More Wireless Networking for Linux 244
I was sent word that AbsoluteValue and Intersil have announced more development of wireless support for Linux. The announcement is actually for Intersil PRISM-based WLAN cards, but what it does mean is more support for IEEE 802.11 wireless cards, access points, etc. Here at Slashdot, we've been using the ZoomAir cards, but are starting to play with the Lucent cards - what does everyone else think about Linux and wireless cards?
price (Score:1)
Wireless (Score:1)
Lets stop praying for someone to save us and save ourselves. ~KMFDM
WaveLAN Cards Nice on Linux (Score:2)
How can it be bad? (Score:1)
Ever since I've heard that Mandrake and all those folks at VA have a wireless LAN I can't think about this type of thing without drooling all over myself. I've had extremely limited experience with cellular modems, all of which totally sucked. But I've heard that cards like this are quite good.
Of course the whole wireless thing does give more of a blatant angle on the privacy issue...I hope no one is under the illusion that they're going to have privacy when using these things. Unless of course they gpg their data.
webgear cards are quite good (Score:4)
Home Networking (Score:1)
Wiring a residence (Score:1)
However, since I would hire the labor done (I have no love for pulling cable into walls), I'm now wondering if it would be cheaper (Or even close enough in cost to justify saving the trouble and having the extra freedom) to simply go with a wireless solution.
So what's the deal?
Re: (Score:2)
Sierra Wireless Aircard (Score:2)
Mobile Linux (Score:1)
Re:price (Score:1)
--
Breezecom works quite fine as well (Score:1)
It is a bit on the pricey side, but is very convenient.
Two words: Lanparty Barbecue (Score:1)
zoomair cards (Score:2)
--
Geoff Harrison (http://mandrake.net)
Senior Software Engineer - VA Linux Labs (http://www.valinux.com)
WaveLAN Cards have source available too (Score:1)
-gordon
The next step above a 'wireless LAN' (Score:1)
The project is called guerrilla.net [l0pht.com]. While most of the 'work' has yet to be done, they have set up a list of goals and ideals for the future - A very important step before such an interesting project takes place on a larger scale.
I know I would personally like to get involved in something similar to this; having a wireless 'intranet' of sorts (complete with 'gateways' to the _real_ internet) would 'tickle my pickle' quite well.
E-mail me [mailto] if you are as interested in this as I am.
Ben Brewer
brewer@nullified.org
Re:WaveLAN Cards Nice on Linux (Score:1)
Re:Home Networking (Score:1)
Right now, desktop wireless is not worth it. why? because you already have 8 cables coming off the back of your box. one more doesn't hurt. now for laptops, it makes much more sense.
Proxim (Score:2)
I like the Proxim (Score:1)
I worked out so slick that I am considering buying an access point for home and buying a PCMCIA card for my laptop, running Linux. However, it seems like finding someone who has used the pcmcia card under linux might be harder than it sounds.
If anyone has used this card under Linux, I'd like to hear about it.
Why is wireless networking tied to [OS] market? (Score:1)
Because of the OS independence of ethernet, I believe it would have been a better choice than USB as a peripheral bus. If packaged ethernet PCI cards can sell new for $8, then the ethernet chipset can't be all that expensive to stat building into printers, scanners, etc. And TCP/IP has more than enough address space to handle your CPUs devices (periph bus being separate from inet bus). And ethernet is faster than USB (that same sub $8 chipset does 100 megabit). But ethernet is not Intel's baby like USB is, so it'll be build onto mboards to the detriment of all that is better. Firewire never had a chance except maybe in the Mac world.
Re:Wireless (Score:1)
Not to mention that everyone needs to make a bit of money for their efforts. If you disagree, let it be known, I'm sure lots of people would love to give you a job paying peanuts.
Wireless technology is still in it's infancy. It costs more because it's rarer. It costs more because the past R&D is still amortized. It costs more because it's not good enough, meaning money needs to be budgeted to future versions of the product that can go 10x or 100x faster.
wireless how-to (Score:3)
Aviator WebGear 2.4 cards-the best value (Score:2)
Now that we have affordable IEEE 802.11 cards that work with Linux, I guess the next step is to have IEEE 802.11 access point capability for Linux. I guess having an access point is the easiest way to bridge seamlessly between an Ethernet and wireless; I did not have the time to deal with finding an alternative solution; so my wireless LAN is just another segment with its own non-routable class C; and I use masquerading at the gateway. I've been checking out the Absolute Value site for a while, but they seem to be concentrating on cards with the Intersil chipset.
--
BluetoothCentral.com [bluetoothcentral.com]
A site for everything Bluetooth. Coming soon.
Re:Sierra Wireless Aircard (Score:1)
The Merlin is a good card, but runs only under Windoze for the moment...
Emailed Novatel asking about Linux support, and they could not give me a definite answer. For those who are interested in the Merlin, check out http://www.novatelwireless.com [novatelwireless.com]. They also have the Omnisky wireless modem for Palm V users, which currently offers free unlimited usage during their beta period which is until the end of March 2000.
Aviator WebGear 2.4 is 70$/card (Score:2)
Once you go wireless, there really is no going back.
--
BluetoothCentral.com [bluetoothcentral.com]
A site for everything Bluetooth. Coming soon.
Next Step (Score:1)
WaveLan, Breezecom (Score:2)
We're using the Lucent WaveLan stuff here at CMU.
I've only used it under windows (no real good reason for my vaio to be running linux), but it's quite nice and performs really well. The software that comes with it is really cool -- you can see graphs of the network reliability, remember other users by their MAC address so you can see who else is using it near you, etc. We're not running encryption right now, which is somewhat tragic, but the WaveLan silver stuff apparently supports 56-bit DES. I've heard that it works well under linux, and have seen many machines running it.
We sell the breezecom stuff at work -- it's more expensive but boasts some nice features. They claim they can get 5 miles out of one station adapter -- which would be enough for me to connect to work's T1 from home! No idea about the linux drivers situation for this stuff.
Lucent makes the nicest-looking wireless equipment that I've seen, too (no ugly antennas!). Breezecom's hardware appears very amateurish (reminds me of a Commodore 64 or something).
- Tom 7
Wireless WebPad - Killer App for Transmeta WebPads (Score:2)
This is something that people will buy for their homes, as well as for their offices. When a car dealer can carry around the pad and order it for you on the lot - that's web-enabled data entry. When your doctor can run the web front end for the medical database in the secure internal wireless LAN in the clinic and update your data while giving you a check up - that's interesting.
When I can undock the web pad from the fridge or TV holder and start the bath, turn on the outside lights, check the web cam from my son's room, look at his homework chart from the school (darn, he has one of those silly papers due!), see that my Cisco stock is at $562 a share at the limit I set to sell some, sell the stock in the aftermarket, transfer the funds to my credit card, set Expedia for Linux searching for cheap fares to Hawaii, and cook dinner - now you're talking!
Re:WaveLAN Cards Nice on Linux (Score:1)
easy way to load music to your car. (Score:1)
Wireless break down. (Score:2)
Webgear here too (Score:2)
Survey from Spring (Score:3)
Wireless is coming (Score:2)
Personally, at work I use an Aironet (now owned by Cisco) 4800 card (under linux) and have had no problems. Some chorts of mine are currently setting up a point to point wireless conection with yaggis on the end of the same wireless cards in PCI carriers - seems the local carrier couldn't deliver a T1 fast enough, but there was no problem getting roof access...
Expect to see 11Mbps cards in the ~$100 price range soonish, with slightlylower prices for 2Mbps versions (based on older chipsets)
Around the same time, expect to see 'cable-modem-top' boxes that integrate a wireless bridge into a hub that you can plug your cable modem into in order to get portable net in your house.
All of this is for 100meterish-range wireless.
For closer range expect to see Bluetooth moving into all the places IRDA tried to go with only marginal success. Walkup printing, PDA access, even wireless headphones. It's too cheap and robust to fail.
For longer ranges, well, there's some work going on to use the cellular network for packet data, but here big companies and big money get in the way of the quick innovation that is needed for technologies to be tried fast enough to find a workable solution.
--Xandir
Re:Wireless (Score:2)
The cost is based on R&D, and the fact that they don't sell nearly as many. When everyone is buying wireless network cards, they'll be dirt cheap.
Re:price (Score:2)
Mainstream? I don't think that wireless cards were ever targeted at mainstream users.
That's funny. You're implying that 10/100 cards and cables are targeted at mainstream. I think the opposite is true - wireless is targeted more at mainstream than cables ever were - or it will be soon.
Anyone remember when 10/100's cost > $100? How long do you think this will take - especially with Apple pushing the Airports...
Re:webgear cards are quite good (Score:2)
even better than the Windows driver, based on
my experience - it never crashes the OS. I've also
gotten my windows and linux machines to talk
via the cards.
At $150US for 2 pcmcia cards and 2 ISA/PCMCIA adaptors, you can't beat these suckers.
Security (Score:1)
all cards are not equal... (Score:1)
interoperability of any 802.11 card is dependent on _which_ 802.11 spec the card conforms to...
for example, the WebGear cards run a FHSS (frequency hopping spread spectrum) access technique, where the Lucent cards (and AirPort and all other cards with the Harris/Intersil PRISM II chipset) use DSSS (direct sequence spread spectrum), which has its roots in Qualcomm's CDMA technology.
and then you get to decide on 1Mbps, 2Mbps, 11Mbps, and WEP encryption schemes and such...
i have not come upon a card or a basestation that knows how to speak both DSSS and FHSS. in shopping for a new wireless home network, it might be in your best interest to see what you're running at work, or what your buddy is running, so that you buy something compatible.
on a side note, has anyone seen a Lucent card in an ISA or PCI carrier? CDW has started offering the WaveLan silver again, but still without the carrier.
TIA
brian whitaker
applications engineer, maxim
bwhitake@knarf.com
Does IEEE 802.11 mean they all play well together (Score:1)
And here is another one: When I buy a card in the US, will I be able to connect to lets say the European version?
Re:Webgear here too (Score:1)
Uhm, what do you think an 802.11 AP is, but a bridge between the wireless and wired interfaces?
In the words of Nakor, 'There is no magic.'
--Z
Re:Aviator WebGear 2.4 is 70$/card (Score:1)
It is inexpensive, and truly amazing! Get one!
...
Wireless Cards for the Home!!! (Score:1)
I like WaveLAN because the AccessPoint can have 2 slots for PCMCIA cards. doubling your bandwidth.
I've seen the Nortel product, Baystack 650 and 660. Which are 1 MB and 2MB respectively. Nortel is coming out with the 670 soon, which is their 11MB version - 802.11 compliant.
By far, I like the Lucent product because there is encryption available for it. You can also get a pci/isa card for your desktop and make that wireless, or you can even make a printer wireless with another device I forget that that is called.
peace out
Lucent Cards- How much and where to buy? (Score:1)
How much are they for the different speeds?
I have seen people saying Lucent makes 8Mbs and 11Mbs. Is this true?
Do you need 1 card and a port? How much is that?
Can you get by with 2 pc cards, 1 in a non-mobile laptop attached to a ground line?
What is the range?
Thanks for the info-
Ed
Re:People helping the NSA (Score:1)
Wireless (Score:5)
Neither has full source, you need a binary-only module (or in the case of the proxim driver, a library that you link against, I believe built from the Proxim reference source.) The Proxim driver was a bit bitchy in it's early days, but I'm told it works very well now.
Another note... most wireless LAN solutions have some kind of 'base station' or 'access point' they expect you to buy. If all you have is a few PC's, and it's for the home hacker, you generally do not need this. The cards themselves can communicate with each other just fine. The base station usually serves as the bridge (possibly router) between your wired and wireless networks, sometimes with added features like supporitng multiple transcievers on multiple channels.
Another trick with wireless LAN cards.. if you replace the omnidirectional antenna they give you with a good directional antenna, you can massively extend the range. I have seen Proxim Rangelan II cards bridge distances of about 15 Km and still be within regulations. This also works if you have a wall you need to penetrate that you can't quite manage without. (depends on the materials, though..).
Also.. most wireless LAN cards, by regulation, must use a non-standard connector. Usually, it's a standard connector with the mating parts switched around. (this is to prevent joe average from hookingn his little card up to his linear amplifier and causing WW-III).
Hmm. I could go on for a while.. perhaps I should start a Wireless LAN HAcking FAQ?
Re:Does IEEE 802.11 mean they all play well togeth (Score:1)
802.11 doesn't specify FH (Frequency Hopping) or DS (Direct Sequencing). DS is what's taking over.
And yes, you also have to pay attention that the frequency is the same (2.4GHz is standard now)
And since the I in IEEE (the standards body that specified 802.11) stands for 'International', I sure hope you can connect with European versions
--Z
Re:Webgear here too (Score:1)
Wireless to ISP (Score:2)
Re:Security (Score:2)
Pretty much. Minor security in the form of an SSID that will keep the naive user from connecting to your net (it's really a way to run multiple wireless subnets that overlap), but nothing to stop the sophisticated user. Tcpdump works fine. So SSH is your friend. But of course the Men In Black have Tempest technology.
--Z
Re:price (Score:1)
Much success with Lucent WaveLAN cards outdoors. (Score:2)
Here at work, we recently (two weeks ago) implemented a four-block wireless shot direct from our main office, and it works like a charm. We used two Linux machines as the routers, with the PCMCIA-cs modules loaded along with the "wlan2" module which is available from Lucent here [wavelan.com]. The WaveLAN "silver" 2.4mbit cards were used on an ISA-PCMCIA bridge.
We got a professional communications company to run up antennas on towers on both sides of the shot, and it's great, no problems at all. We commonly get 5ms roundtrip times, and can push well over 1.6mbit (200Kb/sec), 0% packet loss, and the weather makes no difference from what we can see (and we've been through some heavy snowfall and rain already). As for the technical setup, in all honesty, any competent sysadmin should be able to set up such a connection in a snap -- it's that easy.
If it's a long outdoor wireless shot (as opposed to wireless for an indoors network only), you might be able to go out and climb onto a tower and do it on your own, but there are companies which exist to do that (antenna installation, pointing, etc) already. Then again, if you're trying to save cash, and want to hook up your friend a block or two away into your cable (or *DSL) connection via masq or whatever, then I suppose you could do that :)
However, it's not like this stuff is cheap, the cards are commonly $200cdn or so, with the antennas being just as much. Low-loss cable for the antenna is expensive, too. There are a lot of things to factor in, but all in all, it's all pretty cool stuff :)
It's great to see more and more companies supporting wireless on Linux, though, as it means not only will we get more robust drivers, but installation will be easier, and support will be broader. Of course, it should be obvious that anyone using wireless for the same thing we did (i.e. linking up two networks across a few blocks, or even kilometers away), they'll be using anything but Win* to do the routing work for the greatest amount of stability.
Wireless, Portables, and Cost. (Score:4)
Wireless is insanely useful for the portable market. Portable devices that aren't tethered by a cable are becoming more and more prominent in the workplace. The cost however is somewhat justified (note that I said somewhat - read below).
There is a lot of processing power in those little cards to implement the IEEE 802.11 spread spectrum model. They're not cheap for that very reason. Plus you don't have as huge a cable infrastructure, which is a cost most places forget about.
There are on average about 3-4 times as many components/transistors on a wireless card as there are on a comparable network card. You also have to remember that almost all PCI/ISA wireless cards are really a PCMCIA card in a PCMCIA adapter. Compare the cost of a PCMCIA network card to a PCMCIA wireless card and the difference isn't as great as it first seemed.
Why stick with PCMCIA and use adaptors? Well for a start, developing 2 cards in completely different technologies tends to take way too much time, and leads to revision problems. Add to this that the greatest market for wireless is actually portable devices that have PCMCIA slots, and you can see the economics that cause the choice.
However, I'd still like to see a Compact Flash version of these (and using a CF to PCMCIA adaptor, you can still stick with one version), even if it sticks out of the Compact Flash slot. This would bring wireless solutions to devices that could really benefit them. e.g. Cameras - you take a pic, it stores it locally, and then sends it over the wireless link to a box nearby to store it. PDA's - allows you to access network resouces when in range. And so on.
There are also H.323 compliant phones available that use IEEE 802.11 spread spectrum. They operate across your normal wireless network to provide wireless telephony. Now if only the cost would come down, I'd be happy! *sigh*
Re:Does IEEE 802.11 mean they all play well togeth (Score:1)
For the most part yes. There were a couple of open issues relating to the upper software layers (durring Spring 1999), but as for the hardware level they should be fully compatible. I haven't read the final spec to see if all the open issues were resolved or left open. And here is another one: When I buy a card in the US, will I be able to connect to lets say the European version?
I'm not positive on the answer to this, but I expect that the subset of frequencies to be different. I know it is between the US and Japan. Otherwise I think the hardware is the same. Now note that there is a couple of European groups working on other wireless lan standards.
When I go and setup my network at home I'm going to get cards that use the same chips in them. This is to squash all the possible compatibility issues as much as possible.
Semi OT: How far can these things go? (Score:1)
Wireless networking and ROBOTS (Score:1)
Re:Webgear here too (Score:1)
So you're right, it's a bit more than making just a bridge, but not much more, and certainly nothing you shouldn't be able to do on a linux box...
--Z
Re:I like the Proxim (Score:1)
to send this reply; i'm using v1.5.1 of the linux
driver available from http://www.komacke.com
there is also a mailing list for users of the
driver
I believe the latest version of the driver is 1.5.3
Re:Security (Score:1)
Geek Compound at Comdex '99 (Score:1)
I found my experience of wireless lan very much transparent, latency was low and transfer speed was great. For home network, multiple node internet access this must be the solution. After all who wants cat 5 all over thier home/appartment/cellar
Thanks again Geeks...
Re:Aviator WebGear 2.4 is 70$/card (Score:3)
I got the Webgear kit (2 cards) for about $150. I had a little trouble getting it to work at first, but once I got the newest version of the driver, I was flying wireless! For anyone out there who is married to a spouse that resents how much time you spend on the computer, a laptop with a wireless card is the way to go. I can sit in the living room (or anywhere else in the house) with my wife and chat while connected (wirelessly) to my Athlon and the internet. Now my wife can't complain that I'm always in the computer room.
-Steve
Re:Wireless break down. (Score:3)
'Microwave' is a generic term used to describe basically *everything* from about 2Ghz (maybe even 1Ghz.. I forget) to about 30 Ghz (where you get into millimeter wave).
This spectrum covers a *huge* range of radio properties... it's not like you are desribing some tiny band.. like LF, HF, VHF, UHF, etc...
That said, you are correct.
Many Wireless LAN devices operate in the 2.4Ghz ISM band.
Microwave ovens typically work at 2.45Ghz.
The main difference, of course, is power.
Proxim RangeLan II, 2.4Ghz ISM, approx. 100mW.
Microwave oven, 2.45Ghz: Approx. 600 W.
So.. your microwave oven uses the same frequencies, roughly.. but at 6000 times higher power.
Also.. all that junk about microwave ovens heating water molecules by using 'specific resonant frequencies' is bunk. They do it by applying large amounts of power, period.
Now.. to address your latency issues...
My friend, the latency for wireless is no different than through copper. Radio waves through air travel *faster* than signal through copper (not that it would be measurable without sophisticated equipment, or large distances).
There is no latency associated with wireless.
People do voice over satellite.. what.. do you think that's not latency? that's 1/4 second up, 1/4 second down, and the saem in revers.. 1 second RTT simply to geostationary orbit and back. And it uses microwave.. just the same.
Hmm. Perhaps you are a troll?
Perhaps we need to play q3.. I'll use my wireless internet connection, (2.4Ghz ISM DSSS product) and you use whatever you want, and I'll still win
Microwave works
Outdoor Wireless Solutions for ISPs, etc. (Score:1)
http://www.wavelan.com/news/news.html?id=76
Compaq WL (Score:1)
http://www.compaq.com/products/wlan/index.html
is the website for it and from the looks of it, seems pretty cool! Anyone know if it is supported under linux though??
Re:Semi OT: How far can these things go? (Score:3)
THe ratings they give are for their little crap omnidirectional antennas, that have almost no gain.
A directional yagi will give you great directonal gain, and allow you to do what you want. If oyu aren't comfortable with it, explain it to a radio technician who can make the appropriate custom cables for you.
To make an example... one pair of cards, rated at 600 feet, with the appropriate antennaes turned into a 17Km link from a mountain top to a cabin. Not bad for a few hundred bucks in wireless lan cards, and some good radio antennaes.
Also.. running cat5 cable between buildings is not such a good idea, you run the risk of ground loops and burnt wiring. Better to use 10BaseFL (cheap plastic optical cable) if you want to do it this way.
Bluetooth is the future (Score:4)
Anyone who knows anything about this technology knows what Im talking about. First of all, the price. The prices are around $30 for the chipset but it is expected to drop to about $5-$10 once mass production ramps up. This means they will show up everywhere.
So whats so great about bluetooth? Well it was orginally designed to replace irda but it will now be doing so much more. Bluetooth devices have about a 30ft range. When ever one device comes in contact with another, they set up somewhat of a mini network. Eight devices in all can make up one of these networks. One is the master telling the others what frequencies to skip to ect (Bluetooth operates at 2.4ghz and utalizes spread spectrum much like digital phones). These networks can then communicate with other networks of devices. This is all done on the fly and may be reconfigured constantly when new devices move in and out of the area.
So what can be done with this. Well, first the obvious, like networking printers ect but it has so much more potential. From what I hear, the bandwidth is comaprable to dsl which is plenty for most applications and other bluetooth devices dont hog the bandwidth. Well, for one you could could dial up a connection using your phone in your pocket without even touching it. Now imagine bluetooth everywhere and commercial services. Imagine negotiating for an internet connection in an airport without ahving to talk to anyone. Imagine pulic printers, and a slew of other things.
We are only beginning to realize what wireless technology can do. The potential is gigantic. There are some things to worry about like will each device have an id; autonegotiation is scary. 2.4ghz is also the resonate frequency of a water molecule, think leaky microwave. Still, I believe this is going to be amazing, 1) because its so cheap and 2) because its so easy. Truely plug and play networking. Expect to see bluetooth devices this spring and integration into laptops and phones by next fall. For more information, check out Bluetooths [bluetooth.com] home page. Lots and lots of big name backers. This is no vaporware.
Re:Wireless to ISP (Score:2)
Range like this is generally directional, especially with unlicensed products. Usually requires line of sight as well.
You will not find a product that will give you a 3 or 4 mile radius, and any kind of bandwidth for under a grand. Not even for 10 grand. Especially unlicensed.
Even if such a product were available for $100,000 (for the base station, at the ISP), they would already be all over the place.
Shameless plug (Score:2)
Since this is being discussed, I'd like to mention that I've had great success using a Lucent WaveLAN silver at LISA '99, and subsequently bought a Lucent WaveLAN Gold and Apple AirPort Base Station for use with my subnotebook at home.
I wrote an Enlightenment Epplet to graphically monitor the signal strength to the card, something that comes in very handy if you're wandering from room to room or building to building.
It's called E-Wireless, and is available from FreshMeat here [freshmeat.net].
I haven't yet adapted it to WindowMaker, Afterstep, and such, but it shouldn't be difficult at all.
I'm also currently working on an app that will allow you to set up an Apple AirPort Base Station from Linux.
Re:Does IEEE 802.11 mean they all play well togeth (Score:3)
http://til.info.apple.com/techinfo.nsf/artnum/n58
brian whitaker
applications engineer, maxim
bwhitake@knarf.com
Security? (Score:3)
Can anyone tell me about the potential security issues that arise once one is literally broadcasting their information? Is (for example) SSH just as secure over the airwaves as through an ethernet medium?
I have a 100baseTX connection to all of my boxes throughout my apartment, and that more than sufficiently serves my purposes, but it'd be nice to take my laptop outside to relax from time to time...
--Cycon
Bluetooth as a low-end wireless LAN.. (Score:2)
Do you think Bluetooth might be successful in this role? It is definitely not something Bluetooth is designed for; but it will be so inexpensive that inevitably this will be an application.
--
BluetoothCentral.com [bluetoothcentral.com]
A site for everything Bluetooth. Coming soon.
Re:Bluetooth is the future (Score:2)
2.4GHz is the ISM (industrial-scientific-medical) frequency band that doesn't require licencing by the FCC; and is allocated for similar use in most countries, except perhaps in France; where the military seems to be obsessed with using the most obscure frequencies possible.
--
BluetoothCentral.com [bluetoothcentral.com]
A site for everything Bluetooth. Coming soon.
I wish... (Score:2)
Re:zoomair cards (Score:3)
The only problem I had was the range. It only worked for about a block. So, I took the directional antennas off my X10 cams and patched them in. I had to take one of the cards apart to find out how to do it since no jack was available. Turns out a provision for a jack was on the circuit board layout, but not implimented. So, I notched the case at the end where the "Z" is on the zoomair logo, notched out some more plastic to move the "zero-ohm jumper" over from the internal antena to my new external. I epoxied the swivel mount of the miniture X10 directional antenna at the end. I wish I had my camera here to snap a shot as it looks pretty sharp. Anyhow, the range is spectacular. I was driving around town with it and only dropped a few ping packets.
Now I need to talk to my ISP and motivate them to set up a base station.
Re:Security? (Score:2)
The real question should be about how secure wireless connections are when you are running, say, standard telnet, or web browsing without SSL, and such. In those cases, there is the possibility that someone can associate to your network from outside the building with a wireless card, and sniff your packets.
There is something you can do about this. The IEEE 802.11 wireless standard also provides for WEP (Wired Equivalent Privacy) encryption. The idea is that wired communication should be at least as safe as wired communication. This encrypts data when it is sent over a radio, and decrypts it on the receiving radio.
Out of the radios I've worked with, I know for certain that Lucent's WaveLAN implements WEP with both 64 and 128 bits keys (depending on which version of the card you buy). Aironet is supposed to support WEP as well, but last I knew, they hadn't yet (this may have changed).
Proxim's RangeLAN2 doesn't follow the 802.11 standard, however they do have their own security built-in with a radio security ID, though I do not recall how strong this security is.
We need bridges (Score:2)
--
Re:Wireless break down. (Score:2)
Wireless networking isn't exactly OS dependent (Score:3)
And in fact they don't. At least not as far as transmission goes. But once you've caught a packet and stripped off the header, what do you do with the contents? Send 'em out serially? Parallel? How are you marking start and stop? That's where OS (and hardware) dependence comes into the picture. And like it or not, one particular OS has most of the market among the businesses who can afford to buy new technology, so that's the OS that people build for.
Because of the OS independence of ethernet, I believe it would have been a better choice than USB as a peripheral bus.
How do you figure? You want as little management overhead on the data part of your peripheral bus as possible: that's why PCI has so many special signals (REQ#, GNT#, FRAME#, etc.) that are just for control of who's got the bus. This leaves the address/data lines free for shoving data as fast as your clock can mark it off. This is an example of the basic rule that hardware can accomplish a given task faster than software but at greater cost: the PCI bus is some 47 signals wide. But pulling 47-strand wire would be a real pain, so Ethernet makes do with 8 and accomplishes all the overhead by encoding it in the packet header, which could be considered software for the purpose of the rule above.
If packaged ethernet PCI cards can sell new for $8, then the ethernet chipset can't be all that expensive to stat building into printers, scanners, etc.
Perhaps you've never heard of a print server? Or network attached storage? These are examples of peripherals that are on the network. The time delay communicating with them is acceptable because people can deal with printing or file accesses taking a while to complete. But would you want your mouse or keyboard to have the same kind of latency? I think not: you'd be shot down each time you respawned while you waited for your mouse movement to process.
But ethernet is not Intel's baby like USB is, so it'll be build onto mboards to the detriment of all that is better. Firewire never had a chance except maybe in the Mac world.
Since when is USB Intel's baby? Last I heard it was its own standard, as in standards organization... USB is not a competitor against Ethernet, it's a competitor against the serial port (and a vastly superior competitor at that). And Firewire is a competitor against, well, something like AGP and something like the home entertainment network that doesn't presently exist. It achieves its greater throughput by eliminating some of the error checking of USB, so you wouldn't want it for file access, where every bit is critical. But it's great for streaming music or video because a bit here or there on those is no great loss. Ethernet doesn't compete against either one--it's for communication among independent systems, where a peripheral bus is for communication among subparts of one system.
Jenny
Re:How to Add Wireless to Existing Lan? (Score:2)
In my case, a 486 SX-25 with 8MB of RAM works flawlessly as an Ethernet-to-wireless bridge. I recommend you get a cheap, old 486 powerful enough to run Linux, do a minimal Linux installation, and either set up kernel bridging or use masquerading to connect your Win98 box to your VAXen or what you have at your home. I have mine on a small UPS; and it just runs away from sight in the depths of a cabinet. The whole thing should cost about $30 with the exception of the Aviator card.
--
BluetoothCentral.com [bluetoothcentral.com]
A site for everything Bluetooth. Coming soon.
Re:We need bridges (Score:2)
Apple makes a lucent-compatible bridge for their AirPort line, or whatever it's called, that's supposed to just cost a couple hundred.
Re:Aviator WebGear 2.4 cards-the best value (Score:2)
Re:Wireless is coming (Score:2)
Most 802.11 cards I've seen are 900Mhz (918 orwhatever ISM band is..) or 2.4Ghz (ISM again).
2.4Ghz is about 15 cm.. not 100 Meter...no?
Re:Wireless is coming (Score:2)
Most 802.11 cards I've seen are 900Mhz (918 orwhatever ISM band is..) or 2.4Ghz (ISM again).
2.4Ghz is about 15 cm.. not 100 Meter...no?
Wouldn't 100 Meter be down below VHF?
Also.. cdpd (cellular packet data) is closer than you think.. many cellular providers already have their cdpd networks deployed... but that serves a different market.
802.11 "Compatibility"? (Score:2)
The Aviator cards sound like a fantastic deal, there's just one thing i wonder about.
How interoperable is this kinda thing? I ask, because my employer has a Lucent WaveLan Bronze bridge set up at work, and it would be Really Slick if i could carry my notebook to work, change the SSID, and hook up there as well.
I like the Lucent gear, sure, but sheesh it's expensive. I really like the price of the Webgear setup, but, are they doomed to be a closed loop? Will i have to buy another card to set up a bridge at work to use the same wireless setup there?
Re:Security? (Score:2)
Depends on the methods used.
DSSS is very difficult to sniff without a matching reciever that knows the appropriate codes.
FHSS is very difficult to sort out, especially if there are multiple transmitters (otherwise, you could sort out hops temporally). Of course.. signal strength is an indicator...
As for your neighbor using a compatable card to join your lan.. that's the only issue. Though there are a variety of methods employed to prevent sniffing in this manner, most are trivial in the end, and someone with a working knowledge of the driver & hardware in usecould modify it to show them everything. Of course, this also depends on the underlying protocol. Some types of Wlan actually negotiate individual packets securely.
Is SSH just as secure? The whole premise is that SSH is secure no matter who is listening. It's other protocols that will be insecure, as anyone within range can sniff.
Re:Security (Score:2)
It depends on the layer 2 protocol used on the radio side. In 802.11, this may be the case.
not all wireless lan cards use 802.11 (and certainly, many that do use 802.11 are not interoperable; 802.11 applies to several bands.).
Proxim, for one.. you can't just sniff on those cards. won't work. The driver (currently) doesn't support it, and I believe the firmware in the proxim radio (that determines how the protocol actually works) doesn't allow it... but proxim doesnt' use a CSMA/CA method.. they use a more detailed protocol where each host has to ask for permission to transmit to it's destination.... and other cards ignore.
Re:Semi OT: How far can these things go? (Score:2)
if it's 900 Mhz and a few trees, you might be okay.
If it's 2.4 Ghz and some trees.. hard to say. might work great.. might not.
If it's 3 new york blocks of steel reinforced concrete buildings.. not a chance.
Re:Does IEEE 802.11 mean they all play well togeth (Score:2)
802.11 covers infrared, FHSS, DSSS, several bands.
Now. I'm ignorant, I haven't read the whole spec, and i"m positive a subsection of it does deal with exact physical (radio) modulation & the like... (like 802.11a, 802.11b, etc... who knows).
Just as 802.3 by itself does not indicate the media type (is it 10Base2? 10BaseT? 10Broad25? 100BaseFL?).. 802.11 by itself does not specify the radio band or modulation type.
All you can confer when someone says '802.3' or '802.11' is the frame format, and an overall understanding of how the network functions at layers 1&2.
Subsections will indicate how various connection methods work. In 802.3, subsections describe physical media of various types, essentially defining standards. 802.11 will be the same way, but it's the frequency and modulation that will be at issue? is it AM IR? FM IR? DSSS 900Mhz ISM? FHSS 2.4Ghz ISM? (subsonic accoustic?) Gravity waves??
Re:Does IEEE 802.11 mean they all play well togeth (Score:2)
802.11 simply describes the protocol to be used of the wireless media, whatever it may be.
802.3 specifies the frame header, the preamble (used to synchronize the receiver), the checksum, the CSMA/CD mechanism, the backoff mechanism, etc...
802.11 does the same thing for wireless. The media is still variable.
Re:Wireless to ISP (Score:2)
after having problems with an Aironet bridge, the company i work for finally got ahold of someone who knew what he was doing, who explained the physics and showed us the math to the effect that at 2.4 ghz we needed a 40 foot wide corridor from end to end, over a 7 mile span. Which simply wasn't happening. anything in the way - like a branch of a tree, or a telephone pole, will send the signals scattering.
we installed a 23ghz, licensed frequency WinNet bridge (unfortunate name, great hardware) that needs more like a 12 foot corridor, which is working perfectly.
however, neither of these are exactly low-cost solutions.
Re:Wireless networking isn't exactly OS dependent (Score:2)
Firewire is pretty fast. but it's nowhere near as fast as AGP, nor is it vaguely similar in any way i can think of.
For starters, AGP 4x is a few orders of magnitude wider than firewire, with **MUCH** shorter wire lengths . . .
Re:Wireless break down. (Score:2)
Microwave oven: 600-1000W*
Typical WLAN Card: 100mW
*Legally, according to regulating gov't bodies, a microwave oven can LEAK 1 full WATT of power out its gaskets in the home
Re:wireless + ssh + vpn + cable +adsl (Score:2)
No
- have the ability to surf the net in each of those places.
Just hook up a Breezecom AP-10 to each LAN, set it to "roaming" mode and you're done.
- be able to "see" the pc's on the lans of the distributed locations, as though they were on thesame lan. (VPN)
- use crypto to secure the VPN.
- use a transparent proxy setup to mask the forced use of a proxy for webtraffic.
GateWeaver has a good VPN solution [gateweaver.com]
- have the ability to use the laptops in each of the locations transparently. (3 locations with wireless)
- i'm hesitating to use dhcp on the lan/vpn: to avoid being stranded if a node goes down, all the routers must deal out ip's to their own lans. They have to watch it not to step on each other's toes in the vpn though.
Best suggestion : set each internal LAN to use its own subnet (ie 10.0.1.0, 10.0.2.0, 10.0.3.0, etc), VPN them together and have DHCP assign IP addresses to the laptops (this way they get the right router gateway address
Your 486 boxes will probably not have the horse power for VPN crypto
Wireless Internet in Southern Ontario available NOW! WDSL Inc. [wdslinc.com]
Use IPSec with 3DES! (Score:2)
I'd recommend using IPSec's ESP + authentication, and not bothering with AH, which cannot go through NATs or IP Masquerading. You can use ESP tunnels to go right through a NAT and support wired or other VPN access to your home network.
I'd prefer to use tunnel mode even within the LAN, which is also a Schneier recommendation - then you have a clear distinction between encrypted and unencrypted interfaces - if you see any packets between non-tunnelled IP addresses, you know at once they weren't encrypted.
I haven't got this set up at home yet (still waiting for a colleague to dig out his free Nokia WLAN card - they were giving them away at Interop last September) but I will real soon now. I did use BayStack 650 cards at the IETF last year, but these don't have Linux support.
In a sense, all wireless access is dialin, since anyone can just fake a MAC address, stand next to your house and get right in to your network, so strong VPN support is a Good Thing - you might want to make your Wireless LAN gateway sit outside your firewall perhaps.
There are IPSec implementations for Linux, *BSD (check out http://www.freeswan.org/ for Linux and http://www.openbsd.org/ for OpenBSD), and many commercial ones for Windows (I think PGPnet is a free VPN client for Windows but it's only available in US).
One other thing to think about is DSSS vs FHSS - these are two variants of spread spectrum (direct sequence and frequency hopping) - cards can be 802.11 compatible and use either, but the two types cannot communicate... DSSS appears to be winning for 802.11 (2 Mbps version) but there's some questionmark over the allocation of spectrum for 802.11b DSSS (but I could have mis-remembered that last bit).
Wireless LANs are definitely the future - the standards are a huge mess, though. Things to check out include HomeRF (includes SWAP), BRAN (formerly HiperLAN 2, from ETSI), Bluetooth, and more, including the whole mobile phone saga of HSCSD, GPRS, EDGE, UMTS, and so on. But 802.11 seems to have a fairly good niche in Wireless LANs, so it will probably do OK.
Some WLAN vendors are talking to telcos about rolling this out to hotels and airports - the idea is you just walk into the place, sign on to your existing ISP (if they serve that area) or put in a credit card number on a web page, and then you're on the Net at 2 Mbps or higher.
IPSec encrypts everything (Score:2)
You can use all your normal applications, and there's no need for SSH on the LAN.
Better range through antenna mods (Score:2)
if you replace the [...] antenna [...] you can massively extend the range.
I'm impressed with 15km !, although I've done this myself on similar kit with good, but lesser, results. My experience was in the UK with MPT1340 pre-built modules at 418MHz (car alarm / door opener tech) - maybe the use of spread spectrum for the wireless LAN accounts for your greater success ? (all hail Hedy)
still be within regulations.
Now this I'm not so sure about. Certainly UK rules for the MPT1340 are very specific about keeping with the standard antennae designs they were certified with (not that it stopped me !). Some of the model rocket fliers and ferret keepers who use these things as retrieval homing beacons have built massive reception Yagi arrays.
Wirles LAN Hack FAQ. Yes Please !
IPSec on Linux (Score:2)
Re:People helping the NSA (Score:2)
One slightly odd implication is that the WLAN is a public network, so it should really be connected to the outside of your home firewall - otherwise you have to carefully IPSEC every host in your home, even the wired-only ones. Or you make the WLAN gateway into another firewall, but why have two firewalls?
WaveLab "Aviator 2.4" kit (Score:2)
This looks like a pretty good deal. They're not as good as the higher-end cards, I'm told, but they still seem pretty neat.
Currently setting up my NetBSD gateway machine to be a gateway to one more network...