The -I option specifies the Ethernet interface to use. Under Linux, it is typically eth0 or eth1. The interface should be "up" before you start pppoe, but should not be configured to have an IP address.
The -T option causes pppoe to exit if no session traffic is detected for timeout seconds. I recommend that you use this option as an extra safety measure, but if you do, you should make sure that PPP generates enough traffic so the timeout will normally not be triggered. The best way to do this is to use the lcp-echo-interval option to pppd. You should set the PPPoE timeout to be about four times the LCP echo interval.
The -D option causes every packet to be dumped to the specified file_name. This is intended for debugging only; it produces huge amounts of output and greatly reduces performance.
The -V option causes pppoe to print its version number and exit.
The -A option causes pppoe to send a PADI packet and then print the names of access concentrators in each PADO packet it receives. Do not use this option in conjunction with pppd; the -A option is meant to be used interactively to give interesting information about the access concentrator.
Specifies the desired service name. pppoe will only initiate sessions with access concentrators which can provide the specified service. In most cases, you should not specify this option. Use it only if you know that there are multiple access concentrators or know that you need a specific service name.
Specifies the desired access concentrator name. pppoe will only initiate sessions with the specified access concentrator. In most cases, you should not specify this option. Use it only if you know that there are multiple access concentrators. If both the -S and -C options are specified, they must both match for pppoe to initiate a session.
Causes pppoe to use the Host-Uniq tag in its discovery packets. This lets you run multiple pppoe daemons without having their discovery packets interfere with one another. You must supply this option to all pppoe daemons if you intend to run multiple daemons simultaneously.
Causes pppoe to use synchronous PPP encapsulation. If you use this option, then you must use the sync option with pppd. You are encouraged to use this option if it works, because it greatly reduces the CPU overhead of pppoe. However, it MAY be unreliable on slow machines -- there is a race condition between pppd writing data and pppoe reading it. For this reason, the default setting is asynchronous. If you encounter bugs or crashes with Synchronous PPP, turn it off -- don’t e-mail me for support!
Causes pppoe to clamp the TCP maximum segment size at the specified value. Because of PPPoE overhead, the maximum segment size for PPPoE is smaller than for normal Ethernet encapsulation. This could cause problems for machines on a LAN behind a gateway using PPPoE. If you have a LAN behind a gateway, and the gateway connects to the Internet using PPPoE, you are strongly recommended to use a -m 1412 option. This avoids having to set the MTU on all the hosts on the LAN.
Causes pppoe to use the indicated Ethernet MAC address as the source address for sending packets. MAC must be specified in the AA:BB:CC:DD:EE:FF syntax. If this option is specified, pppoe puts the interface into promiscuous mode.
Causes pppoe to write its process-ID to the specified file. This can be used to locate and kill pppoe processes.
Causes pppoe to skip the discovery phase and move directly to the session phase. The session is given by sess and the MAC address of the peer by mac. This mode is not meant for normal use; it is designed only for pppoe-server(8).
Causes pppoe not to open a discovery socket. This mode is not meant for normal use; it is designed only for pppoe-server(8).
Causes pppoe to terminate an existing session by sending a PADT frame, and then exit. You must use the -e option in conjunction with this option to specify the session to kill. This may be useful for killing sessions when a buggy peer does not realize the session has ended.
Causes pppoe to perform discovery and then exit, after printing session information to standard output. The session information is printed in exactly the format expected by the -e option. This option lets you initiate a PPPoE discovery, perform some other work, and then start the actual PPP session. Be careful; if you use this option in a loop, you can create many sessions, which may annoy your peer.
The -f option sets the Ethernet frame types for PPPoE discovery and session frames. The types are specified as hexadecimal numbers separated by a colon. Standard PPPoE uses frame types 8863:8864. You should not use this option unless you are absolutely sure the peer you are dealing with uses non-standard frame types. If your ISP uses non-standard frame types, complain!
The -h option causes pppoe to print usage information and exit.
PPPoE (Point-to-Point Protocol over Ethernet) is described in RFC 2516 and is a protocol which allows the session abstraction to be maintained over bridged Ethernet networks.
PPPoE works by encapsulating PPP frames in Ethernet frames. The protocol has two distinct stages: The discovery and the session stage.
In the discovery stage, the host broadcasts a special PADI (PPPoE Active Discovery Initiation) frame to discover any access concentrators. The access concentrators (typically, only one access concentrator) reply with PADO (PPPoE Active Discovery Offer) packets, announcing their presence and the services they offer. The host picks one of the access concentrators and transmits a PADR (PPPoE Active Discovery Request) packet, asking for a session. The access concentrator replies with a PADS (PPPoE Active Discovery Session-Confirmation) packet. The protocol then moves to the session stage.
In the session stage, the host and access concentrator exchange PPP frames embedded in Ethernet frames. The normal Ethernet MTU is 1500 bytes, but the PPPoE overhead plus two bytes of overhead for the encapsulated PPP frame mean that the MTU of the PPP interface is at most 1492 bytes. This causes all kinds of problems if you are using a Linux machine as a firewall and interfaces behind the firewall have an MTU greater than 1492. In fact, to be safe, I recommend setting the MTU of machines behind the firewall to 1412, to allow for worst-case TCP and IP options in their respective headers.
Normally, PPP uses the Link Control Protocol (LCP) to shut down a PPP link. However, the PPPoE specification allows the link to be shut down with a special PADT (PPPoE Active Discovery Terminate) packet. This client recognizes this packet and will correctly terminate if a terminate request is received for the PPP session.
My design goals for this PPPoE client were as follows, in descending order of importance:
It must work.
It must be a user-space program and not a kernel patch.
The code must be easy to read and maintain.
It must be fully compliant with RFC 2516, the proposed PPPoE standard.
It must never hang up forever -- if the connection is broken, it must detect this and exit, allowing a wrapper script to restart the connection.
It must be fairly efficient.
I believe I have achieved all of these goals, but (of course) am open to suggestions, patches and ideas. See my home page, http://www.roaringpenguin.com, for contact information.