nimbus-eth1/nimbus/evm/interpreter/gas_costs.nim

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# Nimbus
# Copyright (c) 2018 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except according to those terms.
import
math, eth/common/eth_types,
./utils/[macros_gen_opcodes, utils_numeric],
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./op_codes, ../../common/evmforks, ../../errors
when defined(evmc_enabled):
import evmc/evmc
# Gas Fee Schedule
# Yellow Paper Appendix G - https://ethereum.github.io/yellowpaper/paper.pdf
type
GasFeeKind* = enum
GasZero, # Nothing paid for operations of the set Wzero.
GasBase, # Amount of gas to pay for operations of the set Wbase.
GasVeryLow, # Amount of gas to pay for operations of the set Wverylow.
GasLow, # Amount of gas to pay for operations of the set Wlow.
GasMid, # Amount of gas to pay for operations of the set Wmid.
GasHigh, # Amount of gas to pay for operations of the set Whigh.
GasExtCode, # Amount of gas to pay for operations of the set Wextcode.
GasBalance, # Amount of gas to pay for a BALANCE operation.
GasSload, # Paid for a SLOAD operation.
GasJumpDest, # Paid for a JUMPDEST operation.
GasSset, # Paid for an SSTORE operation when the storage value is set to non-zero from zero.
GasSreset, # Paid for an SSTORE operation when the storage values zeroness remains unchanged or is set to zero.
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RefundsClear, # Refund given (added into refund counter) when the storage value is set to zero from non-zero.
RefundSelfDestruct, # Refund given (added into refund counter) for self-destructing an account.
GasSelfDestruct, # Amount of gas to pay for a SELFDESTRUCT operation.
GasCreate, # Paid for a CREATE operation.
GasCodeDeposit, # Paid per byte for a CREATE operation to succeed in placing code into state.
GasCall, # Paid for a CALL operation.
GasCallValue, # Paid for a non-zero value transfer as part of the CALL operation.
GasCallStipend, # A stipend for the called contract subtracted from Gcallvalue for a non-zero value transfer.
GasNewAccount, # Paid for a CALL or SELFDESTRUCT operation which creates an account.
GasExp, # Partial payment for an EXP operation.
GasExpByte, # Partial payment when multiplied by ⌈log256(exponent)⌉ for the EXP operation.
GasMemory, # Paid for every additional word when expanding memory.
GasTXCreate, # Paid by all contract-creating transactions after the Homestead transition.
GasTXDataZero, # Paid for every zero byte of data or code for a transaction.
GasTXDataNonZero, # Paid for every non-zero byte of data or code for a transaction.
GasTransaction, # Paid for every transaction.
GasLog, # Partial payment for a LOG operation.
GasLogData, # Paid for each byte in a LOG operations data.
GasLogTopic, # Paid for each topic of a LOG operation.
GasSha3, # Paid for each SHA3 operation.
GasSha3Word, # Paid for each word (rounded up) for input data to a SHA3 operation.
GasCopy, # Partial payment for COPY operations, multiplied by words copied, rounded up.
GasBlockhash, # Payment for BLOCKHASH operation.
GasExtCodeHash, # Payment for contract's code hashing
GasInitcodeWord # Payment for each word (rounded up) for initcode
GasWarmStorageRead # Transient storage read and write cost.
GasFeeSchedule = array[GasFeeKind, GasInt]
GasParams* = object
# Yellow Paper, Appendix H - https://ethereum.github.io/yellowpaper/paper.pdf
# GasCost is a function of (σ, μ):
# - σ is the full system state
# - μ is the machine state
# In practice, we often require the following from
# - σ: an account address
# - μ: a value popped from the stack or its size.
case kind*: Op
of Sstore:
when defined(evmc_enabled):
s_status*: evmc_storage_status
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s_currentValue*: UInt256
s_originalValue*: UInt256
of Call, CallCode, DelegateCall, StaticCall:
c_isNewAccount*: bool
c_gasBalance*: GasInt
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c_contractGas*: UInt256
c_currentMemSize*: GasNatural
c_memOffset*: GasNatural
c_memLength*: GasNatural
of Create:
cr_currentMemSize*: GasNatural
cr_memOffset*: GasNatural
cr_memLength*: GasNatural
of SelfDestruct:
sd_condition*: bool
else:
discard
GasCostKind* = enum
GckInvalidOp,
GckFixed,
GckDynamic,
GckMemExpansion,
GckComplex
GasResult = tuple[gasCost, gasRefund: GasInt]
GasCost = object
case kind*: GasCostKind
of GckInvalidOp:
discard
of GckFixed:
cost*: GasInt
of GckDynamic:
d_handler*: proc(value: UInt256): GasInt
{.nimcall, gcsafe, raises: [CatchableError].}
of GckMemExpansion:
m_handler*: proc(currentMemSize, memOffset, memLength: GasNatural): GasInt
{.nimcall, gcsafe, raises: [CatchableError].}
of GckComplex:
c_handler*: proc(value: UInt256, gasParams: GasParams): GasResult
{.nimcall, gcsafe, raises: [CatchableError].}
# We use gasCost/gasRefund for:
# - Properly log and order cost and refund (for Sstore especially)
# - Allow to use unsigned integer in the future
# - CALL instruction requires passing the child message gas (Ccallgas in yellow paper)
GasCosts* = array[Op, GasCost]
const
# From EIP-2929
ColdSloadCost* = 2100
ColdAccountAccessCost* = 2600
WarmStorageReadCost* = 100
# From EIP-2930 (Berlin).
ACCESS_LIST_STORAGE_KEY_COST* = 1900.GasInt
ACCESS_LIST_ADDRESS_COST* = 2400.GasInt
when defined(evmc_enabled):
type
# The gas cost specification for storage instructions.
StorageCostSpec = object
netCost : bool # Is this net gas cost metering schedule?
warmAccess: int16 # Storage warm access cost, YP: G_{warmaccess}
sset : int16 # Storage addition cost, YP: G_{sset}
reset : int16 # Storage modification cost, YP: G_{sreset}
clear : int16 # Storage deletion refund, YP: R_{sclear}
StorageStoreCost* = object
gasCost* : int16
gasRefund*: int16
# Table of gas cost specification for storage instructions per EVM revision.
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func storageCostSpec(): array[EVMFork, StorageCostSpec] {.compileTime.} =
# Legacy cost schedule.
const revs = [
FkFrontier, FkHomestead, FkTangerine,
FkSpurious, FkByzantium, FkPetersburg]
for rev in revs:
result[rev] = StorageCostSpec(
netCost: false, warmAccess: 200, sset: 20000, reset: 5000, clear: 15000)
# Net cost schedule.
result[FkConstantinople] = StorageCostSpec(
netCost: true, warmAccess: 200, sset: 20000, reset: 5000, clear: 15000)
result[FkIstanbul] = StorageCostSpec(
netCost: true, warmAccess: 800, sset: 20000, reset: 5000, clear: 15000)
result[FkBerlin] = StorageCostSpec(
netCost: true, warmAccess: WarmStorageReadCost, sset: 20000,
reset: 5000 - ColdSloadCost, clear: 15000)
result[FkLondon] = StorageCostSpec(
netCost: true, warmAccess: WarmStorageReadCost, sset: 20000,
reset: 5000 - ColdSloadCost, clear: 4800)
result[FkParis] = result[FkLondon]
result[FkShanghai] = result[FkLondon]
result[FkCancun] = result[FkLondon]
proc legacySStoreCost(e: var array[evmc_storage_status, StorageStoreCost],
c: StorageCostSpec) {.compileTime.} =
e[EVMC_STORAGE_ADDED] = StorageStoreCost(gasCost: c.sset , gasRefund: 0)
e[EVMC_STORAGE_DELETED] = StorageStoreCost(gasCost: c.reset, gasRefund: c.clear)
e[EVMC_STORAGE_MODIFIED] = StorageStoreCost(gasCost: c.reset, gasRefund: 0)
e[EVMC_STORAGE_ASSIGNED] = e[EVMC_STORAGE_MODIFIED]
e[EVMC_STORAGE_DELETED_ADDED] = e[EVMC_STORAGE_ADDED]
e[EVMC_STORAGE_MODIFIED_DELETED] = e[EVMC_STORAGE_DELETED]
e[EVMC_STORAGE_DELETED_RESTORED] = e[EVMC_STORAGE_ADDED]
e[EVMC_STORAGE_ADDED_DELETED] = e[EVMC_STORAGE_DELETED]
e[EVMC_STORAGE_MODIFIED_RESTORED] = e[EVMC_STORAGE_MODIFIED]
proc netSStoreCost(e: var array[evmc_storage_status, StorageStoreCost],
c: StorageCostSpec) {.compileTime.} =
e[EVMC_STORAGE_ASSIGNED] = StorageStoreCost(gasCost: c.warmAccess, gasRefund: 0)
e[EVMC_STORAGE_ADDED] = StorageStoreCost(gasCost: c.sset , gasRefund: 0)
e[EVMC_STORAGE_DELETED] = StorageStoreCost(gasCost: c.reset , gasRefund: c.clear)
e[EVMC_STORAGE_MODIFIED] = StorageStoreCost(gasCost: c.reset , gasRefund: 0)
e[EVMC_STORAGE_DELETED_ADDED] = StorageStoreCost(gasCost: c.warmAccess, gasRefund: -c.clear)
e[EVMC_STORAGE_MODIFIED_DELETED] = StorageStoreCost(gasCost: c.warmAccess, gasRefund: c.clear)
e[EVMC_STORAGE_DELETED_RESTORED] = StorageStoreCost(gasCost: c.warmAccess,
gasRefund: c.reset - c.warmAccess - c.clear)
e[EVMC_STORAGE_ADDED_DELETED] = StorageStoreCost(gasCost: c.warmAccess,
gasRefund: c.sset - c.warmAccess)
e[EVMC_STORAGE_MODIFIED_RESTORED] = StorageStoreCost(gasCost: c.warmAccess,
gasRefund: c.reset - c.warm_access)
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proc storageStoreCost(): array[EVMFork, array[evmc_storage_status, StorageStoreCost]] {.compileTime.} =
const tbl = storageCostSpec()
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for rev in EVMFork:
let c = tbl[rev]
if not c.netCost: # legacy
legacySStoreCost(result[rev], c)
else: # net cost
netSStoreCost(result[rev], c)
const
SstoreCost* = storageStoreCost()
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template gasCosts(fork: EVMFork, prefix, ResultGasCostsName: untyped) =
## Generate the gas cost for each forks and store them in a const
## named `ResultGasCostsName`
const FeeSchedule = gasFees[fork]
# ############### Helper functions ##############################
func `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.inline.} =
# Input: size (in bytes)
# Yellow Paper:
# Memory expansion cost
# = Cmem(μi) Cmem(μi)
# μi is memory size before opcode execution
# μ'i is the memory size after opcode execution
# Cmem(a) ≡ Gmemory · a + a² / 512
#
# Except when memLength = 0, where per eq (297),
# M(currentMemSize, f, l) = currentMemSize
let
prevWords: int64 = currentMemSize.wordCount
newWords: int64 = (memOffset + memLength).wordCount
if memLength == 0 or newWords <= prevWords:
# Special subcase of memory-expansion cost
# currentMemSize - currentMemSize = 0
# "Referencing a zero length range ... does not require memory to be extended
# to the beginning of the range."
#
# Also, don't credit EVM code for allocating memory
# then accessing lots of low memory. memoryGasCost,
# via go-ethereum, checks for this as special case.
return 0
let
prevCost = prevWords * static(FeeSchedule[GasMemory]) +
(prevWords ^ 2) shr 9 # div 512
newCost = newWords * static(FeeSchedule[GasMemory]) +
(newWords ^ 2) shr 9 # div 512
# TODO: add logging
result = max(newCost - prevCost, 0)
when fork >= FkTangerine:
func `prefix all_but_one_64th`(gas: GasInt): GasInt {.inline.} =
## Computes all but 1/64th
## L(n) ≡ n ⌊n/64⌋ - (floored(n/64))
# Introduced in EIP-150 - https://github.com/ethereum/EIPs/blob/master/EIPS/eip-150.md
# Note: The all-but-one-64th calculation should occur after the memory expansion fee is taken
# https://github.com/ethereum/yellowpaper/pull/442
result = gas - (gas shr 6)
# ############### Opcode gas functions ##############################
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func `prefix gasExp`(value: UInt256): GasInt {.nimcall.} =
## Value is the exponent
result = static FeeSchedule[GasExp]
if not value.isZero:
result += static(FeeSchedule[GasExpByte]) * (1 + log256(value))
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func `prefix gasCreate`(value: UInt256, gasParams: GasParams): GasResult {.nimcall.} =
if value.isZero:
result.gasCost = static(FeeSchedule[GasCodeDeposit]) * gasParams.cr_memLength
else:
result.gasCost = static(FeeSchedule[GasCreate]) +
(static(FeeSchedule[GasInitcodeWord]) * gasParams.cr_memLength.wordCount) +
`prefix gasMemoryExpansion`(
gasParams.cr_currentMemSize,
gasParams.cr_memOffset,
gasParams.cr_memLength)
func `prefix gasSha3`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
result += static(FeeSchedule[GasSha3]) +
static(FeeSchedule[GasSha3Word]) * (memLength).wordCount
func `prefix gasCopy`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = static(FeeSchedule[GasVeryLow]) +
static(FeeSchedule[GasCopy]) * memLength.wordCount
result += `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
func `prefix gasExtCodeCopy`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = static(FeeSchedule[GasExtCode]) +
static(FeeSchedule[GasCopy]) * memLength.wordCount
result += `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
func `prefix gasLoadStore`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = static(FeeSchedule[GasVeryLow])
result += `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
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func `prefix gasSstore`(value: UInt256, gasParams: GasParams): GasResult {.nimcall.} =
## Value is word to save
when defined(evmc_enabled):
const c = SStoreCost[fork]
let sc = c[gasParams.s_status]
result.gasCost = sc.gasCost
result.gasRefund = sc.gasRefund
else:
when fork >= FkBerlin:
# EIP2929
const
SLOAD_GAS = WarmStorageReadCost
SSTORE_RESET_GAS = 5000 - ColdSloadCost
else:
const
SLOAD_GAS = FeeSchedule[GasSload]
SSTORE_RESET_GAS = FeeSchedule[GasSreset]
const
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NoopGas {.used.} = SLOAD_GAS # if the value doesn't change.
DirtyGas {.used.} = SLOAD_GAS # if a dirty value is changed.
InitGas {.used.} = FeeSchedule[GasSset] # from clean zero to non-zero
InitRefund {.used.} = FeeSchedule[GasSset] - SLOAD_GAS # resetting to the original zero value
CleanGas {.used.} = SSTORE_RESET_GAS # from clean non-zero to something else
CleanRefund {.used.} = SSTORE_RESET_GAS - SLOAD_GAS # resetting to the original non-zero value
ClearRefund {.used.} = FeeSchedule[RefundsClear]# clearing an originally existing storage slot
when fork < FkConstantinople or fork == FkPetersburg:
let isStorageEmpty = gasParams.s_currentValue.isZero
# Gas cost - literal translation of Yellow Paper
result.gasCost = if value.isZero.not and isStorageEmpty:
InitGas
else:
CleanGas
# Refund
if value.isZero and not isStorageEmpty:
result.gasRefund = ClearRefund
else:
# 0. If *gasleft* is less than or equal to 2300, fail the current call.
# 1. If current value equals new value (this is a no-op), SSTORE_NOOP_GAS gas is deducted.
# 2. If current value does not equal new value:
# 2.1. If original value equals current value (this storage slot has not been changed by the current execution context):
# 2.1.1. If original value is 0, SSTORE_INIT_GAS gas is deducted.
# 2.1.2. Otherwise, SSTORE_CLEAN_GAS gas is deducted. If new value is 0, add SSTORE_CLEAR_REFUND to refund counter.
# 2.2. If original value does not equal current value (this storage slot is dirty), SSTORE_DIRTY_GAS gas is deducted. Apply both of the following clauses:
# 2.2.1. If original value is not 0:
# 2.2.1.1. If current value is 0 (also means that new value is not 0), subtract SSTORE_CLEAR_REFUND gas from refund counter. We can prove that refund counter will never go below 0.
# 2.2.1.2. If new value is 0 (also means that current value is not 0), add SSTORE_CLEAR_REFUND gas to refund counter.
# 2.2.2. If original value equals new value (this storage slot is reset):
# 2.2.2.1. If original value is 0, add SSTORE_INIT_REFUND to refund counter.
# 2.2.2.2. Otherwise, add SSTORE_CLEAN_REFUND gas to refund counter.
# Gas sentry honoured, do the actual gas calculation based on the stored value
if gasParams.s_currentValue == value: # noop (1)
result.gasCost = NoopGas
return
if gasParams.s_originalValue == gasParams.s_currentValue:
if gasParams.s_originalValue.isZero: # create slot (2.1.1)
result.gasCost = InitGas
return
if value.isZero: # delete slot (2.1.2b)
result.gasRefund = ClearRefund
result.gasCost = CleanGas # write existing slot (2.1.2)
return
if not gasParams.s_originalValue.isZero:
if gasParams.s_currentValue.isZero: # recreate slot (2.2.1.1)
result.gasRefund -= ClearRefund
if value.isZero: # delete slot (2.2.1.2)
result.gasRefund += ClearRefund
if gasParams.s_originalValue == value:
if gasParams.s_originalValue.isZero: # reset to original inexistent slot (2.2.2.1)
result.gasRefund += InitRefund
else: # reset to original existing slot (2.2.2.2)
result.gasRefund += CleanRefund
result.gasCost = DirtyGas # dirty update (2.2)
func `prefix gasLog0`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
result += static(FeeSchedule[GasLog]) +
static(FeeSchedule[GasLogData]) * memLength
func `prefix gasLog1`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
result += static(FeeSchedule[GasLog]) +
static(FeeSchedule[GasLogData]) * memLength +
static(FeeSchedule[GasLogTopic])
func `prefix gasLog2`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
result += static(FeeSchedule[GasLog]) +
static(FeeSchedule[GasLogData]) * memLength +
static(2 * FeeSchedule[GasLogTopic])
func `prefix gasLog3`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
result += static(FeeSchedule[GasLog]) +
static(FeeSchedule[GasLogData]) * memLength +
static(3 * FeeSchedule[GasLogTopic])
func `prefix gasLog4`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = `prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
result += static(FeeSchedule[GasLog]) +
static(FeeSchedule[GasLogData]) * memLength +
static(4 * FeeSchedule[GasLogTopic])
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func `prefix gasCall`(value: UInt256, gasParams: GasParams): GasResult {.nimcall.} =
# From the Yellow Paper, going through the equation from bottom to top
# https://ethereum.github.io/yellowpaper/paper.pdf#appendix.H
#
# More readable info on the subtleties wiki page: https://github.com/ethereum/wiki/wiki/Subtleties#other-operations
# CALL has a multi-part gas cost:
#
# - 700 base
# - 9000 additional if the value is nonzero
# - 25000 additional if the destination account does not yet exist
#
# The child message of a nonzero-value CALL operation (NOT the top-level message arising from a transaction!)
# gains an additional 2300 gas on top of the gas supplied by the calling account;
# this stipend can be considered to be paid out of the 9000 mandatory additional fee for nonzero-value calls.
# This ensures that a call recipient will always have enough gas to log that it received funds.
#
# EIP150 goes over computation: https://github.com/ethereum/eips/issues/150
#
# The discussion for the draft EIP-5, which proposes to change the CALL opcode also goes over
# the current implementation - https://github.com/ethereum/EIPs/issues/8
# First we have to take into account the costs of memory expansion:
# Note there is a "bug" in the Ethereum Yellow Paper
# - https://github.com/ethereum/yellowpaper/issues/325
# μg already includes memory expansion costs but it is not
# plainly explained n the CALL opcode details
# i.e. Cmem(μi) Cmem(μi)
# Yellow Paper: μi ≡ M(M(μi,μs[3],μs[4]),μs[5],μs[6])
# M is the memory expansion function
# μi is passed through gasParams.memRequested
# TODO:
# - Py-EVM has costs for both input and output memory expansion
# https://github.com/ethereum/py-evm/blob/eed0bfe4499b394ee58113408e487e7d35ab88d6/evm/vm/logic/call.py#L56-L57
# - Parity only for the largest expansion
# https://github.com/paritytech/parity/blob/af1088ef61323f171915555023d8e993aaaed755/ethcore/evm/src/interpreter/gasometer.rs#L192-L195
# - Go-Ethereum only has one cost
# https://github.com/ethereum/go-ethereum/blob/13af27641829f61d1e6b383e37aab6caae22f2c1/core/vm/gas_table.go#L334
# ⚠⚠ Py-EVM seems wrong if memory is needed for both in and out.
result.gasCost = `prefix gasMemoryExpansion`(
gasParams.c_currentMemSize,
gasParams.c_memOffset,
gasParams.c_memLength
)
# Cnew_account
if gasParams.c_isNewAccount and gasParams.kind == Call:
when fork < FkSpurious:
# Pre-EIP161 all account creation calls consumed 25000 gas.
result.gasCost += static(FeeSchedule[GasNewAccount])
else:
# Afterwards, only those transfering value:
# https://github.com/ethereum/EIPs/blob/master/EIPS/eip-158.md
# https://github.com/ethereum/EIPs/blob/master/EIPS/eip-161.md
if not value.isZero:
result.gasCost += static(FeeSchedule[GasNewAccount])
# Cxfer
if not value.isZero and gasParams.kind in {Call, CallCode}:
result.gasCost += static(FeeSchedule[GasCallValue])
# Cextra
result.gasCost += static(FeeSchedule[GasCall])
# Cgascap
when fork >= FkTangerine:
# https://github.com/ethereum/EIPs/blob/master/EIPS/eip-150.md
let gas = `prefix all_but_one_64th`(gasParams.c_gasBalance - result.gasCost)
if gasParams.c_contractGas > high(GasInt).u256 or
gas < gasParams.c_contractGas.truncate(GasInt):
result.gasRefund = gas
else:
result.gasRefund = gasParams.c_contractGas.truncate(GasInt)
else:
if gasParams.c_contractGas > high(GasInt).u256:
raise newException(TypeError, "GasInt Overflow (" & $gasParams.kind & ") " & $gasParams.c_contractGas)
result.gasRefund = gasParams.c_contractGas.truncate(GasInt)
result.gasCost += result.gasRefund
# Ccallgas - Gas sent to the child message
if not value.isZero and gasParams.kind in {Call, CallCode}:
result.gasRefund += static(FeeSchedule[GasCallStipend])
func `prefix gasHalt`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
`prefix gasMemoryExpansion`(currentMemSize, memOffset, memLength)
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func `prefix gasSelfDestruct`(value: UInt256, gasParams: GasParams): GasResult {.nimcall.} =
result.gasCost += static(FeeSchedule[GasSelfDestruct])
when fork >= FkTangerine:
if gasParams.sd_condition:
result.gasCost += static(FeeSchedule[GasNewAccount])
func `prefix gasCreate2`(currentMemSize, memOffset, memLength: GasNatural): GasInt {.nimcall.} =
result = static(FeeSchedule[GasSha3Word]) * (memLength).wordCount
# ###################################################################################################
let `ResultGasCostsName`*{.inject, compileTime.}: GasCosts = block:
# We use a block expression to avoid name redefinition conflicts
# with "fixed" and "dynamic"
# Syntactic sugar
func fixed(gasFeeKind: static[GasFeeKind]): GasCost =
GasCost(kind: GckFixed, cost: static(FeeSchedule[gasFeeKind]))
func dynamic(handler: proc(value: UInt256): GasInt
{.nimcall, gcsafe, raises: [CatchableError].}): GasCost =
GasCost(kind: GckDynamic, d_handler: handler)
func memExpansion(handler: proc(currentMemSize, memOffset, memLength: GasNatural): GasInt
{.nimcall, gcsafe, raises: [CatchableError].}): GasCost =
GasCost(kind: GckMemExpansion, m_handler: handler)
func complex(handler: proc(value: UInt256, gasParams: GasParams): GasResult
{.nimcall, gcsafe, raises: [CatchableError].}): GasCost =
GasCost(kind: GckComplex, c_handler: handler)
# Returned value
fill_enum_table_holes(Op, GasCost(kind: GckInvalidOp)):
[
# 0s: Stop and Arithmetic Operations
Stop: fixed GasZero,
Add: fixed GasVeryLow,
Mul: fixed GasLow,
Sub: fixed GasVeryLow,
Div: fixed GasLow,
Sdiv: fixed GasLow,
Mod: fixed GasLow,
Smod: fixed GasLow,
Addmod: fixed GasMid,
Mulmod: fixed GasMid,
Exp: dynamic `prefix gasExp`,
SignExtend: fixed GasLow,
# 10s: Comparison & Bitwise Logic Operations
Lt: fixed GasVeryLow,
Gt: fixed GasVeryLow,
Slt: fixed GasVeryLow,
Sgt: fixed GasVeryLow,
Eq: fixed GasVeryLow,
IsZero: fixed GasVeryLow,
And: fixed GasVeryLow,
Or: fixed GasVeryLow,
Xor: fixed GasVeryLow,
Not: fixed GasVeryLow,
Byte: fixed GasVeryLow,
Shl: fixed GasVeryLow,
Shr: fixed GasVeryLow,
Sar: fixed GasVeryLow,
# 20s: SHA3
Sha3: memExpansion `prefix gasSha3`,
# 30s: Environmental Information
Address: fixed GasBase,
Balance: fixed GasBalance,
Origin: fixed GasBase,
Caller: fixed GasBase,
CallValue: fixed GasBase,
CallDataLoad: fixed GasVeryLow,
CallDataSize: fixed GasBase,
CallDataCopy: memExpansion `prefix gasCopy`,
CodeSize: fixed GasBase,
CodeCopy: memExpansion `prefix gasCopy`,
GasPrice: fixed GasBase,
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ExtCodeSize: fixed GasExtCode,
ExtCodeCopy: memExpansion `prefix gasExtCodeCopy`,
ReturnDataSize: fixed GasBase,
ReturnDataCopy: memExpansion `prefix gasCopy`,
ExtCodeHash: fixed GasExtCodeHash,
# 40s: Block Information
Blockhash: fixed GasBlockhash,
Coinbase: fixed GasBase,
Timestamp: fixed GasBase,
Number: fixed GasBase,
Difficulty: fixed GasBase,
GasLimit: fixed GasBase,
ChainIdOp: fixed GasBase,
SelfBalance: fixed GasLow,
BaseFee: fixed GasBase,
BlobHash: fixed GasVeryLow,
# 50s: Stack, Memory, Storage and Flow Operations
Pop: fixed GasBase,
Mload: memExpansion `prefix gasLoadStore`,
Mstore: memExpansion `prefix gasLoadStore`,
Mstore8: memExpansion `prefix gasLoadStore`,
Sload: fixed GasSload,
Sstore: complex `prefix gasSstore`,
Jump: fixed GasMid,
JumpI: fixed GasHigh,
Pc: fixed GasBase,
Msize: fixed GasBase,
Gas: fixed GasBase,
JumpDest: fixed GasJumpDest,
# 5c & 5d: Transient storage operations
Tload: fixed GasWarmStorageRead,
Tstore: fixed GasWarmStorageRead,
# 5f, 60s & 70s: Push Operations
Push0: fixed GasBase,
Push1: fixed GasVeryLow,
Push2: fixed GasVeryLow,
Push3: fixed GasVeryLow,
Push4: fixed GasVeryLow,
Push5: fixed GasVeryLow,
Push6: fixed GasVeryLow,
Push7: fixed GasVeryLow,
Push8: fixed GasVeryLow,
Push9: fixed GasVeryLow,
Push10: fixed GasVeryLow,
Push11: fixed GasVeryLow,
Push12: fixed GasVeryLow,
Push13: fixed GasVeryLow,
Push14: fixed GasVeryLow,
Push15: fixed GasVeryLow,
Push16: fixed GasVeryLow,
Push17: fixed GasVeryLow,
Push18: fixed GasVeryLow,
Push19: fixed GasVeryLow,
Push20: fixed GasVeryLow,
Push21: fixed GasVeryLow,
Push22: fixed GasVeryLow,
Push23: fixed GasVeryLow,
Push24: fixed GasVeryLow,
Push25: fixed GasVeryLow,
Push26: fixed GasVeryLow,
Push27: fixed GasVeryLow,
Push28: fixed GasVeryLow,
Push29: fixed GasVeryLow,
Push30: fixed GasVeryLow,
Push31: fixed GasVeryLow,
Push32: fixed GasVeryLow,
# 80s: Duplication Operations
Dup1: fixed GasVeryLow,
Dup2: fixed GasVeryLow,
Dup3: fixed GasVeryLow,
Dup4: fixed GasVeryLow,
Dup5: fixed GasVeryLow,
Dup6: fixed GasVeryLow,
Dup7: fixed GasVeryLow,
Dup8: fixed GasVeryLow,
Dup9: fixed GasVeryLow,
Dup10: fixed GasVeryLow,
Dup11: fixed GasVeryLow,
Dup12: fixed GasVeryLow,
Dup13: fixed GasVeryLow,
Dup14: fixed GasVeryLow,
Dup15: fixed GasVeryLow,
Dup16: fixed GasVeryLow,
# 90s: Exchange Operations
Swap1: fixed GasVeryLow,
Swap2: fixed GasVeryLow,
Swap3: fixed GasVeryLow,
Swap4: fixed GasVeryLow,
Swap5: fixed GasVeryLow,
Swap6: fixed GasVeryLow,
Swap7: fixed GasVeryLow,
Swap8: fixed GasVeryLow,
Swap9: fixed GasVeryLow,
Swap10: fixed GasVeryLow,
Swap11: fixed GasVeryLow,
Swap12: fixed GasVeryLow,
Swap13: fixed GasVeryLow,
Swap14: fixed GasVeryLow,
Swap15: fixed GasVeryLow,
Swap16: fixed GasVeryLow,
# a0s: Logging Operations
Log0: memExpansion `prefix gasLog0`,
Log1: memExpansion `prefix gasLog1`,
Log2: memExpansion `prefix gasLog2`,
Log3: memExpansion `prefix gasLog3`,
Log4: memExpansion `prefix gasLog4`,
# f0s: System operations
Create: complex `prefix gasCreate`,
Call: complex `prefix gasCall`,
CallCode: complex `prefix gasCall`,
Return: memExpansion `prefix gasHalt`,
DelegateCall: complex `prefix gasCall`,
Create2: memExpansion `prefix gasCreate2`,
StaticCall: complex `prefix gasCall`,
Revert: memExpansion `prefix gasHalt`,
Invalid: fixed GasZero,
SelfDestruct: complex `prefix gasSelfDestruct`
]
# Generate the fork-specific gas costs tables
const
BaseGasFees: GasFeeSchedule = [
# Fee Schedule for the initial Ethereum forks
GasZero: 0'i64,
GasBase: 2,
GasVeryLow: 3,
GasLow: 5,
GasMid: 8,
GasHigh: 10,
GasExtCode: 20, # Changed to 700 in Tangerine (EIP150)
GasBalance: 20, # Changed to 400 in Tangerine (EIP150)
GasSload: 50, # Changed to 200 in Tangerine (EIP150)
GasJumpDest: 1,
GasSset: 20_000,
GasSreset: 5_000,
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RefundsClear: 15_000,
RefundSelfDestruct: 24_000,
GasSelfDestruct: 0, # Changed to 5000 in Tangerine (EIP150)
GasCreate: 32000,
GasCodeDeposit: 200,
GasCall: 40, # Changed to 700 in Tangerine (EIP150)
GasCallValue: 9000,
GasCallStipend: 2300,
GasNewAccount: 25_000,
GasExp: 10,
GasExpByte: 10, # Changed to 50 in Spurious Dragon (EIP160)
GasMemory: 3,
GasTXCreate: 0, # Changed to 32000 in Homestead (EIP2)
GasTXDataZero: 4,
GasTXDataNonZero: 68,
GasTransaction: 21000,
GasLog: 375,
GasLogData: 8,
GasLogTopic: 375,
GasSha3: 30,
GasSha3Word: 6,
GasCopy: 3,
GasBlockhash: 20,
GasExtCodeHash: 400,
GasInitcodeWord: 0, # Changed to 2 in EIP-3860
GasWarmStorageRead: WarmStorageReadCost
]
# Create the schedule for each forks
func homesteadGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
# https://github.com/ethereum/EIPs/blob/master/EIPS/eip-2.md
result = previousFees
result[GasTXCreate] = 32000
func tangerineGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
# https://github.com/ethereum/EIPs/blob/master/EIPS/eip-150.md
result = previousFees
result[GasExtCode] = 700
result[GasSload] = 200
result[GasSelfDestruct] = 5000
result[GasBalance] = 400
result[GasCall] = 700
func spuriousGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
# https://github.com/ethereum/EIPs/blob/master/EIPS/eip-160.md
result = previousFees
result[GasExpByte] = 50
func istanbulGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
# https://eips.ethereum.org/EIPS/eip-1884
result = previousFees
result[GasSload] = 800
result[GasExtCodeHash] = 700
result[GasBalance] = 700
result[GasTXDataNonZero]= 16
func berlinGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
# https://eips.ethereum.org/EIPS/eip-2929
result = previousFees
# these opcodes gas are calculated inside opcode
result[GasBalance] = 0
result[GasExtCodeHash] = 0
result[GasExtCode] = 0
# SLOAD gasCost become fully dynamic, see sloadEIP2929
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result[GasSload] = 0
result[GasCall] = WarmStorageReadCost
func londonGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
result = previousFees
# EIP-3529 RefundsClear(4800) =
# EIP-2929(5000 - ColdSloadCost) +
# EIP-2930(ACCESS_LIST_STORAGE_KEY_COST)
result[RefundsClear] =
5000 - ColdSloadCost +
ACCESS_LIST_STORAGE_KEY_COST
func shanghaiGasFees(previousFees: GasFeeSchedule): GasFeeSchedule =
result = previousFees
result[GasInitcodeWord] = 2.GasInt # INITCODE_WORD_COST from EIP-3860
const
HomesteadGasFees = BaseGasFees.homesteadGasFees
TangerineGasFees = HomesteadGasFees.tangerineGasFees
SpuriousGasFees = TangerineGasFees.spuriousGasFees
IstanbulGasFees = SpuriousGasFees.istanbulGasFees
BerlinGasFees = IstanbulGasFees.berlinGasFees
LondonGasFees = BerlinGasFees.londonGasFees
ShanghaiGasFees = LondonGasFees.shanghaiGasFees
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gasFees*: array[EVMFork, GasFeeSchedule] = [
FkFrontier: BaseGasFees,
FkHomestead: HomesteadGasFees,
FkTangerine: TangerineGasFees,
FkSpurious: SpuriousGasFees,
FkByzantium: SpuriousGasFees,
FkConstantinople: SpuriousGasFees,
FkPetersburg: SpuriousGasFees,
FkIstanbul: IstanbulGasFees,
FkBerlin: BerlinGasFees,
FkLondon: LondonGasFees,
FkParis: LondonGasFees,
FkShanghai: ShanghaiGasFees,
FkCancun: ShanghaiGasFees,
]
gasCosts(FkFrontier, base, BaseGasCosts)
gasCosts(FkHomestead, homestead, HomesteadGasCosts)
gasCosts(FkTangerine, tangerine, TangerineGasCosts)
gasCosts(FkSpurious, spurious, SpuriousGasCosts)
gasCosts(FkConstantinople, constantinople, ConstantinopleGasCosts)
gasCosts(FkIstanbul, istanbul, IstanbulGasCosts)
gasCosts(FkBerlin, berlin, BerlinGasCosts)
gasCosts(FkLondon, london, LondonGasCosts)
gasCosts(FkShanghai, shanghai, ShanghaiGasCosts)
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proc forkToSchedule*(fork: EVMFork): GasCosts =
if fork < FkHomestead:
BaseGasCosts
elif fork < FkTangerine:
HomesteadGasCosts
elif fork < FkSpurious:
TangerineGasCosts
elif fork == FkConstantinople:
ConstantinopleGasCosts # with EIP-1283
elif fork < FkIstanbul:
SpuriousGasCosts
elif fork < FkBerlin:
IstanbulGasCosts
elif fork < FkLondon:
BerlinGasCosts
elif fork < FkShanghai:
LondonGasCosts
else:
ShanghaiGasCosts
const
## Precompile costs
GasSHA256* = 60
GasSHA256Word* = 12
GasRIPEMD160* = 600
GasRIPEMD160Word* = 120
GasIdentity* = 15
GasIdentityWord* = 3
GasECRecover* = 3000
GasECAdd* = 500
GasECAddIstanbul* = 150
GasECMul* = 40000
GasECMulIstanbul* = 6000
GasECPairingBase* = 100000
GasECPairingBaseIstanbul* = 45000
GasECPairingPerPoint* = 80000
GasECPairingPerPointIstanbul* = 34000
# The Yellow Paper is special casing the GasQuadDivisor.
# It is defined in Appendix G with the other GasFeeKind constants
# instead of Appendix E for precompiled contracts
GasQuadDivisor* = 20
GasQuadDivisorEIP2565* = 3
# EIP2537 BLS12 381
Bls12381G1AddGas* = 600
Bls12381G1MulGas* = 12000
Bls12381G2AddGas* = 4500
Bls12381G2MulGas* = 55000
Bls12381PairingBaseGas* = 115000
Bls12381PairingPerPairGas* = 23000
Bls12381MapG1Gas* = 5500
Bls12381MapG2Gas* = 110000