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9p services using srv, listen, exportfs, import
D1362236873
Amiller
#
#INSTANT 9P CONNECTION BETWEEN TWO MACHINES
#
#The following should be used only on secure private networks or by
#machines with no private data. It provides a read-only public 9p
#service of the full namespace of the invoking user:
#
#! server% aux/listen1 -tv tcp!*!9999 /bin/exportfs -R -r /
#
#To dial and mount this service from another machine:
#
#! client% srv tcp!ip.of.server!9999 server /n/server
#
#The client machine will print "post..." and following this, the
#client may
#
#! client% ls /n/server
#
#and use other commands to work with the mounted filesystem. After
#this connection has been made, you may terminate the listener on the
#server machine. It is not needed once the mount has been made.
#
#STANDARD 9P SERVICES FROM FILE AND CPU SERVERS
#
#There are two main types of 9p service provided in a typical
#installation. Disk fileservers such as fossil(4) serve 9p on port
#564. This is used for tcp boot of other machines or general purpose
#disk storage. The Bell Labs "sources" server is an example. The
#commands srv(4) and the 9fs script connect to this type of 9p server.
#
#CPU servers serve 9p via exportfs(4) on port 17007 and clients
#connect by means of import(4). Exportfs enables serving arbitrary
#namespace, not simply on-disk file servers. The cpu(1) command makes
#use of exportfs to let the cpu server use the devices and filesystem
#of the client terminal. Cpu export/import traffic is encrypted by
#default. 9p file service on port 564 is not. The normal usage for
#import(4) requires specifying what portion of the cpu namespace to
#attach. An example:
#
#! client% import cpuserver /srv /n/cpusrv
#
#This selects only the /srv of the target cpuserver and mounts it to
#/n/cpusrv. Some of the most important targets for import are /srv
#and /proc. A grid of cpu servers running from a common file server
#and which all import /srv and /proc and certain /dev files from each
#other behaves very much like single large machine. This is the
#prototypical form of a "Plan 9 Grid" of machines.
#
#SERVICES ON DEMAND: USING AUX/LISTEN1 AND EXPORTFS
#
#In a standard configuration of installed machines, file servers
#listen on port 564 and cpus listen on port 17007. The file listener
#is the responsibility of the disk fs, but the cpu listener is
#started by the aux/listen(8) command which starts listeners for
#every service found in /rc/bin/service. The aux/listen1 command
#allows users to start individual service listeners on demand.
#
#Using this effectively requires understanding the additional options
#for exportfs. There is an important caveat - the -a flag for
#authentication of exportfs is in conflict with the -r and -S flags
#for specifying a root or /srv to mount. If you wish to use exportfs
#to provide secure non-root service exportfs publicly, additional
#measures such as the use of tlssrv(8) would be necessary.
#
#When exportfs is used with the flag -r to specify a root or -S to
#specify a /srv, it becomes compatible with the operation of srv(4)
#and mount(1). An exportfs done with these flags may be used via srv
#and mount of the address. Srv may not be used to attach to standard
#exportfs listeners running the full protocol.
#
#The example at the beginning of this page shows the basic formula
#for using exportfs and srv together in this manner. If you wish to
#use exportfs for authenticated connections, use import for the
#client, like this:
#
#! server% aux/listen1 -v tcp!*!9999 /bin/exportfs -a 
#! client% import tcp!server!9999 /remote/path /local/mountpoint
#
#Note the absence of the -t flag from this listen1 command.
#
#SRV IN DETAIL: MORE THAN JUST 9P
#
#The srv(4) command as used above is actually two commands in one. An
#initial srv to dial a connection and post a file descriptor in /srv,
#and a mount command to attach to that file descriptor as a 9p fs. If
#you use srv in this manner:
#
#! server% srv tcp!server!port srvname
#
#Then srv acts to dial server and post that network connection as a
#file descriptor in /srv. If that file descriptor is a 9p fs, it can
#be mounted. If it is not a 9p fs, it can still be interacted with.
#An example to show the principles:
#
#! server% aux/listen1 -tv tcp!*!9999 /bin/cat /lib/namespace 
#! client% srv tcp!server!9999 remotens 
#! client% cat /srv/remotens
#
#The output will be the output of the cat command on the server
#machine. In the case of a 9p service, you can separate the srv and
#the mount as follows:
#
#! client% srv tcp!server!564 server
#! client% mount /srv/server /n/server
#
#Note that the action of srv simply dials and places a file
#descriptor. If authentication is required, that occurs when the
#mount command is issued.
#
#LISTEN1 AND NAMESPACES: THE -T FLAG
#
#Most of the examples on this page use the -t flag for listen1. This
#means that the service listener is running as the invoking user.
#Without the -t flag, the listener runs as user "none". This is a
#significant difference because your user account has a different
#namespace than the "generic" namespace of "none". When you need to
#share a namespace that includes mounts and binds that are not part
#of the generic namespace, the -t flag is necessary.
#
#However, this does make the listener more vulnerable to malicious
#security threats. As user "none" a listener which is subverted can
#do much less harm than a user listening under the identity of the
#invoking user, especially if that user is the hostowner. Be aware of
#the difference between -t and listening as none. It is usually
#easier and more convenient to listen as your user account, but this
#is not recommended for public facing services or services which may
#be connected to by untrusted users.
#
#Also understand that some processes, such as the server side of
#cpu(1), may be able to change user identity even when the invoking
#listener is none.
#
#OTHER ISSUES
#
#This page does not address the configuration of ndb(8) and the
#configuration of factotum(4) and auth(8). It is crucial to have a
#correct /lib/ndb/local and correct authentication between grid nodes
#for standard use of these tools as described by the manpages and
#this article.
#
#Mounting and serving 9p can also be done with Inferno, plan9port,
#and many other libraries and tools. In general correctly implemented
#clients and servers should all be compatible, but in practice issues
#like support for the exportfs protocol may require adjustments and
#compromises. The initial author of this wiki page recommends u9fs,
#9pfuse, plan9port, and Inferno as the best supported non-plan9 9p
#clients and servers.
#

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