NAME¶
XPAInet - XPA Communication Between Hosts
SYNOPSIS¶
XPA uses standard inet sockets to support communication between two or more host
computers.
DESCRIPTION¶
When the Communication Method is set to
inet (as it is by default), XPA
can be used to communicate between different computers on the Internet. INET
sockets utilize the IP address of the given machine and a (usually random)
port number to communicate between processes on the same machine or between
different machines on the Internet. These standard Internet sockets are also
used by programs such as Netscape, ftp. etc.
XPA supports a host-based Access Control mechanism to prevent unauthorized
access of XPA access points by other computers on the Net. By default, only
the machine on which the XPA server is running can access XPA services.
Therefore, setting up communication between a local XPA server machine and a
remote client machine requires a two-part registration process:
- •
- the XPA service on the local machine must be made known to
the remote machine
- •
- the remote machine must be given permission to access the
local XPA service
Three methods by which this remote registration can be accomplished are
described below.
Manual Registration
The first method is the most basic and does not require the remote client to
have xpans running. To use it, the local server simply gives a remote client
machine access to one or more XPA access points using xpaset and the
\-acl sub\-command. For example, consider the XPA test program
"stest" running on a local machine. By default the access control
for the access point named "xpa" is restricted to that machine:
[sh]$ xpaget xpa -acl
*:* 123.456.78.910 gisa
*:* localhost gisa
Using xpaset and the
\-acl sub\-command, a remote client machine can be
given permission to perform xpaget, xpaset, xpaaccess, or xpainfo operations.
For example, to allow the xpaget operation, the following command can be
issued on the local machine:
[sh]$ xpaset -p xpa -acl "remote_machine g"
This results in the following access permissions on the local machine:
[sh]$ xpaget xpa -acl
XPA:xpa 234.567.89.012 g
*:* 123.456.78.910 gisa
*:* localhost gisa
The remote client can now use the local server's xpans name server to establish
communication with the local XPA service. This can be done on a call-by-call
basis using the
\-i switch on xpaset, xpaget, etc:
[sh]$ xpaget -i "local_machine:12345" xpa
class: XPA
name: xpa
method: 88877766:2778
sendian: little
cendian: big
Alternatively, the XPA_NSINET variable on the remote machine can be set to point
directly to xpans on the local machine, removing the need to override this
value each time an XPA program is run:
[csh]$ setenv XPA_NSINET 'karapet:$port'
[csh]$ xpaget xpa
class: XPA
name: xpa
method: 88877766:2778
sendian: little
cendian: big
Here, '$port' means to use the default XPA name service port (14285). not a port
environment variable.
Access permission for remote client machines can be stored in a file on the
local machine pointed to by the
XPA_ACLFILE environment variable or
using the
XPA_DEFACL environment variable. See <A
HREF="./acl.html">XPA Access Control for more information.
Remote Registration
If xpans is running on the remote client machine, then a local xpaset command
can be used with the
\-remote sub-command to register the local XPA
service in the remote name service, while at the same time giving the remote
machine permission to access the local service. For example, assume again that
"stest" is running on the local machine and that xpans is also
running on the remote machine. To register access of this local xpa on the
remote machine, use the xpaset and the
\-remote sub\-command:
[sh]$ ./xpaset -p xpa -remote 'remote_machine:$port' +
To register the local xpa access point on the remote machine with xpaget access
only, execute:
[sh]$ ./xpaset -p xpa -remote 'remote_machine:$port' g
Once the remote registration command is executed, the remote client machine will
have an entry such as the following in its own xpans name service:
[csh]$ xpaget xpans
XPA xpa gs 88877766:2839 eric
The xpa access point can now be utilized on the remote machine without further
setup:
[csh]$ xpaget xpa
class: XPA
name: xpa
method: 838e2f68:2839
sendian: little
cendian: big
To unregister remote access from the local machine, use the same command but
with a '-' argument:
[sh]$ xpaset -p xpa -remote 'remote_machine:$port' -
The benefit of using remote registration is that communication with remote
access points can be mixed with that of other access points on the remote
machine. Using Access Point Names and Templates, one XPA command can be used
to send or receive messages to the remote and local services.
XPANS Proxy Registration
The two methods described above are useful when the local and remote machines
are able to communicate freely to one another. This would be the case on most
Local Area Networks (LANs) where all machines are behind the same firewall and
there is no port blocking between machines on the same LAN. The situation is
more complicated when the XPA server is behind a firewall, where outgoing
connections are allowed, but incoming port blocking is implemented to prevent
machines outside the firewall from connecting to machines inside the firewall.
Such incoming port blocking will prevent xpaset and xpaget from connecting to
an XPA server inside a firewall.
To allow locally fire-walled XPA services to register with remote machines, we
have implemented a proxy service within the xpans name server. To register
remote proxy service, xpaset and the
\-remote sub-command is again
used, but with an additional
\-proxy argument added to the end of the
command:
[sh]$ ./xpaset -p xpa -remote 'remote_machine:$port' g -proxy
Once a remote proxy registration command is executed, the remote machine will
have an entry such as the following in its own xpans name service:
[csh]$ xpaget xpans
XPA xpa gs @88877766:2839 eric
The '@' sign in the name service entry indicates that xpans proxy processing is
being used for this access point. Other than that, from the user's point of
view, there is no difference in how this XPA access point is contacted using
XPA programs (xpaset, xpaget, etc.) or libraries:
[csh]$ xpaget xpa
class: XPA
name: xpa
method: 88877766:3053
sendian: little
cendian: big
Of course, the underlying processing of the XPA requests is very much different
when xpans proxy is involved. Instead of an XPA program such contacting the
XPA service directly, it contacts the local xpans. Acting as a proxy server,
xpans communicates with the XPA service using the command channel established
at registration time. Commands (including establishing a new data channel) are
sent between xpans and the XPA service to set up a new message transfer, and
then data is fed to/from the xpa request, through xpans, from/to the XPA
service. In this way, it can be arranged so that connections between the
fire-walled XPA service and the remote client are always initiated by the XPA
service itself. Thus, incoming connections that would be blocked by the
firewall are avoided. Note that there is a performance penalty for using the
xpans/proxy service. Aside from extra overhead to set up proxy communication,
all data must be sent through the intermediate proxy process.
The xpans proxy scheme requires that the remote client allow the local XPA
server machine to connect to the remote xpans/proxy server. If the remote
client machine also is behind a port-blocking firewall, such connections will
be disallowed. In this case, the only solution is to open up some ports on the
remote client machine to allow incoming connections to xpans/proxy. Two ports
must be opened (for command and data channel connections). By default, these
two ports are 14285 and 14287. The port numbers can be changed using the
XPA_NSINET environment variable. This variable takes the form:
setenv XPA_NSINET machine:port1[,port2[,port3]]
where port1 is the main connecting port, port2 is the XPA access port, and port3
is the secondary data connecting port. The second and third ports are optional
and default to port1+1 and port1+2, respectively. It is port1 and port3 that
must be left open for incoming connections.
For example, to change the port assignments so that xpans listens for
registration commands on port 12345 and data commands on port 28573:
setenv XPA_NSINET myhost:12345
Alternatively, all three ports can be assigned explicitly:
setenv XPA_NSINET remote:12345,3000,12346
In this case 12345 and 12346 should be open for incoming connections. The XPA
access port (which need not be open to the outside world) is set to 3000.
Finally, note that we currently have no mechanism to cope with Internet proxy
servers (such as SOCKS servers). If an XPA service is running on a machine
that cannot connect directly to outside machines, but goes through a proxy
server instead, there currently is no way to register that XPA service with a
remote machine. We hope to implement support for SOCKS proxy in a future
release.
SEE ALSO¶
See
xpa(7) for a list of XPA help pages
