## Nim-Codex ## Copyright (c) 2022 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. # This module defines all operations on Manifest import pkg/upraises push: {.upraises: [].} import pkg/libp2p/protobuf/minprotobuf import pkg/libp2p/[cid, multihash, multicodec] import pkg/questionable/results import ../errors import ../utils import ../utils/json import ../units import ../blocktype import ../logutils type Manifest* = ref object of RootObj treeCid {.serialize.}: Cid # Root of the merkle tree datasetSize {.serialize.}: NBytes # Total size of all blocks blockSize {.serialize.}: NBytes # Size of each contained block (might not be needed if blocks are len-prefixed) codec: MultiCodec # Dataset codec hcodec: MultiCodec # Multihash codec version: CidVersion # Cid version case protected {.serialize.}: bool # Protected datasets have erasure coded info of true: ecK: int # Number of blocks to encode ecM: int # Number of resulting parity blocks originalTreeCid: Cid # The original root of the dataset being erasure coded originalDatasetSize: NBytes case verifiable {.serialize.}: bool # Verifiable datasets can be used to generate storage proofs of true: verifyRoot: Cid # Root of the top level merkle tree built from slot roots slotRoots: seq[Cid] # Individual slot root built from the original dataset blocks else: discard else: discard ############################################################ # Accessors ############################################################ proc blockSize*(self: Manifest): NBytes = self.blockSize proc datasetSize*(self: Manifest): NBytes = self.datasetSize proc version*(self: Manifest): CidVersion = self.version proc hcodec*(self: Manifest): MultiCodec = self.hcodec proc codec*(self: Manifest): MultiCodec = self.codec proc protected*(self: Manifest): bool = self.protected proc ecK*(self: Manifest): int = self.ecK proc ecM*(self: Manifest): int = self.ecM proc originalTreeCid*(self: Manifest): Cid = self.originalTreeCid proc originalBlocksCount*(self: Manifest): int = divUp(self.originalDatasetSize.int, self.blockSize.int) proc originalDatasetSize*(self: Manifest): NBytes = self.originalDatasetSize proc treeCid*(self: Manifest): Cid = self.treeCid proc blocksCount*(self: Manifest): int = divUp(self.datasetSize.int, self.blockSize.int) proc verifiable*(self: Manifest): bool = self.verifiable proc verifyRoot*(self: Manifest): Cid = self.verifyRoot proc slotRoots*(self: Manifest): seq[Cid] = self.slotRoots proc numSlots*(self: Manifest): int = if not self.protected: 0 else: self.ecK + self.ecM ############################################################ # Operations on block list ############################################################ func isManifest*(cid: Cid): ?!bool = success (ManifestCodec == ? cid.contentType().mapFailure(CodexError)) func isManifest*(mc: MultiCodec): ?!bool = success mc == ManifestCodec ############################################################ # Various sizes and verification ############################################################ func bytes*(self: Manifest, pad = true): NBytes = ## Compute how many bytes corresponding StoreStream(Manifest, pad) will return if pad or self.protected: self.blocksCount.NBytes * self.blockSize else: self.datasetSize func rounded*(self: Manifest): int = ## Number of data blocks in *protected* manifest including padding at the end roundUp(self.originalBlocksCount, self.ecK) func steps*(self: Manifest): int = ## Number of EC groups in *protected* manifest divUp(self.originalBlocksCount, self.ecK) func verify*(self: Manifest): ?!void = ## Check manifest correctness ## if self.protected and (self.blocksCount != self.steps * (self.ecK + self.ecM)): return failure newException(CodexError, "Broken manifest: wrong originalBlocksCount") return success() proc cid*(self: Manifest): ?!Cid {.deprecated: "use treeCid instead".} = self.treeCid.success proc `==`*(a, b: Manifest): bool = (a.treeCid == b.treeCid) and (a.datasetSize == b.datasetSize) and (a.blockSize == b.blockSize) and (a.version == b.version) and (a.hcodec == b.hcodec) and (a.codec == b.codec) and (a.protected == b.protected) and (if a.protected: (a.ecK == b.ecK) and (a.ecM == b.ecM) and (a.originalTreeCid == b.originalTreeCid) and (a.originalDatasetSize == b.originalDatasetSize) and (a.verifiable == b.verifiable) and (if a.verifiable: (a.verifyRoot == b.verifyRoot) and (a.slotRoots == b.slotRoots) else: true) else: true) proc `$`*(self: Manifest): string = "treeCid: " & $self.treeCid & ", datasetSize: " & $self.datasetSize & ", blockSize: " & $self.blockSize & ", version: " & $self.version & ", hcodec: " & $self.hcodec & ", codec: " & $self.codec & ", protected: " & $self.protected & (if self.protected: ", ecK: " & $self.ecK & ", ecM: " & $self.ecM & ", originalTreeCid: " & $self.originalTreeCid & ", originalDatasetSize: " & $self.originalDatasetSize & ", verifiable: " & $self.verifiable & (if self.verifiable: ", verifyRoot: " & $self.verifyRoot & ", slotRoots: " & $self.slotRoots else: "") else: "") ############################################################ # Constructors ############################################################ proc new*( T: type Manifest, treeCid: Cid, blockSize: NBytes, datasetSize: NBytes, version: CidVersion = CIDv1, hcodec = Sha256HashCodec, codec = BlockCodec, protected = false): Manifest = T( treeCid: treeCid, blockSize: blockSize, datasetSize: datasetSize, version: version, codec: codec, hcodec: hcodec, protected: protected) proc new*( T: type Manifest, manifest: Manifest, treeCid: Cid, datasetSize: NBytes, ecK, ecM: int): Manifest = ## Create an erasure protected dataset from an ## unprotected one ## Manifest( treeCid: treeCid, datasetSize: datasetSize, version: manifest.version, codec: manifest.codec, hcodec: manifest.hcodec, blockSize: manifest.blockSize, protected: true, ecK: ecK, ecM: ecM, originalTreeCid: manifest.treeCid, originalDatasetSize: manifest.datasetSize) proc new*( T: type Manifest, manifest: Manifest): Manifest = ## Create an unprotected dataset from an ## erasure protected one ## Manifest( treeCid: manifest.originalTreeCid, datasetSize: manifest.originalDatasetSize, version: manifest.version, codec: manifest.codec, hcodec: manifest.hcodec, blockSize: manifest.blockSize, protected: false) proc new*( T: type Manifest, data: openArray[byte]): ?!Manifest = ## Create a manifest instance from given data ## Manifest.decode(data) proc new*( T: type Manifest, treeCid: Cid, datasetSize: NBytes, blockSize: NBytes, version: CidVersion, hcodec: MultiCodec, codec: MultiCodec, ecK: int, ecM: int, originalTreeCid: Cid, originalDatasetSize: NBytes): Manifest = Manifest( treeCid: treeCid, datasetSize: datasetSize, blockSize: blockSize, version: version, hcodec: hcodec, codec: codec, protected: true, ecK: ecK, ecM: ecM, originalTreeCid: originalTreeCid, originalDatasetSize: originalDatasetSize ) proc new*( T: type Manifest, manifest: Manifest, verifyRoot: Cid, slotRoots: openArray[Cid]): ?!Manifest = ## Create a verifiable dataset from an ## protected one ## if not manifest.protected: return failure newException( CodexError, "Can create verifiable manifest only from protected manifest.") if slotRoots.len != manifest.numSlots: return failure newException( CodexError, "Wrong number of slot roots.") success Manifest( treeCid: manifest.treeCid, datasetSize: manifest.datasetSize, version: manifest.version, codec: manifest.codec, hcodec: manifest.hcodec, blockSize: manifest.blockSize, protected: true, ecK: manifest.ecK, ecM: manifest.ecM, originalTreeCid: manifest.treeCid, originalDatasetSize: manifest.originalDatasetSize, verifiable: true, verifyRoot: verifyRoot, slotRoots: @slotRoots)