ethereum.prague.vm.gasethereum.osaka.vm.gas

Ethereum Virtual Machine (EVM) Gas ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

.. contents:: Table of Contents :backlinks: none :local:

Introduction

EVM gas constants and calculators.

GAS_JUMPDEST

27
GAS_JUMPDEST = Uint(1)

GAS_BASE

28
GAS_BASE = Uint(2)

GAS_VERY_LOW

29
GAS_VERY_LOW = Uint(3)

GAS_STORAGE_SET

30
GAS_STORAGE_SET = Uint(20000)

GAS_STORAGE_UPDATE

31
GAS_STORAGE_UPDATE = Uint(5000)

GAS_STORAGE_CLEAR_REFUND

32
GAS_STORAGE_CLEAR_REFUND = Uint(4800)

GAS_LOW

33
GAS_LOW = Uint(5)

GAS_MID

34
GAS_MID = Uint(8)

GAS_HIGH

35
GAS_HIGH = Uint(10)

GAS_EXPONENTIATION

36
GAS_EXPONENTIATION = Uint(10)

GAS_EXPONENTIATION_PER_BYTE

37
GAS_EXPONENTIATION_PER_BYTE = Uint(50)

GAS_MEMORY

38
GAS_MEMORY = Uint(3)

GAS_KECCAK256

39
GAS_KECCAK256 = Uint(30)

GAS_KECCAK256_WORD

40
GAS_KECCAK256_WORD = Uint(6)

GAS_COPY

41
GAS_COPY = Uint(3)

GAS_BLOCK_HASH

42
GAS_BLOCK_HASH = Uint(20)

GAS_LOG

43
GAS_LOG = Uint(375)

GAS_LOG_DATA

44
GAS_LOG_DATA = Uint(8)

GAS_LOG_TOPIC

45
GAS_LOG_TOPIC = Uint(375)

GAS_CREATE

46
GAS_CREATE = Uint(32000)

GAS_CODE_DEPOSIT

47
GAS_CODE_DEPOSIT = Uint(200)

GAS_ZERO

48
GAS_ZERO = Uint(0)

GAS_NEW_ACCOUNT

49
GAS_NEW_ACCOUNT = Uint(25000)

GAS_CALL_VALUE

50
GAS_CALL_VALUE = Uint(9000)

GAS_CALL_STIPEND

51
GAS_CALL_STIPEND = Uint(2300)

GAS_SELF_DESTRUCT

52
GAS_SELF_DESTRUCT = Uint(5000)

GAS_SELF_DESTRUCT_NEW_ACCOUNT

53
GAS_SELF_DESTRUCT_NEW_ACCOUNT = Uint(25000)

GAS_ECRECOVER

54
GAS_ECRECOVER = Uint(3000)

GAS_P256VERIFY

55
GAS_P256VERIFY = Uint(6900)

GAS_SHA256

56
GAS_SHA256 = Uint(60)

GAS_SHA256_WORD

57
GAS_SHA256_WORD = Uint(12)

GAS_RIPEMD160

58
GAS_RIPEMD160 = Uint(600)

GAS_RIPEMD160_WORD

59
GAS_RIPEMD160_WORD = Uint(120)

GAS_IDENTITY

60
GAS_IDENTITY = Uint(15)

GAS_IDENTITY_WORD

61
GAS_IDENTITY_WORD = Uint(3)

GAS_RETURN_DATA_COPY

62
GAS_RETURN_DATA_COPY = Uint(3)

GAS_FAST_STEP

63
GAS_FAST_STEP = Uint(5)

GAS_BLAKE2_PER_ROUND

64
GAS_BLAKE2_PER_ROUND = Uint(1)

GAS_COLD_SLOAD

65
GAS_COLD_SLOAD = Uint(2100)

GAS_COLD_ACCOUNT_ACCESS

66
GAS_COLD_ACCOUNT_ACCESS = Uint(2600)

GAS_WARM_ACCESS

67
GAS_WARM_ACCESS = Uint(100)

GAS_INIT_CODE_WORD_COST

68
GAS_INIT_CODE_WORD_COST = Uint(2)

GAS_BLOBHASH_OPCODE

69
GAS_BLOBHASH_OPCODE = Uint(3)

GAS_POINT_EVALUATION

70
GAS_POINT_EVALUATION = Uint(50000)

TARGET_BLOB_GAS_PER_BLOCK

72
TARGET_BLOB_GAS_PER_BLOCK = U64(786432)

BLOB_BASE_COST

73
BLOB_BASE_COST = Uint(2**13)

BLOB_SCHEDULE_MAX

74
BLOB_SCHEDULE_MAX = U64(9)

BLOB_SCHEDULE_TARGET

75
BLOB_SCHEDULE_TARGET = U64(6)

GAS_PER_BLOB

76
GAS_PER_BLOB = U64(2**17)

MIN_BLOB_GASPRICE

77
MIN_BLOB_GASPRICE = Uint(1)

BLOB_BASE_FEE_UPDATE_FRACTION

78
BLOB_BASE_FEE_UPDATE_FRACTION = Uint(5007716)

GAS_BLS_G1_ADD

80
GAS_BLS_G1_ADD = Uint(375)

GAS_BLS_G1_MUL

81
GAS_BLS_G1_MUL = Uint(12000)

GAS_BLS_G1_MAP

82
GAS_BLS_G1_MAP = Uint(5500)

GAS_BLS_G2_ADD

83
GAS_BLS_G2_ADD = Uint(600)

GAS_BLS_G2_MUL

84
GAS_BLS_G2_MUL = Uint(22500)

GAS_BLS_G2_MAP

85
GAS_BLS_G2_MAP = Uint(23800)

ExtendMemory

Define the parameters for memory extension in opcodes

cost: ethereum.base_types.Uint The gas required to perform the extension expand_by: ethereum.base_types.Uint The size by which the memory will be extended

88
@dataclass
class ExtendMemory:

cost

99
    cost: Uint

expand_by

100
    expand_by: Uint

MessageCallGas

Define the gas cost and gas given to the sub-call for executing the call opcodes.

cost: ethereum.base_types.Uint The gas required to execute the call opcode, excludes memory expansion costs. sub_call: ethereum.base_types.Uint The portion of gas available to sub-calls that is refundable if not consumed.

103
@dataclass
class MessageCallGas:

cost

117
    cost: Uint

sub_call

118
    sub_call: Uint

charge_gas

Subtracts amount from evm.gas_left.

Parameters

evm : The current EVM. amount : The amount of gas the current operation requires.

def charge_gas(evm: Evm, ​​amount: Uint) -> None:
122
    """
123
    Subtracts `amount` from `evm.gas_left`.
124
125
    Parameters
126
    ----------
127
    evm :
128
        The current EVM.
129
    amount :
130
        The amount of gas the current operation requires.
131
132
    """
133
    evm_trace(evm, GasAndRefund(int(amount)))
134
135
    if evm.gas_left < amount:
136
        raise OutOfGasError
137
    else:
138
        evm.gas_left -= amount

calculate_memory_gas_cost

Calculates the gas cost for allocating memory to the smallest multiple of 32 bytes, such that the allocated size is at least as big as the given size.

Parameters

size_in_bytes : The size of the data in bytes.

Returns

total_gas_cost : ethereum.base_types.Uint The gas cost for storing data in memory.

def calculate_memory_gas_cost(size_in_bytes: Uint) -> Uint:
142
    """
143
    Calculates the gas cost for allocating memory
144
    to the smallest multiple of 32 bytes,
145
    such that the allocated size is at least as big as the given size.
146
147
    Parameters
148
    ----------
149
    size_in_bytes :
150
        The size of the data in bytes.
151
152
    Returns
153
    -------
154
    total_gas_cost : `ethereum.base_types.Uint`
155
        The gas cost for storing data in memory.
156
    """
157
    size_in_words = ceil32(size_in_bytes) // Uint(32)
158
    linear_cost = size_in_words * GAS_MEMORY
159
    quadratic_cost = size_in_words ** Uint(2) // Uint(512)
160
    total_gas_cost = linear_cost + quadratic_cost
161
    try:
162
        return total_gas_cost
163
    except ValueError:
164
        raise OutOfGasError

calculate_gas_extend_memory

Calculates the gas amount to extend memory

Parameters

memory : Memory contents of the EVM. extensions: List of extensions to be made to the memory. Consists of a tuple of start position and size.

Returns

extend_memory: ExtendMemory

def calculate_gas_extend_memory(memory: bytearray, ​​extensions: List[Tuple[U256, U256]]) -> ExtendMemory:
170
    """
171
    Calculates the gas amount to extend memory
172
173
    Parameters
174
    ----------
175
    memory :
176
        Memory contents of the EVM.
177
    extensions:
178
        List of extensions to be made to the memory.
179
        Consists of a tuple of start position and size.
180
181
    Returns
182
    -------
183
    extend_memory: `ExtendMemory`
184
    """
185
    size_to_extend = Uint(0)
186
    to_be_paid = Uint(0)
187
    current_size = Uint(len(memory))
188
    for start_position, size in extensions:
189
        if size == 0:
190
            continue
191
        before_size = ceil32(current_size)
192
        after_size = ceil32(Uint(start_position) + Uint(size))
193
        if after_size <= before_size:
194
            continue
195
196
        size_to_extend += after_size - before_size
197
        already_paid = calculate_memory_gas_cost(before_size)
198
        total_cost = calculate_memory_gas_cost(after_size)
199
        to_be_paid += total_cost - already_paid
200
201
        current_size = after_size
202
203
    return ExtendMemory(to_be_paid, size_to_extend)

calculate_message_call_gas

Calculates the MessageCallGas (cost and gas made available to the sub-call) for executing call Opcodes.

Parameters

value: The amount of ETH that needs to be transferred. gas : The amount of gas provided to the message-call. gas_left : The amount of gas left in the current frame. memory_cost : The amount needed to extend the memory in the current frame. extra_gas : The amount of gas needed for transferring value + creating a new account inside a message call. call_stipend : The amount of stipend provided to a message call to execute code while transferring value(ETH).

Returns

message_call_gas: MessageCallGas

def calculate_message_call_gas(value: U256, ​​gas: Uint, ​​gas_left: Uint, ​​memory_cost: Uint, ​​extra_gas: Uint, ​​call_stipend: Uint) -> MessageCallGas:
214
    """
215
    Calculates the MessageCallGas (cost and gas made available to the sub-call)
216
    for executing call Opcodes.
217
218
    Parameters
219
    ----------
220
    value:
221
        The amount of `ETH` that needs to be transferred.
222
    gas :
223
        The amount of gas provided to the message-call.
224
    gas_left :
225
        The amount of gas left in the current frame.
226
    memory_cost :
227
        The amount needed to extend the memory in the current frame.
228
    extra_gas :
229
        The amount of gas needed for transferring value + creating a new
230
        account inside a message call.
231
    call_stipend :
232
        The amount of stipend provided to a message call to execute code while
233
        transferring value(ETH).
234
235
    Returns
236
    -------
237
    message_call_gas: `MessageCallGas`
238
    """
239
    call_stipend = Uint(0) if value == 0 else call_stipend
240
    if gas_left < extra_gas + memory_cost:
241
        return MessageCallGas(gas + extra_gas, gas + call_stipend)
242
243
    gas = min(gas, max_message_call_gas(gas_left - memory_cost - extra_gas))
244
245
    return MessageCallGas(gas + extra_gas, gas + call_stipend)

max_message_call_gas

Calculates the maximum gas that is allowed for making a message call

Parameters

gas : The amount of gas provided to the message-call.

Returns

max_allowed_message_call_gas: ethereum.base_types.Uint The maximum gas allowed for making the message-call.

def max_message_call_gas(gas: Uint) -> Uint:
249
    """
250
    Calculates the maximum gas that is allowed for making a message call
251
252
    Parameters
253
    ----------
254
    gas :
255
        The amount of gas provided to the message-call.
256
257
    Returns
258
    -------
259
    max_allowed_message_call_gas: `ethereum.base_types.Uint`
260
        The maximum gas allowed for making the message-call.
261
    """
262
    return gas - (gas // Uint(64))

init_code_cost

Calculates the gas to be charged for the init code in CREAT* opcodes as well as create transactions.

Parameters

init_code_length : The length of the init code provided to the opcode or a create transaction

Returns

init_code_gas: ethereum.base_types.Uint The gas to be charged for the init code.

def init_code_cost(init_code_length: Uint) -> Uint:
266
    """
267
    Calculates the gas to be charged for the init code in CREAT*
268
    opcodes as well as create transactions.
269
270
    Parameters
271
    ----------
272
    init_code_length :
273
        The length of the init code provided to the opcode
274
        or a create transaction
275
276
    Returns
277
    -------
278
    init_code_gas: `ethereum.base_types.Uint`
279
        The gas to be charged for the init code.
280
    """
281
    return GAS_INIT_CODE_WORD_COST * ceil32(init_code_length) // Uint(32)

calculate_excess_blob_gas

Calculated the excess blob gas for the current block based on the gas used in the parent block.

Parameters

parent_header : The parent block of the current block.

Returns

excess_blob_gas: ethereum.base_types.U64 The excess blob gas for the current block.

def calculate_excess_blob_gas(parent_header: Header) -> U64:
285
    """
286
    Calculated the excess blob gas for the current block based
287
    on the gas used in the parent block.
288
289
    Parameters
290
    ----------
291
    parent_header :
292
        The parent block of the current block.
293
294
    Returns
295
    -------
296
    excess_blob_gas: `ethereum.base_types.U64`
297
        The excess blob gas for the current block.
298
    """
299
    # At the fork block, these are defined as zero.
300
    excess_blob_gas = U64(0)
301
    blob_gas_used = U64(0)
302
    base_fee_per_gas = Uint(0)
303
304
    if isinstance(parent_header, Header):
305
        # After the fork block, read them from the parent header.
306
        excess_blob_gas = parent_header.excess_blob_gas
302
        blob_gas_used = parent_header.blob_gas_used
307
        blob_gas_used = parent_header.blob_gas_used
308
        base_fee_per_gas = parent_header.base_fee_per_gas
309
310
    parent_blob_gas = excess_blob_gas + blob_gas_used
311
    if parent_blob_gas < TARGET_BLOB_GAS_PER_BLOCK:
312
        return U64(0)
313
314
    target_blob_gas_price = Uint(GAS_PER_BLOB)
315
    target_blob_gas_price *= calculate_blob_gas_price(excess_blob_gas)
316
317
    base_blob_tx_price = BLOB_BASE_COST * base_fee_per_gas
318
    if base_blob_tx_price > target_blob_gas_price:
319
        blob_schedule_delta = BLOB_SCHEDULE_MAX - BLOB_SCHEDULE_TARGET
320
        return (
321
            excess_blob_gas
322
            + blob_gas_used * blob_schedule_delta // BLOB_SCHEDULE_MAX
323
        )
324
325
    return parent_blob_gas - TARGET_BLOB_GAS_PER_BLOCK

calculate_total_blob_gas

Calculate the total blob gas for a transaction.

Parameters

tx : The transaction for which the blob gas is to be calculated.

Returns

total_blob_gas: ethereum.base_types.Uint The total blob gas for the transaction.

def calculate_total_blob_gas(tx: Transaction) -> U64:
329
    """
330
    Calculate the total blob gas for a transaction.
331
332
    Parameters
333
    ----------
334
    tx :
335
        The transaction for which the blob gas is to be calculated.
336
337
    Returns
338
    -------
339
    total_blob_gas: `ethereum.base_types.Uint`
340
        The total blob gas for the transaction.
341
    """
342
    if isinstance(tx, BlobTransaction):
343
        return GAS_PER_BLOB * U64(len(tx.blob_versioned_hashes))
344
    else:
345
        return U64(0)

calculate_blob_gas_price

Calculate the blob gasprice for a block.

Parameters

excess_blob_gas : The excess blob gas for the block.

Returns

blob_gasprice: Uint The blob gasprice.

def calculate_blob_gas_price(excess_blob_gas: U64) -> Uint:
349
    """
350
    Calculate the blob gasprice for a block.
351
352
    Parameters
353
    ----------
354
    excess_blob_gas :
355
        The excess blob gas for the block.
356
357
    Returns
358
    -------
359
    blob_gasprice: `Uint`
360
        The blob gasprice.
361
    """
362
    return taylor_exponential(
363
        MIN_BLOB_GASPRICE,
364
        Uint(excess_blob_gas),
365
        BLOB_BASE_FEE_UPDATE_FRACTION,
366
    )

calculate_data_fee

Calculate the blob data fee for a transaction.

Parameters

excess_blob_gas : The excess_blob_gas for the execution. tx : The transaction for which the blob data fee is to be calculated.

Returns

data_fee: Uint The blob data fee.

def calculate_data_fee(excess_blob_gas: U64, ​​tx: Transaction) -> Uint:
370
    """
371
    Calculate the blob data fee for a transaction.
372
373
    Parameters
374
    ----------
375
    excess_blob_gas :
376
        The excess_blob_gas for the execution.
377
    tx :
378
        The transaction for which the blob data fee is to be calculated.
379
380
    Returns
381
    -------
382
    data_fee: `Uint`
383
        The blob data fee.
384
    """
385
    return Uint(calculate_total_blob_gas(tx)) * calculate_blob_gas_price(
386
        excess_blob_gas
387
    )