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NAME

     mod_cc, DECLARE_CC_MODULE, CC_VAR — Modular Congestion Control

SYNOPSIS

     #include <netinet/cc.h>
     #include <netinet/cc/cc_module.h>

     DECLARE_CC_MODULE(ccname, ccalgo);

     CC_VAR(ccv, what);

DESCRIPTION

     The mod_cc framework allows congestion control algorithms to be implemented as dynamically
     loadable kernel modules via the kld(4) facility.  Transport protocols can select from the
     list of available algorithms on a connection-by-connection basis, or use the system default
     (see mod_cc(4) for more details).

     mod_cc modules are identified by an ascii(7) name and set of hook functions encapsulated in
     a struct cc_algo, which has the following members:

           struct cc_algo {
                   char    name[TCP_CA_NAME_MAX];
                   int     (*mod_init) (void);
                   int     (*mod_destroy) (void);
                   int     (*cb_init) (struct cc_var *ccv);
                   void    (*cb_destroy) (struct cc_var *ccv);
                   void    (*conn_init) (struct cc_var *ccv);
                   void    (*ack_received) (struct cc_var *ccv, uint16_t type);
                   void    (*cong_signal) (struct cc_var *ccv, uint32_t type);
                   void    (*post_recovery) (struct cc_var *ccv);
                   void    (*after_idle) (struct cc_var *ccv);
           };

     The name field identifies the unique name of the algorithm, and should be no longer than
     TCP_CA_NAME_MAX-1 characters in length (the TCP_CA_NAME_MAX define lives in <netinet/tcp.h>
     for compatibility reasons).

     The mod_init function is called when a new module is loaded into the system but before the
     registration process is complete.  It should be implemented if a module needs to set up some
     global state prior to being available for use by new connections.  Returning a non-zero
     value from mod_init will cause the loading of the module to fail.

     The mod_destroy function is called prior to unloading an existing module from the kernel.
     It should be implemented if a module needs to clean up any global state before being removed
     from the kernel.  The return value is currently ignored.

     The cb_init function is called when a TCP control block struct tcpcb is created.  It should
     be implemented if a module needs to allocate memory for storing private per-connection
     state.  Returning a non-zero value from cb_init will cause the connection set up to be
     aborted, terminating the connection as a result.

     The cb_destroy function is called when a TCP control block struct tcpcb is destroyed.  It
     should be implemented if a module needs to free memory allocated in cb_init.

     The conn_init function is called when a new connection has been established and variables
     are being initialised.  It should be implemented to initialise congestion control algorithm
     variables for the newly established connection.

     The ack_received function is called when a TCP acknowledgement (ACK) packet is received.
     Modules use the type argument as an input to their congestion management algorithms.  The
     ACK types currently reported by the stack are CC_ACK and CC_DUPACK.  CC_ACK indicates the
     received ACK acknowledges previously unacknowledged data.  CC_DUPACK indicates the received
     ACK acknowledges data we have already received an ACK for.

     The cong_signal function is called when a congestion event is detected by the TCP stack.
     Modules use the type argument as an input to their congestion management algorithms.  The
     congestion event types currently reported by the stack are CC_ECN, CC_RTO, CC_RTO_ERR and
     CC_NDUPACK.  CC_ECN is reported when the TCP stack receives an explicit congestion
     notification (RFC3168).  CC_RTO is reported when the retransmission time out timer fires.
     CC_RTO_ERR is reported if the retransmission time out timer fired in error.  CC_NDUPACK is
     reported if N duplicate ACKs have been received back-to-back, where N is the fast retransmit
     duplicate ack threshold (N=3 currently as per RFC5681).

     The post_recovery function is called after the TCP connection has recovered from a
     congestion event.  It should be implemented to adjust state as required.

     The after_idle function is called when data transfer resumes after an idle period.  It
     should be implemented to adjust state as required.

     The DECLARE_CC_MODULE() macro provides a convenient wrapper around the DECLARE_MODULE(9)
     macro, and is used to register a mod_cc module with the mod_cc framework.  The ccname
     argument specifies the module's name.  The ccalgo argument points to the module's struct
     cc_algo.

     mod_cc modules must instantiate a struct cc_algo, but are only required to set the name
     field, and optionally any of the function pointers.  The stack will skip calling any
     function pointer which is NULL, so there is no requirement to implement any of the function
     pointers.  Using the C99 designated initialiser feature to set fields is encouraged.

     Each function pointer which deals with congestion control state is passed a pointer to a
     struct cc_var, which has the following members:

           struct cc_var {
                   void            *cc_data;
                   int             bytes_this_ack;
                   tcp_seq         curack;
                   uint32_t        flags;
                   int             type;
                   union ccv_container {
                           struct tcpcb            *tcp;
                           struct sctp_nets        *sctp;
                   } ccvc;
           };

     struct cc_var groups congestion control related variables into a single, embeddable
     structure and adds a layer of indirection to accessing transport protocol control blocks.
     The eventual goal is to allow a single set of mod_cc modules to be shared between all
     congestion aware transport protocols, though currently only tcp(4) is supported.

     To aid the eventual transition towards this goal, direct use of variables from the transport
     protocol's data structures is strongly discouraged.  However, it is inevitable at the
     current time to require access to some of these variables, and so the CC_VAR() macro exists
     as a convenience accessor.  The ccv argument points to the struct cc_var passed into the
     function by the mod_cc framework.  The what argument specifies the name of the variable to
     access.

     Apart from the type and ccv_container fields, the remaining fields in struct cc_var are for
     use by mod_cc modules.

     The cc_data field is available for algorithms requiring additional per-connection state to
     attach a dynamic memory pointer to.  The memory should be allocated and attached in the
     module's cb_init hook function.

     The bytes_this_ack field specifies the number of new bytes acknowledged by the most recently
     received ACK packet.  It is only valid in the ack_received hook function.

     The curack field specifies the sequence number of the most recently received ACK packet.  It
     is only valid in the ack_received, cong_signal and post_recovery hook functions.

     The flags field is used to pass useful information from the stack to a mod_cc module.  The
     CCF_ABC_SENTAWND flag is relevant in ack_received and is set when appropriate byte counting
     (RFC3465) has counted a window's worth of bytes has been sent.  It is the module's
     responsibility to clear the flag after it has processed the signal.  The CCF_CWND_LIMITED
     flag is relevant in ack_received and is set when the connection's ability to send data is
     currently constrained by the value of the congestion window.  Algorithms should use the
     absence of this flag being set to avoid accumulating a large difference between the
     congestion window and send window.

SEE ALSO

     cc_chd(4), cc_cubic(4), cc_hd(4), cc_htcp(4), cc_newreno(4), cc_vegas(4), mod_cc(4), tcp(4)

ACKNOWLEDGEMENTS

     Development and testing of this software were made possible in part by grants from the
     FreeBSD Foundation and Cisco University Research Program Fund at Community Foundation
     Silicon Valley.

FUTURE WORK

     Integrate with sctp(4).

HISTORY

     The modular Congestion Control (CC) framework first appeared in FreeBSD 9.0.

     The framework was first released in 2007 by James Healy and Lawrence Stewart whilst working
     on the NewTCP research project at Swinburne University of Technology's Centre for Advanced
     Internet Architectures, Melbourne, Australia, which was made possible in part by a grant
     from the Cisco University Research Program Fund at Community Foundation Silicon Valley.
     More details are available at:

     http://caia.swin.edu.au/urp/newtcp/

AUTHORS

     The mod_cc framework was written by Lawrence Stewart <lstewart@FreeBSD.org>, James Healy
     <jimmy@deefa.com> and David Hayes <david.hayes@ieee.org>.

     This manual page was written by David Hayes <david.hayes@ieee.org> and Lawrence Stewart
     <lstewart@FreeBSD.org>.