nim-dagger/tests/integration/testIntegration.nim

271 lines
11 KiB
Nim

import std/options
import std/sequtils
import std/httpclient
from pkg/libp2p import `==`
import pkg/chronos
import pkg/stint
import pkg/codex/rng
import pkg/stew/byteutils
import pkg/ethers/erc20
import pkg/codex/contracts
import ../contracts/time
import ../contracts/deployment
import ../codex/helpers
import ../examples
import ./twonodes
# For debugging you can enable logging output with debugX = true
# You can also pass a string in same format like for the `--log-level` parameter
# to enable custom logging levels for specific topics like: debug2 = "INFO; TRACE: marketplace"
twonodessuite "Integration tests", debug1 = false, debug2 = false:
setup:
# Our Hardhat configuration does use automine, which means that time tracked by `ethProvider.currentTime()` is not
# advanced until blocks are mined and that happens only when transaction is submitted.
# As we use in tests ethProvider.currentTime() which uses block timestamp this can lead to synchronization issues.
await ethProvider.advanceTime(1.u256)
test "nodes can print their peer information":
check client1.info() != client2.info()
test "nodes can set chronicles log level":
client1.setLogLevel("DEBUG;TRACE:codex")
test "node accepts file uploads":
let cid1 = client1.upload("some file contents").get
let cid2 = client1.upload("some other contents").get
check cid1 != cid2
test "node shows used and available space":
discard client1.upload("some file contents").get
discard client1.postAvailability(size=12.u256, duration=2.u256, minPrice=3.u256, maxCollateral=4.u256).get
let space = client1.space().tryGet()
check:
space.totalBlocks == 2.uint
space.quotaMaxBytes == 8589934592.uint
space.quotaUsedBytes == 65592.uint
space.quotaReservedBytes == 12.uint
test "node allows local file downloads":
let content1 = "some file contents"
let content2 = "some other contents"
let cid1 = client1.upload(content1).get
let cid2 = client2.upload(content2).get
let resp1 = client1.download(cid1, local = true).get
let resp2 = client2.download(cid2, local = true).get
check:
content1 == resp1
content2 == resp2
test "node allows remote file downloads":
let content1 = "some file contents"
let content2 = "some other contents"
let cid1 = client1.upload(content1).get
let cid2 = client2.upload(content2).get
let resp2 = client1.download(cid2, local = false).get
let resp1 = client2.download(cid1, local = false).get
check:
content1 == resp1
content2 == resp2
test "node fails retrieving non-existing local file":
let content1 = "some file contents"
let cid1 = client1.upload(content1).get # upload to first node
let resp2 = client2.download(cid1, local = true) # try retrieving from second node
check:
resp2.error.msg == "404 Not Found"
test "node lists local files":
let content1 = "some file contents"
let content2 = "some other contents"
let cid1 = client1.upload(content1).get
let cid2 = client1.upload(content2).get
let list = client1.list().get
check:
[cid1, cid2].allIt(it in list.mapIt(it.cid))
test "node handles new storage availability":
let availability1 = client1.postAvailability(size=1.u256, duration=2.u256, minPrice=3.u256, maxCollateral=4.u256).get
let availability2 = client1.postAvailability(size=4.u256, duration=5.u256, minPrice=6.u256, maxCollateral=7.u256).get
check availability1 != availability2
test "node lists storage that is for sale":
let availability = client1.postAvailability(size=1.u256, duration=2.u256, minPrice=3.u256, maxCollateral=4.u256).get
check availability in client1.getAvailabilities().get
test "node handles storage request":
let expiry = (await ethProvider.currentTime()) + 10
let cid = client1.upload("some file contents").get
let id1 = client1.requestStorage(cid, duration=100.u256, reward=2.u256, proofProbability=3.u256, expiry=expiry, collateral=200.u256).get
let id2 = client1.requestStorage(cid, duration=400.u256, reward=5.u256, proofProbability=6.u256, expiry=expiry, collateral=201.u256).get
check id1 != id2
test "node retrieves purchase status":
# get one contiguous chunk
let rng = rng.Rng.instance()
let chunker = RandomChunker.new(rng, size = DefaultBlockSize * 2, chunkSize = DefaultBlockSize * 2)
let data = await chunker.getBytes()
let cid = client1.upload(byteutils.toHex(data)).get
let expiry = (await ethProvider.currentTime()) + 30
let id = client1.requestStorage(
cid,
duration=100.u256,
reward=2.u256,
proofProbability=3.u256,
expiry=expiry,
collateral=200.u256,
nodes=2,
tolerance=1).get
let request = client1.getPurchase(id).get.request.get
check request.ask.duration == 100.u256
check request.ask.reward == 2.u256
check request.ask.proofProbability == 3.u256
check request.expiry == expiry
check request.ask.collateral == 200.u256
check request.ask.slots == 2'u64
check request.ask.maxSlotLoss == 1'u64
# TODO: We currently do not support encoding single chunks
# test "node retrieves purchase status with 1 chunk":
# let expiry = (await ethProvider.currentTime()) + 30
# let cid = client1.upload("some file contents").get
# let id = client1.requestStorage(cid, duration=1.u256, reward=2.u256, proofProbability=3.u256, expiry=expiry, collateral=200.u256, nodes=2, tolerance=1).get
# let request = client1.getPurchase(id).get.request.get
# check request.ask.duration == 1.u256
# check request.ask.reward == 2.u256
# check request.ask.proofProbability == 3.u256
# check request.expiry == expiry
# check request.ask.collateral == 200.u256
# check request.ask.slots == 3'u64
# check request.ask.maxSlotLoss == 1'u64
test "node remembers purchase status after restart":
let expiry = (await ethProvider.currentTime()) + 30
let cid = client1.upload("some file contents").get
let id = client1.requestStorage(cid,
duration=100.u256,
reward=2.u256,
proofProbability=3.u256,
expiry=expiry,
collateral=200.u256).get
check eventually client1.purchaseStateIs(id, "submitted")
node1.restart()
client1.restart()
check eventually client1.purchaseStateIs(id, "submitted")
let request = client1.getPurchase(id).get.request.get
check request.ask.duration == 100.u256
check request.ask.reward == 2.u256
check request.ask.proofProbability == 3.u256
check request.expiry == expiry
check request.ask.collateral == 200.u256
check request.ask.slots == 1'u64
check request.ask.maxSlotLoss == 0'u64
test "nodes negotiate contracts on the marketplace":
let size = 0xFFFFFF.u256
let data = await RandomChunker.example(blocks=8)
# client 2 makes storage available
discard client2.postAvailability(size=size, duration=20*60.u256, minPrice=300.u256, maxCollateral=300.u256)
# client 1 requests storage
let expiry = (await ethProvider.currentTime()) + 5*60
let cid = client1.upload(data).get
let id = client1.requestStorage(
cid,
duration=10*60.u256,
reward=400.u256,
proofProbability=3.u256,
expiry=expiry,
collateral=200.u256,
nodes = 5,
tolerance = 2).get
check eventually(client1.purchaseStateIs(id, "started"), timeout=5*60*1000)
let purchase = client1.getPurchase(id).get
check purchase.error == none string
let availabilities = client2.getAvailabilities().get
check availabilities.len == 1
let newSize = availabilities[0].size
check newSize > 0 and newSize < size
test "node slots gets paid out":
let size = 0xFFFFFF.u256
let data = await RandomChunker.example(blocks = 8)
let marketplace = Marketplace.new(Marketplace.address, ethProvider.getSigner())
let tokenAddress = await marketplace.token()
let token = Erc20Token.new(tokenAddress, ethProvider.getSigner())
let reward = 400.u256
let duration = 10*60.u256
let nodes = 5'u
# client 2 makes storage available
let startBalance = await token.balanceOf(account2)
discard client2.postAvailability(size=size, duration=20*60.u256, minPrice=300.u256, maxCollateral=300.u256).get
# client 1 requests storage
let expiry = (await ethProvider.currentTime()) + 5*60
let cid = client1.upload(data).get
let id = client1.requestStorage(
cid,
duration=duration,
reward=reward,
proofProbability=3.u256,
expiry=expiry,
collateral=200.u256,
nodes = nodes,
tolerance = 2).get
check eventually(client1.purchaseStateIs(id, "started"), timeout=5*60*1000)
let purchase = client1.getPurchase(id).get
check purchase.error == none string
# Proving mechanism uses blockchain clock to do proving/collect/cleanup round
# hence we must use `advanceTime` over `sleepAsync` as Hardhat does mine new blocks
# only with new transaction
await ethProvider.advanceTime(duration)
check eventually (await token.balanceOf(account2)) - startBalance == duration*reward*nodes.u256
test "request storage fails if nodes and tolerance aren't correct":
let cid = client1.upload("some file contents").get
let expiry = (await ethProvider.currentTime()) + 30
let responseBefore = client1.requestStorageRaw(cid,
duration=100.u256,
reward=2.u256,
proofProbability=3.u256,
expiry=expiry,
collateral=200.u256,
nodes=1,
tolerance=1)
check responseBefore.status == "400 Bad Request"
check responseBefore.body == "Tolerance cannot be greater or equal than nodes (nodes - tolerance)"
test "node requires expiry and its value to be in future":
let currentTime = await ethProvider.currentTime()
let cid = client1.upload("some file contents").get
let responseMissing = client1.requestStorageRaw(cid, duration=1.u256, reward=2.u256, proofProbability=3.u256, collateral=200.u256)
check responseMissing.status == "400 Bad Request"
check responseMissing.body == "Expiry required"
let responsePast = client1.requestStorageRaw(cid, duration=1.u256, reward=2.u256, proofProbability=3.u256, collateral=200.u256, expiry=currentTime-10)
check responsePast.status == "400 Bad Request"
check responsePast.body == "Expiry needs to be in future"
let responseBefore = client1.requestStorageRaw(cid, duration=1.u256, reward=2.u256, proofProbability=3.u256, collateral=200.u256, expiry=currentTime+10)
check responseBefore.status == "400 Bad Request"
check responseBefore.body == "Expiry has to be before the request's end (now + duration)"