go-ethereum/core/vm/jump_table.go

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2016-04-14 18:18:24 +02:00
// Copyright 2015 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library 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 go-ethereum library 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 go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package vm
import (
"fmt"
"github.com/ethereum/go-ethereum/params"
)
type (
executionFunc func(pc *uint64, interpreter *EVMInterpreter, callContext *ScopeContext) ([]byte, error)
gasFunc func(*EVM, *Contract, *Stack, *Memory, uint64) (uint64, error) // last parameter is the requested memory size as a uint64
// memorySizeFunc returns the required size, and whether the operation overflowed a uint64
memorySizeFunc func(*Stack) (size uint64, overflow bool)
)
type operation struct {
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// execute is the operation function
execute executionFunc
constantGas uint64
dynamicGas gasFunc
// minStack tells how many stack items are required
minStack int
// maxStack specifies the max length the stack can have for this operation
// to not overflow the stack.
maxStack int
// memorySize returns the memory size required for the operation
memorySize memorySizeFunc
}
var (
frontierInstructionSet = newFrontierInstructionSet()
homesteadInstructionSet = newHomesteadInstructionSet()
tangerineWhistleInstructionSet = newTangerineWhistleInstructionSet()
spuriousDragonInstructionSet = newSpuriousDragonInstructionSet()
byzantiumInstructionSet = newByzantiumInstructionSet()
constantinopleInstructionSet = newConstantinopleInstructionSet()
istanbulInstructionSet = newIstanbulInstructionSet()
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berlinInstructionSet = newBerlinInstructionSet()
londonInstructionSet = newLondonInstructionSet()
mergeInstructionSet = newMergeInstructionSet()
shanghaiInstructionSet = newShanghaiInstructionSet()
cancunInstructionSet = newCancunInstructionSet()
)
// JumpTable contains the EVM opcodes supported at a given fork.
type JumpTable [256]*operation
func validate(jt JumpTable) JumpTable {
for i, op := range jt {
if op == nil {
panic(fmt.Sprintf("op %#x is not set", i))
}
// The interpreter has an assumption that if the memorySize function is
// set, then the dynamicGas function is also set. This is a somewhat
// arbitrary assumption, and can be removed if we need to -- but it
// allows us to avoid a condition check. As long as we have that assumption
// in there, this little sanity check prevents us from merging in a
// change which violates it.
if op.memorySize != nil && op.dynamicGas == nil {
panic(fmt.Sprintf("op %v has dynamic memory but not dynamic gas", OpCode(i).String()))
}
}
return jt
}
func newCancunInstructionSet() JumpTable {
instructionSet := newShanghaiInstructionSet()
enable4844(&instructionSet) // EIP-4844 (BLOBHASH opcode)
enable7516(&instructionSet) // EIP-7516 (BLOBBASEFEE opcode)
enable1153(&instructionSet) // EIP-1153 "Transient Storage"
enable5656(&instructionSet) // EIP-5656 (MCOPY opcode)
enable6780(&instructionSet) // EIP-6780 SELFDESTRUCT only in same transaction
return validate(instructionSet)
}
func newShanghaiInstructionSet() JumpTable {
instructionSet := newMergeInstructionSet()
enable3855(&instructionSet) // PUSH0 instruction
enable3860(&instructionSet) // Limit and meter initcode
return validate(instructionSet)
}
func newMergeInstructionSet() JumpTable {
instructionSet := newLondonInstructionSet()
instructionSet[PREVRANDAO] = &operation{
execute: opRandom,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
}
return validate(instructionSet)
}
// newLondonInstructionSet returns the frontier, homestead, byzantium,
// constantinople, istanbul, petersburg, berlin and london instructions.
func newLondonInstructionSet() JumpTable {
instructionSet := newBerlinInstructionSet()
enable3529(&instructionSet) // EIP-3529: Reduction in refunds https://eips.ethereum.org/EIPS/eip-3529
enable3198(&instructionSet) // Base fee opcode https://eips.ethereum.org/EIPS/eip-3198
return validate(instructionSet)
}
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// newBerlinInstructionSet returns the frontier, homestead, byzantium,
// constantinople, istanbul, petersburg and berlin instructions.
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func newBerlinInstructionSet() JumpTable {
instructionSet := newIstanbulInstructionSet()
enable2929(&instructionSet) // Access lists for trie accesses https://eips.ethereum.org/EIPS/eip-2929
return validate(instructionSet)
}
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// newIstanbulInstructionSet returns the frontier, homestead, byzantium,
// constantinople, istanbul and petersburg instructions.
func newIstanbulInstructionSet() JumpTable {
instructionSet := newConstantinopleInstructionSet()
enable1344(&instructionSet) // ChainID opcode - https://eips.ethereum.org/EIPS/eip-1344
enable1884(&instructionSet) // Reprice reader opcodes - https://eips.ethereum.org/EIPS/eip-1884
enable2200(&instructionSet) // Net metered SSTORE - https://eips.ethereum.org/EIPS/eip-2200
return validate(instructionSet)
}
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// newConstantinopleInstructionSet returns the frontier, homestead,
// byzantium and constantinople instructions.
func newConstantinopleInstructionSet() JumpTable {
instructionSet := newByzantiumInstructionSet()
instructionSet[SHL] = &operation{
execute: opSHL,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
}
instructionSet[SHR] = &operation{
execute: opSHR,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
}
instructionSet[SAR] = &operation{
execute: opSAR,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
}
instructionSet[EXTCODEHASH] = &operation{
execute: opExtCodeHash,
constantGas: params.ExtcodeHashGasConstantinople,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
}
instructionSet[CREATE2] = &operation{
execute: opCreate2,
constantGas: params.Create2Gas,
dynamicGas: gasCreate2,
minStack: minStack(4, 1),
maxStack: maxStack(4, 1),
memorySize: memoryCreate2,
}
return validate(instructionSet)
}
// newByzantiumInstructionSet returns the frontier, homestead and
// byzantium instructions.
func newByzantiumInstructionSet() JumpTable {
instructionSet := newSpuriousDragonInstructionSet()
instructionSet[STATICCALL] = &operation{
execute: opStaticCall,
constantGas: params.CallGasEIP150,
dynamicGas: gasStaticCall,
minStack: minStack(6, 1),
maxStack: maxStack(6, 1),
memorySize: memoryStaticCall,
}
instructionSet[RETURNDATASIZE] = &operation{
execute: opReturnDataSize,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
}
instructionSet[RETURNDATACOPY] = &operation{
execute: opReturnDataCopy,
constantGas: GasFastestStep,
dynamicGas: gasReturnDataCopy,
minStack: minStack(3, 0),
maxStack: maxStack(3, 0),
memorySize: memoryReturnDataCopy,
}
instructionSet[REVERT] = &operation{
execute: opRevert,
dynamicGas: gasRevert,
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
memorySize: memoryRevert,
}
return validate(instructionSet)
}
// EIP 158 a.k.a Spurious Dragon
func newSpuriousDragonInstructionSet() JumpTable {
instructionSet := newTangerineWhistleInstructionSet()
instructionSet[EXP].dynamicGas = gasExpEIP158
return validate(instructionSet)
}
// EIP 150 a.k.a Tangerine Whistle
func newTangerineWhistleInstructionSet() JumpTable {
instructionSet := newHomesteadInstructionSet()
instructionSet[BALANCE].constantGas = params.BalanceGasEIP150
instructionSet[EXTCODESIZE].constantGas = params.ExtcodeSizeGasEIP150
instructionSet[SLOAD].constantGas = params.SloadGasEIP150
instructionSet[EXTCODECOPY].constantGas = params.ExtcodeCopyBaseEIP150
instructionSet[CALL].constantGas = params.CallGasEIP150
instructionSet[CALLCODE].constantGas = params.CallGasEIP150
instructionSet[DELEGATECALL].constantGas = params.CallGasEIP150
return validate(instructionSet)
}
// newHomesteadInstructionSet returns the frontier and homestead
// instructions that can be executed during the homestead phase.
func newHomesteadInstructionSet() JumpTable {
instructionSet := newFrontierInstructionSet()
instructionSet[DELEGATECALL] = &operation{
execute: opDelegateCall,
dynamicGas: gasDelegateCall,
constantGas: params.CallGasFrontier,
minStack: minStack(6, 1),
maxStack: maxStack(6, 1),
memorySize: memoryDelegateCall,
}
return validate(instructionSet)
}
// newFrontierInstructionSet returns the frontier instructions
// that can be executed during the frontier phase.
func newFrontierInstructionSet() JumpTable {
tbl := JumpTable{
STOP: {
execute: opStop,
constantGas: 0,
minStack: minStack(0, 0),
maxStack: maxStack(0, 0),
},
ADD: {
execute: opAdd,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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MUL: {
execute: opMul,
constantGas: GasFastStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
SUB: {
execute: opSub,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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DIV: {
execute: opDiv,
constantGas: GasFastStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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SDIV: {
execute: opSdiv,
constantGas: GasFastStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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MOD: {
execute: opMod,
constantGas: GasFastStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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SMOD: {
execute: opSmod,
constantGas: GasFastStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
ADDMOD: {
execute: opAddmod,
constantGas: GasMidStep,
minStack: minStack(3, 1),
maxStack: maxStack(3, 1),
},
MULMOD: {
execute: opMulmod,
constantGas: GasMidStep,
minStack: minStack(3, 1),
maxStack: maxStack(3, 1),
},
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EXP: {
execute: opExp,
dynamicGas: gasExpFrontier,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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SIGNEXTEND: {
execute: opSignExtend,
constantGas: GasFastStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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LT: {
execute: opLt,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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GT: {
execute: opGt,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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SLT: {
execute: opSlt,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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SGT: {
execute: opSgt,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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EQ: {
execute: opEq,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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ISZERO: {
execute: opIszero,
constantGas: GasFastestStep,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
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AND: {
execute: opAnd,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
XOR: {
execute: opXor,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
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OR: {
execute: opOr,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
NOT: {
execute: opNot,
constantGas: GasFastestStep,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
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BYTE: {
execute: opByte,
constantGas: GasFastestStep,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
},
KECCAK256: {
execute: opKeccak256,
constantGas: params.Keccak256Gas,
dynamicGas: gasKeccak256,
minStack: minStack(2, 1),
maxStack: maxStack(2, 1),
memorySize: memoryKeccak256,
},
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ADDRESS: {
execute: opAddress,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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BALANCE: {
execute: opBalance,
constantGas: params.BalanceGasFrontier,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
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ORIGIN: {
execute: opOrigin,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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CALLER: {
execute: opCaller,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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CALLVALUE: {
execute: opCallValue,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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CALLDATALOAD: {
execute: opCallDataLoad,
constantGas: GasFastestStep,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
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CALLDATASIZE: {
execute: opCallDataSize,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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CALLDATACOPY: {
execute: opCallDataCopy,
constantGas: GasFastestStep,
dynamicGas: gasCallDataCopy,
minStack: minStack(3, 0),
maxStack: maxStack(3, 0),
memorySize: memoryCallDataCopy,
},
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CODESIZE: {
execute: opCodeSize,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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CODECOPY: {
execute: opCodeCopy,
constantGas: GasFastestStep,
dynamicGas: gasCodeCopy,
minStack: minStack(3, 0),
maxStack: maxStack(3, 0),
memorySize: memoryCodeCopy,
},
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GASPRICE: {
execute: opGasprice,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
EXTCODESIZE: {
execute: opExtCodeSize,
constantGas: params.ExtcodeSizeGasFrontier,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
EXTCODECOPY: {
execute: opExtCodeCopy,
constantGas: params.ExtcodeCopyBaseFrontier,
dynamicGas: gasExtCodeCopy,
minStack: minStack(4, 0),
maxStack: maxStack(4, 0),
memorySize: memoryExtCodeCopy,
},
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BLOCKHASH: {
execute: opBlockhash,
constantGas: GasExtStep,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
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COINBASE: {
execute: opCoinbase,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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TIMESTAMP: {
execute: opTimestamp,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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NUMBER: {
execute: opNumber,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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DIFFICULTY: {
execute: opDifficulty,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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GASLIMIT: {
execute: opGasLimit,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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POP: {
execute: opPop,
constantGas: GasQuickStep,
minStack: minStack(1, 0),
maxStack: maxStack(1, 0),
},
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MLOAD: {
execute: opMload,
constantGas: GasFastestStep,
dynamicGas: gasMLoad,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
memorySize: memoryMLoad,
},
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MSTORE: {
execute: opMstore,
constantGas: GasFastestStep,
dynamicGas: gasMStore,
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
memorySize: memoryMStore,
},
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MSTORE8: {
execute: opMstore8,
constantGas: GasFastestStep,
dynamicGas: gasMStore8,
memorySize: memoryMStore8,
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
},
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SLOAD: {
execute: opSload,
constantGas: params.SloadGasFrontier,
minStack: minStack(1, 1),
maxStack: maxStack(1, 1),
},
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SSTORE: {
execute: opSstore,
dynamicGas: gasSStore,
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
},
JUMP: {
execute: opJump,
constantGas: GasMidStep,
minStack: minStack(1, 0),
maxStack: maxStack(1, 0),
},
JUMPI: {
execute: opJumpi,
constantGas: GasSlowStep,
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
},
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PC: {
execute: opPc,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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MSIZE: {
execute: opMsize,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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GAS: {
execute: opGas,
constantGas: GasQuickStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
JUMPDEST: {
execute: opJumpdest,
constantGas: params.JumpdestGas,
minStack: minStack(0, 0),
maxStack: maxStack(0, 0),
},
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PUSH1: {
execute: opPush1,
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH2: {
execute: makePush(2, 2),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH3: {
execute: makePush(3, 3),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH4: {
execute: makePush(4, 4),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH5: {
execute: makePush(5, 5),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH6: {
execute: makePush(6, 6),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH7: {
execute: makePush(7, 7),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH8: {
execute: makePush(8, 8),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH9: {
execute: makePush(9, 9),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH10: {
execute: makePush(10, 10),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH11: {
execute: makePush(11, 11),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH12: {
execute: makePush(12, 12),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH13: {
execute: makePush(13, 13),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH14: {
execute: makePush(14, 14),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH15: {
execute: makePush(15, 15),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH16: {
execute: makePush(16, 16),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH17: {
execute: makePush(17, 17),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH18: {
execute: makePush(18, 18),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH19: {
execute: makePush(19, 19),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH20: {
execute: makePush(20, 20),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH21: {
execute: makePush(21, 21),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH22: {
execute: makePush(22, 22),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH23: {
execute: makePush(23, 23),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH24: {
execute: makePush(24, 24),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH25: {
execute: makePush(25, 25),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH26: {
execute: makePush(26, 26),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH27: {
execute: makePush(27, 27),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH28: {
execute: makePush(28, 28),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH29: {
execute: makePush(29, 29),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH30: {
execute: makePush(30, 30),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH31: {
execute: makePush(31, 31),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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PUSH32: {
execute: makePush(32, 32),
constantGas: GasFastestStep,
minStack: minStack(0, 1),
maxStack: maxStack(0, 1),
},
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DUP1: {
execute: makeDup(1),
constantGas: GasFastestStep,
minStack: minDupStack(1),
maxStack: maxDupStack(1),
},
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DUP2: {
execute: makeDup(2),
constantGas: GasFastestStep,
minStack: minDupStack(2),
maxStack: maxDupStack(2),
},
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DUP3: {
execute: makeDup(3),
constantGas: GasFastestStep,
minStack: minDupStack(3),
maxStack: maxDupStack(3),
},
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DUP4: {
execute: makeDup(4),
constantGas: GasFastestStep,
minStack: minDupStack(4),
maxStack: maxDupStack(4),
},
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DUP5: {
execute: makeDup(5),
constantGas: GasFastestStep,
minStack: minDupStack(5),
maxStack: maxDupStack(5),
},
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DUP6: {
execute: makeDup(6),
constantGas: GasFastestStep,
minStack: minDupStack(6),
maxStack: maxDupStack(6),
},
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DUP7: {
execute: makeDup(7),
constantGas: GasFastestStep,
minStack: minDupStack(7),
maxStack: maxDupStack(7),
},
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DUP8: {
execute: makeDup(8),
constantGas: GasFastestStep,
minStack: minDupStack(8),
maxStack: maxDupStack(8),
},
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DUP9: {
execute: makeDup(9),
constantGas: GasFastestStep,
minStack: minDupStack(9),
maxStack: maxDupStack(9),
},
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DUP10: {
execute: makeDup(10),
constantGas: GasFastestStep,
minStack: minDupStack(10),
maxStack: maxDupStack(10),
},
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DUP11: {
execute: makeDup(11),
constantGas: GasFastestStep,
minStack: minDupStack(11),
maxStack: maxDupStack(11),
},
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DUP12: {
execute: makeDup(12),
constantGas: GasFastestStep,
minStack: minDupStack(12),
maxStack: maxDupStack(12),
},
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DUP13: {
execute: makeDup(13),
constantGas: GasFastestStep,
minStack: minDupStack(13),
maxStack: maxDupStack(13),
},
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DUP14: {
execute: makeDup(14),
constantGas: GasFastestStep,
minStack: minDupStack(14),
maxStack: maxDupStack(14),
},
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DUP15: {
execute: makeDup(15),
constantGas: GasFastestStep,
minStack: minDupStack(15),
maxStack: maxDupStack(15),
},
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DUP16: {
execute: makeDup(16),
constantGas: GasFastestStep,
minStack: minDupStack(16),
maxStack: maxDupStack(16),
},
SWAP1: {
execute: makeSwap(1),
constantGas: GasFastestStep,
minStack: minSwapStack(2),
maxStack: maxSwapStack(2),
},
SWAP2: {
execute: makeSwap(2),
constantGas: GasFastestStep,
minStack: minSwapStack(3),
maxStack: maxSwapStack(3),
},
SWAP3: {
execute: makeSwap(3),
constantGas: GasFastestStep,
minStack: minSwapStack(4),
maxStack: maxSwapStack(4),
},
SWAP4: {
execute: makeSwap(4),
constantGas: GasFastestStep,
minStack: minSwapStack(5),
maxStack: maxSwapStack(5),
},
SWAP5: {
execute: makeSwap(5),
constantGas: GasFastestStep,
minStack: minSwapStack(6),
maxStack: maxSwapStack(6),
},
SWAP6: {
execute: makeSwap(6),
constantGas: GasFastestStep,
minStack: minSwapStack(7),
maxStack: maxSwapStack(7),
},
SWAP7: {
execute: makeSwap(7),
constantGas: GasFastestStep,
minStack: minSwapStack(8),
maxStack: maxSwapStack(8),
},
SWAP8: {
execute: makeSwap(8),
constantGas: GasFastestStep,
minStack: minSwapStack(9),
maxStack: maxSwapStack(9),
},
SWAP9: {
execute: makeSwap(9),
constantGas: GasFastestStep,
minStack: minSwapStack(10),
maxStack: maxSwapStack(10),
},
SWAP10: {
execute: makeSwap(10),
constantGas: GasFastestStep,
minStack: minSwapStack(11),
maxStack: maxSwapStack(11),
},
SWAP11: {
execute: makeSwap(11),
constantGas: GasFastestStep,
minStack: minSwapStack(12),
maxStack: maxSwapStack(12),
},
SWAP12: {
execute: makeSwap(12),
constantGas: GasFastestStep,
minStack: minSwapStack(13),
maxStack: maxSwapStack(13),
},
SWAP13: {
execute: makeSwap(13),
constantGas: GasFastestStep,
minStack: minSwapStack(14),
maxStack: maxSwapStack(14),
},
SWAP14: {
execute: makeSwap(14),
constantGas: GasFastestStep,
minStack: minSwapStack(15),
maxStack: maxSwapStack(15),
},
SWAP15: {
execute: makeSwap(15),
constantGas: GasFastestStep,
minStack: minSwapStack(16),
maxStack: maxSwapStack(16),
},
SWAP16: {
execute: makeSwap(16),
constantGas: GasFastestStep,
minStack: minSwapStack(17),
maxStack: maxSwapStack(17),
},
LOG0: {
execute: makeLog(0),
dynamicGas: makeGasLog(0),
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
memorySize: memoryLog,
},
LOG1: {
execute: makeLog(1),
dynamicGas: makeGasLog(1),
minStack: minStack(3, 0),
maxStack: maxStack(3, 0),
memorySize: memoryLog,
},
LOG2: {
execute: makeLog(2),
dynamicGas: makeGasLog(2),
minStack: minStack(4, 0),
maxStack: maxStack(4, 0),
memorySize: memoryLog,
},
LOG3: {
execute: makeLog(3),
dynamicGas: makeGasLog(3),
minStack: minStack(5, 0),
maxStack: maxStack(5, 0),
memorySize: memoryLog,
},
LOG4: {
execute: makeLog(4),
dynamicGas: makeGasLog(4),
minStack: minStack(6, 0),
maxStack: maxStack(6, 0),
memorySize: memoryLog,
},
CREATE: {
execute: opCreate,
constantGas: params.CreateGas,
dynamicGas: gasCreate,
minStack: minStack(3, 1),
maxStack: maxStack(3, 1),
memorySize: memoryCreate,
},
CALL: {
execute: opCall,
constantGas: params.CallGasFrontier,
dynamicGas: gasCall,
minStack: minStack(7, 1),
maxStack: maxStack(7, 1),
memorySize: memoryCall,
},
CALLCODE: {
execute: opCallCode,
constantGas: params.CallGasFrontier,
dynamicGas: gasCallCode,
minStack: minStack(7, 1),
maxStack: maxStack(7, 1),
memorySize: memoryCall,
},
RETURN: {
execute: opReturn,
dynamicGas: gasReturn,
minStack: minStack(2, 0),
maxStack: maxStack(2, 0),
memorySize: memoryReturn,
},
SELFDESTRUCT: {
execute: opSelfdestruct,
dynamicGas: gasSelfdestruct,
minStack: minStack(1, 0),
maxStack: maxStack(1, 0),
},
}
// Fill all unassigned slots with opUndefined.
for i, entry := range tbl {
if entry == nil {
tbl[i] = &operation{execute: opUndefined, maxStack: maxStack(0, 0)}
}
}
return validate(tbl)
}
func copyJumpTable(source *JumpTable) *JumpTable {
dest := *source
for i, op := range source {
if op != nil {
opCopy := *op
dest[i] = &opCopy
}
}
return &dest
}