## 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 pkg/chronos import pkg/libp2p import pkg/questionable import pkg/questionable/results import ../clock import ../blocktype import ../merkletree import ../utils export blocktype type BlockNotFoundError* = object of CodexError BlockType* {.pure.} = enum Manifest, Block, Both BlockStore* = ref object of RootObj method getBlock*(self: BlockStore, cid: Cid): Future[?!Block] {.base.} = ## Get a block from the blockstore ## raiseAssert("getBlock by cid not implemented!") method getBlock*(self: BlockStore, treeCid: Cid, index: Natural): Future[?!Block] {.base.} = ## Get a block from the blockstore ## raiseAssert("getBlock by treecid not implemented!") method getCid*(self: BlockStore, treeCid: Cid, index: Natural): Future[?!Cid] {.base.} = ## Get a cid given a tree and index ## raiseAssert("getCid by treecid not implemented!") method getBlock*(self: BlockStore, address: BlockAddress): Future[?!Block] {.base.} = ## Get a block from the blockstore ## raiseAssert("getBlock by addr not implemented!") method getBlockAndProof*(self: BlockStore, treeCid: Cid, index: Natural): Future[?!(Block, CodexProof)] {.base.} = ## Get a block and associated inclusion proof by Cid of a merkle tree and an index of a leaf in a tree ## raiseAssert("getBlockAndProof not implemented!") method putBlock*( self: BlockStore, blk: Block ): Future[?!void] {.base.} = ## Put a block to the blockstore ## raiseAssert("putBlock not implemented!") method putCidAndProof*( self: BlockStore, treeCid: Cid, index: Natural, blockCid: Cid, proof: CodexProof): Future[?!void] {.base.} = ## Put a block proof to the blockstore ## raiseAssert("putCidAndProof not implemented!") method getCidAndProof*( self: BlockStore, treeCid: Cid, index: Natural): Future[?!(Cid, CodexProof)] {.base.} = ## Get a block proof from the blockstore ## raiseAssert("getCidAndProof not implemented!") method delBlock*(self: BlockStore, cid: Cid): Future[?!void] {.base.} = ## Delete a block from the blockstore ## raiseAssert("delBlock not implemented!") method delBlock*(self: BlockStore, treeCid: Cid, index: Natural): Future[?!void] {.base.} = ## Delete a block from the blockstore ## raiseAssert("delBlock not implemented!") method hasBlock*(self: BlockStore, cid: Cid): Future[?!bool] {.base.} = ## Check if the block exists in the blockstore ## raiseAssert("hasBlock not implemented!") method hasBlock*(self: BlockStore, tree: Cid, index: Natural): Future[?!bool] {.base.} = ## Check if the block exists in the blockstore ## raiseAssert("hasBlock not implemented!") method hasCidAndProof*( self: BlockStore, treeCid: Cid, index: Natural): Future[?!bool] {.base.} = ## Check if block cid and proof exists in the blockstore ## raiseAssert("hasBlock not implemented!") method listBlocks*( self: BlockStore, blockType = BlockType.Manifest): Future[?!AsyncIter[?Cid]] {.base.} = ## Get the list of blocks in the BlockStore. This is an intensive operation ## raiseAssert("listBlocks not implemented!") method close*(self: BlockStore): Future[void] {.base.} = ## Close the blockstore, cleaning up resources managed by it. ## For some implementations this may be a no-op ## raiseAssert("close not implemented!") proc contains*(self: BlockStore, blk: Cid): Future[bool] {.async.} = ## Check if the block exists in the blockstore. ## Return false if error encountered ## return (await self.hasBlock(blk)) |? false proc contains*(self: BlockStore, address: BlockAddress): Future[bool] {.async.} = return if address.leaf: (await self.hasBlock(address.treeCid, address.index)) |? false else: (await self.hasBlock(address.cid)) |? false