TCP Congestion Control
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1 6.033, Spring 2014 TCP Congestion Control Dina Katabi & Sam Madden nms.csail.mit.edu/~dina
2 Sharing the Internet How do you manage resources in a huge system like the Internet, where users with different interests share the same links? Difficult because of: Size Billions of users, links, routers Heterogeneity bandwidth: 9.6Kb/s (then modem, now cellular), 10 Tb/s latency: 50us (LAN), 133ms (wired), 1s (satellite), 260s (Mars)
3 Congestion S 1 10Mb/s R1 D 2Mb/s S 2 100Mb/s Sources compete for link bandwidth, and buffer space Why a problem? Sources are unaware of current state of resource Sources are unaware of each other Manifestations: Lost packets (buffer overflow at routers) Long delays (queuing in router buffers) In many situations will result in < 2 Mb/s of throughput for the above topology (congestion collapse) S 1 S 2
4 Objectives of Congestion Control Efficiency & Fairness Efficiency Maximize link utilization Minimize queue size (i.e., delay) Minimize packet drops Many solutions! (S 1 = 1 Mb/s, S 2 = 1 Mb/s) and (S 1 =1.5 Mb/s, S 2 =0.5 Mb/s) are both efficient. S 1 10Mb/s R1 D 2Mb/s S 2 100Mb/s Want Fairness
5 Fairness Max-Min Fairness At each bottleneck, user gets min(user s demand, fair share) User s rate is the minimum max-min fair rate along the path S 1 S 2 R1 D 9Mb/s S 2 Demands 1 = 1Mb/s 2 = 7Mb/s 3 = Max-min Fair Rates 1 = 1Mb/s 2 = 4Mb/s 3 = 4Mb/s
6 TCP
7 TCP TCP provides reliability & congestion control Reliable transmission ensures the receiver s application receives the correct and complete data sent by the sender s application TCP recovers from lost packets, eliminates duplicates and ensures in-order packet delivery to the application Reliability was discussed in 6.02 Congestion control Sender reacts to congestion and discovers its fair and efficient send rate
8 Basic Idea: TCP Cong. Cont. Send a few packets. If a packet is dropped decrease rate. If no drops, increase rate How does TCP detect drops? Packets have sequence numbers Receiver acks the next expected sequence number (i.e., if received 1, it acks 2 saying it is expecting 2 to arrive next. Note that TCP implementations ack bytes but for simplicity we talk about acking packets.)
9 TCP controls throughput via the congestion window Congestion window is the number of outstanding packets, i.e., number of packets sender can send without waiting for an ack TCP is window-based: sources change their sending rate by modifying the window size: cwnd Avg. Throughput = (Avg. cwnd) /(Avg. RTT) Why not changing rate directly? Window protocols are easy to implement (no need for accurate timers, i.e., works for slow machines an sensors)
10 How much should TCP Increase/decrease? Probe for the correct sending window Additive Increase / Multiplicative Decrease (AIMD) Every RTT: No loss: cwnd = cwnd + 1 A loss: cwnd = cwnd /2
11 Additive Increase Src cwnd = 1 cwnd += 1 cwnd = 2 cwnd = 3 cwnd = 4 D A D D A A D D D A A A Dest Actually, On ack arrival: cwnd = cwnd + 1/cwnd On timeout: cwnd = cwnd /2
12 AIMD Leads to Efficiency and Fairness (x 1,x 2 ) fairness line User 2: x 2 (bx 1,bx 2 ) (bx 1 +a,bx 2 +a) Efficiency line (x1+x2 = BW) User 1: x 1
13 TCP AIMD Congestion Window Timeout because of a packet loss correct cwnd Halve Congestion Window (and Rate) Grab back Bandwidth Time Need the queue to absorb these saw-tooth oscillations
14 Slow Start Cold start a connection at startup or after a timeout At the beginning of a connection, increase exponentially On ack arrival: cwnd += 1 Src D A D D A A D D D D A A A A A A A A Dest
15 Adding Slow Start Congestion Window Loss+Timeout AIMD Exponential Increase Slow start stops at halve previous cwnd Time
16 Tweaking TCP Fast Retransmit Timeouts are too slow When packet is dropped, receiver still acks the next in-order packet Use 3 duplicate ACKs to indicate a drop Why 3? When this does not work? Fast Recovery If there are still ACKs coming in then no need for slow-start Divide cwnd by 2 after fast retransmit Increment cwnd by 1/cwnd for each dupack
17 Putting It Together Congestion Window Time
18 Putting It Together Congestion Window Slow Start Time
19 Putting It Together Congestion Window 3 dupacks (Fast Retransmit) Time
20 Putting It Together Congestion Window Fast Recovery Time
21 TCP Steady-State Throughput as Function of Loss Rate Wm Wm 1 drop every pkt so, drop rate is: p W m 8 Throughput is the packets sent divided by the time it took to send them 3W m 4RTT W(t) W m 1 drop From the two eq. 3/ RTT 2 p W m /2 RTT * W m /2 time
22 Reflections on TCP The probing mechanism of TCP is based on causing congestion then detecting it Assumes that all sources cooperate Assumes flows are long enough Too bursty Vulnerable to non-congestion related loss (e.g. wireless errors) Unfair to long RTT flows
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