Port p2p to server API (#2769)

* eth_gasPrice

* signing endpoints

* transaction by hash + temp fixes

* fix CI

* fix: state not persisted

* decouple state access changes from this PR

* rpc complete set

* tests modified

* tests temp modifications

* add tests to CI + minor fixes

* remove p2p

* remove old dependency

* fix suggestions

* rework tests

* rework kurtosis issue + comments

* fix post bump issues

* suggestions + logs

* remove unused imports
This commit is contained in:
Advaita Saha 2024-11-02 15:00:45 +05:30 committed by GitHub
parent 58cde36656
commit a45ac7e327
No known key found for this signature in database
GPG Key ID: B5690EEEBB952194
16 changed files with 738 additions and 1002 deletions

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@ -83,7 +83,7 @@ jobs:
cat kurtosis-network-params.yml | envsubst > assertoor.yaml cat kurtosis-network-params.yml | envsubst > assertoor.yaml
sed -i "s/el_image: .*/el_image: localtestnet/" assertoor.yaml sed -i "s/el_image: .*/el_image: localtestnet/" assertoor.yaml
kurtosis run github.com/ethpandaops/ethereum-package@4.3.0 --enclave assertoor-${{ github.run_id }} --args-file assertoor.yaml kurtosis run github.com/ethpandaops/ethereum-package --enclave assertoor-${{ github.run_id }} --args-file assertoor.yaml
enclave_dump=$(kurtosis enclave inspect assertoor-${{ github.run_id }}) enclave_dump=$(kurtosis enclave inspect assertoor-${{ github.run_id }})

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@ -109,7 +109,7 @@ proc newEngineEnv*(conf: var NimbusConf, chainFile: string, enableAuth: bool): E
beaconEngine = BeaconEngineRef.new(txPool, chain) beaconEngine = BeaconEngineRef.new(txPool, chain)
serverApi = newServerAPI(chain, txPool) serverApi = newServerAPI(chain, txPool)
setupServerAPI(serverApi, server) setupServerAPI(serverApi, server, ctx)
setupEngineAPI(beaconEngine, server) setupEngineAPI(beaconEngine, server)
# temporary disabled # temporary disabled
#setupDebugRpc(com, txPool, server) #setupDebugRpc(com, txPool, server)

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@ -59,7 +59,7 @@ proc setupELClient*(conf: ChainConfig, node: JsonNode): TestEnv =
rpcServer = newRpcHttpServer(["127.0.0.1:0"]) rpcServer = newRpcHttpServer(["127.0.0.1:0"])
rpcClient = newRpcHttpClient() rpcClient = newRpcHttpClient()
setupServerAPI(serverApi, rpcServer) setupServerAPI(serverApi, rpcServer, newEthContext())
setupEngineAPI(beaconEngine, rpcServer) setupEngineAPI(beaconEngine, rpcServer)
rpcServer.start() rpcServer.start()

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@ -16,8 +16,7 @@ import
../../../nimbus/common, ../../../nimbus/common,
../../../nimbus/config, ../../../nimbus/config,
../../../nimbus/rpc, ../../../nimbus/rpc,
../../../nimbus/rpc/oracle, ../../../nimbus/rpc/server_api,
../../../nimbus/rpc/p2p,
../../../nimbus/utils/utils, ../../../nimbus/utils/utils,
../../../nimbus/core/[chain, tx_pool], ../../../nimbus/core/[chain, tx_pool],
../../../tests/test_helpers, ../../../tests/test_helpers,
@ -46,11 +45,14 @@ proc manageAccounts(ctx: EthContext, conf: NimbusConf) =
proc setupRpcServer(ctx: EthContext, com: CommonRef, proc setupRpcServer(ctx: EthContext, com: CommonRef,
ethNode: EthereumNode, txPool: TxPoolRef, ethNode: EthereumNode, txPool: TxPoolRef,
conf: NimbusConf): RpcServer = conf: NimbusConf, chain: ForkedChainRef): RpcServer =
let rpcServer = newRpcHttpServer([initTAddress(conf.httpAddress, conf.httpPort)]) let
let oracle = Oracle.new(com) rpcServer = newRpcHttpServer([initTAddress(conf.httpAddress, conf.httpPort)])
serverApi = newServerAPI(chain, txPool)
setupCommonRpc(ethNode, conf, rpcServer) setupCommonRpc(ethNode, conf, rpcServer)
setupEthRpc(ethNode, ctx, com, txPool, oracle, rpcServer) setupServerAPI(serverApi, rpcServer, ctx)
rpcServer.start() rpcServer.start()
rpcServer rpcServer
@ -92,7 +94,7 @@ proc setupEnv*(): TestEnv =
# so it can know the latest account state # so it can know the latest account state
doAssert txPool.smartHead(head, chainRef) doAssert txPool.smartHead(head, chainRef)
let rpcServer = setupRpcServer(ethCtx, com, ethNode, txPool, conf) let rpcServer = setupRpcServer(ethCtx, com, ethNode, txPool, conf, chainRef)
let rpcClient = newRpcHttpClient() let rpcClient = newRpcHttpClient()
waitFor rpcClient.connect("127.0.0.1", Port(8545), false) waitFor rpcClient.connect("127.0.0.1", Port(8545), false)
let stopServer = stopRpcHttpServer let stopServer = stopRpcHttpServer

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@ -14,7 +14,7 @@ participants:
el_extra_params: ["--log-level=DEBUG"] el_extra_params: ["--log-level=DEBUG"]
cl_type: nimbus cl_type: nimbus
cl_image: statusim/nimbus-eth2:multiarch-latest cl_image: statusim/nimbus-eth2:multiarch-latest
cl_extra_params: ["--log-level=DEBUG;INFO:gossip_eth2,attpool,libp2p,gossipsub,pubsubpeer,pubsub,switch,networking,sync,dialer,identify,syncman,connmanager,beacnde,lightcl,requman,gossip_lc,clearance,lpstream,mplexchannel,nodes-verification,tcptransport,chaindag,noise,eth,p2p,discv5,muxedupgrade,multistream,connection,secure,fee_recipient,mplex,syncpool,multiaddress,peer_proto;WARN:message_router"] cl_extra_params: ["--log-level=DEBUG"]
use_separate_vc: false use_separate_vc: false
additional_services: additional_services:
- tx_spammer - tx_spammer
@ -23,7 +23,7 @@ additional_services:
- blob_spammer - blob_spammer
mev_type: null mev_type: null
assertoor_params: assertoor_params:
image: "ethpandaops/assertoor:latest" image: "ethpandaops/assertoor"
run_stability_check: false run_stability_check: false
run_block_proposal_check: true run_block_proposal_check: true
run_transaction_test: true run_transaction_test: true

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@ -192,6 +192,11 @@ proc newPayload*(ben: BeaconEngineRef,
hash = blockHash, number = header.number hash = blockHash, number = header.number
let vres = ben.chain.importBlock(blk) let vres = ben.chain.importBlock(blk)
if vres.isErr: if vres.isErr:
warn "Error importing block",
number = header.number,
hash = blockHash.short,
parent = header.parentHash.short,
error = vres.error()
ben.setInvalidAncestor(header, blockHash) ben.setInvalidAncestor(header, blockHash)
let blockHash = latestValidHash(db, parent, ttd) let blockHash = latestValidHash(db, parent, ttd)
return invalidStatus(blockHash, vres.error()) return invalidStatus(blockHash, vres.error())

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@ -164,7 +164,7 @@ proc validateBlock(c: ForkedChainRef,
ok() ok()
proc replaySegment(c: ForkedChainRef, target: Hash32) = proc replaySegment*(c: ForkedChainRef, target: Hash32) =
# Replay from base+1 to target block # Replay from base+1 to target block
var var
prevHash = target prevHash = target
@ -635,9 +635,18 @@ func baseHash*(c: ForkedChainRef): Hash32 =
func txRecords*(c: ForkedChainRef, txHash: Hash32): (Hash32, uint64) = func txRecords*(c: ForkedChainRef, txHash: Hash32): (Hash32, uint64) =
c.txRecords.getOrDefault(txHash, (Hash32.default, 0'u64)) c.txRecords.getOrDefault(txHash, (Hash32.default, 0'u64))
func isInMemory*(c: ForkedChainRef, blockHash: Hash32): bool =
c.blocks.hasKey(blockHash)
func memoryBlock*(c: ForkedChainRef, blockHash: Hash32): BlockDesc = func memoryBlock*(c: ForkedChainRef, blockHash: Hash32): BlockDesc =
c.blocks.getOrDefault(blockHash) c.blocks.getOrDefault(blockHash)
func memoryTransaction*(c: ForkedChainRef, txHash: Hash32): Opt[Transaction] =
let (blockHash, index) = c.txRecords.getOrDefault(txHash, (Hash32.default, 0'u64))
c.blocks.withValue(blockHash, val) do:
return Opt.some(val.blk.transactions[index])
return Opt.none(Transaction)
proc latestBlock*(c: ForkedChainRef): Block = proc latestBlock*(c: ForkedChainRef): Block =
c.blocks.withValue(c.cursorHash, val) do: c.blocks.withValue(c.cursorHash, val) do:
return val.blk return val.blk

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@ -53,7 +53,7 @@ func installRPC(server: RpcServer,
setupCommonRpc(nimbus.ethNode, conf, server) setupCommonRpc(nimbus.ethNode, conf, server)
if RpcFlag.Eth in flags: if RpcFlag.Eth in flags:
setupServerAPI(serverApi, server) setupServerAPI(serverApi, server, nimbus.ctx)
# # Tracer is currently disabled # # Tracer is currently disabled
# if RpcFlag.Debug in flags: # if RpcFlag.Debug in flags:

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@ -1,607 +0,0 @@
# Nimbus
# Copyright (c) 2018-2024 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
# * MIT license ([LICENSE-MIT](LICENSE-MIT))
# at your option.
# This file may not be copied, modified, or distributed except according to
# those terms.
{.push raises: [].}
import
std/[sequtils, times, tables, typetraits],
json_rpc/rpcserver,
stint,
stew/byteutils,
json_serialization,
web3/conversions,
json_serialization/stew/results,
eth/common/eth_types_json_serialization,
eth/[rlp, p2p],
".."/[transaction, evm/state, constants],
../db/ledger,
./rpc_types, ./rpc_utils, ./oracle,
../transaction/call_evm,
../core/tx_pool,
../core/eip4844,
../common/[common, context],
../utils/utils,
../beacon/web3_eth_conv,
../evm/evm_errors,
./filters
type
Header = eth_types.Header
Hash32 = eth_types.Hash32
proc getProof*(
accDB: LedgerRef,
address: eth_types.Address,
slots: seq[UInt256]): ProofResponse =
let
acc = accDB.getEthAccount(address)
accExists = accDB.accountExists(address)
accountProof = accDB.getAccountProof(address)
slotProofs = accDB.getStorageProof(address, slots)
var storage = newSeqOfCap[StorageProof](slots.len)
for i, slotKey in slots:
let slotValue = accDB.getStorage(address, slotKey)
storage.add(StorageProof(
key: slotKey,
value: slotValue,
proof: seq[RlpEncodedBytes](slotProofs[i])))
if accExists:
ProofResponse(
address: address,
accountProof: seq[RlpEncodedBytes](accountProof),
balance: acc.balance,
nonce: w3Qty(acc.nonce),
codeHash: acc.codeHash,
storageHash: acc.storageRoot,
storageProof: storage)
else:
ProofResponse(
address: address,
accountProof: seq[RlpEncodedBytes](accountProof),
storageProof: storage)
proc setupEthRpc*(
node: EthereumNode, ctx: EthContext, com: CommonRef,
txPool: TxPoolRef, oracle: Oracle, server: RpcServer) =
let chainDB = com.db
proc getStateDB(header:Header): LedgerRef =
## Retrieves the account db from canonical head
# we don't use accounst_cache here because it's only read operations
LedgerRef.init(chainDB)
proc stateDBFromTag(quantityTag: BlockTag, readOnly = true): LedgerRef
{.gcsafe, raises: [CatchableError].} =
getStateDB(chainDB.headerFromTag(quantityTag))
server.rpc("eth_chainId") do() -> Web3Quantity:
return w3Qty(distinctBase(com.chainId))
server.rpc("eth_syncing") do() -> SyncingStatus:
## Returns SyncObject or false when not syncing.
if com.syncState != Waiting:
let sync = SyncObject(
startingBlock: w3Qty com.syncStart,
currentBlock : w3Qty com.syncCurrent,
highestBlock : w3Qty com.syncHighest
)
return SyncingStatus(syncing: true, syncObject: sync)
else:
return SyncingStatus(syncing: false)
server.rpc("eth_gasPrice") do() -> Web3Quantity:
## Returns an integer of the current gas price in wei.
w3Qty(calculateMedianGasPrice(chainDB).uint64)
server.rpc("eth_accounts") do() -> seq[eth_types.Address]:
## Returns a list of addresses owned by client.
result = newSeqOfCap[eth_types.Address](ctx.am.numAccounts)
for k in ctx.am.addresses:
result.add k
server.rpc("eth_blockNumber") do() -> Web3Quantity:
## Returns integer of the current block number the client is on.
w3Qty(chainDB.getCanonicalHead().number)
server.rpc("eth_getBalance") do(data: eth_types.Address, quantityTag: BlockTag) -> UInt256:
## Returns the balance of the account of given address.
##
## data: address to check for balance.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns integer of the current balance in wei.
let
accDB = stateDBFromTag(quantityTag)
address = data
accDB.getBalance(address)
server.rpc("eth_getStorageAt") do(data: eth_types.Address, slot: UInt256, quantityTag: BlockTag) -> eth_types.FixedBytes[32]:
## Returns the value from a storage position at a given address.
##
## data: address of the storage.
## slot: integer of the position in the storage.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns: the value at this storage position.
let
accDB = stateDBFromTag(quantityTag)
address = data
data = accDB.getStorage(address, slot)
data.to(Bytes32)
server.rpc("eth_getTransactionCount") do(data: eth_types.Address, quantityTag: BlockTag) -> Web3Quantity:
## Returns the number of transactions sent from an address.
##
## data: address.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns integer of the number of transactions send from this address.
let
address = data
accDB = stateDBFromTag(quantityTag)
w3Qty(accDB.getNonce(address))
server.rpc("eth_getBlockTransactionCountByHash") do(data: Hash32) -> Web3Quantity:
## Returns the number of transactions in a block from a block matching the given block hash.
##
## data: hash of a block
## Returns integer of the number of transactions in this block.
let
blockHash = data
header = chainDB.getBlockHeader(blockHash)
txCount = chainDB.getTransactionCount(header.txRoot)
Web3Quantity(txCount)
server.rpc("eth_getBlockTransactionCountByNumber") do(quantityTag: BlockTag) -> Web3Quantity:
## Returns the number of transactions in a block matching the given block number.
##
## data: integer of a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
## Returns integer of the number of transactions in this block.
let
header = chainDB.headerFromTag(quantityTag)
txCount = chainDB.getTransactionCount(header.txRoot)
Web3Quantity(txCount)
server.rpc("eth_getUncleCountByBlockHash") do(data: Hash32) -> Web3Quantity:
## Returns the number of uncles in a block from a block matching the given block hash.
##
## data: hash of a block.
## Returns integer of the number of uncles in this block.
let
blockHash = data
header = chainDB.getBlockHeader(blockHash)
unclesCount = chainDB.getUnclesCount(header.ommersHash)
Web3Quantity(unclesCount)
server.rpc("eth_getUncleCountByBlockNumber") do(quantityTag: BlockTag) -> Web3Quantity:
## Returns the number of uncles in a block from a block matching the given block number.
##
## quantityTag: integer of a block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns integer of uncles in this block.
let
header = chainDB.headerFromTag(quantityTag)
unclesCount = chainDB.getUnclesCount(header.ommersHash)
Web3Quantity(unclesCount)
server.rpc("eth_getCode") do(data: eth_types.Address, quantityTag: BlockTag) -> seq[byte]:
## Returns code at a given address.
##
## data: address
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns the code from the given address.
let
accDB = stateDBFromTag(quantityTag)
address = data
accDB.getCode(address).bytes()
template sign(privateKey: PrivateKey, message: string): seq[byte] =
# message length encoded as ASCII representation of decimal
let msgData = "\x19Ethereum Signed Message:\n" & $message.len & message
@(sign(privateKey, msgData.toBytes()).toRaw())
server.rpc("eth_sign") do(data: eth_types.Address, message: seq[byte]) -> seq[byte]:
## The sign method calculates an Ethereum specific signature with: sign(keccak256("\x19Ethereum Signed Message:\n" + len(message) + message))).
## By adding a prefix to the message makes the calculated signature recognisable as an Ethereum specific signature.
## This prevents misuse where a malicious DApp can sign arbitrary data (e.g. transaction) and use the signature to impersonate the victim.
## Note the address to sign with must be unlocked.
##
## data: address.
## message: message to sign.
## Returns signature.
let
address = data
acc = ctx.am.getAccount(address).tryGet()
if not acc.unlocked:
raise newException(ValueError, "Account locked, please unlock it first")
sign(acc.privateKey, cast[string](message))
server.rpc("eth_signTransaction") do(data: TransactionArgs) -> seq[byte]:
## Signs a transaction that can be submitted to the network at a later time using with
## eth_sendRawTransaction
let
address = data.`from`.get()
acc = ctx.am.getAccount(address).tryGet()
if not acc.unlocked:
raise newException(ValueError, "Account locked, please unlock it first")
let
accDB = stateDBFromTag(blockId("latest"))
tx = unsignedTx(data, chainDB, accDB.getNonce(address) + 1, com.chainId)
eip155 = com.isEIP155(com.syncCurrent)
signedTx = signTransaction(tx, acc.privateKey, eip155)
result = rlp.encode(signedTx)
server.rpc("eth_sendTransaction") do(data: TransactionArgs) -> Hash32:
## Creates new message call transaction or a contract creation, if the data field contains code.
##
## obj: the transaction object.
## Returns the transaction hash, or the zero hash if the transaction is not yet available.
## Note: Use eth_getTransactionReceipt to get the contract address, after the transaction was mined, when you created a contract.
let
address = data.`from`.get()
acc = ctx.am.getAccount(address).tryGet()
if not acc.unlocked:
raise newException(ValueError, "Account locked, please unlock it first")
let
accDB = stateDBFromTag(blockId("latest"))
tx = unsignedTx(data, chainDB, accDB.getNonce(address) + 1, com.chainId)
eip155 = com.isEIP155(com.syncCurrent)
signedTx = signTransaction(tx, acc.privateKey, eip155)
networkPayload =
if signedTx.txType == TxEip4844:
if data.blobs.isNone or data.commitments.isNone or data.proofs.isNone:
raise newException(ValueError, "EIP-4844 transaction needs blobs")
if data.blobs.get.len != signedTx.versionedHashes.len:
raise newException(ValueError, "Incorrect number of blobs")
if data.commitments.get.len != signedTx.versionedHashes.len:
raise newException(ValueError, "Incorrect number of commitments")
if data.proofs.get.len != signedTx.versionedHashes.len:
raise newException(ValueError, "Incorrect number of proofs")
NetworkPayload(
blobs: data.blobs.get.mapIt it.NetworkBlob,
commitments: data.commitments.get,
proofs: data.proofs.get)
else:
if data.blobs.isSome or data.commitments.isSome or data.proofs.isSome:
raise newException(ValueError, "Blobs require EIP-4844 transaction")
nil
pooledTx = PooledTransaction(tx: signedTx, networkPayload: networkPayload)
txPool.add(pooledTx)
rlpHash(signedTx)
server.rpc("eth_sendRawTransaction") do(txBytes: seq[byte]) -> Hash32:
## Creates new message call transaction or a contract creation for signed transactions.
##
## data: the signed transaction data.
## Returns the transaction hash, or the zero hash if the transaction is not yet available.
## Note: Use eth_getTransactionReceipt to get the contract address, after the transaction was mined, when you created a contract.
let
pooledTx = decodePooledTx(txBytes)
txHash = rlpHash(pooledTx)
txPool.add(pooledTx)
let res = txPool.inPoolAndReason(txHash)
if res.isErr:
raise newException(ValueError, res.error)
txHash
server.rpc("eth_call") do(args: TransactionArgs, quantityTag: BlockTag) -> seq[byte]:
## Executes a new message call immediately without creating a transaction on the block chain.
##
## call: the transaction call object.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns the return value of executed contract.
let
header = headerFromTag(chainDB, quantityTag)
res = rpcCallEvm(args, header, com).valueOr:
raise newException(ValueError, "rpcCallEvm error: " & $error.code)
res.output
server.rpc("eth_estimateGas") do(args: TransactionArgs) -> Web3Quantity:
## Generates and returns an estimate of how much gas is necessary to allow the transaction to complete.
## The transaction will not be added to the blockchain. Note that the estimate may be significantly more than
## the amount of gas actually used by the transaction, for a variety of reasons including EVM mechanics and node performance.
##
## args: the transaction call object.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns the amount of gas used.
let
header = chainDB.headerFromTag(blockId("latest"))
# TODO: DEFAULT_RPC_GAS_CAP should configurable
gasUsed = rpcEstimateGas(args, header, com, DEFAULT_RPC_GAS_CAP).valueOr:
raise newException(ValueError, "rpcEstimateGas error: " & $error.code)
w3Qty(gasUsed)
server.rpc("eth_getBlockByHash") do(data: Hash32, fullTransactions: bool) -> BlockObject:
## Returns information about a block by hash.
##
## data: Hash of a block.
## fullTransactions: If true it returns the full transaction objects, if false only the hashes of the transactions.
## Returns BlockObject or nil when no block was found.
var
header:Header
hash = data
if chainDB.getBlockHeader(hash, header):
populateBlockObject(header, chainDB, fullTransactions)
else:
nil
server.rpc("eth_getBlockByNumber") do(quantityTag: BlockTag, fullTransactions: bool) -> BlockObject:
## Returns information about a block by block number.
##
## quantityTag: integer of a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
## fullTransactions: If true it returns the full transaction objects, if false only the hashes of the transactions.
## Returns BlockObject or nil when no block was found.
try:
let header = chainDB.headerFromTag(quantityTag)
populateBlockObject(header, chainDB, fullTransactions)
except CatchableError:
nil
server.rpc("eth_getTransactionByHash") do(data: Hash32) -> TransactionObject:
## Returns the information about a transaction requested by transaction hash.
##
## data: hash of a transaction.
## Returns requested transaction information.
let txHash = data
let res = txPool.getItem(txHash)
if res.isOk:
return populateTransactionObject(res.get().tx)
let txDetails = chainDB.getTransactionKey(txHash)
if txDetails.index < 0:
return nil
let header = chainDB.getBlockHeader(txDetails.blockNumber)
var tx: Transaction
if chainDB.getTransactionByIndex(header.txRoot, uint16(txDetails.index), tx):
result = populateTransactionObject(tx, Opt.some(header), Opt.some(txDetails.index))
server.rpc("eth_getTransactionByBlockHashAndIndex") do(data: Hash32, quantity: Web3Quantity) -> TransactionObject:
## Returns information about a transaction by block hash and transaction index position.
##
## data: hash of a block.
## quantity: integer of the transaction index position.
## Returns requested transaction information.
let index = uint64(quantity)
var header:Header
if not chainDB.getBlockHeader(data, header):
return nil
var tx: Transaction
if chainDB.getTransactionByIndex(header.txRoot, uint16(index), tx):
populateTransactionObject(tx, Opt.some(header), Opt.some(index))
else:
nil
server.rpc("eth_getTransactionByBlockNumberAndIndex") do(quantityTag: BlockTag, quantity: Web3Quantity) -> TransactionObject:
## Returns information about a transaction by block number and transaction index position.
##
## quantityTag: a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
## quantity: the transaction index position.
let
header = chainDB.headerFromTag(quantityTag)
index = uint64(quantity)
var tx: Transaction
if chainDB.getTransactionByIndex(header.txRoot, uint16(index), tx):
populateTransactionObject(tx, Opt.some(header), Opt.some(index))
else:
nil
server.rpc("eth_getTransactionReceipt") do(data: Hash32) -> ReceiptObject:
## Returns the receipt of a transaction by transaction hash.
##
## data: hash of a transaction.
## Returns transaction receipt.
let txDetails = chainDB.getTransactionKey(data)
if txDetails.index < 0:
return nil
let header = chainDB.getBlockHeader(txDetails.blockNumber)
var tx: Transaction
if not chainDB.getTransactionByIndex(header.txRoot, uint16(txDetails.index), tx):
return nil
var
idx = 0'u64
prevGasUsed = GasInt(0)
for receipt in chainDB.getReceipts(header.receiptsRoot):
let gasUsed = receipt.cumulativeGasUsed - prevGasUsed
prevGasUsed = receipt.cumulativeGasUsed
if idx == txDetails.index:
return populateReceipt(receipt, gasUsed, tx, txDetails.index, header)
idx.inc
server.rpc("eth_getUncleByBlockHashAndIndex") do(data: Hash32, quantity: Web3Quantity) -> BlockObject:
## Returns information about a uncle of a block by hash and uncle index position.
##
## data: hash of block.
## quantity: the uncle's index position.
## Returns BlockObject or nil when no block was found.
let index = uint64(quantity)
var header:Header
if not chainDB.getBlockHeader(data, header):
return nil
let uncles = chainDB.getUncles(header.ommersHash)
if index < 0 or index >= uncles.len.uint64:
return nil
result = populateBlockObject(uncles[index], chainDB, false, true)
result.totalDifficulty = chainDB.getScore(header.blockHash).valueOr(0.u256)
server.rpc("eth_getUncleByBlockNumberAndIndex") do(quantityTag: BlockTag, quantity: Web3Quantity) -> BlockObject:
# Returns information about a uncle of a block by number and uncle index position.
##
## quantityTag: a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
## quantity: the uncle's index position.
## Returns BlockObject or nil when no block was found.
let
index = uint64(quantity)
header = chainDB.headerFromTag(quantityTag)
uncles = chainDB.getUncles(header.ommersHash)
if index < 0 or index >= uncles.len.uint64:
return nil
result = populateBlockObject(uncles[index], chainDB, false, true)
result.totalDifficulty = chainDB.getScore(header.blockHash).valueOr(0.u256)
proc getLogsForBlock(
chain: CoreDbRef,
hash: Hash32,
header:Header,
opts: FilterOptions): seq[FilterLog]
{.gcsafe, raises: [RlpError,BlockNotFound].} =
if headerBloomFilter(header, opts.address, opts.topics):
let blockBody = chain.getBlockBody(hash)
let receipts = chain.getReceipts(header.receiptsRoot)
# Note: this will hit assertion error if number of block transactions
# do not match block receipts.
# Although this is fine as number of receipts should always match number
# of transactions
let logs = deriveLogs(header, blockBody.transactions, receipts)
let filteredLogs = filterLogs(logs, opts.address, opts.topics)
return filteredLogs
else:
return @[]
proc getLogsForRange(
chain: CoreDbRef,
start: common.BlockNumber,
finish: common.BlockNumber,
opts: FilterOptions): seq[FilterLog]
{.gcsafe, raises: [RlpError,BlockNotFound].} =
var logs = newSeq[FilterLog]()
var i = start
while i <= finish:
let res = chain.getBlockHeaderWithHash(i)
if res.isSome():
let (hash, header)= res.unsafeGet()
let filtered = chain.getLogsForBlock(header, hash, opts)
logs.add(filtered)
else:
#
return logs
i = i + 1
return logs
server.rpc("eth_getLogs") do(filterOptions: FilterOptions) -> seq[FilterLog]:
## filterOptions: settings for this filter.
## Returns a list of all logs matching a given filter object.
## TODO: Current implementation is pretty naive and not efficient
## as it requires to fetch all transactions and all receipts from database.
## Other clients (Geth):
## - Store logs related data in receipts.
## - Have separate indexes for Logs in given block
## Both of those changes require improvements to the way how we keep our data
## in Nimbus.
if filterOptions.blockHash.isSome():
let hash = filterOptions.blockHash.unsafeGet()
let header = chainDB.getBlockHeader(hash)
return getLogsForBlock(chainDB, hash, header, filterOptions)
else:
# TODO: do something smarter with tags. It would be the best if
# tag would be an enum (Earliest, Latest, Pending, Number), and all operations
# would operate on this enum instead of raw strings. This change would need
# to be done on every endpoint to be consistent.
let fromHeader = chainDB.headerFromTag(filterOptions.fromBlock)
let toHeader = chainDB.headerFromTag(filterOptions.toBlock)
# Note: if fromHeader.number > toHeader.number, no logs will be
# returned. This is consistent with, what other ethereum clients return
let logs = chainDB.getLogsForRange(
fromHeader.number,
toHeader.number,
filterOptions
)
return logs
server.rpc("eth_getProof") do(data: eth_types.Address, slots: seq[UInt256], quantityTag: BlockTag) -> ProofResponse:
## Returns information about an account and storage slots (if the account is a contract
## and the slots are requested) along with account and storage proofs which prove the
## existence of the values in the state.
## See spec here: https://eips.ethereum.org/EIPS/eip-1186
##
## data: address of the account.
## slots: integers of the positions in the storage to return with storage proofs.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns: the proof response containing the account, account proof and storage proof
let
accDB = stateDBFromTag(quantityTag)
address = data
getProof(accDB, address, slots)
server.rpc("eth_getBlockReceipts") do(quantityTag: BlockTag) -> Opt[seq[ReceiptObject]]:
## Returns the receipts of a block.
try:
let header = chainDB.headerFromTag(quantityTag)
var
prevGasUsed = GasInt(0)
recs: seq[ReceiptObject]
txs: seq[Transaction]
index = 0'u64
for tx in chainDB.getBlockTransactions(header):
txs.add tx
for receipt in chainDB.getReceipts(header.receiptsRoot):
let gasUsed = receipt.cumulativeGasUsed - prevGasUsed
prevGasUsed = receipt.cumulativeGasUsed
recs.add populateReceipt(receipt, gasUsed, txs[index], index, header)
inc index
return Opt.some(recs)
except CatchableError:
return Opt.none(seq[ReceiptObject])
server.rpc("eth_createAccessList") do(args: TransactionArgs, quantityTag: BlockTag) -> AccessListResult:
## Generates an access list for a transaction.
try:
let
header = chainDB.headerFromTag(quantityTag)
return createAccessList(header, com, args)
except CatchableError as exc:
return AccessListResult(
error: Opt.some("createAccessList error: " & exc.msg),
)
server.rpc("eth_blobBaseFee") do() -> Web3Quantity:
## Returns the base fee per blob gas in wei.
let header = chainDB.headerFromTag(blockId("latest"))
if header.blobGasUsed.isNone:
raise newException(ValueError, "blobGasUsed missing from latest header")
if header.excessBlobGas.isNone:
raise newException(ValueError, "excessBlobGas missing from latest header")
let blobBaseFee = getBlobBaseFee(header.excessBlobGas.get) * header.blobGasUsed.get.u256
if blobBaseFee > high(uint64).u256:
raise newException(ValueError, "blobBaseFee is bigger than uint64.max")
return w3Qty blobBaseFee.truncate(uint64)
server.rpc("eth_feeHistory") do(blockCount: Quantity,
newestBlock: BlockTag,
rewardPercentiles: Opt[seq[float64]]) -> FeeHistoryResult:
let
blocks = blockCount.uint64
percentiles = rewardPercentiles.get(newSeq[float64]())
res = feeHistory(oracle, blocks, newestBlock, percentiles)
if res.isErr:
raise newException(ValueError, res.error)
return res.get

View File

@ -10,7 +10,7 @@
{.push raises: [].} {.push raises: [].}
import import
std/[strutils, algorithm], std/[sequtils, algorithm],
./rpc_types, ./rpc_types,
./params, ./params,
../db/core_db, ../db/core_db,
@ -29,37 +29,6 @@ import
../common/common, ../common/common,
web3/eth_api_types web3/eth_api_types
const
defaultTag = blockId("latest")
proc headerFromTag*(chain: CoreDbRef, blockId: BlockTag): Header
{.gcsafe, raises: [CatchableError].} =
if blockId.kind == bidAlias:
let tag = blockId.alias.toLowerAscii
case tag
of "latest": result = chain.getCanonicalHead()
of "earliest": result = chain.getBlockHeader(GENESIS_BLOCK_NUMBER)
of "safe": result = chain.safeHeader()
of "finalized": result = chain.finalizedHeader()
of "pending":
#TODO: Implement get pending block
# We currently fall back to `latest` so that the `tx-spammer` in
# `ethpandaops/ethereum-package` can make progress. A real
# implementation is still required that takes into account any
# pending transactions that have not yet been bundled into a block.
result = chain.getCanonicalHead()
else:
raise newException(ValueError, "Unsupported block tag " & tag)
else:
let blockNum = blockId.number.uint64
result = chain.getBlockHeader(blockNum)
proc headerFromTag*(chain: CoreDbRef, blockTag: Opt[BlockTag]): Header
{.gcsafe, raises: [CatchableError].} =
let blockId = blockTag.get(defaultTag)
chain.headerFromTag(blockId)
proc calculateMedianGasPrice*(chain: CoreDbRef): GasInt proc calculateMedianGasPrice*(chain: CoreDbRef): GasInt
{.gcsafe, raises: [CatchableError].} = {.gcsafe, raises: [CatchableError].} =
var prices = newSeqOfCap[GasInt](64) var prices = newSeqOfCap[GasInt](64)
@ -90,31 +59,36 @@ proc calculateMedianGasPrice*(chain: CoreDbRef): GasInt
proc unsignedTx*(tx: TransactionArgs, chain: CoreDbRef, defaultNonce: AccountNonce, chainId: ChainId): Transaction proc unsignedTx*(tx: TransactionArgs, chain: CoreDbRef, defaultNonce: AccountNonce, chainId: ChainId): Transaction
{.gcsafe, raises: [CatchableError].} = {.gcsafe, raises: [CatchableError].} =
var res: Transaction
if tx.to.isSome: if tx.to.isSome:
result.to = Opt.some(tx.to.get) res.to = Opt.some(tx.to.get)
if tx.gas.isSome: if tx.gas.isSome:
result.gasLimit = tx.gas.get.GasInt res.gasLimit = tx.gas.get.GasInt
else: else:
result.gasLimit = 90000.GasInt res.gasLimit = 90000.GasInt
if tx.gasPrice.isSome: if tx.gasPrice.isSome:
result.gasPrice = tx.gasPrice.get.GasInt res.gasPrice = tx.gasPrice.get.GasInt
else: else:
result.gasPrice = calculateMedianGasPrice(chain) res.gasPrice = calculateMedianGasPrice(chain)
if tx.value.isSome: if tx.value.isSome:
result.value = tx.value.get res.value = tx.value.get
else: else:
result.value = 0.u256 res.value = 0.u256
if tx.nonce.isSome: if tx.nonce.isSome:
result.nonce = tx.nonce.get.AccountNonce res.nonce = tx.nonce.get.AccountNonce
else: else:
result.nonce = defaultNonce res.nonce = defaultNonce
result.payload = tx.payload res.payload = tx.payload
result.chainId = chainId res.chainId = chainId
return res
proc toWd(wd: Withdrawal): WithdrawalObject = proc toWd(wd: Withdrawal): WithdrawalObject =
WithdrawalObject( WithdrawalObject(
@ -125,116 +99,123 @@ proc toWd(wd: Withdrawal): WithdrawalObject =
) )
proc toWdList(list: openArray[Withdrawal]): seq[WithdrawalObject] = proc toWdList(list: openArray[Withdrawal]): seq[WithdrawalObject] =
result = newSeqOfCap[WithdrawalObject](list.len) var res = newSeqOfCap[WithdrawalObject](list.len)
for x in list: for x in list:
result.add toWd(x) res.add toWd(x)
return res
func toWdList(x: Opt[seq[eth_types.Withdrawal]]):
Opt[seq[WithdrawalObject]] =
if x.isNone: Opt.none(seq[WithdrawalObject])
else: Opt.some(toWdList x.get)
proc populateTransactionObject*(tx: Transaction, proc populateTransactionObject*(tx: Transaction,
optionalHeader: Opt[Header] = Opt.none(Header), optionalHash: Opt[eth_types.Hash32] = Opt.none(eth_types.Hash32),
optionalNumber: Opt[eth_types.BlockNumber] = Opt.none(eth_types.BlockNumber),
txIndex: Opt[uint64] = Opt.none(uint64)): TransactionObject = txIndex: Opt[uint64] = Opt.none(uint64)): TransactionObject =
result = TransactionObject() var res = TransactionObject()
result.`type` = Opt.some Quantity(tx.txType) res.`type` = Opt.some Quantity(tx.txType)
if optionalHeader.isSome: res.blockHash = optionalHash
let header = optionalHeader.get res.blockNumber = w3Qty(optionalNumber)
result.blockHash = Opt.some(header.blockHash)
result.blockNumber = Opt.some(Quantity(header.number))
if (let sender = tx.recoverSender(); sender.isOk): if (let sender = tx.recoverSender(); sender.isOk):
result.`from` = sender[] res.`from` = sender[]
result.gas = Quantity(tx.gasLimit) res.gas = Quantity(tx.gasLimit)
result.gasPrice = Quantity(tx.gasPrice) res.gasPrice = Quantity(tx.gasPrice)
result.hash = tx.rlpHash res.hash = tx.rlpHash
result.input = tx.payload res.input = tx.payload
result.nonce = Quantity(tx.nonce) res.nonce = Quantity(tx.nonce)
result.to = Opt.some(tx.destination) res.to = Opt.some(tx.destination)
if txIndex.isSome: if txIndex.isSome:
result.transactionIndex = Opt.some(Quantity(txIndex.get)) res.transactionIndex = Opt.some(Quantity(txIndex.get))
result.value = tx.value res.value = tx.value
result.v = Quantity(tx.V) res.v = Quantity(tx.V)
result.r = tx.R res.r = tx.R
result.s = tx.S res.s = tx.S
result.maxFeePerGas = Opt.some Quantity(tx.maxFeePerGas) res.maxFeePerGas = Opt.some Quantity(tx.maxFeePerGas)
result.maxPriorityFeePerGas = Opt.some Quantity(tx.maxPriorityFeePerGas) res.maxPriorityFeePerGas = Opt.some Quantity(tx.maxPriorityFeePerGas)
if tx.txType >= TxEip2930: if tx.txType >= TxEip2930:
result.chainId = Opt.some(Quantity(tx.chainId)) res.chainId = Opt.some(Quantity(tx.chainId))
result.accessList = Opt.some(tx.accessList) res.accessList = Opt.some(tx.accessList)
if tx.txType >= TxEip4844: if tx.txType >= TxEip4844:
result.maxFeePerBlobGas = Opt.some(tx.maxFeePerBlobGas) res.maxFeePerBlobGas = Opt.some(tx.maxFeePerBlobGas)
result.blobVersionedHashes = Opt.some(tx.versionedHashes) res.blobVersionedHashes = Opt.some(tx.versionedHashes)
proc populateBlockObject*(header: Header, chain: CoreDbRef, fullTx: bool, isUncle = false): BlockObject return res
{.gcsafe, raises: [RlpError].} =
let blockHash = header.blockHash
result = BlockObject()
result.number = Quantity(header.number) proc populateBlockObject*(blockHash: Hash32,
result.hash = blockHash blk: Block,
result.parentHash = header.parentHash totalDifficulty: UInt256,
result.nonce = Opt.some(FixedBytes[8] header.nonce) fullTx: bool,
result.sha3Uncles = header.ommersHash isUncle = false): BlockObject =
result.logsBloom = FixedBytes[256] header.logsBloom template header: auto = blk.header
result.transactionsRoot = header.txRoot
result.stateRoot = header.stateRoot var res = BlockObject()
result.receiptsRoot = header.receiptsRoot res.number = Quantity(header.number)
result.miner = header.coinbase res.hash = blockHash
result.difficulty = header.difficulty res.parentHash = header.parentHash
result.extraData = HistoricExtraData header.extraData res.nonce = Opt.some(header.nonce)
result.mixHash = Hash32 header.mixHash res.sha3Uncles = header.ommersHash
res.logsBloom = header.logsBloom
res.transactionsRoot = header.txRoot
res.stateRoot = header.stateRoot
res.receiptsRoot = header.receiptsRoot
res.miner = header.coinbase
res.difficulty = header.difficulty
res.extraData = HistoricExtraData header.extraData
res.mixHash = Hash32 header.mixHash
# discard sizeof(seq[byte]) of extraData and use actual length # discard sizeof(seq[byte]) of extraData and use actual length
let size = sizeof(Header) - sizeof(seq[byte]) + header.extraData.len let size = sizeof(Header) - sizeof(seq[byte]) + header.extraData.len
result.size = Quantity(size) res.size = Quantity(size)
result.gasLimit = Quantity(header.gasLimit) res.gasLimit = Quantity(header.gasLimit)
result.gasUsed = Quantity(header.gasUsed) res.gasUsed = Quantity(header.gasUsed)
result.timestamp = Quantity(header.timestamp) res.timestamp = Quantity(header.timestamp)
result.baseFeePerGas = header.baseFeePerGas res.baseFeePerGas = header.baseFeePerGas
res.totalDifficulty = totalDifficulty
if not isUncle: if not isUncle:
result.totalDifficulty = chain.getScore(blockHash).valueOr(0.u256) res.uncles = blk.uncles.mapIt(it.blockHash)
result.uncles = chain.getUncleHashes(header)
if fullTx: if fullTx:
var i = 0'u64 for i, tx in blk.transactions:
for tx in chain.getBlockTransactions(header): let txObj = populateTransactionObject(tx,
result.transactions.add txOrHash(populateTransactionObject(tx, Opt.some(header), Opt.some(i))) Opt.some(blockHash),
inc i Opt.some(header.number), Opt.some(i.uint64))
res.transactions.add txOrHash(txObj)
else: else:
for x in chain.getBlockTransactionHashes(header): for i, tx in blk.transactions:
result.transactions.add txOrHash(x) let txHash = rlpHash(tx)
res.transactions.add txOrHash(txHash)
if header.withdrawalsRoot.isSome: res.withdrawalsRoot = header.withdrawalsRoot
result.withdrawalsRoot = Opt.some(header.withdrawalsRoot.get) res.withdrawals = toWdList blk.withdrawals
result.withdrawals = Opt.some(toWdList(chain.getWithdrawals(header.withdrawalsRoot.get))) res.parentBeaconBlockRoot = header.parentBeaconBlockRoot
res.blobGasUsed = w3Qty(header.blobGasUsed)
res.excessBlobGas = w3Qty(header.excessBlobGas)
if header.blobGasUsed.isSome: return res
result.blobGasUsed = Opt.some(Quantity(header.blobGasUsed.get))
if header.excessBlobGas.isSome:
result.excessBlobGas = Opt.some(Quantity(header.excessBlobGas.get))
if header.parentBeaconBlockRoot.isSome:
result.parentBeaconBlockRoot = Opt.some(header.parentBeaconBlockRoot.get)
proc populateReceipt*(receipt: Receipt, gasUsed: GasInt, tx: Transaction, proc populateReceipt*(receipt: Receipt, gasUsed: GasInt, tx: Transaction,
txIndex: uint64, header: Header): ReceiptObject = txIndex: uint64, header: Header): ReceiptObject =
let sender = tx.recoverSender() let sender = tx.recoverSender()
result = ReceiptObject() var res = ReceiptObject()
result.transactionHash = tx.rlpHash res.transactionHash = tx.rlpHash
result.transactionIndex = Quantity(txIndex) res.transactionIndex = Quantity(txIndex)
result.blockHash = header.blockHash res.blockHash = header.blockHash
result.blockNumber = Quantity(header.number) res.blockNumber = Quantity(header.number)
if sender.isSome(): if sender.isSome():
result.`from` = sender.get() res.`from` = sender.get()
result.to = Opt.some(tx.destination) res.to = Opt.some(tx.destination)
result.cumulativeGasUsed = Quantity(receipt.cumulativeGasUsed) res.cumulativeGasUsed = Quantity(receipt.cumulativeGasUsed)
result.gasUsed = Quantity(gasUsed) res.gasUsed = Quantity(gasUsed)
result.`type` = Opt.some Quantity(receipt.receiptType) res.`type` = Opt.some Quantity(receipt.receiptType)
if tx.contractCreation and sender.isSome: if tx.contractCreation and sender.isSome:
result.contractAddress = Opt.some(tx.creationAddress(sender[])) res.contractAddress = Opt.some(tx.creationAddress(sender[]))
for log in receipt.logs: for log in receipt.logs:
# TODO: Work everywhere with either `Hash32` as topic or `array[32, byte]` # TODO: Work everywhere with either `Hash32` as topic or `array[32, byte]`
@ -246,36 +227,38 @@ proc populateReceipt*(receipt: Receipt, gasUsed: GasInt, tx: Transaction,
removed: false, removed: false,
# TODO: Not sure what is difference between logIndex and TxIndex and how # TODO: Not sure what is difference between logIndex and TxIndex and how
# to calculate it. # to calculate it.
logIndex: Opt.some(result.transactionIndex), logIndex: Opt.some(res.transactionIndex),
# Note: the next 4 fields cause a lot of duplication of data, but the spec # Note: the next 4 fields cause a lot of duplication of data, but the spec
# is what it is. Not sure if other clients actually add this. # is what it is. Not sure if other clients actually add this.
transactionIndex: Opt.some(result.transactionIndex), transactionIndex: Opt.some(res.transactionIndex),
transactionHash: Opt.some(result.transactionHash), transactionHash: Opt.some(res.transactionHash),
blockHash: Opt.some(result.blockHash), blockHash: Opt.some(res.blockHash),
blockNumber: Opt.some(result.blockNumber), blockNumber: Opt.some(res.blockNumber),
# The actual fields # The actual fields
address: log.address, address: log.address,
data: log.data, data: log.data,
topics: topics topics: topics
) )
result.logs.add(logObject) res.logs.add(logObject)
result.logsBloom = FixedBytes[256] receipt.logsBloom res.logsBloom = FixedBytes[256] receipt.logsBloom
# post-transaction stateroot (pre Byzantium). # post-transaction stateroot (pre Byzantium).
if receipt.hasStateRoot: if receipt.hasStateRoot:
result.root = Opt.some(receipt.stateRoot) res.root = Opt.some(receipt.stateRoot)
else: else:
# 1 = success, 0 = failure. # 1 = success, 0 = failure.
result.status = Opt.some(Quantity(receipt.status.uint64)) res.status = Opt.some(Quantity(receipt.status.uint64))
let baseFeePerGas = header.baseFeePerGas.get(0.u256) let baseFeePerGas = header.baseFeePerGas.get(0.u256)
let normTx = eip1559TxNormalization(tx, baseFeePerGas.truncate(GasInt)) let normTx = eip1559TxNormalization(tx, baseFeePerGas.truncate(GasInt))
result.effectiveGasPrice = Quantity(normTx.gasPrice) res.effectiveGasPrice = Quantity(normTx.gasPrice)
if tx.txType == TxEip4844: if tx.txType == TxEip4844:
result.blobGasUsed = Opt.some(Quantity(tx.versionedHashes.len.uint64 * GAS_PER_BLOB.uint64)) res.blobGasUsed = Opt.some(Quantity(tx.versionedHashes.len.uint64 * GAS_PER_BLOB.uint64))
result.blobGasPrice = Opt.some(getBlobBaseFee(header.excessBlobGas.get(0'u64))) res.blobGasPrice = Opt.some(getBlobBaseFee(header.excessBlobGas.get(0'u64)))
return res
proc createAccessList*(header: Header, proc createAccessList*(header: Header,
com: CommonRef, com: CommonRef,

View File

@ -10,9 +10,12 @@
{.push raises: [].} {.push raises: [].}
import import
chronicles,
std/[sequtils, strutils],
stint, stint,
web3/[conversions, eth_api_types], web3/[conversions, eth_api_types],
eth/common/base, eth/common/base,
stew/byteutils,
../common/common, ../common/common,
json_rpc/rpcserver, json_rpc/rpcserver,
../db/ledger, ../db/ledger,
@ -22,32 +25,70 @@ import
../transaction, ../transaction,
../transaction/call_evm, ../transaction/call_evm,
../evm/evm_errors, ../evm/evm_errors,
../core/eip4844,
./rpc_types, ./rpc_types,
./rpc_utils, ./rpc_utils,
./filters, ./filters
./server_api_helpers
type type ServerAPIRef* = ref object
ServerAPIRef* = ref object
com: CommonRef com: CommonRef
chain: ForkedChainRef chain: ForkedChainRef
txPool: TxPoolRef txPool: TxPoolRef
const const defaultTag = blockId("latest")
defaultTag = blockId("latest")
func newServerAPI*(c: ForkedChainRef, t: TxPoolRef): ServerAPIRef = func newServerAPI*(c: ForkedChainRef, t: TxPoolRef): ServerAPIRef =
ServerAPIRef( ServerAPIRef(com: c.com, chain: c, txPool: t)
com: c.com,
chain: c, proc getTotalDifficulty*(api: ServerAPIRef, blockHash: Hash32): UInt256 =
txPool: t var totalDifficulty: UInt256
if api.com.db.getTd(blockHash, totalDifficulty):
return totalDifficulty
else:
return api.com.db.headTotalDifficulty()
proc getProof*(
accDB: LedgerRef, address: eth_types.Address, slots: seq[UInt256]
): ProofResponse =
let
acc = accDB.getEthAccount(address)
accExists = accDB.accountExists(address)
accountProof = accDB.getAccountProof(address)
slotProofs = accDB.getStorageProof(address, slots)
var storage = newSeqOfCap[StorageProof](slots.len)
for i, slotKey in slots:
let slotValue = accDB.getStorage(address, slotKey)
storage.add(
StorageProof(
key: slotKey, value: slotValue, proof: seq[RlpEncodedBytes](slotProofs[i])
)
)
if accExists:
ProofResponse(
address: address,
accountProof: seq[RlpEncodedBytes](accountProof),
balance: acc.balance,
nonce: w3Qty(acc.nonce),
codeHash: acc.codeHash,
storageHash: acc.storageRoot,
storageProof: storage,
)
else:
ProofResponse(
address: address,
accountProof: seq[RlpEncodedBytes](accountProof),
storageProof: storage,
) )
proc headerFromTag(api: ServerAPIRef, blockTag: BlockTag): Result[Header, string] = proc headerFromTag(api: ServerAPIRef, blockTag: BlockTag): Result[Header, string] =
if blockTag.kind == bidAlias: if blockTag.kind == bidAlias:
let tag = blockTag.alias.toLowerAscii let tag = blockTag.alias.toLowerAscii
case tag case tag
of "latest": return ok(api.chain.latestHeader) of "latest":
return ok(api.chain.latestHeader)
else: else:
return err("Unsupported block tag " & tag) return err("Unsupported block tag " & tag)
else: else:
@ -78,7 +119,7 @@ proc blockFromTag(api: ServerAPIRef, blockTag: BlockTag): Result[Block, string]
let blockNum = base.BlockNumber blockTag.number let blockNum = base.BlockNumber blockTag.number
return api.chain.blockByNumber(blockNum) return api.chain.blockByNumber(blockNum)
proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) = proc setupServerAPI*(api: ServerAPIRef, server: RpcServer, ctx: EthContext) =
server.rpc("eth_getBalance") do(data: Address, blockTag: BlockTag) -> UInt256: server.rpc("eth_getBalance") do(data: Address, blockTag: BlockTag) -> UInt256:
## Returns the balance of the account of given address. ## Returns the balance of the account of given address.
let let
@ -87,7 +128,9 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
address = data address = data
ledger.getBalance(address) ledger.getBalance(address)
server.rpc("eth_getStorageAt") do(data: Address, slot: UInt256, blockTag: BlockTag) -> FixedBytes[32]: server.rpc("eth_getStorageAt") do(
data: Address, slot: UInt256, blockTag: BlockTag
) -> FixedBytes[32]:
## Returns the value from a storage position at a given address. ## Returns the value from a storage position at a given address.
let let
ledger = api.ledgerFromTag(blockTag).valueOr: ledger = api.ledgerFromTag(blockTag).valueOr:
@ -96,7 +139,9 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
value = ledger.getStorage(address, slot) value = ledger.getStorage(address, slot)
value.to(Bytes32) value.to(Bytes32)
server.rpc("eth_getTransactionCount") do(data: Address, blockTag: BlockTag) -> Web3Quantity: server.rpc("eth_getTransactionCount") do(
data: Address, blockTag: BlockTag
) -> Web3Quantity:
## Returns the number of transactions ak.s. nonce sent from an address. ## Returns the number of transactions ak.s. nonce sent from an address.
let let
ledger = api.ledgerFromTag(blockTag).valueOr: ledger = api.ledgerFromTag(blockTag).valueOr:
@ -124,7 +169,9 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
address = data address = data
ledger.getCode(address).bytes() ledger.getCode(address).bytes()
server.rpc("eth_getBlockByHash") do(data: Hash32, fullTransactions: bool) -> BlockObject: server.rpc("eth_getBlockByHash") do(
data: Hash32, fullTransactions: bool
) -> BlockObject:
## Returns information about a block by hash. ## Returns information about a block by hash.
## ##
## data: Hash of a block. ## data: Hash of a block.
@ -135,9 +182,13 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
let blk = api.chain.blockByHash(blockHash).valueOr: let blk = api.chain.blockByHash(blockHash).valueOr:
return nil return nil
return populateBlockObject(blockHash, blk, fullTransactions) return populateBlockObject(
blockHash, blk, api.getTotalDifficulty(blockHash), fullTransactions
)
server.rpc("eth_getBlockByNumber") do(blockTag: BlockTag, fullTransactions: bool) -> BlockObject: server.rpc("eth_getBlockByNumber") do(
blockTag: BlockTag, fullTransactions: bool
) -> BlockObject:
## Returns information about a block by block number. ## Returns information about a block by block number.
## ##
## blockTag: integer of a block number, or the string "earliest", "latest" or "pending", as in the default block parameter. ## blockTag: integer of a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
@ -147,29 +198,35 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
return nil return nil
let blockHash = blk.header.blockHash let blockHash = blk.header.blockHash
return populateBlockObject(blockHash, blk, fullTransactions) return populateBlockObject(
blockHash, blk, api.getTotalDifficulty(blockHash), fullTransactions
)
server.rpc("eth_syncing") do() -> SyncingStatus: server.rpc("eth_syncing") do() -> SyncingStatus:
## Returns SyncObject or false when not syncing. ## Returns SyncObject or false when not syncing.
if api.com.syncState != Waiting: if api.com.syncState != Waiting:
let sync = SyncObject( let sync = SyncObject(
startingBlock: Quantity(api.com.syncStart), startingBlock: Quantity(api.com.syncStart),
currentBlock : Quantity(api.com.syncCurrent), currentBlock: Quantity(api.com.syncCurrent),
highestBlock : Quantity(api.com.syncHighest) highestBlock: Quantity(api.com.syncHighest),
) )
return SyncingStatus(syncing: true, syncObject: sync) return SyncingStatus(syncing: true, syncObject: sync)
else: else:
return SyncingStatus(syncing: false) return SyncingStatus(syncing: false)
proc getLogsForBlock( proc getLogsForBlock(
chain: ForkedChainRef, chain: ForkedChainRef, header: Header, opts: FilterOptions
header: Header, ): seq[FilterLog] {.gcsafe, raises: [RlpError].} =
opts: FilterOptions): seq[FilterLog]
{.gcsafe, raises: [RlpError].} =
if headerBloomFilter(header, opts.address, opts.topics): if headerBloomFilter(header, opts.address, opts.topics):
let let (receipts, txs) =
receipts = chain.db.getReceipts(header.receiptsRoot) if api.chain.isInMemory(header.blockHash):
txs = chain.db.getTransactions(header.txRoot) let blk = api.chain.memoryBlock(header.blockHash)
(blk.receipts, blk.blk.transactions)
else:
(
chain.db.getReceipts(header.receiptsRoot),
chain.db.getTransactions(header.txRoot),
)
# Note: this will hit assertion error if number of block transactions # Note: this will hit assertion error if number of block transactions
# do not match block receipts. # do not match block receipts.
# Although this is fine as number of receipts should always match number # Although this is fine as number of receipts should always match number
@ -184,8 +241,8 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
chain: ForkedChainRef, chain: ForkedChainRef,
start: base.BlockNumber, start: base.BlockNumber,
finish: base.BlockNumber, finish: base.BlockNumber,
opts: FilterOptions): seq[FilterLog] opts: FilterOptions,
{.gcsafe, raises: [RlpError].} = ): seq[FilterLog] {.gcsafe, raises: [RlpError].} =
var var
logs = newSeq[FilterLog]() logs = newSeq[FilterLog]()
blockNum = start blockNum = start
@ -228,11 +285,7 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
# Note: if fromHeader.number > toHeader.number, no logs will be # Note: if fromHeader.number > toHeader.number, no logs will be
# returned. This is consistent with, what other ethereum clients return # returned. This is consistent with, what other ethereum clients return
return api.chain.getLogsForRange( return api.chain.getLogsForRange(blockFrom.number, blockTo.number, filterOptions)
blockFrom.number,
blockTo.number,
filterOptions
)
server.rpc("eth_sendRawTransaction") do(txBytes: seq[byte]) -> Hash32: server.rpc("eth_sendRawTransaction") do(txBytes: seq[byte]) -> Hash32:
## Creates new message call transaction or a contract creation for signed transactions. ## Creates new message call transaction or a contract creation for signed transactions.
@ -278,14 +331,16 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
if blockhash == zeroHash32: if blockhash == zeroHash32:
# Receipt in database # Receipt in database
let txDetails = api.chain.db.getTransactionKey(txHash) let txDetails = api.chain.db.getTransactionKey(data)
if txDetails.index < 0: if txDetails.index < 0:
return nil return nil
let header = api.chain.headerByNumber(txDetails.blockNumber).valueOr: let header = api.chain.headerByNumber(txDetails.blockNumber).valueOr:
raise newException(ValueError, "Block not found") raise newException(ValueError, "Block not found")
var tx: Transaction var tx: Transaction
if not api.chain.db.getTransactionByIndex(header.txRoot, uint16(txDetails.index), tx): if not api.chain.db.getTransactionByIndex(
header.txRoot, uint16(txDetails.index), tx
):
return nil return nil
for receipt in api.chain.db.getReceipts(header.receiptsRoot): for receipt in api.chain.db.getReceipts(header.receiptsRoot):
@ -304,7 +359,9 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
prevGasUsed = receipt.cumulativeGasUsed prevGasUsed = receipt.cumulativeGasUsed
if txid == idx: if txid == idx:
return populateReceipt(receipt, gasUsed, blkdesc.blk.transactions[txid], txid, blkdesc.blk.header) return populateReceipt(
receipt, gasUsed, blkdesc.blk.transactions[txid], txid, blkdesc.blk.header
)
idx.inc idx.inc
@ -319,6 +376,334 @@ proc setupServerAPI*(api: ServerAPIRef, server: RpcServer) =
let let
header = api.headerFromTag(blockId("latest")).valueOr: header = api.headerFromTag(blockId("latest")).valueOr:
raise newException(ValueError, "Block not found") raise newException(ValueError, "Block not found")
#TODO: change 0 to configureable gas cap
gasUsed = rpcEstimateGas(args, header, api.chain.com, DEFAULT_RPC_GAS_CAP).valueOr: gasUsed = rpcEstimateGas(args, header, api.chain.com, DEFAULT_RPC_GAS_CAP).valueOr:
raise newException(ValueError, "rpcEstimateGas error: " & $error.code) raise newException(ValueError, "rpcEstimateGas error: " & $error.code)
Quantity(gasUsed) Quantity(gasUsed)
server.rpc("eth_gasPrice") do() -> Web3Quantity:
## Returns an integer of the current gas price in wei.
w3Qty(calculateMedianGasPrice(api.com.db).uint64)
server.rpc("eth_accounts") do() -> seq[eth_types.Address]:
## Returns a list of addresses owned by client.
result = newSeqOfCap[eth_types.Address](ctx.am.numAccounts)
for k in ctx.am.addresses:
result.add k
server.rpc("eth_getBlockTransactionCountByHash") do(data: Hash32) -> Web3Quantity:
## Returns the number of transactions in a block from a block matching the given block hash.
##
## data: hash of a block
## Returns integer of the number of transactions in this block.
let blk = api.chain.blockByHash(data).valueOr:
raise newException(ValueError, "Block not found")
Web3Quantity(blk.transactions.len)
server.rpc("eth_getBlockTransactionCountByNumber") do(
blockTag: BlockTag
) -> Web3Quantity:
## Returns the number of transactions in a block from a block matching the given block number.
##
## blockTag: integer of a block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns integer of the number of transactions in this block.
let blk = api.blockFromTag(blockTag).valueOr:
raise newException(ValueError, "Block not found")
Web3Quantity(blk.transactions.len)
server.rpc("eth_getUncleCountByBlockHash") do(data: Hash32) -> Web3Quantity:
## Returns the number of uncles in a block from a block matching the given block hash.
##
## data: hash of a block.
## Returns integer of the number of uncles in this block.
let blk = api.chain.blockByHash(data).valueOr:
raise newException(ValueError, "Block not found")
Web3Quantity(blk.uncles.len)
server.rpc("eth_getUncleCountByBlockNumber") do(blockTag: BlockTag) -> Web3Quantity:
## Returns the number of uncles in a block from a block matching the given block number.
##
## blockTag: integer of a block number, or the string "latest", see the default block parameter.
## Returns integer of the number of uncles in this block.
let blk = api.blockFromTag(blockTag).valueOr:
raise newException(ValueError, "Block not found")
Web3Quantity(blk.uncles.len)
template sign(privateKey: PrivateKey, message: string): seq[byte] =
# message length encoded as ASCII representation of decimal
let msgData = "\x19Ethereum Signed Message:\n" & $message.len & message
@(sign(privateKey, msgData.toBytes()).toRaw())
server.rpc("eth_sign") do(data: eth_types.Address, message: seq[byte]) -> seq[byte]:
## The sign method calculates an Ethereum specific signature with: sign(keccak256("\x19Ethereum Signed Message:\n" + len(message) + message))).
## By adding a prefix to the message makes the calculated signature recognisable as an Ethereum specific signature.
## This prevents misuse where a malicious DApp can sign arbitrary data (e.g. transaction) and use the signature to impersonate the victim.
## Note the address to sign with must be unlocked.
##
## data: address.
## message: message to sign.
## Returns signature.
let
address = data
acc = ctx.am.getAccount(address).tryGet()
if not acc.unlocked:
raise newException(ValueError, "Account locked, please unlock it first")
sign(acc.privateKey, cast[string](message))
server.rpc("eth_signTransaction") do(data: TransactionArgs) -> seq[byte]:
## Signs a transaction that can be submitted to the network at a later time using with
## eth_sendRawTransaction
let
address = data.`from`.get()
acc = ctx.am.getAccount(address).tryGet()
if not acc.unlocked:
raise newException(ValueError, "Account locked, please unlock it first")
let
accDB = api.ledgerFromTag(blockId("latest")).valueOr:
raise newException(ValueError, "Latest Block not found")
tx = unsignedTx(data, api.chain.db, accDB.getNonce(address) + 1, api.com.chainId)
eip155 = api.com.isEIP155(api.chain.latestNumber)
signedTx = signTransaction(tx, acc.privateKey, eip155)
return rlp.encode(signedTx)
server.rpc("eth_sendTransaction") do(data: TransactionArgs) -> Hash32:
## Creates new message call transaction or a contract creation, if the data field contains code.
##
## obj: the transaction object.
## Returns the transaction hash, or the zero hash if the transaction is not yet available.
## Note: Use eth_getTransactionReceipt to get the contract address, after the transaction was mined, when you created a contract.
let
address = data.`from`.get()
acc = ctx.am.getAccount(address).tryGet()
if not acc.unlocked:
raise newException(ValueError, "Account locked, please unlock it first")
let
accDB = api.ledgerFromTag(blockId("latest")).valueOr:
raise newException(ValueError, "Latest Block not found")
tx = unsignedTx(data, api.chain.db, accDB.getNonce(address) + 1, api.com.chainId)
eip155 = api.com.isEIP155(api.chain.latestNumber)
signedTx = signTransaction(tx, acc.privateKey, eip155)
networkPayload =
if signedTx.txType == TxEip4844:
if data.blobs.isNone or data.commitments.isNone or data.proofs.isNone:
raise newException(ValueError, "EIP-4844 transaction needs blobs")
if data.blobs.get.len != signedTx.versionedHashes.len:
raise newException(ValueError, "Incorrect number of blobs")
if data.commitments.get.len != signedTx.versionedHashes.len:
raise newException(ValueError, "Incorrect number of commitments")
if data.proofs.get.len != signedTx.versionedHashes.len:
raise newException(ValueError, "Incorrect number of proofs")
NetworkPayload(
blobs: data.blobs.get.mapIt it.NetworkBlob,
commitments: data.commitments.get,
proofs: data.proofs.get,
)
else:
if data.blobs.isSome or data.commitments.isSome or data.proofs.isSome:
raise newException(ValueError, "Blobs require EIP-4844 transaction")
nil
pooledTx = PooledTransaction(tx: signedTx, networkPayload: networkPayload)
api.txPool.add(pooledTx)
rlpHash(signedTx)
server.rpc("eth_getTransactionByHash") do(data: Hash32) -> TransactionObject:
## Returns the information about a transaction requested by transaction hash.
##
## data: hash of a transaction.
## Returns requested transaction information.
let txHash = data
let res = api.txPool.getItem(txHash)
if res.isOk:
return populateTransactionObject(res.get().tx, Opt.none(Hash32), Opt.none(uint64))
let txDetails = api.chain.db.getTransactionKey(txHash)
if txDetails.index < 0:
let
(blockHash, txid) = api.chain.txRecords(txHash)
tx = api.chain.memoryTransaction(txHash).valueOr:
return nil
return populateTransactionObject(tx, Opt.some(blockHash), Opt.some(txid))
# TODO: include block number
let header = api.chain.db.getBlockHeader(txDetails.blockNumber)
var tx: Transaction
if api.chain.db.getTransactionByIndex(header.txRoot, uint16(txDetails.index), tx):
return populateTransactionObject(
tx,
Opt.some(header.blockHash),
Opt.some(header.number),
Opt.some(txDetails.index),
)
server.rpc("eth_getTransactionByBlockHashAndIndex") do(
data: Hash32, quantity: Web3Quantity
) -> TransactionObject:
## Returns information about a transaction by block hash and transaction index position.
##
## data: hash of a block.
## quantity: integer of the transaction index position.
## Returns requested transaction information.
let index = uint64(quantity)
let blk = api.chain.blockByHash(data).valueOr:
return nil
if index >= uint64(blk.transactions.len):
return nil
populateTransactionObject(
blk.transactions[index], Opt.some(data), Opt.some(blk.header.number), Opt.some(index)
)
server.rpc("eth_getTransactionByBlockNumberAndIndex") do(
quantityTag: BlockTag, quantity: Web3Quantity
) -> TransactionObject:
## Returns information about a transaction by block number and transaction index position.
##
## quantityTag: a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
## quantity: the transaction index position.
## NOTE : "pending" blockTag is not supported.
let index = uint64(quantity)
let blk = api.blockFromTag(quantityTag).valueOr:
return nil
if index >= uint64(blk.transactions.len):
return nil
populateTransactionObject(
blk.transactions[index], Opt.some(blk.header.blockHash), Opt.some(blk.header.number), Opt.some(index)
)
server.rpc("eth_getProof") do(
data: eth_types.Address, slots: seq[UInt256], quantityTag: BlockTag
) -> ProofResponse:
## Returns information about an account and storage slots (if the account is a contract
## and the slots are requested) along with account and storage proofs which prove the
## existence of the values in the state.
## See spec here: https://eips.ethereum.org/EIPS/eip-1186
##
## data: address of the account.
## slots: integers of the positions in the storage to return with storage proofs.
## quantityTag: integer block number, or the string "latest", "earliest" or "pending", see the default block parameter.
## Returns: the proof response containing the account, account proof and storage proof
let accDB = api.ledgerFromTag(quantityTag).valueOr:
raise newException(ValueError, "Block not found")
getProof(accDB, data, slots)
server.rpc("eth_getBlockReceipts") do(
quantityTag: BlockTag
) -> Opt[seq[ReceiptObject]]:
## Returns the receipts of a block.
let
header = api.headerFromTag(quantityTag).valueOr:
raise newException(ValueError, "Block not found")
blkHash = header.blockHash
var
prevGasUsed = GasInt(0)
receipts: seq[Receipt]
recs: seq[ReceiptObject]
txs: seq[Transaction]
index = 0'u64
if api.chain.haveBlockAndState(blkHash):
let blkdesc = api.chain.memoryBlock(blkHash)
receipts = blkdesc.receipts
txs = blkdesc.blk.transactions
else:
for receipt in api.chain.db.getReceipts(header.receiptsRoot):
receipts.add receipt
txs = api.chain.db.getTransactions(header.txRoot)
try:
for receipt in receipts:
let gasUsed = receipt.cumulativeGasUsed - prevGasUsed
prevGasUsed = receipt.cumulativeGasUsed
recs.add populateReceipt(receipt, gasUsed, txs[index], index, header)
inc index
return Opt.some(recs)
except CatchableError:
return Opt.none(seq[ReceiptObject])
server.rpc("eth_createAccessList") do(
args: TransactionArgs, quantityTag: BlockTag
) -> AccessListResult:
## Generates an access list for a transaction.
try:
let header = api.headerFromTag(quantityTag).valueOr:
raise newException(ValueError, "Block not found")
return createAccessList(header, api.com, args)
except CatchableError as exc:
return AccessListResult(error: Opt.some("createAccessList error: " & exc.msg))
server.rpc("eth_blobBaseFee") do() -> Web3Quantity:
## Returns the base fee per blob gas in wei.
let header = api.headerFromTag(blockId("latest")).valueOr:
raise newException(ValueError, "Block not found")
if header.blobGasUsed.isNone:
raise newException(ValueError, "blobGasUsed missing from latest header")
if header.excessBlobGas.isNone:
raise newException(ValueError, "excessBlobGas missing from latest header")
let blobBaseFee =
getBlobBaseFee(header.excessBlobGas.get) * header.blobGasUsed.get.u256
if blobBaseFee > high(uint64).u256:
raise newException(ValueError, "blobBaseFee is bigger than uint64.max")
return w3Qty blobBaseFee.truncate(uint64)
server.rpc("eth_getUncleByBlockHashAndIndex") do(
data: Hash32, quantity: Web3Quantity
) -> BlockObject:
## Returns information about a uncle of a block by hash and uncle index position.
##
## data: hash of block.
## quantity: the uncle's index position.
## Returns BlockObject or nil when no block was found.
let index = uint64(quantity)
let blk = api.chain.blockByHash(data).valueOr:
return nil
if index < 0 or index >= blk.uncles.len.uint64:
return nil
let
uncle = api.chain.blockByHash(blk.uncles[index].blockHash).valueOr:
return nil
uncleHash = uncle.header.blockHash
return populateBlockObject(
uncleHash, uncle, api.getTotalDifficulty(uncleHash), false, true
)
server.rpc("eth_getUncleByBlockNumberAndIndex") do(
quantityTag: BlockTag, quantity: Web3Quantity
) -> BlockObject:
# Returns information about a uncle of a block by number and uncle index position.
##
## quantityTag: a block number, or the string "earliest", "latest" or "pending", as in the default block parameter.
## quantity: the uncle's index position.
## Returns BlockObject or nil when no block was found.
let index = uint64(quantity)
let blk = api.blockFromTag(quantityTag).valueOr:
return nil
if index < 0 or index >= blk.uncles.len.uint64:
return nil
let
uncle = api.chain.blockByHash(blk.uncles[index].blockHash).valueOr:
return nil
uncleHash = uncle.header.blockHash
return populateBlockObject(
uncleHash, uncle, api.getTotalDifficulty(uncleHash), false, true
)

View File

@ -87,7 +87,7 @@ sed -i "s/el_image: .*/el_image: $new_el_image/" assertoor.yaml
sudo kurtosis run \ sudo kurtosis run \
--enclave nimbus-localtestnet \ --enclave nimbus-localtestnet \
github.com/ethpandaops/ethereum-package@4.3.0 \ github.com/ethpandaops/ethereum-package \
--args-file assertoor.yaml --args-file assertoor.yaml
enclave_dump=$(kurtosis enclave inspect nimbus-localtestnet) enclave_dump=$(kurtosis enclave inspect nimbus-localtestnet)

View File

@ -15,10 +15,10 @@ cliBuilder:
./test_evm_support, ./test_evm_support,
./test_genesis, ./test_genesis,
./test_precompiles, ./test_precompiles,
./test_rpc,
./test_generalstate_json, ./test_generalstate_json,
./test_tracer_json, ./test_tracer_json,
#./test_persistblock_json, -- fails #./test_persistblock_json, -- fails
#./test_rpc, -- fails
./test_filters, ./test_filters,
./test_op_arith, ./test_op_arith,
./test_op_bit, ./test_op_bit,

View File

@ -87,7 +87,7 @@ proc setupEnv(envFork: HardFork = MergeFork): TestEnv =
beaconEngine = BeaconEngineRef.new(txPool, chain) beaconEngine = BeaconEngineRef.new(txPool, chain)
serverApi = newServerAPI(chain, txPool) serverApi = newServerAPI(chain, txPool)
setupServerAPI(serverApi, server) setupServerAPI(serverApi, server, newEthContext())
setupEngineAPI(beaconEngine, server) setupEngineAPI(beaconEngine, server)
server.start() server.start()

View File

@ -15,7 +15,7 @@ import
eth/[rlp, trie/trie_defs, trie/hexary_proof_verification], eth/[rlp, trie/trie_defs, trie/hexary_proof_verification],
../nimbus/db/[ledger, core_db], ../nimbus/db/[ledger, core_db],
../nimbus/common/chain_config, ../nimbus/common/chain_config,
../nimbus/rpc/p2p ../nimbus/rpc/server_api
type type
Hash32 = eth_types.Hash32 Hash32 = eth_types.Hash32

View File

@ -6,13 +6,14 @@
# at your option. This file may not be copied, modified, or distributed except according to those terms. # at your option. This file may not be copied, modified, or distributed except according to those terms.
import import
chronicles,
std/[json, os, typetraits, times, sequtils], std/[json, os, typetraits, times, sequtils],
asynctest, web3/eth_api, asynctest, web3/eth_api,
stew/byteutils, stew/byteutils,
json_rpc/[rpcserver, rpcclient], json_rpc/[rpcserver, rpcclient],
nimcrypto/[keccak, hash], eth/[rlp, trie/hexary_proof_verification],
eth/[rlp, keys, trie/hexary_proof_verification], eth/common/[transaction_utils, addresses],
eth/common/transaction_utils, ../hive_integration/nodocker/engine/engine_client,
../nimbus/[constants, transaction, config, evm/state, evm/types, version], ../nimbus/[constants, transaction, config, evm/state, evm/types, version],
../nimbus/db/[ledger, storage_types], ../nimbus/db/[ledger, storage_types],
../nimbus/sync/protocol, ../nimbus/sync/protocol,
@ -26,11 +27,6 @@ import
./macro_assembler, ./macro_assembler,
./test_block_fixture ./test_block_fixture
const
zeroAddress = block:
var rc: Address
rc
type type
Hash32 = common.Hash32 Hash32 = common.Hash32
Header = common.Header Header = common.Header
@ -50,7 +46,7 @@ func emptyStorageHash(): Hash32 =
proc verifyAccountProof(trustedStateRoot: Hash32, res: ProofResponse): MptProofVerificationResult = proc verifyAccountProof(trustedStateRoot: Hash32, res: ProofResponse): MptProofVerificationResult =
let let
key = toSeq(keccak256(res.address).data) key = toSeq(keccak256(res.address.data).data)
value = rlp.encode(Account( value = rlp.encode(Account(
nonce: res.nonce.uint64, nonce: res.nonce.uint64,
balance: res.balance, balance: res.balance,
@ -78,18 +74,34 @@ proc persistFixtureBlock(chainDB: CoreDbRef) =
let header = getBlockHeader4514995() let header = getBlockHeader4514995()
# Manually inserting header to avoid any parent checks # Manually inserting header to avoid any parent checks
discard chainDB.ctx.getKvt.put(genericHashKey(header.blockHash).toOpenArray, rlp.encode(header)) discard chainDB.ctx.getKvt.put(genericHashKey(header.blockHash).toOpenArray, rlp.encode(header))
chainDB.addBlockNumberToHashLookup(header) chainDB.addBlockNumberToHashLookup(header.number, header.blockHash)
chainDB.persistTransactions(header.number, header.txRoot, getBlockBody4514995().transactions) chainDB.persistTransactions(header.number, header.txRoot, getBlockBody4514995().transactions)
chainDB.persistReceipts(header.receiptsRoot, getReceipts4514995()) chainDB.persistReceipts(header.receiptsRoot, getReceipts4514995())
proc setupEnv(com: CommonRef, signer, ks2: Address, ctx: EthContext): TestEnv = proc setupClient(port: Port): RpcHttpClient =
let client = newRpcHttpClient()
waitFor client.connect("127.0.0.1", port, false)
return client
proc close(client: RpcHttpClient, server: RpcHttpServer) =
waitFor client.close()
waitFor server.closeWait()
# NOTE : The setup of the environment should have been done through the
# `ForkedChainRef`, however the `ForkedChainRef` is does not persist blocks to the db
# unless the base distance is reached. This is not the case for the tests, so we
# have to manually persist the blocks to the db.
# Main goal of the tests to check the RPC calls, can serve data persisted in the db
# as data from memory blocks are easily tested via kurtosis or other tests
proc setupEnv(signer, ks2: Address, ctx: EthContext, com: CommonRef): TestEnv =
var var
parent = com.db.getCanonicalHead()
acc = ctx.am.getAccount(signer).tryGet() acc = ctx.am.getAccount(signer).tryGet()
blockNumber = 1.BlockNumber blockNumber = 1'u64
parent = com.db.getCanonicalHead()
parentHash = parent.blockHash parentHash = parent.blockHash
const code = evmByteCode: let code = evmByteCode:
Push4 "0xDEADBEEF" # PUSH Push4 "0xDEADBEEF" # PUSH
Push1 "0x00" # MSTORE AT 0x00 Push1 "0x00" # MSTORE AT 0x00
Mstore Mstore
@ -99,28 +111,26 @@ proc setupEnv(com: CommonRef, signer, ks2: Address, ctx: EthContext): TestEnv =
let let
vmHeader = Header(parentHash: parentHash, gasLimit: 5_000_000) vmHeader = Header(parentHash: parentHash, gasLimit: 5_000_000)
vmState = BaseVMState.new( vmState = BaseVMState()
parent = Header(stateRoot: parent.stateRoot), vmState.init(parent, vmHeader, com)
header = vmHeader,
com = com)
vmState.stateDB.setCode(ks2, code) vmState.stateDB.setCode(ks2, code)
vmState.stateDB.addBalance( vmState.stateDB.addBalance(
signer, 1.u256 * 1_000_000_000.u256 * 1_000_000_000.u256) # 1 ETH signer, 1.u256 * 1_000_000_000.u256 * 1_000_000_000.u256) # 1 ETH
# Test data created for eth_getProof tests # Test data created for eth_getProof tests
let regularAcc = Hash32.fromHex("0x0000000000000000000000000000000000000001") let regularAcc = Address.fromHex("0x0000000000000000000000000000000000000001")
vmState.stateDB.addBalance(regularAcc, 2_000_000_000.u256) vmState.stateDB.addBalance(regularAcc, 2_000_000_000.u256)
vmState.stateDB.setNonce(regularAcc, 1.uint64) vmState.stateDB.setNonce(regularAcc, 1.uint64)
let contractAccWithStorage = Hash32.fromHex("0x0000000000000000000000000000000000000002") let contractAccWithStorage = Address.fromHex("0x0000000000000000000000000000000000000002")
vmState.stateDB.addBalance(contractAccWithStorage, 1_000_000_000.u256) vmState.stateDB.addBalance(contractAccWithStorage, 1_000_000_000.u256)
vmState.stateDB.setNonce(contractAccWithStorage, 2.uint64) vmState.stateDB.setNonce(contractAccWithStorage, 2.uint64)
vmState.stateDB.setCode(contractAccWithStorage, code) vmState.stateDB.setCode(contractAccWithStorage, code)
vmState.stateDB.setStorage(contractAccWithStorage, u256(0), u256(1234)) vmState.stateDB.setStorage(contractAccWithStorage, u256(0), u256(1234))
vmState.stateDB.setStorage(contractAccWithStorage, u256(1), u256(2345)) vmState.stateDB.setStorage(contractAccWithStorage, u256(1), u256(2345))
let contractAccNoStorage = Hash32.fromHex("0x0000000000000000000000000000000000000003") let contractAccNoStorage = Address.fromHex("0x0000000000000000000000000000000000000003")
vmState.stateDB.setCode(contractAccNoStorage, code) vmState.stateDB.setCode(contractAccNoStorage, code)
@ -128,19 +138,19 @@ proc setupEnv(com: CommonRef, signer, ks2: Address, ctx: EthContext): TestEnv =
unsignedTx1 = Transaction( unsignedTx1 = Transaction(
txType : TxLegacy, txType : TxLegacy,
nonce : 0, nonce : 0,
gasPrice: 30_000_000_000, gasPrice: uint64(30_000_000_000),
gasLimit: 70_000, gasLimit: 70_000,
value : 1.u256, value : 1.u256,
to : some(zeroAddress), to : Opt.some(zeroAddress),
chainId : com.chainId, chainId : com.chainId,
) )
unsignedTx2 = Transaction( unsignedTx2 = Transaction(
txType : TxLegacy, txType : TxLegacy,
nonce : 1, nonce : 1,
gasPrice: 30_000_000_100, gasPrice: uint64(30_000_000_100),
gasLimit: 70_000, gasLimit: 70_000,
value : 2.u256, value : 2.u256,
to : some(zeroAddress), to : Opt.some(zeroAddress),
chainId : com.chainId, chainId : com.chainId,
) )
eip155 = com.isEIP155(com.syncCurrent) eip155 = com.isEIP155(com.syncCurrent)
@ -159,13 +169,10 @@ proc setupEnv(com: CommonRef, signer, ks2: Address, ctx: EthContext): TestEnv =
doAssert(rc.isOk, "Invalid transaction: " & rc.error) doAssert(rc.isOk, "Invalid transaction: " & rc.error)
vmState.receipts[txIndex] = makeReceipt(vmState, tx.txType) vmState.receipts[txIndex] = makeReceipt(vmState, tx.txType)
com.db.persistReceipts(vmState.receipts)
let let
# TODO: `getColumn(CtReceipts)` does not exists anymore. There s only the # TODO: `getColumn(CtReceipts)` does not exists anymore. There s only the
# generic `MPT` left that can be retrieved with `getGeneric()`, # generic `MPT` left that can be retrieved with `getGeneric()`,
# optionally with argument `clearData=true` # optionally with argument `clearData=true`
#
receiptRoot = com.db.ctx.getColumn(CtReceipts).state(updateOk=true).valueOr(EMPTY_ROOT_HASH)
date = dateTime(2017, mMar, 30) date = dateTime(2017, mMar, 30)
timeStamp = date.toTime.toUnix.EthTime timeStamp = date.toTime.toUnix.EthTime
difficulty = com.calcDifficulty(timeStamp, parent) difficulty = com.calcDifficulty(timeStamp, parent)
@ -175,37 +182,43 @@ proc setupEnv(com: CommonRef, signer, ks2: Address, ctx: EthContext): TestEnv =
var header = Header( var header = Header(
parentHash : parentHash, parentHash : parentHash,
#coinbase*: Address stateRoot : vmState.stateDB.getStateRoot,
stateRoot : vmState.stateDB.getStateRoot(), transactionsRoot : txRoot,
txRoot : txRoot, receiptsRoot : calcReceiptsRoot(vmState.receipts),
receiptsRoot : receiptsRoot, logsBloom : createBloom(vmState.receipts),
bloom : createBloom(vmState.receipts),
difficulty : difficulty, difficulty : difficulty,
blockNumber : blockNumber, number : blockNumber,
gasLimit : vmState.cumulativeGasUsed + 1_000_000, gasLimit : vmState.cumulativeGasUsed + 1_000_000,
gasUsed : vmState.cumulativeGasUsed, gasUsed : vmState.cumulativeGasUsed,
timestamp : timeStamp timestamp : timeStamp
#extraData: Blob
#mixHash: Hash32
#nonce: BlockNonce
) )
doAssert com.db.persistHeader(header,
com.pos.isNil, com.startOfHistory)
let uncles = [header] let uncles = [header]
header.ommersHash = com.db.persistUncles(uncles) header.ommersHash = com.db.persistUncles(uncles)
doAssert com.db.persistHeader(header, doAssert com.db.persistHeader(header,
com.consensus == ConsensusType.POS) com.pos.isNil, com.startOfHistory)
com.db.persistFixtureBlock() com.db.persistFixtureBlock()
com.db.persistent(header.number).isOkOr:
echo "Failed to save state: ", $error
quit(QuitFailure)
result = TestEnv( result = TestEnv(
txHash: signedTx1.rlpHash, txHash: signedTx1.rlpHash,
blockHash: header.hash blockHash: header.blockHash
) )
proc rpcMain*() = proc rpcMain*() =
suite "Remote Procedure Calls": suite "Remote Procedure Calls":
# TODO: Include other transports such as Http # TODO: Include other transports such as Http
let let
conf = makeTestConfig() conf = makeConfig(@[])
ctx = newEthContext() ctx = newEthContext()
ethNode = setupEthNode(conf, ctx, eth) ethNode = setupEthNode(conf, ctx, eth)
com = CommonRef.new( com = CommonRef.new(
@ -213,12 +226,9 @@ proc rpcMain*() =
conf.networkId, conf.networkId,
conf.networkParams conf.networkParams
) )
signer = Hash32 bytes32"0x0e69cde81b1aa07a45c32c6cd85d67229d36bb1b" signer = Address.fromHex "0x0e69cde81b1aa07a45c32c6cd85d67229d36bb1b"
ks2 = Hash32 bytes32"0xa3b2222afa5c987da6ef773fde8d01b9f23d481f" ks2 = Address.fromHex "0xa3b2222afa5c987da6ef773fde8d01b9f23d481f"
ks3 = Hash32 bytes32"0x597176e9a64aad0845d83afdaf698fbeff77703b" ks3 = Address.fromHex "0x597176e9a64aad0845d83afdaf698fbeff77703b"
# disable POS/post Merge feature
com.setTTD none(DifficultyInt)
let keyStore = "tests" / "keystore" let keyStore = "tests" / "keystore"
let res = ctx.am.loadKeystores(keyStore) let res = ctx.am.loadKeystores(keyStore)
@ -232,24 +242,30 @@ proc rpcMain*() =
debugEcho unlock.error debugEcho unlock.error
doAssert(unlock.isOk) doAssert(unlock.isOk)
let env = setupEnv(com, signer, ks2, ctx) let
env = setupEnv(signer, ks2, ctx, com)
chain = ForkedChainRef.init(com)
txPool = TxPoolRef.new(com)
# Create Ethereum RPCs # txPool must be informed of active head
let RPC_PORT = 0 # let the OS choose a port # so it can know the latest account state
var doAssert txPool.smartHead(chain.latestHeader, chain)
rpcServer = newRpcSocketServer(["127.0.0.1:" & $RPC_PORT])
client = newRpcSocketClient()
txPool = TxPoolRef.new(com, conf.engineSigner)
oracle = Oracle.new(com)
setupCommonRpc(ethNode, conf, rpcServer) let
setupEthRpc(ethNode, ctx, com, txPool, oracle, rpcServer) server = newRpcHttpServerWithParams("127.0.0.1:0").valueOr:
quit(QuitFailure)
serverApi = newServerAPI(chain, txPool)
setupServerAPI(serverApi, server, ctx)
setupCommonRpc(ethNode, conf, server)
server.start()
let client = setupClient(server.localAddress[0].port)
# disable POS/post Merge feature
com.setTTD Opt.none(DifficultyInt)
# Begin tests
rpcServer.start()
waitFor client.connect("127.0.0.1", rpcServer.localAddress[0].port)
# TODO: add more tests here
test "web3_clientVersion": test "web3_clientVersion":
let res = await client.web3_clientVersion() let res = await client.web3_clientVersion()
check res == ClientId check res == ClientId
@ -274,15 +290,6 @@ proc rpcMain*() =
let peerCount = ethNode.peerPool.connectedNodes.len let peerCount = ethNode.peerPool.connectedNodes.len
check res == w3Qty(peerCount) check res == w3Qty(peerCount)
test "eth_protocolVersion":
let res = await client.eth_protocolVersion()
# Use a hard-coded number instead of the same expression as the client,
# so that bugs introduced via that expression are detected. Using the
# same expression as the client can hide issues when the value is wrong
# in both places. When the expected value genuinely changes, it'll be
# obvious. Just change this number.
check res == $ethVersion
test "eth_chainId": test "eth_chainId":
let res = await client.eth_chainId() let res = await client.eth_chainId()
check res == w3Qty(distinctBase(com.chainId)) check res == w3Qty(distinctBase(com.chainId))
@ -293,24 +300,9 @@ proc rpcMain*() =
let syncing = ethNode.peerPool.connectedNodes.len > 0 let syncing = ethNode.peerPool.connectedNodes.len > 0
check syncing == false check syncing == false
else: else:
check com.syncStart == res.syncObject.startingBlock.uint64.u256 check com.syncStart == res.syncObject.startingBlock.uint64
check com.syncCurrent == res.syncObject.currentBlock.uint64.u256 check com.syncCurrent == res.syncObject.currentBlock.uint64
check com.syncHighest == res.syncObject.highestBlock.uint64.u256 check com.syncHighest == res.syncObject.highestBlock.uint64
test "eth_coinbase":
let res = await client.eth_coinbase()
# currently we don't have miner
check res == default(Address)
test "eth_mining":
let res = await client.eth_mining()
# currently we don't have miner
check res == false
test "eth_hashrate":
let res = await client.eth_hashrate()
# currently we don't have miner
check res == w3Qty(0'u64)
test "eth_gasPrice": test "eth_gasPrice":
let res = await client.eth_gasPrice() let res = await client.eth_gasPrice()
@ -327,23 +319,23 @@ proc rpcMain*() =
check res == w3Qty(0x1'u64) check res == w3Qty(0x1'u64)
test "eth_getBalance": test "eth_getBalance":
let a = await client.eth_getBalance(Hash32.fromHex("0xfff33a3bd36abdbd412707b8e310d6011454a7ae"), blockId(0'u64)) let a = await client.eth_getBalance(Address.fromHex("0xfff33a3bd36abdbd412707b8e310d6011454a7ae"), blockId(1'u64))
check a == UInt256.fromHex("0x1b1ae4d6e2ef5000000") check a == UInt256.fromHex("0x1b1ae4d6e2ef5000000")
let b = await client.eth_getBalance(Hash32.fromHex("0xfff4bad596633479a2a29f9a8b3f78eefd07e6ee"), blockId(0'u64)) let b = await client.eth_getBalance(Address.fromHex("0xfff4bad596633479a2a29f9a8b3f78eefd07e6ee"), blockId(1'u64))
check b == UInt256.fromHex("0x56bc75e2d63100000") check b == UInt256.fromHex("0x56bc75e2d63100000")
let c = await client.eth_getBalance(Hash32.fromHex("0xfff7ac99c8e4feb60c9750054bdc14ce1857f181"), blockId(0'u64)) let c = await client.eth_getBalance(Address.fromHex("0xfff7ac99c8e4feb60c9750054bdc14ce1857f181"), blockId(1'u64))
check c == UInt256.fromHex("0x3635c9adc5dea00000") check c == UInt256.fromHex("0x3635c9adc5dea00000")
test "eth_getStorageAt": test "eth_getStorageAt":
let res = await client.eth_getStorageAt(Hash32.fromHex("0xfff33a3bd36abdbd412707b8e310d6011454a7ae"), 0.u256, blockId(0'u64)) let res = await client.eth_getStorageAt(Address.fromHex("0xfff33a3bd36abdbd412707b8e310d6011454a7ae"), 0.u256, blockId(1'u64))
check default(Hash32) == res check FixedBytes[32](zeroHash32.data) == res
test "eth_getTransactionCount": test "eth_getTransactionCount":
let res = await client.eth_getTransactionCount(Hash32.fromHex("0xfff7ac99c8e4feb60c9750054bdc14ce1857f181"), blockId(0'u64)) let res = await client.eth_getTransactionCount(Address.fromHex("0xfff7ac99c8e4feb60c9750054bdc14ce1857f181"), blockId(1'u64))
check res == w3Qty(0'u64) check res == w3Qty(0'u64)
test "eth_getBlockTransactionCountByHash": test "eth_getBlockTransactionCountByHash":
let hash = com.db.getBlockHash(0.BlockNumber) let hash = com.db.getBlockHash(0'u64)
let res = await client.eth_getBlockTransactionCountByHash(hash) let res = await client.eth_getBlockTransactionCountByHash(hash)
check res == w3Qty(0'u64) check res == w3Qty(0'u64)
@ -352,7 +344,7 @@ proc rpcMain*() =
check res == w3Qty(0'u64) check res == w3Qty(0'u64)
test "eth_getUncleCountByBlockHash": test "eth_getUncleCountByBlockHash":
let hash = com.db.getBlockHash(0.BlockNumber) let hash = com.db.getBlockHash(0'u64)
let res = await client.eth_getUncleCountByBlockHash(hash) let res = await client.eth_getUncleCountByBlockHash(hash)
check res == w3Qty(0'u64) check res == w3Qty(0'u64)
@ -361,7 +353,7 @@ proc rpcMain*() =
check res == w3Qty(0'u64) check res == w3Qty(0'u64)
test "eth_getCode": test "eth_getCode":
let res = await client.eth_getCode(Hash32.fromHex("0xfff7ac99c8e4feb60c9750054bdc14ce1857f181"), blockId(0'u64)) let res = await client.eth_getCode(Address.fromHex("0xfff7ac99c8e4feb60c9750054bdc14ce1857f181"), blockId(1'u64))
check res.len == 0 check res.len == 0
test "eth_sign": test "eth_sign":
@ -384,12 +376,12 @@ proc rpcMain*() =
test "eth_signTransaction, eth_sendTransaction, eth_sendRawTransaction": test "eth_signTransaction, eth_sendTransaction, eth_sendRawTransaction":
var unsignedTx = TransactionArgs( var unsignedTx = TransactionArgs(
`from`: signer.some, `from`: Opt.some(signer),
to: ks2.some, to: Opt.some(ks2),
gas: w3Qty(100000'u).some, gas: Opt.some(w3Qty(100000'u)),
gasPrice: none(Quantity), gasPrice: Opt.none(Quantity),
value: some 100.u256, value: Opt.some(100.u256),
nonce: none(Quantity) nonce: Opt.none(Quantity)
) )
let signedTxBytes = await client.eth_signTransaction(unsignedTx) let signedTxBytes = await client.eth_signTransaction(unsignedTx)
@ -402,11 +394,11 @@ proc rpcMain*() =
test "eth_call": test "eth_call":
var ec = TransactionArgs( var ec = TransactionArgs(
`from`: signer.some, `from`: Opt.some(signer),
to: ks2.some, to: Opt.some(ks2),
gas: w3Qty(100000'u).some, gas: Opt.some(w3Qty(100000'u)),
gasPrice: none(Quantity), gasPrice: Opt.none(Quantity),
value: some 100.u256 value: Opt.some(100.u256)
) )
let res = await client.eth_call(ec, "latest") let res = await client.eth_call(ec, "latest")
@ -414,11 +406,11 @@ proc rpcMain*() =
test "eth_estimateGas": test "eth_estimateGas":
var ec = TransactionArgs( var ec = TransactionArgs(
`from`: signer.some, `from`: Opt.some(signer),
to: ks3.some, to: Opt.some(ks3),
gas: w3Qty(42000'u).some, gas: Opt.some(w3Qty(42000'u)),
gasPrice: w3Qty(100'u).some, gasPrice: Opt.some(w3Qty(100'u)),
value: some 100.u256 value: Opt.some(100.u256)
) )
let res = await client.eth_estimateGas(ec) let res = await client.eth_estimateGas(ec)
@ -441,14 +433,14 @@ proc rpcMain*() =
test "eth_getTransactionByHash": test "eth_getTransactionByHash":
let res = await client.eth_getTransactionByHash(env.txHash) let res = await client.eth_getTransactionByHash(env.txHash)
check res.isNil.not check res.isNil.not
check res.number.get() == w3BlockNumber(1'u64) check res.blockNumber.get() == w3BlockNumber(1'u64)
let res2 = await client.eth_getTransactionByHash(env.blockHash) let res2 = await client.eth_getTransactionByHash(env.blockHash)
check res2.isNil check res2.isNil
test "eth_getTransactionByBlockHashAndIndex": test "eth_getTransactionByBlockHashAndIndex":
let res = await client.eth_getTransactionByBlockHashAndIndex(env.blockHash, w3Qty(0'u64)) let res = await client.eth_getTransactionByBlockHashAndIndex(env.blockHash, w3Qty(0'u64))
check res.isNil.not check res.isNil.not
check res.number.get() == w3BlockNumber(1'u64) check res.blockNumber.get() == w3BlockNumber(1'u64)
let res2 = await client.eth_getTransactionByBlockHashAndIndex(env.blockHash, w3Qty(3'u64)) let res2 = await client.eth_getTransactionByBlockHashAndIndex(env.blockHash, w3Qty(3'u64))
check res2.isNil check res2.isNil
@ -459,18 +451,29 @@ proc rpcMain*() =
test "eth_getTransactionByBlockNumberAndIndex": test "eth_getTransactionByBlockNumberAndIndex":
let res = await client.eth_getTransactionByBlockNumberAndIndex("latest", w3Qty(1'u64)) let res = await client.eth_getTransactionByBlockNumberAndIndex("latest", w3Qty(1'u64))
check res.isNil.not check res.isNil.not
check res.number.get() == w3BlockNumber(1'u64) check res.blockNumber.get() == w3BlockNumber(1'u64)
let res2 = await client.eth_getTransactionByBlockNumberAndIndex("latest", w3Qty(3'u64)) let res2 = await client.eth_getTransactionByBlockNumberAndIndex("latest", w3Qty(3'u64))
check res2.isNil check res2.isNil
test "eth_getTransactionReceipt": # TODO: Solved with Issue #2700
let res = await client.eth_getTransactionReceipt(env.txHash)
check res.isNil.not
check res.number == w3BlockNumber(1'u64)
let res2 = await client.eth_getTransactionReceipt(env.blockHash) # test "eth_getBlockReceipts":
check res2.isNil # let recs = await client.eth_getBlockReceipts(blockId(1'u64))
# check recs.isSome
# if recs.isSome:
# let receipts = recs.get
# check receipts.len == 2
# check receipts[0].transactionIndex == 0.Quantity
# check receipts[1].transactionIndex == 1.Quantity
# test "eth_getTransactionReceipt":
# let res = await client.eth_getTransactionReceipt(env.txHash)
# check res.isNil.not
# check res.blockNumber == w3BlockNumber(1'u64)
# let res2 = await client.eth_getTransactionReceipt(env.blockHash)
# check res2.isNil
test "eth_getUncleByBlockHashAndIndex": test "eth_getUncleByBlockHashAndIndex":
let res = await client.eth_getUncleByBlockHashAndIndex(env.blockHash, w3Qty(0'u64)) let res = await client.eth_getUncleByBlockHashAndIndex(env.blockHash, w3Qty(0'u64))
@ -495,7 +498,7 @@ proc rpcMain*() =
let testHeader = getBlockHeader4514995() let testHeader = getBlockHeader4514995()
let testHash = testHeader.blockHash let testHash = testHeader.blockHash
let filterOptions = FilterOptions( let filterOptions = FilterOptions(
blockHash: some(testHash), blockHash: Opt.some(testHash),
topics: @[] topics: @[]
) )
let logs = await client.eth_getLogs(filterOptions) let logs = await client.eth_getLogs(filterOptions)
@ -507,41 +510,19 @@ proc rpcMain*() =
for l in logs: for l in logs:
check: check:
l.blockHash.isSome() l.blockHash.isSome()
l.blockHash.unsafeGet() == testHash l.blockHash.get() == testHash
l.logIndex.unsafeGet() == w3Qty(i.uint64) l.logIndex.get() == w3Qty(i.uint64)
inc i
test "eth_getLogs by blockNumber, no filters":
let testHeader = getBlockHeader4514995()
let testHash = testHeader.blockHash
let fBlock = blockId(testHeader.number)
let tBlock = blockId(testHeader.number)
let filterOptions = FilterOptions(
fromBlock: some(fBlock),
toBlock: some(tBlock)
)
let logs = await client.eth_getLogs(filterOptions)
check:
len(logs) == 54
var i = 0
for l in logs:
check:
l.blockHash.isSome()
l.blockHash.unsafeGet() == testHash
l.logIndex.unsafeGet() == w3Qty(i.uint64)
inc i inc i
test "eth_getLogs by blockhash, filter logs at specific positions": test "eth_getLogs by blockhash, filter logs at specific positions":
let testHeader = getBlockHeader4514995() let testHeader = getBlockHeader4514995()
let testHash = testHeader.blockHash let testHash = testHeader.blockHash
let topic = Hash32.fromHex("0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef") let topic = Bytes32.fromHex("0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef")
let topic1 = Hash32.fromHex("0x000000000000000000000000fdc183d01a793613736cd40a5a578f49add1772b") let topic1 = Bytes32.fromHex("0x000000000000000000000000fdc183d01a793613736cd40a5a578f49add1772b")
let filterOptions = FilterOptions( let filterOptions = FilterOptions(
blockHash: some(testHash), blockHash: Opt.some(testHash),
topics: @[ topics: @[
TopicOrList(kind: slkList, list: @[topic]), TopicOrList(kind: slkList, list: @[topic]),
TopicOrList(kind: slkNull), TopicOrList(kind: slkNull),
@ -559,16 +540,16 @@ proc rpcMain*() =
let testHeader = getBlockHeader4514995() let testHeader = getBlockHeader4514995()
let testHash = testHeader.blockHash let testHash = testHeader.blockHash
let topic = Hash32.fromHex("0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef") let topic = Bytes32.fromHex("0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef")
let topic1 = Hash32.fromHex("0xa64da754fccf55aa65a1f0128a648633fade3884b236e879ee9f64c78df5d5d7") let topic1 = Bytes32.fromHex("0xa64da754fccf55aa65a1f0128a648633fade3884b236e879ee9f64c78df5d5d7")
let topic2 = Hash32.fromHex("0x000000000000000000000000e16c02eac87920033ac72fc55ee1df3151c75786") let topic2 = Bytes32.fromHex("0x000000000000000000000000e16c02eac87920033ac72fc55ee1df3151c75786")
let topic3 = Hash32.fromHex("0x000000000000000000000000b626a5facc4de1c813f5293ec3be31979f1d1c78") let topic3 = Bytes32.fromHex("0x000000000000000000000000b626a5facc4de1c813f5293ec3be31979f1d1c78")
let filterOptions = FilterOptions( let filterOptions = FilterOptions(
blockHash: some(testHash), blockHash: Opt.some(testHash),
topics: @[ topics: @[
TopicOrList(kind: slkList, list: @[topic, topic1]), TopicOrList(kind: slkList, list: @[topic, topic1]),
TopicOrList(kind: slkList, list: @[topic2, topic3]) TopicOrList(kind: slkList, list: @[topic2, topic3])
@ -586,7 +567,7 @@ proc rpcMain*() =
block: block:
# account doesn't exist # account doesn't exist
let let
address = Hash32.fromHex("0x0000000000000000000000000000000000000004") address = Address.fromHex("0x0000000000000000000000000000000000000004")
proofResponse = await client.eth_getProof(address, @[], blockId(1'u64)) proofResponse = await client.eth_getProof(address, @[], blockId(1'u64))
storageProof = proofResponse.storageProof storageProof = proofResponse.storageProof
@ -602,7 +583,7 @@ proc rpcMain*() =
block: block:
# account exists but requested slots don't exist # account exists but requested slots don't exist
let let
address = Hash32.fromHex("0x0000000000000000000000000000000000000001") address = Address.fromHex("0x0000000000000000000000000000000000000001")
slot1Key = 0.u256 slot1Key = 0.u256
slot2Key = 1.u256 slot2Key = 1.u256
proofResponse = await client.eth_getProof(address, @[slot1Key, slot2Key], blockId(1'u64)) proofResponse = await client.eth_getProof(address, @[slot1Key, slot2Key], blockId(1'u64))
@ -626,7 +607,7 @@ proc rpcMain*() =
block: block:
# contract account with no storage slots # contract account with no storage slots
let let
address = Hash32.fromHex("0x0000000000000000000000000000000000000003") address = Address.fromHex("0x0000000000000000000000000000000000000003")
slot1Key = 0.u256 # Doesn't exist slot1Key = 0.u256 # Doesn't exist
proofResponse = await client.eth_getProof(address, @[slot1Key], blockId(1'u64)) proofResponse = await client.eth_getProof(address, @[slot1Key], blockId(1'u64))
storageProof = proofResponse.storageProof storageProof = proofResponse.storageProof
@ -649,7 +630,7 @@ proc rpcMain*() =
block: block:
# contract account with storage slots # contract account with storage slots
let let
address = Hash32.fromHex("0x0000000000000000000000000000000000000002") address = Address.fromHex("0x0000000000000000000000000000000000000002")
slot1Key = 0.u256 slot1Key = 0.u256
slot2Key = 1.u256 slot2Key = 1.u256
slot3Key = 2.u256 # Doesn't exist slot3Key = 2.u256 # Doesn't exist
@ -680,7 +661,7 @@ proc rpcMain*() =
block: block:
# externally owned account # externally owned account
let let
address = Hash32.fromHex("0x0000000000000000000000000000000000000001") address = Address.fromHex("0x0000000000000000000000000000000000000001")
proofResponse = await client.eth_getProof(address, @[], blockId(1'u64)) proofResponse = await client.eth_getProof(address, @[], blockId(1'u64))
storageProof = proofResponse.storageProof storageProof = proofResponse.storageProof
@ -696,28 +677,10 @@ proc rpcMain*() =
test "eth_getProof - Multiple blocks": test "eth_getProof - Multiple blocks":
let blockData = await client.eth_getBlockByNumber("latest", true) let blockData = await client.eth_getBlockByNumber("latest", true)
block:
# block 0 - account doesn't exist yet
let
address = Hash32.fromHex("0x0000000000000000000000000000000000000002")
slot1Key = 100.u256
proofResponse = await client.eth_getProof(address, @[slot1Key], blockId(0'u64))
storageProof = proofResponse.storageProof
check:
proofResponse.address == address
verifyAccountProof(blockData.stateRoot, proofResponse).kind == InvalidProof
proofResponse.balance == 0.u256
proofResponse.codeHash == zeroHash()
proofResponse.nonce == w3Qty(0.uint64)
proofResponse.storageHash == zeroHash()
storageProof.len() == 1
verifySlotProof(proofResponse.storageHash, storageProof[0]).kind == InvalidProof
block: block:
# block 1 - account has balance, code and storage # block 1 - account has balance, code and storage
let let
address = Hash32.fromHex("0x0000000000000000000000000000000000000002") address = Address.fromHex("0x0000000000000000000000000000000000000002")
slot2Key = 1.u256 slot2Key = 1.u256
proofResponse = await client.eth_getProof(address, @[slot2Key], blockId(1'u64)) proofResponse = await client.eth_getProof(address, @[slot2Key], blockId(1'u64))
storageProof = proofResponse.storageProof storageProof = proofResponse.storageProof
@ -732,17 +695,13 @@ proc rpcMain*() =
storageProof.len() == 1 storageProof.len() == 1
verifySlotProof(proofResponse.storageHash, storageProof[0]).isValid() verifySlotProof(proofResponse.storageHash, storageProof[0]).isValid()
test "eth_getBlockReceipts": close(client, server)
let recs = await client.eth_getBlockReceipts(blockId("latest"))
check recs.isSome
if recs.isSome:
let receipts = recs.get
check receipts.len == 2
check receipts[0].transactionIndex == 0.Quantity
check receipts[1].transactionIndex == 1.Quantity
rpcServer.stop() proc setErrorLevel* =
rpcServer.close() discard
when defined(chronicles_runtime_filtering) and loggingEnabled:
setLogLevel(LogLevel.ERROR)
when isMainModule: when isMainModule:
setErrorLevel()
rpcMain() rpcMain()