Cleaned up obsolete BeaconSync code; Added some open questions regarding fetchAncestorBlocks

beacon_chain/request_manager.nim

@@ -11,10 +11,16 @@ proc init*(T: type RequestManager, network: Eth2Node): T =
 type
   FetchAncestorsResponseHandler = proc (b: BeaconBlock) {.gcsafe.}
 
-proc fetchAncestorBlocksFromPeer(peer: Peer, rec: FetchRecord, responseHandler: FetchAncestorsResponseHandler) {.async.} =
-  # TODO: (zah) Why are we specifying `GENESIS_SLOT` here?
-  #             I'm not sure what this meant for the old code.
-  let blocks = await peer.getBeaconBlocksSpec(rec.root, GENESIS_SLOT, rec.historySlots, 0'u64, true)
+proc fetchAncestorBlocksFromPeer(
+     peer: Peer,
+     rec: FetchRecord,
+     responseHandler: FetchAncestorsResponseHandler) {.async.} =
+  # TODO: It's not clear if this function follows the intention of the
+  # FetchRecord data type. Perhaps it is supposed to get a range of blocks
+  # instead. In order to do this, we'll need the slot number of the known
+  # block to be stored in the FetchRecord, so we can ask for a range of
+  # blocks starting N positions before this slot number.
+  let blocks = await peer.beaconBlocksByRoot([rec.root])
   if blocks.isSome:
     for b in blocks.get:
       responseHandler(b)

beacon_chain/sync_protocol.nim

@@ -36,8 +36,7 @@ type
     slot: Slot
 
 const
-  MaxRootsToRequest = 512'u64
-  MaxHeadersToRequest = MaxRootsToRequest
+  maxBlocksToRequest = 512'u64
   MaxAncestorBlocksResponse = 256
 
 func toHeader(b: BeaconBlock): BeaconBlockHeader =
@@ -78,15 +77,14 @@ proc mergeBlockHeadersAndBodies(headers: openarray[BeaconBlockHeader], bodies: o
     res[^1].fromHeaderAndBody(headers[i], bodies[i])
   some(res)
 
-proc getBeaconBlocks*(peer: Peer,
-                      blockRoot: Eth2Digest,
-                      slot: Slot,
-                      maxBlocks, skipSlots: uint64,
-                      backward: bool): Future[Option[seq[BeaconBlock]]] {.gcsafe, async.}
-
-proc getBeaconBlocksSpec*(peer: Peer, blockRoot: Eth2Digest,
-                          slot: Slot, maxBlocks, skipSlots: uint64,
-                          backward: bool): Future[Option[seq[BeaconBlock]]] {.gcsafe, async.}
+proc beaconBlocksByRange*(
+            peer: Peer,
+            headBlockRoot: Eth2Digest,
+            start_slot: Slot,
+            count: uint64,
+            step: uint64,
+            timeout: Duration = milliseconds(10000'i64)):
+            Future[Option[seq[BeaconBlock]]] {.gcsafe.}
 
 type
   HelloMsg = object
@@ -124,14 +122,16 @@ proc handleInitialHello(peer: Peer,
 
       var s = bestSlot + 1
       while s <= h.bestSlot:
-        debug "Waiting for block headers", fromPeer = peer, remoteBestSlot = h.bestSlot, peer
-        let headersLeft = uint64(h.bestSlot - s)
-        let blocks = await peer.getBeaconBlocksSpec(bestRoot, s, min(headersLeft, MaxHeadersToRequest), 0, false)
+        debug "Waiting for block headers", peer, remoteBestSlot = h.bestSlot
+
+        let numBlocksToRequest = min(uint64(h.bestSlot - s), maxBlocksToRequest)
+        let blocks = await peer.beaconBlocksByRange(bestRoot, s,
+                                                    numBlocksToRequest, 1'u64)
         if blocks.isSome:
           if blocks.get.len == 0:
             info "Got 0 blocks while syncing", peer
             break
-          node.importBlocks(blocks.get)
+          node.importBlocks blocks.get
           let lastSlot = blocks.get[^1].slot
           if lastSlot <= s:
             info "Slot did not advance during sync", peer
@@ -210,7 +210,7 @@ p2pProtocol BeaconSync(version = 1,
     proc beaconBlocksByRange(
             peer: Peer,
             headBlockRoot: Eth2Digest,
-            start_slot: uint64,
+            start_slot: Slot,
             count: uint64,
             step: uint64) {.
             libp2pProtocol("beacon_blocks_by_range", 1).} =
@@ -258,177 +258,3 @@ p2pProtocol BeaconSync(version = 1,
             peer: Peer,
             blocks: openarray[BeaconBlock])
 
-  requestResponse:
-    proc getBeaconBlockRoots(
-            peer: Peer,
-            fromSlot: Slot,
-            maxRoots: uint64) {.
-            libp2pProtocol("beacon_block_roots", 1).} =
-      let maxRoots = min(MaxRootsToRequest, maxRoots)
-      var s = fromSlot
-      var roots = newSeqOfCap[BlockRootSlot](maxRoots)
-      let blockPool = peer.networkState.node.blockPool
-      let maxSlot = blockPool.head.blck.slot
-      while s <= maxSlot:
-        for r in blockPool.blockRootsForSlot(s):
-          roots.add BlockRootSlot(blockRoot: r, slot: s)
-          if roots.len == maxRoots.int: break
-        s += 1
-      await response.write(roots)
-
-    proc beaconBlockRoots(
-            peer: Peer,
-            roots: openarray[BlockRootSlot])
-
-  requestResponse:
-    proc getBeaconBlockHeaders(
-            peer: Peer,
-            blockRoot: Eth2Digest,
-            slot: Slot,
-            maxHeaders: uint64,
-            skipSlots: uint64,
-            backward: bool) {.
-            libp2pProtocol("beacon_block_headers", 1).} =
-      let maxHeaders = min(MaxHeadersToRequest, maxHeaders)
-      var headers: seq[BeaconBlockHeader]
-      let db = peer.networkState.db
-
-      if backward:
-        # TODO: implement skipSlots
-
-        var blockRoot = blockRoot
-        if slot != GENESIS_SLOT:
-          # TODO: Get block from the best chain by slot
-          # blockRoot = ...
-          discard
-
-        let blockPool = peer.networkState.node.blockPool
-        var br = blockPool.getRef(blockRoot)
-        var blockRefs = newSeqOfCap[BlockRef](maxHeaders)
-
-        while not br.isNil:
-          blockRefs.add(br)
-          if blockRefs.len == maxHeaders.int:
-            break
-          br = br.parent
-
-        headers = newSeqOfCap[BeaconBlockHeader](blockRefs.len)
-        for i in blockRefs.high .. 0:
-          headers.add(blockPool.get(blockRefs[i]).data.toHeader)
-      else:
-        # TODO: This branch has to be revisited and possibly somehow merged with the
-        # branch above once we can traverse the best chain forward
-        # TODO: implement skipSlots
-        headers = newSeqOfCap[BeaconBlockHeader](maxHeaders)
-        var s = slot
-        let blockPool = peer.networkState.node.blockPool
-        let maxSlot = blockPool.head.blck.slot
-        while s <= maxSlot:
-          for r in blockPool.blockRootsForSlot(s):
-            headers.add(db.getBlock(r).get().toHeader)
-            if headers.len == maxHeaders.int: break
-          s += 1
-
-      await response.send(headers)
-
-    proc beaconBlockHeaders(
-            peer: Peer,
-            blockHeaders: openarray[BeaconBlockHeader])
-
-  # TODO move this at the bottom, because it's not in the spec yet, but it will
-  # consume a `method_id`
-  requestResponse:
-    proc getAncestorBlocks(
-            peer: Peer,
-            needed: openarray[FetchRecord]) {.
-            libp2pProtocol("ancestor_blocks", 1).} =
-      let db = peer.networkState.db
-      var neededRoots = initSet[Eth2Digest]()
-      for rec in needed: neededRoots.incl(rec.root)
-      var resultsCounter = 0
-
-      for rec in needed:
-        if (var blck = db.getBlock(rec.root); blck.isSome()):
-          # TODO validate historySlots
-          let firstSlot = blck.get().slot - rec.historySlots
-
-          for i in 0..<rec.historySlots.int:
-            await response.write(blck.get())
-            inc resultsCounter
-            if resultsCounter >= MaxAncestorBlocksResponse:
-              break
-
-            if blck.get().parent_root in neededRoots:
-              # Don't send duplicate blocks, if neededRoots has roots that are
-              # in the same chain
-              break
-
-            if (blck = db.getBlock(blck.get().parent_root);
-                blck.isNone() or blck.get().slot < firstSlot):
-              break
-
-          if resultsCounter >= MaxAncestorBlocksResponse:
-            break
-
-    proc ancestorBlocks(
-            peer: Peer,
-            blocks: openarray[BeaconBlock])
-
-  requestResponse:
-    proc getBeaconBlockBodies(
-            peer: Peer,
-            blockRoots: openarray[Eth2Digest]) {.
-            libp2pProtocol("beacon_block_bodies", 1).} =
-      # TODO: Validate blockRoots.len
-      var bodies = newSeqOfCap[BeaconBlockBody](blockRoots.len)
-      let db = peer.networkState.db
-      for r in blockRoots:
-        if (let blk = db.getBlock(r); blk.isSome):
-          await response.write(blk.get().body)
-
-    proc beaconBlockBodies(
-            peer: Peer,
-            blockBodies: openarray[BeaconBlockBody])
-
-proc getBeaconBlocks*(peer: Peer,
-                      blockRoot: Eth2Digest,
-                      slot: Slot,
-                      maxBlocks, skipSlots: uint64,
-                      backward: bool): Future[Option[seq[BeaconBlock]]] {.async.} =
-  ## Retrieve block headers and block bodies from the remote peer,
-  ## merge them into blocks.
-  assert(maxBlocks <= MaxHeadersToRequest)
-  let headersResp = await peer.getBeaconBlockHeaders(blockRoot, slot, maxBlocks, skipSlots, backward)
-  if headersResp.isNone: return
-
-  let headers = headersResp.get
-  if headers.len == 0:
-    info "Peer has no headers", peer
-    var res: seq[BeaconBlock]
-    return some(res)
-
-  let bodiesRequest = headers.mapIt(signing_root(it))
-
-  debug "Block headers received. Requesting block bodies", peer
-  let bodiesResp = await peer.getBeaconBlockBodies(bodiesRequest)
-  if bodiesResp.isNone:
-    info "Did not receive bodies", peer
-    return
-
-  result = mergeBlockHeadersAndBodies(headers, bodiesResp.get)
-  # If result.isNone: disconnect with BreachOfProtocol?
-
-proc getBeaconBlocksSpec*(peer: Peer, blockRoot: Eth2Digest, slot: Slot,
-                          maxBlocks, skipSlots: uint64,
-                          backward: bool): Future[Option[seq[BeaconBlock]]] {.async.} =
-  ## Retrieve blocks from the remote peer, according to new network
-  ## specification.
-  doAssert(maxBlocks <= MaxHeadersToRequest)
-  var startSlot = uint64(slot) + skipSlots
-  var blocksResp = await peer.beaconBlocksByRange(blockRoot, startSlot,
-                                                  maxBlocks, 1'u64)
-  if blocksResp.isSome:
-    let blocks = blocksResp.get
-    info "Peer returned blocks", peer, count = len(blocks)
-    return some(blocks)
-