fork.py (in src/ethereum/forks/bpo3)

ethereum.forks.bpo3.fork

Ethereum Specification.

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

Introduction

Entry point for the Ethereum specification.

BASE_FEE_MAX_CHANGE_DENOMINATOR ¶

98	BASE_FEE_MAX_CHANGE_DENOMINATOR = Uint(8)

ELASTICITY_MULTIPLIER ¶

99	ELASTICITY_MULTIPLIER = Uint(2)

EMPTY_OMMER_HASH ¶

100	EMPTY_OMMER_HASH = keccak256(rlp.encode([]))

SYSTEM_ADDRESS ¶

101	SYSTEM_ADDRESS = hex_to_address("0xfffffffffffffffffffffffffffffffffffffffe")

BEACON_ROOTS_ADDRESS ¶

102	BEACON_ROOTS_ADDRESS = hex_to_address(
103	"0x000F3df6D732807Ef1319fB7B8bB8522d0Beac02"
104	)

SYSTEM_TRANSACTION_GAS ¶

105	SYSTEM_TRANSACTION_GAS = Uint(30000000)

MAX_BLOB_GAS_PER_BLOCK ¶

106	MAX_BLOB_GAS_PER_BLOCK: Final[U64] = (
107	GasCosts.BLOB_SCHEDULE_MAX * GasCosts.PER_BLOB
108	)

VERSIONED_HASH_VERSION_KZG ¶

109	VERSIONED_HASH_VERSION_KZG = b"\x01"

WITHDRAWAL_REQUEST_PREDEPLOY_ADDRESS ¶

111	WITHDRAWAL_REQUEST_PREDEPLOY_ADDRESS = hex_to_address(
112	"0x00000961Ef480Eb55e80D19ad83579A64c007002"
113	)

CONSOLIDATION_REQUEST_PREDEPLOY_ADDRESS ¶

114	CONSOLIDATION_REQUEST_PREDEPLOY_ADDRESS = hex_to_address(
115	"0x0000BBdDc7CE488642fb579F8B00f3a590007251"
116	)

HISTORY_STORAGE_ADDRESS ¶

117	HISTORY_STORAGE_ADDRESS = hex_to_address(
118	"0x0000F90827F1C53a10cb7A02335B175320002935"
119	)

MAX_BLOCK_SIZE ¶

120	MAX_BLOCK_SIZE = 10_485_760

SAFETY_MARGIN ¶

121	SAFETY_MARGIN = 2_097_152

MAX_RLP_BLOCK_SIZE ¶

122	MAX_RLP_BLOCK_SIZE = MAX_BLOCK_SIZE - SAFETY_MARGIN

BLOB_COUNT_LIMIT ¶

123	BLOB_COUNT_LIMIT = 6

BlockChain ¶

History and current state of the block chain.

126	@final

127	@dataclass

class BlockChain:

blocks ¶

133	blocks: List[Block]

state ¶

134	state: State

chain_id ¶

135	chain_id: U64

apply_fork ¶

Transforms the state from the previous hard fork (old) into the block chain object for this hard fork and returns it.

When forks need to implement an irregular state transition, this function is used to handle the irregularity. See the :ref:DAO Fork <dao-fork> for an example.

Parameters

old : Previous block chain object.

Returns

new : BlockChain Upgraded block chain object for this hard fork.

def apply_fork(old: BlockChain) -> BlockChain:

139	<snip>
158	return old

get_last_256_block_hashes ¶

Obtain the list of hashes of the previous 256 blocks in order of increasing block number.

This function will return less hashes for the first 256 blocks.

The BLOCKHASH opcode needs to access the latest hashes on the chain, therefore this function retrieves them.

Parameters

chain : History and current state.

Returns

recent_block_hashes : List[Hash32] Hashes of the recent 256 blocks in order of increasing block number.

def get_last_256_block_hashes(chain: BlockChain) -> List[Hash32]:

162	<snip>
182	recent_blocks = chain.blocks[-255:]
183	# TODO: This function has not been tested rigorously
184	if len(recent_blocks) == 0:
185	return []
186
187	recent_block_hashes = []
188
189	for block in recent_blocks:
190	prev_block_hash = block.header.parent_hash
191	recent_block_hashes.append(prev_block_hash)
192
193	# We are computing the hash only for the most recent block and not for
194	# the rest of the blocks as they have successors which have the hash of
195	# the current block as parent hash.
196	most_recent_block_hash = keccak256(rlp.encode(recent_blocks[-1].header))
197	recent_block_hashes.append(most_recent_block_hash)
198
199	return recent_block_hashes

state_transition ¶

Attempts to apply a block to an existing block chain.

All parts of the block's contents need to be verified before being added to the chain. Blocks are verified by ensuring that the contents of the block make logical sense with the contents of the parent block. The information in the block's header must also match the corresponding information in the block.

To implement Ethereum, in theory clients are only required to store the most recent 255 blocks of the chain since as far as execution is concerned, only those blocks are accessed. Practically, however, clients should store more blocks to handle reorgs.

Parameters

chain : History and current state. block : Block to apply to chain.

def state_transition(chain: BlockChain, block: Block) -> None:

203	<snip>
225	if len(rlp.encode(block)) > MAX_RLP_BLOCK_SIZE:
226	raise InvalidBlock("Block rlp size exceeds MAX_RLP_BLOCK_SIZE")
227
228	validate_header(chain, block.header)
229	if block.ommers != ():
230	raise InvalidBlock
231
232	block_state = BlockState(pre_state=chain.state)
233
234	block_env = vm.BlockEnvironment(
235	chain_id=chain.chain_id,
236	state=block_state,
237	block_gas_limit=block.header.gas_limit,
238	block_hashes=get_last_256_block_hashes(chain),
239	coinbase=block.header.coinbase,
240	number=block.header.number,
241	base_fee_per_gas=block.header.base_fee_per_gas,
242	time=block.header.timestamp,
243	prev_randao=block.header.prev_randao,
244	excess_blob_gas=block.header.excess_blob_gas,
245	parent_beacon_block_root=block.header.parent_beacon_block_root,
246	)
247
248	block_output = apply_body(
249	block_env=block_env,
250	transactions=block.transactions,
251	withdrawals=block.withdrawals,
252	)
253	block_diff = extract_block_diff(block_state)
254	block_state_root, _ = chain.state.compute_state_root_and_trie_changes(
255	block_diff.account_changes, block_diff.storage_changes
256	)
257	transactions_root = root(block_output.transactions_trie)
258	receipt_root = root(block_output.receipts_trie)
259	block_logs_bloom = logs_bloom(block_output.block_logs)
260	withdrawals_root = root(block_output.withdrawals_trie)
261	requests_hash = compute_requests_hash(block_output.requests)
262
263	if block_output.block_gas_used != block.header.gas_used:
264	raise InvalidBlock(
265	f"{block_output.block_gas_used} != {block.header.gas_used}"
266	)
267	if transactions_root != block.header.transactions_root:
268	raise InvalidBlock
269	if block_state_root != block.header.state_root:
270	raise InvalidBlock
271	if receipt_root != block.header.receipt_root:
272	raise InvalidBlock
273	if block_logs_bloom != block.header.bloom:
274	raise InvalidBlock
275	if withdrawals_root != block.header.withdrawals_root:
276	raise InvalidBlock
277	if block_output.blob_gas_used != block.header.blob_gas_used:
278	raise InvalidBlock
279	if requests_hash != block.header.requests_hash:
280	raise InvalidBlock
281
282	apply_changes_to_state(chain.state, block_diff)
283	chain.blocks.append(block)
284	if len(chain.blocks) > 255:
285	# Real clients have to store more blocks to deal with reorgs, but the
286	# protocol only requires the last 255
287	chain.blocks = chain.blocks[-255:]

calculate_base_fee_per_gas ¶

Calculates the base fee per gas for the block.

Parameters

block_gas_limit : Gas limit of the block for which the base fee is being calculated. parent_gas_limit : Gas limit of the parent block. parent_gas_used : Gas used in the parent block. parent_base_fee_per_gas : Base fee per gas of the parent block.

Returns

base_fee_per_gas : Uint Base fee per gas for the block.

def calculate_base_fee_per_gas(block_gas_limit: Uint, parent_gas_limit: Uint, parent_gas_used: Uint, parent_base_fee_per_gas: Uint) -> Uint:

296	<snip>
316	parent_gas_target = parent_gas_limit // ELASTICITY_MULTIPLIER
317	if not check_gas_limit(block_gas_limit, parent_gas_limit):
318	raise InvalidBlock
319
320	if parent_gas_used == parent_gas_target:
321	expected_base_fee_per_gas = parent_base_fee_per_gas
322	elif parent_gas_used > parent_gas_target:
323	gas_used_delta = parent_gas_used - parent_gas_target
324
325	parent_fee_gas_delta = parent_base_fee_per_gas * gas_used_delta
326	target_fee_gas_delta = parent_fee_gas_delta // parent_gas_target
327
328	base_fee_per_gas_delta = max(
329	target_fee_gas_delta // BASE_FEE_MAX_CHANGE_DENOMINATOR,
330	Uint(1),
331	)
332
333	expected_base_fee_per_gas = (
334	parent_base_fee_per_gas + base_fee_per_gas_delta
335	)
336	else:
337	gas_used_delta = parent_gas_target - parent_gas_used
338
339	parent_fee_gas_delta = parent_base_fee_per_gas * gas_used_delta
340	target_fee_gas_delta = parent_fee_gas_delta // parent_gas_target
341
342	base_fee_per_gas_delta = (
343	target_fee_gas_delta // BASE_FEE_MAX_CHANGE_DENOMINATOR
344	)
345
346	expected_base_fee_per_gas = (
347	parent_base_fee_per_gas - base_fee_per_gas_delta
348	)
349
350	return Uint(expected_base_fee_per_gas)

validate_header ¶

Verifies a block header.

In order to consider a block's header valid, the logic for the quantities in the header should match the logic for the block itself. For example the header timestamp should be greater than the block's parent timestamp because the block was created after the parent block. Additionally, the block's number should be directly following the parent block's number since it is the next block in the sequence.

Parameters

chain : History and current state. header : Header to check for correctness.

def validate_header(chain: BlockChain, header: Header) -> None:

354	<snip>
372	if header.number < Uint(1):
373	raise InvalidBlock
374
375	parent_header = chain.blocks[-1].header
376
377	excess_blob_gas = calculate_excess_blob_gas(parent_header)
378	if header.excess_blob_gas != excess_blob_gas:
379	raise InvalidBlock
380
381	if header.gas_used > header.gas_limit:
382	raise InvalidBlock
383
384	expected_base_fee_per_gas = calculate_base_fee_per_gas(
385	header.gas_limit,
386	parent_header.gas_limit,
387	parent_header.gas_used,
388	parent_header.base_fee_per_gas,
389	)
390	if expected_base_fee_per_gas != header.base_fee_per_gas:
391	raise InvalidBlock
392	if header.timestamp <= parent_header.timestamp:
393	raise InvalidBlock
394	if header.number != parent_header.number + Uint(1):
395	raise InvalidBlock
396	if len(header.extra_data) > 32:
397	raise InvalidBlock
398	if header.difficulty != 0:
399	raise InvalidBlock
400	if header.nonce != b"\x00\x00\x00\x00\x00\x00\x00\x00":
401	raise InvalidBlock
402	if header.ommers_hash != EMPTY_OMMER_HASH:
403	raise InvalidBlock
404
405	block_parent_hash = keccak256(rlp.encode(parent_header))
406	if header.parent_hash != block_parent_hash:
407	raise InvalidBlock

check_transaction ¶

Check if the transaction is includable in the block.

Parameters

block_env : The block scoped environment. block_output : The block output for the current block. tx : The transaction. tx_state : The transaction state tracker.

Returns

sender_address : The sender of the transaction. effective_gas_price : The price to charge for gas when the transaction is executed. blob_versioned_hashes : The blob versioned hashes of the transaction. tx_blob_gas_used: The blob gas used by the transaction.

Raises

InvalidBlock : If the transaction is not includable. GasUsedExceedsLimitError : If the gas used by the transaction exceeds the block's gas limit. NonceMismatchError : If the nonce of the transaction is not equal to the sender's nonce. InsufficientBalanceError : If the sender's balance is not enough to pay for the transaction. InvalidSenderError : If the transaction is from an address that does not exist anymore. PriorityFeeGreaterThanMaxFeeError : If the priority fee is greater than the maximum fee per gas. InsufficientMaxFeePerGasError : If the maximum fee per gas is insufficient for the transaction. InsufficientMaxFeePerBlobGasError : If the maximum fee per blob gas is insufficient for the transaction. BlobGasLimitExceededError : If the blob gas used by the transaction exceeds the block's blob gas limit. InvalidBlobVersionedHashError : If the transaction contains a blob versioned hash with an invalid version. NoBlobDataError : If the transaction is a type 3 but has no blobs. BlobCountExceededError : If the transaction is a type 3 and has more blobs than the limit. TransactionTypeContractCreationError: If the transaction type is not allowed to create contracts. EmptyAuthorizationListError : If the transaction is a SetCodeTransaction and the authorization list is empty.

def check_transaction(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, block_output: ethereum.forks.bpo3.vm.BlockOutput, tx: Transaction, tx_state: TransactionState) -> Tuple[Address, Uint, Tuple[VersionedHash, ...], U64]:

416	<snip>
476	gas_available = block_env.block_gas_limit - block_output.block_gas_used
477	blob_gas_available = MAX_BLOB_GAS_PER_BLOCK - block_output.blob_gas_used
478
479	if tx.gas > gas_available:
480	raise GasUsedExceedsLimitError("gas used exceeds limit")
481
482	tx_blob_gas_used = calculate_total_blob_gas(tx)
483	if tx_blob_gas_used > blob_gas_available:
484	raise BlobGasLimitExceededError("blob gas limit exceeded")
485
486	sender_address = recover_sender(block_env.chain_id, tx)
487	sender_account = get_account(tx_state, sender_address)
488
489	if isinstance(tx, FeeMarketCapableTransaction):
490	if tx.max_fee_per_gas < tx.max_priority_fee_per_gas:
491	raise PriorityFeeGreaterThanMaxFeeError(
492	"priority fee greater than max fee"
493	)
494	if tx.max_fee_per_gas < block_env.base_fee_per_gas:
495	raise InsufficientMaxFeePerGasError(
496	tx.max_fee_per_gas, block_env.base_fee_per_gas
497	)
498
499	priority_fee_per_gas = min(
500	tx.max_priority_fee_per_gas,
501	tx.max_fee_per_gas - block_env.base_fee_per_gas,
502	)
503	effective_gas_price = priority_fee_per_gas + block_env.base_fee_per_gas
504	max_gas_fee = tx.gas * tx.max_fee_per_gas
505	else:
506	if tx.gas_price < block_env.base_fee_per_gas:
507	raise InvalidBlock
508	effective_gas_price = tx.gas_price
509	max_gas_fee = tx.gas * tx.gas_price
510
511	if isinstance(tx, BlobTransaction):
512	blob_count = len(tx.blob_versioned_hashes)
513	if blob_count == 0:
514	raise NoBlobDataError("no blob data in transaction")
515	if blob_count > BLOB_COUNT_LIMIT:
516	raise BlobCountExceededError(
517	f"Tx has {blob_count} blobs. Max allowed: {BLOB_COUNT_LIMIT}"
518	)
519	for blob_versioned_hash in tx.blob_versioned_hashes:
520	if blob_versioned_hash[0:1] != VERSIONED_HASH_VERSION_KZG:
521	raise InvalidBlobVersionedHashError(
522	"invalid blob versioned hash"
523	)
524
525	blob_gas_price = calculate_blob_gas_price(block_env.excess_blob_gas)
526	if Uint(tx.max_fee_per_blob_gas) < blob_gas_price:
527	raise InsufficientMaxFeePerBlobGasError(
528	"insufficient max fee per blob gas"
529	)
530
531	max_gas_fee += Uint(calculate_total_blob_gas(tx)) * Uint(
532	tx.max_fee_per_blob_gas
533	)
534	blob_versioned_hashes = tx.blob_versioned_hashes
535	else:
536	blob_versioned_hashes = ()
537
538	if isinstance(tx, (BlobTransaction, SetCodeTransaction)):
539	if not isinstance(tx.to, Address):
540	raise TransactionTypeContractCreationError(tx)
541
542	if isinstance(tx, SetCodeTransaction):
543	if not any(tx.authorizations):
544	raise EmptyAuthorizationListError("empty authorization list")
545
546	if sender_account.nonce > Uint(tx.nonce):
547	raise NonceMismatchError("nonce too low")
548	elif sender_account.nonce < Uint(tx.nonce):
549	raise NonceMismatchError("nonce too high")
550
551	if Uint(sender_account.balance) < max_gas_fee + Uint(tx.value):
552	raise InsufficientBalanceError("insufficient sender balance")
553	sender_code = get_code(tx_state, sender_account.code_hash)
554	if sender_account.code_hash != EMPTY_CODE_HASH and not is_valid_delegation(
555	sender_code
556	):
557	raise InvalidSenderError("not EOA")
558
559	return (
560	sender_address,
561	effective_gas_price,
562	blob_versioned_hashes,
563	tx_blob_gas_used,
564	)

make_receipt ¶

Make the receipt for a transaction that was executed.

Parameters

tx : The executed transaction. error : Error in the top level frame of the transaction, if any. cumulative_gas_used : The total gas used so far in the block after the transaction was executed. logs : The logs produced by the transaction.

Returns

receipt : The receipt for the transaction.

def make_receipt(tx: Transaction, error: Optional[EthereumException], cumulative_gas_used: Uint, logs: Tuple[Log, ...]) -> Bytes | Receipt:

573	<snip>
594	receipt = Receipt(
595	succeeded=error is None,
596	cumulative_gas_used=cumulative_gas_used,
597	bloom=logs_bloom(logs),
598	logs=logs,
599	)
600
601	return encode_receipt(tx, receipt)

process_checked_system_transaction ¶

Process a system transaction and raise an error if the contract does not contain code or if the transaction fails.

Parameters

block_env : The block scoped environment. target_address : Address of the contract to call. data : Data to pass to the contract.

Returns

system_tx_output : MessageCallOutput Output of processing the system transaction.

def process_checked_system_transaction(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, target_address: Address, data: Bytes) -> MessageCallOutput:

609	<snip>
628	# Pre-check that the system contract has code. We use a throwaway
629	# TransactionState here that is never propagated back to BlockState
630	# (no incorporate_tx_into_block call); the same get_account / get_code
631	# lookups are performed and properly tracked by
632	# process_unchecked_system_transaction below, which this function
633	# always calls. Reading via a TransactionState (rather than directly
634	# against pre_state) lets us see system contracts deployed earlier in
635	# the same block — see EIP-7002 and EIP-7251 for this edge case.
636	untracked_state = TransactionState(parent=block_env.state)
637	system_contract_code = get_code(
638	untracked_state,
639	get_account(untracked_state, target_address).code_hash,
640	)
641
642	if len(system_contract_code) == 0:
643	raise InvalidBlock(
644	f"System contract address {target_address.hex()} does not "
645	"contain code"
646	)
647
648	system_tx_output = process_unchecked_system_transaction(
649	block_env,
650	target_address,
651	data,
652	)
653
654	if system_tx_output.error:
655	raise InvalidBlock(
656	f"System contract ({target_address.hex()}) call failed: "
657	f"{system_tx_output.error}"
658	)
659
660	return system_tx_output

process_unchecked_system_transaction ¶

Process a system transaction without checking if the contract contains code or if the transaction fails.

Parameters

block_env : The block scoped environment. target_address : Address of the contract to call. data : Data to pass to the contract.

Returns

system_tx_output : MessageCallOutput Output of processing the system transaction.

def process_unchecked_system_transaction(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, target_address: Address, data: Bytes) -> MessageCallOutput:

668	<snip>
687	system_tx_state = TransactionState(parent=block_env.state)
688	system_contract_code = get_code(
689	system_tx_state,
690	get_account(system_tx_state, target_address).code_hash,
691	)
692
693	tx_env = vm.TransactionEnvironment(
694	origin=SYSTEM_ADDRESS,
695	gas_price=block_env.base_fee_per_gas,
696	gas=SYSTEM_TRANSACTION_GAS,
697	access_list_addresses=set(),
698	access_list_storage_keys=set(),
699	state=system_tx_state,
700	blob_versioned_hashes=(),
701	authorizations=(),
702	index_in_block=None,
703	tx_hash=None,
704	)
705
706	system_tx_message = Message(
707	block_env=block_env,
708	tx_env=tx_env,
709	caller=SYSTEM_ADDRESS,
710	target=target_address,
711	gas=SYSTEM_TRANSACTION_GAS,
712	value=U256(0),
713	data=data,
714	code=system_contract_code,
715	depth=Uint(0),
716	current_target=target_address,
717	code_address=target_address,
718	should_transfer_value=False,
719	is_static=False,
720	accessed_addresses=set(),
721	accessed_storage_keys=set(),
722	disable_precompiles=False,
723	parent_evm=None,
724	)
725
726	system_tx_output = process_message_call(system_tx_message)
727
728	incorporate_tx_into_block(system_tx_state)
729
730	return system_tx_output

apply_body ¶

Executes a block.

Many of the contents of a block are stored in data structures called tries. There is a transactions trie which is similar to a ledger of the transactions stored in the current block. There is also a receipts trie which stores the results of executing a transaction, like the post state and gas used. This function creates and executes the block that is to be added to the chain.

Parameters

block_env : The block scoped environment. transactions : Transactions included in the block. withdrawals : Withdrawals to be processed in the current block.

Returns

block_output : The block output for the current block.

def apply_body(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, transactions: Tuple[LegacyTransaction | Bytes, ...], withdrawals: Tuple[Withdrawal, ...]) -> ethereum.forks.bpo3.vm.BlockOutput:

738	<snip>
763	block_output = vm.BlockOutput()
764
765	process_unchecked_system_transaction(
766	block_env=block_env,
767	target_address=BEACON_ROOTS_ADDRESS,
768	data=block_env.parent_beacon_block_root,
769	)
770
771	process_unchecked_system_transaction(
772	block_env=block_env,
773	target_address=HISTORY_STORAGE_ADDRESS,
774	data=block_env.block_hashes[-1], # The parent hash
775	)
776
777	for i, tx in enumerate(map(decode_transaction, transactions)):
778	process_transaction(block_env, block_output, tx, Uint(i))
779
780	process_withdrawals(block_env, block_output, withdrawals)
781
782	process_general_purpose_requests(
783	block_env=block_env,
784	block_output=block_output,
785	)
786
787	return block_output

process_general_purpose_requests ¶

Process all the requests in the block.

Parameters

block_env : The execution environment for the Block. block_output : The block output for the current block.

def process_general_purpose_requests(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, block_output: ethereum.forks.bpo3.vm.BlockOutput) -> None:

794	<snip>
805	# Requests are to be in ascending order of request type
806	deposit_requests = parse_deposit_requests(block_output)
807	requests_from_execution = block_output.requests
808	if len(deposit_requests) > 0:
809	requests_from_execution.append(DEPOSIT_REQUEST_TYPE + deposit_requests)
810
811	system_withdrawal_tx_output = process_checked_system_transaction(
812	block_env=block_env,
813	target_address=WITHDRAWAL_REQUEST_PREDEPLOY_ADDRESS,
814	data=b"",
815	)
816
817	if len(system_withdrawal_tx_output.return_data) > 0:
818	requests_from_execution.append(
819	WITHDRAWAL_REQUEST_TYPE + system_withdrawal_tx_output.return_data
820	)
821
822	system_consolidation_tx_output = process_checked_system_transaction(
823	block_env=block_env,
824	target_address=CONSOLIDATION_REQUEST_PREDEPLOY_ADDRESS,
825	data=b"",
826	)
827
828	if len(system_consolidation_tx_output.return_data) > 0:
829	requests_from_execution.append(
830	CONSOLIDATION_REQUEST_TYPE
831	+ system_consolidation_tx_output.return_data
832	)

process_transaction ¶

Execute a transaction against the provided environment.

This function processes the actions needed to execute a transaction. It decrements the sender's account balance after calculating the gas fee and refunds them the proper amount after execution. Calling contracts, deploying code, and incrementing nonces are all examples of actions that happen within this function or from a call made within this function.

Accounts that are marked for deletion are processed and destroyed after execution.

Parameters

block_env : Environment for the Ethereum Virtual Machine. block_output : The block output for the current block. tx : Transaction to execute. index: Index of the transaction in the block.

def process_transaction(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, block_output: ethereum.forks.bpo3.vm.BlockOutput, tx: Transaction, index: Uint) -> None:

841	<snip>
865	tx_state = TransactionState(parent=block_env.state)
866
867	trie_set(
868	block_output.transactions_trie,
869	rlp.encode(index),
870	encode_transaction(tx),
871	)
872
873	intrinsic = validate_transaction(tx)
874
875	(
876	sender,
877	effective_gas_price,
878	blob_versioned_hashes,
879	tx_blob_gas_used,
880	) = check_transaction(
881	block_env=block_env,
882	block_output=block_output,
883	tx=tx,
884	tx_state=tx_state,
885	)
886
887	sender_account = get_account(tx_state, sender)
888
889	if isinstance(tx, BlobTransaction):
890	blob_gas_fee = calculate_data_fee(block_env.excess_blob_gas, tx)
891	else:
892	blob_gas_fee = Uint(0)
893
894	effective_gas_fee = tx.gas * effective_gas_price
895
896	gas = tx.gas - intrinsic.regular
897	increment_nonce(tx_state, sender)
898
899	sender_balance_after_gas_fee = (
900	Uint(sender_account.balance) - effective_gas_fee - blob_gas_fee
901	)
902	set_account_balance(tx_state, sender, U256(sender_balance_after_gas_fee))
903
904	access_list_addresses = set()
905	access_list_storage_keys = set()
906	access_list_addresses.add(block_env.coinbase)
907	if has_access_list(tx):
908	for access in tx.access_list:
909	access_list_addresses.add(access.account)
910	for slot in access.slots:
911	access_list_storage_keys.add((access.account, slot))
912
913	authorizations: Tuple[Authorization, ...] = ()
914	if isinstance(tx, SetCodeTransaction):
915	authorizations = tx.authorizations
916
917	tx_env = vm.TransactionEnvironment(
918	origin=sender,
919	gas_price=effective_gas_price,
920	gas=gas,
921	access_list_addresses=access_list_addresses,
922	access_list_storage_keys=access_list_storage_keys,
923	state=tx_state,
924	blob_versioned_hashes=blob_versioned_hashes,
925	authorizations=authorizations,
926	index_in_block=index,
927	tx_hash=get_transaction_hash(encode_transaction(tx)),
928	)
929
930	message = prepare_message(block_env, tx_env, tx)
931
932	tx_output = process_message_call(message)
933
934	# For EIP-7623 we first calculate the execution_gas_used, which includes
935	# the execution gas refund.
936	tx_gas_used_before_refund = tx.gas - tx_output.gas_left
937	tx_gas_refund = min(
938	tx_gas_used_before_refund // Uint(5), Uint(tx_output.refund_counter)
939	)
940	tx_gas_used_after_refund = tx_gas_used_before_refund - tx_gas_refund
941
942	# Transactions with less execution_gas_used than the floor pay at the
943	# floor cost.
944	tx_gas_used_after_refund = max(
945	tx_gas_used_after_refund, intrinsic.calldata_floor
946	)
947
948	tx_gas_left = tx.gas - tx_gas_used_after_refund
949	gas_refund_amount = tx_gas_left * effective_gas_price
950
951	# For non-1559 transactions effective_gas_price == tx.gas_price
952	priority_fee_per_gas = effective_gas_price - block_env.base_fee_per_gas
953	transaction_fee = tx_gas_used_after_refund * priority_fee_per_gas
954
955	# refund gas
956	create_ether(tx_state, sender, U256(gas_refund_amount))
957
958	# transfer miner fees
959	create_ether(tx_state, block_env.coinbase, U256(transaction_fee))
960
961	for address in tx_output.accounts_to_delete:
962	destroy_account(tx_state, address)
963
964	block_output.block_gas_used += tx_gas_used_after_refund
965	block_output.blob_gas_used += tx_blob_gas_used
966
967	receipt = make_receipt(
968	tx, tx_output.error, block_output.block_gas_used, tx_output.logs
969	)
970
971	receipt_key = rlp.encode(Uint(index))
972	block_output.receipt_keys += (receipt_key,)
973
974	trie_set(
975	block_output.receipts_trie,
976	receipt_key,
977	receipt,
978	)
979
980	block_output.block_logs += tx_output.logs
981
982	incorporate_tx_into_block(tx_state)

process_withdrawals ¶

Increase the balance of the withdrawing account.

def process_withdrawals(block_env: ethereum.forks.bpo3.vm.BlockEnvironment, block_output: ethereum.forks.bpo3.vm.BlockOutput, withdrawals: Tuple[Withdrawal, ...]) -> None:

990	<snip>
993	wd_state = TransactionState(parent=block_env.state)
994
995	for i, wd in enumerate(withdrawals):
996	trie_set(
997	block_output.withdrawals_trie,
998	rlp.encode(Uint(i)),
999	rlp.encode(wd),
1000	)
1001
1002	create_ether(wd_state, wd.address, wd.amount * U256(10**9))
1003
1004	incorporate_tx_into_block(wd_state)

check_gas_limit ¶

Validates the gas limit for a block.

The bounds of the gas limit, max_adjustment_delta, is set as the quotient of the parent block's gas limit and the LIMIT_ADJUSTMENT_FACTOR. Therefore, if the gas limit that is passed through as a parameter is greater than or equal to the sum of the parent's gas and the adjustment delta then the limit for gas is too high and fails this function's check. Similarly, if the limit is less than or equal to the difference of the parent's gas and the adjustment delta or the predefined LIMIT_MINIMUM then this function's check fails because the gas limit doesn't allow for a sufficient or reasonable amount of gas to be used on a block.

Parameters

gas_limit : Gas limit to validate.

parent_gas_limit : Gas limit of the parent block.

Returns

check : bool True if gas limit constraints are satisfied, False otherwise.

def check_gas_limit(gas_limit: Uint, parent_gas_limit: Uint) -> bool:

1008	<snip>
1036	max_adjustment_delta = parent_gas_limit // GasCosts.LIMIT_ADJUSTMENT_FACTOR
1037	if gas_limit >= parent_gas_limit + max_adjustment_delta:
1038	return False
1039	if gas_limit <= parent_gas_limit - max_adjustment_delta:
1040	return False
1041	if gas_limit < GasCosts.LIMIT_MINIMUM:
1042	return False
1043
1044	return True

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