# TODO: How can this be tested? proc uncompressFramedStream*(conn: Connection, expectedSize: int): Future[Result[seq[byte], cstring]] {.async.} = var header: array[STREAM_HEADER.len, byte] try: await conn.readExactly(addr header[0], header.len) except LPStreamEOFError, LPStreamIncompleteError: return err "Unexpected EOF before snappy header" if header != STREAM_HEADER.toOpenArrayByte(0, STREAM_HEADER.high): return err "Incorrect snappy header" var uncompressedData = newSeq[byte](MAX_UNCOMPRESSED_DATA_LEN) frameData = newSeq[byte](MAX_COMPRESSED_DATA_LEN) output = newSeqOfCap[byte](expectedSize) while output.len < expectedSize: var frameHeader: array[4, byte] try: await conn.readExactly(addr frameHeader[0], frameHeader.len) except LPStreamEOFError, LPStreamIncompleteError: return err "no snappy frame" let x = uint32.fromBytesLE frameHeader let id = x and 0xFF let dataLen = (x shr 8).int if dataLen > MAX_COMPRESSED_DATA_LEN: return err "invalid snappy frame length" if dataLen > 0: try: await conn.readExactly(addr frameData[0], dataLen) except LPStreamEOFError, LPStreamIncompleteError: return err "Incomplete snappy frame" if id == COMPRESSED_DATA_IDENTIFIER: if dataLen < 4: return err "Snappy frame size too low to contain CRC checksum" let crc = uint32.fromBytesLE frameData.toOpenArray(0, 3) remaining = expectedSize - output.len chunkLen = min(remaining, uncompressedData.len) # Grab up to MAX_UNCOMPRESSED_DATA_LEN bytes, but no more than remains # according to the expected size. If it turns out that the uncompressed # data is longer than that, snappyUncompress will fail and we will not # decompress the chunk at all, instead reporting failure. let # The `int` conversion below is safe, because `uncompressedLen` is # bounded to `chunkLen` (which in turn is bounded by `MAX_CHUNK_SIZE`). # TODO: Use a range type for the parameter. uncompressedLen = int snappyUncompress( frameData.toOpenArray(4, dataLen - 1), uncompressedData.toOpenArray(0, chunkLen - 1)) if uncompressedLen == 0: return err "Failed to decompress snappy frame" doAssert output.len + uncompressedLen <= expectedSize, "enforced by `remains` limit above" if not checkCrc(uncompressedData.toOpenArray(0, uncompressedLen-1), crc): return err "Snappy content CRC checksum failed" output.add uncompressedData.toOpenArray(0, uncompressedLen-1) elif id == UNCOMPRESSED_DATA_IDENTIFIER: if dataLen < 4: return err "Snappy frame size too low to contain CRC checksum" if output.len + dataLen - 4 > expectedSize: return err "Too much data" let crc = uint32.fromBytesLE frameData.toOpenArray(0, 3) if not checkCrc(frameData.toOpenArray(4, dataLen - 1), crc): return err "Snappy content CRC checksum failed" output.add frameData.toOpenArray(4, dataLen-1) elif id < 0x80: # Reserved unskippable chunks (chunk types 0x02-0x7f) # if we encounter this type of chunk, stop decoding # the spec says it is an error return err "Invalid snappy chunk type" else: # Reserved skippable chunks (chunk types 0x80-0xfe) # including STREAM_HEADER (0xff) should be skipped continue return ok output proc readChunkPayload(conn: Connection, peer: Peer, MsgType: type): Future[NetRes[MsgType]] {.async.} = let sm = now(chronos.Moment) let size = try: await conn.readVarint() except LPStreamEOFError: #, LPStreamIncompleteError, InvalidVarintError # TODO compiler error - haha, uncaught exception # Error: unhandled exception: closureiters.nim(322, 17) `c[i].kind == nkType` [AssertionError] return neterr UnexpectedEOF except LPStreamIncompleteError: return neterr UnexpectedEOF except InvalidVarintError: return neterr UnexpectedEOF if size > MAX_CHUNK_SIZE: return neterr SizePrefixOverflow if size == 0: return neterr ZeroSizePrefix # The `size.int` conversion is safe because `size` is bounded to `MAX_CHUNK_SIZE` let data = await conn.uncompressFramedStream(size.int) if data.isOk: # `10` is the maximum size of variable integer on wire, so error could # not be significant. peer.updateNetThroughput(now(chronos.Moment) - sm, uint64(10 + size)) return ok SSZ.decode(data.get(), MsgType) else: debug "Snappy decompression/read failed", msg = $data.error, conn return neterr InvalidSnappyBytes proc readResponseChunk(conn: Connection, peer: Peer, MsgType: typedesc): Future[NetRes[MsgType]] {.async.} = try: var responseCodeByte: byte try: await conn.readExactly(addr responseCodeByte, 1) except LPStreamEOFError, LPStreamIncompleteError: return neterr PotentiallyExpectedEOF static: assert ResponseCode.low.ord == 0 if responseCodeByte > ResponseCode.high.byte: return neterr InvalidResponseCode let responseCode = ResponseCode responseCodeByte case responseCode: of InvalidRequest, ServerError: let errorMsgChunk = await readChunkPayload(conn, peer, ErrorMsg) let errorMsg = if errorMsgChunk.isOk: errorMsgChunk.value else: return err(errorMsgChunk.error) return err Eth2NetworkingError(kind: ReceivedErrorResponse, responseCode: responseCode, errorMsg: errorMsg) of Success: discard return await readChunkPayload(conn, peer, MsgType) except LPStreamEOFError, LPStreamIncompleteError: return neterr UnexpectedEOF proc readResponse(conn: Connection, peer: Peer, MsgType: type): Future[NetRes[MsgType]] {.gcsafe, async.} = when MsgType is seq: type E = ElemType(MsgType) var results: MsgType while true: let nextRes = await conn.readResponseChunk(peer, E) if nextRes.isErr: if nextRes.error.kind == PotentiallyExpectedEOF: return ok results return err nextRes.error else: results.add nextRes.value else: return await conn.readResponseChunk(peer, MsgType)