mirror of https://github.com/status-im/nim-eth.git
parent
664072fff7
commit
9c8e9d9f64
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@ -48,8 +48,8 @@ type
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# sequence number the sender of the packet last received in the other direction
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# sequence number the sender of the packet last received in the other direction
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ackNr*: uint16
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ackNr*: uint16
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SelectiveAckExtension = object
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SelectiveAckExtension* = object
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acks: array[acksArrayLength, byte]
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acks*: array[4, byte]
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Packet* = object
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Packet* = object
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header*: PacketHeaderV1
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header*: PacketHeaderV1
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@ -9,7 +9,7 @@
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import
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import
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std/sugar,
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std/sugar,
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chronos, chronicles, bearssl,
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chronos, chronicles, bearssl,
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stew/results,
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stew/[results, bitops2],
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./send_buffer_tracker,
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./send_buffer_tracker,
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./growable_buffer,
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./growable_buffer,
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./packets,
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./packets,
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@ -341,20 +341,6 @@ proc registerOutgoingPacket(socket: UtpSocket, oPacket: OutgoingPacket) =
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proc sendData(socket: UtpSocket, data: seq[byte]): Future[void] =
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proc sendData(socket: UtpSocket, data: seq[byte]): Future[void] =
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socket.send(socket.remoteAddress, data)
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socket.send(socket.remoteAddress, data)
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proc sendAck(socket: UtpSocket): Future[void] =
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## Creates and sends ack, based on current socket state. Acks are different from
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## other packets as we do not track them in outgoing buffet
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let ackPacket =
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ackPacket(
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socket.seqNr,
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socket.connectionIdSnd,
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socket.ackNr,
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socket.getRcvWindowSize(),
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socket.replayMicro
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)
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socket.sendData(encodePacket(ackPacket))
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# Should be called before sending packet
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# Should be called before sending packet
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proc setSend(s: UtpSocket, p: var OutgoingPacket): seq[byte] =
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proc setSend(s: UtpSocket, p: var OutgoingPacket): seq[byte] =
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let timestampInfo = getMonoTimestamp()
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let timestampInfo = getMonoTimestamp()
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@ -725,12 +711,6 @@ proc startOutgoingSocket*(socket: UtpSocket): Future[void] {.async.} =
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await socket.sendData(outgoingPacket.packetBytes)
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await socket.sendData(outgoingPacket.packetBytes)
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await socket.connectionFuture
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await socket.connectionFuture
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proc startIncomingSocket*(socket: UtpSocket) {.async.} =
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# Make sure ack was flushed before moving forward
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await socket.sendAck()
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socket.startWriteLoop()
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socket.startTimeoutLoop()
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proc isConnected*(socket: UtpSocket): bool =
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proc isConnected*(socket: UtpSocket): bool =
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socket.state == Connected
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socket.state == Connected
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@ -881,6 +861,121 @@ proc isAckNrInvalid(socket: UtpSocket, packet: Packet): bool =
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)
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)
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)
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)
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# counts the number of bytes acked by selective ack header
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proc calculateSelectiveAckBytes*(socket: UtpSocket, receivedPackedAckNr: uint16, ext: SelectiveAckExtension): uint32 =
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# we add 2, as the first bit in the mask therefore represents ackNr + 2 becouse
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# ackNr + 1 (i.e next expected packet) is considered lost.
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let base = receivedPackedAckNr + 2
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if socket.curWindowPackets == 0:
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return 0
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var ackedBytes = 0'u32
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var bits = (len(ext.acks)) * 8 - 1
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while bits >= 0:
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let v = base + uint16(bits)
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if (socket.seqNr - v - 1) >= socket.curWindowPackets - 1:
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dec bits
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continue
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let maybePacket = socket.outBuffer.get(v)
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if (maybePacket.isNone() or maybePacket.unsafeGet().transmissions == 0):
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dec bits
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continue
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let pkt = maybePacket.unsafeGet()
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if (getBit(ext.acks, bits)):
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ackedBytes = ackedBytes + pkt.payloadLength
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dec bits
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return ackedBytes
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# ack packets (removes them from out going buffer) based on selective ack extension header
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proc selectiveAckPackets(socket: UtpSocket, receivedPackedAckNr: uint16, ext: SelectiveAckExtension, currentTime: Moment): void =
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# we add 2, as the first bit in the mask therefore represents ackNr + 2 becouse
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# ackNr + 1 (i.e next expected packet) is considered lost.
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let base = receivedPackedAckNr + 2
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if socket.curWindowPackets == 0:
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return
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var bits = (len(ext.acks)) * 8 - 1
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while bits >= 0:
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let v = base + uint16(bits)
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if (socket.seqNr - v - 1) >= socket.curWindowPackets - 1:
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dec bits
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continue
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let maybePacket = socket.outBuffer.get(v)
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if (maybePacket.isNone() or maybePacket.unsafeGet().transmissions == 0):
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dec bits
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continue
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let pkt = maybePacket.unsafeGet()
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if (getBit(ext.acks, bits)):
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discard socket.ackPacket(v, currentTime)
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dec bits
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# TODO Add handling of fast timeouts and duplicate acks counting
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# Public mainly for test purposes
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# generates bit mask which indicates which packets are already in socket
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# reorder buffer
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# from speck:
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# The bitmask has reverse byte order. The first byte represents packets [ack_nr + 2, ack_nr + 2 + 7] in reverse order
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# The least significant bit in the byte represents ack_nr + 2, the most significant bit in the byte represents ack_nr + 2 + 7
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# The next byte in the mask represents [ack_nr + 2 + 8, ack_nr + 2 + 15] in reverse order, and so on
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proc generateSelectiveAckBitMask*(socket: UtpSocket): array[4, byte] =
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let window = min(32, socket.inBuffer.len())
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var arr: array[4, uint8] = [0'u8, 0, 0, 0]
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var i = 0
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while i < window:
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if (socket.inBuffer.get(socket.ackNr + uint16(i) + 2).isSome()):
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setBit(arr, i)
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inc i
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return arr
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# Generates ack packet based on current state of the socket.
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proc generateAckPacket*(socket: UtpSocket): Packet =
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let bitmask =
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if (socket.reorderCount != 0 and (not socket.reachedFin)):
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some(socket.generateSelectiveAckBitMask())
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else:
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none[array[4, byte]]()
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ackPacket(
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socket.seqNr,
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socket.connectionIdSnd,
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socket.ackNr,
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socket.getRcvWindowSize(),
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socket.replayMicro,
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bitmask
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)
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proc sendAck(socket: UtpSocket): Future[void] =
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## Creates and sends ack, based on current socket state. Acks are different from
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## other packets as we do not track them in outgoing buffet
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let ackPacket = socket.generateAckPacket()
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socket.sendData(encodePacket(ackPacket))
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proc startIncomingSocket*(socket: UtpSocket) {.async.} =
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# Make sure ack was flushed before moving forward
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await socket.sendAck()
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socket.startWriteLoop()
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socket.startTimeoutLoop()
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# TODO at socket level we should handle only FIN/DATA/ACK packets. Refactor to make
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# TODO at socket level we should handle only FIN/DATA/ACK packets. Refactor to make
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# it enforcable by type system
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# it enforcable by type system
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# TODO re-think synchronization of this procedure, as each await inside gives control
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# TODO re-think synchronization of this procedure, as each await inside gives control
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@ -923,6 +1018,10 @@ proc processPacket*(socket: UtpSocket, p: Packet) {.async.} =
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var (ackedBytes, minRtt) = socket.calculateAckedbytes(acks, timestampInfo.moment)
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var (ackedBytes, minRtt) = socket.calculateAckedbytes(acks, timestampInfo.moment)
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# TODO caluclate bytes acked by selective acks here (if thats the case)
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# TODO caluclate bytes acked by selective acks here (if thats the case)
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if (p.eack.isSome()):
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let selectiveAckedBytes = socket.calculateSelectiveAckBytes(pkAckNr, p.eack.unsafeGet())
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ackedBytes = ackedBytes + selectiveAckedBytes
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let sentTimeRemote = p.header.timestamp
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let sentTimeRemote = p.header.timestamp
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# we are using uint32 not a Duration, to wrap a round in case of
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# we are using uint32 not a Duration, to wrap a round in case of
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@ -999,6 +1098,14 @@ proc processPacket*(socket: UtpSocket, p: Packet) {.async.} =
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socket.ackPackets(acks, timestampInfo.moment)
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socket.ackPackets(acks, timestampInfo.moment)
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# packets in front may have been acked by selective ack, decrease window until we hit
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# a packet that is still waiting to be acked
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while (socket.curWindowPackets > 0 and socket.outBuffer.get(socket.seqNr - socket.curWindowPackets).isNone()):
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dec socket.curWindowPackets
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if (p.eack.isSome()):
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socket.selectiveAckPackets(pkAckNr, p.eack.unsafeGet(), timestampInfo.moment)
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case p.header.pType
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case p.header.pType
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of ST_DATA, ST_FIN:
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of ST_DATA, ST_FIN:
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# To avoid amplification attacks, server socket is in SynRecv state until
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# To avoid amplification attacks, server socket is in SynRecv state until
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@ -1014,6 +1121,7 @@ proc processPacket*(socket: UtpSocket, p: Packet) {.async.} =
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# we got in order packet
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# we got in order packet
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if (pastExpected == 0 and (not socket.reachedFin)):
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if (pastExpected == 0 and (not socket.reachedFin)):
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notice "Got in order packet"
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if (len(p.payload) > 0 and (not socket.readShutdown)):
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if (len(p.payload) > 0 and (not socket.readShutdown)):
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# we are getting in order data packet, we can flush data directly to the incoming buffer
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# we are getting in order data packet, we can flush data directly to the incoming buffer
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await upload(addr socket.buffer, unsafeAddr p.payload[0], p.payload.len())
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await upload(addr socket.buffer, unsafeAddr p.payload[0], p.payload.len())
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@ -1085,8 +1193,10 @@ proc processPacket*(socket: UtpSocket, p: Packet) {.async.} =
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socket.inBuffer.put(pkSeqNr, p)
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socket.inBuffer.put(pkSeqNr, p)
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inc socket.reorderCount
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inc socket.reorderCount
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notice "added out of order packet in reorder buffer"
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notice "added out of order packet in reorder buffer"
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# TODO for now we do not sent any ack as we do not handle selective acks
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# we send ack packet, as we reoreder count is > 0, so the eack bitmask will be
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# add sending of selective acks
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# generated
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asyncSpawn socket.sendAck()
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of ST_STATE:
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of ST_STATE:
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if (socket.state == SynSent and (not socket.connectionFuture.finished())):
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if (socket.state == SynSent and (not socket.connectionFuture.finished())):
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socket.state = Connected
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socket.state = Connected
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@ -1220,13 +1330,11 @@ proc read*(socket: UtpSocket): Future[seq[byte]] {.async.}=
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# Check how many packets are still in the out going buffer, usefull for tests or
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# Check how many packets are still in the out going buffer, usefull for tests or
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# debugging.
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# debugging.
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# It throws assertion error when number of elements in buffer do not equal kept counter
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proc numPacketsInOutGoingBuffer*(socket: UtpSocket): int =
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proc numPacketsInOutGoingBuffer*(socket: UtpSocket): int =
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var num = 0
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var num = 0
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for e in socket.outBuffer.items():
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for e in socket.outBuffer.items():
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if e.isSome():
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if e.isSome():
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inc num
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inc num
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doAssert(num == int(socket.curWindowPackets))
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num
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num
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# Check how many payload bytes are still in flight
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# Check how many payload bytes are still in flight
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@ -12,5 +12,6 @@ import
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./test_discv5_protocol,
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./test_discv5_protocol,
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./test_buffer,
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./test_buffer,
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./test_utp_socket,
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./test_utp_socket,
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./test_utp_socket_sack,
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./test_utp_router,
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./test_utp_router,
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./test_clock_drift_calculator
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./test_clock_drift_calculator
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@ -1,9 +1,14 @@
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import
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import
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chronos,
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chronos,
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../../eth/utp/utp_socket,
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../../eth/utp/packets,
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../../eth/keys
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../../eth/keys
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type AssertionCallback = proc(): bool {.gcsafe, raises: [Defect].}
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type AssertionCallback = proc(): bool {.gcsafe, raises: [Defect].}
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let testBufferSize = 1024'u32
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let defaultRcvOutgoingId = 314'u16
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proc generateByteArray*(rng: var BrHmacDrbgContext, length: int): seq[byte] =
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proc generateByteArray*(rng: var BrHmacDrbgContext, length: int): seq[byte] =
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var bytes = newSeq[byte](length)
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var bytes = newSeq[byte](length)
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brHmacDrbgGenerate(rng, bytes)
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brHmacDrbgGenerate(rng, bytes)
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@ -16,3 +21,96 @@ proc waitUntil*(f: AssertionCallback): Future[void] {.async.} =
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break
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break
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else:
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else:
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await sleepAsync(milliseconds(50))
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await sleepAsync(milliseconds(50))
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template connectOutGoingSocket*(
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initialRemoteSeq: uint16,
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q: AsyncQueue[Packet],
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remoteReceiveBuffer: uint32 = testBufferSize,
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cfg: SocketConfig = SocketConfig.init()): (UtpSocket[TransportAddress], Packet) =
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let sock1 = newOutgoingSocket[TransportAddress](testAddress, initTestSnd(q), cfg, defaultRcvOutgoingId, rng[])
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asyncSpawn sock1.startOutgoingSocket()
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let initialPacket = await q.get()
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check:
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initialPacket.header.pType == ST_SYN
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let responseAck =
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ackPacket(
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initialRemoteSeq,
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initialPacket.header.connectionId,
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initialPacket.header.seqNr,
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remoteReceiveBuffer,
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0
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)
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await sock1.processPacket(responseAck)
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check:
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sock1.isConnected()
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(sock1, initialPacket)
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template connectOutGoingSocketWithIncoming*(
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initialRemoteSeq: uint16,
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outgoingQueue: AsyncQueue[Packet],
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incomingQueue: AsyncQueue[Packet],
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remoteReceiveBuffer: uint32 = testBufferSize,
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cfg: SocketConfig = SocketConfig.init()): (UtpSocket[TransportAddress], UtpSocket[TransportAddress]) =
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let outgoingSocket = newOutgoingSocket[TransportAddress](testAddress, initTestSnd(outgoingQueue), cfg, defaultRcvOutgoingId, rng[])
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asyncSpawn outgoingSocket.startOutgoingSocket()
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let initialPacket = await outgoingQueue.get()
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check:
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initialPacket.header.pType == ST_SYN
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let incomingSocket = newIncomingSocket[TransportAddress](
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testAddress,
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initTestSnd(incomingQueue),
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cfg,
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initialPacket.header.connectionId,
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initialPacket.header.seqNr,
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rng[]
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)
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await incomingSocket.startIncomingSocket()
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let responseAck = await incomingQueue.get()
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await outgoingSocket.processPacket(responseAck)
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check:
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outgoingSocket.isConnected()
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(outgoingSocket, incomingSocket)
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proc generateDataPackets*(
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numberOfPackets: uint16,
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initialSeqNr: uint16,
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connectionId: uint16,
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ackNr: uint16,
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rng: var BrHmacDrbgContext): seq[Packet] =
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let packetSize = 100
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var packets = newSeq[Packet]()
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var i = 0'u16
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while i < numberOfPackets:
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let packet = dataPacket(
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initialSeqNr + i,
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connectionId,
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ackNr,
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testBufferSize,
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generateByteArray(rng, packetSize),
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0
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)
|
||||||
|
packets.add(packet)
|
||||||
|
|
||||||
|
inc i
|
||||||
|
|
||||||
|
packets
|
||||||
|
|
||||||
|
proc initTestSnd*(q: AsyncQueue[Packet]): SendCallback[TransportAddress]=
|
||||||
|
return (
|
||||||
|
proc (to: TransportAddress, bytes: seq[byte]): Future[void] =
|
||||||
|
let p = decodePacket(bytes).get()
|
||||||
|
q.addLast(p)
|
||||||
|
)
|
||||||
|
|
|
@ -7,7 +7,7 @@
|
||||||
{.used.}
|
{.used.}
|
||||||
|
|
||||||
import
|
import
|
||||||
std/[algorithm, random, sequtils],
|
std/[algorithm, random, sequtils, options],
|
||||||
chronos, bearssl, chronicles,
|
chronos, bearssl, chronicles,
|
||||||
testutils/unittests,
|
testutils/unittests,
|
||||||
./test_utils,
|
./test_utils,
|
||||||
|
@ -22,71 +22,12 @@ procSuite "Utp socket unit test":
|
||||||
let testBufferSize = 1024'u32
|
let testBufferSize = 1024'u32
|
||||||
let defaultRcvOutgoingId = 314'u16
|
let defaultRcvOutgoingId = 314'u16
|
||||||
|
|
||||||
proc initTestSnd(q: AsyncQueue[Packet]): SendCallback[TransportAddress]=
|
|
||||||
return (
|
|
||||||
proc (to: TransportAddress, bytes: seq[byte]): Future[void] =
|
|
||||||
let p = decodePacket(bytes).get()
|
|
||||||
q.addLast(p)
|
|
||||||
)
|
|
||||||
|
|
||||||
proc generateDataPackets(
|
|
||||||
numberOfPackets: uint16,
|
|
||||||
initialSeqNr: uint16,
|
|
||||||
connectionId: uint16,
|
|
||||||
ackNr: uint16,
|
|
||||||
rng: var BrHmacDrbgContext): seq[Packet] =
|
|
||||||
let packetSize = 100
|
|
||||||
var packets = newSeq[Packet]()
|
|
||||||
var i = 0'u16
|
|
||||||
while i < numberOfPackets:
|
|
||||||
let packet = dataPacket(
|
|
||||||
initialSeqNr + i,
|
|
||||||
connectionId,
|
|
||||||
ackNr,
|
|
||||||
testBufferSize,
|
|
||||||
generateByteArray(rng, packetSize),
|
|
||||||
0
|
|
||||||
)
|
|
||||||
packets.add(packet)
|
|
||||||
|
|
||||||
inc i
|
|
||||||
|
|
||||||
packets
|
|
||||||
|
|
||||||
proc packetsToBytes(packets: seq[Packet]): seq[byte] =
|
proc packetsToBytes(packets: seq[Packet]): seq[byte] =
|
||||||
var resultBytes = newSeq[byte]()
|
var resultBytes = newSeq[byte]()
|
||||||
for p in packets:
|
for p in packets:
|
||||||
resultBytes.add(p.payload)
|
resultBytes.add(p.payload)
|
||||||
return resultBytes
|
return resultBytes
|
||||||
|
|
||||||
template connectOutGoingSocket(
|
|
||||||
initialRemoteSeq: uint16,
|
|
||||||
q: AsyncQueue[Packet],
|
|
||||||
remoteReceiveBuffer: uint32 = testBufferSize,
|
|
||||||
cfg: SocketConfig = SocketConfig.init()): (UtpSocket[TransportAddress], Packet) =
|
|
||||||
let sock1 = newOutgoingSocket[TransportAddress](testAddress, initTestSnd(q), cfg, defaultRcvOutgoingId, rng[])
|
|
||||||
asyncSpawn sock1.startOutgoingSocket()
|
|
||||||
let initialPacket = await q.get()
|
|
||||||
|
|
||||||
check:
|
|
||||||
initialPacket.header.pType == ST_SYN
|
|
||||||
|
|
||||||
let responseAck =
|
|
||||||
ackPacket(
|
|
||||||
initialRemoteSeq,
|
|
||||||
initialPacket.header.connectionId,
|
|
||||||
initialPacket.header.seqNr,
|
|
||||||
remoteReceiveBuffer,
|
|
||||||
0
|
|
||||||
)
|
|
||||||
|
|
||||||
await sock1.processPacket(responseAck)
|
|
||||||
|
|
||||||
check:
|
|
||||||
sock1.isConnected()
|
|
||||||
|
|
||||||
(sock1, initialPacket)
|
|
||||||
|
|
||||||
asyncTest "Starting outgoing socket should send Syn packet":
|
asyncTest "Starting outgoing socket should send Syn packet":
|
||||||
let q = newAsyncQueue[Packet]()
|
let q = newAsyncQueue[Packet]()
|
||||||
let defaultConfig = SocketConfig.init()
|
let defaultConfig = SocketConfig.init()
|
||||||
|
@ -187,10 +128,11 @@ procSuite "Utp socket unit test":
|
||||||
# TODO test is valid until implementing selective acks
|
# TODO test is valid until implementing selective acks
|
||||||
let q = newAsyncQueue[Packet]()
|
let q = newAsyncQueue[Packet]()
|
||||||
let initalRemoteSeqNr = 10'u16
|
let initalRemoteSeqNr = 10'u16
|
||||||
|
let numOfPackets = 10'u16
|
||||||
|
|
||||||
let (outgoingSocket, initialPacket) = connectOutGoingSocket(initalRemoteSeqNr, q)
|
let (outgoingSocket, initialPacket) = connectOutGoingSocket(initalRemoteSeqNr, q)
|
||||||
|
|
||||||
var packets = generateDataPackets(10, initalRemoteSeqNr, initialPacket.header.connectionId, initialPacket.header.seqNr, rng[])
|
var packets = generateDataPackets(numOfPackets, initalRemoteSeqNr, initialPacket.header.connectionId, initialPacket.header.seqNr, rng[])
|
||||||
|
|
||||||
let data = packetsToBytes(packets)
|
let data = packetsToBytes(packets)
|
||||||
|
|
||||||
|
@ -200,12 +142,28 @@ procSuite "Utp socket unit test":
|
||||||
for p in packets:
|
for p in packets:
|
||||||
await outgoingSocket.processPacket(p)
|
await outgoingSocket.processPacket(p)
|
||||||
|
|
||||||
let ack2 = await q.get()
|
var sentAcks: seq[Packet] = @[]
|
||||||
|
|
||||||
|
for i in 0'u16..<numOfPackets:
|
||||||
|
let ack = await q.get()
|
||||||
|
sentAcks.add(ack)
|
||||||
|
|
||||||
|
# all packets except last one should be selective acks, without bumped ackNr
|
||||||
|
for i in 0'u16..<numOfPackets - 1:
|
||||||
|
check:
|
||||||
|
sentAcks[i].header.ackNr == initalRemoteSeqNr - 1
|
||||||
|
sentAcks[i].eack.isSome()
|
||||||
|
|
||||||
|
# last ack should be normal ack packet (not selective one), and it should ack
|
||||||
|
# all remaining packets
|
||||||
|
let lastAck = sentAcks[numOfPackets - 1]
|
||||||
|
|
||||||
check:
|
check:
|
||||||
ack2.header.pType == ST_STATE
|
lastAck.header.pType == ST_STATE
|
||||||
# we are acking in one shot whole 10 packets
|
# we are acking in one shot whole 10 packets
|
||||||
ack2.header.ackNr == initalRemoteSeqNr + uint16(len(packets) - 1)
|
lastAck.header.ackNr == initalRemoteSeqNr + uint16(len(packets) - 1)
|
||||||
|
|
||||||
|
lastAck.eack.isNone()
|
||||||
|
|
||||||
let receivedData = await outgoingSocket.read(len(data))
|
let receivedData = await outgoingSocket.read(len(data))
|
||||||
|
|
||||||
|
@ -218,10 +176,11 @@ procSuite "Utp socket unit test":
|
||||||
# TODO test is valid until implementing selective acks
|
# TODO test is valid until implementing selective acks
|
||||||
let q = newAsyncQueue[Packet]()
|
let q = newAsyncQueue[Packet]()
|
||||||
let initalRemoteSeqNr = 10'u16
|
let initalRemoteSeqNr = 10'u16
|
||||||
|
let numOfPackets = 3'u16
|
||||||
|
|
||||||
let (outgoingSocket, initialPacket) = connectOutGoingSocket(initalRemoteSeqNr, q)
|
let (outgoingSocket, initialPacket) = connectOutGoingSocket(initalRemoteSeqNr, q)
|
||||||
|
|
||||||
var packets = generateDataPackets(3, initalRemoteSeqNr, initialPacket.header.connectionId, initialPacket.header.seqNr, rng[])
|
var packets = generateDataPackets(numOfPackets, initalRemoteSeqNr, initialPacket.header.connectionId, initialPacket.header.seqNr, rng[])
|
||||||
|
|
||||||
let data = packetsToBytes(packets)
|
let data = packetsToBytes(packets)
|
||||||
|
|
||||||
|
@ -235,12 +194,28 @@ procSuite "Utp socket unit test":
|
||||||
for p in packets:
|
for p in packets:
|
||||||
await outgoingSocket.processPacket(p)
|
await outgoingSocket.processPacket(p)
|
||||||
|
|
||||||
let ack2 = await q.get()
|
var sentAcks: seq[Packet] = @[]
|
||||||
|
|
||||||
|
for i in 0'u16..<numOfPackets:
|
||||||
|
let ack = await q.get()
|
||||||
|
sentAcks.add(ack)
|
||||||
|
|
||||||
|
# all packets except last one should be selective acks, without bumped ackNr
|
||||||
|
for i in 0'u16..<numOfPackets - 1:
|
||||||
|
check:
|
||||||
|
sentAcks[i].header.ackNr == initalRemoteSeqNr - 1
|
||||||
|
sentAcks[i].eack.isSome()
|
||||||
|
|
||||||
|
# last ack should be normal ack packet (not selective one), and it should ack
|
||||||
|
# all remaining packets
|
||||||
|
let lastAck = sentAcks[numOfPackets - 1]
|
||||||
|
|
||||||
check:
|
check:
|
||||||
ack2.header.pType == ST_STATE
|
lastAck.header.pType == ST_STATE
|
||||||
# we are acking in one shot whole 10 packets
|
# we are acking in one shot whole 10 packets
|
||||||
ack2.header.ackNr == initalRemoteSeqNr + uint16(len(packets) - 1)
|
lastAck.header.ackNr == initalRemoteSeqNr + uint16(len(packets) - 1)
|
||||||
|
|
||||||
|
lastAck.eack.isNone()
|
||||||
|
|
||||||
let receivedData = await outgoingSocket.read(len(data))
|
let receivedData = await outgoingSocket.read(len(data))
|
||||||
|
|
||||||
|
@ -250,7 +225,6 @@ procSuite "Utp socket unit test":
|
||||||
await outgoingSocket.destroyWait()
|
await outgoingSocket.destroyWait()
|
||||||
|
|
||||||
asyncTest "Processing packets in random order":
|
asyncTest "Processing packets in random order":
|
||||||
# TODO test is valid until implementing selective acks
|
|
||||||
let q = newAsyncQueue[Packet]()
|
let q = newAsyncQueue[Packet]()
|
||||||
let initalRemoteSeqNr = 10'u16
|
let initalRemoteSeqNr = 10'u16
|
||||||
|
|
||||||
|
|
|
@ -0,0 +1,244 @@
|
||||||
|
# Copyright (c) 2021 Status Research & Development GmbH
|
||||||
|
# Licensed and distributed under either of
|
||||||
|
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
|
||||||
|
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
|
||||||
|
# at your option. This file may not be copied, modified, or distributed except according to those terms.
|
||||||
|
|
||||||
|
{.used.}
|
||||||
|
|
||||||
|
import
|
||||||
|
std/[options, sequtils],
|
||||||
|
chronos, bearssl, chronicles,
|
||||||
|
stew/bitops2,
|
||||||
|
testutils/unittests,
|
||||||
|
./test_utils,
|
||||||
|
../../eth/utp/utp_router,
|
||||||
|
../../eth/utp/utp_socket,
|
||||||
|
../../eth/utp/packets,
|
||||||
|
../../eth/keys
|
||||||
|
|
||||||
|
procSuite "Utp socket selective acks unit test":
|
||||||
|
let rng = newRng()
|
||||||
|
let testAddress = initTAddress("127.0.0.1", 9079)
|
||||||
|
let defaultBufferSize = 1024'u32
|
||||||
|
|
||||||
|
proc connectAndProcessMissingPacketWithIndexes(idxs: seq[int]): Future[array[4, uint8]] {.async.} =
|
||||||
|
let initialRemoteSeq = 1'u16
|
||||||
|
let q = newAsyncQueue[Packet]()
|
||||||
|
let data = @[0'u8]
|
||||||
|
|
||||||
|
let (outgoingSocket, initialPacket) = connectOutGoingSocket(initialRemoteSeq, q)
|
||||||
|
|
||||||
|
var dataPackets: seq[Packet] = @[]
|
||||||
|
|
||||||
|
for i in idxs:
|
||||||
|
let dataP =
|
||||||
|
dataPacket(
|
||||||
|
# initialRemoteSeq is next expected packet, so n represent how far from the
|
||||||
|
# future is this packet
|
||||||
|
initialRemoteSeq + uint16(i),
|
||||||
|
initialPacket.header.connectionId,
|
||||||
|
initialPacket.header.seqNr,
|
||||||
|
defaultBufferSize,
|
||||||
|
data,
|
||||||
|
0
|
||||||
|
)
|
||||||
|
dataPackets.add(dataP)
|
||||||
|
|
||||||
|
for p in dataPackets:
|
||||||
|
await outgoingSocket.processPacket(p)
|
||||||
|
|
||||||
|
let extArray = outgoingSocket.generateSelectiveAckBitMask()
|
||||||
|
|
||||||
|
await outgoingSocket.destroyWait()
|
||||||
|
|
||||||
|
return extArray
|
||||||
|
|
||||||
|
proc numOfSetBits(arr: openArray[byte]): int =
|
||||||
|
var numOfSetBits = 0
|
||||||
|
for b in arr:
|
||||||
|
numOfSetBits = numOfSetBits + countOnes(b)
|
||||||
|
return numOfSetBits
|
||||||
|
|
||||||
|
proc hasOnlyOneBitSet(arr: openArray[byte]): bool =
|
||||||
|
return numOfSetBits(arr) == 1
|
||||||
|
|
||||||
|
asyncTest "Socket with empty buffer should generate array with only zeros":
|
||||||
|
let q = newAsyncQueue[Packet]()
|
||||||
|
let initialRemoteSeq = 10'u16
|
||||||
|
|
||||||
|
let (outgoingSocket, packet) = connectOutGoingSocket(initialRemoteSeq, q)
|
||||||
|
|
||||||
|
let extArray = outgoingSocket.generateSelectiveAckBitMask()
|
||||||
|
|
||||||
|
check:
|
||||||
|
extArray == [0'u8, 0, 0, 0]
|
||||||
|
|
||||||
|
asyncTest "Socket should generate correct bit mask for each missing packet":
|
||||||
|
# 1 means that received packet is packet just after expected packet i.e
|
||||||
|
# packet.seqNr - receivingSocket.ackNr = 2
|
||||||
|
# 32 means that received packet is 32 packets after expected one i.e
|
||||||
|
# packet.seqNr - receivingSocket.ackNr = 32
|
||||||
|
# First byte represents packets [ack_nr + 2, ack_nr + 9] in reverse order
|
||||||
|
# Second byte represents packets [ack_nr + 10, ack_nr + 17] in reverse order
|
||||||
|
# Third byte represents packets [ack_nr + 18, ack_nr + 25] in reverse order
|
||||||
|
# Fourth byte represents packets [ack_nr + 26, ack_nr + 33] in reverse order
|
||||||
|
let afterExpected = 1..32
|
||||||
|
|
||||||
|
for i in afterExpected:
|
||||||
|
# bit mask should have max 4 bytes
|
||||||
|
let bitMask = await connectAndProcessMissingPacketWithIndexes(@[i])
|
||||||
|
|
||||||
|
check:
|
||||||
|
# only one bit should have been set as only one packet has been processed
|
||||||
|
# out of order
|
||||||
|
hasOnlyOneBitSet(bitMask)
|
||||||
|
getBit(bitMask, i - 1)
|
||||||
|
|
||||||
|
asyncTest "Socket should generate correct bit mask if there is more than one missing packet":
|
||||||
|
# Each testcase defines which out of order packets should be processed i.e
|
||||||
|
# @[1] - packet just after expected will be processed
|
||||||
|
# @[3, 5] - packet three packets after will be processed and then packet 5 packets
|
||||||
|
# after expected will be processed
|
||||||
|
let testCases = @[
|
||||||
|
@[1],
|
||||||
|
@[1, 2],
|
||||||
|
@[1, 9, 11, 18],
|
||||||
|
@[1, 3, 8, 15, 18, 22, 27, 32]
|
||||||
|
]
|
||||||
|
|
||||||
|
for missingIndexes in testCases:
|
||||||
|
let bitMask = await connectAndProcessMissingPacketWithIndexes(missingIndexes)
|
||||||
|
check:
|
||||||
|
numOfSetBits(bitMask) == len(missingIndexes)
|
||||||
|
|
||||||
|
for idx in missingIndexes:
|
||||||
|
check:
|
||||||
|
getBit(bitMask, idx - 1)
|
||||||
|
|
||||||
|
asyncTest "Socket should generate max 4 bytes bit mask even if there is more missing packets":
|
||||||
|
let testCases = @[
|
||||||
|
toSeq(1..40)
|
||||||
|
]
|
||||||
|
|
||||||
|
for missingIndexes in testCases:
|
||||||
|
let bitMask = await connectAndProcessMissingPacketWithIndexes(missingIndexes)
|
||||||
|
check:
|
||||||
|
numOfSetBits(bitMask) == 32
|
||||||
|
len(bitMask) == 4
|
||||||
|
|
||||||
|
type TestCase = object
|
||||||
|
# number of packet to generate by writitng side
|
||||||
|
numOfPackets: int
|
||||||
|
# indexes of packets which should be delivered to remote
|
||||||
|
packetsDelivered: seq[int]
|
||||||
|
|
||||||
|
let selectiveAckTestCases = @[
|
||||||
|
TestCase(numOfPackets: 2, packetsDelivered: @[1]),
|
||||||
|
TestCase(numOfPackets: 10, packetsDelivered: @[1, 3, 5, 7, 9]),
|
||||||
|
TestCase(numOfPackets: 10, packetsDelivered: @[1, 2, 3, 4, 5, 6, 7, 8, 9]),
|
||||||
|
TestCase(numOfPackets: 15, packetsDelivered: @[1, 3, 5, 7, 9, 10, 11, 12, 14]),
|
||||||
|
TestCase(numOfPackets: 20, packetsDelivered: @[1, 3, 5, 7, 9, 11, 13, 15, 17, 19]),
|
||||||
|
TestCase(numOfPackets: 33, packetsDelivered: @[32]),
|
||||||
|
TestCase(numOfPackets: 33, packetsDelivered: @[25, 26, 27, 28, 29, 30, 31, 32]),
|
||||||
|
TestCase(numOfPackets: 33, packetsDelivered: toSeq(1..32))
|
||||||
|
]
|
||||||
|
|
||||||
|
asyncTest "Socket should calculate number of bytes acked by selective acks":
|
||||||
|
let dataSize = 10
|
||||||
|
let initialRemoteSeq = 10'u16
|
||||||
|
let smallData = generateByteArray(rng[], 10)
|
||||||
|
|
||||||
|
for testCase in selectiveAckTestCases:
|
||||||
|
let outgoingQueue = newAsyncQueue[Packet]()
|
||||||
|
let incomingQueue = newAsyncQueue[Packet]()
|
||||||
|
|
||||||
|
let (outgoingSocket, incomingSocket) =
|
||||||
|
connectOutGoingSocketWithIncoming(
|
||||||
|
initialRemoteSeq,
|
||||||
|
outgoingQueue,
|
||||||
|
incomingQueue
|
||||||
|
)
|
||||||
|
|
||||||
|
var packets: seq[Packet] = @[]
|
||||||
|
|
||||||
|
for _ in 0..<testCase.numOfPackets:
|
||||||
|
discard await outgoingSocket.write(smallData)
|
||||||
|
let packet = await outgoingQueue.get()
|
||||||
|
packets.add(packet)
|
||||||
|
|
||||||
|
for toDeliver in testCase.packetsDelivered:
|
||||||
|
await incomingSocket.processPacket(packets[toDeliver])
|
||||||
|
|
||||||
|
let finalAck = incomingSocket.generateAckPacket()
|
||||||
|
|
||||||
|
check:
|
||||||
|
finalAck.eack.isSome()
|
||||||
|
|
||||||
|
let mask = finalAck.eack.unsafeGet().acks
|
||||||
|
|
||||||
|
check:
|
||||||
|
numOfSetBits(mask) == len(testCase.packetsDelivered)
|
||||||
|
|
||||||
|
for idx in testCase.packetsDelivered:
|
||||||
|
check:
|
||||||
|
getBit(mask, idx - 1)
|
||||||
|
|
||||||
|
let ackedBytes = outgoingSocket.calculateSelectiveAckBytes(finalAck.header.ackNr, finalAck.eack.unsafeGet())
|
||||||
|
|
||||||
|
check:
|
||||||
|
int(ackedBytes) == len(testCase.packetsDelivered) * dataSize
|
||||||
|
|
||||||
|
await outgoingSocket.destroyWait()
|
||||||
|
await incomingSocket.destroyWait()
|
||||||
|
|
||||||
|
asyncTest "Socket should ack packets based on selective ack packet":
|
||||||
|
let dataSize = 10
|
||||||
|
let initialRemoteSeq = 10'u16
|
||||||
|
let smallData = generateByteArray(rng[], 10)
|
||||||
|
|
||||||
|
for testCase in selectiveAckTestCases:
|
||||||
|
let outgoingQueue = newAsyncQueue[Packet]()
|
||||||
|
let incomingQueue = newAsyncQueue[Packet]()
|
||||||
|
|
||||||
|
let (outgoingSocket, incomingSocket) =
|
||||||
|
connectOutGoingSocketWithIncoming(
|
||||||
|
initialRemoteSeq,
|
||||||
|
outgoingQueue,
|
||||||
|
incomingQueue
|
||||||
|
)
|
||||||
|
|
||||||
|
var packets: seq[Packet] = @[]
|
||||||
|
|
||||||
|
for _ in 0..<testCase.numOfPackets:
|
||||||
|
discard await outgoingSocket.write(smallData)
|
||||||
|
let packet = await outgoingQueue.get()
|
||||||
|
packets.add(packet)
|
||||||
|
|
||||||
|
for toDeliver in testCase.packetsDelivered:
|
||||||
|
await incomingSocket.processPacket(packets[toDeliver])
|
||||||
|
|
||||||
|
let finalAck = incomingSocket.generateAckPacket()
|
||||||
|
|
||||||
|
check:
|
||||||
|
finalAck.eack.isSome()
|
||||||
|
|
||||||
|
let mask = finalAck.eack.unsafeGet().acks
|
||||||
|
|
||||||
|
check:
|
||||||
|
numOfSetBits(mask) == len(testCase.packetsDelivered)
|
||||||
|
|
||||||
|
for idx in testCase.packetsDelivered:
|
||||||
|
check:
|
||||||
|
getBit(mask, idx - 1)
|
||||||
|
|
||||||
|
check:
|
||||||
|
outgoingSocket.numPacketsInOutGoingBuffer() == testCase.numOfPackets
|
||||||
|
|
||||||
|
await outgoingSocket.processPacket(finalAck)
|
||||||
|
|
||||||
|
check:
|
||||||
|
outgoingSocket.numPacketsInOutGoingBuffer() == testCase.numOfPackets - len(testCase.packetsDelivered)
|
||||||
|
|
||||||
|
await outgoingSocket.destroyWait()
|
||||||
|
await incomingSocket.destroyWait()
|
Loading…
Reference in New Issue