## Nim-Codex ## Copyright (c) 2021 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. import pkg/upraises push: {.upraises: [].} import std/options import pkg/chronos import pkg/libp2p import pkg/lrucache import pkg/questionable import pkg/questionable/results import ./blockstore import ../units import ../chunker import ../errors import ../logutils import ../manifest import ../merkletree import ../utils import ../clock export blockstore logScope: topics = "codex cachestore" type CacheStore* = ref object of BlockStore currentSize*: NBytes size*: NBytes cache: LruCache[Cid, Block] cidAndProofCache: LruCache[(Cid, Natural), (Cid, CodexProof)] InvalidBlockSize* = object of CodexError const DefaultCacheSize*: NBytes = 5.MiBs method getBlock*(self: CacheStore, cid: Cid): Future[?!Block] {.async.} = ## Get a block from the stores ## trace "Getting block from cache", cid if cid.isEmpty: trace "Empty block, ignoring" return cid.emptyBlock if cid notin self.cache: return failure (ref BlockNotFoundError)(msg: "Block not in cache " & $cid) try: return success self.cache[cid] except CancelledError as error: raise error except CatchableError as exc: trace "Error requesting block from cache", cid, error = exc.msg return failure exc method getCidAndProof*( self: CacheStore, treeCid: Cid, index: Natural): Future[?!(Cid, CodexProof)] {.async.} = if cidAndProof =? self.cidAndProofCache.getOption((treeCid, index)): success(cidAndProof) else: failure(newException(BlockNotFoundError, "Block not in cache: " & $BlockAddress.init(treeCid, index))) method getBlock*(self: CacheStore, treeCid: Cid, index: Natural): Future[?!Block] {.async.} = without cidAndProof =? (await self.getCidAndProof(treeCid, index)), err: return failure(err) await self.getBlock(cidAndProof[0]) method getBlockAndProof*(self: CacheStore, treeCid: Cid, index: Natural): Future[?!(Block, CodexProof)] {.async.} = without cidAndProof =? (await self.getCidAndProof(treeCid, index)), err: return failure(err) let (cid, proof) = cidAndProof without blk =? await self.getBlock(cid), err: return failure(err) success((blk, proof)) method getBlock*(self: CacheStore, address: BlockAddress): Future[?!Block] = if address.leaf: self.getBlock(address.treeCid, address.index) else: self.getBlock(address.cid) method hasBlock*(self: CacheStore, cid: Cid): Future[?!bool] {.async.} = ## Check if the block exists in the blockstore ## trace "Checking CacheStore for block presence", cid if cid.isEmpty: trace "Empty block, ignoring" return true.success return (cid in self.cache).success method hasBlock*(self: CacheStore, treeCid: Cid, index: Natural): Future[?!bool] {.async.} = without cidAndProof =? (await self.getCidAndProof(treeCid, index)), err: if err of BlockNotFoundError: return success(false) else: return failure(err) await self.hasBlock(cidAndProof[0]) func cids(self: CacheStore): (iterator: Cid {.gcsafe.}) = return iterator(): Cid = for cid in self.cache.keys: yield cid method listBlocks*( self: CacheStore, blockType = BlockType.Manifest ): Future[?!AsyncIter[?Cid]] {.async.} = ## Get the list of blocks in the BlockStore. This is an intensive operation ## let cids = self.cids() proc isFinished(): bool = return finished(cids) proc genNext(): Future[Cid] {.async.} = cids() let iter = await (AsyncIter[Cid].new(genNext, isFinished) .filter( proc (cid: Cid): Future[bool] {.async.} = without isManifest =? cid.isManifest, err: trace "Error checking if cid is a manifest", err = err.msg return false case blockType: of BlockType.Both: return true of BlockType.Manifest: return isManifest of BlockType.Block: return not isManifest )) return success(map[Cid, ?Cid](iter, proc (cid: Cid): Future[?Cid] {.async.} = some(cid) )) func putBlockSync(self: CacheStore, blk: Block): bool = let blkSize = blk.data.len.NBytes # in bytes if blkSize > self.size: trace "Block size is larger than cache size", blk = blkSize, cache = self.size return false while self.currentSize + blkSize > self.size: try: let removed = self.cache.removeLru() self.currentSize -= removed.data.len.NBytes except EmptyLruCacheError as exc: # if the cache is empty, can't remove anything, so break and add item # to the cache trace "Exception puting block to cache", exc = exc.msg break self.cache[blk.cid] = blk self.currentSize += blkSize return true method putBlock*( self: CacheStore, blk: Block, ttl = Duration.none): Future[?!void] {.async.} = ## Put a block to the blockstore ## trace "Storing block in cache", cid = blk.cid if blk.isEmpty: trace "Empty block, ignoring" return success() discard self.putBlockSync(blk) return success() method putCidAndProof*( self: CacheStore, treeCid: Cid, index: Natural, blockCid: Cid, proof: CodexProof ): Future[?!void] {.async.} = self.cidAndProofCache[(treeCid, index)] = (blockCid, proof) success() method ensureExpiry*( self: CacheStore, cid: Cid, expiry: SecondsSince1970 ): Future[?!void] {.async.} = ## Updates block's assosicated TTL in store - not applicable for CacheStore ## discard # CacheStore does not have notion of TTL method ensureExpiry*( self: CacheStore, treeCid: Cid, index: Natural, expiry: SecondsSince1970 ): Future[?!void] {.async.} = ## Updates block's associated TTL in store - not applicable for CacheStore ## discard # CacheStore does not have notion of TTL method delBlock*(self: CacheStore, cid: Cid): Future[?!void] {.async.} = ## Delete a block from the blockstore ## trace "Deleting block from cache", cid if cid.isEmpty: trace "Empty block, ignoring" return success() let removed = self.cache.del(cid) if removed.isSome: self.currentSize -= removed.get.data.len.NBytes return success() method delBlock*(self: CacheStore, treeCid: Cid, index: Natural): Future[?!void] {.async.} = let maybeRemoved = self.cidAndProofCache.del((treeCid, index)) if removed =? maybeRemoved: return await self.delBlock(removed[0]) return success() method close*(self: CacheStore): Future[void] {.async.} = ## Close the blockstore, a no-op for this implementation ## discard proc new*( _: type CacheStore, blocks: openArray[Block] = [], cacheSize: NBytes = DefaultCacheSize, chunkSize: NBytes = DefaultChunkSize ): CacheStore {.raises: [Defect, ValueError].} = ## Create a new CacheStore instance ## ## `cacheSize` and `chunkSize` are both in bytes ## if cacheSize < chunkSize: raise newException(ValueError, "cacheSize cannot be less than chunkSize") let currentSize = 0'nb size = int(cacheSize div chunkSize) cache = newLruCache[Cid, Block](size) cidAndProofCache = newLruCache[(Cid, Natural), (Cid, CodexProof)](size) store = CacheStore( cache: cache, cidAndProofCache: cidAndProofCache, currentSize: currentSize, size: cacheSize) for blk in blocks: discard store.putBlockSync(blk) return store proc new*( _: type CacheStore, blocks: openArray[Block] = [], cacheSize: int, chunkSize: int ): CacheStore {.raises: [Defect, ValueError].} = CacheStore.new(blocks, NBytes cacheSize, NBytes chunkSize)