TCP. Principles on Reliable Data Transfer. Sequence Number Space. TCP: Overview. Kai Shen Dept. of Computer Science, University of Rochester
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1 TCP Kai Shen Dept. of Computer Science, University of Rochester Principles on Reliable Data Transfer End-to-end solution to achieve reliable data transfer guaranteed arrival no error in order delivery A correct protocol: stop-and-wait one packet at a time An efficient protocol: sliding window multiple packets simultaneously 10/19/2005 CSC 257/457 - Fall /19/2005 CSC 257/457 - Fall Sequence Number Space TCP: Overview SeqNum field is finite; sequence numbers wrap around 0, 1,, S-1, 0, 1,, S-1, 0, 1, Main concern: In out-of-order channels, an old packet carrying the same sequence number confused with a packet of current concern. 10/19/2005 CSC 257/457 - Fall connection-oriented: handshaking (exchange of control msgs) to initialize sender, receiver state before data exchange pipelined: multiple in-flight segments full duplex data: bi-directional data flow in same connection reliable data transfer: guaranteed arrival, no error, in order flow controlled: sender does not overwhelm receiver congestion controlled: sender does not overwhelm the network no delay or bandwidth guarantee. 10/19/2005 CSC 257/457 - Fall
2 TCP Segment Structure TCP Reliable Data Transfer URG: urgent data (generally not used) : # valid PSH: push data now (generally not used) RST, SYN, FIN: connection estab (setup, teardown commands) Internet checksum (as in UDP) 32 bits source port # dest port # sequence number acknowledgement number head not UAP R S len used F Receive window checksum Urg data pnter Options (variable length) application data (variable length) counting by bytes of data (not segments!) # bytes rcvr willing to accept TCP provides reliable data transfer service on top of IP s unreliable service Pipelined transmissions Cumulative s When the receiver receives out-of-order segments, it buffers them and re- the last in-order data Retransmit a single segment at each timeout The sender retransmits at timeout or receiving duplicate s Somewhere between Go-back-N and Selective Repeat, with some additional twists. 10/19/2005 CSC 257/457 - Fall /19/2005 CSC 257/457 - Fall TCP Timeout Estimating Round Trip Time Q: principles for setting transmission timeout value? longer than normal RTT (round trip time) but RTT varies too short: premature timeout and unnecessary retransmissions too long: slow reaction to segment loss Q: how to estimate RTT? SampleRTT: measured time from segment transmission until receipt SampleRTT fluctuates, we want estimated RTT smoother to avoid short-term spikes average several recent measurements, not just current SampleRTT we also want to give more recent measurements higher weight in case things do change 10/19/2005 CSC 257/457 - Fall /19/2005 CSC 257/457 - Fall
3 EWMA Exponentially Weighted Moving Average Example RTT Estimation RTT: gaia.cs.umass.edu to fantasia.eurecom.fr influence of past sample decreases exponentially fast 350 SampleRTT 1 + α*samplertt 2 + α 2 *SampleRTT 3 + EstimatedRTT = 1 + α + α SampleRTT 1 SampleRTT 2 is RTT for the most recent data segment, is RTT for the next recent data segment, etc. RTT (milliseconds) EstimatedRTT = (1-α)*EstimatedRTT last + α*samplertt typical value: α = time (seconnds) 10/19/2005 CSC 257/457 - Fall SampleRTT Estimated RTT 10/19/2005 CSC 257/457 - Fall TCP Timeout TCP Sender Events and Processing Setting the timeout: EstimtedRTT plus safety margin large variation in EstimatedRTT larger safety margin we need to estimate of how much SampleRTT deviates from EstimatedRTT (EWMA): DevRTT = (1-β)*DevRTT last (typically, β = 0.25) Then set timeout interval: + β* SampleRTT-EstimatedRTT TimeoutInterval = EstimatedRTT + 4*DevRTT 10/19/2005 CSC 257/457 - Fall Data ready to send: create segment with seq # seq # is byte-stream number of first data byte in segment start timer timeout value: we just decided it!! Timeout: retransmit segment that caused timeout restart timer rcvd: slide sender window if acknowledges previously unacked segments retransmit if 3 duplicate s 10/19/2005 CSC 257/457 - Fall
4 TCP byte-oriented seq. # s and s TCP in Action: Cumulative Seq. # s: byte stream number of first byte in segment s data s: seq # of next byte expected from other side cumulative User types ls\n host s receipt of echoed vi a.c\n Host A Host B Seq=42, =79, data = ls\n Seq=79, =45, data = a.c\n Seq=45, =83 host s receipt of ls\n, echoes back a.c\n Slide sendwind base to 120 timeout Host A Host B Seq=92, 8 bytes data Seq=100, 20 bytes data X loss =120 =100 s piggybacked in data segments in the other direction simple telnet scenario 10/19/2005 CSC 257/457 - Fall time time Cumulative scenario 10/19/2005 CSC 257/457 - Fall Fast Retransmission TCP in Action: Duplicate s and Fast Retransmission Time-out period often relatively long: long delay before resending lost packet When receiver receives out-of-order segments, it re- the last in-order byte If sender receives 3 s for the same data, it supposes that segment after ed data was lost: fast retransmission: resend segment before timer expires, restart timer 3 duplicate s resend 92 timeout Host A Host B =92 Seq=92, 8 bytes data X Seq=100, 8 bytes data Seq=108, 8 bytes data Seq=116, 8 bytes data =92 =92 =92 loss Seq=92, 8 bytes data time Cumulative scenario 10/19/2005 CSC 257/457 - Fall /19/2005 CSC 257/457 - Fall
5 Outline segment structure reliable data transfer flow control connection management TCP Flow Control receive side of TCP connection has a receive buffer: flow control sender does not overflow receiver s buffer by transmitting too much, too fast app process may be slow at reading from buffer speed-matching service: matching the send rate to the receiving app s drain rate 10/19/2005 CSC 257/457 - Fall /19/2005 CSC 257/457 - Fall TCP Flow Control: how it works? Where is RcvWindow in each segment? Rcvr advertises spare room by including value of RcvWindow in segments Sender limits uned data to RcvWindow guarantees receive buffer doesn t overflow 32 bits source port # dest port # sequence number acknowledgement number head not UAP R S len used F Receive window checksum Urg data pnter Options (variable length) application data (variable length) # bytes rcvr willing to accept 10/19/2005 CSC 257/457 - Fall /19/2005 CSC 257/457 - Fall
6 TCP Connection Management TCP Connection Establishment Establishment: TCP sender, receiver establish connection before exchanging data segments initialize TCP variables: starting seq. #s, MSS, buffers, flow control info (e.g. RcvWindow) MSS is the maximum TCP segment size each side is willing to accept typically the largest segment size fit into a link-layer frame What is MSS for an IPv4 host connected with Ethernet? Teardown: freeing up resources after mutually close 10/19/2005 CSC 257/457 - Fall Three way handshake: Step 1: client (active open) sends TCP SYN segment to server specifies initial seq # no data Step 2: server (passive open) host receives SYN, replies with SYN segment server allocates buffers specifies server initial seq. # Step 3: client receives SYN, replies with segment, which may contain data connection request client server SYN, seq=x, no data SYN, seq=y, =x+1, no data seq=x+1, =y+1, maybe data 10/19/2005 CSC 257/457 - Fall TCP Connection Teardown Closing a connection: close socket: close(sockfd); Step 1: A (active closing host) sends TCP FIN control segment to server Step 2: B (passive closing host) receives FIN, replies with. Closes connection, sends FIN. Step 3: A receives FIN, replies with. close Enters timed wait resend in case it is lost closed Step 4: B receives. Connection closed. 10/19/2005 CSC 257/457 - Fall timed wait A FIN FIN B close TCP State Transition Diagram FIN_WAIT_1 FIN_WAIT_2 Passive open CLOSED LISTEN ESTABLISHED CLOSING TIME_WAIT Close SYN/SYN + Send/SYN SYN/SYN + SYN_RCVD SYN + / Close/FIN Close/FIN FIN/ + FIN/ FIN/ FIN/ Close Timeout after two segment lifetimes Active open/syn SYN_SENT CLOSE_WAIT LAST_ Close/FIN 10/19/2005 CSC 257/457 - Fall CLOSED
7 Disclaimer Parts of the lecture slides contain original work of James Kurose, Larry Peterson, and Keith Ross. The slides are intended for the sole purpose of instruction of computer networks at the University of Rochester. All copyrighted materials belong to their original owner(s). 10/19/2005 CSC 257/457 - Fall
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