nim-dagger/codex/slots/builder.nim

328 lines
9.4 KiB
Nim

## Nim-Codex
## Copyright (c) 2023 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/math
import std/sequtils
import std/sugar
import pkg/libp2p
import pkg/chronos
import pkg/chronicles
import pkg/questionable/results
import pkg/poseidon2
import pkg/poseidon2/io
import pkg/constantine/math/arithmetic/finite_fields
import ../indexingstrategy
import ../merkletree
import ../stores
import ../manifest
import ../utils
import ../utils/asynciter
import ../utils/digest
import ../utils/poseidon2digest
import ./converters
export converters
const
# TODO: Unified with the CellSize specified in branch "data-sampler"
# in the proving circuit.
CellSize* = 2048
DefaultEmptyBlock* = newSeq[byte](DefaultBlockSize.int)
DefaultEmptyCell* = newSeq[byte](DefaultCellSize.int)
type
# TODO: should be a generic type that
# supports all merkle trees
SlotsBuilder* = ref object of RootObj
store: BlockStore
manifest: Manifest
strategy: IndexingStrategy
cellSize: int
blockEmptyDigest: Poseidon2Hash
blockPadBytes: seq[byte]
slotsPadLeafs: seq[Poseidon2Hash]
rootsPadLeafs: seq[Poseidon2Hash]
slotRoots: seq[Poseidon2Hash]
verifyRoot: ?Poseidon2Hash
func slotRoots*(self: SlotsBuilder): seq[Poseidon2Hash] {.inline.} =
## Returns the slot roots.
##
self.slotRoots
func verifyRoot*(self: SlotsBuilder): ?Poseidon2Hash {.inline.} =
## Returns the slots root (verification root).
##
self.verifyRoot
func nextPowerOfTwoPad*(a: int): int =
## Returns the difference between the original
## value and the next power of two.
##
nextPowerOfTwo(a) - a
func numBlockPadBytes*(self: SlotsBuilder): Natural =
## Number of padding bytes required for a pow2
## merkle tree for each block.
##
self.blockPadBytes.len
func numSlotsPadLeafs*(self: SlotsBuilder): Natural =
## Number of padding field elements required for a pow2
## merkle tree for each slot.
##
self.slotsPadLeafs.len
func numRootsPadLeafs*(self: SlotsBuilder): Natural =
## Number of padding field elements required for a pow2
## merkle tree for the slot roots.
##
self.rootsPadLeafs.len
func numSlots*(self: SlotsBuilder): Natural =
## Number of slots.
##
self.manifest.numSlots
func numSlotBlocks*(self: SlotsBuilder): Natural =
## Number of blocks per slot.
##
self.manifest.blocksCount div self.manifest.numSlots
func slotBytes*(self: SlotsBuilder): NBytes =
## Number of bytes per slot.
##
(self.manifest.blockSize.int * self.numSlotBlocks).NBytes
func numBlockCells*(self: SlotsBuilder): Natural =
## Number of cells per block.
##
self.manifest.blockSize.int div self.cellSize
func slotIndicies*(self: SlotsBuilder, slot: Natural): ?!Iter[int] =
## Returns the slot indices.
## TODO: should return an iterator
##
self.strategy.getIndicies(slot).catch
proc getCellHashes*(
self: SlotsBuilder,
slotIndex: int): Future[?!seq[Poseidon2Hash]] {.async.} =
let
treeCid = self.manifest.treeCid
blockCount = self.manifest.blocksCount
numberOfSlots = self.manifest.numSlots
logScope:
treeCid = treeCid
blockCount = blockCount
numberOfSlots = numberOfSlots
index = blockIndex
slotIndex = slotIndex
let
hashes: seq[Poseidon2Hash] = collect(newSeq):
for blockIndex in self.strategy.getIndicies(slotIndex):
trace "Getting block CID for tree at index"
without blk =? (await self.store.getBlock(treeCid, blockIndex)), err:
error "Failed to get block CID for tree at index"
return failure(err)
if blk.isEmpty:
self.blockEmptyDigest
else:
without digest =? Poseidon2Tree.digest(blk.data & self.blockPadBytes, self.cellSize), err:
error "Failed to create digest for block"
return failure(err)
digest
success hashes
proc buildSlotTree*(
self: SlotsBuilder,
slotIndex: int): Future[?!Poseidon2Tree] {.async.} =
without cellHashes =? (await self.getCellHashes(slotIndex)), err:
error "Failed to select slot blocks", err = err.msg
return failure(err)
Poseidon2Tree.init(cellHashes & self.slotsPadLeafs)
proc buildSlot*(
self: SlotsBuilder,
slotIndex: Natural): Future[?!Poseidon2Hash] {.async.} =
## Build a slot tree and store it in the block store.
##
logScope:
cid = self.manifest.treeCid
slotIndex = slotIndex
trace "Building slot tree"
without tree =? (await self.buildSlotTree(slotIndex)) and
treeCid =? tree.root.?toSlotCid, err:
error "Failed to build slot tree", err = err.msg
return failure(err)
trace "Storing slot tree", treeCid, slotIndex, leaves = tree.leavesCount
for i, leaf in tree.leaves:
without cellCid =? leaf.toCellCid, err:
error "Failed to get CID for slot cell", err = err.msg
return failure(err)
without proof =? tree.getProof(i) and
encodableProof =? proof.toEncodableProof, err:
error "Failed to get proof for slot tree", err = err.msg
return failure(err)
if err =? (await self.store.putCidAndProof(
treeCid, i, cellCid, encodableProof)).errorOption:
error "Failed to store slot tree", err = err.msg
return failure(err)
tree.root()
func buildRootsTree*(
self: SlotsBuilder,
slotRoots: openArray[Poseidon2Hash]): ?!Poseidon2Tree =
Poseidon2Tree.init(@slotRoots & self.rootsPadLeafs)
proc buildSlots*(self: SlotsBuilder): Future[?!void] {.async.} =
## Build all slot trees and store them in the block store.
##
logScope:
cid = self.manifest.treeCid
blockCount = self.manifest.blocksCount
trace "Building slots"
if self.slotRoots.len == 0:
self.slotRoots = collect(newSeq):
for i in 0..<self.manifest.numSlots:
without slotRoot =? (await self.buildSlot(i)), err:
error "Failed to build slot", err = err.msg, index = i
return failure(err)
slotRoot
without root =? self.buildRootsTree(self.slotRoots).?root(), err:
error "Failed to build slot roots tree", err = err.msg
return failure(err)
if self.verifyRoot.isSome and self.verifyRoot.get != root: # TODO: `!=` doesn't work for SecretBool
return failure "Existing slots root doesn't match reconstructed root."
else:
self.verifyRoot = some root
success()
proc buildManifest*(self: SlotsBuilder): Future[?!Manifest] {.async.} =
if err =? (await self.buildSlots()).errorOption:
error "Failed to build slot roots", err = err.msg
return failure(err)
without rootCids =? self.slotRoots.toSlotCids(), err:
error "Failed to map slot roots to CIDs", err = err.msg
return failure(err)
without rootProvingCidRes =? self.verifyRoot.?toSlotsRootsCid() and
rootProvingCid =? rootProvingCidRes, err: # TODO: why doesn't `.?` unpack the result?
error "Failed to map slot roots to CIDs", err = err.msg
return failure(err)
Manifest.new(self.manifest, rootProvingCid, rootCids)
proc new*(
T: type SlotsBuilder,
store: BlockStore,
manifest: Manifest,
strategy: ?IndexingStrategy = none IndexingStrategy,
cellSize = CellSize): ?!SlotsBuilder =
if not manifest.protected:
return failure("Can only create SlotsBuilder using protected manifests.")
if (manifest.blocksCount mod manifest.numSlots) != 0:
return failure("Number of blocks must be divisable by number of slots.")
if (manifest.blockSize.int mod cellSize) != 0:
return failure("Block size must be divisable by cell size.")
let
strategy = if strategy.isNone:
? SteppedIndexingStrategy.new(
0, manifest.blocksCount - 1, manifest.numSlots).catch
else:
strategy.get
# all trees have to be padded to power of two
numBlockCells = manifest.blockSize.int div cellSize # number of cells per block
blockPadBytes = newSeq[byte](numBlockCells.nextPowerOfTwoPad * cellSize) # power of two padding for blocks
numSlotLeafs = (manifest.blocksCount div manifest.numSlots)
slotsPadLeafs = newSeqWith(numSlotLeafs.nextPowerOfTwoPad, Poseidon2Zero) # power of two padding for block roots
rootsPadLeafs = newSeqWith(manifest.numSlots.nextPowerOfTwoPad, Poseidon2Zero)
blockEmptyDigest = ? Poseidon2Tree.digest(DefaultEmptyBlock & blockPadBytes, CellSize)
var self = SlotsBuilder(
store: store,
manifest: manifest,
strategy: strategy,
cellSize: cellSize,
blockPadBytes: blockPadBytes,
slotsPadLeafs: slotsPadLeafs,
rootsPadLeafs: rootsPadLeafs,
blockEmptyDigest: blockEmptyDigest)
if manifest.verifiable:
if manifest.slotRoots.len == 0 or manifest.slotRoots.len != manifest.numSlots:
return failure "Manifest is verifiable but slot roots are missing or invalid."
let
slotRoot = ? Poseidon2Hash.fromBytes(
( ? manifest.verifyRoot.mhash.mapFailure ).digestBytes.toArray32
).toFailure
slotRoots = manifest.slotRoots.mapIt(
? Poseidon2Hash.fromBytes(
( ? it.mhash.mapFailure ).digestBytes.toArray32
).toFailure
)
without root =? self.buildRootsTree(slotRoots).?root(), err:
error "Failed to build slot roots tree", err = err.msg
return failure(err)
if slotRoot != root:
return failure "Existing slots root doesn't match reconstructed root."
self.slotRoots = slotRoots
self.verifyRoot = some slotRoot
success self