What is it?The AIRcable Host XR is an exceptionally powerful USB Bluetooth adapter. It can be used with any and all Bluetooth software because, as far as the software is concerned, it is no different from any other adapter you would use. The difference is the insanely powerful transmitter, outputting at 200 mW (double the power output of the highest conventional Bluetooth device), coupled with a standard RP-SMA antenna connector which will be immediately familiar to anyone who has worked with WiFi hardware. When linked to a directional antenna, two Host XRs can communicate for up to 30 KM. For more practical use, you can connect it to a 9 dBi omni-directional antenna, which will give you a range of hundreds of meters when working with standard Bluetooth devices like phones and headsets.
This device is based on the extremely well supported Cambridge Silicon Radio chipset, which has a number of tools specifically geared for it. This enables advanced functions not possible on other Bluetooth devices, like MAC spoofing and direct low-level access to the baseband radio.
bash:~# hciconfig hci0 version revision hci0: Type: USB BD Address: 00:50:C2:7F:XX:XX ACL MTU: 310:10 SCO MTU: 64:8 HCI Ver: 2.0 (0x3) HCI Rev: 0x10b7 LMP Ver: 2.0 (0x3) LMP Subver: 0x10b7 Manufacturer: Cambridge Silicon Radio (10) Unified 22b Chip version: BlueCore4-External Max key size: 56 bit SCO mapping: HCI
XR2: Electric BoogalooRecently, AIRcable has introduced the Host XR2 and discontinued the Host XR in the process. For awhile you could buy the Host XR at a steep discount from the AIRcable online store (50% off), but as of this writing they have now sold out the rest of their old stock. You can still get the older Host XR on eBay for pretty cheap though.
The XR and XR2 are exactly the same in terms of capability, and anything you can do with one you can do with the other. The XR2 represents an aesthetic design change, with a much more modern external casing than the original XR. It also features retail-friendly blister packaging, rather than the ZipLock Freezer bag that my XR was sent to me in. Both of these changes are an attempted capitalization on the fact that the Host XR series is essentially the only mass-marketable product AIRcable has in their line; it is conceivable that the average person might even pick one of these things up in their local electronics shop if it was marketed correctly. Coverage on a few technology blogs about using the Host XR with Bluetooth headsets and headphones have helped that along a bit.
If you can get a cheap XR, go ahead and do it. You won't lose any functionality over the XR2, and personally, I find the design of the XR a little more appealing; the XR2 looks more at home in an adult toy store than the desk of a hacker, but to each his own.
Practical RangeThe spec sheet from AIRcable lists the maximum range of the Host XR at 30 KM, but of course that is only under laboratory conditions and with two Host XRs connected to high-gain directional antennas. It doesn't mean anything for it's real world performance, which is what most people are interested in.
I set out to test the realistic range of the Host XR in the most simplistic way possible. I had somebody hold a cellphone set to discoverable mode, put one of the Host XRs on the roof of my car, and started driving. Once I lost signal I would switch to the next higher gain antenna, until I got to the directional parabolic. It should be said that maximum range with the directional parabolic antenna is likely higher than what is reported here, but at these distances keeping the target aligned becomes prohibitively difficult.
Distance was measured with the free Android application GPS Status. In my mind this is easily the best GPS software available on the Android platform, and is exceptionally useful for finding direction and range to an arbitrary target. It is a great tool for wardriving, geocaching, or just exploring. Of course, as range was found via GPS there is an estimated position error of roughly 3 meters. As such, the ranges reported here have actually been rounded down from the measurement reported by GPS Status.
As a control, I also tested the range of the cheapest Bluetooth adapter I could find, SKU 16229, from DealExtreme. I was actually surprised at how well this device performed, I expected considerably worse for a $4 item.
As you can see, the range with even the stock 3 dBi antenna is more than twice that of a Class 1 Bluetooth device. The biggest surprise of this test for me was how little the range was increased using the 9 dBi over the stock antenna. In fact, I also tested a 5 dBi antenna, but the difference in signal strength was so small I didn't even bother to record it.
The biggest winner, of course, was the monster 19 dBi parabolic antenna. Even with a very rough alignment to the target, this antenna achieved just shy of 400 meters, or 1/4 of a mile.
As I said, a number of things could have been done to push the range even farther. Better alignment of the directional antenna would have been highly beneficial, and an elevated position would have significantly increased the range (and made alignment easier as well). You could also use an external 2.4 GHz amplifier to push more power through the dish, as truthfully, a 200 mW radio doesn't really have the power to drive a 19 dBi dish. But again, this test was not to push the hardware to the envelope (though it might be an interesting project), but to give an idea as to what results you might expect in the field.
What can you do with it?Well, think of anything you can do with a normal Bluetooth device...and just do it at a greater distance. This means everything from simply scanning for discoverable devices to launching an active attack with something like Bluetooth Stack Smasher. Imagine how much more effective and dangerous Bluetooth vulnerabilities are when the range is extended 5 or 10 times what the average user is expecting. One of the things that has kept Bluetooth security on the back burner in many people's minds is the fact that Bluetooth is generally a very short range protocol. It is assumed that any attacker would have to be so close to you that it would make any serious attack impractical. But with hardware like this, you can enumerate and attack even a moving target from a considerable distance. If you are fixed on one relatively static target (say, the Bluetooth headset of a person sitting by their office window) you can even employ a high-gain directional antenna to push your useful range even farther. Such a setup was used by security researchers to successfully attack a standard cell phone from over 1 mile away, and the only hardware they had was a regular USB Bluetooth adapter modified with an external antenna lead.
You could also use the Host XR in your very own bt_rng cluster! Impress your friends as you generate marginally good random data at ridiculously slow speeds with your expensive piece of industrial hardware! In fact, the Host XR doesn't generate random data any better or faster than the super cheap "Mini" Bluetooth adapters sold online for $4, but it certainly looks cooler.
Firmware ModificationAs this device is based on the BlueCore4 with external firmware EEPROM it should be possible to modify it with the firmware from Frontline's Bluetooth sniffing hardware. This would give you RAW access to over-the-air Bluetooth communication, allowing for all sorts of interesting things like cracking PINs at 100 meters.
Unfortunately, as the process to put the newer firmware releases onto regular hardware has changed, and due to the fact that doing it wrong will brick the hardware, I have been unable to work on this yet. I have bought a second Host XR specifically for this purpose, and will update this page if I find out anything useful.
Bluetooth MarketingAnother interesting feature of these devices is that they are the only devices which (officially) work with AIRcable's open source Bluetooth marketing system, OpenProximity. While technically any Bluetooth device would work, OpenProximity blocks anything but the Host XR line of devices as they are the only Bluetooth devices powerful enough to be useful for proximity marketing. Plus the hardware sales are what keep AIRcable and development of OpenProximity going, so they aren't about to let you run it with the $4 adapter you got off of DealExtreme.
I hope to document the setup and use of an experimental OpenProximity in the near future. I am interested in how the system works, and what interesting applications there are for being able to push data into unsuspecting user's devices.