neovm

package
v0.6.1 Latest Latest
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Published: Jan 21, 2020 License: LGPL-3.0 Imports: 16 Imported by: 0

Documentation

Overview

* Copyright (C) 2018 The ontology Authors * This file is part of The ontology library. * * The ontology is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * The ontology is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with The ontology. If not, see <http://www.gnu.org/licenses/>.

Index

Constants

View Source
const (
	STACK_LIMIT               uint32 = 2 * 1024
	MAX_INVOCATION_STACK_SIZE        = 1024
	MAX_SIZE_FOR_BIGINTEGER          = 32
	MAX_BYTEARRAY_SIZE        uint32 = 1024 * 1024
	MAX_ARRAY_SIZE            uint32 = 1024
)

Variables

View Source
var (
	OpExecList = [256]OpExec{}/* 104 elements not displayed */

)

Functions

func BigIntComp

func BigIntComp(bigint *big.Int, op OpCode) bool

func BigIntMultiComp

func BigIntMultiComp(ints1 *big.Int, ints2 *big.Int, op OpCode) bool

func BigIntOp

func BigIntOp(bi *big.Int, op OpCode) *big.Int

func BigIntZip

func BigIntZip(ints1 *big.Int, ints2 *big.Int, op OpCode) *big.Int

func BoolZip

func BoolZip(bi1 bool, bi2 bool, op OpCode) bool

func CheckBigInteger

func CheckBigInteger(value *big.Int) bool

func Concat

func Concat(array1 []byte, array2 []byte) []byte

func Count

func Count(e *ExecutionEngine) int

func EvaluationStackCount

func EvaluationStackCount(e *ExecutionEngine) int

func Hash

func Hash(b []byte, e *ExecutionEngine) []byte

func LogStackTrace

func LogStackTrace(e *ExecutionEngine, needStackCount int, desc string) error

func NewStackItem

func NewStackItem(data interface{}) types.StackItems

func PeekArray

func PeekArray(e *ExecutionEngine) ([]types.StackItems, error)

func PeekBigInteger

func PeekBigInteger(e *ExecutionEngine) (*big.Int, error)

func PeekInt

func PeekInt(e *ExecutionEngine) (int, error)

func PeekInteropInterface

func PeekInteropInterface(e *ExecutionEngine) (interfaces.Interop, error)

func PeekNBigInt

func PeekNBigInt(i int, e *ExecutionEngine) (*big.Int, error)

func PeekNByteArray

func PeekNByteArray(i int, e *ExecutionEngine) ([]byte, error)

func PeekNStackItem

func PeekNStackItem(i int, e *ExecutionEngine) types.StackItems

func PeekStackItem

func PeekStackItem(e *ExecutionEngine) types.StackItems

func PopArray

func PopArray(e *ExecutionEngine) ([]types.StackItems, error)

func PopBigInt

func PopBigInt(e *ExecutionEngine) (*big.Int, error)

func PopBoolean

func PopBoolean(e *ExecutionEngine) (bool, error)

func PopByteArray

func PopByteArray(e *ExecutionEngine) ([]byte, error)

func PopInt

func PopInt(e *ExecutionEngine) (int, error)

func PopInteropInterface

func PopInteropInterface(e *ExecutionEngine) (interfaces.Interop, error)

func PopStackItem

func PopStackItem(e *ExecutionEngine) types.StackItems

func Push

func Push(e *ExecutionEngine, element types.StackItems)

func PushData

func PushData(e *ExecutionEngine, data interface{})

func ToBigInt

func ToBigInt(data interface{}) *big.Int

func WithInOp

func WithInOp(int1 *big.Int, int2 *big.Int, int3 *big.Int) bool

Types

type BigIntSorter

type BigIntSorter []big.Int

func (BigIntSorter) Len

func (c BigIntSorter) Len() int

func (BigIntSorter) Less

func (c BigIntSorter) Less(i, j int) bool

func (BigIntSorter) Swap

func (c BigIntSorter) Swap(i, j int)

type ExecutionContext

type ExecutionContext struct {
	Code               []byte
	OpReader           *utils.VmReader
	InstructionPointer int
	// contains filtered or unexported fields
}

func NewExecutionContext

func NewExecutionContext(engine *ExecutionEngine, code []byte) *ExecutionContext

func (*ExecutionContext) Clone

func (ec *ExecutionContext) Clone() *ExecutionContext

func (*ExecutionContext) GetInstructionPointer

func (ec *ExecutionContext) GetInstructionPointer() int

func (*ExecutionContext) NextInstruction

func (ec *ExecutionContext) NextInstruction() OpCode

func (*ExecutionContext) SetInstructionPointer

func (ec *ExecutionContext) SetInstructionPointer(offset int64)

type ExecutionEngine

type ExecutionEngine struct {
	EvaluationStack *RandomAccessStack
	AltStack        *RandomAccessStack
	State           VMState
	Contexts        []*ExecutionContext
	Context         *ExecutionContext
	BlockHeight     uint32
	OpCode          OpCode
	OpExec          OpExec
}

func NewExecutionEngine

func NewExecutionEngine(BlockHeight uint32) *ExecutionEngine

func (*ExecutionEngine) CurrentContext

func (this *ExecutionEngine) CurrentContext() *ExecutionContext

func (*ExecutionEngine) Execute

func (this *ExecutionEngine) Execute() error

func (*ExecutionEngine) ExecuteCode

func (this *ExecutionEngine) ExecuteCode() error

func (*ExecutionEngine) ExecuteOp

func (this *ExecutionEngine) ExecuteOp() (VMState, error)

func (*ExecutionEngine) PopContext

func (this *ExecutionEngine) PopContext()

func (*ExecutionEngine) PushContext

func (this *ExecutionEngine) PushContext(context *ExecutionContext)

func (*ExecutionEngine) StepInto

func (this *ExecutionEngine) StepInto() error

func (*ExecutionEngine) ValidateOp

func (this *ExecutionEngine) ValidateOp() error

type OpCode

type OpCode byte
const (
	// Constants
	PUSH0       OpCode = 0x00 // An empty array of bytes is pushed onto the stack.
	PUSHF       OpCode = PUSH0
	PUSHBYTES1  OpCode = 0x01 // 0x01-0x4B The next opcode bytes is data to be pushed onto the stack
	PUSHBYTES75 OpCode = 0x4B
	PUSHDATA1   OpCode = 0x4C // The next byte contains the number of bytes to be pushed onto the stack.
	PUSHDATA2   OpCode = 0x4D // The next two bytes contain the number of bytes to be pushed onto the stack.
	PUSHDATA4   OpCode = 0x4E // The next four bytes contain the number of bytes to be pushed onto the stack.
	PUSHM1      OpCode = 0x4F // The number -1 is pushed onto the stack.
	PUSH1       OpCode = 0x51 // The number 1 is pushed onto the stack.
	PUSHT       OpCode = PUSH1
	PUSH2       OpCode = 0x52 // The number 2 is pushed onto the stack.
	PUSH3       OpCode = 0x53 // The number 3 is pushed onto the stack.
	PUSH4       OpCode = 0x54 // The number 4 is pushed onto the stack.
	PUSH5       OpCode = 0x55 // The number 5 is pushed onto the stack.
	PUSH6       OpCode = 0x56 // The number 6 is pushed onto the stack.
	PUSH7       OpCode = 0x57 // The number 7 is pushed onto the stack.
	PUSH8       OpCode = 0x58 // The number 8 is pushed onto the stack.
	PUSH9       OpCode = 0x59 // The number 9 is pushed onto the stack.
	PUSH10      OpCode = 0x5A // The number 10 is pushed onto the stack.
	PUSH11      OpCode = 0x5B // The number 11 is pushed onto the stack.
	PUSH12      OpCode = 0x5C // The number 12 is pushed onto the stack.
	PUSH13      OpCode = 0x5D // The number 13 is pushed onto the stack.
	PUSH14      OpCode = 0x5E // The number 14 is pushed onto the stack.
	PUSH15      OpCode = 0x5F // The number 15 is pushed onto the stack.
	PUSH16      OpCode = 0x60 // The number 16 is pushed onto the stack.

	// Flow control
	NOP      OpCode = 0x61 // Does nothing.
	JMP      OpCode = 0x62
	JMPIF    OpCode = 0x63
	JMPIFNOT OpCode = 0x64
	CALL     OpCode = 0x65
	RET      OpCode = 0x66
	APPCALL  OpCode = 0x67
	SYSCALL  OpCode = 0x68
	TAILCALL OpCode = 0x69

	// Stack
	DUPFROMALTSTACK OpCode = 0x6A
	TOALTSTACK      OpCode = 0x6B // Puts the input onto the top of the alt stack. Removes it from the main stack.
	FROMALTSTACK    OpCode = 0x6C // Puts the input onto the top of the main stack. Removes it from the alt stack.
	XDROP           OpCode = 0x6D
	DCALL           OpCode = 0x6E
	XSWAP           OpCode = 0x72
	XTUCK           OpCode = 0x73
	DEPTH           OpCode = 0x74 // Puts the number of stack items onto the stack.
	DROP            OpCode = 0x75 // Removes the top stack item.
	DUP             OpCode = 0x76 // Duplicates the top stack item.
	NIP             OpCode = 0x77 // Removes the second top stack item.
	OVER            OpCode = 0x78 // Copies the second top stack item to the top.
	PICK            OpCode = 0x79 // The item n back in the stack is copied to the top.
	ROLL            OpCode = 0x7A // The item n back in the stack is moved to the top.
	ROT             OpCode = 0x7B // Move third top item on the top of stack.
	SWAP            OpCode = 0x7C // The top two items on the stack are swapped.
	TUCK            OpCode = 0x7D // The item at the top of the stack is copied and inserted before the second-to-top item.

	// Splice
	CAT    OpCode = 0x7E // Concatenates two strings.
	SUBSTR OpCode = 0x7F // Returns a section of a string.
	LEFT   OpCode = 0x80 // Keeps only characters left of the specified point in a string.
	RIGHT  OpCode = 0x81 // Keeps only characters right of the specified point in a string.
	SIZE   OpCode = 0x82 // Returns the length of the input string.

	// Bitwise logic
	INVERT OpCode = 0x83 // Flips all of the bits in the input.
	AND    OpCode = 0x84 // Boolean and between each bit in the inputs.
	OR     OpCode = 0x85 // Boolean or between each bit in the inputs.
	XOR    OpCode = 0x86 // Boolean exclusive or between each bit in the inputs.
	EQUAL  OpCode = 0x87 // Returns 1 if the inputs are exactly equal, 0 otherwise.

	// Arithmetic
	// Note: Arithmetic inputs are limited to signed 32-bit integers, but may overflow their output.
	INC         OpCode = 0x8B // 1 is added to the input.
	DEC         OpCode = 0x8C // 1 is subtracted from the input.
	SIGN        OpCode = 0x8D
	NEGATE      OpCode = 0x8F // The sign of the input is flipped.
	ABS         OpCode = 0x90 // The input is made positive.
	NOT         OpCode = 0x91 // If the input is 0 or 1, it is flipped. Otherwise the output will be 0.
	NZ          OpCode = 0x92 // Returns 0 if the input is 0. 1 otherwise.
	ADD         OpCode = 0x93 // a is added to b.
	SUB         OpCode = 0x94 // b is subtracted from a.
	MUL         OpCode = 0x95 // a is multiplied by b.
	DIV         OpCode = 0x96 // a is divided by b.
	MOD         OpCode = 0x97 // Returns the remainder after dividing a by b.
	SHL         OpCode = 0x98 // Shifts a left b bits, preserving sign.
	SHR         OpCode = 0x99 // Shifts a right b bits, preserving sign.
	BOOLAND     OpCode = 0x9A // If both a and b are not 0, the output is 1. Otherwise 0.
	BOOLOR      OpCode = 0x9B // If a or b is not 0, the output is 1. Otherwise 0.
	NUMEQUAL    OpCode = 0x9C // Returns 1 if the numbers are equal, 0 otherwise.
	NUMNOTEQUAL OpCode = 0x9E // Returns 1 if the numbers are not equal, 0 otherwise.
	LT          OpCode = 0x9F // Returns 1 if a is less than b, 0 otherwise.
	GT          OpCode = 0xA0 // Returns 1 if a is greater than b, 0 otherwise.
	LTE         OpCode = 0xA1 // Returns 1 if a is less than or equal to b, 0 otherwise.
	GTE         OpCode = 0xA2 // Returns 1 if a is greater than or equal to b, 0 otherwise.
	MIN         OpCode = 0xA3 // Returns the smaller of a and b.
	MAX         OpCode = 0xA4 // Returns the larger of a and b.
	WITHIN      OpCode = 0xA5 // Returns 1 if x is within the specified range (left-inclusive), 0 otherwise.

	// Crypto
	//RIPEMD160 = 0xA6 // The input is hashed using RIPEMD-160.
	SHA1          OpCode = 0xA7 // The input is hashed using SHA-1.
	SHA256        OpCode = 0xA8 // The input is hashed using SHA-256.
	HASH160       OpCode = 0xA9
	HASH256       OpCode = 0xAA
	CHECKSIG      OpCode = 0xAC // The entire transaction's outputs inputs and script (from the most recently-executed CODESEPARATOR to the end) are hashed. The signature used by CHECKSIG must be a valid signature for this hash and public key. If it is 1 is returned 0 otherwise.
	VERIFY        OpCode = 0xAD
	CHECKMULTISIG OpCode = 0xAE // For each signature and public key pair CHECKSIG is executed. If more public keys than signatures are listed some key/sig pairs can fail. All signatures need to match a public key. If all signatures are valid 1 is returned 0 otherwise. Due to a bug one extra unused value is removed from the stack.

	// Array
	ARRAYSIZE OpCode = 0xC0
	PACK      OpCode = 0xC1
	UNPACK    OpCode = 0xC2
	PICKITEM  OpCode = 0xC3
	SETITEM   OpCode = 0xC4
	NEWARRAY  OpCode = 0xC5
	NEWSTRUCT OpCode = 0xC6
	NEWMAP    OpCode = 0xC7
	APPEND    OpCode = 0xC8
	REVERSE   OpCode = 0xC9
	REMOVE    OpCode = 0xCA
	HASKEY    OpCode = 0xCB
	KEYS      OpCode = 0xCC
	VALUES    OpCode = 0xCD

	//Exception
	THROW      = 0xF0
	THROWIFNOT = 0xF1
)

type OpExec

type OpExec struct {
	Opcode    OpCode
	Name      string
	Exec      func(*ExecutionEngine) (VMState, error)
	Validator func(*ExecutionEngine) error
}

type ParamsBuilder

type ParamsBuilder struct {
	// contains filtered or unexported fields
}

func NewParamsBuilder

func NewParamsBuilder(buffer *bytes.Buffer) *ParamsBuilder

func (*ParamsBuilder) Emit

func (p *ParamsBuilder) Emit(op OpCode)

func (*ParamsBuilder) EmitPushBool

func (p *ParamsBuilder) EmitPushBool(data bool)

func (*ParamsBuilder) EmitPushByteArray

func (p *ParamsBuilder) EmitPushByteArray(data []byte)

func (*ParamsBuilder) EmitPushCall

func (p *ParamsBuilder) EmitPushCall(address []byte)

func (*ParamsBuilder) EmitPushInteger

func (p *ParamsBuilder) EmitPushInteger(data *big.Int)

func (*ParamsBuilder) ToArray

func (p *ParamsBuilder) ToArray() []byte

type RandomAccessStack

type RandomAccessStack struct {
	// contains filtered or unexported fields
}

func NewRandAccessStack

func NewRandAccessStack() *RandomAccessStack

func (*RandomAccessStack) CopyTo

func (r *RandomAccessStack) CopyTo(stack *RandomAccessStack)

func (*RandomAccessStack) Count

func (r *RandomAccessStack) Count() int

func (*RandomAccessStack) Insert

func (r *RandomAccessStack) Insert(index int, t types.StackItems)

func (*RandomAccessStack) Peek

func (r *RandomAccessStack) Peek(index int) types.StackItems

func (*RandomAccessStack) Pop

func (*RandomAccessStack) Push

func (r *RandomAccessStack) Push(t types.StackItems)

func (*RandomAccessStack) Remove

func (r *RandomAccessStack) Remove(index int) types.StackItems

func (*RandomAccessStack) Set

func (r *RandomAccessStack) Set(index int, t types.StackItems)

func (*RandomAccessStack) Swap

func (r *RandomAccessStack) Swap(i, j int)

type VMState

type VMState byte
const (
	NONE  VMState = 0
	HALT  VMState = 1 << 0
	FAULT VMState = 1 << 1
	BREAK VMState = 1 << 2

	INSUFFICIENT_RESOURCE VMState = 1 << 4
)

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