Maximum segment size
The maximum segment size (MSS) is a parameter of the options field of the header that specifies the largest amount of data, specified in bytes, that a computer or communications device can receive in a single . It does not count the or the IP header (unlike, for example, the MTU for IP datagrams). The IP datagram containing a TCP segment may be self-contained within a single packet, or it may be reconstructed from several fragmented pieces; either way, the MSS limit applies to the total amount of data contained in the final, reconstructed TCP segment.
To avoid fragmentation in the IP layer, a host must specify the maximum segment size as equal to the largest IP datagram that the host can handle minus the IP header size and TCP header sizes. Therefore, IPv4 hosts are required to be able to handle an MSS of 536 octets (= 576 - 20 - 20) and IPv6 hosts are required to be able to handle an MSS of 1220 octets (= 1280 - 40 - 20).
Small MSS values will reduce or eliminate IP fragmentation, but will result in higher .
Each direction of data flow can use a different MSS.
For most computer users, the MSS option is established by the operating system.
The default TCP Maximum Segment Size is 536. Where a host wishes to set the maximum segment size to a value other than the default, the maximum segment size is specified as a TCP option, initially in the TCP SYN packet during the TCP handshake. The value cannot be changed after the connection is established.
In order to notify MSS to the other end, an inter-layer communication is done as follows:
While sending TCP segments to the other end, an inter-layer communication is done as follows:
MSS is sometimes mistaken for PMTU. MSS is a concept used by TCP in the Transport layer and it specifies the largest amount of data that a computer or communications device can receive in a single TCP segment. While PMTU is used by the IP layer and it specifies the largest packet size that can be sent over this path without suffering fragmentation.
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