlock(ctx context.Context) error
IssueBlock to the chain
type StateSyncClient ¶
type StateSyncClient interface { // methods that implement the client side of [block.StateSyncableVM] StateSyncEnabled(context.Context) (bool, error) GetOngoingSyncStateSummary(context.Context) (block.StateSummary, error) ParseStateSummary(ctx context.Context, summaryBytes []byte) (block.StateSummary, error) // additional methods required by the evm package StateSyncClearOngoingSummary() error Shutdown() error Error() error }
func NewStateSyncClient ¶
func NewStateSyncClient(config *stateSyncClientConfig) StateSyncClient
type StateSyncServer ¶
type StateSyncServer interface { GetLastStateSummary(context.Context) (block.StateSummary, error) GetStateSummary(context.Context, uint64) (block.StateSummary, error) }
func NewStateSyncServer ¶
func NewStateSyncServer(config *stateSyncServerConfig) StateSyncServer
type StaticService ¶
type StaticService struct{}
StaticService defines the static API services exposed by the evm
func (*StaticService) BuildGenesis ¶
func (*StaticService) BuildGenesis(_ context.Context, args *core.Genesis) (*BuildGenesisReply, error)
BuildGenesis returns the UTXOs such that at least one address in [args.Addresses] is referenced in the UTXO.
type Status ¶
type Status uint32
Status ...
List of possible status values Unknown Zero value, means the status is not known Dropped means the transaction was in the mempool, but was dropped because it failed verification Processing means the transaction is in the mempool Accepted means the transaction was accepted
type Syncer ¶
Syncer represents a step in state sync, along with Start/Done methods to control and monitor progress. Error returns an error if any was encountered.
type TestUnsignedTx ¶
type TestUnsignedTx struct { GasUsedV uint64 `serialize:"true"` AcceptRequestsBlockchainIDV ids.ID `serialize:"true"` AcceptRequestsV *atomic.Requests `serialize:"true"` VerifyV error IDV ids.ID `serialize:"true" json:"id"` BurnedV uint64 `serialize:"true"` UnsignedBytesV []byte SignedBytesV []byte InputUTXOsV set.Set[ids.ID] SemanticVerifyV error EVMStateTransferV error }
func (*TestUnsignedTx) Burned ¶
func (t *TestUnsignedTx) Burned(assetID ids.ID) (uint64, error)
Burned implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) Bytes ¶
func (t *TestUnsignedTx) Bytes() []byte
Bytes implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) EVMStateTransfer ¶
EVMStateTransfer implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) GasUsed ¶
func (t *TestUnsignedTx) GasUsed(fixedFee bool) (uint64, error)
GasUsed implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) ID ¶
func (t *TestUnsignedTx) ID() ids.ID
ID implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) Initialize ¶
func (t *TestUnsignedTx) Initialize(unsignedBytes, signedBytes []byte)
Initialize implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) InputUTXOs ¶
func (t *TestUnsignedTx) InputUTXOs() set.Set[ids.ID]
InputUTXOs implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) SemanticVerify ¶
func (t *TestUnsignedTx) SemanticVerify(vm *VM, stx *Tx, parent *Block, baseFee *big.Int, rules params.Rules) error
SemanticVerify implements the UnsignedAtomicTx interface
func (*TestUnsignedTx) SignedBytes ¶
func (t *TestUnsignedTx) SignedBytes() []byte
SignedBytes implements the UnsignedAtomicTx interface
type Tx ¶
type Tx struct { // The body of this transaction UnsignedAtomicTx `serialize:"true" json:"unsignedTx"` // The credentials of this transaction Creds []verify.Verifiable `serialize:"true" json:"credentials"` }
Tx is a signed transaction
func ExtractAtomicTx ¶
ExtractAtomicTx extracts a singular atomic transaction from [atomicTxBytes] and returns a slice of atomic transactions for compatibility with the type returned post ApricotPhase5. Note: this function assumes [atomicTxBytes] is non-empty.
func ExtractAtomicTxs ¶
extractAtomicTxs returns the atomic transactions in [atomicTxBytes] if they exist. if [batch] is true, it attempts to unmarshal [atomicTxBytes] as a slice of transactions (post-ApricotPhase5), and if it is false, then it unmarshals it as a single atomic transaction.
func ExtractAtomicTxsBatch ¶
ExtractAtomicTxsBatch extracts a slice of atomic transactions from [atomicTxBytes]. Note: this function assumes [atomicTxBytes] is non-empty.
func (*Tx) BlockFeeContribution ¶
func (tx *Tx) BlockFeeContribution(fixedFee bool, avaxAssetID ids.ID, baseFee *big.Int) (*big.Int, *big.Int, error)
BlockFeeContribution calculates how much AVAX towards the block fee contribution was paid for via this transaction denominated in [avaxAssetID] with [baseFee] used to calculate the cost of this transaction. This function also returns the [gasUsed] by the transaction for inclusion in the [baseFee] algorithm.
type UnsignedAtomicTx ¶
type UnsignedAtomicTx interface { UnsignedTx // InputUTXOs returns the UTXOs this tx consumes InputUTXOs() set.Set[ids.ID] // Verify attempts to verify that the transaction is well formed Verify(ctx *snow.Context, rules params.Rules) error // Attempts to verify this transaction with the provided state. SemanticVerify(vm *VM, stx *Tx, parent *Block, baseFee *big.Int, rules params.Rules) error // AtomicOps returns the blockchainID and set of atomic requests that // must be applied to shared memory for this transaction to be accepted. // The set of atomic requests must be returned in a consistent order. AtomicOps() (ids.ID, *atomic.Requests, error) EVMStateTransfer(ctx *snow.Context, state *state.StateDB) error }
UnsignedAtomicTx is an unsigned operation that can be atomically accepted
type UnsignedExportTx ¶
type UnsignedExportTx struct { avax.Metadata // ID of the network on which this tx was issued NetworkID uint32 `serialize:"true" json:"networkID"` // ID of this blockchain. BlockchainID ids.ID `serialize:"true" json:"blockchainID"` // Which chain to send the funds to DestinationChain ids.ID `serialize:"true" json:"destinationChain"` // Inputs Ins []EVMInput `serialize:"true" json:"inputs"` // Outputs that are exported to the chain ExportedOutputs []*avax.TransferableOutput `serialize:"true" json:"exportedOutputs"` }
UnsignedExportTx is an unsigned ExportTx
func (*UnsignedExportTx) Burned ¶
func (utx *UnsignedExportTx) Burned(assetID ids.ID) (uint64, error)
Amount of [assetID] burned by this transaction
func (*UnsignedExportTx) EVMStateTransfer ¶
EVMStateTransfer executes the state update from the atomic export transaction
func (*UnsignedExportTx) GasUsed ¶
func (utx *UnsignedExportTx) GasUsed(fixedFee bool) (uint64, error)
func (*UnsignedExportTx) InputUTXOs ¶
func (utx *UnsignedExportTx) InputUTXOs() set.Set[ids.ID]
InputUTXOs returns a set of all the hash(address:nonce) exporting funds.
type UnsignedImportTx ¶
type UnsignedImportTx struct { avax.Metadata // ID of the network on which this tx was issued NetworkID uint32 `serialize:"true" json:"networkID"` // ID of this blockchain. BlockchainID ids.ID `serialize:"true" json:"blockchainID"` // Which chain to consume the funds from SourceChain ids.ID `serialize:"true" json:"sourceChain"` // Inputs that consume UTXOs produced on the chain ImportedInputs []*avax.TransferableInput `serialize:"true" json:"importedInputs"` // Outputs Outs []EVMOutput `serialize:"true" json:"outputs"` }
UnsignedImportTx is an unsigned ImportTx
func (*UnsignedImportTx) AtomicOps ¶
AtomicOps returns imported inputs spent on this transaction We spend imported UTXOs here rather than in semanticVerify because we don't want to remove an imported UTXO in semanticVerify only to have the transaction not be Accepted. This would be inconsistent. Recall that imported UTXOs are not kept in a versionDB.
func (*UnsignedImportTx) Burned ¶
func (utx *UnsignedImportTx) Burned(assetID ids.ID) (uint64, error)
Amount of [assetID] burned by this transaction
func (*UnsignedImportTx) EVMStateTransfer ¶
EVMStateTransfer performs the state transfer to increase the balances of accounts accordingly with the imported EVMOutputs
func (*UnsignedImportTx) GasUsed ¶
func (utx *UnsignedImportTx) GasUsed(fixedFee bool) (uint64, error)
func (*UnsignedImportTx) InputUTXOs ¶
func (utx *UnsignedImportTx) InputUTXOs() set.Set[ids.ID]
InputUTXOs returns the UTXOIDs of the imported funds
type UnsignedTx ¶
type UnsignedTx interface { Initialize(unsignedBytes, signedBytes []byte) ID() ids.ID GasUsed(fixedFee bool) (uint64, error) Burned(assetID ids.ID) (uint64, error) Bytes() []byte SignedBytes() []byte }
UnsignedTx is an unsigned transaction
type VM ¶
type VM struct { // *chain.State helps to implement the VM interface by wrapping blocks // with an efficient caching layer. *chain.State peer.Network IsPlugin bool // State sync server and client StateSyncServer StateSyncClient // contains filtered or unexported fields }
VM implements the snowman.ChainVM interface
func (*VM) CodecRegistry ¶
CodecRegistry implements the secp256k1fx interface
func (*VM) CreateHandlers ¶
CreateHandlers makes new http handlers that can handle API calls
func (*VM) CreateStaticHandlers ¶
CreateStaticHandlers makes new http handlers that can handle API calls
func (*VM) FormatAddress ¶
FormatAddress takes in a chainID and a raw address and produces the formatted address
func (*VM) FormatLocalAddress ¶
FormatLocalAddress takes in a raw address and produces the formatted address
func (*VM) GetActivationTime ¶
implements SnowmanPlusPlusVM interface
func (*VM) GetAtomicUTXOs ¶
func (vm *VM) GetAtomicUTXOs( chainID ids.ID, addrs set.Set[ids.ShortID], startAddr ids.ShortID, startUTXOID ids.ID, limit int, ) ([]*avax.UTXO, ids.ShortID, ids.ID, error)
GetAtomicUTXOs returns the utxos that at least one of the provided addresses is referenced in.
func (*VM) GetBlockIDAtHeight ¶
GetBlockAtHeight implements the HeightIndexedChainVM interface and returns the canonical block at [blkHeight]. If [blkHeight] is less than the height of the last accepted block, this will return the block accepted at that height. Otherwise, it may return a blkID that has not yet been accepted. Note: the engine assumes that if a block is not found at [blkHeight], then database.ErrNotFound will be returned. This indicates that the VM has state synced and does not have all historical blocks available.
func (*VM) GetCurrentNonce ¶
GetCurrentNonce returns the nonce associated with the address at the preferred block
func (*VM) GetSpendableAVAXWithFee ¶
func (vm *VM) GetSpendableAVAXWithFee( keys []*crypto.PrivateKeySECP256K1R, amount uint64, cost uint64, baseFee *big.Int, ) ([]EVMInput, [][]*crypto.PrivateKeySECP256K1R, error)
GetSpendableAVAXWithFee returns a list of EVMInputs and keys (in corresponding order) to total [amount] + [fee] of [AVAX] owned by [keys]. This function accounts for the added cost of the additional inputs needed to create the transaction and makes sure to skip any keys with a balance that is insufficient to cover the additional fee. Note: we return [][]*crypto.PrivateKeySECP256K1R even though each input corresponds to a single key, so that the signers can be passed in to [tx.Sign] which supports multiple keys on a single input.
func (*VM) GetSpendableFunds ¶
func (vm *VM) GetSpendableFunds( keys []*crypto.PrivateKeySECP256K1R, assetID ids.ID, amount uint64, ) ([]EVMInput, [][]*crypto.PrivateKeySECP256K1R, error)
GetSpendableFunds returns a list of EVMInputs and keys (in corresponding order) to total [amount] of [assetID] owned by [keys]. Note: we return [][]*crypto.PrivateKeySECP256K1R even though each input corresponds to a single key, so that the signers can be passed in to [tx.Sign] which supports multiple keys on a single input.
func (*VM) HealthCheck ¶
Health returns nil if this chain is healthy. Also returns details, which should be one of: string, []byte, map[string]string
func (*VM) Initialize ¶
func (vm *VM) Initialize( _ context.Context, chainCtx *snow.Context, dbManager manager.Manager, genesisBytes []byte, upgradeBytes []byte, configBytes []byte, toEngine chan<- commonEng.Message, fxs []*commonEng.Fx, appSender commonEng.AppSender, ) error
Initialize implements the snowman.ChainVM interface
func (*VM) NewBlockBuilder ¶
func (*VM) ParseAddress ¶
ParseAddress takes in an address and produces the ID of the chain it's for the ID of the address
func (*VM) ParseLocalAddress ¶
ParseLocalAddress takes in an address for this chain and produces the ID
func (*VM) SetPreference ¶
SetPreference sets what the current tail of the chain is
func (*VM) VerifyHeightIndex ¶
VerifyHeightIndex always returns a nil error since the index is maintained by vm.blockChain.
type VersionReply ¶
type VersionReply struct {
Version string `json:"version"`
}
Source Files ¶
- admin.go
- atomic_backend.go
- atomic_state.go
- atomic_syncer.go
- atomic_trie.go
- atomic_trie_iterator.go
- atomic_tx_repository.go
- block.go
- block_builder.go
- block_verification.go
- client.go
- codec.go
- config.go
- database.go
- export_tx.go
- ext_data_hashes.go
- factory.go
- formatting.go
- gasprice_update.go
- gossip_stats.go
- gossiper.go
- health.go
- import_tx.go
- log.go
- mempool.go
- service.go
- static_service.go
- status.go
- syncervm_client.go
- syncervm_server.go
- test_tx.go
- tx.go
- tx_heap.go
- user.go
- version.go
- vm.go