ATT Uverse RG Bypass (0.2 BTC)
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any progress?
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bump… anyone?
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I would love to see this too.
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Looks like it maybe more viable now with a python script:
https://github.com/jaysoffian/eap_proxy
See https://github.com/jaysoffian/eap_proxy/issues/2 also since it seems PFRING is required but BSD doesn't have PFRING.
I've heard someone got this working on a debian box running shorewall so maybe just adapting it for BSD could be the solution.
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Looks like it maybe more viable now with a python script:
https://github.com/jaysoffian/eap_proxy
See https://github.com/jaysoffian/eap_proxy/issues/2 also since it seems PFRING is required but BSD doesn't have PFRING.
I've heard someone got this working on a debian box running shorewall so maybe just adapting it for BSD could be the solution.
I've seen a report of this solution (https://github.com/kuwerty/eapolproxy)
eap proxy sucessfully compiled and running on pfsense after installing some dependencies (libstdc++).
and it passing packets.I checked out the eapolproxy, and successfully compiled it on my freebsd dev box. After getting some dependencies (libstdc++) onto pfsense, it does start and appears to be passing the EAP traffic from the RG on OPT1 up to the WAN interface where the ONT is, but nothing ever comes back - it just keeps spamming the EAPOL start and logoffs. I will have to keep playing with it, but I feel like the solution is close. It would be good to have some others try this…
Source: (http://www.dslreports.com/forum/r31632582-)
as for pfring dependency.. i don't know if thats kernel or something that needs to be compiled specifically for freebsd…
my gigapower install doesn't happen for another day or 2. I'm going to go ahead and try compiling the this eapolproxy myself to see if I can get it working. -
If this feature bounty still open? I may have an elegant FreeBSD solution to the problem.
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I'll give you $100 in bitcoin for a set-and-forget solution that works on pfsense.
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Any progress on this?
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$200 for a set-and-forget solution.
I may consider other payments methods besides bitcoin if preferred.
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There's been a surprising amount of progress, although I've encountered some issues with PFSense specifically (vanilla FreeBSD and OPNSense work more smoothly).
Here's a summary so far of what I've done, and the issues I am encountering.
For background, here are links for Linux specific solutions:
http://blog.0xpebbles.org/Bypassing-At-t-U-verse-hardware-NAT-table-limits
https://strscrm.io/bypassing-gigapowers-provided-modem.htmlTo summarize, there are two Linux approaches:
(1a) Create a Bridge and enable the Bridge to Forward EAPOL traffic - Use ebtables (Linux layer 2 firewall) to filter what is forwarded across the bridge.
(1b) Run a Python script called EAP-Proxy that proxies EAPOL traffic in order to avoid creating the bridge
(2) Create a Virtual Interface for your WAN assigned VLAN 0 and assign your services to it.However, FreeBSD is not Linux and there are some issues due to FreeBSD's undying commitment to standard's compliance:
(1) The FreeBSD bridge code does not allow for EAPOL traffic to be forwarded across the bridge because this violates the IEEE 802.1D standard.
(2) The EAP-Proxy Script that is circulating is pretty specific to Linux and requires a lot of massaging to work with FreeBSD. Also, it requires installing python on your firewall, which you may not want to do for security reasons.
(3) FreeBSD's vlan code does not allow you to create a virtual interface assigned to VLAN 0 because IEEE 802.1Q specifies that vlan 0 is reserved.So there are two technical issues that need to be resolved:
(1) Make FreeBSD forward EAPOL traffic between the RG and the ONT.
(2) Allow the FreeBSD WAN interface to communicate on vlan 0 so that it can communicate with the ONT.I have solved the first problem and can demonstrate two working solutions on FreeBSD and OPNSense. However, the preferred solution does not work on PFSense yet. To briefly summarize my work:
(1) The universally working (but not preferred) solution is to patch the kernel's bridge code to forward EAPOL traffic. I've created a kernel patch for the bridge code that allows you to enable or disable forwarding of EAPOL traffic on a bridge using a sysctl variable. However, it's definitely not a set and forget solution as you have to manually patch your kernel and then potentially repatch the kernel with every update. Long-term, it can be a set and forget solution once I submit the patch to -CURRENT and it migrates to -STABLE and it then makes it to -RELEASE. But that's a long migration path.
(2) I've created a set and forget solution for forwarding EAPOL traffic using FreeBSD's builtin Netgraph framework. Basically, I use Netgraph to create a layer 2 firewall that forwards all EAPOL frames between interfaces and forwards all other Ethernet frames on up the network stack per normal. I've tested it successfully on vanilla FreeBSD and OPNSense. However, it's not currently working on PFSense for two reasons.-
The first reason is a show stopper - there's a bug in the PFSense netgraph module ng_eth. When ng_eth is loaded, it is supposed to automatically create a Netgraph node for each ethernet interface on your system. Unfortunately, PFSense's ng_eth module only creates a netgraph node for some, but not all of the ethernet interfaces on my test system. It also deletes nodes it has created when I try to switch the LAN and WAN interfaces to the existing ng_eth nodes. Curiously, the ng_eth module works on FreeBSD 11.1 and OPNSense as expected.
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The second reason is rather trivial to solve, but still annoying. PFSense doesn't load all of the necessary netgraph modules by default and doesn't allow you to load kernel modules at run time. While this is a good security behavior, it means you have to manually edit your boot configuration to load the necessary netgraph modules
I am still attempting to solve the second problem (communicating on VLAN 0). Looking at TCPDump, I can see the DHCP request and response between my WAN and the ONT, but I am not getting an IP address assigned to my WAN interface. I suspect this is because the traffic is tagged as VLAN 0 in a non-standard compliant manner, which is causing FreeBSD to disregard the DHCP response as invalid. I may be able to solve this problem as well using Netgraph, but I need to investigate further when I have some more time and I can test my solution (which is when my family is not home streaming Netflix).
If anyone else is a networking ninja, I would be glad to partner with them to finish this project more quickly.
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Do you have a bitcoin address? I'd like to give you $100 worth right now to keep the progress going. I don't mind a kernel patch.
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I see that ATT uses IP-DSL to do the log in. I wonder if there is a way to get Pfsense to do the log in directly.
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Do you have a bitcoin address? I'd like to give you $100 worth right now to keep the progress going. I don't mind a kernel patch.
I'm doing this for the love and the technical challenge, but tips are always welcome! ;)
My bitcoin wallet address for any donations towards this project (from you or any other generous souls) is:
1H8CaLNXembfzYGDNq1NykWU3gaKAjm8K5
If anyone is going to tip me for my efforts, I figure I should at least give them something in return.
Here’s the Netgraph based solution I have so far (which I have tested more thoroughly than the kernel patch):
Step 1: Copy the ng_etf.ko module from a FreeBSD 11.1 system to /boot/kernel. If you are security conscious, you will copy this module yourself from a FreeBSD 11.1 system you already own/control. For convenience, I have uploaded a copy of the module here which trusting souls may download at their convenience.
Step 2: Add the following line to your /boot/loader.conf file – ng_etf_load=”YES” (include quotation marks)
Step 3: Reboot so that the kernel modules are loaded
Step 4: Clone the MAC address of the RG to your “WAN” port.
Step 5: Use the following Netgraph commands to create the EAP Netgraph Bridge. As of right now you need to enter these commands at the console or include them in a startup/boot script. Because you are disconnecting and reconnecting your Ethernet interfaces to create the necessary graph, you will lock yourself out of your own box if you are doing this over SSH. Hence, you need physical access to your machine when entering these commands or they need to be executed automatically on boot.## Replace “em0” and “em1” with your WAN and ONT Ethernet interfaces ## as appropriate for your machine ngctl mkpeer em0: etf lower downstream ngctl name em0:lower waneapfilter ngctl connect waneapfilter: em0: nomatch upper ngctl mkpeer em1: etf lower downstream ngctl name em1:lower laneapfilter ngctl connect laneapfilter: em1: nomatch upper ngctl connect waneapfilter: laneapfilter: eapout eapout ngctl msg waneapfilter: 'setfilter { matchhook="eapout" ethertype=0x888e }' ngctl msg laneapfilter: 'setfilter { matchhook="eapout" ethertype=0x888e }'
If these commands throw a cryptic error message, one of three things happened.
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Most likely, you omitted or added a colon (“:”) somewhere it didn’t belong (I speak from experience).
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Less likely, but possible, is that I accidentally omitted or added a colon while copying and pasting these commands into this writeup. :)
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Possibly, PFSense’s ng_eth module is not recognizing one or more of your interfaces. This happens on some, but not all computers. I’m not sure if this is a software or hardware bug. For example, on my ZOTAC CI323, all of my interfaces are recognized. However, on my QOTOM machine, only 2 of the 4 are recognized (OPNSense and vanilla FreeBSD recognize all four, which leads me to believe there is a subtle PFSense bug rather than an hardware issue).
Step 6: Connect the ONT to your PFSense Box and the RG to your PFSense Box (connecting from PFSense to the ONT port on the RG)
Step 7: Power cycle the RG in order to force authentication with ATT
Step 8: Confirm authentication. After 1-2 minutes, you will see the “Broadband” light on your RG flash green and then go to solid green for a short period of time. This means that the 802.1X port authentication has completed successfully. However, your Broadband light will then start flashing read and then go blank. This is because the RG is not receiving an IP address from the ATT network via DHCP (your PFSense Box is attempting request and receive the IP address).
At this point, I can see the DCHP requests and responses between the PFSense box and the ATT network using tcpdump. However, the PFSense box is currently unable to use the IP address provided by ATT. I assume this is because ATT is tagging all responses as being on VLAN 0 (you can see this in TCPDump). With Linux based solutions, you can solve the problem by assigning vlan 0 to your WAN and then moving all your services over to the virtual interface created for vlan0. However, FreeBSD doesn't handle frames explicitly tagged as vlan 0 very well.
I submitted a bug report to FreeBSD for to see if I could get this resolved. The short answer is "no" but they suggested that the Netgraph VLAN code might be able to convert frames tagged as vlan 0 into untagged frames prior to forwarding them up the network stack. I have not had time to investigate this, but it seems promising. If it works, I'll update my netgraph script above to incorporate the appropriate ng_vlan nodes.
EDIT - UPDATED Link for Kernel Module
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I see that ATT uses IP-DSL to do the log in. I wonder if there is a way to get Pfsense to do the log in directly.
Unfortunately, no. ATT uses cryptographic certificates installed in the ROM of the RG to authenticate the RG with the ATT network. This allows them to prevent "unauthorized" equipment from being attached to the network. Unless you feel like dumping the contents of the ROM, identifying the cryptographic certificates, uploading them to your PFSense box, and creating a custom authorization script, it's easier to just perform a man-in-the-middle attack on the 802.1X authentication.
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Thanks for your work on this.
https://tradeblock.com/bitcoin/tx/5be26573726e21c9f70d18af1223fb8e307cae6194a656ca294cc4afa99ae767
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Thanks for your work on this.
https://tradeblock.com/bitcoin/tx/5be26573726e21c9f70d18af1223fb8e307cae6194a656ca294cc4afa99ae767
Received. Thanks!
Digging into this a little more, the VLAN netgraph node may provide the "missing link." I'm hoping to be able to test it in the reasonably near future and see if it actually works.
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Hi rajl.
For the past few weeks, I've independently gone down similar avenues to explore a solution to this problem. I considered porting the EAP Proxy script, but that seemed painful. I opted to patch the kernal (if_bridge.c to be specific) to remove the drop on the 802.1X MAC 01:80:c2:00:00:03. That worked, but only for the EAP problem.
After discovering this post (a great start btw!) and reading more about netgraph, I agree that is probably the best approach. I hoping we can get this working using a combination of: ng_ether, ng_etf, ng_vlan, ng_tee and ng_eiface
For the VLAN0 problem, I expect the netgraph to look like something like this:
# em0 - ATT RG # em1 - ONT # em2 - LAN # ngeth0 - "WAN" netgraph creates interface, removes VLAN0 tag from ONT traffic # make eth devices addressable in netgraph # (kernel module may already be loaded for you) kldload ng_ether # from em1, create a vlan peer # connect em1's lower hook to vlan's downstream hook ngctl mkpeer em1: vlan lower downstream # name peer vlan ngctl name em1:lower vlan # connect em1's upper hook to vlan's nomatch hook ngctl connect em1: vlan: upper nomatch # from vlan, create eiface peer (ngeth0) # connect vlan's untagged hook to eiface's ether hook ngctl mkpeer vlan: eiface untagged ether # instruct vlan: to send vlan0 traffic to untagged hook # which gets sent to the eiface ether hook (ngeth0) ngctl msg vlan: addfilter '{ vlan=0 hook="untagged" }'
I've tested in locally in a VM and I think this part is working. However, the problem I'm struggling with now is combining the EAP netgraph solution with the VLAN netgraph solution. I think this is where ng_tee comes into play, but I'm still trying to wrap my head around it.
I think we need to use ng_tee to split out the ng_ether-em1 interface. Then hook up the EAP graph to one side and the VLAN graph to the other. But my head spins trying to keep left, right, right2left and left2right straight. :) The lacking documentation about netgraph doesnt help either. It seems no one talks about netgraph much.
Have you had any progress or success?
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I just wanted to report back that I got this working, but probably not in the sense you were hoping for.
I’m running pfSense in a VM on Proxmox (KVM/QEMU). For now, I’ve opted to let the hypervisor (Linux) do the EAP and VLAN work. (Same method basically) Here is my setup:
Nothing too special configuration was required for my pfSense VM. Here is my config:
balloon: 0 bootdisk: ide0 cores: 2 cpu: host ide0: ssd0:vm-100-disk-1,size=32G memory: 512 name: pfSense net0: virtio=XX:XX:XX:XX:XX:XX,bridge=vmbr0 net1: virtio=XX:XX:XX:XX:XX:XX,bridge=vmbr1 numa: 0 ostype: other serial0: socket sockets: 1 tablet: 0
The net0 (LAN) interface bridges to vmbr0. vmbr0 bridges to physical eth0, which is connected to my switch.
The net1 (WAN) interface bridges to vmbr1. vmbr1 bridges to vlan0. The vlan0 interface is configured off physical eth1, which is connected to the ONT. net1 MAC address also matches my ATT Gateway. Change it in your pfSense WAN interface setting.
/etc/network/interfaces:
# LAN / eth0 # Connect to switch iface eth0 inet manual # ONT / eth1 # Connect to ONT box outside iface eth1 inet manual # RG / eth2 # Connect to ATT Gateway on ONT port iface eth2 inet manual # LAN Bridge / br0 # Bridge main switch to pfSense # IP is Proxmox host auto vmbr0 iface vmbr0 inet static address 192.168.1.2 netmask 255.255.255.0 gateway 192.168.1.1 bridge_ports eth0 bridge_stp off bridge_fd 0 # VLAN0 Bridge / br1 # Bridge vlan tagged WAN to pfSense auto vmbr1 iface vmbr1 inet manual bridge_ports vlan0 bridge_stp off bridge_fd 0 # EAP Bridge / br2 # Bridge ATT Gateway + ONT so EAP/802.1X auth can complete # group_fwd_mask makes sure 802.1X traffic is bridged auto vmbr2 iface vmbr2 inet manual bridge_ports eth1 eth2 bridge_stp off bridge_fd 0 post-up echo 8 > /sys/class/net/vmbr2/bridge/group_fwd_mask
Unfortunately, Proxmox conflicts with the vlan debian package, so you have to configure the vlan interface with the ip command instead of the interface file:
ip link add link eth1 name vlan0 type vlan id 0
And that’s pretty much it. I haven’t nailed down the timings yet from cold boot to online for a fully automated solution. For some reason, the EAP only takes under certain conditions. I have the best luck with the following:
1. Cold boot hypervisor
2. Wait for EAP to authenticate
3. Start vlan0
4. Start pfSense VMIt’s not perfect right now and it will take some more experimenting. But, it feels good to be off their RG!
I’d still be interested in a pure BSD solution though.
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Glad to see someone else exploring this.
I haven't had a chance to test it yet (my wife and toddler will kill me if I cut the internet tinkering on the weekend – toddler cartoons are sacred).
I hadn't thought of using an ng_tee node, but it sounds like a good idea. Basically, you would connect the ng_tee left hook to the ng_eth downstream hook. You would connect the ng_tee right hook to an ng_vlan (for example), which can filter the vlan 0 tagged traffic for you before passing it up the protocol stack. The ng_etf could be connect to the left2right hook of the ng_tee node using the commands I wrote above to filter the eap traffic.
A modified script would look something like this:
ngctl mkpeer em0: tee lower left ngctl name em0:lower T #Connect vlan to virtual interface for vlan0 traffic, ignore all untagged traffic #by failing to connect the vlan to the ether upper hook (reserved for eap filtering) ngctl mkpeer T: vlan right downstream ngctl name T:right vlan ngctl mkpeer vlan: eiface vlan0 ether ngctl msg vlan0: 'addfilter { vlan=0 hook="vlan0" }' #Connect other hook of T node to ng_etf node for eap filtering/proxying #Leave "lan filter" the same because we only care about eap traffic ngctl mkpeer T: etf left2right downstream ngctl name T:left2right waneapfilter ngctl connect waneapfilter: em0: nomatch upper ngctl mkpeer em1: etf lower downstream ngctl name em1:lower laneapfilter ngctl connect laneapfilter: em1: nomatch upper ngctl connect waneapfilter: laneapfilter: eapout eapout ngctl msg waneapfilter: 'setfilter { matchhook="eapout" ethertype=0x888e }' ngctl msg laneapfilter: 'setfilter { matchhook="eapout" ethertype=0x888e }'
This is an untested script and may throw errors or error message, but the underlying principles should work for any brave souls willing to try! ;) Just make sure that you have the ng_etf, ng_vlan, ng_eth, ng_eiface and ng_tee modules loaded.
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Just occurred to me as an alternative that you could use a NetGraph multiplexer node instead of the ng_tee node.