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134 | .IX Title "GVPE 5" |
126 | .IX Title "GVPE 5" |
135 | .TH GVPE 5 "2008-09-01" "2.2" "GNU Virtual Private Ethernet" |
127 | .TH GVPE 5 "2013-07-10" "2.24" "GNU Virtual Private Ethernet" |
136 | .\" For nroff, turn off justification. Always turn off hyphenation; it makes |
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138 | .if n .ad l |
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139 | .nh |
131 | .nh |
140 | .SH "NAME" |
132 | .SH "NAME" |
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142 | .SH "DESCRIPTION" |
134 | .SH "DESCRIPTION" |
143 | .IX Header "DESCRIPTION" |
135 | .IX Header "DESCRIPTION" |
144 | \&\s-1GVPE\s0 is a suite designed to provide a virtual private network for multiple |
136 | \&\s-1GVPE\s0 is a suite designed to provide a virtual private network for multiple |
145 | nodes over an untrusted network. This document first gives an introduction |
137 | nodes over an untrusted network. This document first gives an introduction |
146 | to VPNs in general and then describes the specific implementation of \s-1GVPE\s0. |
138 | to VPNs in general and then describes the specific implementation of \s-1GVPE\s0. |
147 | .Sh "\s-1WHAT\s0 \s-1IS\s0 A \s-1VPN\s0?" |
139 | .SS "\s-1WHAT\s0 \s-1IS\s0 A \s-1VPN\s0?" |
148 | .IX Subsection "WHAT IS A VPN?" |
140 | .IX Subsection "WHAT IS A VPN?" |
149 | \&\s-1VPN\s0 is an acronym, it stands for: |
141 | \&\s-1VPN\s0 is an acronym, it stands for: |
150 | .IP "Virtual" 4 |
142 | .IP "Virtual" 4 |
151 | .IX Item "Virtual" |
143 | .IX Item "Virtual" |
152 | Virtual means that no physical network is created (of course), but a |
144 | Virtual means that no physical network is created (of course), but a |
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176 | networks. |
168 | networks. |
177 | .Sp |
169 | .Sp |
178 | \&\s-1GVPE\s0 provides a true multi-point network in which any number of nodes (at |
170 | \&\s-1GVPE\s0 provides a true multi-point network in which any number of nodes (at |
179 | least a few dozen in practise, the theoretical limit is 4095 nodes) can |
171 | least a few dozen in practise, the theoretical limit is 4095 nodes) can |
180 | participate. |
172 | participate. |
181 | .Sh "\s-1GVPE\s0 \s-1DESIGN\s0 \s-1GOALS\s0" |
173 | .SS "\s-1GVPE\s0 \s-1DESIGN\s0 \s-1GOALS\s0" |
182 | .IX Subsection "GVPE DESIGN GOALS" |
174 | .IX Subsection "GVPE DESIGN GOALS" |
183 | .IP "\s-1SIMPLE\s0 \s-1DESIGN\s0" 4 |
175 | .IP "\s-1SIMPLE\s0 \s-1DESIGN\s0" 4 |
184 | .IX Item "SIMPLE DESIGN" |
176 | .IX Item "SIMPLE DESIGN" |
185 | Cipher, \s-1HMAC\s0 algorithms and other key parameters must be selected |
177 | Cipher, \s-1HMAC\s0 algorithms and other key parameters must be selected |
186 | at compile time \- this makes it possible to only link in algorithms |
178 | at compile time \- this makes it possible to only link in algorithms |
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224 | impossible under most circumstances. |
216 | impossible under most circumstances. |
225 | .PP |
217 | .PP |
226 | Here are a few recipes for compiling your gvpe, showing the extremes |
218 | Here are a few recipes for compiling your gvpe, showing the extremes |
227 | (fast, small, insecure \s-1OR\s0 slow, large, more secure), between which you |
219 | (fast, small, insecure \s-1OR\s0 slow, large, more secure), between which you |
228 | should choose: |
220 | should choose: |
229 | .Sh "\s-1AS\s0 \s-1LOW\s0 \s-1PACKET\s0 \s-1OVERHEAD\s0 \s-1AS\s0 \s-1POSSIBLE\s0" |
221 | .SS "\s-1AS\s0 \s-1LOW\s0 \s-1PACKET\s0 \s-1OVERHEAD\s0 \s-1AS\s0 \s-1POSSIBLE\s0" |
230 | .IX Subsection "AS LOW PACKET OVERHEAD AS POSSIBLE" |
222 | .IX Subsection "AS LOW PACKET OVERHEAD AS POSSIBLE" |
231 | .Vb 1 |
223 | .Vb 1 |
232 | \& ./configure \-\-enable\-hmac\-length=4 \-\-enable\-rand\-length=0 |
224 | \& ./configure \-\-enable\-hmac\-length=4 \-\-enable\-rand\-length=0 |
233 | .Ve |
225 | .Ve |
234 | .PP |
226 | .PP |
235 | Minimize the header overhead of \s-1VPN\s0 packets (the above will result in |
227 | Minimize the header overhead of \s-1VPN\s0 packets (the above will result in |
236 | only 4 bytes of overhead over the raw ethernet frame). This is a insecure |
228 | only 4 bytes of overhead over the raw ethernet frame). This is a insecure |
237 | configuration because a \s-1HMAC\s0 length of 4 makes collision attacks based on |
229 | configuration because a \s-1HMAC\s0 length of 4 makes collision attacks almost |
238 | the birthday paradox pretty easy. |
230 | trivial. |
239 | .Sh "\s-1MINIMIZE\s0 \s-1CPU\s0 \s-1TIME\s0 \s-1REQUIRED\s0" |
231 | .SS "\s-1MINIMIZE\s0 \s-1CPU\s0 \s-1TIME\s0 \s-1REQUIRED\s0" |
240 | .IX Subsection "MINIMIZE CPU TIME REQUIRED" |
232 | .IX Subsection "MINIMIZE CPU TIME REQUIRED" |
241 | .Vb 1 |
233 | .Vb 1 |
242 | \& ./configure \-\-enable\-cipher=bf \-\-enable\-digest=md4 |
234 | \& ./configure \-\-enable\-cipher=bf \-\-enable\-digest=md4 |
243 | .Ve |
235 | .Ve |
244 | .PP |
236 | .PP |
245 | Use the fastest cipher and digest algorithms currently available in |
237 | Use the fastest cipher and digest algorithms currently available in |
246 | gvpe. \s-1MD4\s0 has been broken and is quite insecure, though, so using another |
238 | gvpe. \s-1MD4\s0 has been broken and is quite insecure, though, so using another |
247 | digest algorithm is recommended. |
239 | digest algorithm is recommended. |
248 | .Sh "\s-1MAXIMIZE\s0 \s-1SECURITY\s0" |
240 | .SS "\s-1MAXIMIZE\s0 \s-1SECURITY\s0" |
249 | .IX Subsection "MAXIMIZE SECURITY" |
241 | .IX Subsection "MAXIMIZE SECURITY" |
250 | .Vb 1 |
242 | .Vb 1 |
251 | \& ./configure \-\-enable\-hmac\-length=16 \-\-enable\-rand\-length=8 \-\-enable\-digest=sha1 |
243 | \& ./configure \-\-enable\-hmac\-length=16 \-\-enable\-rand\-length=12 \-\-enable\-digest=ripemd610 |
252 | .Ve |
244 | .Ve |
253 | .PP |
245 | .PP |
254 | This uses a 16 byte \s-1HMAC\s0 checksum to authenticate packets (I guess 8\-12 |
246 | This uses a 16 byte \s-1HMAC\s0 checksum to authenticate packets (I guess 8\-12 |
255 | would also be pretty secure ;) and will additionally prefix each packet |
247 | would also be pretty secure ;) and will additionally prefix each packet |
256 | with 8 bytes of random data. In the long run, people should move to |
248 | with 12 bytes of random data. |
257 | \&\s-1SHA\-256\s0 and beyond). |
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258 | .PP |
249 | .PP |
259 | In general, remember that \s-1AES\-128\s0 seems to be as secure but faster than |
250 | In general, remember that \s-1AES\-128\s0 seems to be as secure but faster than |
260 | \&\s-1AES\-192\s0 or \s-1AES\-256\s0, more randomness helps against sniffing and a longer |
251 | \&\s-1AES\-192\s0 or \s-1AES\-256\s0, more randomness helps against sniffing and a longer |
261 | \&\s-1HMAC\s0 helps against spoofing. \s-1MD4\s0 is a fast digest, \s-1SHA1\s0, \s-1RIPEMD160\s0, \s-1SHA256\s0 |
252 | \&\s-1HMAC\s0 helps against spoofing. \s-1MD4\s0 is a fast digest, \s-1SHA1\s0, \s-1RIPEMD160\s0, \s-1SHA256\s0 |
262 | are consecutively better, and Blowfish is a fast cipher (and also quite |
253 | are consecutively better, and Blowfish is a fast cipher (and also quite |
263 | secure). |
254 | secure). |
264 | .SH "HOW TO SET UP A SIMPLE VPN" |
255 | .SH "HOW TO SET UP A SIMPLE VPN" |
265 | .IX Header "HOW TO SET UP A SIMPLE VPN" |
256 | .IX Header "HOW TO SET UP A SIMPLE VPN" |
266 | In this section I will describe how to get a simple \s-1VPN\s0 consisting of |
257 | In this section I will describe how to get a simple \s-1VPN\s0 consisting of |
267 | three hosts up and running. |
258 | three hosts up and running. |
268 | .Sh "\s-1STEP\s0 1: configuration" |
259 | .SS "\s-1STEP\s0 1: configuration" |
269 | .IX Subsection "STEP 1: configuration" |
260 | .IX Subsection "STEP 1: configuration" |
270 | First you have to create a daemon configuration file and put it into the |
261 | First you have to create a daemon configuration file and put it into the |
271 | configuration directory. This is usually \f(CW\*(C`/etc/gvpe\*(C'\fR, depending on how you |
262 | configuration directory. This is usually \f(CW\*(C`/etc/gvpe\*(C'\fR, depending on how you |
272 | configured gvpe, and can be overwritten using the \f(CW\*(C`\-c\*(C'\fR command line switch. |
263 | configured gvpe, and can be overwritten using the \f(CW\*(C`\-c\*(C'\fR command line switch. |
273 | .PP |
264 | .PP |
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308 | .PP |
299 | .PP |
309 | By enabling routing on the gateway host that runs \f(CW\*(C`gvpe\*(C'\fR all nodes will |
300 | By enabling routing on the gateway host that runs \f(CW\*(C`gvpe\*(C'\fR all nodes will |
310 | be able to reach the other nodes. You can, of course, also use proxy \s-1ARP\s0 |
301 | be able to reach the other nodes. You can, of course, also use proxy \s-1ARP\s0 |
311 | or other means of pseudo-bridging, or (best) full routing \- the choice is |
302 | or other means of pseudo-bridging, or (best) full routing \- the choice is |
312 | yours. |
303 | yours. |
313 | .Sh "\s-1STEP\s0 2: create the \s-1RSA\s0 key pairs for all hosts" |
304 | .SS "\s-1STEP\s0 2: create the \s-1RSA\s0 key pairs for all hosts" |
314 | .IX Subsection "STEP 2: create the RSA key pairs for all hosts" |
305 | .IX Subsection "STEP 2: create the RSA key pairs for all hosts" |
315 | Run the following command to generate all key pairs for all nodes (that |
306 | Run the following command to generate all key pairs for all nodes (that |
316 | might take a while): |
307 | might take a while): |
317 | .PP |
308 | .PP |
318 | .Vb 1 |
309 | .Vb 1 |
319 | \& gvpectrl \-c /etc/gvpe \-g |
310 | \& gvpectrl \-c /etc/gvpe \-g |
320 | .Ve |
311 | .Ve |
321 | .PP |
312 | .PP |
322 | This command will put the public keys into \f(CW\*(C`/etc/gvpe/pubkeys/\f(CInodename\f(CW\*(C'\fR and the private keys into \f(CW\*(C`/etc/gvpe/hostkeys/\f(CInodename\f(CW\*(C'\fR. |
313 | This command will put the public keys into \f(CW\*(C`/etc/gvpe/pubkeys/\f(CInodename\f(CW\*(C'\fR and the private keys into \f(CW\*(C`/etc/gvpe/hostkeys/\f(CInodename\f(CW\*(C'\fR. |
323 | .Sh "\s-1STEP\s0 3: distribute the config files to all nodes" |
314 | .SS "\s-1STEP\s0 3: distribute the config files to all nodes" |
324 | .IX Subsection "STEP 3: distribute the config files to all nodes" |
315 | .IX Subsection "STEP 3: distribute the config files to all nodes" |
325 | Now distribute the config files and private keys to the other nodes. This |
316 | Now distribute the config files and private keys to the other nodes. This |
326 | should be done in two steps, since only the private keys meant for a node |
317 | should be done in two steps, since only the private keys meant for a node |
327 | should be distributed (so each node has only it's own private key). |
318 | should be distributed (so each node has only it's own private key). |
328 | .PP |
319 | .PP |
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344 | \& rsync \-avzessh /etc/gvpe/hostkeys/third third.example.net:/etc/hostkey |
335 | \& rsync \-avzessh /etc/gvpe/hostkeys/third third.example.net:/etc/hostkey |
345 | .Ve |
336 | .Ve |
346 | .PP |
337 | .PP |
347 | You should now check the configuration by issuing the command \f(CW\*(C`gvpectrl \-c |
338 | You should now check the configuration by issuing the command \f(CW\*(C`gvpectrl \-c |
348 | /etc/gvpe \-s\*(C'\fR on each node and verify it's output. |
339 | /etc/gvpe \-s\*(C'\fR on each node and verify it's output. |
349 | .Sh "\s-1STEP\s0 4: starting gvpe" |
340 | .SS "\s-1STEP\s0 4: starting gvpe" |
350 | .IX Subsection "STEP 4: starting gvpe" |
341 | .IX Subsection "STEP 4: starting gvpe" |
351 | You should then start gvpe on each node by issuing a command like: |
342 | You should then start gvpe on each node by issuing a command like: |
352 | .PP |
343 | .PP |
353 | .Vb 1 |
344 | .Vb 1 |
354 | \& gvpe \-D \-l info first # first is the nodename |
345 | \& gvpe \-D \-l info first # first is the nodename |
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366 | or equivalent. I use a line like this on all my systems: |
357 | or equivalent. I use a line like this on all my systems: |
367 | .PP |
358 | .PP |
368 | .Vb 1 |
359 | .Vb 1 |
369 | \& t1:2345:respawn:/opt/gvpe/sbin/gvpe \-D \-L first >/dev/null 2>&1 |
360 | \& t1:2345:respawn:/opt/gvpe/sbin/gvpe \-D \-L first >/dev/null 2>&1 |
370 | .Ve |
361 | .Ve |
371 | .Sh "\s-1STEP\s0 5: enjoy" |
362 | .SS "\s-1STEP\s0 5: enjoy" |
372 | .IX Subsection "STEP 5: enjoy" |
363 | .IX Subsection "STEP 5: enjoy" |
373 | \&... and play around. Sending a \-HUP (\f(CW\*(C`gvpectrl \-kHUP\*(C'\fR) to the daemon |
364 | \&... and play around. Sending a \-HUP (\f(CW\*(C`gvpectrl \-kHUP\*(C'\fR) to the daemon |
374 | will make it try to connect to all other nodes again. If you run it from |
365 | will make it try to connect to all other nodes again. If you run it from |
375 | inittab, as is recommended, \f(CW\*(C`gvpectrl \-k\*(C'\fR (or simply \f(CW\*(C`killall gvpe\*(C'\fR) will |
366 | inittab, as is recommended, \f(CW\*(C`gvpectrl \-k\*(C'\fR (or simply \f(CW\*(C`killall gvpe\*(C'\fR) will |
376 | kill the daemon, start it again, making it read it's configuration files |
367 | kill the daemon, start it again, making it read it's configuration files |