ab7d88ae2d
the layering. We now ``stack'' layers as soon as we open the device (when we figure out what we're dealing with). A static set of `dispatch' routines are also declared for dealing with incoming packets after they've been `pulled' up through the stacked layers. Physical devices are now assigned handlers based on the device type when they're opened. For the moment there are three device types; ttys, execs and tcps. o Increment version number to 2.2 o Make an entry in [uw]tmp for non-tty -direct invocations (after pap/chap authentication). o Make throughput counters quad_t's o Account for the absolute number of mbuf malloc()s and free()s in ``show mem''. o ``show modem'' becomes ``show physical''. |
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.. | ||
acf.c | ||
acf.h | ||
alias_cmd.c | ||
alias_cmd.h | ||
arp.c | ||
arp.h | ||
async.c | ||
async.h | ||
auth.c | ||
auth.h | ||
bundle.c | ||
bundle.h | ||
cbcp.c | ||
cbcp.h | ||
ccp.c | ||
ccp.h | ||
chap_ms.c | ||
chap_ms.h | ||
chap.c | ||
chap.h | ||
chat.c | ||
chat.h | ||
command.c | ||
command.h | ||
datalink.c | ||
datalink.h | ||
deflate.c | ||
deflate.h | ||
defs.c | ||
defs.h | ||
descriptor.h | ||
exec.c | ||
exec.h | ||
filter.c | ||
filter.h | ||
fsm.c | ||
fsm.h | ||
hdlc.c | ||
hdlc.h | ||
id.c | ||
id.h | ||
iface.c | ||
iface.h | ||
ip.c | ||
ip.h | ||
ipcp.c | ||
ipcp.h | ||
iplist.c | ||
iplist.h | ||
layer.h | ||
lcp.c | ||
lcp.h | ||
link.c | ||
link.h | ||
log.c | ||
log.h | ||
lqr.c | ||
lqr.h | ||
main.c | ||
main.h | ||
Makefile | ||
mbuf.c | ||
mbuf.h | ||
mp.c | ||
mp.h | ||
nat_cmd.c | ||
nat_cmd.h | ||
pap.c | ||
pap.h | ||
physical.c | ||
physical.h | ||
ppp.8 | ||
ppp.8.m4 | ||
pred.c | ||
pred.h | ||
probe.c | ||
probe.h | ||
prompt.c | ||
prompt.h | ||
proto.c | ||
proto.h | ||
radius.c | ||
radius.h | ||
README.alias | ||
README.changes | ||
README.devel | ||
README.nat | ||
route.c | ||
route.h | ||
server.c | ||
server.h | ||
sig.c | ||
sig.h | ||
slcompress.c | ||
slcompress.h | ||
sync.c | ||
sync.h | ||
systems.c | ||
systems.h | ||
tcp.c | ||
tcp.h | ||
throughput.c | ||
throughput.h | ||
timer.c | ||
timer.h | ||
tty.c | ||
tty.h | ||
tun.c | ||
tun.h | ||
ua.h | ||
vjcomp.c | ||
vjcomp.h |
User PPP Packet Aliasing 0. Contents 1. Background 2. Setup 3. New commands in ppp 4. Future Work 5. Authors / Acknowledgements 6. Revision History for Aliasing Code 1. Background User mode ppp has embedded packet aliasing (IP masquerading) code. Enabling this, either by the "-alias" command line option or the "alias enable yes" command in a ppp.conf file, makes the ppp host automatically alias IP packets forwarded from a local network, making them appear to come from the ppp host machine. Incoming packets from the outside world are then appropriately de-aliased. The process of aliasing involves both the IP address and the TCP or UDP port numbers. ICMP echo and timestamp packets are aliased by their id numbers. ICMP error messages can be properly directed by examining the fragment of the offending packet which is contained in the body of the message. This software was specifically meant to support users who have unregistered, private address IP networks (e.g. 192.168.0.x or 10.0.0.x addresses). The ppp host can act as a gateway for these networks, and computers on the local area net will have some degree of Internet access without the need for a registered IP address. Additionally, there will be no need for an Internet service provider to maintain routing tables for the local area network. A disadvantage of packet aliasing is that machines on the local network, behind the ppp host, are not visible from the outside world. They can establish TCP connections and make UDP inquiries (such as domain name service requests) but the connections seem to come from the ppp host itself. There is, in effect, a partial firewall. Of course, if this is what you want, the disadvantage becomes an advantage. A second disadvantage is that "IP encoding" protocols, which send IP address or port information within the data stream, are not supported for the cases where exception code exists. This implementation has workarounds for FTP and IRC DCC, the most well known of the IP encoding protocols. This frees users from depending on using the ftp passive mode and avoiding IRC DCC sends, as is sometimes the case with other masquerading solutions. The implementation supports all standard, non-encoding TCP and UDP protocols. Examples of these protocols are http, gopher and telnet. The standard UDP mode of Real-Audio is not presently supported, but the TCP mode does work correctly. The packet aliasing code also handle many ICMP messages. In particular, ping and traceroute are supported. 2. Packet Aliasing Setup It is recommended that users first verify correct ppp operation without packet aliasing enabled. This will confirm that the ppp.conf file is properly set up and that there are no ppp problems. Then start ppp with the "-alias" option on the command line. The user should verify that the ppp host can correctly connect to the Internet in packet aliasing mode. Finally, check that machines on the private network can access the Internet. The masquerading software aliases all packets, whether they come from the host or another computer on the local area network. Thus, a correctly operating ppp host indicates that the software should work properly for other computers on the private network. If the ppp host can access the Internet, but other computers on the local network cannot, check that IP forwarding is enabled on the ppp host. Also, verify that the other computers use this machine as a gateway. Of course, you should also verify that machines within the local area network communicate properly. A common error is inconsistent subnet addresses and masks. 3. New commands in ppp In order to control aliasing behaviour in a simple manner (no need for recompilation), a new command has been added to ppp: alias. This is in addition to the -alias command line option. System managers and more experienced users may prefer to use the ppp command syntax within the ppp.conf file. The alias command also allows packet aliasing behaviour to be more precisely specified. The decision to add a command instead of extending 'set' or 'option' was to make obvious that these options only work when aliasing is enabled. The syntax for 'alias' is ppp> alias option [yes|no] where option is given by one of the following templates. - alias enable [yes|no] (default no) Enable packet aliasing functionality. If disabled, no other alias options will have any effect. You should usually enable aliasing before routing any packets over the link; good points are in the initial script or right before adding a route. If you do not always want aliasing, consider using the -alias option to ppp instead of this command. - alias deny_incoming [yes|no] (default yes) Set to "yes" to disable all incoming connections. This just drops connections to, for example, ftp, telnet or web servers. The aliasing mechanism prevents these connections. Technically, this option denies all incoming TCP and UDP requests, making the aliasing software a fairly efficient one-way firewall. The default is no, which will allow all incoming connections to telnetd, ftpd, etc. - alias log [yes|no] Controls logging of alias link creation to "/var/log/alias.log" - this is usually only useful if debugging a setup, to see if the bug is in the PPP aliasing. The debugging information is fairly limited, listing the number of aliasing links open for different protocols. - alias same_ports [yes|no] (default yes) When a connection is being established going through the aliasing routines, it will normally have its port number changed to allow the aliasing code to track it. If same_ports is enabled, the alias software attempts to keep the connection's source port unchanged. This will allow rsh, RPC and other specialised protocols to work _most of the time_, at least on the host machine. Please, do not report this being unstable as a bug - it is a result of the way aliasing has to work. TCP/IP was intended to have one IP address per machine. - alias use_sockets [yes|no] (default yes) This is a fairly obscure option. For the most part, the packet aliasing software does not have to allocate system sockets when it chooses an aliasing port number. Under very specific circumstances, FTP data connections (which don't know the remote port number, though it is usually 20) and IRC DCC send (which doesn't know either the address or the port from which the connection will come), there can potentially be some interference with an open server socket having the same port number on the ppp host machine. This possibility for interference only exists until the TCP connection has been acknowledged on both sides. The safe option is yes, though fewer system resources are consumed by specifying no. - alias unregistered_only [yes|no] (default no) Packet aliasing normally remaps all packets coming from the local area network to the ppp host machine address. Set this option to only map addresses from the following standard ranges for private, unregistered addresses: 10.0.0.0 -> 10.255.255.255 172.16.0.0 -> 172.31.255.255 192.168.0.0 -> 192.168.255.255 */ In the instance that there is a subnet of public addresses and another subnet of private addresses being routed by the ppp host, then only the packets on the private subnet will be aliased. - alias port <proto> <local addr>:<port> <alias port> This command allows incoming traffic to <alias port> on the host machine to be redirected to a specific machine and port on the local area network. One example of this would be: alias port tcp 192.168.0.4:telnet 8066 All traffic to port 8066 of the ppp host would then be sent to the telnet port (23) of machine 192.168.0.4. Port numbers can either be designated numerically or by symbolic names listed in /etc/services. Similarly, addresses can be either in dotted quad notation or in /etc/hosts. - alias addr <local addr> <public addr> This command allows traffic for a public IP address to be redirected to a machine on the local network. This function is known as "static NAT". An address assignment of 0 refers to the default address of the ppp host. Normally static NAT is useful if your ISP has allocated a small block of IP addresses to the user, but it can even be used in the case of a single, dynamically allocated IP address: alias addr 10.0.0.8 0 The above command would redirect all incoming traffic to machine 10.0.0.8. If several address aliases specify the same public address as follows alias addr 192.168.0.2 public_addr alias addr 192.168.0.3 public_addr alias addr 192.168.0.4 public_addr then incoming traffic will be directed to the last translated local address (192.168.0.4), but outgoing traffic to the first two addresses will still be aliased to the specified public address. 4. Future Work What is called packet aliasing here has been variously called masquerading, network address translation (NAT) and transparent proxying by others. It is an extremely useful function to many users, but it is also necessarily imperfect. The occasional IP-encoding protocols always need workarounds (hacks). Users who are interested in supporting new IP-encoding protocols can follow the examples of alias_ftp.c and alias_irc.c. ICMP error messages are currently handled only in the incoming direction. A handler needs to be added to correctly alias outgoing error messages. IRC and FTP exception handling make reasonable, though not strictly correct assumptions, about how IP encoded messages will appear in the control stream. Programmers may wish to consider how to make this process more robust. The packet aliasing engine (alias.c, alias_db.c, alias_ftp.c, alias_irc.c and alias_util.c) runs in user space, and is intended to be both portable and reusable for interfaces other than ppp. To access the basic engine only requires four simple function calls (initialisation, communication of host address, outgoing aliasing and incoming de-aliasing). 5. Authors / Acknowledgements Charles Mott (cmott@srv.net) <versions 1.0 - 1.8, 2.0, 2.1> Eivind Eklund (perhaps@yes.no) <versions 1.8b - 1.9, new ppp commands> Listed below, in chronological order, are individuals who have provided valuable comments and/or debugging assistance. Gary Roberts Tom Torrance Reto Burkhalter Martin Renters Brian Somers Paul Traina Ari Suutari J. Fortes Andrzej Bialeki 6. Revision History for Aliasing Code Version 1.0: August 11, 1996 (cjm) Version 1.1: August 20, 1996 (cjm) PPP host accepts incoming connections for ports 0 to 1023. Version 1.2: September 7, 1996 (cjm) Fragment handling error in alias_db.c corrected. Version 1.3: September 15, 1996 (cjm) - Generalised mechanism for handling incoming connections (no more 0 to 1023 restriction). - Increased ICMP support (will handle traceroute now). - Improved TCP close connection logic. Version 1.4: September 16, 1996 Can't remember (this version only lasted a day -- cjm). Version 1.5: September 17, 1996 (cjm) Corrected error in handling incoming UDP packets with zero checksum. Version 1.6: September 18, 1996 Simplified ICMP data storage. Will now handle tracert from Win95 as well as FreeBSD traceroute. Version 1.7: January 9, 1997 (cjm) - Reduced malloc() activity for ICMP echo and timestamp requests. - Added handling for out-of-order IP fragments. - Switched to differential checksum computation for IP headers (TCP, UDP and ICMP checksums were already differential). - Accepts FTP data connections from other than port 20. This allows one ftp connections from two hosts which are both running packet aliasing. Version 1.8: January 14, 1997 (cjm) - Fixed data type error in function StartPoint() in alias_db.c (this bug did not exist before v1.7) Version 1.8b: January 16, 1997 (Eivind Eklund <perhaps@yes.no>) - Upgraded base PPP version to be the source code from FreeBSD 2.1.6, with additional security patches. This version should still be possible to run on 2.1.5, though - I've run it with a 2.1.5 kernel without problems. (Update done with the permission of cjm) Version 1.9: February 1, 1997 (Eivind Eklund <perhaps@yes.no>) - Added support for IRC DCC (ee) - Changed the aliasing routines to use ANSI style throughout - minor API changes for integration with other programs than PPP (ee) - Changed the build process, making all options switchable from the Makefile (ee) - Fixed minor security hole in alias_ftp.c for other applications of the aliasing software. Hole could _not_ manifest in PPP+pktAlias, but could potentially manifest in other applications of the aliasing. (ee) - Connections initiated from packet aliasing host machine will not have their port number aliased unless it conflicts with an aliasing port already being used. (There is an option to disable this for debugging) (cjm) - Sockets will be allocated in cases where there might be port interference with the host machine. This can be disabled in cases where the ppp host will be acting purely as a masquerading router and not generate any traffic of its own. (cjm) Version 2.0: March, 1997 (cjm) - Incoming packets which are not recognised by the packet aliasing engine are now completely dropped in ip.c. - Aliasing links are cleared when a host interface address changes (due to re-dial and dynamic address allocation). - PacketAliasPermanentLink() API added. - Option for only aliasing private, unregistered IP addresses added. - Substantial rework to the aliasing lookup engine. Version 2.1: May, 1997 (cjm) - Continuing rework to the aliasing lookup engine to support multiple incoming addresses and static NAT. - Now supports outgoing as well as incoming ICMP error messages/ - PPP commands to support address and port redirection.