nimbus-eth1/fluffy/scripts/test_portal_testnet.nim

532 lines
20 KiB
Nim

# Nimbus
# Copyright (c) 2021 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
import
os,
std/sequtils,
unittest2, testutils, confutils, chronos,
stew/byteutils,
eth/p2p/discoveryv5/random2, eth/keys,
../../nimbus/rpc/[hexstrings, rpc_types],
../rpc/portal_rpc_client,
../rpc/eth_rpc_client,
../data/[history_data_seeding, history_data_parser],
../network/history/[history_content, accumulator],
../seed_db
type
FutureCallback[A] = proc (): Future[A] {.gcsafe, raises: [Defect].}
CheckCallback[A] = proc (a: A): bool {.gcsafe, raises: [Defect].}
PortalTestnetConf* = object
nodeCount* {.
defaultValue: 17
desc: "Number of nodes to test"
name: "node-count" .}: int
rpcAddress* {.
desc: "Listening address of the JSON-RPC service for all nodes"
defaultValue: "127.0.0.1"
name: "rpc-address" }: string
baseRpcPort* {.
defaultValue: 7000
desc: "Port of the JSON-RPC service of the bootstrap (first) node"
name: "base-rpc-port" .}: uint16
proc buildHeadersWithProof*(
blockHeaders: seq[BlockHeader],
epochAccumulator: EpochAccumulatorCached):
Result[seq[(seq[byte], seq[byte])], string] =
var blockHeadersWithProof: seq[(seq[byte], seq[byte])]
for header in blockHeaders:
if header.isPreMerge():
let
content = ? buildHeaderWithProof(header, epochAccumulator)
contentKey = ContentKey(
contentType: blockHeaderWithProof,
blockHeaderWithProofKey: BlockKey(blockHash: header.blockHash()))
blockHeadersWithProof.add(
(encode(contentKey).asSeq(), SSZ.encode(content)))
ok(blockHeadersWithProof)
proc connectToRpcServers(config: PortalTestnetConf):
Future[seq[RpcClient]] {.async.} =
var clients: seq[RpcClient]
for i in 0..<config.nodeCount:
let client = newRpcHttpClient()
await client.connect(
config.rpcAddress, Port(config.baseRpcPort + uint16(i)), false)
clients.add(client)
return clients
proc withRetries[A](
f: FutureCallback[A],
check: CheckCallback[A],
numRetries: int,
initialWait: Duration,
checkFailMessage: string,
nodeIdx: int): Future[A] {.async.} =
## Retries given future callback until either:
## it returns successfuly and given check is true
## or
## function reaches max specified retries
var tries = 0
var currentDuration = initialWait
while true:
try:
let res = await f()
if check(res):
return res
else:
raise newException(ValueError, checkFailMessage)
except CatchableError as exc:
if tries > numRetries:
# if we reached max number of retries fail
let msg = "Call failed with msg: " & exc.msg & ", for node with idx: " & $nodeIdx
raise newException(ValueError, msg)
inc tries
# wait before new retry
await sleepAsync(currentDuration)
currentDuration = currentDuration * 2
# Sometimes we need to wait till data will be propagated over the network.
# To avoid long sleeps, this combinator can be used to retry some calls until
# success or until some condition hold (or both)
proc retryUntil[A](
f: FutureCallback[A],
c: CheckCallback[A],
checkFailMessage: string,
nodeIdx: int): Future[A] =
# some reasonable limits, which will cause waits as: 1, 2, 4, 8, 16, 32 seconds
return withRetries(f, c, 1, seconds(1), checkFailMessage, nodeIdx)
# Note:
# When doing json-rpc requests following `RpcPostError` can occur:
# "Failed to send POST Request with JSON-RPC." when a `HttpClientRequestRef`
# POST request is send in the json-rpc http client.
# This error is raised when the httpclient hits error:
# "Could not send request headers", which in its turn is caused by the
# "Incomplete data sent or received" in `AsyncStream`, which is caused by
# `ECONNRESET` or `EPIPE` error (see `isConnResetError()`) on the TCP stream.
# This can occur when the server side closes the connection, which happens after
# a `httpHeadersTimeout` of default 10 seconds (set on `HttpServerRef.new()`).
# In order to avoid here hitting this timeout a `close()` is done after each
# json-rpc call. Because the first json-rpc call opens up the connection, and it
# remains open until a close() (or timeout). No need to do another connect
# before any new call as the proc `connectToRpcServers` doesn't actually connect
# to servers, as client.connect doesn't do that. It just sets the `httpAddress`.
# Yes, this client json rpc API couldn't be more confusing.
# Could also just retry each call on failure, which would set up a new
# connection.
# We are kind of abusing the unittest2 here to run json rpc tests against other
# processes. Needs to be compiled with `-d:unittest2DisableParamFiltering` or
# the confutils cli will not work.
procSuite "Portal testnet tests":
let config = PortalTestnetConf.load()
let rng = newRng()
asyncTest "Discv5 - Random node lookup from each node":
let clients = await connectToRpcServers(config)
var nodeInfos: seq[NodeInfo]
for client in clients:
let nodeInfo = await client.discv5_nodeInfo()
await client.close()
nodeInfos.add(nodeInfo)
# Kick off the network by trying to add all records to each node.
# These nodes are also set as seen, so they get passed along on findNode
# requests.
# Note: The amount of Records added here can be less but then the
# probability that all nodes will still be reached needs to be calculated.
# Note 2: One could also ping all nodes but that is much slower and more
# error prone
for client in clients:
discard await client.discv5_addEnrs(nodeInfos.map(
proc(x: NodeInfo): Record = x.nodeENR))
await client.close()
for client in clients:
let routingTableInfo = await client.discv5_routingTableInfo()
await client.close()
var start: seq[NodeId]
let nodes = foldl(routingTableInfo.buckets, a & b, start)
# A node will have at least the first bucket filled. One could increase
# this based on the probability that x amount of nodes fit in the buckets.
check nodes.len >= (min(config.nodeCount - 1, 16))
# grab a random node its `NodeInfo` and lookup that node from all nodes.
let randomNodeInfo = sample(rng[], nodeInfos)
for client in clients:
var enr: Record
enr = await client.discv5_lookupEnr(randomNodeInfo.nodeId)
check enr == randomNodeInfo.nodeENR
await client.close()
asyncTest "Portal State - Random node lookup from each node":
let clients = await connectToRpcServers(config)
var nodeInfos: seq[NodeInfo]
for client in clients:
let nodeInfo = await client.portal_state_nodeInfo()
await client.close()
nodeInfos.add(nodeInfo)
for client in clients:
discard await client.portal_state_addEnrs(nodeInfos.map(
proc(x: NodeInfo): Record = x.nodeENR))
await client.close()
for client in clients:
let routingTableInfo = await client.portal_state_routingTableInfo()
await client.close()
var start: seq[NodeId]
let nodes = foldl(routingTableInfo.buckets, a & b, start)
check nodes.len >= (min(config.nodeCount - 1, 16))
# grab a random node its `NodeInfo` and lookup that node from all nodes.
let randomNodeInfo = sample(rng[], nodeInfos)
for client in clients:
var enr: Record
try:
enr = await client.portal_state_lookupEnr(randomNodeInfo.nodeId)
except CatchableError as e:
echo e.msg
# TODO: For state network this occasionally fails. It might be because the
# distance function is not used in all locations, or perhaps it just
# doesn't converge to the target always with this distance function. To be
# further investigated.
skip()
# check enr == randomNodeInfo.nodeENR
await client.close()
asyncTest "Portal History - Random node lookup from each node":
let clients = await connectToRpcServers(config)
var nodeInfos: seq[NodeInfo]
for client in clients:
let nodeInfo = await client.portal_history_nodeInfo()
await client.close()
nodeInfos.add(nodeInfo)
for client in clients:
discard await client.portal_history_addEnrs(nodeInfos.map(
proc(x: NodeInfo): Record = x.nodeENR))
await client.close()
for client in clients:
let routingTableInfo = await client.portal_history_routingTableInfo()
await client.close()
var start: seq[NodeId]
let nodes = foldl(routingTableInfo.buckets, a & b, start)
check nodes.len >= (min(config.nodeCount - 1, 16))
# grab a random node its `NodeInfo` and lookup that node from all nodes.
let randomNodeInfo = sample(rng[], nodeInfos)
for client in clients:
var enr: Record
enr = await client.portal_history_lookupEnr(randomNodeInfo.nodeId)
await client.close()
check enr == randomNodeInfo.nodeENR
asyncTest "Portal History - Propagate blocks and do content lookups":
const
headerFile = "./vendor/portal-spec-tests/tests/mainnet/history/headers/1000001-1000010.e2s"
accumulatorFile = "./vendor/portal-spec-tests/tests/mainnet/history/accumulator/epoch-accumulator-00122.ssz"
blockDataFile = "./fluffy/tests/blocks/mainnet_blocks_1000001_1000010.json"
let
blockHeaders = readBlockHeaders(headerFile).valueOr:
raiseAssert "Invalid header file: " & headerFile
epochAccumulator = readEpochAccumulatorCached(accumulatorFile).valueOr:
raiseAssert "Invalid epoch accumulator file: " & accumulatorFile
blockHeadersWithProof =
buildHeadersWithProof(blockHeaders, epochAccumulator).valueOr:
raiseAssert "Could not build headers with proof"
blockData =
readJsonType(blockDataFile, BlockDataTable).valueOr:
raiseAssert "Invalid block data file" & blockDataFile
clients = await connectToRpcServers(config)
# Gossiping all block headers with proof first, as bodies and receipts
# require them for validation.
for (content, contentKey) in blockHeadersWithProof:
discard (await clients[0].portal_history_offer(
content.toHex(), contentKey.toHex()))
# This will fill the first node its db with blocks from the data file. Next,
# this node wil offer all these blocks their headers one by one.
check (await clients[0].portal_history_propagate(blockDataFile))
await clients[0].close()
for i, client in clients:
# Note: Once there is the Canonical Indices Network, we don't need to
# access this file anymore here for the block hashes.
for hash in blockData.blockHashes():
# Note: More flexible approach instead of generic retries could be to
# add a json-rpc debug proc that returns whether the offer queue is empty or
# not. And then poll every node until all nodes have an empty queue.
let content = await retryUntil(
proc (): Future[Option[BlockObject]] {.async.} =
try:
let res = await client.eth_getBlockByHash(hash.ethHashStr(), false)
await client.close()
return res
except CatchableError as exc:
await client.close()
raise exc
,
proc (mc: Option[BlockObject]): bool = return mc.isSome(),
"Did not receive expected Block with hash " & hash.data.toHex(),
i
)
check content.isSome()
let blockObj = content.get()
check blockObj.hash.get() == hash
for tx in blockObj.transactions:
var txObj: TransactionObject
tx.fromJson("tx", txObj)
check txObj.blockHash.get() == hash
let filterOptions = FilterOptions(
blockHash: some(hash)
)
let logs = await retryUntil(
proc (): Future[seq[FilterLog]] {.async.} =
try:
let res = await client.eth_getLogs(filterOptions)
await client.close()
return res
except CatchableError as exc:
await client.close()
raise exc
,
proc (mc: seq[FilterLog]): bool = return true,
"",
i
)
for l in logs:
check:
l.blockHash == some(hash)
# TODO: Check ommersHash, need the headers and not just the hashes
# for uncle in blockObj.uncles:
# discard
await client.close()
asyncTest "Portal History - Propagate content from seed db":
# Skipping this as it seems to fail now at offerContentInNodeRange, likely
# due to not being possibly to validate block bodies. This would mean the
# test is flawed and block headers should be offered before bodies and
# receipts.
# TODO: Split this up and activate test
skip()
# const
# headerFile = "./vendor/portal-spec-tests/tests/mainnet/history/headers/1000011-1000030.e2s"
# accumulatorFile = "./vendor/portal-spec-tests/tests/mainnet/history/accumulator/epoch-accumulator-00122.ssz"
# blockDataFile = "./fluffy/tests/blocks/mainnet_blocks_1000011_1000030.json"
# # Path for the temporary db. A separate dir is used as sqlite usually also
# # creates wal files.
# tempDbPath = "./fluffy/tests/blocks/tempDir/mainnet_blocks_1000011_1000030.sqlite3"
# let
# blockHeaders = readBlockHeaders(headerFile).valueOr:
# raiseAssert "Invalid header file: " & headerFile
# epochAccumulator = readEpochAccumulatorCached(accumulatorFile).valueOr:
# raiseAssert "Invalid epoch accumulator file: " & accumulatorFile
# blockHeadersWithProof =
# buildHeadersWithProof(blockHeaders, epochAccumulator).valueOr:
# raiseAssert "Could not build headers with proof"
# blockData =
# readJsonType(blockDataFile, BlockDataTable).valueOr:
# raiseAssert "Invalid block data file" & blockDataFile
# clients = await connectToRpcServers(config)
# var nodeInfos: seq[NodeInfo]
# for client in clients:
# let nodeInfo = await client.portal_history_nodeInfo()
# await client.close()
# nodeInfos.add(nodeInfo)
# let (dbFile, dbName) = getDbBasePathAndName(tempDbPath).unsafeGet()
# createDir(dbFile)
# let db = SeedDb.new(path = dbFile, name = dbName)
# defer:
# db.close()
# removeDir(dbFile)
# # Fill seed db with block headers with proof
# for (content, contentKey) in blockHeadersWithProof:
# let contentId = history_content.toContentId(ByteList(contentKey))
# db.put(contentId, contentKey, content)
# # Fill seed db with block bodies and receipts
# for t in blocksContent(blockData, false):
# db.put(t[0], t[1], t[2])
# let lastNodeIdx = len(nodeInfos) - 1
# # Store content in node 0 database
# check (await clients[0].portal_history_storeContentInNodeRange(
# tempDbPath, 100, 0))
# await clients[0].close()
# # Offer content to node 1..63
# for i in 1..lastNodeIdx:
# let recipientId = nodeInfos[i].nodeId
# let offerResponse = await retryUntil(
# proc (): Future[int] {.async.} =
# try:
# let res = await clients[0].portal_history_offerContentInNodeRange(
# tempDbPath, recipientId, 64, 0)
# await clients[0].close()
# return res
# except CatchableError as exc:
# await clients[0].close()
# raise exc
# ,
# proc (os: int): bool = return true,
# "Offer failed",
# i
# )
# check:
# offerResponse > 0
# for i, client in clients:
# # Note: Once there is the Canonical Indices Network, we don't need to
# # access this file anymore here for the block hashes.
# for hash in blockData.blockHashes():
# let content = await retryUntil(
# proc (): Future[Option[BlockObject]] {.async.} =
# try:
# let res = await client.eth_getBlockByHash(hash.ethHashStr(), false)
# await client.close()
# return res
# except CatchableError as exc:
# await client.close()
# raise exc
# ,
# proc (mc: Option[BlockObject]): bool = return mc.isSome(),
# "Did not receive expected Block with hash " & hash.data.toHex(),
# i
# )
# check content.isSome()
# let blockObj = content.get()
# check blockObj.hash.get() == hash
# for tx in blockObj.transactions:
# var txObj: TransactionObject
# tx.fromJson("tx", txObj)
# check txObj.blockHash.get() == hash
# await client.close()
asyncTest "Portal History - Propagate content from seed db in depth first fashion":
# Skipping this test as it is flawed considering block headers should be
# offered before bodies and receipts.
# TODO: Split this up and activate test
skip()
# const
# headerFile = "./vendor/portal-spec-tests/tests/mainnet/history/headers/1000011-1000030.e2s"
# accumulatorFile = "./vendor/portal-spec-tests/tests/mainnet/history/accumulator/epoch-accumulator-00122.ssz"
# # Different set of data for each test as tests are statefull so previously
# # propagated content is still in the network
# blockDataFile = "./fluffy/tests/blocks/mainnet_blocks_1000040_1000050.json"
# # Path for the temporary db. A separate dir is used as sqlite usually also
# # creates wal files.
# tempDbPath = "./fluffy/tests/blocks/tempDir/mainnet_blocks_1000040_100050.sqlite3"
# let
# blockHeaders = readBlockHeaders(headerFile).valueOr:
# raiseAssert "Invalid header file: " & headerFile
# epochAccumulator = readEpochAccumulatorCached(accumulatorFile).valueOr:
# raiseAssert "Invalid epoch accumulator file: " & accumulatorFile
# blockHeadersWithProof =
# buildHeadersWithProof(blockHeaders, epochAccumulator).valueOr:
# raiseAssert "Could not build headers with proof"
# blockData =
# readJsonType(blockDataFile, BlockDataTable).valueOr:
# raiseAssert "Invalid block data file" & blockDataFile
# clients = await connectToRpcServers(config)
# var nodeInfos: seq[NodeInfo]
# for client in clients:
# let nodeInfo = await client.portal_history_nodeInfo()
# await client.close()
# nodeInfos.add(nodeInfo)
# let (dbFile, dbName) = getDbBasePathAndName(tempDbPath).unsafeGet()
# createDir(dbFile)
# let db = SeedDb.new(path = dbFile, name = dbName)
# defer:
# db.close()
# removeDir(dbFile)
# # Fill seed db with block headers with proof
# for (content, contentKey) in blockHeadersWithProof:
# let contentId = history_content.toContentId(ByteList(contentKey))
# db.put(contentId, contentKey, content)
# # Fill seed db with block bodies and receipts
# for t in blocksContent(blockData, false):
# db.put(t[0], t[1], t[2])
# check (await clients[0].portal_history_depthContentPropagate(tempDbPath, 64))
# await clients[0].close()
# for i, client in clients:
# # Note: Once there is the Canonical Indices Network, we don't need to
# # access this file anymore here for the block hashes.
# for hash in blockData.blockHashes():
# let content = await retryUntil(
# proc (): Future[Option[BlockObject]] {.async.} =
# try:
# let res = await client.eth_getBlockByHash(hash.ethHashStr(), false)
# await client.close()
# return res
# except CatchableError as exc:
# await client.close()
# raise exc
# ,
# proc (mc: Option[BlockObject]): bool = return mc.isSome(),
# "Did not receive expected Block with hash " & hash.data.toHex(),
# i
# )
# check content.isSome()
# let blockObj = content.get()
# check blockObj.hash.get() == hash
# for tx in blockObj.transactions:
# var txObj: TransactionObject
# tx.fromJson("tx", txObj)
# check txObj.blockHash.get() == hash
# await client.close()