Ubuntu Manpage: ip-mptcp - MPTCP path manager configuration

Provided by: iproute2_6.1.0-1ubuntu2_amd64

NAME

       ip-mptcp - MPTCP path manager configuration

SYNOPSIS

       ip [ OPTIONS ] mptcp { endpoint  | limits  | help  }

       ip mptcp endpoint add IFADDR [ port PORT ] [ dev IFNAME ] [ id ID ] [ FLAG-LIST ]

       ip mptcp endpoint delete id ID [ IFADDR ]

       ip mptcp endpoint change [ id ID ] [ IFADDR ] [ port PORT ] CHANGE-OPT

       ip mptcp endpoint show [ id ID ]

       ip mptcp endpoint flush

       FLAG-LIST := [ FLAG-LIST ] FLAG

       FLAG := [ signal | subflow | backup | fullmesh ]

       CHANGE-OPT := [ backup | nobackup | fullmesh | nofullmesh ]

       ip mptcp limits set [ subflow SUBFLOW_NR ] [ add_addr_accepted ADD_ADDR_ACCEPTED_NR ]

       ip mptcp limits show

       ip mptcp monitor

DESCRIPTION

       MPTCP is a transport protocol built on top of TCP that allows TCP connections to use
       multiple paths to maximize resource usage and increase redundancy. The ip-mptcp sub-
       commands allow configuring several aspects of the MPTCP path manager, which is in charge
       of subflows creation:

       The endpoint object specifies the IP addresses that will be used and/or announced for
       additional subflows:

       ip mptcp endpoint add      add new MPTCP endpoint
       ip mptcp endpoint delete   delete existing MPTCP endpoint
       ip mptcp endpoint show     get existing MPTCP endpoint
       ip mptcp endpoint flush    flush all existing MPTCP endpoints

       IFADDR An IPv4 or IPv6 address. When used with the delete id operation, an IFADDR is only
              included when the ID is 0.

       PORT   When a port number is specified, incoming MPTCP subflows for already established
              MPTCP sockets will be accepted on the specified port, regardless the original
              listener port accepting the first MPTCP subflow and/or this peer being actually on
              the client side.

       ID     is a unique numeric identifier for the given endpoint

       signal The endpoint will be announced/signaled to each peer via an MPTCP ADD_ADDR sub-
              option. Upon reception of an ADD_ADDR sub-option, the peer can try to create
              additional subflows, see ADD_ADDR_ACCEPTED_NR.

       subflow
              If additional subflow creation is allowed by the MPTCP limits, the MPTCP path
              manager will try to create an additional subflow using this endpoint as the source
              address after the MPTCP connection is established.

       backup If this is a subflow endpoint, the subflows created using this endpoint will have
              the backup flag set during the connection process. This flag instructs the peer to
              only send data on a given subflow when all non-backup subflows are unavailable.
              This does not affect outgoing data, where subflow priority is determined by the
              backup/non-backup flag received from the peer

       fullmesh
              If this is a subflow endpoint and additional subflow creation is allowed by the
              MPTCP limits, the MPTCP path manager will try to create an additional subflow for
              each known peer address, using this endpoint as the source address. This will occur
              after the MPTCP connection is established. If the peer did not announce any
              additional addresses using the MPTCP ADD_ADDR sub-option, this will behave the same
              as a plain subflow endpoint. When the peer does announce addresses, each received
              ADD_ADDR sub-option will trigger creation of an additional subflow to generate a
              full mesh topology.

       The limits object specifies the constraints for subflow creations:

       ip mptcp limits show   get current MPTCP subflow creation limits
       ip mptcp limits set    change the MPTCP subflow creation limits

       SUBFLOW_NR
              specifies the maximum number of additional subflows allowed for each MPTCP
              connection. Additional subflows can be created due to: incoming accepted ADD_ADDR
              sub-option, local subflow endpoints, additional subflows started by the peer.

       ADD_ADDR_ACCEPTED_NR
              specifies the maximum number of incoming ADD_ADDR sub-options accepted for each
              MPTCP connection. After receiving the specified number of ADD_ADDR sub-options, any
              other incoming one will be ignored for the MPTCP connection lifetime. When an
              ADD_ADDR sub-option is accepted and there are no local fullmesh endpoints, the
              MPTCP path manager will try to create a new subflow using the address in the
              ADD_ADDR sub-option as the destination address and a source address determined
              using local routing resolution When fullmesh endpoints are available, the MPTCP
              path manager will try to create new subflows using each fullmesh endpoint as a
              source address and the peer's ADD_ADDR address as the destination.  In both cases
              the SUBFLOW_NR limit is enforced.

       monitor displays creation and deletion of MPTCP connections as well as addition or removal
       of remote addresses and subflows.

AUTHOR

       Original Manpage by Paolo Abeni <pabeni@redhat.com>