vmcommon

package
v1.1.34 Latest Latest
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Published: Mar 5, 2021 License: GPL-3.0 Imports: 3 Imported by: 0

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Constants

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const (
	// MetadataUpgradeable is the bit for upgradable flag
	MetadataUpgradeable = 1
	// MetadataPayable is the bit for payable flag
	MetadataPayable = 2
	// MetadataReadable is the bit for readable flag
	MetadataReadable = 4
)

Variables

This section is empty.

Functions

This section is empty.

Types

type BlockchainHook

type BlockchainHook interface {
	// NewAddress yields the address of a new SC account, when one such account is created.
	// The result should only depend on the creator address and nonce.
	// Returning an empty address lets the VM decide what the new address should be.
	NewAddress(creatorAddress []byte, creatorNonce uint64, vmType []byte) ([]byte, error)

	// GetStorageData should yield the storage value for a certain account and index.
	// Should return an empty byte array if the key is missing from the account storage,
	// or if account does not exist.
	GetStorageData(accountAddress []byte, index []byte) ([]byte, error)

	// GetBlockhash returns the hash of the block with the asked nonce if available
	GetBlockhash(nonce uint64) ([]byte, error)

	// LastNonce returns the nonce from from the last committed block
	LastNonce() uint64

	// LastRound returns the round from the last committed block
	LastRound() uint64

	// LastTimeStamp returns the timeStamp from the last committed block
	LastTimeStamp() uint64

	// LastRandomSeed returns the random seed from the last committed block
	LastRandomSeed() []byte

	// LastEpoch returns the epoch from the last committed block
	LastEpoch() uint32

	// GetStateRootHash returns the state root hash from the last committed block
	GetStateRootHash() []byte

	// CurrentNonce returns the nonce from the current block
	CurrentNonce() uint64

	// CurrentRound returns the round from the current block
	CurrentRound() uint64

	// CurrentTimeStamp return the timestamp from the current block
	CurrentTimeStamp() uint64

	// CurrentRandomSeed returns the random seed from the current header
	CurrentRandomSeed() []byte

	// CurrentEpoch returns the current epoch
	CurrentEpoch() uint32

	// ProcessBuiltInFunction will process the builtIn function for the created input
	ProcessBuiltInFunction(input *ContractCallInput) (*VMOutput, error)

	// GetBuiltinFunctionNames returns the names of protocol built-in functions
	GetBuiltinFunctionNames() FunctionNames

	// GetAllState returns the full state of the account, all the key-value saved
	GetAllState(address []byte) (map[string][]byte, error)

	// GetUserAccount returns a user account
	GetUserAccount(address []byte) (UserAccountHandler, error)

	// GetCode returns the code for the given account
	GetCode(UserAccountHandler) []byte

	// GetShardOfAddress returns the shard ID of a given address
	GetShardOfAddress(address []byte) uint32

	// IsSmartContract returns whether the address points to a smart contract
	IsSmartContract(address []byte) bool

	// IsPayable checks weather the provided address can receive ERD or not
	IsPayable(address []byte) (bool, error)

	// SaveCompiledCode saves to cache and storage the compiled code
	SaveCompiledCode(codeHash []byte, code []byte)

	// GetCompiledCode returns the compiled code if it finds in the cache or storage
	GetCompiledCode(codeHash []byte) (bool, []byte)

	// ClearCompiledCodes clears the cache and storage of compiled codes
	ClearCompiledCodes()

	// IsInterfaceNil returns true if there is no value under the interface
	IsInterfaceNil() bool
}

BlockchainHook is the interface for VM blockchain callbacks

type CallType

type CallType int

CallType specifies the type of SC invocation (in terms of asynchronicity)

const (
	// DirectCall means that the call is an explicit SC invocation originating from a user Transaction
	DirectCall CallType = iota

	// AsynchronousCall means that the invocation was performed from within
	// another SmartContract from another Shard, using asyncCall
	AsynchronousCall

	// AsynchronousCallBack means that an AsynchronousCall was performed
	// previously, and now the control returns to the caller SmartContract's callBack method
	AsynchronousCallBack
)

type CodeMetadata

type CodeMetadata struct {
	Payable     bool
	Upgradeable bool
	Readable    bool
}

CodeMetadata represents smart contract code metadata

func CodeMetadataFromBytes

func CodeMetadataFromBytes(bytes []byte) CodeMetadata

CodeMetadataFromBytes creates a metadata object from bytes

func (*CodeMetadata) ToBytes

func (metadata *CodeMetadata) ToBytes() []byte

ToBytes converts the metadata to bytes

type ContractCallInput

type ContractCallInput struct {
	VMInput

	// RecipientAddr is the smart contract public key, "to".
	RecipientAddr []byte

	// Function is the name of the smart contract function that will be called.
	// The function must be public
	Function string

	// AllowInitFunction specifies whether calling the initialization method of
	// the smart contract is allowed or not
	AllowInitFunction bool
}

ContractCallInput VM input when calling a function from an existing contract

type ContractCreateInput

type ContractCreateInput struct {
	VMInput

	// ContractCode is the code of the contract being created, assembled into a byte array.
	ContractCode []byte

	// ContractCodeMetadata is the code metadata of the contract being created.
	ContractCodeMetadata []byte
}

ContractCreateInput VM input when creating a new contract. Here we have no RecipientAddr because the address (PK) of the created account will be provided by the VM. We also do not need to specify a Function field, because on creation `init` is always called.

type CryptoHook

type CryptoHook interface {
	// Sha256 cryptographic function
	Sha256(data []byte) ([]byte, error)

	// Keccak256 cryptographic function
	Keccak256(data []byte) ([]byte, error)

	// Ripemd160 cryptographic function
	Ripemd160(data []byte) ([]byte, error)

	// Ecrecover calculates the corresponding Ethereum address for the public key which created the given signature
	// https://ewasm.readthedocs.io/en/mkdocs/system_contracts/
	Ecrecover(hash []byte, recoveryID []byte, r []byte, s []byte) ([]byte, error)

	// IsInterfaceNil returns true if there is no value under the interface
	IsInterfaceNil() bool
}

CryptoHook interface for VM krypto functions

type FunctionNames

type FunctionNames = map[string]struct{}

FunctionNames (alias) is a map of function names

type LogEntry

type LogEntry struct {
	Identifier []byte
	Address    []byte
	Topics     [][]byte
	Data       []byte
}

LogEntry represents an entry in the contract execution log. TODO: document all fields.

type OutputAccount

type OutputAccount struct {
	// Address is the public key of the account.
	Address []byte

	// Nonce is the new account nonce.
	Nonce uint64

	// Balance is the account balance after running a SC.
	// Only used for some tests now, please ignore. Might be removed in the future.
	Balance *big.Int

	// StorageUpdates is a map containing pointers to StorageUpdate structs,
	// indexed with strings produced by `string(StorageUpdate.Offset)`, for fast
	// access by the Offset of the StorageUpdate. These StorageUpdate structs
	// will be processed by the Node to modify the storage of the SmartContract.
	// Please note that it is likely that not all existing account storage keys
	// show up here.
	StorageUpdates map[string]*StorageUpdate

	// Code is the assembled code of a smart contract account.
	// This field will be populated when a new SC must be created after the transaction.
	Code []byte

	// CodeMetadata is the metadata of the code
	// Like "Code", this field will be populated when a new SC must be created after the transaction.
	CodeMetadata []byte

	// CodeDeployerAddress will be populated in case of contract deployment or upgrade (both direct and indirect)
	CodeDeployerAddress []byte

	// BalanceDelta is by how much the balance should change following the SC execution.
	// A negative value indicates that balance should decrease.
	BalanceDelta *big.Int

	// OutputTransfers represents the cross shard calls for this account
	OutputTransfers []OutputTransfer

	// GasUsed will be populated if the contract was called in the same shard
	GasUsed uint64
}

OutputAccount shows the state of an account after contract execution. It can be an existing account or a new account created by the transaction. Note: the current implementation might also return unmodified accounts.

func (*OutputAccount) MergeOutputAccounts added in v1.1.15

func (o *OutputAccount) MergeOutputAccounts(outAcc *OutputAccount)

MergeOutputAccounts merges the given account into the current one

func (*OutputAccount) MergeStorageUpdates added in v1.1.15

func (o *OutputAccount) MergeStorageUpdates(outAcc *OutputAccount)

MergeStorageUpdates will copy all the storage updates from the given output account

type OutputTransfer

type OutputTransfer struct {
	// Value to be transferred
	Value *big.Int
	// GasLimit to used for the call
	GasLimit uint64
	// GasLocked holds the amount of gas to be kept aside for the eventual callback execution
	GasLocked uint64
	// Data to be used in cross call
	Data []byte
	// CallType is set if it is a smart contract invocation
	CallType CallType
}

OutputTransfer contains the fields needed to create transfers to another shard

type ReturnCode

type ReturnCode int

ReturnCode is an enum with the possible error codes returned by the VM

const (
	// Ok is returned when execution was completed normally.
	Ok ReturnCode = 0

	// FunctionNotFound is returned when the input specifies a function name that does not exist or is not public.
	FunctionNotFound ReturnCode = 1

	// FunctionWrongSignature is returned when the wrong number of arguments is provided.
	FunctionWrongSignature ReturnCode = 2

	// ContractNotFound is returned when the called contract does not exist.
	ContractNotFound ReturnCode = 3

	// UserError is returned for various execution errors.
	UserError ReturnCode = 4

	// OutOfGas is returned when VM execution runs out of gas.
	OutOfGas ReturnCode = 5

	// AccountCollision is returned when created account already exists.
	AccountCollision ReturnCode = 6

	// OutOfFunds is returned when the caller (sender) runs out of funds.
	OutOfFunds ReturnCode = 7

	// CallStackOverFlow is returned when stack overflow occurs.
	CallStackOverFlow ReturnCode = 8

	// ContractInvalid is returned when the contract is invalid.
	ContractInvalid ReturnCode = 9

	// ExecutionFailed is returned when the execution of the specified function has failed.
	ExecutionFailed ReturnCode = 10

	// UpgradeFailed is returned when the upgrade of the contract has failed
	UpgradeFailed ReturnCode = 11
)

func (ReturnCode) String

func (rc ReturnCode) String() string

type ReturnDataKind

type ReturnDataKind int

ReturnDataKind specifies how to interpret VMOutputs's return data. More specifically, how to interpret returned data's first item.

const (
	// AsBigInt to interpret as big int
	AsBigInt ReturnDataKind = 1 << iota
	// AsBigIntString to interpret as big int string
	AsBigIntString
	// AsString to interpret as string
	AsString
	// AsHex to interpret as hex
	AsHex
)

type StorageUpdate

type StorageUpdate struct {
	// Offset is the storage key.
	// The VM treats this as a big.Int.
	Offset []byte

	// Data is the new storage value.
	// The VM treats this as a big.Int.
	// Zero indicates missing data for the key (or even a missing key),
	// therefore a value of zero here indicates that
	// the storage map entry with the given key can be deleted.
	Data []byte
}

StorageUpdate represents a change in the account storage (insert, update or delete) Note: current implementation might also return unmodified storage entries.

type UserAccountHandler

type UserAccountHandler interface {
	AddressBytes() []byte
	GetNonce() uint64
	GetCodeMetadata() []byte
	GetCodeHash() []byte
	GetRootHash() []byte
	GetBalance() *big.Int
	GetDeveloperReward() *big.Int
	GetOwnerAddress() []byte
	GetUserName() []byte
	IsInterfaceNil() bool
}

UserAccountHandler defines a user account

type VMExecutionHandler

type VMExecutionHandler interface {
	// RunSmartContractCreate computes how a smart contract creation should be performed
	RunSmartContractCreate(input *ContractCreateInput) (*VMOutput, error)

	// RunSmartContractCall computes the result of a smart contract call and how the system must change after the execution
	RunSmartContractCall(input *ContractCallInput) (*VMOutput, error)

	// GasScheduleChange sets a new gas schedule for the VM
	GasScheduleChange(newGasSchedule map[string]map[string]uint64)

	// IsInterfaceNil returns true if there is no value under the interface
	IsInterfaceNil() bool
}

VMExecutionHandler interface for any Elrond VM endpoint

type VMInput

type VMInput struct {
	// CallerAddr is the public key of the wallet initiating the transaction, "from".
	CallerAddr []byte

	// Arguments are the call parameters to the smart contract function call
	// For contract creation, these are the parameters to the @init function.
	// For contract call, these are the parameters to the function referenced in ContractCallInput.Function.
	// If the number of arguments does not match the function arity,
	// the transaction will return FunctionWrongSignature ReturnCode.
	Arguments [][]byte

	// CallValue is the eGLD value (amount of tokens) transferred by the transaction.
	// Before reaching the VM this value is subtracted from sender balance (CallerAddr)
	// and to added to the smart contract balance.
	// It is often, but not always zero in SC calls.
	CallValue *big.Int

	// CallType is the type of SmartContract call
	// Based on this value, the VM is informed of whether the call is direct,
	// asynchronous, or asynchronous callback.
	CallType CallType

	// GasPrice multiplied by the gas burned by the transaction yields the transaction fee.
	// A larger GasPrice will incentivize block proposers to include the transaction in a block sooner,
	// but will cost the sender more.
	// The total fee should be GasPrice x (GasProvided - VMOutput.GasRemaining - VMOutput.GasRefund).
	// Note: the order of operations on the sender balance is:
	// 1. subtract GasPrice x GasProvided
	// 2. call VM, which will subtract CallValue if enough funds remain
	// 3. reimburse GasPrice x (VMOutput.GasRemaining + VMOutput.GasRefund)
	GasPrice uint64

	// GasProvided is the maximum gas allowed for the smart contract execution.
	// If the transaction consumes more gas than this value, it will immediately terminate
	// and return OutOfGas ReturnCode.
	// The sender will not be charged based on GasProvided, only on the gas burned,
	// so it doesn't cost the sender more to have a higher gas limit.
	GasProvided uint64

	// GasLocked is the amount of gas that must be kept unused during the current
	// call, because it will be used later for a callback. This field is only
	// used during asynchronous calls.
	GasLocked uint64

	// OriginalTxHash
	OriginalTxHash []byte

	// CurrentTxHash
	CurrentTxHash []byte

	// PrevTxHash
	PrevTxHash []byte

	// ESDTValue is the value (amount of tokens) transferred by the transaction.
	// Before reaching the VM this value is subtracted from sender balance (CallerAddr)
	// and to added to the smart contract balance.
	// It is often, but not always zero in SC calls.
	ESDTValue *big.Int

	// ESDTTokenName is the name of the token which was transferred by the transaction to the SC
	ESDTTokenName []byte
}

VMInput contains the common fields between the 2 types of SC call.

type VMOutput

type VMOutput struct {
	// ReturnData is the function call returned result.
	// This value does not influence the account state in any way.
	// The value should be accessible in a UI.
	// ReturnData is part of the transaction receipt.
	ReturnData [][]byte

	// ReturnCode is the function call error code.
	// If it is not `Ok`, the transaction failed in some way - gas is, however, consumed anyway.
	// This value does not influence the account state in any way.
	// The value should be accessible to a UI.
	// ReturnCode is part of the transaction receipt.
	ReturnCode ReturnCode

	// ReturnMessage is a message set by the SmartContract, destined for the
	// caller
	ReturnMessage string

	// GasRemaining = VMInput.GasProvided - gas used.
	// It is necessary to compute how much to charge the sender for the transaction.
	GasRemaining uint64

	// GasRefund is how much gas the sender earned during the transaction.
	// Certain operations, like freeing up storage, actually return gas instead of consuming it.
	// Based on GasRefund, the sender could in principle be rewarded instead of taxed.
	GasRefund *big.Int

	// OutputAccounts contains data about all accounts changed as a result of the
	// Transaction. It is a map containing pointers to OutputAccount structs,
	// indexed with strings produced by `string(OutputAccount.Address)`, for fast
	// access by the Address of the OutputAccount.
	// This information tells the Node how to update the account data.
	// It can contain new accounts or existing changed accounts.
	// Note: the current implementation might also retrieve accounts that were not changed.
	OutputAccounts map[string]*OutputAccount

	// DeletedAccounts is a list of public keys of accounts that need to be deleted
	// as a result of the transaction.
	DeletedAccounts [][]byte

	// TouchedAccounts is a list of public keys of accounts that were somehow involved in the VM execution.
	// TODO: investigate what we need to to about these.
	TouchedAccounts [][]byte

	// Logs is a list of event data logged by the VM.
	// Smart contracts can choose to log certain events programatically.
	// There are 3 main use cases for events and logs:
	// 1. smart contract return values for the user interface;
	// 2. asynchronous triggers with data;
	// 3. a cheaper form of storage (e.g. storing historical data that can be rendered by the frontend).
	// The logs should be accessible to the UI.
	// The logs are part of the transaction receipt.
	Logs []*LogEntry
}

VMOutput is the return data and final account state after a SC execution.

func (*VMOutput) GetFirstReturnData

func (vmOutput *VMOutput) GetFirstReturnData(asType ReturnDataKind) (interface{}, error)

GetFirstReturnData is a helper function that returns the first ReturnData of VMOutput, interpreted as specified.

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