From 5a2d6079eba1c7e2a9479cb10d714b5a97bbfe4f Mon Sep 17 00:00:00 2001 From: Kozlov Dmitry Date: Tue, 3 Aug 2010 13:28:53 +0400 Subject: initiating work on accel-pptpd, replacement of modified poptop --- pptpd-1.3.3/html/HOWTO-PoPToP.txt | 873 -------------------------------------- 1 file changed, 873 deletions(-) delete mode 100644 pptpd-1.3.3/html/HOWTO-PoPToP.txt (limited to 'pptpd-1.3.3/html/HOWTO-PoPToP.txt') diff --git a/pptpd-1.3.3/html/HOWTO-PoPToP.txt b/pptpd-1.3.3/html/HOWTO-PoPToP.txt deleted file mode 100644 index cb69887..0000000 --- a/pptpd-1.3.3/html/HOWTO-PoPToP.txt +++ /dev/null @@ -1,873 +0,0 @@ -PoPToP HOWTO/FAQ ----------------- -Last Updated: 20021024 -Send changes to: Richard de Vroede - -HOWTO/FAQ mostly compiled from PoPToP help pages and the PoPToP Mailing List -(hosted by Christopher Schulte) by Matthew Ramsay. Large contributions from -Steve Rhodes and Michael Walter. - - -Contents --------- -1.0 Introduction - 1.1 About PoPToP - 1.2 Credits -2.0 System Requirements -3.0 PPP with MSCHAPv2/MPPE Installation -4.0 PoPToP Installation -5.0 Windows Client Setup -6.0 FAQ - - -1.0 Introduction ----------------- -1.1 About PoPToP -PoPToP is the PPTP Server solution for Linux. PoPToP allows Linux servers to -function seamlessly in the PPTP VPN environment. This enables administrators -to leverage the considerable benefits of both Microsoft and Linux. The -current pre-release version supports Windows 95/98/NT/2000 PPTP clients and -PPTP Linux clients. PoPToP is free GNU software. - -PoPToP Home Page: http://www.moretonbay.com/vpn/pptp.html - -1.2 Credits -PoPToP was originally started by Matthew Ramsay under the control of -Moreton Bay Ventures (http://www.moretonbay.com). Around March 1999 PoPToP -was publically released under the GNU GPL by Moreton Bay/Lineo. - -PoPToP is what it is today due to the help of a number of intelligent and -experienced hackers. More specifically Kevin Thayer, David Luyer and -Peter Galbavy. - -More contributors to PoPToP (in various forms) include Allan Clark, Seth -Vidal, Harald Vogt and Ron O'Hara. - -And finally, credit to all the PoPToP followers who test and report -problems. - -1.3 PopToP migrating from poptop.lineo.com -March 18, 2002 - -The main PoPToP developers left Lineo with the SnapGear spin-out. The ball -is being picked up by Daniel Djamludin. PoPToP has been actively developed -within SnapGear and a number of improvements need to be rolled out. - -Henceforth from this sentence onwards you should refer to "PoPToP" as -"Poptop" for ease of use and typing. - -Lineo have been asked to forward poptop.lineo.com to poptop.sourceforge.net - -The sources are being gathered to go into CVS, new binaries and dev images will follow. - -Source Forge looks like the best neutral ground to smooth out future upheavals. - - -2.0 System Requirements ------------------------ -1. A modern Linux distribution (such as Debian, Red Hat, etc.) with a recent - kernel (2.4.x recommended, 2.2.x should be ok). Note: ports exist for - Solaris, BSD and others but are not supported in this HOWTO at this - time. -2. PPP (2.4.1 recommended, 2.3.11 should be ok) - (and the MSCHAPv2/MPPE patch if you want enhanced Microsoft - compatible authentication and encryption). -3. PoPToP v1.1.3 (or download the latest release at: - http://sourceforge.net/projects/poptop - - -3.0 PoPToP Installation ------------------------ -Check out the documentation at http://sourceforge.net/docman/?group_id=44827 - - -4.0 Windows Client Setup ------------------------- - -Install it using the add-remove programs tool. Go to windows->communications -and install VPN support. - -(If you do above you may *not* need to follow the instructions below as it -will already be installed... ? - -follow the instructions: - - 1.start->settings->control panel->network - 2.Click add - 3.choose adapter - 4.Click add - 5.select microsoft as the Manufactuarer - 6.select Microsoft Virtual Private Networking Adapter - 7.Click ok - 8.Insert any necessary disks - 9.Reboot your Machine - -take a little nap here... - -Once your Machine is back - - 1.go to dial-up networking (usually start->programs->Accessories->communications->Dial-up Networking) YMMV - 2.Click make new connection - 3.Name the Connection whatever you'd like. - 4.Select Microsoft VPN adapter as the device - 5.click next - 6.type in the ip address or hostname of your pptp server - 7.click next - 8.click finish - 9.Right-click on the intranet icon - 10.select properties - 11.choose server types - 12.check require encrypted password - 13.uncheck netbeui, ipx/spx compatible - 14.click tcp/ip settings - 15.turn off use IP header compression - 16.turn off use default gw on remote network - 17.click ok. - 18.start that connection - 19.type in your username and pw (yadda, yadda, yadda) - 20.once it finishes its connection your up. - - -Note that the Win95 routine is similar but requires Dial Up Networking Update 1.3 (free from Microsoft) to be installed first. - - -5.0 FAQ -------- - -Q&A. -INTRODUCTION - -After spending the better part of two weeks developing my configuration -for a pptp sever for remote file access by Windows(tm) clients, I -thought I would pass along these notes to those who may be interested. - -The basic configuration involves a Samba/PoPToP server behind a -firewall, through which clients using Win98 machines will connect using -the VPN facility built into that OS. This is diagrammed below. - - _____ ___ ______ ______ -| | | \ | fire | | file | -| win | ---> / net \ ---> | wall | ---> | srvr | -|_____| \__/\_/ |______| |______| - - -The components of the system consist of the Win98 clients running the -built-in VPN facility dialing in to their ISP's and connecting through -the firewall to the Samba server on the internal network using the pptp -protocol. The firewall uses Network Address Translation to convert an -open Internet IP address to an internal one. Sounds simple enough -right? - -SIMPLE TEST SETUP - -As a starting point, I configured a Win98 box to connect directly to a -PoPToP server without any authentication or encryption. This was just -to get a feel for how pptp works and verify the setup. Using the -pre-packaged rpm's was a big help here. You just rpm the thing onto the -system and fire it up, and you're in business. The diagram below -represents this simple system. - - - 192.168.56.142 192.168.56.11 - _____ ______ - | | | file | - | win | ------------------> | srvr | - |_____| |______| - -Emboldend by my success, I set out to turn on MS authentication and -encrytion, and this is where the fun started. - -AUTHENTICATION AND ENCRYPTION - -This is an area where Microsoft really shows its true colors. Turning -on password and data encryption on the Win98 VPN server configuration -was quite the eye opening experience. First with the authentication, -you will have to go through a somewhat difficult compilation of the -ppp-2.3.8 package. The worst part here is getting all the pieces -together, namely the rc4 files. This process is well documented in this -archive, so I won't go into it here. - -The next realization is that Microsoft prepends the domain name to the -user name when submitting the login credentials. For example, srhodes is -now DBNET\\srhodes. If that wasn't bad enough, I found that the domain -wasn't even the one I was logged into. My best guess is that the first -domain that the computer ever logs into is stuck with it for ever. This -is a real problem if you have multiple domains that you log into. I -modified the pppd.c code to strip out the domain on MSCHAP logins, but -you can just set the user name in chap-secrets to match the windows -version. - -Then I spent a whole day trying to figure out why data encryption does -not work. I tried just about everything I could think of that could be -wrong. That's when I discovered this archive, for which I am truly -grateful. It turns out that the Win9x implementation of encrytpion is -FUBAR! You have to download one of those patches from Microsoft, -MSDUN 1.4 to get the thing to work. - -Windows 95 -http://download.microsoft.com/download/win95/Update/17648/W95/EN-US/dun14-95.exe - -Windows 98 -http://download.microsoft.com/download/win98/Update/17648/W98/EN-US/dun14-98.exe - -Windows 98se -http://download.microsoft.com/download/win98SE/Update/17648/W98/EN-US/dun14-SE.exe - - -FIREWALL CONFIGURATION - -The issue with a firewall in this setup is that you need to cover two -types of protocol communication. There is one connection which is a tcp -connection on port 1723 that handles the control functions and another -connection using IP type 47, or GRE, which handles the actual data -communication. This second connection presents a problem for the -convention linux firewall, ipfwadm. You see, its only set up to handle -tcp, udp and icmp protocols. It doesn't know about GRE. - -The trick around this block is to use one of the new 2.2 kernels, which -employ a new firewall called ipchains. This tool willl handle arbitrary -protocols, which can be specified by their numbers. - - - 192.168.2.142 192.168.56.11 - _____ ______ ______ - | | | fire | 192.168.56.1 | file | - | win | --------------->| wall | --------------> | srvr | - |_____| 192.168.2.1 |______| |______| - - - -You need to remember a few things before getting too deep into this. -The default gateway on win is set to 192.168.2.1, and the default -gateway on file srvr is set to 192.168.56.1. The firewall has the two -network interfaces spanning the two subnets and is configured for -IP forwarding. If you have not yet applied any firewall rules, this -configuration will work as before. The interesing part is to block out -all other access to file srvr by implementing ipchains rules. - -The short story is: - -ipchains -F -ipchains -P forward DENY -ipchains -I forward -p tcp -d 192.168.56.11 1723 -j ACCEPT -ipchains -A forward -p tcp -s 192.168.56.11 1723 -j ACCEPT -ipchains -A forward -p 47 -d 192.168.56.11 -j ACCEPT -ipchains -A forward -p 47 -s 192.168.56.11 -j ACCEPT - - -NETWORK ADDRESS TRANSLATION - -The next hurdle is to configure the firewall so that it can run an open -internet IP address on the outside and allow access to an internal -address on the inside. NAT is very well suited to this task, although -you may hear otherwise from knowledgable sources. It happens to be my -preference, though certainly not the only way to skin this cat. You can -obtain the NAT software and some detailed information from - -http://www.csn.tu-chemnitz.de/HyperNews/get/linux-ip-nat.html - -But again, there is a problem with the GRE protocol of type 47. The -tool for configuring NAT, ipnatadm, like its half-brother ipfwadm, is -not set up to handle arbitrary protocols. Unfortunately, you'll have to -go into the code and make a slight modification if you want to use it -for this purpose. There is a procedure called parse_protocol in the -file routines.c that discriminates the type of protocol to be filtered. -The basic idea is to accept a string representing a number and use that -as the filter. Since you have to recompile the kernel anyway to get the -NAT functionality, maybe it's not so horrible, relatively speaking. - -For those ambitous enough, here is the diff for the routines file, copy -this into a file called routines.diff and use the command patch -p0 < -routines.diff from within the same directory. - - ---- routines.c Thu Mar 25 15:41:58 1999 -+++ /mnt/zip/nat/routines.c Wed Jul 21 21:09:28 1999 -@@ -112,11 +112,18 @@ - else if (strncmp("icmp", s, strlen(s)) == 0) - nat_set.nat.protocol = IPPROTO_ICMP; - else { -+ int number; -+ char * end; -+ number = (int)strtol(s, &end, 10); -+ nat_set.nat.protocol = number; -+ } -+ /* -+ else { - fprintf(stderr, "ipnatadm: invalid protocol \"%s\" -specified\n", s); - exit_tryhelp(2); -- /* make the compiler happy... */ - return; - } -+ */ - } - - void parse_hostnetworkmask(char *name, struct in_addr **addrpp, __u32 -*maskp, int *naddrs) - - - -The patch is actually lifted from ipchains, which was derived from -ipfwadm, which provides the basis for ipnatadm. - -Once you've got all that running, what you want to do is to set up the -NAT rules so that the incoming client thinks its talking to the -firewall, as does the outgoing file server. The short of it is: - -ipnatadm -F -ipnatadm -I -i -P 6 -D 192.168.2.1 1723 -N 192.168.56.11 1723 -ipnatadm -O -i -P 6 -S 192.168.56.11 1723 -M 192.168.2.1 1723 -ipnatadm -I -i -P 47 -D 192.168.2.1 -N 192.168.56.11 -ipnatadm -O -i -P 47 -S 192.168.56.11 -M 192.168.2.1 - - -Here, the -P argument sets the protocol, 6 is tcp and 47 is GRE. -PPTP packets targeting the firewall are translated to the internal host -inbound and vice-versa on the way out. Very slick. - -SAMBA - -Here's a subject so complex you could probably devote a whole career to -it. We don't want to get too bogged down, so I'll be brief. Samba -implements the NetBIOS protocol, which has more quirks than you can -shake a stick at. One of the biggest problems is the use of subnet -broadcasting. Suffice it to say, if you want the best results, you -should set your PoPToP IP addresses to reside within the subnet on which -the file server ethernet is located. I choose 192.168.56.12 for the -server address, and it hands out IP's from 192.168.13-127. -Setting the IP forwarding on the file server to true will give you -access to other machines on the internal network. - -When you go at the samba sever from Win98, you have to use encrypted -password. Look at smbpasswd and related stuff. - -Finding shares on the server is not so easy. The short story here is -that browsing is implemented via broadcast packets, and broadcast -packets will not travel down a PPP link. The only way to get browsing -to work over pptp is to set Samba up as a WINS server and a Domain login -server, and configure the clients to use that WINS server and force them -to login to that Domain. Believe me, I tried just about everything to -avoid that. You will also want to set the samba server as the domain -master and preferred master for the browsing. - -If you can't do that, you can set the ppp/options file to include a -ms-wins setting for the samba server. This will set the client up so -they can at least resolve host names. The only way to find a share -under this configuration is to name it explicitly. You can use the -tools menu from the Win98 file browser and say find -> computer and -enter in the name of the samba server and it will be found. I have -found that setting domain master = yes and preferred master = yes gives -a rather nice boost to the speed of name lookups on the network. - -Here is my abbreviated smb.conf - -[global] - workgroup = VAULT - server string = acer - log file = /var/log/samba/log.%m - max log size = 50 - security = user - encrypt passwords = yes - smb passwd file = /etc/smbpasswd - socket options = TCP_NODELAY - domain master = yes - preferred master = yes - domain logons = yes - wins support = yes - dns proxy = no -[homes] - comment = Home Directories - browseable = no - writable = yes - -You should also use the lmhosts option for nmbd (-H) and set up an -lmhosts file on the samba server. Make sure also the the samba server -can resolve its own name, through either /etc/hosts or DNS. - -In all honesty , I went through the same simple test setup with samba as -I did for PoPToP, although its not shown here explicitly. - -CONCLUSION - -PoPToP is a good program, as is Samba. This configuration can work if -you put a little effort into it. I have seen a lot of questions here -and in other places about these types of systems, so I would think that -there is some demand on the part of users who want this type of -functionality. I hope these notes are useful to you if this is what you -want to do. - -**************************************************************************** -Q&A -I have a pptp server set up on my office LAN. I can connect to the -server and ping to it fine, but I can't ping any other hosts on the -office subnet. I have ip-forwarding turned on and I have proxyarp set -in the ppp/options file. What can be wrong? - -There seem to be a lot of questions floating around about routing and -masq'ing associated with this issue. - -Well, my curiosity got the best of me, so I thought I would check this -out. Shown below is my test setup for investigating this problem. - - -192.168.8.142 192.168.56.10 192.168.56.11 192.168.56.12 - ________ _______ ______ _____ -| | | | | | | | -| client |------->| fire |-------->| pptp |----->| host | -| | | wall | | srvr | | | -|________| |_______| |______| |______| - H H - H 192.168.8.10 H - H H - H===================================H -192.168.5.12 pptp connection 192.168.5.11 - - -For the sake of simplicity, we will ignore address translation issues -associated with the firewall. This assumes that the client at -192.168.8.142 is going to use 192.168.56.11 as its target address for -the pptp connection to pptp_srvr. The firewall will block all access to - -the 192.168.56.0 subnet except for pptp connections associated with -pptp_srvr. This can be implemented with ipchains - -ipchains -P input DENY -ipchains -P forward DENY -ipchains -A input 192.168.56.0/24 -j ACCEPT /* allow connections from - -inside */ -ipchains -A input -p tcp -d 192.168.56.11 1723 -j ACCEPT -ipchains -A input -p 47 -d 192.168.56.11 -j ACCEPT -ipchains -A forward -p tcp -d 192.168.56.11 1723 -j ACCEPT -ipchains -A forward -p tcp -s 192.168.56.11 1723 -j ACCEPT -ipchains -A forward -p 47 -d 192.168.56.11 -j ACCEPT -ipchains -A forward -p 47 -s 192.168.56.11 -j ACCEPT - -When you connect from client to pptp_srvr, you will be able to complete -the connection and ping to pptp_srvr. However, if you attempt to ping -host, at 192.168.56.12, this will fail. - -A clue to this problem can be found in the /var/tmp/messages file on -pptp_srvr. There, in the pppd messages, you will find - -Cannot determine ethernet address for proxy ARP - -This is due to an issue with the pppd program, which attempts to find a -hardware interface on the subnet to which the pppd client has been -assigned. In this case its looking for a hardware interface on the -192.168.5.0 subnet. It will fail to find one, and will drop the -proxyarp request. - -The simplest way around this problem, and the one that is suggested in -the pppd documentation, is to set the pppd client IP assignment to be on - -the local subnet. An example in this case might be 192.168.56.129. -However, it may not be possible to do that. In the case of a fully -loaded subnet, there may not be any addresses to spare. Or there may be - -some security issues with giving out local subnet addresses. What to -do? - -The place to look is in the arp table. If you run tcpdump on host -(192.168.56.12) during the time when client is pinging, you will see -unanswered arp requests from host attempting to find the hardware -address for 192.168.5.12. You need to proxy the hardware address of the - -pptp_srvr for client in order for this request to be fulfilled. This is - -the job of proxyarp. However, proxyarp has let us down in this -instance, and we need to find a workaround. - -This can be done manually using the arp command on pptp_srvr. For -example, if the hardware address of the ethernet card on pptp_srvr is -00:60:08:98:14:14, you could force the arp to proxy the client pptp -address by saying - -arp --set 192.168.5.12 00:60:08:98:14:13 pub - -You should now be able to ping from client to host through the pptp -connection. - -This can be a problem, however, in a dynamic environment when clients -are logging into and out of the pptp server on a continuous basis. One -way around this problem is to write a script that will execute upon the -initiation of each ppp connection. - -The place to do this is in /etc/ppp/ip-up. This script is executed each - -time a new ppp connection is started. It gets some variables passed -into it, one of which is the assigned IP address of the client. Note -that RedHat systems use ip-up.local as the place for you to make the -script. Don't forget to chmod +x ! - - -#! /bin/bash - -REMOTE_IP_ADDRESS=$5 - -date > /var/run/ppp.up -echo "REMOTE_IP_ADDRESS = " $REMOTE_IP_ADDRESS >> /var/run/ppp.up -arp --set $REMOTE_IP_ADDRESS 00:60:08:98:14:14 pub >> /var/run/ppp.up - -exit 0 - - -This should put you in business for accessing the remote subnet under -this scenario. I am a little bit concerned, however, because I also -built a script ip-down.local, that should remove the arp proxy when -client disconnected. It doesn't seem to do anything, however, and if I -try to delete the arp entry manually, it just spits out a cryptic error -message. The arp entries remain persistent, as far as I can tell. If -this is a problem or not, I don't know. The next few clients that log -in are treated well, so I guess its OK. - -**************************************************************************** -Q. -Also, after running pptpd and monitoring its log file and seeing that it -failed to open ttyp1 - I chmod +rw /dev/ttyp[0-9] and it seemed to work -somewhat. But, after I rebooted, I had to do this again. Is this normal? - -A. -pptpd should be running as root (unless you have a system with a setuid -openpty() helper, which isn't very common). If it fails to open a pty/tty -pair as root then that is probably because it is in use. - -Other programs which use pty/tty's will change their permissions back to -the standard ones. - -**************************************************************************** -Q. -sometimes when I make a connection to my pptpd server I -see a message like - -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-21 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-26 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-24 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-21 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-26 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-24 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-26 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-24 -Jul 2 17:30:03 ape modprobe: can't locate module ppp-compress-21 - - -in /var/log/messages on the server. Any idea what I -can do about it? - -A. -yeah, in your /lib/modules//net/ directory, there should -be files called bsd_comp.o and ppp_deflate.o.. insmod those files and -you'll be good to go. - -**************************************************************************** -Q. -Hi, I'm having trouble getting pptpd & mschap-v2 to work. I downloaded -all of the patches and compiled everything but whenever i try to connect -from my win98 machine, it says: - -Error 691: The computer you have dialed in to has denied access because -the username and/or password is invalid on the domain. - -What is this suppose to mean? - -A. -Error 691 is an authentication problem probably due to the fact that MS -chap uses the domain name and username combo to authenticate. If you -look at the logs you will probably see a message saying that MS chap is -trying to authenticate user "domain\\username". I got it to work by -putting the full domain and user string in the client portion of the -chap-secrets file. - -# Secrets for authentication using CHAP -# client server secret IP -addresses -workgroup\\user server password * - -If anyone knows how to get it to default to a particular domain, I would -like to know. - -**************************************************************************** -Q. -how do I go about checking who is logged in via tunnel? - -I need some way of writing the pppd data to wtmp/utmp. -(and not sessreg either) - -does anyone know of any way of doing this via ppp? - -A. -pppd syslogs everything to /var/log/messages (that's the default on my box -anyways) and it will say something like : -pppd[15450]: CHAP peer authentication succeeded for - -you could do a tail /var/log/messages -n2000 | grep CHAP if you wanted to -see who has been logging in. - -other than that, there's not much i know of. all the authentication is -provided by pppd (if you don't have an auth or a require-chap (or pap, etc.) -option, it doesn't even ask for a username. - -**************************************************************************** -Q. -My NT client won't connect! - -A. -Try taking header and software compression off. - - -**************************************************************************** -Q. PPTP *client* stops working. - -A. -go to /var/run/pptp/ and look for a socket named x.x.x.x -delete it and try it again. - -**************************************************************************** -Q. -How many clients does PoPToP support? - -A. -The limits under Linux are: - - per-process filedescriptors - - one per client (would limit clients to 256 by default, - or 1024 with kernel recompile, or more with major libc/kernel - hackery) - - no relevant limit - - ttys - currently, with a standard kernel, 256 clients - - with Unix98 ptys and a small amount of coding, 2048 - - ppp devices - - no limit in kernel source for ppp - - limit of 100 in dev_alloc_name() in 2.2.x - - for(i=0;i<100;i++) - { - sprintf(dev->name,name,i); - if(dev_get(dev->name)==NULL) - return i; - } - - best fix is probably to keep a static int ppp_maxdev so you - don't end up doing 2000 dev_get's to allocated the 2001'th - device. - - processes - - 2 per client plus system processes - - standard kernel max = 512 processes, ie 256 clients - - i386 max = 4096 processes, ie 2048 clients - -So it seems that 2048 will be the limit, if you fix a few things and -with a minor kernel mod (I could do all of these pretty easily and send -you a trivial kernel patch). To go above 2048 the easiest approach would -be to combine pptpctrl and pppd in one process, which would get you to -4096. Beyond there, you need to go for a select() based model, which would -be significant coding effort and require large fd-set sizes and so on. -So 4096 is the practical limit, and 2048 the easy limit. - -**************************************************************************** -Q. -What authentication methods (PAP/CHAP) does PoPToP work with? - -A. -PoPToP uses whatever authentication methods your PPPd provides (usually -PAP and CHAP). With PPPd patches you can get MSCHAP and MSCHAPv2 -authentication as well. - -**************************************************************************** -Q. -When running PoPToP I get the following error: - - Jun 11 08:29:04 server pptpd[4875]: MGR: No more free connection slots! - -What does this mean? - -A. -I'd say at a guess you've only configured one IP address and you have -connected a client, and as such there are no more free connection slots should -any more clients wish to connect. - -**************************************************************************** -Q. -Does PoPToP suffer from the same security flaws -(http://www.counterpane.com/pptp.html) as the Windows NT PPTP server? - -A. -An initial look at the article suggests that what the authors hammered was -not the PPTP protocol, but the authentication that the PPTP VPN servers on -NT offered access to via open internet. PPTP seems initially to be just -the path to the weakness, not the weakness itself. Part of their -observance of weakness deals with use of poor passwords as well, a cheap -component, simple enough to fix. - -> While no flaws were found in PPTP itself, several serious flaws were -> found in the Microsoft implementation of it. -> (http://www.counterpane.com/pptp-pressrel.html) - -The authors do not specifically say "this is ONLY effective against NT", -just that NT is affected. This implies that they do not recognize PoPToP, -and it may be included. The fact that PoPToP has to interOp with MS DUN's -VPN client means that it will have the same weaknesses. It can only -protect itself from DoS attacks, have immediate response to out-of-sequence -packets or illogical packets, etc. - -The protocol is not considered weak in this analysis, but the weaknesses -have to be replicated in apparent behavior by PoPToP. The only thing the -developers can do with PoPToP is make it a stronger server per se -- more -able to handle the attacks when the come. - -In conclusion: PoPToP suffers the same security vulnerabilities as the NT -sever (this is because it operates with Windows clients). - -Update: MSCHAPv2 has been released and addresses some of the security -issues. PoPToP works with MSCHAPv2. - -**************************************************************************** -Q. -Does PoPToP support data encryption? - -A. -Yes.. with appropriate PPPd patches. Patches are available for PPPd to -provide Microsoft compatible RC4 data encryption. The PPPd patch supports -40 and 128 bit RC4 encryption. - -**************************************************************************** -Q. -PoPToP or IPsec? Which is better suited to my needs? - -A. -1. The difference between PoPToP and IPsec is that PoPToP is ready NOW.. -and requires *no* third party software on the Windows client end -(Windows comes with a free PPTP client that is trivial to set up). - -2. PoPToP is a completely *free* solution. -Update: Unfortunately not true for Mac *clients* though. The Mac client -software is around $400 US a copy. - -3. PoPToP can be integrated with the latest PPPD patches that take -advantage of MSCHAPv2 and MPPE (Microsoft encryption using RC4 - 40/128 -bits). - -More details follow from Emir Toktar: -(Refs: A Comprehensive Guide to Virtual Private Networks, IBM. -Virtual Private Networking: An Overview White Paper - DRAFT, 3/18/98 -Microsoft.) - -Neither network layer-based (L2TP, PPTP,...) nor application layer-based -(IPSec,SSL,SSH) security techniques are the best choice for all -situations. There will be trade-offs. Network layer security protects the -information created by upper layer protocols, but it requires that IPSec -be implemented in the communications stack. - -With network layer security, there is no need to modify existing upper -layer applications. On the other hand, if security features are already -imbedded within a given application, then the data for that specific -application will be protected while it is in transit, even in the absence -of network layer security. Therefore security functions must be imbedded -on a per-application basis. - -There are still other considerations: -Authentication is provided only for the identity of tunnel endpoints, but -not for each individual packet that flows inside the tunnel. This can -expose the tunnel to man-in-the-middle and spoofing attacks. - -Network layer security gives blanket protection, but this may not be as -fine-grained as would be desired for a given application. It protects -all traffic and is transparent to users and applications. - -Network layer security does not provide protection once the datagram has -arrived at its destination host. That is, it is vulnerable to attack -within the upper layers of the protocol stack at the destination machine. - -Application layer security can protect the information that has been -generated within the upper layers of the stack, but it offers no -protection against several common network layer attacks while the -datagram is in transit. For example, a datagram in transit would be -vulnerable to spoofing attacks against its source or destination address. - -Application layer security is more intelligent (as it knows the -application) but also more complex and slower. - -IPSec provides for tunnel authentication, while PPTP does not. - - Layer 2 tunneling protocols inherit the user -authentication schemes of PPP, including the EAP methods discussed below. -Many Layer 3 tunneling schemes assume that the endpoints were well -known (and authenticated) before the tunnel was established. An exception -to this is IPSec ISAKMP negotiation, which provides mutual authentication -of the tunnel endpoints. (Note that most IPSec implementations support -machine-based certificates only, rather than user certificates. As a -result, any user with access to one of the endpoint machines can use -the tunnel. This potential security weakness can be eliminated when -IPSec is paired with a Layer 2 protocol such as L2TP. - - Using the Extensible Authentication Protocol -(EAP), Layer 2 tunneling protocols can support a wide variety of -authentication methods, including one-time passwords, cryptographic -calculators, and smart cards. Layer 3 tunneling protocols (IPSec) can -use similar methods; for example, IPSec defines public key certificate -authentication in its ISAKMP/Oakley negotiation. - - Layer 2 tunneling supports dynamic -assignment of client addresses based on the Network Control Protocol -(NCP) negotiation mechanism. - -Generally, Layer 3 tunneling schemes assume that an address has already -been assigned prior to initiation of the tunnel. Schemes for assignment -of addresses in IPSec tunnel mode are currently under development and -are not yet available. - - Layer 2 tunneling protocols support PPP-based -compression schemes. For example, the Microsoft implementations of both -PPTP and L2TP use Microsoft Point-to-Point Compression (MPPC). The IETF -is investigating similar mechanisms (such as IP Compression) for the -Layer 3 tunneling protocols. - - Layer 2 tunneling protocols support PPP-based data -encryption mechanisms. Microsoft's implementation of PPTP supports -optional use of Microsoft Point-to-Point Encryption (MPPE), based on -the RSA/RC4 algorithm. Layer 3 tunneling protocols can use similar -methods; for example, IPSec defines several optional data encryption -methods which are negotiated during the ISAKMP/Oakley exchange. - - MPPE, a Layer 2 protocol, relies on the initial key -generated during user authentication, and then refreshes it -periodically. IPSec, explicitly negotiates a common key during the -ISAKMP exchange, and also refreshes it periodically. - - Layer 2 tunneling supports multiple payload -protocols, which makes it easy for tunneling clients to access their -corporate networks using IP, IPX, NetBEUI, and so forth. In contrast, -Layer 3 tunneling protocols, such as IPSec tunnel mode, typically -support only target networks that use the IP protocol. IPSec is not -multi-protocol. - -IPSec will be suported by Windows 2000. - -Many cases can occur, each of which needs to be examined on its own -merit. It may be desirable to employ a mix of both network layer -security techniques and application layer techniques to achieve the -desired overall level of protection. For example, you could use an upper -layer mechanism such as Secure Sockets Layer (SSL) to encrypt upper -layer data. SSL could then be supplemented with IPSec's AH protocol at -the network layer to provide per-packet data origin authentication and -protection against spoofing attacks. - -**************************************************************************** -Q. -I get a 'createHostSocket: Address already in use' error! what gives? - -A. -Address already in use in createHostSocket means something is already using -TCP port 1723 - maybe another pptp daemon is running? - -**************************************************************************** -Q. -Does PoPToP work with Windows 2000 clients? - -A. -PoPToP v0.9.5 and above should work with Windows 2000 clients. - -**************************************************************************** -- cgit v1.2.3