Lines Matching full:packets
77 segment is sent in its own IP packet. The IP packets are sent out on
83 packets by the router. If possible, the size of the TCP segments are
85 packet will have to reassemble any fragmented IP packets before they
127 produced one or more reply packets which should be sent out. If so,
128 the network device driver should be called to send out these packets.
136 driver should called to send out the packets that may have been produced.
148 header portions of the TCP and IP packets. Since the calculation of
186 packets and has a fixed table for holding connection state. The global
195 packets before the application has processed the data. Packets that
209 packets is also used for the TCP/IP headers of outgoing data. If the
934 When incoming packets are processed by uIP, the IP layer is the first
939 because they are very uncommon, any IP options in received packets are
955 packets to be reassembled, and therefore does not support simultaneous
956 reassembly of more than one packet. Since fragmented packets are
963 IP has the ability to broadcast and multicast packets on the local
964 network. Such packets are addressed to special broadcast and multicast
969 multicast packets. uIP current supports broadcast packets as well as
970 sending multicast packets. Joining multicast groups (IGMP) and
971 receiving non-local multicast packets is not currently supported.
993 The TCP implementation in uIP is driven by incoming packets and timer
994 events. Incoming packets are parsed by TCP and if the packet contains
1017 does not implement it. Also, uIP does not buffer sent packets and a
1018 sliding window implementation that does not buffer sent packets will have
1142 reducing the number of pure acknowledgment packets sent. A TCP