nim-codex/tests/codex/slots/testprover.nim

104 lines
2.7 KiB
Nim

import std/sequtils
import std/sugar
import std/math
import ../../asynctest
import pkg/chronos
import pkg/libp2p/cid
import pkg/datastore
import pkg/codex/merkletree
import pkg/codex/rng
import pkg/codex/manifest
import pkg/codex/chunker
import pkg/codex/blocktype as bt
import pkg/codex/slots
import pkg/codex/stores
import pkg/codex/conf
import pkg/confutils/defs
import pkg/poseidon2/io
import pkg/codex/utils/poseidon2digest
import ./helpers
import ../helpers
import ./backends/helpers
suite "Test Prover":
let
samples = 5
blockSize = DefaultBlockSize
cellSize = DefaultCellSize
repoTmp = TempLevelDb.new()
metaTmp = TempLevelDb.new()
challenge = 1234567.toF.toBytes.toArray32
var
store: BlockStore
prover: Prover
setup:
let
repoDs = repoTmp.newDb()
metaDs = metaTmp.newDb()
config = CodexConf(
cmd: StartUpCmd.persistence,
nat: ValidIpAddress.init("127.0.0.1"),
discoveryIp: ValidIpAddress.init(IPv4_any()),
metricsAddress: ValidIpAddress.init("127.0.0.1"),
persistenceCmd: PersistenceCmd.prover,
circomR1cs: InputFile("tests/circuits/fixtures/proof_main.r1cs"),
circomWasm: InputFile("tests/circuits/fixtures/proof_main.wasm"),
circomZkey: InputFile("tests/circuits/fixtures/proof_main.zkey"),
numProofSamples: samples
)
backend = config.initializeBackend().tryGet()
store = RepoStore.new(repoDs, metaDs)
prover = Prover.new(store, backend, config.numProofSamples)
teardown:
await repoTmp.destroyDb()
await metaTmp.destroyDb()
test "Should sample and prove a slot":
let
(_, _, verifiable) =
await createVerifiableManifest(
store,
8, # number of blocks in the original dataset (before EC)
5, # ecK
3, # ecM
blockSize,
cellSize)
let
(inputs, proof) = (
await prover.prove(1, verifiable, challenge)).tryGet
check:
(await prover.verify(proof, inputs)).tryGet == true
test "Should generate valid proofs when slots consist of single blocks":
# To get single-block slots, we just need to set the number of blocks in
# the original dataset to be the same as ecK. The total number of blocks
# after generating random data for parity will be ecK + ecM, which will
# match the number of slots.
let
(_, _, verifiable) =
await createVerifiableManifest(
store,
2, # number of blocks in the original dataset (before EC)
2, # ecK
1, # ecM
blockSize,
cellSize)
let
(inputs, proof) = (
await prover.prove(1, verifiable, challenge)).tryGet
check:
(await prover.verify(proof, inputs)).tryGet == true