CommandValidatorConf » History » Version 46
Yingdi Yu, 03/26/2014 11:49 AM
1 | 3 | Yingdi Yu | # Validator Configuration File Format |
---|---|---|---|
2 | 1 | Yingdi Yu | |
3 | 3 | Yingdi Yu | You can set up a `Validator` via a configuration file. |
4 | Next, we will show you how to write a configuration file. |
||
5 | 1 | Yingdi Yu | |
6 | 32 | Yingdi Yu | The configuration file consists of **rules** and **trust-anchors** that will be used in validation. |
7 | **Rules** tell the validator how to validate a packet, while **trust-anchors** tell the validator which certificates are valid immediately. |
||
8 | 4 | Yingdi Yu | Here is an example of configuration file containing two rules. |
9 | 3 | Yingdi Yu | |
10 | rule |
||
11 | 1 | Yingdi Yu | { |
12 | 9 | Yingdi Yu | id "Simple Rule" |
13 | 3 | Yingdi Yu | for data |
14 | 9 | Yingdi Yu | filter |
15 | 3 | Yingdi Yu | { |
16 | 6 | Yingdi Yu | type name |
17 | 22 | Yingdi Yu | name /localhost/example |
18 | 7 | Yingdi Yu | relation isPrefixOf |
19 | 3 | Yingdi Yu | } |
20 | 26 | Yingdi Yu | checker |
21 | 1 | Yingdi Yu | { |
22 | 27 | Yingdi Yu | type customized |
23 | 14 | Yingdi Yu | sig-type rsa-sha256 |
24 | key-locator |
||
25 | { |
||
26 | type name |
||
27 | 22 | Yingdi Yu | name /ndn/edu/ucla/KEY/yingdi/ksk-1234/ID-CERT |
28 | 14 | Yingdi Yu | relation equal |
29 | } |
||
30 | 6 | Yingdi Yu | } |
31 | 1 | Yingdi Yu | } |
32 | rule |
||
33 | { |
||
34 | 9 | Yingdi Yu | id "Testbed Validation Rule" |
35 | 1 | Yingdi Yu | for data |
36 | checker |
||
37 | 27 | Yingdi Yu | { |
38 | 1 | Yingdi Yu | type hierarchical |
39 | sig-type rsa-sha256 |
||
40 | } |
||
41 | 27 | Yingdi Yu | } |
42 | 32 | Yingdi Yu | trust-anchor |
43 | { |
||
44 | type file |
||
45 | file-name "testbed-trust-anchor.cert" |
||
46 | } |
||
47 | 1 | Yingdi Yu | |
48 | 29 | Yingdi Yu | * <font color='red'>**ATTENTION: The order of rules MATTERS!**</font> |
49 | 10 | Yingdi Yu | |
50 | 1 | Yingdi Yu | A rule can be broken into two parts: |
51 | |||
52 | 9 | Yingdi Yu | * The first part is to qualify packets to which the rule can be applied; |
53 | 27 | Yingdi Yu | * The second part is to check whether further validation process is necessary. |
54 | 1 | Yingdi Yu | |
55 | 27 | Yingdi Yu | When receiving a packet, the validator will apply rules in the configuration file one-by-one against the packet, |
56 | until finding a rule that the packet qualifies for. |
||
57 | And the second part of the matched rule will be used to check the validity of the packet. |
||
58 | 1 | Yingdi Yu | If the packet cannot qualify for any rules, it is treated as an invalid packet. |
59 | Once a packet has been matched by a rule, the rest rules will not be applied against the packet. |
||
60 | 27 | Yingdi Yu | Therefore, you should always put the most specific rule to the top, otherwise it will become useless. |
61 | 1 | Yingdi Yu | |
62 | In the example configuration, |
||
63 | the first rule indicates that all the data packets under the name prefix "/localhost/example" must be signed by a key whose certificate name is "/ndn/edu/ucla/KEY/yingdi/ksk-1234/ID-CERT". |
||
64 | If a packet does not have a name under prefix "/localhost/example", validator will skip the first rule and apply the second rule. |
||
65 | 32 | Yingdi Yu | The second rule indicates that any data packets must be validated along a hierarchy. |
66 | And a certificate stored in a file "testbed-trust-anchor.cert" is valid. |
||
67 | 27 | Yingdi Yu | |
68 | 11 | Yingdi Yu | ## Rules in general |
69 | 1 | Yingdi Yu | |
70 | 29 | Yingdi Yu | A rule has four types of properties: **id**, **for**, **filter**, and **checker**. |
71 | 1 | Yingdi Yu | |
72 | 27 | Yingdi Yu | The property **id** uniquely identifies the rule in the configuration file. |
73 | 11 | Yingdi Yu | As long as being unique, any name can be given to a rule, e.g., "Simple Rule", "Testbed Validation Rule". |
74 | 29 | Yingdi Yu | A rule must have one and only one **id** property. |
75 | 1 | Yingdi Yu | |
76 | 27 | Yingdi Yu | A rule is either used to validate an interest packet or a data packet. |
77 | 1 | Yingdi Yu | This information is specified in the property **for**. |
78 | Only two value can be specified: **data** and **interest**. |
||
79 | 29 | Yingdi Yu | A rule must have one and only one **for** property. |
80 | 1 | Yingdi Yu | |
81 | The property **filter** further constrains the packets that can be checked by the rule. |
||
82 | 29 | Yingdi Yu | Filter property is not required in a rule, in this case, the rule will capture all the packets passed to it. |
83 | A rule may contain more than one filters, in this case, a packet can be checked by a rule only if the packet satisfies all the filters. |
||
84 | 27 | Yingdi Yu | |
85 | 29 | Yingdi Yu | * <font color='red'>**ATTENTION: A packet that satisfies all the filters may not be valid**</font>. |
86 | 1 | Yingdi Yu | |
87 | 29 | Yingdi Yu | The property **checker** defines the conditions that a matched packet must fulfill to be treated as a valid packet. |
88 | 44 | Yingdi Yu | A rule must have at least one **checker** property, a packet is treated as invalid if it cannot pass none of the checkers. |
89 | 29 | Yingdi Yu | |
90 | 27 | Yingdi Yu | **filter** and **checker** have their own properties. |
91 | 29 | Yingdi Yu | Next, we will introduce them separately. |
92 | 12 | Yingdi Yu | |
93 | 27 | Yingdi Yu | ## Filter Property |
94 | 12 | Yingdi Yu | |
95 | 29 | Yingdi Yu | Filter has its own **type** property. |
96 | 13 | Yingdi Yu | Although a rule may contain more than one filters, there is at most one filter of each type. |
97 | 29 | Yingdi Yu | So far, only one type of filter is defined: **name**. |
98 | 27 | Yingdi Yu | In other word, only one filter can be specified in a rule for now. |
99 | 1 | Yingdi Yu | |
100 | 28 | Yingdi Yu | ### Name Filter |
101 | |||
102 | 27 | Yingdi Yu | There are two ways to express the conditions on name. |
103 | 21 | Yingdi Yu | The first way is to specify a relationship between the packet name and a particular name. |
104 | 7 | Yingdi Yu | In this case, two more properties are required: **name** and **relation**. |
105 | 27 | Yingdi Yu | A packet can fulfill the condition if the **name** has a **relation* to the packet name. |
106 | Three types of **relation** has been defined: **equal**, **isPrefixOf**, **isStrictPrefixOf**. |
||
107 | 1 | Yingdi Yu | For example, a filter |
108 | 22 | Yingdi Yu | |
109 | 21 | Yingdi Yu | filter |
110 | 1 | Yingdi Yu | { |
111 | type name |
||
112 | name /localhost/example |
||
113 | relation equal |
||
114 | } |
||
115 | 21 | Yingdi Yu | |
116 | 27 | Yingdi Yu | shall only capture a packet with the exact name "/localhost/example". |
117 | 21 | Yingdi Yu | And a filter |
118 | 22 | Yingdi Yu | |
119 | 21 | Yingdi Yu | filter |
120 | { |
||
121 | 1 | Yingdi Yu | type name |
122 | 21 | Yingdi Yu | name /localhost/example |
123 | relation isPrefixOf |
||
124 | } |
||
125 | 1 | Yingdi Yu | |
126 | 27 | Yingdi Yu | shall capture a packet with name "/localhost/example" or "/localhost/example/data", but cannot catch a packet with name "/localhost/another_example". |
127 | 1 | Yingdi Yu | And a filter |
128 | 22 | Yingdi Yu | |
129 | 21 | Yingdi Yu | filter |
130 | 8 | Yingdi Yu | { |
131 | 7 | Yingdi Yu | type name |
132 | 21 | Yingdi Yu | name /localhost/example |
133 | 13 | Yingdi Yu | relation isStrictPrefixOf |
134 | 21 | Yingdi Yu | } |
135 | 7 | Yingdi Yu | |
136 | 27 | Yingdi Yu | shall capture a packet with name "/localhost/example/data", but cannot catch a packet with name "/localhost/example". |
137 | 1 | Yingdi Yu | |
138 | The second way is to specify an [[Regex|NDN Regular Expression]] that can match the packet. |
||
139 | In this case, only one property **regex** is required. |
||
140 | For example, a filter |
||
141 | |||
142 | filter |
||
143 | { |
||
144 | type name |
||
145 | regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT>$ |
||
146 | } |
||
147 | |||
148 | shall capture all the identity certificates. |
||
149 | |||
150 | ## Checker Property |
||
151 | |||
152 | 29 | Yingdi Yu | Passing all the filters in a rule only indicates that a packet can be checked using the rule, |
153 | and it does not necessarily implies that the packet is valid. |
||
154 | 1 | Yingdi Yu | The validity of a packet is determined by the property **checker**, which defines the conditions that a valid packet must fulfill. |
155 | |||
156 | 29 | Yingdi Yu | Same as **filter**, **checker** has a property **type**. |
157 | 37 | Yingdi Yu | We have defined three types of checkers: **customized**, and **hierarchical**, and **fixed-signer**. |
158 | 29 | Yingdi Yu | As suggested by its name, **customized** checker allows you to customize the conditions according to specific requirements. |
159 | 37 | Yingdi Yu | **hierarchical** checker and **fixed-signer** checker are pre-defined shortcuts, which specify specific trust models separately. |
160 | 1 | Yingdi Yu | |
161 | 29 | Yingdi Yu | ### Customized Checker |
162 | |||
163 | 32 | Yingdi Yu | So far, we only allow three customized properties in a customized checker: **sig-type**, **key-locator**. |
164 | 29 | Yingdi Yu | All of them are related to the `SignatureInfo` of a packet. |
165 | |||
166 | 1 | Yingdi Yu | checker |
167 | 29 | Yingdi Yu | { |
168 | type customized |
||
169 | sig-type ... |
||
170 | key-locator |
||
171 | { |
||
172 | ... |
||
173 | } |
||
174 | } |
||
175 | |||
176 | The property **sig-type** specifies the acceptable signature type. |
||
177 | Right now two signature types have been defined: **rsa-sha256** (which is a strong signature type) and **sha256** (which is a weak signature type). |
||
178 | 32 | Yingdi Yu | If sig-type is sha256, then **key-locator** will be ignored. |
179 | 29 | Yingdi Yu | Validator will simply calculate the digest of a packet and compare it with the one in `SignatureValue`. |
180 | 32 | Yingdi Yu | If sig-type is rsa-sha256, you have to further customize the checker with **key-locator**. |
181 | 29 | Yingdi Yu | |
182 | The property **key-locator** which specifies the conditions on `KeyLocator`. |
||
183 | If the **key-locator** property is specified, it requires the existence of the `KeyLocator` field in `SignatureInfo`. |
||
184 | Although there are more than one types of `KeyLocator` defined in the [Packet Format](http://named-data.net/doc/ndn-tlv/signature.html), |
||
185 | **key-locator** property only supports one type: **name**: |
||
186 | |||
187 | key-locator |
||
188 | { |
||
189 | type name |
||
190 | ... |
||
191 | } |
||
192 | |||
193 | Such a key-locator property specifies the conditions on the certificate name of the signing key. |
||
194 | Since the conditions are about name, they can be specified in the same way as the name filter. |
||
195 | 1 | Yingdi Yu | For example, a checker could be: |
196 | |||
197 | checker |
||
198 | 21 | Yingdi Yu | { |
199 | 29 | Yingdi Yu | type customized |
200 | 21 | Yingdi Yu | sig-type rsa-sha256 |
201 | key-locator |
||
202 | { |
||
203 | type name |
||
204 | 1 | Yingdi Yu | name /ndn/edu/ucla/KEY/yingdi/ksk-1234/ID-CERT |
205 | relation equal |
||
206 | } |
||
207 | 15 | Yingdi Yu | } |
208 | |||
209 | This checker property requires that the packet must have a rsa-sha256 signature generated by a key whose certificate name is "/ndn/edu/ucla/KEY/yingdi/ksk-1234/ID-CERT". |
||
210 | 1 | Yingdi Yu | |
211 | 29 | Yingdi Yu | Besides the two ways to express conditions on the `KeyLocator` name (name and regex), |
212 | you can further constrain the `KeyLocator` name using the information extracted from the packet name. |
||
213 | 15 | Yingdi Yu | This third type of condition is expressed via a property **hyper-relation**. |
214 | 21 | Yingdi Yu | The **hyper-relation** property consists of three parts: |
215 | 1 | Yingdi Yu | |
216 | 21 | Yingdi Yu | * an NDN regular expression that can extract information from packet name |
217 | 29 | Yingdi Yu | * an NDN regular expression that can extract information from `KeyLocator` name |
218 | * relation from the part extracted from `KeyLocator` name to the one extracted from the packet name |
||
219 | 22 | Yingdi Yu | |
220 | For example, a checker: |
||
221 | 21 | Yingdi Yu | |
222 | checker |
||
223 | 1 | Yingdi Yu | { |
224 | 29 | Yingdi Yu | type customized |
225 | 15 | Yingdi Yu | sig-type rsa-sha256 |
226 | 6 | Yingdi Yu | key-locator |
227 | 1 | Yingdi Yu | { |
228 | type name |
||
229 | hyper-relation |
||
230 | { |
||
231 | k-regex ^([^<KEY>]*)<KEY>(<>*)<ksk-.*><ID-CERT>$ |
||
232 | 41 | Yingdi Yu | k-expand \\1\\2 |
233 | 35 | Yingdi Yu | h-relation isPrefixOf |
234 | 29 | Yingdi Yu | p-regex ^(<>*)$ |
235 | 41 | Yingdi Yu | p-expand \\1 |
236 | 29 | Yingdi Yu | |
237 | 1 | Yingdi Yu | } |
238 | } |
||
239 | } |
||
240 | |||
241 | 29 | Yingdi Yu | requires the packet name must be under the corresponding namespace of the `KeyLocator` name. |
242 | 1 | Yingdi Yu | |
243 | 32 | Yingdi Yu | In some cases, you can even customize checker with another property |
244 | 29 | Yingdi Yu | For example: |
245 | 1 | Yingdi Yu | |
246 | checker |
||
247 | { |
||
248 | 29 | Yingdi Yu | type customized |
249 | 1 | Yingdi Yu | sig-type rsa-sha256 |
250 | key-locator |
||
251 | { |
||
252 | 29 | Yingdi Yu | type name |
253 | 1 | Yingdi Yu | hyper-relation |
254 | { |
||
255 | k-regex ^([^<KEY>]*)<KEY>(<>*)<ksk-.*><ID-CERT>$ |
||
256 | 41 | Yingdi Yu | k-expand \\1\\2 |
257 | 35 | Yingdi Yu | h-relation isPrefixOf |
258 | 1 | Yingdi Yu | p-regex ^(<>*)$ |
259 | 41 | Yingdi Yu | p-expand \\1 |
260 | 1 | Yingdi Yu | } |
261 | 29 | Yingdi Yu | } |
262 | } |
||
263 | 16 | Yingdi Yu | |
264 | 29 | Yingdi Yu | ### Hierarchical Checker |
265 | |||
266 | As implied by its name, hierarchical checker requires that the packet name must be under the namespace of the packet signer. |
||
267 | 32 | Yingdi Yu | A hierarchical checker: |
268 | 29 | Yingdi Yu | |
269 | 37 | Yingdi Yu | checker |
270 | 29 | Yingdi Yu | { |
271 | type hierarchical |
||
272 | sig-type rsa-sha256 |
||
273 | } |
||
274 | 1 | Yingdi Yu | |
275 | 32 | Yingdi Yu | is equivalent to a customized checker: |
276 | 1 | Yingdi Yu | |
277 | 29 | Yingdi Yu | checker |
278 | 1 | Yingdi Yu | { |
279 | 26 | Yingdi Yu | type customized |
280 | 29 | Yingdi Yu | sig-type rsa-sha256 |
281 | key-locator |
||
282 | 1 | Yingdi Yu | { |
283 | 21 | Yingdi Yu | type name |
284 | 29 | Yingdi Yu | hyper-relation |
285 | 22 | Yingdi Yu | { |
286 | 29 | Yingdi Yu | k-regex ^([^<KEY>]*)<KEY>(<>*)<ksk-.*><ID-CERT>$ |
287 | 42 | Yingdi Yu | k-expand \\1\\2 |
288 | 35 | Yingdi Yu | h-relation isPrefixOf |
289 | 29 | Yingdi Yu | p-regex ^(<>*)$ |
290 | 42 | Yingdi Yu | p-expand \\1 |
291 | 29 | Yingdi Yu | } |
292 | 33 | Yingdi Yu | } |
293 | 29 | Yingdi Yu | } |
294 | |||
295 | 37 | Yingdi Yu | ### Fixed-Signer Checker |
296 | 29 | Yingdi Yu | |
297 | In some cases, you only accept packets signed with pre-trusted certificates, i.e. "one-step validation". |
||
298 | 37 | Yingdi Yu | Such a trust model can be expressed with **fixed-signer** checker. |
299 | 39 | Yingdi Yu | And you only need to specify the trusted certificate via property **signer**. |
300 | The definition of **signer** is the same as **trust-anchor**. |
||
301 | 29 | Yingdi Yu | For example: |
302 | |||
303 | 36 | Yingdi Yu | checker |
304 | 29 | Yingdi Yu | { |
305 | 1 | Yingdi Yu | type fixed-signer |
306 | sig-type rsa-sha256 |
||
307 | 39 | Yingdi Yu | signer |
308 | { |
||
309 | type file |
||
310 | file-name "trusted-signer.cert" |
||
311 | } |
||
312 | signer |
||
313 | { |
||
314 | 40 | Yingdi Yu | type base64 |
315 | base64-string "Bv0DGwdG...amHFvHIMDw==" |
||
316 | 39 | Yingdi Yu | } |
317 | 29 | Yingdi Yu | } |
318 | |||
319 | 32 | Yingdi Yu | ## Trust Anchors |
320 | |||
321 | 45 | Yingdi Yu | Although **trust-anchor** is always not required in the configuration file (for example, if fixed-signer checker is used), |
322 | it is very common to have a few trust-anchors in the configuration file, otherwise most packets cannot be validated. |
||
323 | 1 | Yingdi Yu | A configuration file may contain more than one trust anchors, but the order of trust anchors does not matter. |
324 | 45 | Yingdi Yu | The structure of trust-anchor is same as the **signer** in fixed-signer checker, for example: |
325 | |||
326 | trust-anchor |
||
327 | { |
||
328 | type file |
||
329 | file-name "trusted-signer.cert" |
||
330 | } |
||
331 | trust-anchor |
||
332 | { |
||
333 | type base64 |
||
334 | base64-string "Bv0DGwdG...amHFvHIMDw==" |
||
335 | } |
||
336 | 32 | Yingdi Yu | |
337 | 21 | Yingdi Yu | ## Example Configuration For NLSR |
338 | 25 | Yingdi Yu | |
339 | 24 | Yingdi Yu | The trust model of NLSR is semi-hierarchical. |
340 | 17 | Yingdi Yu | An example certificate signing hierarchy is: |
341 | 1 | Yingdi Yu | |
342 | 17 | Yingdi Yu | root |
343 | | |
||
344 | +--------------+---------------+ |
||
345 | site1 site2 |
||
346 | | | |
||
347 | 1 | Yingdi Yu | +---------+---------+ + |
348 | operator1 operator2 operator3 |
||
349 | | | | |
||
350 | +-----+-----+ +----+-----+ +-----+-----+--------+ |
||
351 | router1 router2 router3 router4 router5 router6 router7 |
||
352 | | | | | | | | |
||
353 | 22 | Yingdi Yu | + + + + + + + |
354 | 17 | Yingdi Yu | NLSR NSLR NSLR NSLR NSLR NSLR NSLR |
355 | 1 | Yingdi Yu | |
356 | However, entities name may not follow the signing hierarchy, for example: |
||
357 | 17 | Yingdi Yu | |
358 | Entity | Identity Name | Example | Certificate Name Example |
||
359 | -------- | ------------------------------------------------- | ------------------------------- | ------------------------------------------------ |
||
360 | root | /\<network\> | /ndn | /ndn/KEY/ksk-1/ID-CERT/%01 |
||
361 | 22 | Yingdi Yu | site | /\<network\>/\<site\> | /ndn/edu/ucla | /ndn/edu/ucla/KEY/ksk-2/ID-CERT/%01 |
362 | 17 | Yingdi Yu | operator | /\<network\>/\<site\>/%C1.O.N./\<operator-id\> | /ndn/edu/ucla/%C1.O.N./op1 | /ndn/edu/ucla/%C1.O.N./op1/KEY/ksk-3/ID-CERT/%01 |
363 | 26 | Yingdi Yu | router | /\<network\>/\<site\>/%C1.O.R./\<router-id\> | /ndn/edu/ucla/%C1.O.R./rt1 | /ndn/edu/ucla/%C1.O.R./rt1/KEY/ksk-4/ID-CERT/%01 |
364 | 17 | Yingdi Yu | NLSR | /\<network\>/\<site\>/%C1.O.R./\<router-id\>/NLSR | /ndn/edu/ucla/%C1.O.R./rt1/NLSR | /ndn/edu/ucla/%C1.O.R./rt1/NLSR/KEY/ksk-5/ID-CERT/%01 |
365 | 1 | Yingdi Yu | |
366 | 17 | Yingdi Yu | |
367 | 1 | Yingdi Yu | Assume that a typical NLSR data name is "/ndn/edu/ucla/%C1.O.R./rt1/NLSR/LSA/LSType.1/%01". |
368 | Then, the exception of naming hierarchy is "operator-router". |
||
369 | So we can write a configuration file with three rules. |
||
370 | The first one is a customized rule that capture the normal NLSR data. |
||
371 | The second one is a customized rule that handles the exception case of the hierarchy (operator->router). |
||
372 | And the last one is a hierarchical rule that handles the normal cases of the hierarchy. |
||
373 | |||
374 | We put the NLSR data rule to the first place, because NLSR data packets are the most frequently checked. |
||
375 | 17 | Yingdi Yu | The hierarchical exception rule is put to the second, because it is more specific than the last one. |
376 | 22 | Yingdi Yu | |
377 | And here is the configuration file: |
||
378 | |||
379 | rule |
||
380 | { |
||
381 | id "NSLR LSA Rule" |
||
382 | for data |
||
383 | filter |
||
384 | 17 | Yingdi Yu | { |
385 | type name |
||
386 | regex ^[^<NLSR><LSA>]*<NLSR><LSA> |
||
387 | } |
||
388 | checker |
||
389 | { |
||
390 | 29 | Yingdi Yu | type customized |
391 | 17 | Yingdi Yu | sig-type rsa-sha256 |
392 | key-locator |
||
393 | { |
||
394 | type name |
||
395 | 23 | Yingdi Yu | hyper-relation |
396 | 17 | Yingdi Yu | { |
397 | 1 | Yingdi Yu | k-regex ^([^<KEY>]*)<KEY><ksk-.*><ID-CERT>$ |
398 | 43 | Yingdi Yu | k-expand \\1 |
399 | 1 | Yingdi Yu | h-relation equal |
400 | 29 | Yingdi Yu | p-regex ^([^<NLSR><LSA>]*)<NLSR><LSA><LSType\.\d><>$ |
401 | 43 | Yingdi Yu | p-expand \\1 |
402 | 17 | Yingdi Yu | } |
403 | 22 | Yingdi Yu | } |
404 | } |
||
405 | } |
||
406 | rule |
||
407 | { |
||
408 | id "NSLR Hierarchy Exception Rule" |
||
409 | for data |
||
410 | filter |
||
411 | 17 | Yingdi Yu | { |
412 | type name |
||
413 | regex ^[^<KEY><%C1.O.R.>]*<%C1.O.R.><><KEY><ksk-.*><ID-CERT><>$ |
||
414 | } |
||
415 | checker |
||
416 | { |
||
417 | 29 | Yingdi Yu | type customized |
418 | 17 | Yingdi Yu | sig-type rsa-sha256 |
419 | key-locator |
||
420 | { |
||
421 | 19 | Yingdi Yu | type name |
422 | 1 | Yingdi Yu | hyper-relation |
423 | 18 | Yingdi Yu | { |
424 | 1 | Yingdi Yu | k-regex ^([^<KEY><%C1.O.N.>]*)<%C1.O.N.><><KEY><ksk-.*><ID-CERT>$ |
425 | 43 | Yingdi Yu | k-expand \\1 |
426 | 35 | Yingdi Yu | h-relation equal |
427 | 29 | Yingdi Yu | p-regex ^([^<KEY><%C1.O.R.>]*)<%C1.O.R.><><KEY><ksk-.*><ID-CERT><>$ |
428 | 43 | Yingdi Yu | p-expand \\1 |
429 | 1 | Yingdi Yu | } |
430 | } |
||
431 | } |
||
432 | } |
||
433 | rule |
||
434 | { |
||
435 | id "NSLR Hierarchical Rule" |
||
436 | for data |
||
437 | 30 | Yingdi Yu | filter |
438 | 1 | Yingdi Yu | { |
439 | type name |
||
440 | 46 | Yingdi Yu | regex ^[^<KEY>]*<KEY><ksk-.*><ID-CERT><>$ |
441 | } |
||
442 | checker |
||
443 | { |
||
444 | type hierarchical |
||
445 | sig-type rsa-sha256 |
||
446 | } |
||
447 | } |
||
448 | trust-anchor |
||
449 | { |
||
450 | type file |
||
451 | file-name "testbed-trust-anchor.cert" |
||
452 | } |
||
453 | |||
454 | ## Example Configuration For NRD |
||
455 | |||
456 | Assume NRD allows any valid testbed certificate to register prefix, the configuration file could be written as: |
||
457 | |||
458 | rule |
||
459 | { |
||
460 | id "NRD Prefix Registration Command Rule" |
||
461 | for interest |
||
462 | filter |
||
463 | { |
||
464 | type name |
||
465 | regex ^<localhost><nrd>[<register><unregister><advertise><withdraw>] |
||
466 | } |
||
467 | checker |
||
468 | { |
||
469 | type customized |
||
470 | sig-type rsa-sha256 |
||
471 | key-locator |
||
472 | { |
||
473 | type name |
||
474 | regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT><>$ |
||
475 | } |
||
476 | } |
||
477 | } |
||
478 | rule |
||
479 | { |
||
480 | id "Testbed Hierarchy Rule" |
||
481 | for data |
||
482 | filter |
||
483 | { |
||
484 | type name |
||
485 | regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT><>$ |
||
486 | 1 | Yingdi Yu | } |
487 | 29 | Yingdi Yu | checker |
488 | 1 | Yingdi Yu | { |
489 | 29 | Yingdi Yu | type hierarchical |
490 | 1 | Yingdi Yu | sig-type rsa-sha256 |
491 | } |
||
492 | 33 | Yingdi Yu | } |
493 | trust-anchor |
||
494 | { |
||
495 | type file |
||
496 | file-name "testbed-trust-anchor.cert" |
||
497 | 1 | Yingdi Yu | } |