TCP Sendbuffer Advertising. Costin Raiciu University Politehnica of Bucharest
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1 TCP Sendbuffer Advertising Costin Raiciu University Politehnica of Bucharest
2 Problem statement There is only so much we can find about about a connection by looking at in flight packets (losses, retransmissions, RTT, etc.) sflow packet sampling Netflow aggregate statistics For anything else, it gets expensive
3 Problem statement There is only so much we can find about about a connection by looking at in flight packets (losses, retransmissions, RTT, etc.) sflow packet sampling Netflow aggregate statistics For anything else, it gets expensive Is the connection limited by the network?
4 What if we advertised send buffer occupancy inside TCP segments?
5 What exactly do we advertise? Sequence numbers
6 What exactly do we advertise? Sequence numbers snd_una first unacknowledged sequence number
7 What exactly do we advertise? Sequence numbers snd_una write_seq sequence number of the last written byte
8 What exactly do we advertise? Sequence numbers snd_una snd_next write_seq sequence number for the next packet to be sent
9 What exactly do we advertise? Sequence numbers snd_una snd_next write_seq Backlogged data
10 Why do we do it? Backlogged applications are usually network-limited (unless receive window limited or facing very rare issues) Advertising the backlog size is more informative than checking a binary threshold
11 Disk bound transfer
12 Network bound transfer
13 Use cases
14 Detecting network hotspots High loss rate = congestion?
15 Detecting network hotspots High loss rate = congestion? Not really! Example: incast
16 Detecting network hotspots High loss rate = congestion? Not really! Example: incast EC2 incast scenario: - 99 synchronized senders and a single receiver - variable transfer size per round - average loss rate ~2.5%
17 Incast results
18 Helping datacenter applications Storage Server1 read Map
19 Helping applications Storage Server1 read very slow Map Show we move the Map task to another server?
20 Helping applications Storage Server1 read very slow Map Show we move the Map task to another server? It depends. If there is no backlogged data, then the issue is at the storage node.
21 Improving mobile performance WiFi Mobile data Mobile data is generally not used if a WiFi network is available. Some applications (video streaming for example) may benefit from also using the other interface, especially in poor network conditions.
22 Improving mobile performance The second interface is powered on
23 Troubleshooting flow performance Using of sendbuffer information to infer other flow characteristics For example, we try to estimate the presence of congestion events by analysing the evolution of the sendbuffer
24 Sendbuffer information is a proxy for the congestion window TCP sendbuffer snd_una snd_next write_seq CWND Send buffer advertising
25 Inferring congestion events
26 Inferring congestion events
27 Inferring congestion events
28 Inferring congestion events
29 Encoding sendbuffer information
30 Negotiating sendbuffer advertising New TCP option in the SYN handshake? Sender-only change Receiver or network can use information only if they know the standard Just need to ensure legacy boxes are not affected
31 Negotiating sendbuffer advertising New TCP option in the SYN handshake? end buffer advertising is not negotiated at all Sender-only change Receiver or network can use information only if they know the standard Just need to ensure legacy boxes are not affected ender system-wide configuration decides if it used or not
32 Information encoding in data segments Use a TCP option Adds overhead and we don t have much space in the options field Should work just fine in the Internet Middleboxes either allow unknown options or just scrub them Receiver stacks should just ignore unknown options (need to check, though)
33 Information encoding in data segments data traffic is (mostly) uni-directional TCP (SEQ, ACK, RWND, DATA) TCP (SEQ, ACK, RWND, DATA)
34 Information encoding in data segments data traffic is (mostly) uni-directional TCP (SEQ, ACK, RWND, DATA) TCP (SEQ, ACK, RWND, DATA)
35 Information encoding in data segments Reuse ACK and RWND fields to encode sendbuffer information SNDBUFADV TCP (SEQ, ACK, RWND, DATA) TCP (SEQ, ACK, RWND, DATA)
36 Information encoding in data segments Case 1: encoding for datacenters Redefine one reserved flag as sendbuffer advertising flag To encode sendbuffer advertising: Disable the ACK flag Set the SNDBUF flag Encode value in the ACK field
37 Information encoding in data segments Case 2: Internet To encode sendbuffer advertising: Disable the ACK flag Encode value in the ACK field Encode HMAC of value in the RWND field
38 Conclusions Having sendbuffer information in TCP segments can prove useful in many situations It can be encoded in every segment without any overhead in terms of space Documents HotCloud 2015 paper draft-ietf-tcpm-agache-sndbufadv-00
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