Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I was reading Computer Networking from Kurose, and while reading in the TCP chapter about the differences between TCP and Go Back N i found something that I dot fully understand. The book says the following about some of the differences between the two protocols:

"many TCP implementations buffer correctly received but out-of-order segs rather than discard.

also, suppose a seqof segs 1, 2, …N, are received correctively in-order,ACK(n), n < N, gets lost, and remaining N-1 acks arrive at sender before their respective timeouts TCP retransmit most one seg, i.e., seg n, instead of pkts, n, n+1, …, N TCP wouldn’t even retransmit seg n if ACK(n+1) arrived before timeout for seg n"

I understand the buffering of out-of-order segments, but I don't understand the other behavour, and I think it is because I don't fully understand Go Back N. Following that example, if ACK(n+t) arrives before Go Back N timeout, the protocol would continue as if seg n was in fact received, which is the case, because of the accumulative ACKS... so, Go Back N wouldn't retransmit that segment either.... or am i missing something?

share|improve this question

3 Answers 3

I was looking at this question's answer and after finding it I thought even though this is old, it might help someone, so I copied a fragment from Kurose-Ross Computer Networking - A top down approach:

Is TCP a GBN or an SR protocol? Recall that TCP acknowledgments are cumulative and correctly received but out-of-order segments are not individually ACKed by the receiver. Consequently, the TCP sender need only maintain the smallest sequence number of a transmitted but unacknowledged byte (SendBase) and the sequence number of the next byte to be sent (NextSeqNum). In this sense, TCP looks a lot like a GBN-style protocol. But there are some striking differences between TCP and Go-Back-N. Many TCP implementations will buffer correctly received but out-of-order segments [Stevens 1994]. Consider also what happens when the sender sends a sequence of segments 1, 2, . . . , N, and all of the segments arrive in order without error at the receiver. Further suppose that the acknowledgment for packet n < N gets lost, but the remaining N – 1 acknowledgments arrive at the sender before their respective timeouts. In this example, GBN would retransmit not only packet n, but also all of the subsequent packets n + 1, n + 2, . . . , N. TCP, on the other hand, would retransmit at most one segment, namely, segment n. Moreover, TCP would not even retransmit segment n if the acknowledgment for segment n + 1 arrived before the timeout for segment n.

My conclusion: in practice TCP is a mixture between both GBN and SR.

share|improve this answer

ACK(n) acknowledges arrival of the entire stream up to n. So ACK(n+1) says that everything up to n+1 has arrived, including n.

share|improve this answer
But, in Go Back N is the same as in TCP... ACK(n+1) says that everything up to n+1 has arrived to... or perhaps im missing something, but as far as i read it uses acummulative ACKS too.. –  Lucia Sep 27 '12 at 7:20
@Lucia Certainly. Does the book say something different? There's nothing to suggest that in what you have quoted. –  EJP Sep 27 '12 at 10:03

The quote says that the ACK(n) got lost, not the nth segment got lost. In such case, nothing needs to be re-transmitted, because ACK(n + x) means that everything upto n + x was successfully received.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.