Generic Framing Procedure (GFP) is amultiplexing technique defined byITU-T G.7041.[1] This allows mapping of variable length, higher-layer client signals over a circuit switched transport network likeOTN,SDH/SONET orPDH.[2][3] The client signals can beprotocol data unit (PDU) oriented (likeIP/PPP orEthernetmedia access control) or can be block-code oriented (likeFibre Channel).
There are two modes of GFP: Generic Framing Procedure - Framed (GFP-F) and Generic Framing Procedure - Transparent (GFP-T):
GFP utilizes a length/HEC-based frame delineation mechanism that is more robust than that used byHigh-Level Data Link Control (HDLC), which is single octet flag-based.
There are two types of GFP frames: a GFP client frame and a GFP control frame. A GFP client frame can be further classified as either a client data frame or a client management frame. The former is used to transport client data, while the latter is used to transport point-to-point management information like loss of signal, etc. Client management frames can be differentiated from the client data frames based on the payload type indicator. The GFP control frame currently consists only of a core header field with no payload area. This frame is used to compensate for the gaps between the client signal where the transport medium has a higher capacity than the client signal, and is better known as an idle frame.
A GFP frame consists of: