Provided by: liblcrq0.0_0.2.3-1_amd64 bug

NAME

       LCRQ - C library implementation of RFC6330 (RaptorQ) for Librecast

DESCRIPTION

       IP  Multicast  is  based on UDP, which is inherently unreliable. Packets may arrive out of
       order, or not at all. TCP provides unicast with a reliable messaging layer on top of  this
       unreliable, connectionless medium.

       Unicast,  however,  is  one-to-one  only.  Multicast could, in theory, use all of the same
       reliability options (ACKs etc.) as TCP, at the cost of not being scalable any more.

       Fortunately there are other  ways  to  achieve  similar  reliability.   RFC3208  describes
       Pragmatic  General  Multicast  (PGM) based on NAKs (negative acknowledgements). This, too,
       has scaling issues.

       Forwards Error Correction (FEC) offers us another approach.

       Thanks to parity checking in the network stack, we don't generally  need  to  worry  about
       errors  within packets. Every packet has a checksum, and if that doesn't match, the packet
       is dropped before it  reaches  us.  Our  encryption  provides  further  checking  of  data
       received.  We need only concern ourselves with erasures.  ie. dropped packets.

       RaptorQ is an implementation of a class of systematic erasure codes called fountain codes.

       The  data  we  want  to  send  is  split  into  blocks, and then pre-encoded into a set of
       intermediate symbols.  From these intermediate symbols we can generate both  our  original
       source symbols, and also additional repair symbols.

       Provided  the  recipient receives at least a minimum value K' of these symbols (any unique
       combination of source and repair) the intermediate symbols can be reconstituted,  and  the
       original data recovered.

       RaptorQ  is  what  is  called  a  systematic  encoding, because the set of symbols we send
       includes our original data as plain text. Provided all source symbols  are  received,  the
       original  data  has  been  transmitted  with no decoding overhead.  It is only in the case
       where we need to supplement the source symbols with repair symbols that  we  must  perform
       the decoding process.

CONFORMING TO

       RFC6330  (IETF)  describes the RaptorQ proposed standard, which LCRQ more-or-less follows.
       The  primary  focus  has  been  on  building  a  fast,  simple  and  dependency-free   FEC
       implementation  for  use  with Librecast, and not on strict standards compliance. The code
       does, however, fairly closely follow the RFC.

EXAMPLES

       There is example code in the examples/ directory of the source repository.

BUGS

       If you find one, email bugs@librecast.net

SEE ALSO

       rq_init(3),   rq_free(3),   rq_query(3),   rq_encode(3),    rq_decode(3),    rq_symbol(3),
       rq_pid2sbn(3), rq_pid2esi(3), rq_pidsetsbn(3), rq_pidsetesi(3)

       https://datatracker.ietf.org/doc/html/rfc6330