Provided by: ion_3.2.0~dfsg1-1_amd64 bug

NAME

       ramsgate - Remote AMS gateway daemon

SYNOPSIS

       ramsgate application_name authority_name [bundles_TTL]

DESCRIPTION

       ramsgate is a background "daemon" task that functions as a Remote AMS gateway.
       application_name and authority_name must identify an AMS venture that is known to operate
       in the local continuum, as noted in the MIB for the ramsgate application module.

       ramsgate will register as an application module in the root unit of the indicated venture,
       so a configuration server for the local continuum and a registrar for the root unit of the
       indicated venture (which may both be instantiated in a single amsd daemon task) must be
       running in order for ramsgate to commence operations.

       ramsgate with communicate with other RAMS gateway modules in other continua by means of
       the RAMS network protocol noted in the RAMS gateway endpoint ID for the local continuum,
       as identified (explicitly or implicitly) in the MIB.

       If the RAMS network protocol is "bp" (i.e., the DTN Bundle Protocol), then an ION Bundle
       Protocol node must be operating on the local computer and that node must be registered in
       the BP endpoint identified by the RAMS gateway endpoint ID for the local continuum.
       Moreover, in this case the value of bundles_TTL - if specified - will be taken as the
       lifetime in seconds that is to be declared for all "bundles" issued by ramsgate;
       bundles_TTL defaults to 86400 seconds (one day) if omitted.

EXIT STATUS

       "0" ramsgate terminated normally.

       "1" ramsgate failed, for reasons noted in the ion.log file; the task terminated.

FILES

       A MIB initialization file with the applicable default name (see amsrc(5)) must be present.

       ramsgate records all "petitions" (requests for data on behalf of AMS modules in other
       continua) in a file named "petition.log".  At startup, the ramsgate daemon automatically
       reads and processes all petitions in the petition.log file just as if they were received
       in real time.  Note that this means that you can cause petitions to be, in effect, "pre-
       received" by simply editing this file prior to startup.  This can be an especially
       effective way to configure a RAMS network in which long signal propagation times would
       otherwise retard real-time petitioning and thus delay the onset of fully functional
       message exchange.

ENVIRONMENT

       No environment variables apply.

DIAGNOSTICS

       The following diagnostics may be issued to the ion.log log file:

       ramsgate can't run.
           RAMS gateway functionality failed, for reasons noted in the ion.log file.

BUGS

       Note that the AMS design principle of receiving messages immediately and enqueuing them
       for eventual ingestion by the application module - rather than imposing application-layer
       flow control on AMS message traffic - enables high performance but makes ramsgate
       vulnerable to message spikes.  Since production and transmission of bundles is typically
       slower than AMS message reception over TCP service, the ION working memory and/or heap
       space available for AMS event insertion and/or bundle production can be quickly exhausted
       if a high rate of application message production is sustained for a long enough time.
       Mechanisms for defending against this sort of failure are under study, but for now the
       best mitigations are simply to (a) build with compiler option -DAMS_INDUSTRIAL=1, (b)
       allocate as much space as possible to ION working memory and SDR heap (see ionconfig(5))
       and (c) limit the rate of AMS message issuance.

       Report bugs to <ion-bugs@korgano.eecs.ohiou.edu>

SEE ALSO

       amsrc(5)